Abstract:
A heater device to provide heated fluid at predetermined levels may include a heat generating housing to generate the heated fluid and a heat distribution housing to receive the heated fluid and to distribute the heated fluid at the predetermined levels. The heat distribution housing may include graduated vents to distribute the heated fluid. The vents may be vertically adjustable. The vents may be horizontally adjustable. The vents may be connected heat generation housing with a flexible tube. The vents may be directly connected to a heat generating device. The heat generating housing may be a common heat generating housing to at least two heat distribution housings.

Description:
FIELD OF THE INVENTION 
       [0001]    The present invention relates to heating devices and more particularly to a heating device having a heat generating housing and a heat distribution housing. 
       BACKGROUND 
       [0002]    Heating devices are known which generally includes a heating element to heat a room or other area with little or no direction. However, these devices may be wasteful because the object of the heating device is to keep people warm. It is not necessary to heat areas where there are no human beings presently located. What is required is a heating device which can provide directional heat to the areas where people are situated. 
       SUMMARY 
       [0003]    A heater device to provide heated fluid at predetermined levels may include a heat generating housing to generate the heated fluid and a heat distribution housing to receive the heated fluid and to distribute the heated fluid at the predetermined levels. 
         [0004]    The heat distribution housing may include graduated vents to distribute the heated fluid. 
         [0005]    The vents may be vertically adjustable. 
         [0006]    The vents may be horizontally adjustable. 
         [0007]    The vents may be connected heat generation housing with a flexible tube. 
         [0008]    The vents may be directly connected to a heat generating device. 
         [0009]    The heat generating housing may be a common heat generating housing to at least two heat distribution housings. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0010]    The invention may be understood by reference to the following description taken in conjunction with the accompanying drawings, in which, like reference numerals identify like elements, and in which: 
           [0011]      FIG. 1  illustrates an exploded view of the heater device of the present invention; 
           [0012]      FIG. 2  illustrates a side view of the heater device of the present invention; 
           [0013]      FIG. 3  illustrates a perspective view of the flexible tube and vent of the present invention; 
           [0014]      FIG. 4  illustrates a front view of the heater device of the present invention; 
           [0015]      FIG. 5  illustrates a partial view of the heat generating device of the present invention; 
           [0016]      FIG. 6  illustrates a side view of the heat generating device of the present invention; 
           [0017]      FIG. 7  illustrates a side view of the flexible tube and vent of the present invention; 
           [0018]      FIG. 8  illustrates another heater device of the present invention; 
           [0019]      FIG. 9  illustrates a back view of the heater device of the present invention; 
           [0020]      FIG. 10  illustrates a perspective view of the output tube of the present invention; 
           [0021]      FIG. 11  illustrates a back perspective view of the output tube of the present invention; 
           [0022]      FIG. 12  illustrates a side perspective view of the output tube of the present invention; 
           [0023]      FIG. 13  illustrates a front view of a vent housing of the present invention; 
           [0024]      FIG. 14  illustrates a perspective view of the graduated vent of the present invention; 
           [0025]      FIG. 15  illustrates a back perspective view of the graduated vent of the present invention; 
           [0026]      FIG. 16  illustrates a perspective view of the vent of the present invention; 
           [0027]      FIG. 17  illustrates a side perspective view of the vent of the present invention; 
           [0028]      FIG. 18  illustrates a side perspective view of the vent of the present invention; 
           [0029]      FIG. 19  illustrates a back perspective view of the vent of the present invention; 
           [0030]      FIG. 20  illustrates a top perspective view of the vent of the present invention; 
           [0031]      FIG. 21  illustrates a top perspective view of the vent of the present invention; 
           [0032]      FIG. 22  illustrates a side perspective view of another vent of the present invention; 
           [0033]      FIG. 23  illustrates a side view of the vent of the present invention; 
           [0034]      FIG. 24  illustrates a back view of the vent of the present invention; 
           [0035]      FIG. 25  illustrates a perspective view of another heater device of the present invention; 
           [0036]      FIG. 26  illustrates a front view of the heater device of the present invention; 
           [0037]      FIG. 27  illustrates a side view of the heater device of the present invention; 
           [0038]      FIG. 28  illustrates an opposing side view of the heater device of the present invention. 
       
    
    
     DETAILED DESCRIPTION 
       [0039]      FIG. 1  illustrates an exploded view of the personal heater device  100  of the present invention, and the personal heater device  100  may include a heat generation housing  101  which may include a back wall  103  which may be connected to a top wall  107 , a pair of opposing side walls  109 , and a bottom wall  105  and which may include a top wall  107  which may be connected to the back wall  103 , the opposing side walls  109 , and the front wall  111  and may include a pair of opposing side walls  109  which may be connected to the back wall  103 , the top wall  107 , the front wall  111  and the bottom wall  105  and may include the bottom wall  105  which may be connected to the sidewall  109 , the back wall  103  and the front wall  111  and may include the front wall  111  which may be connected to the sidewall  109  the bottom wall  105  and the top wall  107 . The heat generation housing  101  maybe formed from plastic, metal, wood or other appropriate material and may include a cavity  113  which may be defined by the side wall  109 , the bottom wall  105  the top wall  107  and the front wall  111 . The heat generating housing  101  may be insulated, and the turbine  147  may be computer-controlled in order to adjust the amount of heat being output to the vent  141  and the tube  151 . 
         [0040]    In addition, the heater device  100  includes an output tube  151  which is connected to the top distribution wall  127  to output heated fluid from the end of the output tube  151  such as heated air to provide heat for the head including the face and hair of the user. 
         [0041]    The personal heater device  100  may include a heat distribution housing  121  which may be mounted on the heat generation housing  101  which may include a back distribution wall  123  which may be connected to a top distribution wall  127 , and a pair of opposing side distribution walls  129  and which may include a top distribution wall  127  which may be connected to the back distribution wall  123 , the opposing side distribution walls  129 , and the front distribution wall  129  and may include a pair of opposing side distribution walls  129  which may be connected to the back distribution wall  123 , the top distribution wall  127 , and the front distribution wall  129  and the bottom wall  105  and may include the bottom wall  105  which may be connected to the side distribution wall  129 , the back distribution wall  123  and the front distribution wall  129  and may include the front distribution wall  129  which may be connected to the side distribution wall  129 , and the top distribution wall  127 . The heat distribution housing  101  maybe formed from plastic, metal, wood or other appropriate material and may include a distribution cavity  133  which may be defined by the side wall  109 , the bottom wall  105  the top distribution wall  127  and the front distribution wall  129 . The heating device  100  may include a ground fault indicator (GFI) switch to disconnect the heating device  100  from electricity if a ground fault is detected. 
         [0042]    The heating device  100  may be powered either totally from a battery or maybe powered with a battery backup or may be switchable between a battery and electric power supplied from a utility such as household power. The heating device  100  may be totally battery-powered. 
         [0043]    The front distribution wall  131  may include multiple graduated vents  141  positioned within the front distribution wall  131 . Each of the graduated vents  141  may be adjustable in order to adjust the amount of heated airflow 
         [0044]    The heat generating housing  101  may include multiple heat generating devices  143  which may include resistance wiring  145  to generate heat from electrical current such as household current or a battery and a turbine  147  which may move the generated heat and may be connected to a flexible tube which may be dedicated and connected to the turbine  147 . The turbine  147  may include multiple for example 2 axial turbines connected in series. For example, the turbine  147   a  may be dedicated and connected to flexible tube  149   a , and the turbine  147   b  may be dedicated and connected to the flexible tube  149   b . The flexible tube  149   a  conducts the heated fluid which may be heated air to the graduated vent  141   a  and the flexible tube  149   b  conducts the heated fluid which may be heated air to the graduated vent  141   b . In a similar fashion, the remaining graduated vents  141  are connected to a flexible tube  149  which is in turn connected to a dedicated turbine  147 . 
         [0045]      FIG. 2  illustrates a side view of the heater device  100  and illustrates the flexible tube  149  which may extend from the top wall  107  to the side distribution wall  129 , the output tube  151  which may extend from the top distribution wall  127  and the heat generating device  143  which may be connected to the flexible tube  149 . 
         [0046]      FIG. 3  illustrates a perspective view of the output tube  151  and illustrates that the output tube  151  may include a slot  153  which may cooperate with a grill  155  having graduated vents. 
         [0047]      FIG. 4  illustrates a perspective view of the heater device  100  and illustrates that the heat generating housing  101  may include multiple heat generating devices  143  which may include resistance wiring  145  to generate heat from electrical current such as household current and a turbine  147  which may move the generated heat and may be connected to a flexible tube  149  which may be dedicated and connected to the turbine  147 . For example, the turbine  147   a  of the heat generating device  143   a  may be dedicated and connected to flexible tube  149   a  which may be connected to the graduated vent  141   a , and the turbine  147   b  of the heat generating device  143   b  may be dedicated and connected to the flexible tube  149   b  which may be connected to the graduated vent  141   b . The flexible tube  149   a  conducts the heated fluid which may be heated air to the graduated vent  141   a  and the flexible tube  149   b  conducts the heated fluid which may be heated air to the graduated vent  141   b . In a similar fashion, the remaining graduated vents  141  are connected to a flexible tube  149  which is in turn connected to a dedicated turbine  147 . 
         [0048]      FIG. 5  illustrates the heating housing  150  which may include a heater back wall  151  which may be connected to a heater bottom wall  153 , a heater top wall  159  and a pair of opposing heater side walls  157  and may include a heater front wall  155  which may be connected to the heater back wall  151 , the heater bottom wall  153  and the pair of opposing side walls  157 . The heater housing may include a heater top wall  159  which may be connected to the heater back wall  151 , the heater front wall  155  and the heater side wall  157 . Additionally, the heater top wall may be connected to the flexible tube  149  to conduct the heat to the heater device  100  and the heater housing  150  may include a bottom wall  153  which may be connected to the heater back wall  151 , the heater front wall  155  and the heater side walls  157  and which may be connected to pad feet  161  to connect to the support surface such as a floor. 
         [0049]    The resistance wiring  145  may extend through the heater back wall  151  in order to connect to household current or other source of electricity power. The resistance wiring  145  may be connected to a photo switch in order to detect if a user is in front of the heater housing. If the user is not in front of the heater housing, the resistance wiring  145  is disconnected. In a similar fashion, the resistance wiring  145  may be connected to a switch which will disconnect the resistance wiring if the heater housing has been knocked over. Furthermore, the resistance wiring  145  may be connected to a surge protected circuit to protect the resistance wiring  145  from a surge of either current or voltage. The turbine  147  may be positioned on the heater bottom wall  153  and a aperture (not shown) may extend through the heater bottom wall  153  in order to supply fluid such as air to the turbine  147 . The turbine  147  may be a fan, an axial fan, a radial fan, a compression fan, a non-compression fan, brush fan, jet engine or other appropriate type of fan. 
         [0050]      FIG. 6  illustrates a side perspective view of the heating housing  150  and illustrates the heating housing  150  which may include a heater back wall  151  which may be connected to a heater bottom wall  153 , a heater top wall  159  (not shown) and a pair of opposing heater side walls  157  and may include a heater front wall  155  (not shown) which may be connected to the heater back wall  151 , the heater bottom wall  153  and the pair of opposing side walls  157 . The heater housing may include a heater top wall  159  (not shown) which may be connected to the heater back wall  151 , the heater front wall  155  and the heater side wall  157 . Additionally, the heater top wall may be connected to the flexible tube  149  (not shown). To conduct the heat to the heater device  100  and the heater housing  150  may include a bottom wall  153  which may be connected to the heater back wall  151 , the heater front wall  155  and the heater side walls  157  and which may be connected to pad feet  161  to connect to the support surface such as a floor. 
         [0051]    The resistance wiring  145  may extend through the heater back wall  151  in order to connect to household current or other source of electricity power. The turbine  147  may be positioned on the heater bottom wall  153  and an aperture (not shown) may extend through the heater bottom wall  153  in order to supply fluid such as air to the turbine  147 . The turbine  147  may be a fan, an axial fan, a radial fan, a compression fan, a non-compression fan, brush fan, jet engine or other appropriate type of fan. 
         [0052]      FIG. 7  illustrates a side perspective view of the output tube  151  which may be curved in order to more easily directly to the user. The output to  151  may include a graduated vent  141 . 
         [0053]      FIG. 8  illustrates a perspective view of the heater device  100  of the present invention, and the personal heater device  100  may include a heat distribution housing  121  which may be mounted on the heat generation housing  101 . The heat generation housing  101  may include heater housing  150 , and the heater housing  150  may be directly mounted on the distribution housing  121  in order to eliminate the flexible tube  149 . 
         [0054]      FIG. 9  illustrates a back perspective view of the heater device  100  of the present invention, and the personal heater device  100  may include a heat distribution housing  121  which may be mounted on the heat generation housing  101 . The heat generation housing  101  may include heater housing  150  and the heater housing  150  may be directly mounted on the distribution housing  121  in order to eliminate the flexible tube  149 . 
         [0055]      FIG. 10  illustrates a perspective view of the output tube  152  which may include multiple output tubes  154  which may extend from the output tube  152 . This aspect facilitates an uninterrupted air flow at certain stages going up the vent and therefore produces more down flow. 
         [0056]      FIG. 11  illustrates a back perspective view of the output tube  152  which may include multiple output tubes  154  which may extend from the output tube  152 . 
         [0057]      FIG. 12  illustrates a side perspective view of the output tube  152  which may include multiple output tubes  154  which may extend from the output tube  152 . 
         [0058]      FIG. 13  illustrates a graduated vent  141  to move the direction of the fluid flow both vertically and horizontally (left to right or up and down) by rotating the graduated vent  141  on the pivot shaft  161  which cooperates with an aperture in the heating device  100  to move the direction of the fluid flow horizontally (left to right or vice versa). The pivot shafts  161  may be mounted on the top and bottom of a vent housing  167  which may be in the shape of a truncated cylinder. The graduated vent  141  may include a control arm  163  to move the direction of the fluid flow vertically (up and down) by moving the control arm  163  vertically.  FIG. 13  additionally illustrates that the graduated vent  141  may include multiple fluid guides  165  positioned within the vent housing  167 . 
         [0059]      FIG. 14  illustrates a perspective side view of the graduated vent  141  and illustrates the control arm  163  and the fluid guides  165  of varying lengths and a pair of opposing connecting arms  169  to connect the fluid guides  165  and to raise and lower the fluid guides  165  in response to the up and down movement of the control arm  163 . 
         [0060]      FIG. 15  illustrates a perspective back view of the graduated vent  141  and illustrates the control arm  163  and the fluid guides  165  of varying lengths and a pair of opposing connecting arms  169  to connect the fluid guides  165  and to raise and lower the fluid guides  165  in response to the up and down movement of the control arm  163 . 
         [0061]      FIG. 16  illustrates another graduated vent  241  which may include a control arm  263  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0062]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). 
         [0063]      FIG. 18  illustrates a back view and illustrates another graduated vent  241  which may include a control arm  263  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0064]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). 
         [0065]      FIG. 17  illustrates a side view and illustrates another graduated vent  241  which may include a control arm  263  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0066]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). The fluid guides  271  may vary in length and width and may be graduated. 
         [0067]      FIG. 19  illustrates a side view and illustrates another graduated vent  241  which may include a control arm  263  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0068]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). The fluid guides  271  may vary in length and width and may be graduated. 
         [0069]      FIG. 19  illustrates a back view and illustrates another graduated vent  241  which may include a control arm  263  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0070]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). The fluid guides  271  may vary in length and width and may be graduated. 
         [0071]      FIG. 20  illustrates a top view and illustrates another graduated vent  241  which may include a control arm  263  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0072]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). The fluid guides  271  may vary in length and width and may be graduated. 
         [0073]      FIG. 22  illustrates a side view and illustrates another graduated vent  341  which may include a control arm  363  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0074]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). The fluid guides  271  may vary in length and width and may be graduated. 
         [0075]    The control arm  363  additionally controls horizontal fluid guides  365  which may pivot horizontally (up and down) to direct the fluid which may be air up and down. The control arm  363  may direct the fluid both up and down and from side to side in order to provide flexibility in the direction of the fluid. The horizontal fluid guides includes pivot shaft  361  which may cooperate with the housing (not shown) and may include a curved connection arm  369  to connect the horizontal fluid guides  365  and the control arm  363  to allow the horizontal fluid guides to visit upwards and downwards in response to movement of the control arm  363 . 
         [0076]      FIG. 21  illustrates a top view and illustrates another graduated vent  341  which may include a control arm  363  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0077]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). The fluid guides  271  may vary in length and width and may be graduated. 
         [0078]    The control arm  363  additionally controls horizontal fluid guides  365  which may pivot horizontally (up and down) to direct the fluid which may be air up and down. The control arm  363  may direct the fluid both up and down and from side to side in order to provide flexibility in the direction of the fluid. The horizontal fluid guides includes pivot shaft  361  which may cooperate with the housing (not shown) and may include a curved connection arm  369  to connect the horizontal fluid guides  365  and the control arm  363  to allow the horizontal fluid guides to visit upwards and downwards in response to movement of the control arm  363 . 
         [0079]      FIG. 23  illustrates a side view and illustrates another graduated vent  341  which may include a control arm  363  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0080]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). The fluid guides  271  may vary in length and width and may be graduated. 
         [0081]    The control arm  363  additionally controls horizontal fluid guides  365  which may pivot horizontally (up and down) to direct the fluid which may be air up and down. The control arm  363  may direct the fluid both up and down and from side to side in order to provide flexibility in the direction of the fluid. The horizontal fluid guides includes pivot shaft  361  which may cooperate with the housing (not shown) and may include a curved connection arm  369  to connect the horizontal fluid guides  365  and the control arm  363  to allow the horizontal fluid guides to visit upwards and downwards in response to movement of the control arm  363 . 
         [0082]      FIG. 24  illustrates a front view and illustrates another graduated vent  341  which may include a control arm  363  to control the fluid guides  271  to direct the fluid (air) vertically (side to side) and which may be connected to a pair of opposing side control arms  265  which may move the control cylinder  267  from side to side in response to movement of the control arm  263 . The control cylinder  267  may be connected to connecting arms  269  which may be connected to a single fluid guide  271  which may be one of multiple fluid guides  271  which may be pivotably connected so that when the single fluid guide  271  is pivoted by the master control arm  263  so that the remaining fluid guides  271  pivot. 
         [0083]    The fluid guides  271  may include a slot  272  to pivot a cylinder  275  which rotates between disks  277  which may be connected to a guide connector arm  273  which may traverse the multiple fluid guides  271  and which may be connected to the vent housing (not shown). The fluid guides  271  may vary in length and width and may be graduated. 
         [0084]    The control arm  363  additionally controls horizontal fluid guides  365  which may pivot horizontally (up and down) to direct the fluid which may be air up and down. The control arm  363  may direct the fluid both up and down and from side to side in order to provide flexibility in the direction of the fluid. The horizontal fluid guides includes pivot shaft  361  which may cooperate with the housing (not shown) and may include a curved connection arm  369  to connect the horizontal fluid guides  365  and the control arm  363  to allow the horizontal fluid guides to visit upwards and downwards in response to movement of the control arm  363 . 
         [0085]      FIG. 25  illustrates multiple heat distribution housing  321  being connected to a common heat generating housing  101  and illustrates resistive wiring  145  and a turbine  147  for each of the heat distribution housing  321 . Each heat distribution housing includes a vent output tube  151 , graduated vent  141  and at least one flexible tube  149 . 
         [0086]      FIG. 26  illustrates multiple heat distribution housing  321  being connected to a common heat generating housing  101  and illustrates resistive wiring  145  and a turbine  147  for each of the heat distribution housing  321 . Each heat distribution housing includes a vent output tube  151 , graduated vent  141  and at least one flexible tube  149 . 
         [0087]      FIG. 27  illustrates multiple heat distribution housing  321  being connected to a common heat generating housing  101  and illustrates resistive wiring  145  and a turbine  147  for each of the heat distribution housing  321 . Each heat distribution housing includes a vent output tube  151 , graduated vent  141  and at least one flexible tube  149 . 
         [0088]      FIG. 28  illustrates multiple heat distribution housing  321  being connected to a common heat generating housing  101  and illustrates resistive wiring  145  and a turbine  147  for each of the heat distribution housing  321 . Each heat distribution housing includes a vent output tube  151 , graduated vent  141  and at least one flexible tube  149 . 
         [0089]    While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof have been shown by way of example in the drawings and are herein described in detail. It should be understood, however, that the description herein of specific embodiments is not intended to limit the invention to the particular forms disclosed.