Abstract:
A bed frame and cover that is capably joinable to another bed frame and cover and capably disjoinable from another bed frame and cover and of which comprises a mattress supporting plate which is capable of moving vertically within the cover. The cover is a unified structure of walls and a roof with pivotally connected doors that capably form an enclosure around the plate or of which are stowable on the roof. The entire cover is capable of 360 degree bi-directional rotation around the entire plate as well as vertical movement. A capably pivotable mattress attachment is stowable under the plate or extends to form a contiguous mattress surface of which is supported by rods that connect to another bed frame and cover. The bed frame and cover is capable of a multitude of configurations dependent on bed frame, mattress attachment and the cover&#39;s optional positioning.

Description:
FIELD OF THE INVENTION 
       [0001]    The present invention relates to furniture, and more particularly, to a convertible bed frame and convertible cover. 
       BACKGROUND 
       [0002]    The present invention relates to furniture. More specifically, the present invention relates to a convertible bed frame and convertible cover. 
         [0003]    Conventionally, bed partners have shared an open-mattress within the same bed. However, bed partners may suffer an unsatisfactory bed experience caused by unwanted noise, unwanted light and undesirable temperature. Some efforts may have been made to enclose the bed unit. However, there are times when one bed partner may disrupt the other bed partner when both partners share the same bed unit. For example, bed-partner disruption may be caused by: snoring, noise from respirator and continuous positive airway pressure devices, electrical bed apparatuses, somniloquy, coughing, reading with a light on, watching television, operating a computing device, tossing and turning, pulling bed covers, and entering and exiting the bed. 
         [0004]    It would be advantageous for a bed frame and cover that is capably disjoinable from a like bed unit and joinable to a like bed unit such that the bed unit or combination of bed units transform to a multitude of configurations such that, at the least, the aforementioned problems would be solved. 
         [0005]    Some of these configurations could include: the traditional open, contiguous-surface mattress bed, two separate bed units each with open mattress, two separate bed units of which one is an open mattress and the other is a cover-enclosed mattress, two separate bed units each with a cover-enclosed mattress and one unified bed unit with a contiguous-mattress surface wherein the individual covers of the bed frames are configured so as to form a complete enclosure around the single, larger contiguous-surface mattress. 
         [0006]    It would be advantageous for a bed frame and cover that is capably disjoinable from a like bed unit and joinable to a like bed unit to comprise of: a bed frame of which is capable of vertical movement; a cover of which is a single, unified structure of which is capable of bi-directional 360 degree rotation around the entire mattress and of which is also capable of vertical movement; a mattress attachment of which avoids interference between the support structures of the covers of the individual bed units and such that the mattress attachment capably pivots into position between the two bed units so as to form a contiguous-mattress surface; rods which support the mattress attachment and capably extend into the other like bed unit so as to join the bed units and doors of which are capably moveable and capably pivotable such that the doors capably form a complete enclosure around the bed unit, are capably stowable upon the cover&#39;s roof and in a joined configuration, capably move to create a single, larger enclosure of the joined bed units. 
       BRIEF SUMMARY OF THE INVENTION 
       [0007]    In accordance with the present invention, there is provided a bed frame and also a cover of which the cover is optional and independent from the bed frame. 
         [0008]    In relation to the bed frame, the bed frame, a component of a bed-unit as described in the list of definitions, comprises of a bed frame and a mattress which may be of a plurality of dimensions, not limited to but including and commonly known as a single-sized, twin-sized, double-sized, full-sized, queen-sized or king-sized mattress. A bed-unit comprising of a single-sized, twin-sized, double-sized, full-sized, queen-sized or king-sized mattress may generally convert to a bed-unit with increased mattress area or, for a bed-unit comprising of a double-sized, full-sized, queen-sized or king-sized mattress may generally covert to a bed-unit with decreased mattress area. This is accomplished for bed-units comprising of a single-sized, twin-sized, double-sized, full-sized, queen-sized or king-sized mattress by employing a mattress attachment which is a mattress attached to a mattress plate of the bed-unit which generally swings 90 degrees upwards to increase mattress area, or for bed-units comprising of a double-sized, full-sized, queen-sized or king-sized mattress, may generally swing 90 degrees downwards to decrease mattress area. Additionally, a bed-unit joined to another bed-unit, forming a joined bed-pairing or a bed-unit with the mattress attachment in a raised position joined to another bed-unit, a joined bed-pairing, generally and without limitation, increases mattress area and a bed-unit within a joined bed-pairing that is separated from the other bed-unit generally and without limitation, decreases mattress area. A mattress platform group may generally comprise of a single center beam, two columns, two cylindrical connecting rods, two rod adapters, two receptacles, two receptacle frames, four cross supports, four cross support plates, one mattress plate, and one mattress. Each end of the mattress platform can independently be vertically shifted upwards or downwards. This is accomplished by motors placed beneath each end of the mattress platform which when activated raises or lowers the corresponding end of the mattress platform. To summarize, this enables both ends of the mattress platform to be raised and lowered or one end of the mattress platform to be raised and lowered. A mattress platform may generally comprise of a single center beam, two columns, four cross supports, four cross support plates, one mattress plate, and one mattress. The mattress platform can be rotationally tilted generally up to 360 degrees along its horizontal axis. This is accomplished as the cylindrical rods extend completely through the columns of the mattress platform thereby allowing the mattress platform which rests on the cylindrical rods to rotate generally up to 360 degrees along its horizontal axis. An electrically heated ring encompasses each cylindrical rod which deters arthropoda from traversing each cylindrical rod. Attached to the receptacle above and below the cylindrical rod is provided an electrically operated flood light which deters arthropoda from nearing the lit area and also from traversing each cylindrical rod. 
         [0009]    A polychromatic polarized light source, commonly referred to as a light therapy lamp, is attached to the top of a headboard of which the headboard is attached to the top of the column. 
         [0010]    An individual is afforded protection from carbon monoxide poisoning as an available oxygen mask and oxygen tank is located within the cover. 
         [0011]    In each corner of the mattress plate is a plurality of holes extending in to but not through the mattress plate. A mattress stay comprises of two pegs connected to each other by a flexible material which when inserted in to the holes in each corner of the mattress plate will prevent the mattress from shifting. 
         [0012]    A portable table top is attached to a folding frame of which the folding frame is attached to the headboard. The table top is folded in to a seated position at the headboard and is moved to an unfolded, extended and rotated position such that an individual in bed can eat on or work from the table top. 
         [0013]    A plastic container with extendible sides such that the width and length of the container is greater than the width and length of the mattress plate is attached to the bottom of the center beam. Fluid that falls from the bed frame and attached apparatus will be collected in the container and flow in to a drain located at the lowest point in the container which then flows in to a drainage system. 
         [0014]    A laser projector that displays scenes for entertainment purposes is attached to the headboard. 
         [0015]    A television is mounted to a mechanized apparatus of which the mechanized apparatus is attached to the column enabling the television to be raised and lowered. 
         [0016]    In relation to the cover, the cover is a rigid structure which can generally enclose the mattress platform and is comprised of one rigid frame, two rigid exterior walls each with an elongated cavity such that it enables the cylindrical rod referenced above to pass completely through the cavity, two cylindrical disks of rigid material each with an elongated cavity through the flat surface of the cylindrical disk such that it enables the cylindrical rod to pass completely through the cavity, two rigid support walls each with an elongated cavity such that it enables the cylindrical rod to pass completely through the cavity, two interior walls each with an elongated cavity such that it enables the cylindrical rod to pass completely through the cavity, sound suppression material between the support walls and the interior walls, two doors each comprising of a rigid exterior wall, a rigid interior wall and sound suppressing material between the rigid exterior wall and rigid interior wall, one roof comprising of a rigid exterior wall, a rigid interior wall and sound suppressing material between the rigid exterior wall and rigid interior wall. 
         [0017]    The cover, which is optional and independent from the bed frame, can be shifted upwards, downwards and rotated generally up to 360 degrees on its horizontal axis. Rotation is accomplished by mechanized continuous tracks moving generally horizontally upon which the cover&#39;s cylindrical disk engages. The mechanized continuous tracks are mounted on the tops of mechanized lifting devices. Shifting of the cover upwards and downwards is accomplished by the mechanized lifting devices mounted beneath the mechanized continuous tracks. 
         [0018]    Sound is inhibited from penetrating the interior of the cover as a consequence of the rigid exterior walls, rigid interior walls and sound suppressing material between the walls. Light is inhibited from penetrating the interior of the cover as a consequence of the rigid exterior and interior walls. 
         [0019]    An individual situated inside the cover is afforded protection from carbon monoxide poisoning as a physical barrier exists between that individual and the outside environment. 
         [0020]    An individual is afforded protection from carbon monoxide poisoning as an available oxygen mask and oxygen tank is located within the cover. 
         [0021]    Two locking mechanisms in each door afford an individual situated within the cover protection against kidnapping and assault. In addition, the locking mechanisms enable the individual to securely store their belongings within the cover. 
         [0022]    A fire alarm is attached to the exterior wall of the cover. 
         [0023]    A radio receiver is attached to an interior wall within the cover which is on the same frequency as a radio transmitter that is located in proximity to a common fire alarm. This enables an individual situated within the cover to hear a remote fire alarm. In addition, a radio system enables an individual situated within the cover to hear another individual located in a remote location. 
         [0024]    A button is attached to the interior wall inside the cover which when activated electronically alerts a monitoring station of an emergency situation. 
         [0025]    A monitor is affixed to an apparatus which is attached to the ceiling inside of the cover and can be generally pivotally repositioned. This enables an individual situated within the cover to view a monitor connected to closed circuit television and computing devices. 
         [0026]    The cover affords an individual or a plurality of individual&#39;s privacy while that individual or those individuals perform private actions. 
         [0027]    The exterior of the cover accepts reupholstered or new covering material. 
         [0028]    Air conditioning is provided to the inside of the cover through a conduit from an external air conditioning source located outside the cover. 
         [0029]    Heat is provided to the inside of the cover through a conduit from an external heat source located outside the cover. 
         [0030]    Filtered air is provided to the inside of the cover through a conduit from an external air filtration source located outside the cover. 
         [0031]    Air is exhausted through a filtered conduit located in the roof of the cover. In addition, this inhibits second hand smoke from entering the environment outside the cover. 
         [0032]    Positive and negative air pressure inside the cover is regulated by valves of air pressure devices located outside the cover and valves of the filtered conduit located in the roof of the cover. Positive and negative air pressure inhibits the transmission of pathogens crossing into or out of the cover. In addition, positive air pressure inhibits flying insects from crossing into the inside of the cover. 
         [0033]    Continuous positive air pressure is provided to a continuous positive air pressure head mask inside the cover through a conduit from an external continuous positive air pressure device located outside the cover. 
         [0034]    Noise cancelling devices are attached to the interior surfaces inside the cover. 
         [0035]    Lights are attached to the interior surfaces inside the cover. 
         [0036]    A separation door pivotally hangs from the ceiling of the cover and when pivoted generally downwards to a closed position provides privacy and particularly sound and light suppression for individuals situated on either side of the separation door. 
         [0037]    An intercom device is attached to an interior surface inside the cover. 
         [0038]    A trapeze hook is attached to an interior surface inside the cover to enable an individual to attach a trapeze or harness to the trapeze hook. 
         [0039]    A shower faucet is attached to the ceiling inside the cover and a shower mount with a portable handheld shower attachment is attached to the inside wall of the cover of which both are attached to an external water supply located outside the cover. This enables an individual to shower inside the cover. 
         [0040]    Speakers are attached to the interior surfaces inside the cover. This enables an individual to hear sounds inside the cover from the speakers which are connected to external audio devices. 
         [0041]    A voice activated recording device is attached to an interior surface inside the cover to enable recording and play back of audio recordings recorded inside the cover. 
         [0042]    An electrical outlet is attached to an interior surface inside the cover to electrically charge electrical devices. 
         [0043]    The end posts are covered by portable headboards and footboards of which the portable headboards and footboards are attached to the end posts and constructed in popular bed styles and in particular panel bed, sleigh bed, canopy bed and four-post bed styles. 
         [0044]    As referenced above, a mattress attachment is attached to the mattress plate. In the raised position, the mattress attachment connected to a twin bed or single bed may create a double bed, full-size bed, queen-size bed or king-size bed, dependent on the width of the mattress attachment. In the raised position, the mattress attachment connected to a double bed or full-size bed may create a queen-size bed or king-size bed, dependent on the width of the mattress attachment. In the raised position, the mattress attachment connected to a queen-size bed may create a king-size bed, dependent on the width of the mattress attachment. In the raised position, the mattress attachment connected to a twin bed or single bed may generally fill the void between two twin beds or single beds positioned apart from each other thereby creating a king-sized bed. 
         [0045]    Fitted sheets of a plurality of widths cover a plurality of mattress attachment sizes. 
         [0046]    The bed frame and optional and independent cover, together, converts to a plurality of positions of which some positions are described as follows. 
         [0047]    As referenced above, the cover can be rotated on its horizontal axis generally up to 360 degrees. In addition, one door may be opened and seated on the top of the roof while the other door remains closed and both doors can be opened and seated on top of the roof and both doors can remain closed. Two single-sized or twin-sized bed frames and covers, rotated 180 degrees such that the roofs are inverted, connected to each other with a mattress attachment between them form a joined bed-pairing with larger mattress area. From this position, the two bed frames and covers can be separated from each other with the mattress attachment lowered providing distance between the bed frames and covers. 
         [0048]    In a bed pair, when the bed frames are separated and one cover remains inverted, the cover on the other bed frame can be horizontally rotated 90 degrees on its axis with one door completely open. This provides privacy and particularly sound and light suppression for individuals situated on either side of the open door. 
         [0049]    In a bed-pairing, when the bed frames are separated and one cover remains inverted, the cover on the other bed frame can be horizontally rotated generally 180 degrees on its axis with both doors closed providing privacy and particularly sound and light suppression for individuals situated in each bed-unit. 
         [0050]    In a bed-pairing, when the bed frames are separated and both covers have been horizontally rotated 180 degrees on their axis with all doors closed this provides complete privacy and particularly sound and light suppression for each individual situated in each bed-unit. 
         [0051]    In a bed-pairing, when the bed frames are separated from each other with a mattress attachment in the raised position and both covers have been horizontally rotated generally 180 degrees on their axis and the doors furthest from the mattress attachment are closed and the doors closest to the mattress attachment are opened, this provides complete privacy and particularly sound and light suppression for an individual or individuals situated on either side of the generally joined covers and an intimate environment for the individuals within the generally joined covers. 
         [0052]    In a bed-pairing, when the bed frames are separated and both covers are inverted and two doors on one cover remain closed, this provides a secure enclosure thereby inhibiting an individual situated in that bed from falling out of that bed. 
         [0053]    In a bed-pairing, when the bed frames are separated from each other with a mattress attachment in the raised position and both covers inverted and one door furthest away from the mattress attachment on one cover remaining closed, this provides a secure enclosure thereby inhibiting an individual situated on that side of the joined bed-pairing from falling out of bed. 
         [0054]    A bed-unit, when the cover has been horizontally rotated generally 180 degrees on its axis with all doors closed, provides complete privacy and particularly sound and light suppression for an individual or individuals situated within the bed-unit and outside of the bed-unit. 
         [0055]    A bed-unit, when the cover has been horizontally rotated generally 180 degrees on its axis with one door closed provides a secure enclosure thereby inhibiting an individual situated in that bed from falling out of that bed. 
         [0056]    All electrical components of the present invention and alternate embodiments of the present invention are generally connected to a circuit board and infrared receiver of which are activated by a remote control. 
         [0057]    A list of definitions immediately follows: 
         [0058]    A bed-unit comprises of one bed frame which may or may not include a cover and may or may not include a step. 
         [0059]    A bed-pairing comprises of one bed-unit generally aligned adjacently to another bed-unit with neither mattress of either bed-unit in contact with each other. 
         [0060]    A joined bed-pairing comprises of one bed-unit generally aligned adjacently to another bed-unit with the mattress of one bed-unit in general contact with the mattress of the other bed unit or with a mattress attachment between both bed-units and such that the mattress attachment is in general contact with both mattresses of the bed-units. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0061]      FIG. 1  is a perspective view of the present invention comprising of the bed frame, independent and optional cover, and step; 
           [0062]      FIG. 2  is a right side elevation view of the present invention comprising of the bed frame, independent and optional cover, and step; 
           [0063]      FIG. 3  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover, and step; 
           [0064]      FIG. 4  is a left side elevation view of the present invention comprising of the bed frame and independent and optional cover; 
           [0065]      FIG. 5  is a top plan view of the present invention comprising of the bed frame, independent and optional cover, and step; 
           [0066]      FIG. 6  is a bottom plan view of the present invention comprising of the bed frame, independent and optional cover, and step; 
           [0067]      FIG. 7  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0068]      FIG. 8  is a perspective view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0069]      FIG. 9  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0070]      FIG. 10  is a top plan view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0071]      FIG. 11  is a perspective view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a joined bed-pairing; 
           [0072]      FIG. 12  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a joined bed-pairing; 
           [0073]      FIG. 13  is a top plan view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a joined bed-pairing; 
           [0074]      FIG. 14  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0075]      FIG. 15  is a right side elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0076]      FIG. 16  is a perspective view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0077]      FIG. 17  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0078]      FIG. 18  is a right side elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0079]      FIG. 19  is a top plan view of the present invention comprising of the bed frame and independent and optional cover beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0080]      FIG. 20  is a perspective view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0081]      FIG. 21  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0082]      FIG. 22  is a top plan view of the present invention comprising of the bed frame and independent and optional cover beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0083]      FIG. 23  is a perspective view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a joined bed-pairing; 
           [0084]      FIG. 24  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step which together form a bed-pairing; 
           [0085]      FIG. 25  is a top plan view of the present invention comprising of the independent and optional cover beside another bed frame, independent and optional cover, step, and which together form a bed-pairing; 
           [0086]      FIG. 26  is a perspective view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed pairing; 
           [0087]      FIG. 27  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed pairing; 
           [0088]      FIG. 28  is a right side elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed pairing; 
           [0089]      FIG. 29  is a top plan view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a bed pairing; 
           [0090]      FIG. 30  is a perspective view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a joined bed pairing; 
           [0091]      FIG. 31  is a left side elevation view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a joined bed pairing; 
           [0092]      FIG. 32  is a top plan view of the present invention comprising of the bed frame, independent and optional cover, and step beside another bed frame, independent and optional cover, step, and which together form a joined bed pairing; 
           [0093]      FIG. 33  is a right side elevation view of the present invention comprising of the bed frame and step; 
           [0094]      FIG. 34  is a perspective view of the present invention comprising of the bed frame and step; 
           [0095]      FIG. 35  is a back side elevation view of the present invention comprising of the bed frame and step; 
           [0096]      FIG. 36  is a perspective view of the present invention comprising of the bed frame and step; 
           [0097]      FIG. 37  is a right side elevation view of the present invention comprising of the bed frame and step; 
           [0098]      FIG. 38  is a right side elevation view of the present invention comprising of the bed frame and step; 
           [0099]      FIG. 39  is a perspective view of the present invention comprising of the bed frame and step; 
           [0100]      FIG. 40  is a right side elevation view of the present invention comprising of the bed frame and step; 
           [0101]      FIG. 41  is a left side elevation view of the present invention comprising of the bed frame and step; 
           [0102]      FIG. 42  is a perspective view of the present invention comprising of the bed frame and step; 
           [0103]      FIG. 43  is a right side elevation view of the present invention comprising of the bed frame and step; 
           [0104]      FIG. 44  is a left side elevation view of the present invention comprising of the bed frame and step; 
           [0105]      FIG. 45  is a right side elevation view of the present invention comprising of the bed frame and step; 
           [0106]      FIG. 46  is a perspective view of the present invention comprising of the bed frame and step; 
           [0107]      FIG. 47  is a perspective view of the bed frame, independent and optional cover, and steps of the present invention; 
           [0108]      FIG. 48  is a perspective view of the bed frame, independent and optional cover, and steps of the present invention; 
           [0109]      FIG. 49  is a perspective view of the bed frame, independent and optional cover, and steps of the present invention; 
           [0110]      FIG. 50  is a perspective view of the bed frame and independent and optional cover of the present invention; 
           [0111]      FIG. 51  is a perspective view of the bed frame and independent and optional cover of the present invention; 
           [0112]      FIG. 52  is a perspective view of the shower basin of the present invention; 
           [0113]      FIG. 53  is a perspective view of the shower basin of the present invention; 
           [0114]      FIG. 54  is a right side elevation view of the shower basin of the present invention; 
           [0115]      FIG. 55  is a right side elevation view of the shower basin of the present invention; 
           [0116]      FIG. 56  is a perspective view of the bed frame, independent and optional cover, step and shower basin of the present invention; 
           [0117]      FIG. 57  is a right side elevation view of the bed frame, independent and optional cover, step and shower basin of the present invention; 
           [0118]      FIG. 58  is a right side elevation view of the brace of the present invention; 
           [0119]      FIG. 59  is a left side elevation view of the brace of the present invention; 
           [0120]      FIG. 60  is a front elevation view of the top lateral brace of the present invention; 
           [0121]      FIG. 61  is a front elevation view of the bottom lateral brace of the present invention; 
           [0122]      FIG. 62  is a right side elevation view of the alternate embodiment of the brace; 
           [0123]      FIG. 63  is a front elevation view of the receptacle frame of the present invention; 
           [0124]      FIG. 64  is a front elevation view of the alternate embodiment receptacle frame; 
           [0125]      FIG. 65  is a perspective view of the receptacle of the present invention; 
           [0126]      FIG. 66  is a perspective view of an alternate embodiment of the receptacle; 
           [0127]      FIG. 67  is a perspective view of an alternate embodiment of the receptacle; 
           [0128]      FIG. 68  is a perspective view of an alternate embodiment of the receptacle; 
           [0129]      FIG. 69  is a perspective view of the adapter of the present invention; 
           [0130]      FIG. 70  is a back elevation view of the adapter of the present invention; 
           [0131]      FIG. 71  is a right side elevation view of the rod of the present invention; 
           [0132]      FIG. 72  is a right side elevation view of an alternate embodiment of the rod; 
           [0133]      FIG. 73  is a perspective view of the rod and box assembly of the present invention; 
           [0134]      FIG. 74  is a front elevation view of the motorized lifting device group of the present invention; 
           [0135]      FIG. 75  is a perspective view of the roller boot assembly of the present invention; 
           [0136]      FIG. 76  is a perspective view of the roller boot assembly of the present invention; 
           [0137]      FIG. 77  is a perspective view of the track assembly of the present invention; 
           [0138]      FIG. 78  is a perspective view of the brace assembly of the present invention; 
           [0139]      FIG. 79  is a right side elevation view of the brace assembly and rod and box assemblies of the present invention; 
           [0140]      FIG. 80  is a right side elevation view of the brace assembly and mattress platform group of the present invention; 
           [0141]      FIG. 81  is a perspective view of the column and column tilt motor assembly of the present invention; 
           [0142]      FIG. 82  is a perspective view of the beam of the present invention; 
           [0143]      FIG. 83  is a perspective view of an alternate embodiment of the beam; 
           [0144]      FIG. 84  is a perspective view of an alternate embodiment of the beam; 
           [0145]      FIG. 85  is a perspective view of an alternate embodiment of the beam; 
           [0146]      FIG. 86  is a front side elevation view of the column of the present invention; 
           [0147]      FIG. 87  is a front elevation view of an alternate embodiment of the column; 
           [0148]      FIG. 88  is a front elevation view of an alternate embodiment of the column; 
           [0149]      FIG. 89  is a front elevation view of an alternate embodiment of the column; 
           [0150]      FIG. 90  is a perspective view of the beam and column of the present invention; 
           [0151]      FIG. 91  is a perspective view of the cross support of the present invention; 
           [0152]      FIG. 92  is a front elevation view of the cross support of the present invention; 
           [0153]      FIG. 93  is a back elevation view of the cross support of the present invention; 
           [0154]      FIG. 94  is a left side elevation view of the cross support of the present invention; 
           [0155]      FIG. 95  is a right side elevation view of the cross support of the present invention; 
           [0156]      FIG. 96  is a top plan view of the cross support of the present invention; 
           [0157]      FIG. 97  is a bottom plan view of the cross support of the present invention; 
           [0158]      FIG. 98  is a perspective view of the beam, column and cross supports of the present invention; 
           [0159]      FIG. 99  is a right side elevation view of the beam, column and cross supports of the present invention; 
           [0160]      FIG. 100  is a left side elevation view of the beam, column and cross supports of the present invention; 
           [0161]      FIG. 101  is a top plan view of the beam, column and cross supports of the present invention; 
           [0162]      FIG. 102  is a bottom plan view of the beam, column and cross supports of the present invention; 
           [0163]      FIG. 103  is an alternate embodiment of the cross supports and beam relating to the present invention; 
           [0164]      FIG. 104  is an exploded view of the mattress stay of the present invention; 
           [0165]      FIG. 105  is a front elevation view of the mattress stay of the present invention; 
           [0166]      FIG. 106  is a perspective view of the mattress plate and stays of the present invention; 
           [0167]      FIG. 107  is a perspective view of an alternate embodiment of the mattress plate relating to the present invention; 
           [0168]      FIG. 108  is a perspective view of the beam, columns, cross supports and mattress plate of the present invention; 
           [0169]      FIG. 109  is a perspective view of the mattress of the present invention; 
           [0170]      FIG. 110  is a perspective view of the beam, columns, cross supports, mattress plate, mattress and mattress straps of the present invention; 
           [0171]      FIG. 111  is a perspective view of the scissor assembly of the present invention; 
           [0172]      FIG. 112  is a perspective view of the scissor assembly of the present invention; 
           [0173]      FIG. 113  is a perspective view of the push-pull assembly of the present invention; 
           [0174]      FIG. 114  is a perspective view of the push-pull assembly of the present invention; 
           [0175]      FIG. 115  is a perspective view of the hanger assembly of the present invention; 
           [0176]      FIG. 116  is a perspective view of the mattress attachment plate of the present invention; 
           [0177]      FIG. 117  is a perspective view of the mattress attachment plate of the present invention; 
           [0178]      FIG. 118  is a perspective view of the mattress attachment and mattress attachment plate of the present invention; 
           [0179]      FIG. 119  is a perspective view of the mattress attachment, mattress attachment plate and hanger assembly of the present invention; 
           [0180]      FIG. 120  is a perspective view of the mattress attachment assembly of the present invention; 
           [0181]      FIG. 121  is a perspective view of the mattress attachment assembly of the present invention; 
           [0182]      FIG. 122  is a perspective view of the mattress attachment assembly of the present invention; 
           [0183]      FIG. 123  is a perspective view of the mattress attachment assembly of the present invention; 
           [0184]      FIG. 124  is a perspective view of the mattress platform of the present invention; 
           [0185]      FIG. 125  is a right side elevation view of the mattress platform group of the present invention; 
           [0186]      FIG. 126  is a left side elevation view of the mattress platform group of the present invention; 
           [0187]      FIG. 127  is a top plan view of an alternate embodiment of the present invention; 
           [0188]      FIG. 128  is a cross sectional view of the guide bar of the present invention; 
           [0189]      FIG. 129  is a cross sectional view of the guide bar of the present invention; 
           [0190]      FIG. 130  is a cross sectional view of the door motor assembly of the present invention; 
           [0191]      FIG. 131  is a cross sectional view of the door motor assembly of the present invention; 
           [0192]      FIG. 132  is a perspective view of the cover of the present invention; 
           [0193]      FIG. 133  is a perspective view of the cover of the present invention; 
           [0194]      FIG. 134  is a top plan view of the door and right door guide assembly of the present invention; 
           [0195]      FIG. 135  is a top plan view of the door and right door guide assembly of the present invention; 
           [0196]      FIG. 136  is a perspective view of the cover of the present invention; 
           [0197]      FIG. 137  is a perspective view of the cover of the present invention; 
           [0198]      FIG. 138  is a perspective view of the cover of the present invention; 
           [0199]      FIG. 139  is a perspective view of the cover of the present invention; 
           [0200]      FIG. 140  is a perspective view of the cover of the present invention; 
           [0201]      FIG. 141  is a perspective view of the cover of the present invention; 
           [0202]      FIG. 142  is a perspective view of the cover frame component of the present invention; 
           [0203]      FIG. 143  is a perspective view of the cover frame of the present invention; 
           [0204]      FIG. 144  is a perspective view of the outside plate of the present invention; 
           [0205]      FIG. 145  is a perspective view of an alternate embodiment of the outside plate relating to the present invention; 
           [0206]      FIG. 146  is a perspective view of the cylindrical disk of the present invention; 
           [0207]      FIG. 147  is a perspective view of the inside plate of the present invention; 
           [0208]      FIG. 148  is a perspective view of an alternate embodiment of the inside plate relating to the present invention; 
           [0209]      FIG. 149  is a perspective view of the cover end assembly of the present invention; 
           [0210]      FIG. 150  is a right side elevation view of the cover end assembly of the present invention; 
           [0211]      FIG. 151  is a perspective view of the cover frame and cover end assembly of the present invention; 
           [0212]      FIG. 152  is a perspective view of the air filtration pipe of the present invention; 
           [0213]      FIG. 153  is a perspective view of the sound suppressing and insulating material of the present invention; 
           [0214]      FIG. 154  is a perspective view of the roof frame and air filtration pipes of the present invention; 
           [0215]      FIG. 155  is a perspective view of the roof plate of the present invention; 
           [0216]      FIG. 156  is a perspective view of the roof assembly of the present invention; 
           [0217]      FIG. 157  is a perspective view of the cover frame, cover end assembly and roof assembly of the present invention; 
           [0218]      FIG. 158  is a perspective view of the glide path door hanging assembly of the present invention; 
           [0219]      FIG. 159  is a front elevation view of the glide path door hanging assembly of the present invention; 
           [0220]      FIG. 160  is a perspective view of the glide path door of the present invention; 
           [0221]      FIG. 161  is a perspective view of the glide path door and glide path door hanging assembly of the present invention; 
           [0222]      FIG. 162  is a perspective view of an alternate embodiment of the glide path door relating to the present invention; 
           [0223]      FIG. 163  is a perspective view of the cover, glide path door hanging assembly and glide path door of the present invention; 
           [0224]      FIG. 164  is a perspective view of the cover, glide path door hanging assembly and glide path door of the present invention; 
           [0225]      FIG. 165  is a front elevation view of the cover, glide path door hanging assembly, glide path door and pulley motor assembly of the present invention; 
           [0226]      FIG. 166  is a front elevation view of the cover, glide path door hanging assembly, glide path door and pulley motor assembly of the present invention; 
           [0227]      FIG. 167  is a perspective view of the interior end wall of the present invention; 
           [0228]      FIG. 168  is a perspective view of the cover and interior end walls of the present invention; 
           [0229]      FIG. 169  is a perspective view of an alternate embodiment of the interior end wall relating to the present invention; 
           [0230]      FIG. 170  is a perspective view of the door frame of the present invention; 
           [0231]      FIG. 171  is a perspective view of the door inside panel of the present invention; 
           [0232]      FIG. 172  is a perspective view of the door outside panel of the present invention; 
           [0233]      FIG. 173  is a front perspective view of the door of the present invention; 
           [0234]      FIG. 174  is a back perspective view of the door of the present invention; 
           [0235]      FIG. 175  is a perspective view of the upper roof guide of the present invention; 
           [0236]      FIG. 176  is a perspective view of the lower roof guide of the present invention; 
           [0237]      FIG. 177  is a perspective view of the guide bar of the present invention; 
           [0238]      FIG. 178  is a front elevation view of the right door guide assembly of the present invention; 
           [0239]      FIG. 179  is a front elevation view of the left door guide assembly of the present invention; 
           [0240]      FIG. 180  is a perspective view of the door grip of the present invention; 
           [0241]      FIG. 181  is a perspective view of the door latch of the present invention; 
           [0242]      FIG. 182  is a perspective view of the door and right door guide assembly of the present invention; 
           [0243]      FIG. 183  is a perspective view of the cover, door and right door guide assembly of the present invention; 
           [0244]      FIG. 184  is a perspective view of the telescoping leg of the present invention; 
           [0245]      FIG. 185  is a front elevation view of the push-pull assembly with the leg raised of the present invention; 
           [0246]      FIG. 186  is a front elevation view of the push-pull assembly with the leg extended down of the present invention; 
           [0247]      FIG. 187  is a front elevation view of para-aramid synthetic fiber of the present invention; 
           [0248]      FIG. 188  is a front elevation view of steel armour of the present invention; 
           [0249]      FIG. 189  is a perspective view of the step of the present invention; 
           [0250]      FIG. 190  is a perspective view of the step of the present invention; 
           [0251]      FIG. 191  is a perspective view of the step and its internal components of the present invention; 
           [0252]      FIG. 192  is a perspective view of the step and step tubing of the present invention; 
           [0253]      FIG. 193  is a cross sectional view of the cover, step and step tubing of the present invention; 
           [0254]      FIG. 194  is a perspective view of the cover, step and step tubing of the present invention; 
           [0255]      FIG. 195  is a perspective view of the heated ring of the present invention; 
           [0256]      FIG. 196  is a perspective view of the rod and heated ring of the present invention; 
           [0257]      FIG. 197  is a perspective view of the receptacle and bug lights of the present invention; 
           [0258]      FIG. 198  is a back perspective view of the adaptable frame plain facade of the present invention; 
           [0259]      FIG. 199  is a perspective view of the adaptable frame plain facade and bed frame of the present invention; 
           [0260]      FIG. 200  is a back perspective view of adaptable frame sleigh facade of the present invention; 
           [0261]      FIG. 201  is a perspective view of the adaptable frame sleigh facade and bed frame of the present invention; 
           [0262]      FIG. 202  is a back perspective view of the adaptable frame double post facade of the present invention; 
           [0263]      FIG. 203  is a perspective view of the adaptable frame double post facade and bed frame of the present invention; 
           [0264]      FIG. 204  is a back perspective view of the adaptable frame canopy facade of the present invention; 
           [0265]      FIG. 205  is a perspective view of the adaptable frame canopy facade and bed frame of the present invention; 
           [0266]      FIG. 206  is a perspective view of the cover facade of the present invention; 
           [0267]      FIG. 207  is a perspective view of the cover and cover facade of the present invention; 
           [0268]      FIG. 208  is a front elevation view of the cover and smoke/carbon monoxide detector of the present invention; 
           [0269]      FIG. 209  is a front elevation view of the adaptable snap-on cover upholstery of the present invention; 
           [0270]      FIG. 210  is a front elevation view of the step and bolt spacer assembly of the present invention; 
           [0271]      FIG. 211  is a perspective view of the headboard and workstation assembly of the present invention; 
           [0272]      FIG. 212  is a perspective view of the workstation frame of the present invention; 
           [0273]      FIG. 213  is a perspective view of the workstation table of the present invention; 
           [0274]      FIG. 214  is a perspective view of the workstation table of the present invention; 
           [0275]      FIG. 215  is a right side elevation view of the headboard and workstation assembly of the present invention; 
           [0276]      FIG. 216  is a perspective view of the headboard and workstation assembly of the present invention; 
           [0277]      FIG. 217  is a right side elevation view of the headboard and workstation assembly of the present invention; 
           [0278]      FIG. 218  is a right side elevation view of the headboard and workstation assembly of the present invention; 
           [0279]      FIG. 219  is a right side elevation view of the headboard and workstation assembly of the present invention; 
           [0280]      FIG. 220  is a right side elevation view of the headboard and workstation assembly of the present invention; 
           [0281]      FIG. 221  is a right side elevation view of the headboard and workstation assembly of the present invention; 
           [0282]      FIG. 222  is a perspective view of the bed frame and headboard and workstation assembly of the present invention; 
           [0283]      FIG. 223  is a perspective view of the bed frame and headboard and workstation assembly of the present invention; 
           [0284]      FIG. 224  is a left side elevation view of the bed frame, headboard and therapy light of the present invention; 
           [0285]      FIG. 225  is a left side elevation view of the bed frame, headboard and laser projector of the present invention; 
           [0286]      FIG. 226  is a perspective view of the cover and thermostat of the present invention; 
           [0287]      FIG. 227  is a perspective view of the cover and collapsible monitor of the present invention; 
           [0288]      FIG. 228  is a perspective view of the cover and flat panel displays of the present invention; 
           [0289]      FIG. 229  is a perspective view of the frame and TV riser kit of the present invention; 
           [0290]      FIG. 230  is a perspective view of the frame, TV riser kit and television of the present invention; 
           [0291]      FIG. 231  is a right side elevation view of the cover and trapeze hook of the present invention; 
           [0292]      FIG. 232  is a right side elevation view of the cover and retractable mosquito net assembly of the present invention; 
           [0293]      FIG. 233  is a perspective view of the cover and speakers of the present invention; 
           [0294]      FIG. 234  is a perspective view of the roof shelf of the present invention; 
           [0295]      FIG. 235  is a perspective view of the cover and roof shelf of the present invention; 
           [0296]      FIG. 236  is a perspective view of the cover and oxygen tank hole of the present invention; 
           [0297]      FIG. 237  is a perspective view of the cover and baby monitor of the present invention; 
           [0298]      FIG. 238  is a perspective view of the cover and electric lights of the present invention; 
           [0299]      FIG. 239  is a perspective view of the cover and electrical outlet of the present invention; 
           [0300]      FIG. 240  is a perspective view of the cover and panic alarm of the present invention; 
           [0301]      FIG. 241  is a perspective view of the cover and emergency oxygen mask of the present invention; 
           [0302]      FIG. 242  is a perspective view of the cover and voice activated recorder of the present invention; 
           [0303]      FIG. 243  is a perspective view of the cover and intercom of the present invention; 
           [0304]      FIG. 244  is a perspective view of an alternate embodiment of the mattress relating to the present invention; 
           [0305]      FIG. 245  is a perspective view of the cover and noise cancelling devices of the present invention; 
           [0306]      FIG. 246  is a perspective view of the cover and alarm clock radio of the present invention; 
           [0307]      FIG. 247  is a perspective view of an alternate embodiment of the headboard relating to the present invention; 
           [0308]      FIG. 248  is a front elevation view of the character and aspects of the cover; 
           [0309]      FIG. 249  is a front elevation view of the character and aspects of the cover; 
           [0310]      FIG. 250  is a top plan view of the character and aspects of the cover; 
           [0311]      FIG. 251  is a perspective view of the joined bed-pairing of the present invention; 
           [0312]      FIG. 252  is a front elevation view of the bed-pairing of the present invention; 
           [0313]      FIG. 253  is a perspective view of the bed-pairing of the present invention; 
           [0314]      FIG. 254  is a front elevation view of the bed-pairing of the present invention; 
           [0315]      FIG. 255  is a front elevation view of the bed-pairing of the present invention; 
           [0316]      FIG. 256  is a perspective view of the bed-pairing of the present invention; 
           [0317]      FIG. 257  is a front elevation view of the bed-pairing of the present invention; 
           [0318]      FIG. 258  is a front elevation view of the bed-pairing of the present invention; 
           [0319]      FIG. 259  is a front elevation view of the bed-pairing of the present invention; 
           [0320]      FIG. 260  is a perspective view of the bed-pairing of the present invention; 
           [0321]      FIG. 261  is a perspective view of the bed-pairing of the present invention; 
           [0322]      FIG. 262  is a perspective view of the bed-pairing of the present invention; 
           [0323]      FIG. 263  is a front elevation view of the bed-pairing of the present invention; 
           [0324]      FIG. 264  is a front elevation view of the bed-pairing of the present invention; 
           [0325]      FIG. 265  is a perspective view of the bed-pairing of the present invention; 
           [0326]      FIG. 266  is a front elevation view of the bed-pairing of the present invention; 
           [0327]      FIG. 267  is a front elevation view of the bed-pairing of the present invention; 
           [0328]      FIG. 268  is a perspective view of the bed-pairing of the present invention; 
           [0329]      FIG. 269  is a front elevation view of the bed-pairing of the present invention; 
           [0330]      FIG. 270  is a front view of the bed-pairing of the present invention; 
           [0331]      FIG. 271  is a front elevation view of the bed-pairing of the present invention; 
           [0332]      FIG. 272  is a perspective view of the joined bed-pairing of the present invention; 
           [0333]      FIG. 273  is a perspective view of the bed-pairing of the present invention; 
           [0334]      FIG. 274  is a front elevation view of the bed-pairing of the present invention; 
           [0335]      FIG. 275  is a perspective view of the bed-pairing of the present invention; 
           [0336]      FIG. 276  is a perspective view of the joined bed-pairing of the present invention; 
           [0337]      FIG. 277  is a perspective view of the joined bed-pairing of the present invention; 
           [0338]      FIG. 278  is a cross sectional view of the cover, motorized lifting device groups and cover motor assemblies of the present invention; 
           [0339]      FIG. 279  is a perspective view of the motorized lifting device groups and cover motor assemblies of the present invention; 
           [0340]      FIG. 280  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0341]      FIG. 281  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0342]      FIG. 282  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0343]      FIG. 283  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0344]      FIG. 284  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0345]      FIG. 285  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0346]      FIG. 286  is a front elevation view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0347]      FIG. 287  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0348]      FIG. 288  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0349]      FIG. 289  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0350]      FIG. 290  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0351]      FIG. 291  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0352]      FIG. 292  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0353]      FIG. 293  is a perspective view of the present invention comprising of the bed frame, independent and optional cover and steps; 
           [0354]      FIG. 294  is a front elevation view of the separation door assembly of the present invention; 
           [0355]      FIG. 295  is a front elevation view of an alternate embodiment of the rod relating to the present invention; 
           [0356]      FIG. 296  is a front elevation view of the frame lock of the present invention; 
           [0357]      FIG. 297  is a perspective view of a bed-pairing and frame lock of the present invention; 
           [0358]      FIG. 298  is a perspective view of a bed-unit and mattress attachment of the present invention; 
           [0359]      FIG. 299  is a perspective view of a bed-unit and mattress attachment of the present invention; 
           [0360]      FIG. 300  is a perspective view of a bed-unit and mattress attachment of the present invention; 
           [0361]      FIG. 301  is a perspective view of the adjustable step table of the present invention; 
           [0362]      FIG. 302  is a perspective view of the adjustable step table of the present invention; 
           [0363]      FIG. 303  is a perspective view of the adjustable step table of the present invention; 
           [0364]      FIG. 304  is a perspective view of an alternate embodiment of the adjustable step table relating to the present invention; 
           [0365]      FIG. 305  is a perspective view of an alternate embodiment of the adjustable step table relating to the present invention; 
           [0366]      FIG. 306  is a perspective view of the remote control system of the present invention; 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0367]    The following detailed description is merely exemplary in nature and is not intended to limit the described embodiments or the application and uses of the described embodiments. As used herein, the word “exemplary” or “illustrative” means “serving as an example, instance, or illustration.” Any implementation described herein as “exemplary” or “illustrative” is not necessarily to be construed as preferred or advantageous over other implementations. All of the implementations described below are exemplary implementations provided to enable persons skilled in the art to make or use the embodiments of the disclosure and are not intended to limit the scope of the disclosure, which is defined by the claims. Furthermore, there is no intention to be bound by any expressed or implied theory presented in the preceding technical field, background, brief summary or the following detailed description. 
         [0368]    Referring now to the invention in more detail, in  FIG. 1  there is shown bed frame  10 , cover  12  and step  14 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Step  14  is attached to bed frame  10 . Bed frame  10  is generally partially surrounded by cover  12 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position overhead of bed frame  10 . 
         [0369]    Referring now to the invention in more detail, in  FIG. 2  there is shown bed frame  10 , cover  12  and step  14 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Step  14  is attached to bed frame  10 . Bed frame  10  is generally partially surrounded by cover  12 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position overhead of bed frame  10 . 
         [0370]    Referring now to the invention in more detail, in  FIG. 3  there is shown bed frame  10 , cover  12  and step  14 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Step  14  is attached to bed frame  10 . Bed frame  10  is generally partially surrounded by cover  12 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position overhead of bed frame  10 . 
         [0371]    Referring now to the invention in more detail, in  FIG. 4  there is shown bed frame  10  and cover  12 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Bed frame  10  is generally partially surrounded by cover  12 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position overhead of bed frame  10 . 
         [0372]    Referring now to the invention in more detail, in  FIG. 5  there is shown bed frame  10 , cover  12  and step  14 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Step  14  is attached to bed frame  10 . Bed frame  10  is generally partially surrounded by cover  12 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position overhead of bed frame  10 . 
         [0373]    Referring now to the invention in more detail, in  FIG. 6  there is shown bed frame  10 , cover  12  and step  14 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Step  14  is attached to bed frame  10 . Bed frame  10  is generally partially surrounded by cover  12 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position overhead of bed frame  10 . 
         [0374]    Referring now to the invention in more detail, in  FIG. 7  there is shown a bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position overhead of bed frame  10 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that door  244  is in a closed position. 
         [0375]    Referring now to the invention in more detail, in  FIG. 8  there is shown a bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that door  244 , as referenced in  FIG. 7 , is in an open position. 
         [0376]    Referring now to the invention in more detail, in  FIG. 9  there is shown a bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that door  244 , as referenced in  FIG. 7 , is in an open position. 
         [0377]    Referring now to the invention in more detail, in  FIG. 10  there is shown a bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that door  244 , as referenced in  FIG. 7 , is in an open position. 
         [0378]    Referring now to the invention in more detail, in  FIG. 11  there is shown a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . 
         [0379]    Further, there exists the general advantage of generally joining together a bed-unit and mattress attachment  178  to another bed-unit thereby forming a joined bed-pairing. Further, there exists the general advantage such that door  244 , as referenced in  FIG. 7 , is in an open position. 
         [0380]    Referring now to the invention in more detail, in  FIG. 12  there is shown a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of generally joining together a bed-unit and mattress attachment  178 , as referenced in  FIG. 11 , to another bed-unit thereby forming a joined bed-pairing. 
         [0381]    Referring now to the invention in more detail, in  FIG. 13  there is shown a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of generally joining together a bed-unit and mattress attachment  178  to a bed-unit thereby forming a joined bed-pairing. Further, there exists the general advantage such that door  244 , as referenced in  FIG. 7 , is in an open position. 
         [0382]    Referring now to the invention in more detail, in  FIG. 14  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470  is generally perpendicular to top lateral brace  28  and the top of cover  470  is positioned farthest away from step  14  in this position. Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally perpendicular to top lateral brace  28 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that door  244  is positioned upright. 
         [0383]    Referring now to the invention in more detail, in  FIG. 15  there is shown bed frame  10 , cover  12  and step  14 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470  is generally perpendicular to top lateral brace  28  and the top of cover  470  is positioned farthest away from step  14  in this position. Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally perpendicular to top lateral brace  28 . Further, there exists the general advantage such that door  244  is positioned upright. 
         [0384]    Referring now to the invention in more detail, in  FIG. 16  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned over bed frame  10 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that door  244  situated closest to the other bed-unit, in this position, is in a closed position. 
         [0385]    Referring now to the invention in more detail, in  FIG. 17  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned over bed frame  10 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that door  244  situated closest to the other bed-unit, in this position, is in a closed position. 
         [0386]    Referring now to the invention in more detail, in  FIG. 18  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned over bed frame  10 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage such that door  244  farthest away from the other bed-unit, in this position, is in a closed position. 
         [0387]    Referring now to the invention in more detail, in  FIG. 19  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned over bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that door  244  situated closest to the other bed-unit, in this position, is in a closed position. 
         [0388]    Referring now to the invention in more detail, in  FIG. 20  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned over bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that doors  244  are in a closed position. 
         [0389]    Referring now to the invention in more detail, in  FIG. 21  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned over bed frame  10 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that doors  244  are in a closed position. 
         [0390]    Referring now to the invention in more detail, in  FIG. 22  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned over bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that doors  244  are in a closed position. 
         [0391]    Referring now to the invention in more detail, in  FIG. 23  there is shown a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage of generally joining together a bed-unit and mattress attachment  178  to another bed-unit thereby forming a joined bed-pairing. Further, there exists the general advantage such that covers  12  are generally joined, doors  244  farthest from their bed-unit&#39;s step  14  are in open positions and generally moved to a position above top of covers  470  and of which generally over-lap each other and doors  244  closest to their bed-unit&#39;s step  14  are in closed positions. 
         [0392]    Referring now to the invention in more detail, in  FIG. 24  there is shown a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage of generally joining together a bed-unit and mattress attachment  178  to another bed-unit thereby forming a joined bed-pairing. Further, there exists the general advantage such that covers  12  are generally joined, doors  244  farthest from their bed-unit&#39;s step  14  are in open positions and generally moved to a position above top of covers  470  and of which generally over-lap each other and doors  244  closest to their bed-unit&#39;s step  14  are in closed positions. 
         [0393]    Referring now to the invention in more detail, in  FIG. 25  there is shown a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is over bed frame  10 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally above bed frame  10 . Further, there exists the general advantage of generally joining together a bed-unit and mattress attachment  178  to another bed-unit thereby forming a joined bed-pairing. Further, there exists the general advantage such that covers  12  are generally joined, doors  244  farthest from their bed-unit&#39;s step  14  are in open positions and generally moved to a position above top of covers  470  and of which generally over-lap each other and doors  244  closest to their bed-unit&#39;s step  14  are in closed positions. 
         [0394]    Referring now to the invention in more detail, in  FIG. 26  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that doors  244  are in a closed position. 
         [0395]    Referring now to the invention in more detail, in  FIG. 27  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that doors  244  are in a closed position. 
         [0396]    Referring now to the invention in more detail, in  FIG. 28  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that doors  244  are in a closed position. 
         [0397]    Referring now to the invention in more detail, in  FIG. 29  there is shown a bed-pairing. On one bed-unit, its cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of separation of the bed-units within the bed-pairing. Further, there exists the general advantage such that doors  244  are in a closed position. 
         [0398]    Referring now to the invention in more detail, in  FIG. 30  there is shown a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of generally joining together a bed-unit and mattress attachment  178  to another bed-unit thereby forming a joined bed-pairing. Further, there exists the general advantage such that door  244  closest to its bed-unit&#39;s step  14 , in this position, is in a closed position. 
         [0399]    Referring now to the invention in more detail, in  FIG. 31  there is shown a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 , as referenced in  FIG. 30 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of generally joining together a bed-unit and mattress attachment  178  to another bed-unit thereby forming a joined bed-pairing. Further, there exists the general advantage such that door  244  closest to its bed-unit&#39;s step  14 , in this position, is in a closed position. 
         [0400]    Referring now to the invention in more detail, in  FIG. 32  there is shown a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of generally joining together a bed-unit and mattress attachment  178  to another bed-unit thereby forming a joined bed-pairing. Further, there exists the general advantage such that door  244  closest to its bed-unit&#39;s step  14 , in this position, is in a closed position. 
         [0401]    Referring now to the invention in more detail, in  FIG. 33  to  FIG. 38  there is shown mattress platform group  86 , brace assembly  512 , motorized lifting device group  56 , track assembly  76  and step  14 . When electrical bottle jack  62  of motorized lifting device group  56  is activated, telescoping lifting ram  60  extends and recedes generally to the length of itself. Telescoping lifting ram  60  is rigidly secured to lift plate  58  upon which the bottom of receptacle frame  30  of mattress platform group  86  is rigidly secured, thereby raising and lowering one end of mattress platform group  86  independent of the other end of mattress platform group  86  or raising and lowering both ends of mattress platform group  86  simultaneously as receptacle frame pegs  32  generally move along brace glide path  26  of brace assembly  512 . In  FIG. 33  to  FIG. 35 , mattress platform group  86  is generally in a tilted position such that one end of mattress platform group  86  is generally higher than the other end. Upon activation of electrical bottle jack  62  at one end of brace assembly  512 , a tilting position of mattress platform group  86  occurs as receptacle  36  is generally pivotally joined to receptacle frame  30  as receptacle pegs  38 , as referenced in  FIG. 57 , are generally situated in receptacle frame slots  34 , as referenced in  FIG. 55 , and generally enables receptacle  36  to pivot on the pair of load-bearing receptacle pegs  38  and enables the non-load bearing receptacle pegs  38  to generally pivot out of the receptacle frame slots  34  and outwards of receptacle frame  30 . In  FIG. 36  and  FIG. 37 , mattress platform group  86  is generally in a tilted position such that one end of mattress platform group  86  is now generally lower than the other end. Upon activation of electrical bottle jack  62  at one end of brace assembly  512 , a tilting position of mattress platform group  86  occurs as receptacle  36  is generally pivotally joined to receptacle frame  30  as receptacle pegs  38 , as referenced in  FIG. 57 , are generally situated in receptacle frame slots  34 , as referenced in  FIG. 55 , and generally enables receptacle  36  to pivot on the pair of load-bearing receptacle pegs  38  and enables the non-load bearing receptacle pegs  38  to generally pivot out of the receptacle frame slots  34  and outwards of receptacle frame  30 . In  FIG. 38 , mattress platform group  86  is in a generally horizontal position such that neither end of mattress platform group  86  is generally higher nor lower than the other end. Mattress platform group  86  is also generally horizontally raised to a generally elevated position such that the top of receptacle frame  30  is generally near the bottom of top lateral brace  28 . 
         [0402]    Referring now to the invention in more detail, in  FIG. 39  to  FIG. 44  there is shown mattress platform  514  generally horizontally tilted on its axis, rod and box assembly  510 , brace assembly  512 , motorized lifting device group  56 , track assembly  76  and step  14 . As referenced in  FIG. 73 , rod  44  is generally inserted through the entire length of cylindrical rod support holes  120  of column  98 . As referenced in  FIG. 73 , column motor  520  is rigidly secured to an inside upright member of column  98 . Upon activation of column motor  520 , column motor gear  522  may rotate clockwise and counter-clockwise on its horizontal axis and generally turn within column motor chain  518  which partially encompasses rod gear  48  of which rod gear  48  is securely embedded and encircling rod  44  thereby enabling column  98  to rotate around rod  44  consequently causing mattress platform  514 , of which column  98  is a part of, to rotate as well.  FIG. 39  to  FIG. 41  generally illustrates rotation of mattress platform  514  on its axis in one direction while  FIG. 42  to  FIG. 44  generally illustrates rotation of mattress platform  514  on its axis in the other direction. Alternate motor assemblies which enable rotation of column  98  may be obvious to one of ordinary skill in the art and thus the present invention is not limited to the preferred embodiment, column motor assembly  516 , but of a plurality of types of motor assemblies. 
         [0403]    Referring now to the invention in more detail, in  FIG. 45  and  FIG. 46  there is shown mattress platform  514 , rod and box assembly  510 , brace assembly  512 , motorized lifting device group  56 , track assembly  76  and step  14 . Mattress platform  514  is in a generally tilted position such that one end of mattress platform  514  is generally higher than the other end and mattress platform  514  is generally horizontally tilted on its axis. 
         [0404]    Referring now to the invention in more detail, in  FIG. 47  there is shown bed frame  10 , cover  12  and steps  14 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Steps  14  are attached to bed frame  10 . Bed frame  10  is generally partially surrounded by cover  12 . Steps  14  enable access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally parallel to and underneath top lateral brace  28 . 
         [0405]    Referring now to the invention in more detail, in  FIG. 48  there is shown bed frame  10 , cover  12  and steps  14 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 248 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned above top lateral brace  28 . Steps  14  are attached to bed frame  10 . Bed frame  10  is generally partially surrounded by cover  12 . Steps  14  enable access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally parallel to and above top lateral brace  28 . 
         [0406]    Referring now to the invention in more detail, in  FIG. 49  there is shown bed frame  10 , cover  12  and steps  14 . Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Steps  14  are attached to bed frame  10 . Steps  14  enable access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath and parallel to top lateral brace  28 . Further, there exists the general advantage such that door  244  closest to its bed-unit&#39;s step  14 , in this position, is in a closed position. 
         [0407]    Referring now to the invention in more detail, in  FIG. 50  and  FIG. 51  there is shown bed frame  10  and cover  12 , total square rod  606 , as referenced in  FIG. 279 , and column with square cavity  336 , as referenced in  FIG. 81 . Additionally there is shown separation door assembly  588 , as referenced in  FIG. 276 , generally transitioning from a seated position, generally parallel to top lateral brace  28 , to a closed position, generally perpendicular to top later brace  28 . 
         [0408]    Referring now to the invention in more detail, in  FIG. 52  to  FIG. 57  there is shown bed frame  10 , cover  12 , step  14 , shower basin  22 , handheld shower head  20  and rain shower faucet  18 . Shower faucet  18  is attached to ceiling  196  of cover  12  and a shower mount with handheld shower head  20  is attached to interior end wall  230  of cover  12  of which both are generally connected to an external water supply located outside the cover. This enables a person to shower inside the cover. Shower basin  22  is comprised of a generally rigid container comprising of fixed walls  462  on top of which extendible walls  452  are situated and comprised of generally water-proof flexible material connected to the top of fixed walls  462  such that the width and length of extendable walls  452 , when extended, are greater than the width and length of mattress plate  90 . Shower basin  22  is centrally rigidly secured to the bottom of beam  114  by shower basin brackets  458 . Fluid that is generally sprayed from handheld shower head  20  and rain shower faucet  18  is generally contained within cover  12 . Fluid that collects on or within mattress platform  514  may generally be eliminated as mattress platform  514  can be generally horizontally rotated on its axis and generally vertically tilted upright at one end such that fluid falls from mattress platform  514  into shower basin  22 , as extendable walls  452  generally extend beyond the perimeter of fixed walls  462 , and flows into drain  456 , which is situated at shower sub-basin  454 , and through drain pipe  464  which then continues into an external drainage system. An alternate embodiment of the present invention generally excludes cover  12 , rain shower faucet  18  and handheld shower head  20  which may be generally securely mounted to a plurality of locations on bed frame  10  or may come from an external location than that of bed frame  10 . Generally and without limitation, shower basin  22 , handheld shower head  20  and rain shower faucet  18  are optional components of the present invention and may not be required components, for any reason whatsoever, of the present invention. 
         [0409]    Referring now to the invention in more detail, in  FIG. 58  and  FIG. 59  there is shown brace  24  comprising of one piece of generally horizontal elongated rigid material of which at each end is continued generally upright elongated rigid material at a right angle. Brace glide path  26  is generally comprised of an indentation cut partially through and originating from the top of the generally upright elongated rigid material and extending generally downwards towards the bottom of the generally upright elongated rigid material. Generally and without limitation, each length, width and height of brace  24  are not limited to one dimension but of a plurality of dimensions. 
         [0410]    Referring now to the invention in more detail, in  FIG. 60  there is shown top lateral brace  28  comprising of an elongated rigid material. Generally and without limitation, each length, width and height of top lateral brace  28  are not limited to one dimension but of a plurality of dimensions. 
         [0411]    Referring now to the invention in more detail, in  FIG. 61  there is shown bottom lateral brace  478  comprising of an elongated rigid material. Generally and without limitation, each length, width and height of bottom lateral brace  478  are not limited to one dimension but of a plurality of dimensions. 
         [0412]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 62  there is shown plain brace  300  comprising of one piece of generally horizontal elongated rigid material of which at each end is continued generally upright elongated rigid material at a right angle. Generally and without limitation, each length, width and height of plain brace  300  are not limited to one dimension but of a plurality of dimensions. 
         [0413]    Referring now to the invention in more detail, in  FIG. 63  there is shown receptacle frame  30  which comprises of one piece of rigid material, generally in the form of a rectangle, or optionally square, generally with a central cavity comprising of two generally upright members and two generally horizontal members. On the exterior of each generally upright member there are pluralities of receptacle frame pegs  32  which protrude from the exterior of each generally upright member and comprise of generally cylindrical rigid material, or optionally square rigid material, with a wider diameter cylindrical rigid material, or optionally square rigid material, situate at the end of each receptacle frame peg  32  furthest from the receptacle frame  30 . On the interior of each generally upright member there are two receptacle frame slots  34  which comprise of a cavity situate generally near the tops of the generally upright members and oriented from the center of the inside of the generally upright members and generally sloping downwards and outwards of the generally upright members. Additionally on the interior of each generally upright member there are two receptacle frame slots  34  which comprise of a cavity situate generally near the bottoms of the generally upright members and oriented from the center of the inside of the generally upright members and generally sloping upwards and outwards of the generally upright members. The quantity of frame receptacle slots  34  is not limited to four but a plurality of receptacle slots  34 . Generally and without limitation, each length, width and height of receptacle frame  30  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation receptacle frame  30  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0414]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 64  there is shown slotless receptacle frame  302  which comprises of one piece of rigid material, generally in the form of a rectangle, or optionally square, generally with a central cavity comprising of two generally upright members and two generally horizontal members. On the exterior of each generally upright member there are pluralities of receptacle frame pegs  32  which protrude from the exterior of each generally upright member and comprise of generally cylindrical rigid material, or optionally square rigid material, with a wider diameter cylindrical rigid material, or optionally square rigid material, situate at the end of each receptacle frame peg  32  furthest from the receptacle frame  30 . Generally and without limitation, each length, width and height of slotless receptacle frame  302  is not limited to one dimension but of a plurality of dimensions. 
         [0415]    Referring now to the invention in more detail, in  FIG. 65  there is shown receptacle  36  which comprises of one piece of generally rigid material, generally in the form of a rectangle, or optionally square, generally with customizable unique adaptor receptor  42  which comprises of a central cavity of unique shape. Customizable unique adaptor receptor  42  is not limited to one shape but of an unlimited plurality of generally customizable shapes. Receptacle threaded hole  40  comprises of a plurality of holes that extend completely through customizable unique adaptor receptor  42  which originate from one side of receptacle  36  and end at the opposite side of receptacle  36  and originate from the top of receptacle  36  and end at the bottom of receptacle  36 . Receptacle peg  38  comprises of two generally cylindrical rigid materials, or optionally square rigid materials, generally situate and protruding from the top of each side of receptacle  36  and two generally cylindrical rigid materials, or optionally square rigid material, generally situate and protruding from the bottom of each side of receptacle  36 . Generally and without limitation, each length, width and height of receptacle  36  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation receptacle  36  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0416]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 66  there is shown receptacle without pegs  304  which comprises of one piece of rigid material, generally in the form of a rectangle, or optionally square, generally with customizable unique adaptor receptor  42  which comprises of a central cavity of unique shape. Customizable unique adaptor receptor  42  is not limited to one shape but of an unlimited plurality of generally customizable shapes. Receptacle threaded hole  40  comprises of a plurality of holes that extend completely through customizable unique adaptor receptor  42  which originate from one side of receptacle  36  and end at the opposite side of receptacle  36  and originate from the top of receptacle  36  and end at the bottom of receptacle  36 . Generally and without limitation, each length, width and height of pegless receptacle  304  is not limited to one dimension but of a plurality of dimensions. 
         [0417]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 67  there is shown receptacle without unique adaptor receptor and rod connected  306  which comprises of one piece of rigid material, generally in the form of a rectangle, or optionally square. Receptacle peg  38  comprises of two generally cylindrical rigid materials, or optionally square rigid materials, generally situate and protruding from the top of each side of receptacle without unique adaptor receptor and rod connected  306  and two generally cylindrical rigid materials, or optionally square rigid materials, generally situate and protruding from the bottom of each side of receptacle without unique adaptor receptor and rod connected  306 . Rod thread  46  is comprised of a threaded hole situated generally in the center of receptacle without unique adaptor receptor and rod connected  306 . Rod  44 , as referenced in  FIG. 71 , is generally screwed into rod thread  46 . Generally and without limitation, each length, width and height of receptacle without unique adaptor receptor and rod connected  306  is not limited to one dimension but of a plurality of dimensions. 
         [0418]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 68  there is shown receptacle without pegs and unique adaptor receptor and rod connected  308  which comprises of one piece of rigid material, generally in the form of a rectangle, or optionally square. Rod thread  46  is comprised of a threaded hole situated generally in the center of receptacle without unique adaptor receptor and rod connected  308 . Rod  44 , as referenced in  FIG. 71 , is generally screwed into rod thread  46 . Generally and without limitation, each length, width and height of receptacle without pegs and unique adaptor receptor and rod connected  308  is not limited to one dimension but of a plurality of dimensions. 
         [0419]    Referring now to the invention in more detail, in  FIG. 69  and  FIG. 70  there is shown adapter  50  which comprises of one piece of rigid material of a customizable and unique shape, but not limited to one shape but of an unlimited plurality of generally customizable shapes. Adapter threaded hole  52  comprises of a plurality of holes which extend completely through adapter  50  which originate from one side of adapter  50  and end at the opposite side of adapter  50  and originate from the top of adapter  50  and end at the bottom of adapter  50 . Adapter rod receptor threaded hole  54  comprises of a threaded hole situated generally in the center of adapter  50  which extends into but not completely through adapter  50 . Generally and without limitation, each length, width and height of adapter  50  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation adapter  50  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0420]    Referring now to the invention in more detail, in  FIG. 71  there is shown rod  44  which is comprised of one solid piece of generally cylindrical rigid material of which at one end is rod thread  46  which comprises of threaded rod and generally closer to the opposite end is situated rod gear  48  which is comprised of gear teeth embedded into and encircling the rod. Generally and without limitation, each length, width, height and circumference of rod  44  is not limited to one dimension but of a plurality of dimensions. 
         [0421]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 72  there is shown square rod  310  which is comprised of one solid piece of generally cylindrical rigid material of which at one end is rod thread  46  which comprises of threaded rod and generally closer to the opposite end is situated a square portion of the rod. Generally and without limitation, each length, width, height and circumference of square rod  310  is not limited to one dimension but of a plurality of dimensions. 
         [0422]    Referring now to the invention in more detail, in  FIG. 73  there is shown rod and box assembly  510  comprising of rod  44 , adapter  50 , receptacle  36  and receptacle frame  30 . Rod  44  is generally securely fastened to adapter  50  as rod  44  is generally screwed into adapter  50 . Adapter  50  is generally rigidly secured to receptacle  36  as threaded bolts are inserted completely through receptacle  36  and adaptor  50  with a nut securing each threaded bolt. Receptacle  36  is generally pivotally joined to receptacle frame  30  as receptacle pegs  38 , as referenced in  FIG. 65 , are generally situated in receptacle frame slots  34 , as referenced in  FIG. 63 , and generally enable receptacle  36  to pivot on the pair of load-bearing receptacle pegs  38  and enable the non-load bearing receptacle pegs  38  to generally pivot out of the receptacle frame slots  34  and outwards of receptacle frame  30 . 
         [0423]    Referring now to the invention in more detail, in  FIG. 74  there is shown motorized lifting device group  56  generally comprising of two electrically motorized bottle jacks  62  each generally comprising of an electrical wire  64 , an electrical hydraulic telescoping lifting ram  60  of which each may be generally rigidly secured to the bottom of lift plate  58 . Lift plate  58  is generally comprised of generally rectangular rigid material. When the electrical motor is activated, the telescoping lifting ram  60  extends and recedes generally up to the length of itself. Alternate motor assemblies may be obvious to one of ordinary skill in the art and thus the present invention is not limited to the preferred embodiment, motorized lifting device group  56  but of a plurality of motor assemblies and a plurality of types of motor assemblies. 
         [0424]    Referring now to the invention in more detail, in  FIG. 75  and  FIG. 76  there is shown roller boot assembly  66  comprising of a plurality of wheels  68 , a plurality of axel supports  72 , a platform  70 , a roller boot exterior wall  74 , a roller boot interior wall  500  and two roller boot end walls  502 . Wheel  68  is comprised of generally rigid cylindrical material. Optionally, wheel  68  may be comprised of generally semi-rigid cylindrical material. Wheels  68  are generally connected to axel supports  72  enabling rotation of wheels  68  on their axis. Axel supports are rigidly secured to the bottom of platform  70  which is a generally elongated rectangular rigid material. Roller boot walls  502  are generally upright and rigidly secured on top of and at each end of platform  70 . Roller boot exterior wall  74  is comprised of a generally elongated rigid material which is generally upright and rigidly secured on top of one side of platform  70 . Roller boot exterior wall  74  is rigidly secured to one side each of roller boot end walls  502 . Roller boot interior wall  500 , comprised of a generally elongated rigid material shorter in length than roller boot exterior wall  74  is generally upright and rigidly secured and centrally situated on top of the other side of platform  70 . Generally and without limitation, each length, width and height of roller boot assembly  66  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation roller boot assembly  66  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0425]    Referring now to the invention in more detail, in  FIG. 77  there is shown track assembly  76  which comprises of two frame roller boot tracks  78 , four cover roller boot tracks  80 , two track support joists  504 , a middle track support joist  506 , two track motor mounts  82  and two motorized telescoping push and pull devices  84 . Frame roller boot track  78  is comprised of elongated rigid material with railings  508  extending generally upright on all sides of frame roller boot track  78 . Cover roller boot tracks  80  are comprised of an elongated rigid material, shorter in length than that of frame roller boot track  78 , with railings  508  extending generally upright on all sides of cover roller boot tracks  80 . Two track railings  508  of cover roller boot tracks  80  are rigidly secured side-by-side to inside track railing  508  of each frame roller boot track  78 . Separating the two cover roller boot tracks  80  is middle track support joist  506  which at either end of middle track support joist  506  is rigidly secured to track railing  508  at one end of cover roller boot track  80  and to track railing  508  on one side of frame roller boot track  78 . Middle track support joist  506  is comprised of generally elongated and rigid material upon which are rigidly secured and generally centrally situated, two track motor mounts  82 . Two motorized telescoping push and pull devices  84  are rigidly secured to the two track motor mounts  82  and at right angles to middle track support joist  506  and facing in opposite directions. Two track support joists  504 , comprised of generally elongated rigid material, are rigidly secured at right angles to and generally nearer to the ends of cover roller boot track  80  which provide additional stability for track assembly  76 . Generally and without limitation, each length, width and height of track assembly  76  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation track assembly  76  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0426]    Referring now to the invention in more detail, in  FIG. 78  there is shown the brace assembly  512  comprising of two braces  24  with brace glide paths  26  and two bottom lateral braces  478 . Brace  24  is rigidly secured at each bottom right angle of brace  24  to one end of each bottom lateral brace  478 . The other brace  24  is rigidly secured at each bottom right angle of brace  24  to the other end of each bottom lateral brace  478 . Generally and without limitation, each length, width and height of brace assembly  512  is not limited to one dimension but of a plurality of dimensions. 
         [0427]    Referring now to the invention in more detail, in  FIG. 79  there is shown the brace assembly with rod and box assembly comprising of brace assembly  512  and rod and box assembly  510 . Rod and box assemblies  510  are generally loosely connected by receptacle frame pegs  32 , as referenced in  FIG. 63 , within brace glide path  26  which enables box and rod assemblies  510  to move generally upwards and downwards generally within the length of brace glide path  26 . 
         [0428]    Referring now to the invention in more detail, in  FIG. 80  there is shown brace assembly  512  and mattress platform group  86 . Mattress platform group  86  is generally loosely connected to brace assembly  512  and mattress platform group  86  is enabled to move generally upwards and downwards generally within the length of brace glide path  26 . 
         [0429]    Referring now to the invention in more detail, in  FIG. 81  there is shown column  98  and column tilt motor assembly  516  which comprises of column motor chain  518 , column motor  520  and column motor gear  522 . Rod  44  is generally inserted through the entire length of cylindrical rod support holes  120  of column  98 , as referenced in  FIG. 86 . Column motor  520  is rigidly secured to an inside upright member of column  98 . Upon activation of column motor  520 , column motor gear  522  may rotate clockwise and counter-clockwise on its horizontal axis and generally turn within column motor chain  518  which partially encompasses rod gear  48  of which rod gear  48  is securely embedded and encircling rod  44  thereby causing column  98  to rotate around rod  44  consequently causing mattress platform  514 , of which column  98  is a part of, to rotate as well. Alternate motor assemblies which enable rotation of column  98  may be obvious to one of ordinary skill in the art and thus the present invention is not limited to the preferred embodiment, column tilt motor assembly  516 , but of a plurality of motor assemblies and a plurality of types of motor assemblies. 
         [0430]    Referring now to the invention in more detail, in  FIG. 82  there is shown beam  114  comprising of one piece of generally elongated rigid material with four generally rectangular slots  118  generally situated adjacent to and below the top flange and spaced evenly between slots. Additionally, there is shown an optional block  116  comprising of rigid material each rigidly secured to the web of the beam and below slots  118  and above the bottom flange. Generally and without limitation, slots  118  and blocks  116  are not limited to four but a plurality of slots  118  and blocks  116 . Generally and without limitation, each length, width and height of beam  114  are not limited to one dimension but of a plurality of dimensions. 
         [0431]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 83  there is shown beam with indents  312  which comprises of one piece of generally elongated rigid material with four optional and generally t-shaped indentations, beam indents  314 , cut across the top and width of beam with indents  312  and generally spaced evenly between beam indents  314 . Generally and without limitation, beam indents  314  are not limited to four but a plurality of beam indents  314 . Generally and without limitation, each length, width and height of beam with indents  312  are not limited to one dimension but of a plurality of dimensions. 
         [0432]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 84  there is shown beam without notches and blocks  316 , generally a t-beam, comprising of one piece of generally elongated rigid material. Generally and without limitation, each length, width and height of beam without notches and blocks  316  are not limited to one dimension but of a plurality of dimensions. 
         [0433]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 85  there is shown rectangular beam  318  comprising of one piece of generally elongated rigid material. Alternatively, beam  318  may be a plurality of shapes including but not limited to a T-beam, square, round or any other shape obvious to a person having ordinary skill in the art. Generally and without limitation, each length, width and height of rectangular beam  318  is not limited to one dimension but of a plurality of dimensions. 
         [0434]    Referring now to the invention in more detail, in  FIG. 86  there is shown column  98  which comprises of rigid material generally in the form of a hollow column with cylindrical rod support hole  120  generally proximate to the center-top and cut through the total width of the column structure and, optionally, two shelves  96  generally extending from and at right angles to the narrowest sides of the column structure and generally situate at the bottom of the column structure. Generally and without limitation, each length, width and height of column  98  is not limited to one dimension but of a plurality of dimensions. 
         [0435]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 87  there is shown column with square cavity  336  comprising of rigid material generally in the form of a hollow column with square, or optionally rectangular, rod support hole  320  generally proximate to the center-top and cut through the total width of the column structure and, optionally, two shelves  96  generally extending from and at right angles to the narrowest sides of the column structure and generally situate at the bottom of the column structure. Generally and without limitation, each length, width and height of column with square cavity  336  is not limited to one dimension but of a plurality of dimensions. 
         [0436]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 88  there is shown column with cylindrical cavity  334  comprising of generally rigid material generally in the form of a hollow column with cylindrical rod support hole  120  generally proximate to the center-top and cut through the total width of the column structure. Generally and without limitation, each length, width and height of column with cylindrical cavity  334  is not limited to one dimension but of a plurality of dimensions. 
         [0437]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 89  there is shown square shelfless column  636  comprising of generally rigid material generally in the form of a hollow column with square, or optionally rectangular, rod support hole  320  generally proximate to the center-top and cut through the total width of the column structure. Generally and without limitation, each length, width and height of square shelfless column  636  is not limited to one dimension but of a plurality of dimensions. 
         [0438]    Referring now to the invention in more detail, in  FIG. 90  there is shown beam  114  as referenced in  FIG. 82 , rigidly secured at each end of beam  114  to column  98 , as referenced in  FIG. 86 , generally between cylindrical rod support hole  120  and the bottom of column  98 . Without limitation and generally, the combined apparatus of beam  114  and column  98  provides structural support for weight bearing loads which may be placed upon it. 
         [0439]    Referring now to the invention in more detail, in  FIG. 91  to  FIG. 97  there is shown cross support  122  comprising of cross support floor  480  which is comprised of one solid rectangular piece of rigid material with a rectangular indentation cut out from the middle of each end and with each longer side of cross support floor  480  rigidly secured to cross support wall  130  which comprises of one solid generally rectangular piece of rigid material with curved ends, which is rigidly secured to the tops and nearest one end of each cross support wall  130  to cross support plate  124  which is comprised of one solid rectangular piece of rigid material, and rigidly secured to wheel path  126  situate at the same end as cross support plate  124  of which wheel path  126  is comprised of a rectangular curving piece of rigid material which is rigidly secured to wheel railing  128  which is comprised of a rectangular curving piece of rigid material. Generally and without limitation, the inclusion of cross support plate  124  provides structural integrity to cross support  122 . Generally and without limitation, each length, width and height of cross support  122  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation cross support  122  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0440]    Referring now to the invention in more detail, in  FIG. 98  to  FIG. 102  there is shown beam  114 , columns  98 , cross supports  122  and cross support plates  124 . Cross supports  122  are inserted through slots  118  of beam  114  and over blocks  116 . After insertion, cross support plates  124  are generally rigidly secured to the tops of cross support walls  130  at the opposite end of the previously rigidly secured cross support plates  124 , as referenced in  FIG. 91 . Generally and without limitation, the combined apparatus of beam  114 , columns  98 , cross supports  122  and cross support plates  124  provide height uniformity when cross support plates are placed adjacent to the top of the flange of beam  114 , a platform for mattress plate  90  and structure and stability for mattress plate  90 . 
         [0441]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 103  there is shown beam and diagonal cross support  322  comprising of beam with indents  312  of which a generally horizontal T-beam support member  482  is placed into and rigidly secured to beam indent  314  and which a generally upright support member  484  is rigidly secured to the generally horizontal support member  482  of which a generally horizontal member  486  is rigidly secured to a generally upright support member  484  of which a generally diagonal support member  488  is rigidly secured to the general upright support member  484  and generally horizontal support member  482 . Without limitation and generally, beam and diagonal cross supports  322  provide height uniformity, a platform for mattress plate  90  and structure and stability for mattress plate  90 . Generally and without limitation, each length, width and height of horizontal T-beam support member  482 , horizontal member  486 , upright support member  484  and diagonal support member  488  are not limited to one dimension but of a plurality of dimensions. 
         [0442]    Referring now to the invention in more detail, in  FIG. 104  and  FIG. 105  there is shown mattress stay  100  comprising of mattress stay peg  102  which is comprised of mattress stay peg plug  106 , a generally cylindrical column of rigid material and mattress stay peg body  490 , a generally cylindrical column of rigid material with mattress stay peg slot  104  generally cut through the middle of mattress stay peg body  490  generally connected to another mattress stay peg  102  by flexible material  110  of which material retainer  108  is generally securely fastened to each end of flexible material  110  and of which flexible material  110  is fitted through mattress stay peg slots  104 . Generally and without limitation, each length, width and height of the components of mattress stay  100  are not limited to one dimension but of a plurality of dimensions. Generally and without limitation mattress stay  100  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0443]    Referring now to the invention in more detail, in  FIG. 106  there is shown mattress plate  90  and mattress stays  100 . Mattress plate  90  comprises of a solid rectangular plate of rigid material with a plurality of perforated holes  112  generally situated in each corner of mattress plate  90 . Perforated holes  112  are optional. Mattress stay peg plugs  106  of mattress stays  100  are inserted into perforated holes  112  at such positions that flexible material  110  generally wraps around the corners of variably-sized mattresses such that general shifting of variably-sized mattresses is deterred. Generally and without limitation, each length, width and height of mattress plate  90  is not limited to one dimension but of a plurality of dimensions. 
         [0444]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 107  there is shown mattress plate  338  which comprises of a generally rectangular plate of rigid material. Generally and without limitation, each length, width and height of mattress plate  90  is not limited to one dimension but of a plurality of dimensions. 
         [0445]    Referring now to the invention in more detail, in  FIG. 108  there is shown mattress plate  90  which is generally rigidly secured to cross support plates  124 . Generally and without limitation, this provides a stable, uniform and even surface for mattress  88  to be placed upon mattress plate  90 . 
         [0446]    Referring now to the invention in more detail, in  FIG. 109  there is shown what is commonly known as a mattress, mattress  88 . Generally and without limitation, each length, width and height of mattress  88  is not limited to one dimension but of a plurality of dimensions. 
         [0447]    Referring now to the invention in more detail, in  FIG. 110  there is shown mattress  88  which is placed on top of mattress plate  90  and generally secured in place by mattress stay  100 . Additionally, there are shown mattress straps  634 , of which each generally comprises of generally flexible material of a plurality of dimensions with one end generally secured to the side of mattress  88  and at the other end a generally secured clasp of which is generally removably connected to mattress plate  90 . Mattress straps  634  are optional and generally removably secure mattresses of a plurality of sizes to mattress plate  90 . 
         [0448]    Referring now to the invention in more detail, in  FIG. 111  there is shown scissor assembly  134 , in its collapsed state, which is comprised of an inside scissor wall  140 , scissor bracing  136 , scissor motor  138 , scissor rod  144  and outside scissor wall  142 . Upon activation of scissor motor  138 , scissor bracing  136  generally expands or collapses, of which outside scissor wall  142  is generally rigidly secured. Generally and without limitation, each length, width and height of the components of scissor assembly  134  are not limited to one dimension but of a plurality of dimensions. Alternate motor assemblies may be obvious to one of ordinary skill in the art and thus the present invention is not limited to the preferred embodiment, scissor assembly  134 . 
         [0449]    Referring now to the invention in more detail, in  FIG. 112  there is shown scissor assembly  134 , in its expanded state, which is comprised of an inside scissor wall  140 , scissor bracing  136 , scissor motor  138 , scissor rod  144  and outside scissor wall  142 . Upon activation of scissor motor  138 , scissor bracing  136  generally expands or collapses, of which outside scissor wall  142  is generally rigidly secured. Generally and without limitation, each length, width and height of the components of scissor assembly  134  are not limited to one dimension but of a plurality of dimensions. Alternate motor assemblies may be obvious to one of ordinary skill in the art and thus the present invention is not limited to the preferred embodiment, scissor assembly  134 . 
         [0450]    Referring now to the invention in more detail, in  FIG. 113  and  FIG. 114  there is shown push-pull assembly  146  which is comprised of push-pull shaft  148  generally comprising of elongated rigid material with an approximate 45 degree slope at one end, a shaft guide  158 , comprised of generally rigid material, generally extended in the middle of and from beneath the approximate 45 degree slope and rigidly secured to a one-piece leg assembly  492  comprising of a leg stand interior wall  152  and leg stand exterior wall  154 , both connected by a block of rigid material and both of which are generally comprised of a plate made of rigid material with a plurality of leg pivot holes  156  cut through the total width of leg assembly  492  and of which push lever  150  comprising of elongated rigid material with a pivot mechanism situated in the middle of push lever  150  is generally connected to the outermost point of the approximate 45 degree slope of push-pull shaft  148 . Generally and without limitation, when extended from cross support  122 , push-pull shaft  148  provides a stable, uniform and even surface for a mattress to be placed upon mattress plate  90  of which push-pull shaft  148  supports. Generally and without limitation, each length, width and height of the components of push-pull assembly  146  are not limited to one dimension but of a plurality of dimensions. Generally and without limitation, push-pull assembly  146  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0451]    Referring now to the invention in more detail, in  FIG. 115  there is shown hanger assembly  160  comprising of one piece of generally upright elongated rigid material of which at each end is continued generally horizontally elongated rigid material approximately at right angles of which the center of hanger wheel  162  is rigidly secured to. Generally and without limitation, each length, width and height of hanger assembly  160  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation hanger assembly  160  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0452]    Referring now to the invention in more detail, in  FIG. 116  and  FIG. 117  there is shown mattress attachment plate  166  comprising of plate  168  made of one piece of generally rectangular elongated rigid material, with mattress and plate adherent  174  securely fastened to one side of the widest width of plate  168 , and which is rigidly secured to adjustable height block  172 , to the other side of the widest width of plate  168 , and of which hanger bracket holes  170  are situate on the top corners furthest from plate  168 . Generally and without limitation, each length, width and height of mattress attachment plate  166  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation mattress attachment plate  166  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0453]    Referring now to the invention in more detail, in  FIG. 118  there is shown mattress attachment and mattress attachment plate  178  comprising of mattress attachment  176 , generally comprising of a mattress, securely fastened to mattress attachment plate  166 . Generally and without limitation, each length, width and height of mattress attachment  176  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation mattress attachment  176  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0454]    Referring now to the invention in more detail, in  FIG. 119  there is shown mattress attachment, mattress attachment plate and hanger assembly  180  comprising of mattress attachment  176 , mattress attachment plate  166  and hanger assembly  160  which is generally pivotally joined to hanger bracket hole  170 , as referenced in  FIG. 116 . 
         [0455]    Referring now to the invention in more detail, in  FIG. 120  to  FIG. 123  there is shown mattress attachment assembly, with mattress attachment in closed position,  FIG. 120 , half-way position,  FIG. 121  and upright position,  FIG. 122 , which comprises of beam  114 , cross supports  122 , scissor assembly  134 , push-pull assembly  146 , mattress attachment and mattress attachment plate and hanger assembly  180 . The mattress attachment in the closed position generally means that the mattress attachment and mattress attachment plate and hanger assembly  180  is hanging generally below cross support  122 . Inside scissor wall  140  of scissor assembly  134  is rigidly secured to the web of beam  114 . Outside scissor wall  142  of scissor assembly  134  is rigidly secured to leg stand interior wall  152  of push-pull assembly  146 . Outside scissor wall  142  of scissor assembly  134  is loosely secured to plate  168  of mattress attachment and mattress attachment plate and hanger assembly  180  generally by spring  266 . Hanger wheels  162  of mattress attachment, mattress attachment plate and hanger assembly  180  are situate on wheel paths  126  of cross supports  122 . When scissor motor  138  is activated, scissor bracing  136  expands causing leg stand interior walls  152  to generally shift along the underside of cross supports  122  and cause shaft guides  158 , as referenced in  FIG. 113 , to generally shift along cross support guide-ways  132 , as referenced in  FIG. 91 , and causes push levers  150  to push adjustable height blocks  172  of mattress attachment, mattress attachment plate and hanger assembly  180  underneath and along cross supports  122  such that mattress attachment, mattress attachment plate and hanger assembly  180  pivots generally upright such that the top of mattress attachment  176 , the side opposite of plate  168 , is generally adjacent, aligned with and uniformly even to the top of mattress  88 , open position, and shaft guides  158  enters into and generally shifts along cross support guide-ways  132  of another adjacent bed-unit generally forming a joined bed-pairing. 
         [0456]    Referring now to the invention in more detail, in  FIG. 124  there is shown mattress platform  514  comprising of beam  114 , column  98 , mattress plate  90 , scissor assembly  134 , push-pull assembly  146 , cross support  122 , mattress stays  100 , mattress  88  and mattress attachment, mattress attachment plate and hanger assembly  180 . Generally and without limitation, mattress platform  514  is not limited to one size of mattress  88 , as referenced in  FIG. 109 , but to a plurality of mattress sizes. 
         [0457]    Referring now to the invention in more detail, in  FIG. 125  and  FIG. 126  there is shown mattress platform group  86  which comprises of mattress platform  514  and rod and box assemblies  510 . Mattress platform  514  is generally pivotally connected at each end by rods  44  as rods  44  are generally inserted through the entire length of cylindrical rod support holes  120 , as referenced in  FIG. 86 , and the entire width of columns  98 . Generally and without limitation, mattress platform group  86  is not limited to one size of mattress  88 , as referenced in  FIG. 109 , but to a plurality of mattress sizes. 
         [0458]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 127  there is shown mattress  88  of one bed-unit generally aligned with and generally joining another mattress  88  of another bed-unit thereby forming a joined bed-pairing. Cover  12  is generally pivotally joined to bed frame  10  and generally positioned such that the top of cover  470 , as referenced in  FIG. 249 , is generally parallel to top lateral brace  28  and the top of cover  470  is generally positioned underneath top lateral brace  28 . Step  14  is attached to bed frame  10 . Step  14  enables access to bed frame  10 . The advantages of the present invention include, without limitation, conversion of cover  12  from a plurality of positions situate to bed frame  10  to a position generally underneath top lateral brace  28 . Further, there exists the general advantage of generally joining together a bed-unit to another bed-unit thereby forming a joined bed-pairing. Further, there exists the general advantage such that door  244 , as referenced in  FIG. 7 , is in an open position. Generally and without limitation, each length, width and height of mattress  88  is not limited to one dimension but of a plurality of dimensions. 
         [0459]    Referring now to the invention in more detail, in  FIG. 128  and  FIG. 129  there is shown guide bar  254  comprising of bar gear  252 , spring  266 , spring brake  546 , spring brake lever  548 , spring retarder  550 , spring retarder lever  552  and guide bar indentation  538 .  FIG. 128  illustrates bar gear  252  recessed while  FIG. 129  illustrates bar gear  252  extended. Indentations at both ends of guide bar  254  generally align with the gear teeth of bar gear  252  such that when bar gear  252  is generally rotated this will cause guide bar  254  to rotate with it. Spring  266  situated within guide bar indentation  538  exerts a constant force on spring retarder  550  which causes bar gear  252  to extend outward of guide bar indentation  538 . Bar gear  252  is rigidly secured to spring retarder  550  and as spring retarder lever  552 , which is rigidly secured to spring retarder  550 , is generally moved along guide bar indentation  538 , it will generally contract spring  266  or expand spring  266  and position bar gear  252  generally inwards or outwards of guide bar indentation  538  of guide bar  254 . Spring brake lever  548  is rigidly connected to spring brake  546 . Spring brake  546  generally moves within an indentation at a right angle to the guide bar indentation  538  such that spring retarder  550  is able to move generally freely along guide bar indentation  538  and spring brake  546  also generally moves into the path of spring retarder  550  such that spring retarder  550  is inhibited from moving generally along guide bar indentation  538 . Generally and without limitation, each length, width and height of the components of guide bar  254  are not limited to one dimension but of a plurality of dimensions. 
         [0460]    Referring now to the invention in more detail, in  FIG. 130  and  FIG. 131  there is shown cover frame component  198 , door motor assembly  536  and guide bar  254 .  FIG. 130  illustrates bar gear  252  extended into upper roof guide-way  192  of cover frame component  198 .  FIG. 131  illustrates bar gear  252  receded into guide bar indentation  538  of guide bar  254 . Gears of door motor assembly  536  rotate upon activation of door motor assembly  536  which causes bar gear  252 , when extended into upper roof guide-way  192  of cover frame component  198  and generally pivotally connected to door motor assembly  536 , to generally reciprocally rotate which causes guide bar  254  to generally reciprocally rotate which causes door  244  to generally reciprocally rotate. As referenced in  FIG. 128 , bar gear  252  may disengage from door motor assembly  536  and recede into guide bar indentation  538  of guide bar  254  which enables guide bar  254  to generally travel along the length of guide-way track  264  of upper roof guide  544 . Alternate motor assemblies may be obvious to one of ordinary skill in the art and thus the present invention is not limited to the preferred embodiment, door motor assembly  536 , but of a plurality of types of motor assemblies that may generally raise, lower and pivot doors  244 . 
         [0461]    Referring now to the invention in more detail, in  FIG. 132  there is shown door  244  which is generally loosely connected to right door guide assembly  542  of which bar gear  252  of right door guide assembly  542  generally pivots at upper roof guide-way  192  of cover frame  182 . There is shown door  244  generally transitioning from a completely closed position, a generally upright position, to a roof-top position, a generally horizontal position. 
         [0462]    Referring now to the invention in more detail, in  FIG. 133  there is shown door  244  which is generally loosely connected to right door guide assembly  542  of which bar gear  252  of right door guide assembly  542  generally travels within and along the length of guide-way track  264  of upper roof guide  544  and seats into upper roof guide-way  192 . 
         [0463]    Referring now to the invention in more detail, in  FIG. 134  and  FIG. 135  there is shown door  244  and right door guide assembly  542 .  FIG. 134  illustrates door  244  at its generally farthest position from guide bar  254 .  FIG. 135  illustrates door  244  at its generally closest position to guide bar  254  as door grip  248  travels along the edges of door latch disk  534  of door latch  256  until door  244  contacts guide bar  254 . 
         [0464]    Referring now to the invention in more detail, in  FIG. 136  and  FIG. 137  there is shown cover  12  with doors  244  in a closed position. 
         [0465]    Referring now to the invention in more detail, in  FIG. 138  there is shown cover  12  with doors  244  in an open position, generally stationed above roof assembly  194 . 
         [0466]    Referring now to the invention in more detail, in  FIG. 139  there is shown cover  12  with one door  244  in an open position and the other door  244  in a closed position. 
         [0467]    Referring now to the invention in more detail, in  FIG. 140  there is shown cover  12  with doors  244  in an open position, generally stationed above roof assembly  194 . 
         [0468]    Referring now to the invention in more detail, in  FIG. 141  there is shown cover  12  with one door  244  in an open position and the other door  244  in a closed position. 
         [0469]    Referring now to the invention in more detail, in  FIG. 142  there is shown cover frame component  198  comprising of one piece of generally horizontal elongated rigid material of which at each end is continued generally downward elongated rigid material at a right angle and generally upright elongated rigid material at a right angle of which lower roof guide-way  190  is generally comprised of an indentation cut partially through and originating from the side and nearest to the generally horizontal elongated rigid material and also comprised of upper roof guide-way  192  which is comprised of an indentation cut partially through and originating from the side and farthest from the generally horizontal elongated material. Additionally there is shown electrical wire hole  200  which is generally situate at the central intersection of the generally horizontal elongated rigid material and the generally upright elongated rigid material. Generally and without limitation, each length, width and height of the components of cover frame component  198  are not limited to one dimension but of a plurality of dimensions. 
         [0470]    Referring now to the invention in more detail, in  FIG. 143  there is shown cover frame  182  comprising of two cover frame components  198  and two cover frame lateral braces  524 . At each end of cover frame lateral braces  524  are generally rigidly secured at right angles and generally below electrical holes  200 , cover frame components  198 . Generally and without limitation, each length, width and height of the components of cover frame  182  are not limited to one dimension but of a plurality of dimensions. 
         [0471]    Referring now to the invention in more detail, in  FIG. 144  there is shown outside plate  202  comprising of generally rectangular rigid material with glide path  206 , generally an elongated upright cavity cut through the middle of outside plate  202 . Generally and without limitation, each length, width and height of outside plate  202  is not limited to one dimension but of a plurality of dimensions. 
         [0472]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 145  there is shown outside plate with square cavity  612 , a generally rectangular rigid material with a generally square cavity, square cavity  638 , cut through generally the center and generally near the bottom of outside plate with square cavity  612 . Generally and without limitation, each length, width and height of outside plate with square cavity  612  is not limited to one dimension but of a plurality of dimensions and square cavity  638  is not limited to one shape but of a plurality of shapes. 
         [0473]    Referring now to the invention in more detail, in  FIG. 146  there is shown cylindrical disk  204  comprising of generally cylindrical rigid material with glide path  206 , generally an elongated upright cavity cut through the middle of cylindrical disk  204 . Generally and without limitation, each length, width, height and circumference of cylindrical disk  204  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, cylindrical disk  204  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0474]    Referring now to the invention in more detail, in  FIG. 147  there is shown inside plate  208  comprising of generally rectangular rigid material with glide path  206 , generally an elongated upright cavity cut through the middle of inside plate  208 . Generally and without limitation, each length, width and height of inside plate  208  is not limited to one dimension but of a plurality of dimensions. 
         [0475]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 148  there is shown inside plate with square cavity  614 , a generally rectangular rigid material with a generally square cavity, square cavity  638 , cut through generally the center and generally near the bottom of inside plate with square cavity  614 . Generally and without limitation, each length, width and height of inside plate with square cavity  614  is not limited to one dimension but of a plurality of dimensions and square cavity  638  is not limited to one shape but of a plurality of shapes. 
         [0476]    Referring now to the invention in more detail, in  FIG. 149  and  FIG. 150  there is shown cover end assembly  184  comprising of outside plate  202  rigidly secured to cylindrical disk  204  of which cylindrical disk  204  is rigidly secured to inside plate  208  such that glide path  206  of outside plate  202  and glide path  206  of cylindrical disk  204  and glide path  206  of inside plate  208  are all generally aligned with each other. 
         [0477]    Referring now to the invention in more detail, in  FIG. 151  there is shown cover frame  182  and end assembly  184 . Inside plates  208  of cover end assemblies  184  are generally rigidly secured to the outside ends of cover frame  182 . 
         [0478]    Referring now to the invention in more detail, in  FIG. 152  there is shown air filtration pipe  210  which is comprised of generally tubular rigid material with a generally tubular upright elbow at one end and a generally tubular downward elbow at the other end with air filtration valve lever  212  protruding from it and two generally tubular horizontal elbows rigidly secured to each other and generally connecting both ends. Generally and without limitation, each length, width, height, circumference and configuration of air filtration pipe  210  is not limited to one dimension but of a plurality of dimensions and configurations. 
         [0479]    Referring now to the invention in more detail, in  FIG. 153  there is shown sound suppressing and insulating material  216  which may comprise of a plurality of rigidities and may comprise of a plurality of sound absorption qualities and may comprise of a plurality of insulating properties and may be combined with a plurality of other materials. Generally and without limitation, sound suppressing and insulating material  216  is generally situate inside cover walls and inside cover roof and inside cover glide path doors and inside cover doors. 
         [0480]    Referring now to the invention in more detail, in  FIG. 154  there is shown roof frame  214  comprising of one piece of rigid material, generally in the form of a rectangle generally with a central cavity comprising of two generally upright members and two generally horizontal members. Air filtration pipes  210  are provided to illustrate a schematic view of where they will generally be situated within roof frame  214 . Generally and without limitation, each length, width and height of roof frame  214  is not limited to one dimension but of a plurality of dimensions. 
         [0481]    Referring now to the invention in more detail, in  FIG. 155  there is shown roof plate  218  comprising of one piece of generally rectangular rigid material with two air filtration holes  220 , situated at a plurality of positions and cut through roof plate  218 . Generally and without limitation, each length, width and height of roof plate  218  is not limited to one dimension but of a plurality of dimensions. 
         [0482]    Referring now to the invention in more detail, in  FIG. 156  there is shown roof assembly  194  comprising of two roof plates  218 , roof frame  214 , air filtration pipes  210  and sound suppressing and insulating material  216 . One roof plate  218  is rigidly secured generally to the underside of roof frame  214  and two air filtration pipes are generally placed such that the two air filtration pipe exits are aligned with air filtration holes  220  of roof plate  218  and sound suppressing and insulating material  216  is generally placed within the framework and the other roof plate  218  is rigidly secured to the topside of roof frame  214  such that the other air filtration holes  220  generally align with the other two air filtration pipe exits of air filtration pipes  210 . 
         [0483]    Referring now to the invention in more detail, in  FIG. 157  there is shown cover frame  182 , cover end assembly  184  and roof assembly  194  with air filtration holes  220 . Roof assembly  194  is rigidly secured to the inside of cover frame  182  such that roof frame  194  is situated generally above the height of cover end assembly and generally below lower roof guide-way  190 . 
         [0484]    Referring now to the invention in more detail, in  FIG. 158  and  FIG. 159  there is shown glide path door hanging assembly  224  which comprises of two rolling track assemblies  226  with clasps  228  on each of the furthermost and opposite sides of the pair of rolling track assemblies  226  of which rolling track assembly  226  generally travels and moves within the length of hanging assembly track  530 . Generally and without limitation, each length, width and height of the components of glide path door hanging assembly  224  is not limited to one dimension but of a plurality of dimensions. 
         [0485]    Referring now to the invention in more detail, in  FIG. 160  there is shown glide path door  222  which is comprised of generally rectangular elongated rigid material, or optionally as illustrated in  FIG. 162 , curved glide path door  640  of which generally an arc is cut at the bottom of curved glide path door  640  which may generally encompass half the circumference of rod  44  when placed over rod  44 . Glide path door rafter  528 , a generally rectangular elongated rigid material, is situate at the top end of glide path door  222  and curved glide path door  640 . Generally and without limitation, each length, width and height of glide path door  222  and optional curved glide path door  640  are not limited to one dimension but of a plurality of dimensions. 
         [0486]    Referring now to the invention in more detail, in  FIG. 161  there is shown glide path door  222  of which glide path door  222  is rigidly secured to rolling track assemblies  226  of glide path door hanging assembly  224  thereby enabling glide path door  222  to travel and move the length of hanging assembly track  530 . 
         [0487]    Referring now to the invention in more detail, in  FIG. 163  and  FIG. 164  there is shown cover frame  82 , cover end assembly  184 , ceiling  196  of roof assembly  194 , glide path  206 , glide path door hanging assembly  224  and glide path door  222 . At each end of cover frame  182 , glide path door  222  is rigidly secured to glide path door hanging assembly  224  which is rigidly secured to the bottom of cover frame lateral brace  524 . In  FIG. 163  there is shown glide path door  222  in an open position as it generally does not cover glide path  206 . In  FIG. 164  there is shown glide path door  222  in a closed position as it generally covers glide path  206 . 
         [0488]    Referring now to the invention in more detail, in  FIG. 165  and  FIG. 166  there is shown cover frame  182 , inside plate  208 , rod  44 , glide path door  222 , glide path door hanging assembly  224 , pulley motor  576 , pulley cable,  580  and pulley  578 . Upon activation of pulley motor  576  of which pulley cable  580  is generally secured to, pulley cable  580  generally moves clockwise or counter-clockwise through pulleys  578  causing rolling track assembly  226  of which clasp  228 , as referenced in  FIG. 158 , is generally secured to pulley cable  580  to generally move along hanging assembly track  530  which causes glide path door  222  to generally move back from a position over rod  44  exposing glide path  206 , as illustrated in  FIG. 165 , and generally forth to a position over rod  44  covering glide path  206 , as illustrated in  FIG. 166 . Generally and without limitation, glide path door  222 , when covering glide path  206 , inhibits noise, light, temperature, pathogens and air transmission through cover  12  and provides additional structural integrity to cover  12  when generally joined to rod  44  as glide path door  222  is situate between cover frame lateral brace  524  and rod  44 . Alternate motor assemblies may be obvious to one of ordinary skill in the art and thus the present invention is not limited to the preferred embodiment, pulley motor  576 , but of a plurality of types of motor assemblies. 
         [0489]    Referring now to the invention in more detail, in  FIG. 167  there is shown interior end wall  230  comprising of generally rectangular rigid material with glide path  206 , generally an elongated upright cavity cut through the middle of interior end wall  230 . Generally and without limitation, each length, width and height of interior end wall  230  is not limited to one dimension but of a plurality of dimensions 
         [0490]    Referring now to the invention in more detail, in  FIG. 168  there is shown cover frame  182 , cover end assembly  184 , roof assembly  194  and interior end wall  230 . Interior end walls  230  are generally rigidly secured, through block filing, to inside plates  208  of cover end assemblies  184  and to cover frame  182  of which sound suppressing and insulating material  216  is generally secured between inside plate  208  and interior end wall  230 . 
         [0491]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 169  there is shown square interior end wall  642 , a generally rectangular rigid material with a generally square cavity, square cavity  638 , cut through generally the center and generally near the bottom of square interior end wall  642 . Generally and without limitation, each length, width and height of square interior end wall  642  is not limited to one dimension but of a plurality of dimensions and square cavity  638  is not limited to one shape but of a plurality of shapes. 
         [0492]    Referring now to the invention in more detail, in  FIG. 170  there is shown door frame  232  comprising of one piece of rigid material, generally in the form of a rectangle generally with a central cavity comprising of two generally upright members and two generally horizontal members. Two additional generally upright members are rigidly secured to the insides of the two generally horizontal members. Generally and without limitation, each length, width and height of door frame  232  is not limited to one dimension but of a plurality of dimensions. 
         [0493]    Referring now to the invention in more detail, in  FIG. 171  there is shown door inside panel  234  comprising of generally rectangular rigid material with door lock holes  238  generally situate at the middle of each end of door inside panel  234 . Generally and without limitation, each length, width and height of door inside panel  234  is not limited to one dimension but of a plurality of dimensions. 
         [0494]    Referring now to the invention in more detail, in  FIG. 172  there is shown door outside panel  236  comprising of generally rectangular rigid material with door lock holes  238  generally situate at the middle of each end of door outside panel  236  and door handle  240  generally embedded in door outside panel  236 . Generally and without limitation, each length, width and height of door outside panel  236  is not limited to one dimension but of a plurality of dimensions. 
         [0495]    Referring now to the invention in more detail, in  FIG. 173  and  FIG. 174  there is shown door  244  comprising of door inside panel  234 , door outside panel  236 , door lock  242  and door handle  240 . Door inside panel  234  is rigidly secured to one side of door frame  232 , as referenced in  FIG. 170 , with sound suppressing and insulating material  216  generally secured within door frame  232 . Door outside panel  236  is rigidly secured to the other side of door frame  232 . Door grips  248  are rigidly secured to generally the top of door outside panel  236  and door locks  242  are inserted through door lock holes  238 . Door locks  242  are not limited to any one door lock but to a plurality of door locks of which may be generally removably connected to cover frame  182  and may generally lock doors  244  from the inside of cover  12  and the outside of cover  12 . 
         [0496]    Referring now to the invention in more detail, in  FIG. 175  there is shown upper roof guide  544  which comprises of one piece of generally elongated rectangular rigid material with guide-way track  264 , an indentation running along the middle of and end to end of upper roof guide  544 . Generally and without limitation, each length, width and height of upper roof guide  544  is not limited to one dimension but of a plurality of dimensions. 
         [0497]    Referring now to the invention in more detail, in  FIG. 176  there is shown lower roof guide  262  which comprises of one piece of generally elongated rectangular rigid material with guide-way track  264 , an indentation running along the middle of and end to end of lower roof guide  262 . Generally and without limitation, each length, width and height of lower roof guide  262  is not limited to one dimension but of a plurality of dimensions. 
         [0498]    Referring now to the invention in more detail, in  FIG. 177  there is shown guide bar  254  comprising of generally elongated rectangular rigid material with guide bar indentation  538  at each end of guide bar  254  which is comprised of housing to generally and partially encompass the external dimensions of the gear teeth of bar gear  252  and to also house spring retarder  550  and spring  266 , as referenced in  FIG. 128 . Generally and without limitation, each length, width and height of the components of guide bar  254  are not limited to one dimension but of a plurality of dimensions. 
         [0499]    Referring now to the invention in more detail, in  FIG. 178  there is shown the right door guide assembly  542  which is comprised of guide bar  254 , door latch  256  and right door latch hanger  260 . Right door latch hanger  260  is comprised of generally upright elongated rigid material with a curved bottom and a generally horizontal rigid material extending at the top of right door latch hanger  260  and at a right angle to the portion of upright member of right door latch hanger  260 . Right door latch hanger  260  is rigidly secured to guide bar  254  and to door latch disk  534  of door latch  256 . Generally and without limitation, each length, width and height of the components of right door guide assembly  542  are not limited to one dimension but of a plurality of dimensions. 
         [0500]    Referring now to the invention in more detail, in  FIG. 179  there is shown the left door guide assembly  250  which is comprised of guide bar  254 , door latch  256  and left door latch hanger  258 . Left door latch hanger  258  is comprised of one piece of generally upright elongated rigid material, generally shorter than that of right door latch hanger  260 , with a curved bottom and a generally horizontal rigid material extending at the top of left door latch hanger  258  and at a right angle to the portion of the upright member of left door latch hanger  258 . Left door latch hanger  258  is rigidly secured to guide bar  254  and to door latch disk  534  of door latch  256 . Generally and without limitation, each length, width and height of the components of left door guide assembly  250  are not limited to one dimension but of a plurality of dimensions. 
         [0501]    Referring now to the invention in more detail, in  FIG. 180  there is shown door grip  248  comprising of a generally horse-shoe shaped rigid material with door grip guide-way  532 , an indentation on each inside of the generally upright members of door grip  248 . Generally and without limitation, each length, width and height of door grip  248  is not limited to one dimension but of a plurality of dimensions. 
         [0502]    Referring now to the invention in more detail, in  FIG. 181  there is shown door latch  256  comprising of one solid piece of generally rectangular rigid material and generally curved at the bottom with door latch disk  534  comprised of a cylindrical rigid material rigidly secured to the bottom of door latch  256 . Generally and without limitation, each length, width and height of door latch  256  is not limited to one dimension but of a plurality of dimensions. 
         [0503]    Referring now to the invention in more detail, in  FIG. 182  there is shown right door guide assembly  542  and door  244 . Door  244  is generally loosely connected to right door assembly  542  as door latch disk  534  of door latch  256  generally slides within door grip guide-way  532  of door grip  248 , as referenced in  FIG. 180 . 
         [0504]    Referring now to the invention in more detail, in  FIG. 183  there is shown lower roof guide  262  rigidly secured at each end to cover frame  182  such that each end is generally aligned with lower roof guide-way  190 . There is also shown upper roof guide  544  rigidly secured at each end to cover frame  182  such that each end is generally aligned with upper roof guide-way  192 . 
         [0505]    Referring now to the invention in more detail, in  FIG. 184  there is shown telescoping leg  340  comprising of upright leg  544  comprising of one piece of generally rectangular elongated rigid material with hollow core and one piece of generally rectangular rigid material within the hollow core of upright leg  544  of which is a pivotally connected self-leveling wheel  342  at the bottom of upright leg  544  and of which two peg holes  346  are generally situate at the top of and cutting completely through upright leg  554  and of which anchor post  344  comprising of a generally cylindrical elongated rigid material protrudes from upright leg  544 , generally close to the top of upright leg  544  and below peg hole  346 . Generally and without limitation, each length, width and height of telescoping leg  340  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, telescoping leg  340  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0506]    Referring now to the invention in more detail, in  FIG. 185  there is shown push-pull assembly  146  and telescoping leg  340 . Telescoping leg  340  is in a generally horizontal seated position and generally pivotally connected by anchor post  344  and a removable peg to push-pull assembly  146 . 
         [0507]    Referring now to the invention in more detail, in  FIG. 186  there is shown push-pull assembly  146  and telescoping leg  340 . Telescoping leg  340  is in a generally upright extended position and generally pivotally connected by anchor post  344  and a removable peg to push-pull assembly  146 . 
         [0508]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 187  there is shown cover protection material  358  comprising of para-aramid synthetic fiber. Cover protection material  358  may generally be employed in a plurality of ways and methods within the cavities of all doors, walls, roof and general interior and general exterior of cover  12  and bed frame  10 . Generally and without limitation, cover protection material  358  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0509]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 188  there is shown steel armour  360  comprising of a plurality of rigid materials. Steel armour  360  may generally be employed in a plurality of ways and methods within the cavities of all doors, walls, roof and general interior and general exterior of cover  12  and bed frame  10 . Generally and without limitation, steel armour  360  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0510]    Referring now to the invention in more detail, in  FIG. 189  and  FIG. 190  there is shown step  14 .  FIG. 189  illustrates step lid  268  of step  14  in a closed position.  FIG. 190  illustrates step lid  268  of step  14  in an open position. Step  14  is comprised of step storage  270 , generally rigid material generally in the shape of a rectangular box with a general rectangular cavity and generally pivotally secured to step lid  268 , generally rectangular rigid material that generally encloses the top of step storage  270 . Generally and without limitation, each length, width and height of step  14  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, step  14  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0511]    Referring now to the invention in more detail, in  FIG. 191  to  FIG. 194  there is shown step  14 , as referenced in  FIG. 190 , with internal and external components comprising of backup battery  368 , CPAP unit  366 , air filtering unit  364 , heating unit  362 , air conditioning unit  298  housed within step storage  270  of step  14  and air filter tube  374 , main tube  376 , ventilation holes  370  and CPAP tube  372 . Air from air filter tubes  374 , which extend from air filtering unit  364 , heating unit  362  and air conditioning unit  298  generally travels into main tube  376  and continues on into air filter tubes  374  which extend through cover end assembly  184  and interior end wall  230  of cover  12 . Air generally travels within air CPAP tube  372  which extends from CPAP unit  366  to the inside of interior end wall  230  of cover  12  through cover end assembly  184  and interior end wall  230  of cover  12 . Ventilation holes  370  generally provide ventilation into and out of step storage  270 . Sound suppressing and insulating material  216  is generally placed within the cavities of the floor, walls and step lid  268  of step  14  and generally inside step  14 . Generally and without limitation, step  14  provides easier access to the bed-unit and provides sound-proofed storage for internal components housed within step  14 . Generally and without limitation, all internal components of step  14  are optional and not required components of the present invention as all, some, or none at all may or may not reside within step  14  generally as illustrated and additionally there are a plurality of combinations of internal components within step  14  and a plurality of placement locations of internal components within step  14  or, as referenced as optional, no internal components may reside in step  14 . 
         [0512]    Referring now to the invention in more detail, in  FIG. 195  and  FIG. 196  there is shown rod  44  and heated ring assembly  274  comprising of heated ring  276  and electrical wire  64 . Heated ring  276  is an electrically heated cylindrical ring encompassing each rod  44  and, when a bed-unit comprises of bed frame  10  and cover  12 , is situated between adapter  50  of bed frame  10  and outside plate  202  of cover  12 , which deters arthropoda from traversing each rod  44  between adapter  50  and column  98 . When a bed-unit comprises of bed frame  10  but does not comprise of cover  12 , heated ring assembly  274  is situated between adapter  50  of bed frame  10  and column  98  of bed frame  10  which deters arthropoda from traversing each rod  44  between adapter  50  and column  98 . Generally and without limitation, each length, width, height and circumference of heated ring assembly  274  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, heated ring assembly  274  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0513]    Referring now to the invention in more detail, in  FIG. 197  there is shown receptacle  36  and bug lights  278 . Generally rigidly secured to receptacle  36  above and below rod  44  is provided bug lights  278 , electrically operated flood lights, which deter arthropoda from nearing the lit area and also from traversing each rod  44  between adapter  50  and column  98 . Generally and without limitation, each length, width, height and circumference of bug light  278  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, bug light  278  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0514]    Referring now to the invention in more detail, in  FIG. 198 ,  FIG. 200 ,  FIG. 202  and  FIG. 204 , there is shown adaptable frame plain façade  280 , adaptable frame sleigh facade  282 , adaptable frame double post facade  284  and adaptable frame canopy facade  286  respectively. These generally adaptable and customizable frame facades are comprised of generally rigid material which may be generally fitted to and generally rigidly secured to one end or both ends of bed frame  10  as shown in  FIG. 199 ,  FIG. 201 ,  FIG. 203  and  FIG. 205 . Generally and without limitation, adaptable frame facades are customizable and of unique designs, but not limited to one design but of an unlimited plurality of generally customizable designs, generally all of which are designed to fit an embodiment of the present invention. Generally and without limitation, each length, width, height and circumference of the adaptable frame facades are not limited to one dimension but of a plurality of dimensions. Generally and without limitation, adaptable frame facades are optional components of the present invention and may not be required components, for any reason whatsoever, of the present invention. 
         [0515]    Referring now to the invention in more detail, in  FIG. 206  and  FIG. 207  there is shown cover facade  288 . Cover facade  288  is an adaptable and customizable cover facade comprised of generally rigid material which may be generally fitted to and generally rigidly secured generally nearest to the top end or both ends of cover  12 . Generally and without limitation, cover facade  288  is customizable and of unique designs, but not limited to one design but of an unlimited plurality of generally customizable designs, generally all of which are designed to fit an embodiment of the present invention. Generally and without limitation, each length, width, height and circumference of cover facade  288  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, cover facade  288  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0516]    Referring now to the invention in more detail, in  FIG. 208  there is shown cover  12  and smoke and CO detector  290 . Generally and without limitation, smoke and CO detector  290  may be generally rigidly secured to a plurality of locations on bed frame  10  or cover  12 . Generally and without limitation, smoke and CO detector  290  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0517]    Referring now to the invention in more detail, in  FIG. 209  there is shown adaptable snap-on covering upholstery  292 . Adaptable snap-on covering upholstery  292  comprises of adaptable covering  294  which may generally comprise of a plurality of rigidities with snap  296  which removably connects adaptable covering  294  to cover  12 . Generally and without limitation, adaptable snap-on covering upholstery  292  is customizable and of unique design, but not limited to one design but of an unlimited plurality of generally customizable designs, generally all of which are designed to generally fit cover  12 . Adaptable covering  294  may generally removably connect to cover  12  in a plurality of ways and is not limited to snap  296 . Generally and without limitation, adaptable snap-on covering upholstery  292  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0518]    Referring now to the invention in more detail, in  FIG. 210  there is shown step and bolt spacer assembly  272  comprising of spacer  556 , a generally square, or optionally rectangular, piece of rigid material with a plurality of holes cutting through the thickness of spacer  556  as well as a plurality of bolts of rigid material and a plate comprising of a generally square, or optionally rectangular, piece of rigid material. Step bolt and spacer assembly  272  rigidly secures step  14  to roller boot assembly  66  enabling step  14  to generally move synchronously with bed frame  10 . Generally and without limitation, each length, width, height and circumference of step and bolt spacer assembly  272  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, step and bolt spacer assembly  272  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0519]    Referring now to the invention in more detail, in  FIG. 211  there is shown headboard and workstation assembly  378  comprising of headboard  380  and workstation vertical guide-way  382 . Headboard  380  is comprised of generally rectangular rigid material of which workstation vertical guide-way  382  is generally rigidly secured in an upright position to the face and at one end of headboard  380  and comprises of an indentation running generally from the top and inside of workstation vertical guide-way  382  to generally the bottom of workstation vertical guide-way  382  with a plurality of generally horizontal indentations extending from the indentation of workstation vertical guide-way  382  and generally curving to generally the front of workstation vertical guide-way  382 . Generally and without limitation, each length, width and height of the components of headboard and workstation assembly  378  are not limited to one dimension but of a plurality of dimensions. Generally and without limitation, headboard and workstation assembly  378  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0520]    Referring now to the invention in more detail, in  FIG. 212  there is shown workstation frame  384  comprising of vertical post  386 , post pegs  394 , telescoping horizontal post  388 , telescoping arm  558 , pivot cuff  390  and cuff peg  392 . Vertical post  386  is comprised of a generally elongated tubular material of which protrudes from vertical post  386  a plurality of post pegs  394 . Telescoping horizontal post  388  is generally pivotally secured to vertical post  386  generally at a right angle and is comprised of a generally elongated tubular rigid material that houses telescoping arm  558 , a generally elongated tubular rigid material within it and of which pivot cuff  390  is generally pivotally secured to telescoping arm  558  situate furthest from vertical post  386  and is comprised of generally tubular rigid material with a hollow core with cuff peg  392  protruding from the outside of pivot cuff  390 . Generally and without limitation, each length, width, height and circumference of workstation frame  384  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, workstation frame  384  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0521]    Referring now to the invention in more detail, in  FIG. 213  and  FIG. 214  there is shown workstation table  396  comprising of two table tops  400  each comprising of generally rectangular rigid material with table top rails  402  situate at both ends and one side of table tops  400  and of which both table tops  400  are indented with a cup holder  398  and of which both table tops  400  are generally pivotally secured to each other at one side each of table top  400 .  FIG. 213  illustrates workstation table  396  in an open position and  FIG. 214  illustrates workstation table  396  in a closed position. Generally and without limitation, each length, width, height and circumference of the components of workstation table  396  are not limited to one dimension but of a plurality of dimensions. Generally and without limitation, workstation table  396  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0522]    Referring now to the invention in more detail, in  FIG. 215  to  FIG. 221  there is shown the workstation assembly process flowchart.  FIG. 215  illustrates the workstation assembly in its collapsed state. In  FIG. 216 , post pegs  394  of workstation frame  384  travel in a generally upright direction within workstation vertical guide-way  382  of headboard and workstation assembly  378  such that post pegs  394  are aligned with the generally horizontal indentations of workstation vertical guide-way  382 . In  FIG. 217 , post pegs  394  of workstation frame  384  pivot generally to a right angle to headboard  380 . In  FIG. 218 , workstation table  396  generally pivots on cuff peg  392  of workstation frame  384  generally at a right angle to telescoping horizontal post  388 . In  FIG. 219 , workstation table  396 , which is generally pivotally secured to cuff peg  392 , pivots with pivot cuff  390  generally clockwise around telescoping horizontal post  388 . In  FIG. 220 , one table top  400 , generally pivotally secured to the other table top  400 , generally pivots counter-clockwise. In  FIG. 221 , workstation table  396  is extended as cuff peg  392  of which it is generally pivotally secured to and of which cuff peg  392  is generally rigidly secured to pivot cuff  390  of which pivot cuff  390  is generally pivotally secured to telescoping arm  558 , is extended. 
         [0523]    Referring now to the invention in more detail, in  FIG. 222  and  FIG. 223  there is shown headboard and workstation assembly  378  rigidly secured to the top of column  98  of bed frame  10 .  FIG. 222  illustrates headboard and workstation assembly in its collapsed position.  FIG. 223  illustrates headboard and workstation assembly in its expanded position. 
         [0524]    Referring now to the invention in more detail, in  FIG. 224  there is shown bed frame  10 , headboard  380  and therapy light  404 . Therapy light  404  is generally adjustable and generally rigidly secured to the top of headboard  380 . Generally, therapy light  404  is a device which generally provides light therapy or phototherapy, classically referred to as heliotherapy, mimicking daylight or providing exposure to specific wavelengths of light. Therapy light  404  may not be limited to generally rigid securement to the top of headboard  380  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, therapy light  404  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0525]    Referring now to the invention in more detail, in  FIG. 225  there is shown bed frame  10 , headboard  380  and laser projector  406 . Laser projector  406  is generally adjustable and generally rigidly secured to the top of headboard  380 . Generally, laser projector  406  is a device that projects changing laser beams on a surface for entertainment or professional use. Laser projector  406  may not be limited to generally rigid securement to the top of headboard  380  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, laser projector  406  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0526]    Referring now to the invention in more detail, in  FIG. 226  there is shown cover  12  and thermostat  408 . Thermostat  408  is generally rigidly secured to a surface of cover  12 . Thermostat  408  is a component of heating unit  362 , as referenced in  FIG. 191 , which senses the temperature such that the temperature is generally maintained at or near a desired set point. Thermostat  408  may not be limited to generally rigid securement to a surface of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, thermostat  408  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0527]    Referring now to the invention in more detail, in  FIG. 227  there is shown cover  12  and collapsible monitor  410 . Collapsible monitor  410  is generally an electronic visual display device generally adjustable and generally pivotally secured to ceiling  196  of cover  12  and may be generally housed within roof assembly  194 . Collapsible monitor  410  may not be limited to general pivotal securement to ceiling  196  of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, collapsible monitor  410  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0528]    Referring now to the invention in more detail, in  FIG. 228  there is shown cover  12  and flat panel displays  412 . Flat panel displays  412  are generally electronic visual displays. Flat panel displays  412  may be generally rigidly secured to doors  244 , interior end walls  230  and ceiling  196  of cover  12 . Flat panel displays  412  may not be limited to generally rigid securement to doors  244 , interior end walls  230  and ceiling  196  of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, flat panel displays  412  are optional components of the present invention and may not be required components, for any reason whatsoever, of the present invention. 
         [0529]    Referring now to the invention in more detail, in  FIG. 229  and  FIG. 230  there is shown bed frame  10 , TV riser kit  414  and television  416 . TV riser kit  414  is a device, which may be generally electrically activated, generally of which TV riser kit  414  is generally rigidly secured to the top of column  98 . Television  416  generally rigidly secures to TV riser kit  414  and may remain generally stationary, be generally raised in an upright direction and generally lowered in a downward direction. Without limitation, TV riser kit  414  may not be rigidly secured to the top of column  98  but to a plurality of locations on bed frame  10  and on or within cover  12 . Generally and without limitation, each length, width and height of television  416  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, TV riser kit  414  and television  416  are optional components of the present invention and may not be required components, for any reason whatsoever, of the present invention. 
         [0530]    Referring now to the invention in more detail, in  FIG. 231  there is shown cover  12  and trapeze hook  418 . Trapeze hook is a hook generally comprised of rigid material generally rigidly secured to ceiling  196  of cover  12 . A trapeze may generally be removably secured to trapeze hook  418 . Without limitation, trapeze hook  418  may not be rigidly secured to ceiling  196  of cover  12  but to a plurality of locations on bed frame  10  and on or within cover  12 . Generally and without limitation, each length, width and height of trapeze hook  418  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, trapeze hook  418  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0531]    Referring now to the invention in more detail, in  FIG. 232  there is shown cover  12  and retractable mosquito net assembly  420  which comprises of mosquito net  562 , roller screen cassette  564  and roller screen pegs  560 . Mosquito net  562  generally rolls out from and retracts into roller screen cassette  564 . Roller screen pegs  560  of retractable mosquito net assemblies  420  are generally removably secured to the top corners of interior end walls  230 . Generally and without limitation, each length, width and height of retractable mosquito net assembly  420  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, retractable mosquito net assembly  420  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0532]    Referring now to the invention in more detail, in  FIG. 233  there is shown cover  12  and speakers  422 , electroacoustic transducers that produce sound in response to an electrical audio signal input. Speakers  422  may be generally rigidly secured to doors  244 , interior end walls  230  and ceiling  196  of cover  12 . Speakers  422  may not be limited to generally rigid securement to doors  244 , interior end walls  230  and ceiling  196  of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, each length, width, height and circumference of speakers  422  are not limited to one dimension but of a plurality of dimensions. Generally and without limitation, speakers  422  are optional components of the present invention and may not be required components, for any reason whatsoever, of the present invention. 
         [0533]    Referring now to the invention in more detail, in  FIG. 234  and  FIG. 235  there is shown cover  12  and roof shelf  424 . Roof shelf  424  is comprised of generally rectangular, or optionally square, rigid material with generally a partial portion of the top and generally joined end exposed generally forming a shelf. Roof shelf  424  is generally rigidly secured to ceiling  196  of cover  12 . Generally and without limitation, each length, width and height of roof shelf  424  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, roof shelf  424  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0534]    Referring now to the invention in more detail, in  FIG. 236  there is shown cover  12  with oxygen tank hole  426 . Oxygen tank hole  426  is a hole cut through interior end wall  230  and cover end assembly  184  such that it provides access for an oxygen tank hose generally connected to an oxygen tank located generally outside cover  12  to generally connect to an oxygen mask located inside cover  12 . Oxygen tank hole  426  may be situated in a plurality of locations on interior end wall  230  and cover end assembly  184 . Generally and without limitation, oxygen tank hole  426  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0535]    Referring now to the invention in more detail, in  FIG. 237  there is shown cover  12  and baby monitor  428 . Baby monitor  428  is generally rigidly secured to a surface of cover  12 . Baby monitor  428 , also known as a baby alarm, is a radio system, which may provide one way or two-way communication, used to remotely listen to sounds made by an infant, play music and talk back to an infant. Baby monitor  428  may not be limited to generally rigid securement to a surface of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, baby monitor  428  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0536]    Referring now to the invention in more detail, in  FIG. 238  there is shown cover  12  and electric lights  430 , devices that produce light by the flow of electric current. Electric lights  430  are generally rigidly secured to doors  244 , interior end walls  230  and ceiling  196  of cover  12 . Electric lights  430  may not be limited to generally rigid securement to doors  244 , interior end walls  230  and ceiling  196  of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, electric lights  430  are optional components of the present invention and may not be required components, for any reason whatsoever, of the present invention. 
         [0537]    Referring now to the invention in more detail, in  FIG. 239  there is shown cover  12  with electrical outlet  432 , a device that generally allows electrically operated equipment to be connected to a power supply. Electrical outlet  432  is generally rigidly secured to a surface of cover  12 . Electrical outlet  432  may not be limited to generally rigid securement to a surface of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, electrical outlet  432  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0538]    Referring now to the invention in more detail, in  FIG. 240  there is shown cover  12  with panic alarm  434  which is generally rigidly secured to a surface of cover  12 . Panic alarm  434  is an electronic device generally designed to assist in alerting somebody to an emergency situation where a threat to persons or property exists. Panic alarm  434  may not be limited to generally rigid securement to a surface of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, panic alarm  434  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0539]    Referring now to the invention in more detail, in  FIG. 241  there is shown cover  12  and emergency oxygen mask  436 , which consists of an oxygen mask generally stored in roof assembly  194  which deploys from ceiling  196  of roof assembly  194  and connects to a gaseous cylinder or chemical oxygen generator. Emergency oxygen mask  436  may not be limited to storage in ceiling  196  of roof assembly  194  but may be generally secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, emergency oxygen mask  436  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0540]    Referring now to the invention in more detail, in  FIG. 242  there is shown cover  12  with voice activated recorder  438  which is generally rigidly secured to a surface of cover  12 . Voice activated recorder  438  is an electronic device generally designed to automatically record sounds, including articulated voices. Voice activated recorder  438  may not be limited to generally rigid securement to a surface of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, voice activated recorder  438  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention 
         [0541]    Referring now to the invention in more detail, in  FIG. 243  there is shown cover  12  and intercom  440  which is generally rigidly secured to a surface of cover  12 . Intercom  440  is a wired or wireless one-way or two-way intercommunication system. Intercom  440  may not be limited to generally rigid securement to a surface of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, intercom  440  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention 
         [0542]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 244  there is shown bed frame  10  and adjustable mattress framework  442  which is a multi-hinged framework supporting a mattress such that the mattress can be profiled to a number of different positions. Adjustable mattress framework  442  may generally be placed on mattress plate  90  of mattress platform group  86 . 
         [0543]    Referring now to the invention in more detail, in  FIG. 245  there is shown cover  12  and noise cancelling devices. Noise cancelling devices  444  are generally rigidly secured to doors  244 , interior end walls  230  and ceiling  196  of cover  12 . Noise cancelling devices  430  may not be limited to generally rigid securement to doors  244 , interior end walls  230  and ceiling  196  of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, noise cancelling devices are optional components of the present invention and may not be required components, for any reason whatsoever, of the present invention 
         [0544]    Referring now to the invention in more detail, in  FIG. 246  there is shown cover  12  and alarm clock radio  466  which is generally rigidly secured to a surface of cover  12 . Alarm clock radio  466  may not be limited to generally rigid securement to a surface of cover  12  but may be generally rigidly secured to a plurality of positions located generally on bed frame  10  and generally on or within cover  12 . Generally and without limitation, alarm clock radio  466  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention 
         [0545]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 247  there is shown plain headboard  468  which is comprised of generally rectangular, or optionally square, rigid material and of which is rigidly secured to the top of column  98 . Generally and without limitation, plain headboard  468  is not limited to one design but of an unlimited plurality of designs. Generally and without limitation, each length, width and height of plain headboard  468  is not limited to one dimension but of a plurality of dimensions. 
         [0546]    Referring now to the invention in more detail,  FIG. 248  to  FIG. 250  illustrates top of cover  470 , bottom of cover  472 , closed cover position  474  and open cover position  476 . Closed cover position  474  is defined as top of cover  470  generally positioned above and parallel to top lateral brace  28 . Open cover position  476  is defined as top of cover  470  generally positioned below and parallel to top lateral brace  28 . 
         [0547]    Referring now to the invention in more detail, in  FIG. 251  to  FIG. 277  there are shown bed-pairings and joined bed-pairings and the general steps required to transition one bed-pairing position or joined bed-pairing position to generally another bed-pairing position or joined bed-pairing position. In  FIG. 251  to  FIG. 277  there is shown bed frame  10 , mattress platform group  86 , cover  12 , steps  14  and track  76 . 
         [0548]      FIG. 251  illustrates Step  1 , a joined bed pairing, as referenced in  FIG. 11 . 
         [0549]      FIG. 252  illustrates Step  2 , separation of the bed-units of the bed-pairing. Upon activation of motorized telescoping push-pull devices  84 , motorized telescoping push-pull devices  84 , of which are generally rigidly secured to track motor mounts  82  of which are generally rigidly secured to middle track support joist  506  of track assembly  76 , generally push braces  24  of bed frames  10 , of which motorized telescoping push-pull devices  84  are generally rigidly secured to and step  14  of which step  14  is generally rigidly secured to brace  24  of bed frame  10  generally along frame roller boot track  78  of track assembly  76  and cover roller boot assemblies  566 , which are situated within and generally rigidly secured to braces  24 , generally along cover roller boot track  80  of track assembly  76 , generally away from middle track support joist  506 . Alternate motor assemblies to motorized telescoping push-pull devices  84  may be obvious to one of ordinary skill in the art and thus the present invention is not limited to the preferred embodiment, motorized telescoping push-pull devices  84  but an unlimited plurality of generally motorized devices. Generally and without limitation, there exists a plurality of mattress sizes of which some mattress sizes may generally not be a part of a bed-pairing and as such, the following Steps generally may not apply but doors  244  of cover  12  of these individual bed-units generally may move from a closed position to an open position and from an open position to a closed position. Generally and without limitation, the following Steps may apply to bed-units employing a plurality of sizes of mattress attachment  176  and may not apply to a plurality of sizes of mattress attachment  176 . 
         [0550]      FIG. 253  illustrates Step  3 , generally raising mattress platform group  86  of the right-side bed-unit in a generally upward direction. Upon activation of motorized lifting device groups  56 , telescoping lifting rams  60  which are rigidly secured to the bottom of lift plates  58  of which are rigidly secured to the bottom of receptacle frames  30  of which their receptacle frame pegs  32  are generally secured within brace glide paths  26  and of which receptacle frames  30  are generally pivotally joined to receptacles  36  of which receptacles  36  are generally rigidly secured to adapters  50  of which adapters  50  are generally rigidly secured to rods  44  of which rods  44  are generally secured to mattress platform  514 , is raised in a generally upward direction thereby generally raising mattress platform group  86  of the right-side bed-unit. 
         [0551]      FIG. 254  illustrates Step  4 , generally raising cover  12  of the right-side bed-unit in a generally upward direction. Upon activation of motorized lifting device groups  56 , as referenced in  FIG. 278 , cover  12  of the right-side bed-unit is generally raised in a generally upward direction. 
         [0552]      FIG. 255  to  FIG. 258  illustrates Step  5 , generally rotating cover  12  of the right-side bed-unit generally clockwise from a generally open cover position  476 , as defined in  FIG. 249 , to a generally closed cover position  474 , as defined in  FIG. 248 . Although not a required Step,  FIG. 257  illustrates the capability of door  244  opening to a generally upright position.  FIG. 259  illustrates Step  6 , generally raising cover  12  of the right-side bed-unit in a generally upward direction. Upon activation of motorized lifting device groups  56 , cover  12  of the right-side bed-unit is generally raised in a generally upward direction. 
         [0553]      FIG. 260  and  FIG. 261  illustrate Step  7 , generally rotating doors  244  of the right-side bed-unit into a closed position, as referenced in  FIG. 7 . Doors  244  are generally manually pulled from their seated positions within upper roof guides  544  and lower roof guides  262  and extended to a generally horizontal position generally parallel to upper roof guides  544  and lower roof guides  262 , such that bar gears  252  of guide bar  254  engage door motor assembly  536 , as referenced in  FIG. 130 . Upon activation of door motor assembly  536 , doors  244  of the right-side bed-unit rotate to a closed position. 
         [0554]      FIG. 262  illustrates Step  8 , generally lowering cover  12  of the right-side bed-unit in a generally downward direction. Upon activation of motorized lifting device groups  56 , cover  12  of the right-side bed-unit is generally lowered in a generally downward direction. 
         [0555]      FIG. 263  illustrates Step  9 , generally lowering mattress platform group  86  of the right-side bed-unit in a generally downward direction. Upon activation of motorized lifting device groups  56 , mattress platform group  86  of the right-side bed-unit is generally lowered. 
         [0556]      FIG. 264  illustrates Step  10 , generally moving glide path door  222  to a closed position such that it covers glide path  206 . Upon activation of pulley motor  576 , glide path door  222  covers glide path  206 , as referenced in  FIG. 166 . 
         [0557]      FIG. 265  illustrates the left-side bed-unit repeating Step  3  to Step  7  that the right-side bed-unit had completed. Door  244  of the right-side bed-unit opens such that cover  12  of the right-side bed-unit rotates unencumbered and allows door  244  of the left-side bed-unit to close unencumbered. 
         [0558]      FIG. 266  illustrates the left-side bed-unit repeating Step  8  to Step  10  that the right-side bed-unit had completed. Door  244  of the right-side bed-unit closes. 
         [0559]      FIG. 267  illustrates mattress platform group  86  of the left-side bed-unit generally raised in an upward direction and cover  12  of the left-side bed-unit generally raised in an upward direction and door  244  of the left-side bed-unit rotating to an open position and door  244  of the right-side bed-unit opened such that cover  12  of the right-side bed-unit rotates unencumbered and allows door  244  of the left-side bed-unit to open unencumbered and cover  12  of the right-side bed-unit rotated generally clockwise. 
         [0560]      FIG. 268  illustrates cover  12  of the right-side bed-unit rotated generally counter-clockwise and cover  12  of the left-side bed-unit generally lowered in a downward direction and mattress platform group  86  of the left-side bed-unit generally lowered in a downward direction and mattress platform group  86  of the right-side bed-unit generally raised in an upward direction and cover  12  of the right-side bed-unit generally raised in an upward direction and door  244  of the right-side bed-unit rotating to an open position and cover  12  of the left-side bed-unit rotated generally counter-clockwise. 
         [0561]      FIG. 269  illustrates cover  12  of the left-side bed-unit rotated generally clockwise and cover  12  of right-side bed-unit generally lowered in a downward direction and mattress platform group  86  of the right-side bed-unit generally lowered in a downward direction. Doors  244  are generally manually pushed to their seated positions within upper roof guides  544  and lower roof guides  262 . 
         [0562]      FIG. 270  illustrates mattress attachment  176  in an open position and push-pull assembly  146  extended, as referenced in  FIG. 120  to  FIG. 123 . 
         [0563]      FIG. 271  illustrates generally joining the bed-units of the bed-pairing. Upon activation of motorized telescoping push-pull devices  84 , motorized telescoping push-pull devices  84 , of which are generally rigidly secured to track motor mounts  82  of which are generally rigidly secured to middle track support joist  506  of track assembly  76 , generally pulls braces  24  of bed frames  10 , of which motorized telescoping push-pull devices  84  are generally rigidly secured to and step  14  of which step  14  is generally rigidly secured to brace  24  of bed frame  10  generally along frame roller boot track  78  of track assembly  76  and cover roller boot assemblies  566 , which are situated within and generally rigidly secured to braces  24 , generally along cover roller boot track  80  of track assembly  76 , generally toward middle track support joist  506 . Push-pull assembly  146  is extended into cross support  122  of the left-side bed-unit. 
         [0564]      FIG. 272  illustrates door  244  of the right-side bed-unit generally moved along lower roof guide  262  of the right-side bed-unit and generally partially extended into lower roof guide  262  of the left-side bed-unit and door  244  of the left-side bed-unit generally moved along upper roof guide  544  of the left-side bed-unit and generally partially extended into upper roof guide  544  of the right-side bed-unit. 
         [0565]      FIG. 273  continues from Step  6  of  FIG. 259  and illustrates door  244  of the right-side bed-unit rotating to a closed position. 
         [0566]      FIG. 274  illustrates cover  12  of the right-side bed-unit generally rotated counter-clockwise and door  244  of the right side bed-unit rotating to a closed position. 
         [0567]      FIG. 275  illustrates both doors  244  of the right-side bed-unit in closed positions. 
         [0568]      FIG. 276  continues from Step  1  of  FIG. 251  and illustrates door  244  of the right-side bed-unit rotating to a closed position. 
         [0569]      FIG. 277  illustrates door  244  of the right-side bed-unit in a closed position. 
         [0570]    Referring now to the invention in more detail, in  FIG. 278  there is shown cover  12 , motorized lifting device groups  56  and cover motor assemblies  568 . Motorized lifting device group  56  and cover motor assembly  568  enable cover  12  to move generally upwards and generally move downwards and to generally rotate up to 360 degrees generally clockwise or generally counter-clockwise around rod  44 . Cylindrical disk  204  of cover  12  is generally loosely connected to rotational tread  574  of cover motor assembly  568  of which cover motor assembly  568  is generally rigidly secured to the top of lift plate  58  of motorized lifting device group  56 . Upon activation of motorized lifting device group  56 , rotational tread  574  and cover  12  generally move in an upward direction and generally move in a downward direction. Upon activation of chain motor  570 , gear chain  572  begins to rotate which generally causes rotational tread  574 , of which rotational tread  574  is rigidly secured to the top of lift plate  58  and generally loosely connected to cylindrical disk  204 , to rotate, which causes cylindrical disk  204  to rotate generally clockwise or generally counter-clockwise around rod  44 . Alternate motor assemblies may be obvious to one of ordinary skill in the art and thus the present invention is not limited to the preferred embodiment, cover motor assembly  568 , but of a plurality of motor assemblies. 
         [0571]    Referring now to the invention in more detail, in  FIG. 279  there is shown motorized lifting device groups  56 , cover motor assemblies  568 , roller boot assemblies  66 , cover roller boot assemblies  566 , telescoping push and pull devices  84  and steps  14 . Motorized lifting device groups  56  are generally rigidly secured to platforms  70  of roller boot assemblies  66 . Rotational treads  574  of cover motor assemblies  568  are generally rigidly secured to lift plate  58  of motorized lifting device group  56  of which motorized lifting device group  56  is generally rigidly secured to platforms  70  of cover roller boot assemblies  566 . Chain motors  570  of cover motor assemblies  568  are generally rigidly secured to platforms  70  of cover roller boot assemblies  566 . 
         [0572]    Referring now to an alternate embodiment of the invention in more detail,  FIG. 280  to  FIG. 293  illustrates a bed-unit with cover  12  in an open cover position  476  transitioning to a bed-unit with cover  12  in a closed cover position  474 .  FIG. 280  illustrates a bed-unit with cover  12  in an open cover position  476 . Mattress  88  is generally secured in place by mattress straps  634 , as referenced in  FIG. 110 .  FIG. 281  illustrates Step  1 , generally raising mattress platform group  86  of the bed-unit in a generally upward direction.  FIG. 282  illustrates Step  2 , generally raising cover  12  of the bed-unit in a generally upward direction.  FIG. 283  illustrates Step  3 , generally simultaneously rotating cover  12  and mattress platform  514  of the bed-unit generally 90 degrees clockwise.  FIG. 284  illustrates Step  4 , generally simultaneously raising cover  12  and mattress platform group  86  of the bed-unit in a generally upward direction.  FIG. 285  illustrates Step  5 , generally simultaneously rotating cover  12  and mattress platform  514  of the bed-unit generally 90 degrees clockwise.  FIG. 286  illustrates Step  6 , generally raising cover  12  of the bed-unit in a generally upward direction.  FIG. 287  illustrates Step  7 , generally lowering mattress platform group  86  of the bed-unit in a generally downward direction.  FIG. 288  illustrates Step  8 , generally rotating mattress platform  514  of the bed-unit generally 180 degrees clockwise or optionally counter-clockwise.  FIG. 289  illustrates Step  9 , generally lowering cover  12  of the bed-unit in a generally downward direction.  FIG. 290  illustrates Step  10 , generally lowering mattress platform group  86  of the bed-unit in a generally downward direction.  FIG. 291  illustrates Step  11 , generally raising cover  12  of the bed-unit in a generally upward direction.  FIG. 292  and  FIG. 293  illustrate a bed-unit with cover  12  in open cover position  476  transitioning to a bed-unit with door  244  in a closed position, as door  244  extends out of lower roof guide  262  and generally rotates counter-clockwise to a closed position. 
         [0573]    Referring now to the invention in more detail, in  FIG. 294  there is shown separation door assembly  588  comprising of separation door  592 , separation door hinges  590 , separation door pegs  594 , separation door guide-ways  596 , separation door retarders  604 , separation door springs  602  and lock levers  598 . Separation door  592  is comprised of two generally rectangular pieces of rigid material with sound suppressing and insulating material  216  generally secured between them and with two separation door hinges  590  generally rigidly secured to the top of separation door  592  and with one separation door peg  594 , generally rigidly secured to lock lever  598  which is generally loosely connected to separation door springs  602  of which are housed within separation door guide-ways  596 , extending out of separation door guide-ways  596  and with separation door handle  600 , an indentation of separation door  592 . Separation door retarder  604  generally moves within an indentation at a right angle to separation door guide-way  596 . Lock lever  598  may be able to move generally freely along separation door guide-way  596 . Separation door retarder  604  may generally move into the path of lock lever  598  such that separation door peg  594 , which are generally loosely secured to separation door spring  602 , may protrude from or recede into separation door guide-way  596 . Generally and without limitation, each length, width and height of separation door assembly  588  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, separation door assembly  588  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0574]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 295  there is shown total square rod  606  which is comprised of one solid square piece of generally elongated rigid material of which at one end is rod thread  46  which comprises of threaded rod encompassing generally elongated cylindrical rigid material. Generally and without limitation, each length, width, height and circumference of total square rod  606  is not limited to one dimension but of a plurality of dimensions. 
         [0575]    Referring now to the invention in more detail, in  FIG. 296  there is shown frame lock  610  which is comprised of generally rectangular elongated rigid material with two channels cut through such that it generally forms a shape resembling the English alphabetical capital letter E. Generally and without limitation, each length, width and height of frame lock  610  is not limited to one dimension but of a plurality of dimensions. Generally and without limitation, frame lock  610  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0576]    Referring now to the invention in more detail, in  FIG. 297  there is shown two adjacent bed frames  10  with frame lock  610  generally loosely secured to both braces  24 , nearest each other, of bed frames  10 . 
         [0577]    Referring now to the invention in more detail, in  FIG. 298  there is shown mattress attachment  176  generally in a closed position, as referenced in  FIG. 120 . Additionally in  FIG. 299 , there is shown mattress attachment  176  in an upright position, as referenced in  FIG. 122 , with telescoping legs  340  in generally upright positions, as referenced in  FIG. 186 , which generally provide stability to push-pull assemblies  146  of which generally provide support for mattress attachment plate  166 . 
         [0578]    Referring now to the invention in more detail, in  FIG. 300  there is shown mattress platform group  86  and mattress attachment and mattress attachment plate  178  generally in a tilted position, as referenced in  FIG. 34 . Telescoping legs  340 , as referenced in  FIG. 184 , are between and pivotally connected to leg stand interior walls  152  and leg stand exterior walls  154  and are in generally upright positions, generally aligning parallel to each other and generally extending such that self-leveling wheels  342  of telescoping legs  340  generally pivotally connect to the floor, generally providing support for and generally providing stability to push-pull assemblies  146 , as referenced in  299 , of which mattress attachment and mattress attachment plate  178  are generally securely connected. 
         [0579]    Referring now to the invention in more detail, in  FIG. 301  to  FIG. 303  there is shown step  14  and adjustable step table  628  comprising of step table legs  618 , adjustable table top  620 , table braces  622 , brace holes  624  and brace rods  626 . Step table legs  618  which are generally rigidly secured to an end of step  14  are each comprised of generally elongated rigid material with a plurality of brace holes  624 , cut through the width of step table leg  618 , generally spaced evenly and near the top of step table leg  618 .  FIG. 303  illustrates adjustable table top  620  generally pivotally secured to table brace  622  of which table brace  622  is generally removably secured to step table leg  618  by brace rod  626  which extends through brace hole  624  and into table brace  622 . Generally above adjustable table top  620  and between step table legs  618  is another table brace  622  which is generally removably secured to step table leg  618  by brace rod  626  which extends through brace hole  624  and into table brace  622 .  FIG. 302  illustrates adjustable step table  628  with adjustable table top  620  in an open position, a generally horizontal position as adjustable table top  620  may generally pivot from a generally vertical position to a generally horizontal position and is generally secured in that position as table brace  622  is generally removably secured above adjustable table top  620  and between step table legs  618 .  FIG. 301  illustrates adjustable step table  628  with adjustable table top  620  in a closed position, a generally vertical position as adjustable table top  620  may generally pivot from a generally horizontal position to a generally vertical position as table brace  622  is generally removed. Generally and without limitation, each length, width and height of the components of adjustable step table  628  are not limited to one dimension but of a plurality of dimensions. Generally and without limitation, adjustable step table  628  is an optional component of the present invention and may not be a required component, for any reason whatsoever, of the present invention. 
         [0580]    Referring now to an alternate embodiment of the invention in more detail, in  FIG. 304  and  FIG. 305  there is shown step  14  and fixed step table  616 . Fixed step table  616  is generally removably connected to step  14  and is comprised of a plurality of forms of which are commonly known as a chest of drawers or bureaus, of which fixed step table  616  is generally placed over step  14  and generally removably connected to the top of step  14  and one side of step  14 . Generally and without limitation, each length, width and height of the components of fixed step table  616  are not limited to one dimension but of a plurality of dimensions. 
         [0581]    Referring now to the invention in more detail, in  FIG. 306  there is shown remote control  630  and infrared receiver  632  of which generally all electrical components of the present invention are generally connected, programmable and controlled by remote control  630 . While the foregoing written description of the invention enables one of ordinary skill to make and use what is considered presently to be the best mode thereof, those of ordinary skill will understand and appreciate the existence of variations, combinations, and equivalents of the specific embodiment, method, and examples herein. The invention should therefore not be limited by the above described embodiment, method, and examples, but by all embodiments and methods within the scope and spirit of the invention.