wilks-powrwgn

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**Paul WILKS**

**Power Wagon**



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[**http://www.thepowerwagon.com**](http://www.thepowerwagon.com)  
**(304) 544-4093**

![](powrgn1.JPG) **...
Hominid not included ...**

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[**http://www.huntingtonnews.net/local/080921-rutherford-poweroutage.html**](http://www.huntingtonnews.net/local/080921-rutherford-poweroutage.html)  
Sept. 20, 2008

**Power Outage Partially Closes Marshall,
Pullman**   
**Gasless Power Wagon New Option for
Blackouts, Brownouts, Mobile Electricity**

**by**

**Tony Rutherford**   
**Huntingtonnews.net Reporter**

Huntington, WV (HNN)  Marshall University
canceled classes Friday, Sept. 19 due to a power outage which
blackened most of the campus. According to Appalachian Power, a
failed splice in an underground substation caused the outage.

 Drinko Library, the Robert C Byrd
Biotechnology Science Center and portions of Old Main remained
open as they have backup generators.

The failure also impacted businesses at Pullman
Square, where Five Guys and Starbucks had closed for the day.
Empire Books had a check back at 5 p.m. sign on the door.

But all could have been open if they had the
battery generator Power Wagon which debuted at the St. Joseph
Grade School Carnival. Paul Wilks, the inventor of the gasless
generator, has built a battery powered device which recharges by
merely turning the wheels.

Charging from the torque of wheels rolling, the
device runs lights, air conditioning, refrigerators, and even
inflatable slides.

The noiseless device charges its batteries by
attaching the trailer to the back of a vehicle --- or for that
matter a horse and wagon.It rolls itself, explained Wilks,
adding that it can provide power in remote settings, at
construction sites, for emergency situations, or as a gasless
alternative to power your home or office. 0A

Wilks, who once drove a truck, has been working on
the invention about seven years. The idea came from seeing the
wheels of trucks turn. I started piecing it together seven or
eight years ago. I did not know if I could make it work. He
envisioned capturing that energy as a substitute for gas.

Currently, only his family members and a judge
have been utilizing the Power Wagon.

A federal judge approached Wilks three years ago
after becoming dissatisfied with the noise and fumes of gas a
generator on his boat.

He had a generator on his boat and his family got
sick, Wilks explained. A friend steered the judge to Wilks
invention. I think what you got there should be on my boat,
Wilks said paraphrasing the jurist. This is going on the third
season and its still running his boat. He loves it. As soon as
he got it put together, he got rid of his generator.

John Howard, manager of M & M Inflatables,
Ironton, Ohio, ecstatically stated, Ive never seen anything
like it before. We could take this places without electricity.
It would be great for festivals; its not very loud. You cant
hear it run. It saves on gas; it would pay for itself in about a
years time with us. Speaking about a power failure a few w
eeks ago in and around Newport/Covington, Ky., Wilks told Howard
that the Power Wagon could have operated during the black out.
Grinning, he said that his house would have been the only one
with lights.

On lookers expressed amazement as the device
powered machines at the St. Joe carnival. One individual foresaw
the device as having a wide variety of military uses (such as
providing power in Iraq) or as an asset for THEMA, which faces
powerless disasters. Pointing to a set of generator powered
lights which the carnival would utilize after dark, Wilks
explained you could put a light system on this that could light
up just as much as those.

Wilks indicated that a group of West Virginia
University engineers have given a &nbs p;thumbs up for the
invention, for which a patent application is pending. They said
it needed to be on the market now, the inventor said of the WVU
examination of the gasless generator.

Asked often whether a car could be built to run on
it, he grinned and shrugged favorably. But, that project would
be too large for him. Still, many of those marveling at the
device aptly described it as the wave for the future.

Wilks can be contacted at (304) 544-4093. He will
soon have a website at: http://www.thepowerwagon.com.

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**US Patent Application 2007051542**

**Trailer with Integral Axle-Mounted
Generator and Battery Charger**

 2007-03-08   
Classification:  - international: B60K1/00; B60K1/00; -
European: B60L11/18L6   
**Abstract** --  A working surface incorporates a means
for transferring mechanical energy produced by a rotating member
of the working surface so that the energy rotates a shaft
attached to an alternator that charges a bank of 12 V batteries.
The alternator is responsible for converting the mechanical
energy being input by the rotating shaft to electrical energy
that is fed to the batteries. The batteries transfer the energy
into an inverter for use depending upon the required amount.
Thereby, backup electrical power may be generated and stored,
taking advantage of excess horsepower at cruise provided by a
vehicle as well as better utilizing travel time. Additionally,
the added cost of ownership and noise of a portable power
generator is avoided.

U.S. Current Class:  180/65.1   
U.S. Class at Publication:  180/065.1   
Intern'l Class:  B60K 1/00 20060101 B60K001/00

**Description**

**CROSS REFERENCE TO RELATED APPLICATIONS**

[0001] The present application claims the benefit
of commonly-owned U.S. patent application Ser. No. 60/709,281,
"Trailer with Integral Axle-Mounted Generator and Battery
Charger" to Wilks, filed Aug. 18, 2005, the disclosure of which
is hereby incorporated by reference in its entirety.

**BACKGROUND OF THE INVENTION**

[0002] The present invention relates to electrical
power generation and storage devices for portable or emergency
use. While portable electrical generators are quite useful for
emergency situations or austere environments, such generators
tend to be inconvenient with regard to maintenance, transport,
duration, and reliability. Consequently, a significant need
exists for a more convenient and cheaper method of providing
back-up electrical power.

[0003] Various kinds of portable generators exist
in the current market. The uses for these generators range from
home use to industrial use. Conventional portable generators
comprise an engine and an alternator driven by the engine to
produce electricity. Specifically, the spark-ignited combustion
engine produces mechanical drive to rotate a crankshaft. The
crankshaft, connected with a revolving shaft of the generator,
will produce electrical current by converting the mechanical
power produced by the engine into electrical energy. The
mechanical energy drives the crankshaft to rotate electrically
conductive elements within a magnetic field. The rotation of the
electrically conductive elements around the field produces
electric energy capable of being used or stored.

[0004] A more desirable form of energy storage is
extremely valuable as a result of the continual rise of fuel
prices, the concern for the environment, and the decline of the
amount of fossil fuels. A portable power source that can produce
electrical energy by converting mechanical energy would help
reduce the cost of energy, protect the environment, and provide
a reliable, convenient source of energy. The traditional
portable electric generators consume gasoline to produce the
mechanical drive necessary to rotate the electrically conductive
elements. By contrast, using a rotating axle coupled with a gear
system or other means would provide the necessary mechanical
drive to produce electrical energy as opposed to wasting other
energy sources and utilizing a portion of the power of a vehicle
that would otherwise be unused.

[0005] A more efficient approach as stated earlier
would be to use a mechanical drive system already being used,
such as the wheel axle of a towed vehicle or a drive system of a
car, to effectuate the rotation of the shaft of an alternator.
This rotation of the shaft by means including but not limited to
gears, pulleys, and transmissions will produce electric power
capable of being stored within a single battery or a series of
batteries. The power may then be converted by an inverter from
direct current to alternating current as desired by the user.

**BRIEF DESCRIPTION OF THE FIGURES**

[0006] The accompanying drawings, which are
incorporated in and constitute a part of this specification,
illustrate embodiments of the invention, and, together with the
general description of the invention given above, and the
detailed description of the embodiments given below, serve to
explain the principles of the present invention.

[0007] **FIG. 1** depicts an isometric view of
a towable work surface incorporating a wheel-driven electrical
power generation and storage system consistent with aspects of
the present invention with an inverter box stowed on a forward
portion of the work surface.

![](fig1-2.jpg)

[0008] **FIG. 2** depicts an aft isometric
view of the towable work surface of FIG. 1 hitched to a vehicle
with the inverter box mounted on a top surface of the towable
work surface.

[0009] **FIG. 3** depicts an aft view in
elevation of an axle portion of the towable work surface of FIG.
1.

![](fig3.jpg)

[0010] **FIG. 4** depicts a top diagrammatic
view of the towable work surface incorporating the wheel drive
electrical power generation and storage system of FIG. 1.

![](fig4.jpg)

**DETAILED DESCRIPTION OF EMBODIMENTS OF THE
INVENTION**

[0011] Referring now to the drawings in detail,
wherein like numerals indicate the same elements throughout the
views, FIGS. 1-4 show the apparatus comprising a towable working
surface depicted as a single-axle trailer 10 that advantageously
incorporates a wheel-driven electrical power generation and
storage system 12 such that when being pulled by a vehicle 14, a
driver may monitor an emergency power supply status display 16
attached to a dashboard 18. A wired or wireless connection 20
back to a trailer portion 22 of the system 12 communicates
whether the wheel speed is within an optimum range for power
generation and a level of stored charge of the system 12.

[0012] The trailer portion includes a generally
known trailer 24 that has a lower deck 26 upon which a plurality
of electrical power storage components (e.g., chemical
batteries) 28 are supported. A table portion 30 is mounted
overtop of the lower deck 26 to encompass the batteries 28 and
to provide a work surface 32 so that the trailer portion 22 may
serve additional purposes rather than merely generating and
storing electrical power. In particular, an inverter box 34 may
be stowed on a front hitch portion 36 of the trailer 24 as in
FIG. 2 or on a mid section receptacle 38 as depicted in FIG. 1
to provide a weather protected container for an inverter 40
(FIG. 4) that converts the charge to an alternating current
(e.g., single phase 110 V) that may power tools or household
appliances when emergency or portable power is required.

[0013] With particular reference to FIG. 3, the
system 12 includes a rotating member (axle) 42 turned by wheels
43, which is coupled to a transmission member 44 and rotates a
shaft 46 attached to an alternator 13 positioned by a mount 50.
The rotation of the shaft 46 forces the alternator 48 to produce
electric power by rotating electrically conductive elements
within a magnetic field. The electric power produced by the
alternator 48 may then be sent to one or more batteries 28 and
ultimately converted by the inverter 40 from direct current
("DC") to alternating current ("AC").

[0014] The rotating member 42 provides the force
that drives the shaft 46 attached to the alternator 40. In the
illustrated version, the rotating member 42 is a wheel axle.
Additionally, the rotating member 42 could be an object
converting wind forces opposing the movement of the working
surface 1 to produce rotation of the shaft 15. Other rotating
surfaces may be apparent to those of ordinary skill in the art.
One such system could incorporate a drive shaft in the vehicle
to produce the movement necessary of the inverter 13.

[0015] The means for transferring the drive
produced by the rotating member 6 to rotate the shaft 46
attached to the alternator 13 may encompass a range of
transmissions, gears, or any other system apparent to those of
ordinary skill in the art. In the illustrative version of FIG.
3, a ring 52 and pinion gear 54 of the axle 42 attached to the
trailer 10 may be joined with a pulley system 56 to transfer the
drive produced by the axle 42 to the shaft 46. A universal joint
(not shown) that is typically attached to the pinion 9 is
removed and replaced with the pulley system 56. As illustrated
in FIG. 3, the pulley system 56 is depicted as a double v-belt
comprising a rotating cylinder 58 connected to the pinion 54, a
second rotating cylinder 60 and a belt 62. The rotation of
cylinder 58 is driven by the pinion 54. The belt 62 attached to
cylinder 58, rotates the second cylinder 58. Differing numbers
of pulleys and gears may be used to accomplish the goal to
produce the necessary means to transfer the force produced by
the pinion 54 to the shaft 46. The pulley system 56 may
advantageously serve as a ratio reducer or multiplier to
maintain the shaft 46 within an optimum rotation range.

[0016] The alternator 48 converts the mechanical
energy produced by the rotation of the shaft 46 into electrical
energy. The availability of many different alternators 48
provides that alternators 48 may be substituted or varied
depending upon their size and specifications. As seen in FIG. 3,
the alternator 48 may be positioned adjacent to the v-belt
pulley system 56. The alternator 48 should have a positive and
negative terminal. The alternator 48 will then electrically
connect to one or more batteries 28 to transfer and store the
energy produced by the rotation of shaft 46.

[0017] While FIG. 4 represents a diagram of four
batteries 28, there is no specific number of batteries required
to operate the apparatus. The figures only illustrate one
possible layout using four batteries 28. FIG. 4 represents one
setup with wiring connections (battery cables) 64 for achieving
the energy storage. Specifically, FIG. 4 depicts the use of four
"8-D" batteries mounted on the trailer 10. Two #4 AWG watt
battery cables 64 are attached to each battery 28. The
alternator 48 should be wired to connect to a positive terminal
of a battery 28. A ground wire should run from the alternator 48
to the remaining negative terminal of the battery 28. The type
and number of batteries 28 will vary according to the
application.

[0018] Positive and negative terminals of the
series/parallel combination of batteries 28 connect to the
inverter 40. The inverter 40 converts the direct current into
alternating current ("AC"). The illustrative version is a 30 A.
(110 AC) inverter 40 that provides AC through a 30 A outlet or
surge protector up to a total of 30 A due to the 30 A inverter.
Additionally, one may choose to install a voltage regulator 66
that regulates the current going out of the alternator 40 in
order to avoid overcharging the batteries 28. The voltage
regulator 66 would force the rotating member (axle) 42, a ring
52 and pinion rear end gear 54 as seen in FIG. 3, to obtain a
certain speed before activating the alternator 40. If the
desired speed is not met, the batteries 28 may not charge.

[0019] Finally, while the present invention has
been illustrated by description of several embodiments and while
the illustrative embodiments have been described in considerable
detail, it is not the intention of the applicant to restrict or
in any way limit the scope of the appended claims to such
detail. Additional advantages and modifications may readily
appear to those skilled in the art.

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