ELFLEET ROBERT (GB)
WO1996006749A1 | 1996-03-07 |
DE4123843A1 | 1993-01-21 | |||
US4095664A | 1978-06-20 | |||
US4199037A | 1980-04-22 | |||
EP0645271A2 | 1995-03-29 | |||
US3761987A | 1973-10-02 | |||
US4809396A | 1989-03-07 |
WICKS F ET AL: "DESIGN AND BENEFITS OF A VEHICIE THAT INTEGRATES A COMBINED INTERNAL COMBUSTION AND VAPOR CYCLE ENGINE WITH ELECTRIC DRIVE AND STORAGE", ENERGY SYSTEMS AND POLICY IMPACT ON ENERGY, RENO, AUG. 12 - 17, 1990, vol. 4, 12 August 1990 (1990-08-12), NELSON P A;SCHERTZ W W; TILL R H, pages 116 - 120, XP000214824
1. | A driven means characterized by an electric motor (4) a generator ( 1 ) to power the motor and to provide power to any ancillary items on the driven means and a gas driven engine (1) to drive the generator. |
2. | A driven means as in Claim 1, characterized in that a catalytic converter (2) is provided in the exhaust from the engine. |
3. | A driven means as in Claim 1 or Claim 2 characterized in that the electric motor (4) is directly connected to driven wheels (6) on the means. |
4. | A driven means as in Claim 1 or Claim 2, characterized in that the electric motor (4) is indirectly connected to driven wheels (6) on the means. |
5. | A driven means as in Claim 4 characterized in that the electric motor (4) is connected to the driven wheels (6) by way ofa hydrostatic drive (8). |
6. | A driven means as in any of Claims 1 to 5 characterized in that the generator and the engine (1) are separate units suitably connected. |
7. | A driven means as in any of Claims 1 to 5 characterized in that the generator and the engine are formed as a single unit (1). |
8. | A driven means as in any of Claims 1 to 7 characterized in that the generator (1) is a dynamo or an alternator. |
9. | A driven means as in any of Claims 1 to 8 characterized in that steerable front wheels (11) are provided on the means. |
10. | A driven means as in any of Claims 1 to 9 characterized in that a chassis (10) is provided on which the generator/engine (1), a gas bottle (5) for the supply of gas to the engine, the electric motor (4), the driven wheels (6), a hydrostatic transaxle (8) extending between the driven wheels, the steerable wheels (11), steering gear (15, 16, 17) for the steerable wheels and a seat (13), are all strategically mounted on the chassis. |
11. | A driven means as in Claim 10, characterized in that ancillary equipment to suit the intended purpose of the driven means are also strategically mounted on the chassis and connected as appropriate to the electric motor (4). |
12. | A driven means as in Claim 11, in the circumstance where the driven means is a caφet cleaning system, characterized in that there is strategically mounted on the chassis (10) vacuum pumps (23) with a vacuum line extending to a squeegee (21), rotating brush means (18), a clean water tank (27) and a dirty water tank (25). |
13. | A driven means as in Claim 12 characterized in that the rotating brush means and the squeegee are vertically adjustable. |
This invention relates to motor driven means.
There are many forms of equipment where a motor is required to provide a motive force, and where electrical power is required to activate various items of ancillary equipment. For use
outdoors a variety of petrol, diesel and electric motors are known. Small items of equipment can
utilise an engine with a simple clutch and direct drive to driven wheels, with a relatively small battery provided to power ancillary equipment. Equally, a relatively small battery can be used to power an electric motor with a direct drive to driven wheels, and the same battery used to power ancillary equipment. However, with equipment of any appreciable size, larger and more
powerful engines are needed with attendant clutch and reduction gearing between the motor and
the driven wheels. Alternatively large and/or multiple banks of batteries are needed. Petrol and diesel engines are environmentally unfriendly, and large and/or multiple banks of batteries have limited life between charges, and give the equipment involved a limited range.
In addition to the above, there are the problems that need to be attended to when heavy equipment is required to be used indoors. In large establishment such as airport terminals and
hospitals there are transport means for passengers and patients, and for equipment. Here, petrol and diesel engines cannot be used because of the pollutants emitted from their exhausts. This limits
choice to battery powered vehicles with their limited range and need to be recharged. Other
equipment albeit heavy has hitherto been powered from mains, with the inconvenience of trailing
cables and the need for multiple power points. One example of such equipment is heavy duty carpet
cleaning machines, that hitherto have been pulled across a carpet by an operative, with either mains
power or heavy duty batteries driving the cleaning equipment.
It has long been known that gas can be used as the fuel for engines, with the advantage that
the exhaust emissions are substantially free of harmful constituents, which can be reduced still further
with the fitting of such as a catalytic converter, but only recently has a small and efficient gas engine been produced that can be used to drive a generator, and provide an alternate form of portable
generator to compete with known small petrol and diesel engined portable generators.
The object ofthe invention is to provide a driven equipment that avoids the limited range of
known battery driven types and can be used indoors with ample electrical power to provide mobility and to drive all ancillary items on the equipment.
According to the present invention, a driven means comprises an electric motor connected to
driven wheels, a generator to power the motor and to provide power to any ancillary items on the
equipment, and a gas driven engine to drive the generator.
The electric motor may be directly connected to the driven wheels such as by way ofa chain or belt, or may be indirectly connected to the driven wheels such as by way ofa hydrostatic or the like drive. Equally, the generator which may for example be a dynamo or an alternator may be separate from and suitably connected to the gas driven engine, or the gas driven engine and the generator may be an integrated unit.
In an outdoor usage, a driven means ofthe invention can be used in place of considerable forms of battery driven equipment at present known and used, but with no limit to the range ofthe
equipment, and with the ability of the generator to drive ancillary equipment such as lights, and
possibly a freezer when the equipment is such as a milk float. Equally, and taking advantage of the
benefit of low emission levels in respect of both sound and pollutants, it can be used in place of some
forms of petrol or diesel engined equipment, without the cost penalty of clutches and gearboxes.
Of potentially greater importance is the ability of such equipment to be used indoors, both for
the carrying of people and equipment, and for the powering of equipment that has hitherto been
manually handled. With a tractor unit pulling trailers with seats for passengers, or for carrying
goods, the range provided by a conventional large gas bottle is considerable, and a spare gas bottle can easily be carried, and the range ofthe equipment doubled.
Such a gas fuelled internal combustion engine and generator provides for the first time a means
of providing motive power to equipment that has hitherto had the disadvantage of requiring a
considerable strength on the part ofthe operative, and trailing wires from the nearest power point. By providing such equipment with an electric motor connected to driven wheels, and a gas fuelled internal combustion engine and generator, an operative can walk with the equipment only being
required to steer it, or the equipment can be structured such as to allow the operative to ride the
equipment, and the equipment provided with steerable wheels. Not only can the generator provide a sufficient power for the drive motor, but also to power all ancillary items.
A typical example of such equipment is an industrial caφet cleaner that hitherto has had to be pushed or pulled by the operative, and given the nature of industrial carpet cleaners, they are ofa considerable weight requiring a considerable effort by the operative to move the cleaner across a
carpeted area. With the invention, it will be possible to provide a tractor means with a sit-on driver facility, the tractor means being provided with all required manual controls. Also located on the tractor means is an electric motor of a sufficient power to enable it to drive such as the driven wheels of the driven means e.g. by way of a belt drive, the motor being controlled by such as
rheostat to enable the direct drive ofthe axle without the need for any intervening clutch or gearing,
the motor being switchable to provide for forward and rearward drive. Equally, the drive may be
by way ofa hydrostatic transaxle able to control the speed and direction of travel without the need for any intervening clutch or gearing. The power requirement for the motor is provided by a
generator strategically positioned on the tractor means, the generator having an attendant liquid
petroleum gas source. The liquid petroleum gas can be contained in conventional gas bottles such
as are currently readily available with one or more such gas bottles positioned on the tractor means.
Either on the tractor means or on a trailer attached to the tractor are all ofthe required facilities to enable the cleaning of carpets such as the power supply of water/detergents from suitable tanks,
vacuum extraction means for the removal of surplus water, driven brushes etc. Given the nature
of the generator, arrangements will be made for its air cooling. Thus, the generator may be
contained in a housing having an air inlet and an air outlet with two essential further advantages thereby being provided, first the still further reduction in noise from what is already a quieter drive for a generator than with current conventional portable generators, and the warm air produced by
the cooling ofthe generator can be directed from the outlet from the housing to the carpet area that is being cleaned, to provide a drying effect on the carpet.
Three embodiments of the invention will now be described with reference to the accompanying drawings in which:
Figure 1 is a schematic representation of a driven means in accordance with the invention with a direct drive from the electric motor to the driven wheels;
Figure 2 corresponds to Figure 1 but illustrates a driven means with an indirect drive from the electric motor to the driven wheels; and
Figure 3 is a schematic side elevation of a driven means in accordance with the invention
adapted as a carpet cleaning machine;
In Figures 1 and 2 a driven means is illustrated having an internal combustion engine
combined with an electric generator 1 the exhaust system of which has a catalytic convertor 2 and a silencer box and attendant tail pipe 3. An electric motor 4 is provided to be driven by current
produced by the generator, and a gas bottle 5 is provided for the supply of gas to the internal
combustion engine. It is preferred that a second gas bottle is also provided with an appropriate
switching means between the gas bottles to connect the second gas bottle to the engine as the first
gas bottle becomes exhausted.
As is indicated in Figure 1, the electric motor 4 powered by the generator is directly connected to at least one driven wheel 6 by a drive belt 7, whereas as is indicated in Figure 2 the electric motor 4 powered by the generator is indirectly connected to at least one drive wheel 6 by a hydrostatic transaxle 8 driven from the electric motor by a belt drive 9. The wheels 6 ofthe driven means are mounted on a chassis 10 on which front steerable wheels 11 are provided.
In this basic form of construction, a driven device is provided the pollution and noise levels of which are more than adequate to enable the device to be employed indoors.
Figures 3 and 4 illustrate an adaptation ofthe driven device of Figures 1 and 2 as a caφet cleaning machine.
In addition to the items identified in Figures 1 and 2, there is mounted on the chassis 10 a support structure 12 on which is mounted a seat 13 for the operative. In front of the seat and mounted on the forward end ofthe chassis is a steering wheel connected to the front wheels 11 by way ofa steering column 15, a steering plate 16 and a steering hub 17. To enable the device to serve as a caφet cleaning machine, a transverse cylindrical brush 18 is provided attached to a drive motor 19 in a housing 20 secured rearwardly ofthe chassis, and on the housing is mounted a squeegee 21 to which is attached a vacuum hose 22 leading to vacuum pumps 23 in a housing 24 mounted on the support structure 12, behind the driver's seat, which vacuum pumps are associated with a dirty water tank 25.
Also mounted rearwardly ofthe chassis are water jets 26 connected to a clean water tank 27 attached below the support structure, by a pipe 26A with, desirably, a water pump in the supply line 26A.
The transaxle 8 being connected to the drive motor by a drive belt, it enable the drive (rear) wheels to be driven without the need for any interposed clutch or gear box, in both the forward and
the reverse directions determined by the direction of drive ofthe drive motor 4, at the discretion of
the operative using a foot pedal lever 28 to control the motor both as to its direction and speed.
In use, both a wet, cleaning of a caφet, and a dry vacuum cleaning of a caφet can be
provided for. In the first instance, the brush 18 can be activated, and the vacuum pumps 23 switched
on, when the squeegee 21 serves as an extraction nozzle. With water sprayed on to the caφet in advance of the brush, the carpet is scrubbed by the brush, and excess water is extracted from the caφet by the squeegee and deposited in the dirty water tank.
In the second instance, the driven means as illustrated in Figure 3 is kept substantially in its
entirety, but with the squeegee removed and the brush housing replaced by one connected to the
vacuum pumps, when the brush housing serves as a vacuum nozzle to remove dirt and debris dislodged from the caφet by the brush.
All ofthe ancilliary equipment mounted on the chassis may be contained within a housing 29 of an appropriate plastics material both for appearance and to provide sound and heat insulation.
Also to reduce noise and to provide added comfort to the operative, the front and rear wheels ofthe device may be cushion wheels or wheels provided with pneumatic tyres.