Abstract:
A fuel-efficient auxiliary power generation, conversion, and supply system configured within the periphery of a vehicular conveyance, and typically including a plurality of batteries, a power generator, an internal combustion engine, and an instrument control assembly including an inverter portion and a rectifier portion. The system generally comprises a portion of an electrical circuit substantially independent from a primary operative electrical circuit of the vehicular conveyance, and the combustion engine operates independently from a primary operative engine of the vehicular conveyance.

Description:
RELATED APPLICATIONS 
       [0001]    This application claims the benefit of priority to U.S. Provisional application No. 60/873,062, filed on 5 Dec. 2006 and entitled VEHICULAR OUTBOARD POWER CONVERSION APPARATUS AND SYSTEM, the contents of which are hereby incorporated herein in their entirety by this reference. 
     
    
     FIELD OF THE INVENTION 
       [0002]    The invention relates generally to the field of power generation. More particularly, the invention relates to a system, apparatus, and method of generating and converting outboard power on a mobile conveyance. 
       BACKGROUND OF THE INVENTION 
       [0003]    This invention relates generally to the field of vehicular power conversion. More particularly, it concerns improved efficiency in the provision of auxiliary power conversion systems for marine, recreational, commercial, air and/or military crafts or vehicles. 
         [0004]    American commercial truckers are required by recent federal regulation to pull off the highway and rest for ten hours out of every twenty-one hours on the road, e.g. eleven hours of driving must be followed by ten hours of rest. To date, truckers have pulled over and idled their truck engines during such stops, thereby to produce power sufficient to continuously or periodically operate air conditioning/heating and appliances such as refrigerators, televisions, computers, etc. 
         [0005]    Internal combustion engines are extremely inefficient when idling. Children&#39;s asthma symptoms increase as a result of vehicle exhaust. The smallest pollutants from vehicle exhaust lodge deeply in the lungs causing lung damage, aggravating respiratory conditions such as asthma and bronchitis, increasing the risk of stroke and heart attack, leading to cancer and contributing to premature death. Vehicle exhaust is the leading source (˜40-50%) of toxic air pollution in Oregon. Idling vehicles emit significant amounts of pollution, including sulfur dioxides, carbon monoxide, nitrogen oxide, and volatile particulate organic compounds leading to the formation of atmospheric carbon dioxide (CO 2 ). All known, peer-reviewed, published scientific studies agree that carbon dioxide by-products of human manufacture are a major contributor to global warming. An idling vehicle engine delivers zero miles to the gallon and thus wastes fuel, e.g. gasoline, diesel, bio-diesel or the like. Excessive idling is hard on a vehicle engine because the engine does not idle at peak operating temperature. Fuel does not undergo complete combustion, leaving spark plugs dirty, damaging cylinders and exhaust systems, and contaminating engine oil. Thus, such roadside idling to conform with the new federal safety regulations represents an inefficient and potentially damaging tax on a vehicle&#39;s engine, a waste of increasingly depleted fossil-fuel-based vehicle fuel resources worldwide, and an emission plume of air-borne toxins that harm the atmosphere and worsen an already existing global health hazard. 
         [0006]    (A commercial trucker can drive only seventy hours in an eight day period, with a minimum of thirty-four hours of rest before restarting a fresh seventy hours. Accordingly, a typical driver idles approximately one hundred hours each week, and thus spends approximately four hundred hours per month idling. At approximately $3/gallon of diesel, this represents approximately $1200 dollars per month of wasted diesel, a precious fossil fuel commodity. The cost of running a conventional auxiliary power unit (APU) is approximately $400 dollars per month, at a cost savings (over idling the commercial truck&#39;s main internal combustion engine) of approximately $800 per month or $10,000 per year per commercial truck, based upon current fuel prices. The higher the price and scarcity of fuel, the more savings monthly, e.g. annually the trucker and/or company saves. Nevertheless, conventional APUs are relatively inefficient and costly to operate as an alternative to idling the main engine.) 
         [0007]    Recreational vehicles (RVs), buses, houseboats, yachts, and other land or marine craft including military craft have auxiliary power needs similar to those of the commercial trucker for supplying power to such auxiliary systems as air conditioners/heaters and appliances such as refrigerators, computers, navigational or communication equipment, radios and the like. Many such appliances, e.g. televisions, require one or more relatively clean sources of alternating current (AC) power. 
         [0008]    Accordingly, there is a need to provide clean AC power to such auxiliary systems and appliances and at the same time to reduce the rate of consumption and pollution caused by roadside idling of land- and marine-based internal combustion engines. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0009]      FIG. 1  is an electrical schematic block diagram of the outboard auxiliary power conversion apparatus, in accordance with one embodiment of the invention. 
           [0010]      FIG. 2  is a top plan view of the invented apparatus and system in the context of its use in providing auxiliary power to a commercial wheeled vehicle, in accordance with one embodiment of the invention. 
           [0011]      FIG. 3  is a left-side perspective of a commercial truck illustrating incorporation of the invented apparatus and system therein. 
           [0012]      FIG. 4  is a right-side perspective corresponding with  FIG. 3 . 
       
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
       [0013]    The invention in accordance with a preferred embodiment involves an auxiliary power system for a yacht or other watercraft, or for a vehicle such as a bus, RV, military vehicle such as a Bradley or Hummer, or commercial truck, all of which are referred to herein as “vehicles.” Those of skill in the art will appreciate that auxiliary power in accordance with the present invention is outboard from the vehicle&#39;s main power train system. As such, the invention in accordance with one embodiment thereof taxes or burdens neither the main battery nor the main drive train (e.g. the internal combustion engine) of the vehicle. 
         [0014]      FIG. 1  illustrates the invented apparatus  10  by way of a schematic circuit diagram, in accordance with one embodiment of the invention referred to herein as an eGenASys™ system. eGenASys™, GenASys™ and GenASys Q™ are trademarks owned by Enertek Solutions, Inc., the assignee of the present invention, world-wide rights reserved.  FIG. 2  illustrates the invented apparatus  10  in a cutaway top plan view of a sleeper-type commercial truck, showing the chassis and tandem wheel assemblies schematically beneath the invented apparatus and system  10 , for the sake of context.  FIGS. 1 and 2  are referenced collectively immediately below. 
         [0015]    Apparatus  10  is straightforward but unique to the present invention. It includes a bank  12  of batteries  12   a ,  12   b ,  12   c ,  12   d , the bank of batteries being independent from the main battery system powering the vehicle. Batteries  12   a ,  12   b ,  12   c , and  12   d  each are nominally 12 volts (direct current-VDC) automotive or marine batteries having a form factor compatible with a trim fit thereof within the left auxiliary equipment bay of, for example, a sleep-over type of commercial truck such as one made by Peterbilt™. Batteries  12   a ,  12   b ,  12   c , and  12   d  available from Trojan™ are connected in series and parallel, as illustrated, to produce high-wattage 24VDC output to what will be referred to herein as an instrument control system (ICS)  14 . (Any suitably alternative form factor and/or type of battery, e.g. lead acid, lithium ion, liquid metal hydride, etc. can be used.) ICS  14  inputs 24VDC input from battery bank  12  and produces an output of either 110 volts (alternating current—VAC) or 220VAC to drive an under-cab air conditioner/heater  16  (including conventional compression and/or refrigeration and/or heater components) such as one made by Carrier™ via a shore power breaker box  18 . Those of skill in the art will appreciate that air conditioner  16  typically is regulated by a manual thermostat control  20  in the sleeper portion of the commercial truck or other vehicle. A five and one-half kilowatt (5.5 kW) generator  22  provides 400VAC to ICS  14 , as indicated. 
         [0016]    ICS  14  in accordance with the invention provides two primary functions: 1) it inverts 24VDC from bank  12  to 110VAC/220VAC, e.g. via high-efficiency switching components of a switching inverter  14   a ; and 2) it rectifies the 400VAC output of generator  22  to trickle charge the 24VDC battery bank  12 , e.g. via a rectifier  14   b . Those of skill in the art will appreciate that the functions of ICS  14  can be alternatively separated into functional or physical component parts, within the spirit and scope of the invention. Generator  22  is directly (shaft) driven in accordance with one embodiment of the invention by a seventeen horsepower (17 hp) internal combustion engine  24  supplied by gasoline, diesel, bio-diesel or any alternative fuel via one or more feed lines  26   a ,  26   b  from the vehicle&#39;s main or reserve fuel tank  28 . (Those of skill will appreciate that a diesel engine typically must have a return because of the way a diesel injection system operates. Such is designed to return excess unburned fuel in an approximately 10-50% proportion, depending upon the model. Moreover, in winter season or extremely cold environments, returned diesel heats the fuel in the main tank to prevent gelling.) A suitable diesel engine  24  (having an integral electronic starter, in accordance with one embodiment of the invention) is available from Lombardini™, although other internal combustion engines can be suitably substituted, within the spirit and scope of the invention. 
         [0017]    ICS  14  and generator  22  having the above-described operating specifications are available from Aura Systems, Inc., although those of skill in the art will appreciate that they can be supplied by any suitable manufacturer and to any desired operating specifications, within the spirit and scope of the invention. (For example, suitable alternative, bidirectional, solid-state generators are available from Sawafuji™.) Those of skill in the art also will appreciate that, within the spirit and scope of the invention, generator  22  and engine  24  can be operatively coupled in any suitable manner, as by use of a clutch, belt or bearing operatively coupled therebetween. In accordance with one embodiment of the invention, the rotor shaft of generator  22  and the drive shaft of engine  24  are directly coupled to one another via a plastic ‘slip’ ring that delivers maximum torque and efficient mechanical-to-electrical power conversion, while protecting the engine and generator components from induced failure. 
         [0018]    A dash-mounted generator on-off control panel  30  permits an operator (driver) of the vehicle to start and stop engine  24  as desired to provide auxiliary power to air conditioner/heater  16  or to other AC appliances (not shown) such as a refrigerator, a television, a computer, etc. A dash-mounted manual-override start/stop switch  32 , for service and maintenance purposes, to govern the operation of apparatus  10  also is provided in accordance with one embodiment of the invention. For maintenance and/or trouble-shooting purposes, one or more monitoring or sense cables such as cable  34  are provided, in accordance with one embodiment of the invention, to enable maintenance personnel to monitor the DC level, charging capacity, and general ‘health’ of battery bank  12 . Remaining cables and/or wiring harnesses  36 ,  38 ,  40 ,  42 , and  44  route power respectively between generator  22  and control panel  30 , between battery bank  12  and control panel  30  between engine  24  and override switch  32 , between ICS  14  and breaker box  18 , and between air conditioner/heater  16  and breaker box  18 . 
         [0019]    Those of skill in the art will appreciate that AC voltage drops are minimized in accordance with the invention by the simple expedient of shortening the wire harnesses that carry AC voltage from one component to another. More problematic DC voltage drops are minimized in accordance with the invention by using heavy gauge battery-cable wire, e.g. 00 (“double-ought”). Any suitable wiring harnesses for conducting AC or DC voltages within the invented apparatus and system are contemplated as being within the spirit and scope of the invention. 
         [0020]    Referring collectively now to  FIGS. 2 ,  3 , and  4 , the components of apparatus  10  in accordance with one embodiment of the invention are positioned strategically within the periphery of a stock sleeper truck so as to fit well and trim therein and so as not to interfere with normal operation thereof. For example, generator  22  and engine  24  fit within a smaller right-side auxiliary bay  46  (refer to  FIG. 4 ) of the sleeper truck, bank  12  of batteries fits within a left auxiliary custom bay  48  behind a unique, hinged embodiment of the driver-side steps (refer to  FIG. 3  showing the steps in dashed outline when pivoted away from the truck) of the sleeper truck, control panel  30  and switch  32  fit within a dash region  50  thereof, and air conditioner/heater  16  fits under a bed region  52  thereof between the dual parallel frame rails (not shown). Thus, all components are configured, dimensioned, and physically distributed, in accordance with the invention, to have only nominal impact on the normal operation and configuration of the vehicle. For example, the useful carrying and storage capacity of larger left-side cargo/equipment bay  54  (refer briefly to  FIG. 3 ) is not adversely impacted by inclusion of apparatus  10  including air conditioner/heater  16 , as is the case with conventional and less-well-designed retrofits. 
         [0021]    The high functional density of the invented apparatus and system is evident from the thoughtful selection of the engine, generator, ICS, battery bank and air conditioner/heater components and their placement within and around the vehicle&#39;s auxiliary, custom and stock bays. For example, the battery bank  12  fits within a right rectangular custom bay or space approximately 32.5″ in width, 22.5″ in depth and 15″ in height, while generator/engine  22 / 24  fit within a right rectangular stock bay or space approximately 32.5″ in width, 22.5″ in depth and 12″ in height. A standard Coleman air conditioner/heater unit is 12″ in height, 26″ in width, and 34″ in length, which dimensions enable it to fit under approximately only 1 out of 3 Class 8 trucks. 
         [0022]    A Low-Profile Carrier air conditioner/heater unit is of approximately the same dimensions, save for being only approximately 7½″ in height. This enables the Low-Profile Carrier air conditioner/heater unit to be mounted under every Class 8 truck manufactured today, facilitating a veritable plug-n-play solution to the form and fit problem. In accordance with one embodiment of the invention, the normal storage capability (again, depending on truck model) which is standard on most trucks is approximately 6-8 cubic feet (ft 3 ). Departing radically from convention whereby the air conditioner/heater unit is placed under the bunk thus utilizing this limited storage space better used for clothes, food, luggage, extra tools, etc. the present invention places a Low-Profile Carrier air conditioner/heater unit under the truck cab, and thereby frees up the room inside the truck cab living space, thereby further increasing functional density. Thus, the four major, space-consuming components in accordance with one embodiment of the invention take up only approximately 15 ft 3  of volume, all of which surprisingly small volume is within the periphery of the vehicle but outside the large cargo bay. 
         [0023]    In operation, engine  24  drives generator  22  at a nominal eighteen hundred revolutions per minute (1800 rpm) or suitable alternative that is compatible with an efficient tradeoff between fuel combustion and torque. Those of skill will appreciate that efficient operation of engine  24  depends upon its specific design specifications and operating efficiencies. Generator  22  supplies relatively dirty 400VAC to ICS  14  at a peak current consistent with its power rating, e.g. 5.5 kW. ICS  14  generates from the 24VDC battery bank  12  relatively clean 110VAC/220VAC and supplies the same to air conditioner/heater and other AC appliances (not shown) via breaker box  18 . ICS  14  uses efficient, high-frequency switching components to generate a nearly pure sinusoidal efficient, high-frequency switching components to generate a nearly pure sinusoidal 110/220VAC waveform substantially free of harmonic content. ICS  14  also rectifies and down-regulates the 400VAC from generator  22  into 24VDC and supplies the same to battery bank  12  to recharge the batteries when needed. 
         [0024]    Thus, battery bank  12  is tapped continuously (while the auxiliary system is on) to generate the AC voltage demands of the auxiliary systems, while battery bank  12  is charged by the engine/generator  24 / 22  combination only periodically as needed to “top off” the batteries at full charge. This novel circuit topology and component configuration and arrangement makes far more efficient use of fuel from fuel tank  28 , since operation of engine  24  and generator  22  is required only occasionally rather than continuously. 
         [0025]    Indeed, conventional auxiliary power units (APUs) run continuously during a ten-hour roadside stop and rest period, consuming several gallons of fuel in a ten-hour rest period. In significant contrast, invented apparatus  10  runs only a couple of relatively brief, e.g. one to two-hour, periods of time over a ten-hour rest period, consuming only a couple of pints of fuel, nearly an order of magnitude improvement in efficiency based on run-time alone. Moreover, conventional APUs utilize engines that operate at higher rpm, e.g. typically 3600 rpm, which operation is less fuel efficient than the operation of engine  24  at 1800 rpm as in accordance with the invention. Thus, only approximately ⅓-½ the fuel is consumed in accordance with invented apparatus  10 , and what fuel is consumed is consumed more efficiently to drive the high-efficiency generator and ICS. Again, this is due to the use of rectified AC power to charge the battery bank, the output of which is rectified and in turn used to power the auxiliary system, rather than, for example, driving the auxiliary system directly from an AC alternator or generator. 
         [0026]    Thus, in accordance with the invention, by use of an engine operating at only approximately ⅓-½ the revolutions per minute and by use of such an engine only approximately ⅓-½ the time, it is possible to achieve up to a 9:1 efficiency advantage over conventional APUs, at great cost savings, great fossil fuel savings, and great reduction in toxic emissions. The invention succeeds by using a battery bank normally to power the auxiliary system, while only occasionally tapping the fuel source to replenish the at-voltage current-delivery capacity of the batteries. 
         [0027]    An alternative embodiment of the invention is contemplated in which a Kubota™ diesel engine, a Markomm generator, and a 3500 W inverter replace inverter  14   a , rectifier  14   b , generator  22 , and engine  24  of  FIG. 1 . Thus, the Gen-a-Sys™ and Gen-a-Sys Q™ product configurations made in accordance with this alternative embodiment of the invention also represent an efficiency/performance improvement over conventional APUs, because of their similar but not identical circuit topology and componentry. Yet another embodiment envisioned as being within the spirit and scope of the invention not expressly illustrated in  FIG. 1  whereby two inverters replace inverter  14   a  in a bifurcated power distribution mechanism: one characterized by a relatively low-power, low-cost “moderately” clean AC output for air conditioner/heater  16  and another characterized by a relatively high-power (e.g. 5.5 kW), but low-cost (e.g. $500) “purely” clean AC output for other appliances such as televisions or computers that are more sensitive to “dirty” power (containing sinewave harmonics). Such a “Virtual APU” would obviate the need for high-cost (e.g. $30 k) air conditioner/heater units such as Vector unit that puts out only 2 kW of relatively “clean” AC power. Other suitable alternatives are contemplated as being within the spirit and scope of the invention. It will be understood that the present invention is not limited to the method or detail of construction, fabrication, material, application or use described and illustrated herein. Indeed, any suitable variation of fabrication, use, or application is contemplated as an alternative embodiment, and thus is within the spirit and scope, of the invention. 
         [0028]    From the foregoing, those of skill in the art will appreciate that several advantages of the present invention include the following. 
         [0029]    The present invention provides greatly improved efficiency in providing AC power to auxiliary systems such as air conditioners/heater and or appliances such as refrigerators, televisions, computers, etc. It uses a surprising order of magnitude less fuel than conventional APUs, thus saving scarce natural resources, by barely ‘sipping’ fuel while providing DC charging power to a bank of durable batteries that, in turn, supply robust power to a high-efficiency switching inverter capable of supplying clean AC power to the auxiliary system. The invention takes the form of a compact, distributed-component system that maximizes the utility of the available space in a conventional sleeper-styled commercial truck. The relatively small footprint and volume, as well as the location, of the components beneath the bed and within the perimeter of the truck leave most cargo space empty and thus useful for its intended long-haul purpose. Moreover, the compact arrangement within the vehicle&#39;s periphery leaves the exterior of the vehicle free from external mounting hardware, hangers, supports, platforms, carriers, etc. The use of less fuel and the more efficient burning of smaller volumes of fuel solves two major problems at once: they conserve limited fossil fuel resources and they reduce toxic emissions and thus preserve the environment. 
         [0030]    Those of skill in the art will appreciate that use of the invented apparatus and system is contemplated with any vehicle or marine craft, whether regulation requires a ‘rest’ period during which auxiliary systems need efficient outboard power. This is because the invention lends itself to highly efficient use of diesel or other fuel to supply AC power to any appliance, without requiring the vehicle or craft&#39;s main engine to be operating. Thus, incorporation of the invented system and apparatus or its equivalent within any vehicle or craft (e.g. commercial truck, RV, bus, marine, military or air craft, etc.) is deemed within the spirit and scope of the invention. 
         [0031]    It is further intended that any other embodiments of the present invention that result from any changes in application or method of use or operation, method of manufacture, shape, size, or material which are not specified within the detailed written description or illustrations contained herein yet are considered apparent or obvious to one skilled in the art are within the scope of the present invention. 
         [0032]    Accordingly, while the present invention has been shown and described with reference to the foregoing embodiments of the invented apparatus, it will be apparent to those skilled in the art that other changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. 
         [0033]    It will be understood that the present invention is not limited to the method or detail of construction, fabrication, material, application or use described and illustrated herein. Indeed, any suitable variation of fabrication, use, or application is contemplated as an alternative embodiment, and thus is within the spirit and scope, of the invention. 
         [0034]    It is further intended that any other embodiments of the present invention that result from any changes in application or method of use or operation, configuration, method of manufacture, shape, size, or material, which are not specified within the detailed written description or illustrations contained herein yet would be understood by one skilled in the art, are within the scope of the present invention. 
         [0035]    Finally, those of skill in the art will appreciate that the invented method, system and apparatus described and illustrated herein may be implemented in software, firmware or hardware, or any suitable combination thereof. Preferably, the method system and apparatus are implemented in a combination of the three, for purposes of low cost and flexibility. Thus, those of skill in the art will appreciate that embodiments of the methods and system of the invention may be implemented by a computer or microprocessor process in which instructions are executed, the instructions being stored for execution on a computer-readable medium and being executed by any suitable instruction processor. 
         [0036]    Accordingly, while the present invention has been shown and described with reference to the foregoing embodiments of the invented apparatus, it will be apparent to those skilled in the art that other changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.