Abstract:
A Self, Ceaselessly Repeating Electrical System device and associated method of using the device is disclosed. The device includes a S.U.V. platform having disk toothed, brake disks, a 
     Four wheel configuration; and a telescoping, square rod, traveling from said wheel, driven by gears, to drive another set of gears in to the body of the car, driving a linear gear system, with 
     Three options rotating the drive shaft of the alternators, that rotation of 32, &amp; 1, alternators causes regeneration of electrical energy to a fuse system, a over charge system, than directly to the 8-48 volt DC. Lithium Ion batteries. The 1-12 volt DC. Lithium Ion battery is charged in the manner that is consistent with a basic battery alternator system. The 8 regenerated batteries electrical energy is than directed to a throttle/voltage control, than ignition switch, than directional control, finally the motors.

Description:
FIELD OF INVENTION 
       [0001]    The present invention relates to a self regenerating, one time charge, S.U.V., and that self Regenerating S.U.V., is in the regenerative mode solely with my apparatus, and forward, and reverse motion, but only with the benefit of that first charge. 
       BACKGROUND OF THE INVENTION 
       [0002]    Elect./cars have been around for quite a bit of time. And the interest has veered, mostly As a novelty in it&#39;s inception, with it&#39;s first propulsion method called for a aircraft starter motor. 
       BACKGROUND OF THE INVENTION 
       [0003]    With the first elect. Car pioneers their achievements where notable for that period of time, maybe attaining ten to twenty miles per charge. Another methodical approach was to use solar panels atop a wide auto. Surface area. Each of these methods dad, &amp; have a few drawbacks, among some of their drawbacks are, with the first aircraft starter motors, they where limited with range, power i.e. going up hills. In addition a loss of velocity during the waning level of current remaining at the end of the charge. Another drawback for the earlier elect. Cars is a open desert driving situation, or any long gap between a 120V plugs by what or for any reason, the drawbacks for the solar panel elect. cars is, simply the sun, no sun the batteries tend to decrease after a short period of time. My invention has no such restrictions or limitations, hence, ceaselessly. 
         [0004]    While all of the above-described devices fulfill their respective, particular objectives and requirements, the aforementioned patents do not describe a SELF, CEASELESSLY REPEATING ELECTRICAL SYSTEM/device having a initial charge, using the torque/inertia from the wheels and transferring that torque/inertia to the platform body affords the inventor, my self, to generate as much energy as my imagination could configure, and the LORD blessed me with a very vivid imagination. I also protect the system with a tow fuse brake system, and a over charge fail-safe system, and most important factor, my 32 alternators, plus 1 alternator, for the 12 volt DC. Lithium Ion batteries, all 33 regenerating. 
       SUMMARY OF THE INVENTION 
       [0005]    The present device and method of using, according to the principles of the present invention, overcomes the shortcomings of the prior art by disclosing a unique SELF, CEASELESSLY REPEATING ELECTRICAL SYSTEM, and an unique method of using the device. The S.U.V. for the sake of this, invention is the platform, THERE ARE MANY OTHER PLATFORMS. This S.U.V. platform, comprises a tire to the surface, factor that is directly related to my overall claim to my, energy “untapped”, it&#39;s taped, just not the way, or to the same level. This invention uses that energy to rotate the tires thereby rotating the disk, with the disk in it&#39;s machined state, geared/toothed disk; the second gear in the line, housed in a steel body, having ball bearings in said housing, said second gear rotates a inner steel shaft, which is anchored with mobility, to a universal joint, universal joint, gear, gear housing, all are supported by a base anchored to a non rotational support for a wheel hub system, said universal joint is anchored with mobility, to a telescoping elements, those elements are a group of five bars, having a universal joint at the largest bar&#39;s distal end, this telescoping bar system is lubricated, and booted for their smooth operation; the lowest and largest of the trio of inner body gears, that said large gear is rotated/driven by the telescoping bars, that said gear drives a over head alternator, affording the telescoping bar system, more than adequate length to operate. The third and smallest flat gear is also rotated by the larger flat gear there by being anchored centrally to the linear gear hence the screw-gear is also rotated. For the task designated gears  204 ,  205 , &amp;  206 , have two additional options to the screw drive gear system, the first of said options is the 45 degree angle gear system, having 45 degree gears on linear, smooth face, shaft, mobile via ball bearings, &amp; a 45 degree gear on the alternator&#39;s drive shaft, rotating the alternators. The second option to the screw gear drive system, and third over all option, is the pulley/belt drive system, rotating the alternators. As it relates to the screw drive gear system, the screw gear rotates, as a result, the alternator&#39;s screw gear &amp; drive shaft rotates, and regeneration of the electrical energy takes place. In concert with the four wheel regeneration system, the drag wheel system for the alternator also contributes to the overall regeneration, that current created by the four wheels, and the drag wheel systems are directed to a fuse brake and over charge fail-safe, said battery is grounded, said battery has at it&#39;s front end the positive pole is releasing current to the throttle/current regulator, in this general area the platform operator can control the current direction/forward/reverse switch and this system has a, right at the motor a positive directional shifter/switch is in place. The current arrives at the pre ignition fuse brake, than continues on to the ignition switch, on, off, Acc, lock, arriving at the motor&#39;s directional shifter/switch, on to the motors them selves, rotating the motors drive gears, transferring torque down the rear end gear system on to the drive shaft, the universal joints, on to the tires, and you have forward, or reverse motion. The whole alternator system is cooled by way of a vacuum/vent air system. In view of the foregoing disadvantages inherent in the known type electrical, chargeable, vehicle, are that the current school of though is to make the platform as light as possible. In addition, the other elect. Vehicles have a charge for a period of time and than get the maximum distance possible from said battery charge. In some instances the electrical vehicle is assisted via small charging motors, that have the affect of mileage increases of about 20 to 60 percent, of that original sole electrically charged vehicle. There has been efforts to improve the battery. I would bring to the examiner&#39;s attention, a Lithium Ion battery is NOT a necessity for the smooth operation of this invention, it is a attempt, on my part to associate my invention with the most state of the art technology possible. As it relates to the main trend for achieving, as much as possible electrical vehicular perfection, no one other than my self has found a means to totally regenerate the battery by means of using the platform in it&#39;s original designed purpose, &amp; having that purpose it&#39;s self be the energy source. Not to mention 32, +1 alternators, that&#39;s power regeneration. I respectfully submit, that my primary reasoning was to generate energy, with the frame of mind, that it was possible, and secondarily have the platform for transportation, Thereby being able to generate more energy than is consumed. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0006]    The invention will be better understood and objects other than those set forth above will become apparent when consideration is given to the following detailed description thereof. Such description makes reference to the annexed drawings. 
           [0007]      FIGS. 1-2  a cross section top view of a preferred embodiment of the initial, ONE TIME ONLY CHARGE system, unless the platform operator stands still, and than there is no need for additional power. The batteries will remain at a high charge, or near so, depending on the computer&#39;s over charge fail-safe system, these are 48 volt DC. Batteries, and a 12 volt battery, for other basic platform requirements, that fail-safe is for the 48 volt batteries, with in the platform&#39;s charge system, one for either side of the platform. Constructed in accordance with the principles of the present invention; 
           [0008]      FIG. 3  is a perspective view of a preferred embodiment of the drive disk, making the inner portion of the end of the telescoping bars, little end, turn a gear, turning a universal joint. Turning all five bars, at the end of the largest bar, another universal joint turns, hence three flat gears turn, charging one alternator over head, and a screw, linear gear down a line of alternators, all having over engineered support systems, protecting the telescoping bars with a “cone” rubber boot, this cross-sectional side view is the extent of the present invention; 
           [0009]      FIG. 4  is a cross sectional inline view of all five drive bars with a mobile anchor to the universal joints at both extremities of said telescoping, five part, drive bars, directly anchored to the largest of five bars, a stabilizing, rotatable bearing, base for the telescoping bar system, two diamond braces support the universal joint at the bearing flat plate, affording increased stability for said telescoping bar system; 
           [0010]      FIG. 5  is a cross sectional side view of a preferred embodiment of the lower, inner body, main drive gear  202 , the upper alternator drive gear, the flat drive gear directly rotating the screw, linear gear  205 , illustrating the relationship of the alternator to the screw, linear gear, &amp; the associated gears  203  &amp;  206 . As it applies to the present invention. Attaining lubrication; by means of a general gear group pans, are anchored together with gaskets, &amp; bolts, the pan system supported securely at it&#39;s base, having a oil cap at the upper most portion of the pan system, a oil line leading from the oil pump, to a top said oil cap, the pump is fed oil from the base of the  202  main gear oil pan, this configuration assuring oil circulation, hence, lubrication of all relevant gears; 
           [0011]      FIG. 6  is a cross section top view of a preferred embodiment of the driving flat gear, and the linear shape, screw gear and the drive screw drive gears, for the shaft of the alternators, with ball bearings on either end of the screw shaft for smooth rotation, take note, that the gears are going in opposite directions, so as to accommodate the opposite side alternators configuration, they can turn the same way; 
           [0012]      FIG. 7  is a cross section top view of a preferred embodiment of a option to  FIG. 6 , a preferred embodiment of the driving flat gear, and the linear/rod gear, configured in four separate locations a 45 degree angle gear that fore mentioned linear pole/rod gear travels centrally through, anchored with mobility to the alternator drive shaft, that shaft than rotates the alternator&#39;s drive shaft, the shaft made mobile via a ball bearing system at either extremities , with this configuration rotation takes place, as to the alternator&#39;s drive shaft, there by regeneration takes place. 
           [0013]      FIG. 8  is a cross section top view of a preferred embodiment of a third option to  FIG. 6 , &amp;  FIG. 7 , a preferred embodiment of the driving flat gear, and the linear/rod pulley, configurted In five separate locations a double/single pulleys, that fore mentioned linear/rod pulley, travels centrally through, anchored with mobility to the alternator&#39;s pulley, that is none anchored with mobility, to the alternator&#39;s drive shaft, the linear/rod. shaft made mobile via a ball bearing system at either extremities, with this configuration rotation takes place, as to the alternator&#39;s drive shaft, there by regeneration takes place. 
           [0014]      FIG. 9  is a cross sectional top view of a preferred embodiment of the alternator in it&#39;s stock format, I have incorporated 32 of these alternators with in my platform, &amp; one alternator, for a 12 volt battery, for the purpose of regeneration, suitable for any alternators, or generators, in my configuration, as it relates too the present invention; 
           [0015]      FIGS. 11-12 , a cross sectional top view of a preferred embodiment of the telescoping bar configuration, as it relates to the wheel system, the inner gears, on to the screw gears, this drawing also shows how the alternators interact with the total drive system, inclusive of the drag wheel system, constructed in accordance with the principles of the present invention. Also the vacuum/vent system, with the front dual wet/dry vacuum motors, and how they are arranged, with their air ducts, with in the confines of the platform, not so apparent are the mid/rear two round vacuum/vents directly under the cabin alternator compartment, for maximum efficiency. All wiring is identified via a numeral system from 0-221 relevant to the present invention; 
           [0016]      FIG. 13 , a cross section top view of a preferred embodiment of a fuse brake, protection from alternator to battery, and vice versa, fuses  20 A, &amp;  20 A; 
           [0017]      FIG. 14  is a alternator/fuse wire cross section between fuse brake, and shut off switch, as it relates to the computerized fale-safe system, indicating a post computer, too batteries, hot connection as it pertains to the present invention; 
           [0018]      FIG. 15  is a cross sectional top view of a preferred embodiment of a configuration of power wires leading from the alternator, to the batteries. The flow remains with the cut off switch in It&#39;s connections relaxed position, that same power flow than discontinues when directed by the over charge sensor  FIG. 18 , item  80 , &amp; computer  FIG. 17 , item  83 , &amp; the relay switch  FIG. 16 , Item  81 , finally arriving at the cut off switch, directing the connectors to move to their right, thereby power flow is discontinued to the batteries. Constructed in accordance with the principles of the present invention; 
           [0019]      FIG. 16  is a cross sectional top view of a preferred embodiment of a computer controlled, signal activated, relay switch, they control the cut off switch as it pertains to the present invent Invention; 
           [0020]      FIG. 17  is a cross sectional top view of a preferred embodiment of a basic state of the art computer, controlling the total over charge, fale-safe system, receiving signals from the sensor, And activating, or not activating, the relay switch as it pertains to the present invention; 
           [0021]      FIG. 18  is a cross sectional top view of a preferred embodiment of a group of eight batteries for said S.U.V. platform as it related to the over charge system. The batteries are all Lithium Ion. Constructed in accordance with the principles of the present invention; 
           [0022]      FIG. 19-20 , cross sectional top view of a preferred embodiment of the 48 volt DC. Lithium Ion batteries, and their configuration, the wire lines, and their progression to the two elect. motors. The main fuse brake, and the OFF/ON, Acc, lock switch is inline before the motors receive the current. Also the rear vacuum/vent motors, and their vent &amp; duct system. Constructed in accordance with the principles of the present invention; 
           [0023]      FIG. 21  is a cross sectional side view of a preferred embodiment of the total drag wheel Alternator regeneration system. The wheel is supported with slide bars, supported also by a center coil, across from which, a under wheel bar, this configuration allows a even contact to the surface, for the drag wheel, turning all the illustrated gears from the bottom up, and those rotations eventually activate four alternators per drag wheel, constructed in accordance with the principles of the present invention; 
           [0024]      FIG. 22  is a rear view of a preferred embodiment of the same illustration that was revealed To express the same information, but from a rear perspective, exposing some angles for gears That might not have ben apparent from  FIG. 21 . The upper and lower circulation vacuum/Vents are configured with in the drag wheel pan, in a optimum air circulation configuration. With a coil system illustrated, as in  FIG. 21 , directly, centrally anchored above is a brace pole/bar, insuring a maximum coil support apparatus, the alternator pan resists moisture from the exterior, as it is sealed via a gasket, and sealant. The dual side by side configuration of the drive bars, afford increased rotation of more alternators, per wheel. Constructed in accordance with the principles of the present invention; 
           [0025]      FIG. 23  is a rear view of a preferred embodiment of the Self, Ceaselessly Repeating Electrical System, from the top down, the motors facing each other, as the motors drive shaft rotate the top drive gear, all anchored to the rear floor. Progressing down, the middle gear, supported with a brace, anchored to the platform under frame, turning the lowest drive gear, hence rotating the drive shaft, directly anchored to either end of the drive shaft a universal joint, lubricated, &amp; booted, the stationary rear drive shaft housing has two vertical support posts, bolted in place for stability, in addition to two side by side angle braces, &amp; two front to back angle braces, from the universal joint out to the wheel drives the tire, above that universal joint too the tire, that rear is configured for stock suspension, of that particular platform, the total rear gear system is lubricated via a rear gear oil/pan system, lubricating all three gears, all points entering, and exiting the oil pan system is configured with a bearing/seal combination, constructed in accordance with the principles of the present invention. For the success of this invention, it is a MUST for the application of harden steel to all of the high torque/high stress areas, and gears. 
       
    
    
     DETAILED DESCRIPTION 
       [0026]    Referring now to the 23 drawings, and in particular  FIGS. 1 to 23  thereof, one preferred embodiment of the present invention is shown and generally designated by the reference number  14 . one preferred embodiment of a Self Ceaselessly Repeating Electrical System  14  comprising: a S.U.V., Ford Expedition, year 2001, X L T triton V8 platform  15 ; I would bring to the examiner&#39;s attention a plethora of platforms, is a actual possibility. Some known examples are, regular size cars, small trucks, 18 wheeler trucks, buses, passenger/cargo trains, GEGA/TREGA watt power train, propeller driven airplanes, motorcycles, submarines, ect. i.e. multiple platforms. The Ford S.U.V. platform  15 , in particular, this having one standard 12 volt DC. Lithium Ion battery  19 B, for standard platform functions. Addressing the platform power plant/storage system, 8-48 volt DC. Lithium Ion batteries  19 A, having the necessary function of a initial charge, that charge is implemented by a 120V AC, source, transferred to the platform by two cords,  16 , on one distal end of said plug there is a standard plug end, and on the other distal end of said cords is a specialty plug, at the platform end, charge cord  16 , plugs into the charge system  17 , the charge system capacity is input : 120V AC, 240 Hz, 5.2 amps, &amp; output: 24 amps at 48 volts DC. L.I. per side of the platform&#39;s battery system, four batteries  19 A per side giving this platform a slow charge, the battery  19 A, obtains it&#39;s charge by way of charge the batteries  19 , arranged for fit, &amp; functional adaptation of this energy source to the interior, and under the hood, area perspective  19 Aa, of the battery  19 A, indicates the arrangement of the positive &amp; negative poles, a side perspective  19 Ab, indicates the total front &amp; back −, +, polarity, a over head perspective  19 Ac indicates the interior positive &amp; negative cellular configuration. Having achieved a full charge, the next essential factor is the apparatus necessary to than achieve a Self, Ceaselessly Repeating Electrical System charge is brought into play, using the platform&#39;s mass inertia power source wheel/teeth machined, disk  200 , used for the brake, that power destroyed when the brake pad is forced to the surface of the disk  200 , this power is brought into the regeneration process by way of the platform&#39;s forward momentum/inertia, untapped to the level I have to this day, which I will address in my Field of Search. That forementioned power is directed from the wheel  43 , to the disk  200 , to the outer edge machined teeth of that disk  200 , attached with mobility, to the first telescoping bar  24 G; s second inline for direct drive, gear/teeth  201 ; housed in  22 ; anchored with no mobility, to the base  22 ; having the housing&#39;s base have it&#39;s support&#39;s base to fit the relevant platform, non rotating, wheel hub support system, the housing comprising: in addition to gear/teeth  201 , three sets of ball bearings rotating a center axle  26 : on a axis that inside of the housing, the gear  201 , would achieve a direct connection between toothed disk  200 , and bar  24 G&#39;s universal joint  23 , driving all five telescoping bars  24 C,  24 D,  24 E,  24 F,  24 G, said telescoping rods/bars are lubricated for smooth function during the course of their operation, the lubricant is kept in it&#39;s desired placement with a “cone” rubber boot  36 , anchored to the housing with a screw clamp  28 , at the opposite distal end of the boot&#39;s extension, the the boot is design to allow travel during the rough surface condition experienced by the tires  43  at the wheel well, front  37 , the rubber boot  36  is anchored with screws the opposite end of the telescoping bars, comprising: the fifth telescoping bar  24 C&#39;s universal joint  29 , is anchored at iy&#39;s base with a stable and mobile wide ball bearing  25 , universal joint base  30 , supporting the largest telescoping bars, the larger gears, the side configuration of the alternator  40 , the universal joint, the torque created by the screw gear  205 /alternator system the telescoping bar brace/rack support system  31 , anchored with 8 bolts  32 , with lock washer  27 , &amp; nuts  33 , aptly stabilizing any unsolicited movement, the fifth bar  24 C&#39;s universal joint  29  is anchored with mobility, to the largest, and lowest gear as illustrated on  FIG. 3  the largest drive gear is connected with mobility, to gears for the alternator  203 ,  204 , &amp; screw gear shaft  205 , thereby rotation of the alternator&#39;s screw gear drive  206 , takes place, the rotation of the alternator&#39;s  40 , drive shaft  29 , the end result, DC. regenerative power/energy. A second option to the screw drive system, is the 45 degree angle gear system, i.e., the fifth bar  24 C&#39;s universal joint  29  is anchored with mobility, to the largest, and lowest gear as illustrated on  FIG. 3 , the larger drive gear is connected with mobility, to gears, gear  204 , with the rotation of the pole/rod gear  217 , rotation of the 45 degree angle drive gear  218  on the pole/rod takes place, there by rotation of the 45 degree angle alternator&#39;s gear anchored with non mobility, to the alternator&#39;s drive shaft  39 , and with the ball bearings at either extremities if the pole/rod, smooth mobility is achieved, at that point regeneration takes place. A third option to option one, screw gear, &amp; the second option, the 45 degree angle drive, is a, as I stated a third option, i.e., the fifth bar  24 C&#39;s universal joint  29 , is anchored with mobility to the largest, and lowest gear as illustrated on  FIG. 3 , the larger drive gear is connected with mobility to gears, gear  203 , and gear for linear pole/rod pulley  217 , gear  204 , with the rotation of the pole/rod pulley  217 , rotation of pulley drive  220 , on the pole/rod takes place, than that rotates the pulley belt O, which rotates the alternator&#39;s pulley  221 , anchored none mobility, to the alternator&#39;s shaft  39 , and with the ball bearings at either extremities of the pole/rod, smooth mobility is achieved, at that point regeneration takes place. Rotation of alt. shaft  39 , the end result, DC. Regenerative power/energy, set into action by means of forward motion momentum/inertia, power by the ONE TIME CHARGE. The alternator transfers it&#39;s power/energy to the batteries, and there are 33 in quantity alternators one for standard functions of the platform, for the 12 volt DC. battery, in the 32 alternators, inclusive of the eight alternators  40 , in the drag wheel system, as being specific as to the alternator&#39;s smooth rotation, as illustrated by  FIG. 5  the total gear system is encased with in oil pan system  92 , &amp; is lubricated by said oil, having a oil pan a oil feeding opening, with a circulation/sealing cap  93 , the pump  95  acquiring oil from the bottom of the largest pan&#39;s supply of lubricant. The linear screw gear  205  accommodates alternators on either side of the linear screw gear by way of threads going in opposing directions, enabling the alternators to than rotate in the same direction, the linear screw gear is anchored with mobility at either extremities, by way of ball bearings, said linear gear is rotated by flat gear  204 , relative to the alternators specifically illustrating a over head perspective in a 2003 Hummer type  40 A, &amp; a rear perspective of the same alternator  40 B, THIS INVENTION IS NOT DESIGN TO BE ADAPTABLE TO THIS ALTERNATOR ONLY, WITH THE EXCLUSION OF OTHERS, having reviewed  FIG. 9  &amp;  FIG. 10 , I now review  FIGS. 11 &amp; 12  via over head perspective, a screw gear  205 , anchored with mobility to alternator  40  screw, accepter, gear alternator, drag wheel configuration after the accepter gear  206 , rotates there by rotating the alternator&#39;s drive shaft  39  resulting In power/energy from the alternator, being grounded  20 , the alternator delivers that power to the first fuse link i.e.  124 A this general information describes the four wheels of the platform &amp; their configuration to power/energy regeneration, eventually to the Lithium Ion batteries, the  19 A, and  19 B. The remaining contribution to the total power/energy to the 48 volt Lithium Ion batteries only, is supplied by the drag wheel alternators  FIG. 11  &amp;  FIG. 12  via a over head perspective indicate the position of the drag wheel alternator system and it&#39;s proximity to the rear end, having reviewed this drag wheel system over head perspective, further clarification will be derived when a advancement to  FIG. 21 , &amp;  FIG. 22  take place, later in the D.D. of the P.E. Addressing  FIG. 13 , the alternator, to battery wire configuration has it&#39;s first protective apparatus, a fuse brake for all 32 alternators, and all eight 48 volt DC. Lithium Ion batteries, not for the 12 volt DC. Lithium Ion battery, that has it&#39;s own fise brake, it&#39;s a  124 A fuse, between one alternator and the standard 12 volt L.I. battery  19 B. Having no discontinuation of current at  FIG. 13 , alternator to battery fuse brake  124 A and rear oil pump fuse brake  20 A, the wire continues on to  FIG. 14 , which illustrates a wire configuration that leads to the  FIG. 15 , the disconnection switch, and if the computer gives the over charge system the clearance to go to  FIGS. 19 &amp; 20 , the L.I. batteries  19 A, and will do so by doing nothing, the computer just activates the disconnection mode, it all ways defaults to connected. But when the battery system has a battery out of the eight, 48 volt L.I. battery that experiences a over charge, than as in  FIG. 18  the over charge sensor  80 , will transmit a signal to the computer  83 , the result being, a command from the computer  83  to the relay switch  81 , to electronically activate the disconnection mode, allowing the L.I. battery the opportunity to reduce it&#39;s current level at a point of over charge. As fore mentioned, the choice to activate the disconnection mode, over the connection mode, this was not a arbitrary decision, the more prevalent, or default mode is the charge mode. The battery configuration  FIG. 18  is illustrated so as to show their relationship with the over charge fail-safe system. I would like to address  FIGS. 19  &amp;  20 , proceeding, having cleared the computer, over charge fail-safe system the current than Freely flows to the rear of the battery  19 A via wires  41  regenerating the battery  19 A, being grounded  20  from the front end of the L.I. battery, and regeneration starts at the front of the Battery, the power/energy is consumed A NEW, from the back of the battery, directed toward the rear a elect., dual controlled throttles  76 A &amp;  76 B, controlled at the motors, dual controlled current directional switches  77 A &amp;  77 B, proceeding to a ignition switch pre fuse brake  78  than to the ignition switch  79 . Than to two current directional switches that are on the top of the motors them selves, to make that directional current change at the motors  66 , as fore mentioned, I will use  FIGS. 19 &amp; 20 , addressing vacuum/vent system, &amp; with  FIGS. 11 , &amp;  12 . 
         [0027]    Reviewing  FIG. 21  a side perspective of the drag wheel alternator system, starting from the Top to down, the rear floor of the S.U.V.  42 , support the whole drag wheel  44  alternator  40 , system is the major support apparatus for the drag wheel  44  the adjustable brace, tub support  54 , &amp; forward V brace &amp; one center rear brace  57 , all anchored with mobility to the L bar &amp; “hump ”, strong back  53 , carrying a base  55 , that supports the coil  56  with a top brace, both coil extremities are anchored with no mobility, to said base  55  with it&#39;s central placement, the coil  56  is aptly situated to facilitate a smooth rise &amp; fall of the wheel system, to the farest, lowest extremity of the L bar comprising: from the inside out, the wheel center  52 , supporting the wheel  44  made mobile by means of ball bearings  25  attached with none mobility to the wheel, and drag wheel dish/gear, teeth  213  attached with mobility to the horizontal, lowest gear/teeth  212  manipulating the next 45 degree gear rising up, gears  211  &amp;  212  is made mobile via ball bearings on both sides of said horizontal lower gear/teeth  212  the next 45 degree gear rising from gear  211  attached with mobility to gear  211  is 45 degree gear  210 , made mobile by ball bearings  25  at both extremities of the inner drive shaft  51 , contained with in it&#39;s housing  50 , at the highest extremity of the inner drive shaft  51 , anchored with mobility to the drive shaft  51  is a universal joint  49  eliminated any possibility of middle drive bar  48  to lock up during the course of the tire&#39;s  44  road travel, the middle drive bar rotates &amp; rises &amp; falls, bar  48 , as it makes a mobile drive contact with the upper most attached with mobility brace  46 , to facilitate the smooth rotation of the square drive bars  48  &amp;  47 , that mobile base  46  is anchored to the drag wheel&#39;s water proof pan  58 , with bolts  32 , washers  27 , &amp; nuts  33 , Turning on it&#39;s axis, bar/45 degree gear made a mobile attachment to two other 45 degrees on either side of gear  209 , the two contacting gears  208  manipulate the two upper most screw gears  207 , to rotate on their axis by means of two separate drive shafts, in turn the screw gears  206  &amp;  206  rotate than the alternator&#39;s drive shaft rotates turning the alternator, and regeneration of the power/energy, in the direction of the Lithium Ion batteries, passing through the fuse system, fuse— 124 A  78 , at this regeneration point both the wheel&#39;s alternators current, &amp; the drag wheel&#39;s alternators current travel through the fuse system  78 , readdressing  FIG. 21 , the coil system is supported with a support, round post, inner pan apparatus is anchored, via bolts  32 , washers  27 , &amp; nuts  33 . Now addressing  FIG. 22  a rear perspective of the drag wheel alternator system indicates the relationship of all the forementioned comprising elements, and their relationship with each other, the vacuum/vent system indicated in  FIG. 22 , vent at the lower portion of the pan  60 , &amp; the vent at the upper portion of the pan indicates vent  59 , this entire vacuum/vent system addressed via  FIGS. 11 &amp; 12 ,  FIGS. 19 , &amp;  20 , so as to appreciate it&#39;s full impact, as it relates to the cooling of the cabin &amp; pan alternators. I would like to address  FIG. 23  starting at the top of  FIG. 23  the elect. Motors, −4 hp.×2=8 hp. total at continuous rating, ×5=40 hp. ×2=80 hp. total at peak hp., the motors  66  are wired to go in the opposite direction, so as to go in the same direction when arranged in a face to face configuration the motors  66  rotate their drive shafts  67  putting into rotating motion the motor&#39;s gears  214 , the motors gears are housed in a gear cover  68 , anchored to the floor  42 , with screws  34 , the middle gear  215  is anchored with mobility to the middle gear brace/bracket  70 , the brace/bracket  70  is supported by the platform body frame  69 , anchored with none mobility to the platform via bolts  32 , washers  27 , &amp; nuts  33 , a brace having rubber seals  86 , than farther in middle gear  215 , ball bearings  25  allowing the middle gear  215  to rotate, the lower two part pan  71 , is anchored with bolts  32  the pan  71  has holding bolts  32  the drive shaft gear  216  is anchored to the drive shaft, with no mobility, able to rotate with ball bearings &amp; a rubber seal  25  &amp;  86 , at the oil pan, an universal joint  74 , is the last mobile anchor before arriving at the tires  43 , that drive shaft  72  is housed in a drive shaft housing  73 , that housing is supported by two columns &amp;  5 ,  90 ,  95 ,  90 , &amp;  95 , are angled braces, these opposing directional brace are sure to keep the rear end gear system stationary, universal joint  74 , &amp; the drive shaft gear  216  &amp; gear  215  &amp; gear  214  are all, rotating in lubrication/oil  85 , with in the oil pan  71 , the U.J. is protected by a rubber boot  92 , rotation by the drive shaft gear, than rotates the drive shaft, than rotates the tires on the surface  93 . The suspension is stock, to the particular platform that is used  91 . Once forward or reverse motion is activated, hence, Self, Ceaselessly Repeating Electrical System.  FIG. 23 , the wheel wells  37 , illustrates the degree of clearance afforded the wheel  43  also the disk/gear teeth are illustrated to show it&#39;s relationship to the rear drive system. I will address  FIGS. 11 , &amp;  12 ,  FIGS. 19 , &amp;  20  review of the rear of that same system, the vacuum/vent. At  FIGS. 11 , &amp;  12 , starting from the front of the illustration, the wet/dray vacuum motors left side, &amp; right side  65 B &amp;  65 A draw air from the rear twelve primary and the eight secondary, drag wheel alternators and the primary twelve Alternators, their air consumption originates directly below each side of the rear cabin alternator compartment, than secondarily from the draw wheel alternators, by way of air ducts  64 B &amp;  64 A front to middle, now addressing  FIGS. 19 , &amp;  20 , at the middle air ducts left &amp; right  64 B &amp;  64 A passing the round vents &amp; the two rear vacuums, rear left &amp; right  65 B &amp;  65 A, at the rear of the air consumption system the two rear vacuum increases the suction at it&#39;s weakest point, keeping the system strong. Batteries #3 and #4 are enclosed in a back seat  89  &amp; back of seat/start of seat vent  88 , the drag wheel vent high  59  &amp; vent low  60 , is illustrated on  FIG. 21  from the side, and on  FIG. 22  from the rear perspective, in the pan  58 ,  FIGS. 11 &amp; 12  shows the approximate location of the computer  83 . Another preferred embodiment of a method of using a Self. Ceaselessly Repeating Electrical System  14 , the method consists essentially of the steps Of: obtaining, entering, sitting, steering, braking, contacting, repeating, and standing. As to the manner of usage and operation of the present invention, the same should be apparent from the above description. Accordingly, no further discussion related to the manner of usage and operation will be provided. 
         [0028]    While a preferred embodiment of the Self, Ceaselessly Repeating Electrical System has been described in detail, it I hope should be apparent that S., C.R.E. system is possible for one to modify or vary, all of which fall within the true theme and scope of the invention. With respect to the above here, it&#39;s to be understood that the optimum dimensional relationships for the parts of the invention, to include variations in size, materials, shape, form function and manner of operation, assembly and use, All suitable modifications and equivalents may be understood to, fall within the scope of the invention. 
         [0029]    Dear Miss., Mrs., or Mr. examiner, I would respectfully reiterate, this S.U.V. platform is only the tip of the iceberg, for this invention&#39;s platfofms. The other platforms are cars, buses, Small trucks, 18 wheeler trucks, passenger/cargo trains, and GEGA/TREGA watt power train, propeller driven aircraft, motorcycles, submersibles, etc.