VEHICLE TRACTION ENHANCEMENT

Abstract

A vehicle (100) comprising a plurality of wheels (106a, b) and an apparatus on a wheeled vehicle are disclosed. The vehicle, or apparatus, comprises a control system arranged to issue a signal in the event of determining that one or more wheels of the vehicle has lost, or is at risk of losing, frictional contact with a road surface (104). The vehicle, or apparatus, further comprises a gas source arranged to supply a burst of gas upon said signal being issued. At least one gas outlet (112) is connected to said gas source and is arranged to direct said burst of gas so as to clear water and/or debris from the road surface in front of at least one of the wheels.

Claims

1. A vehicle comprising: a plurality of wheels; a control system arranged to issue a signal in the event of determining that one or more wheels of the vehicle has lost, or is at risk of losing, frictional contact with a road surface; a gas source arranged to supply a burst of gas upon said signal being issued; and at least one gas outlet connected to said gas source and arranged to direct said burst of gas so as to clear water and/or debris from the road surface in front of at least one of the wheels.

2. Apparatus on a wheeled vehicle comprising: a control system arranged to issue a signal in the event of determining that one or more wheels of the vehicle has lost, or is at risk of losing, frictional contact with a road surface; a gas source arranged to supply a burst of gas upon said signal being issued; and at least one gas outlet connected to said gas source and arranged to direct said burst of gas so as to clear water and/or debris from the road surface in front of at least one of the wheels.

3. The vehicle according to claim 1 or apparatus according to claim 2, wherein the gas source comprises exhaust gasses from a pyrotechnic explosion.

4. The vehicle or apparatus according to any preceding claim, comprising one or more further gas outlets arranged to direct a or the burst of gas so as to clear water and/or debris from the road surface in front of all of the wheels which are directly driven.

5. The vehicle or apparatus according to any preceding claim, wherein the gas outlet is arranged on a mounting so as to be movable towards and away from the road surface.

6. The vehicle or apparatus as claimed in claim 5 wherein said mounting is controlled by the control system.

7. The vehicle or apparatus according to any preceding claim wherein the gas source is single use and replaceable.

8. The vehicle or apparatus according to any preceding claim, comprising a further gas source arranged to supply gas to said gas outlet or a further gas outlet arranged to direct said gas so as to clear water and/or debris from the road surface in front of said wheel.

9. The vehicle or apparatus according to claim 8 wherein said further gas source comprises an air intake located on the vehicle.

10. The vehicle or apparatus according to any preceding claim, wherein the gas outlet comprises a nozzle.

11. The vehicle or apparatus according to any preceding claim, wherein the gas outlet comprises a valve configured to accelerate gas.

12. The vehicle or apparatus according to any preceding claim, wherein the gas outlet comprises a de Laval nozzle.

13. The vehicle or apparatus according to any preceding claim, wherein the control system comprises an on-board camera, laser, tyre based sensor or rain sensor.

14. The vehicle or apparatus according to any preceding claim, wherein the control system is informed by data from Vehicle-to Vehicle (V2V) and Vehicle-to-Infrastructure (V2I) communication systems.

15. The vehicle or apparatus according to any preceding claim, further comprising a deflector configured to deflect water and/or debris from said road surface.

16. The vehicle or apparatus according to claim 15, wherein the gas outlet is attached to or integrated with the deflector.

17. The vehicle or apparatus according to claim 15 or 16, wherein the deflector is movable automatically towards and away from the road surface.

18. A vehicle comprising: a plurality of wheels; a gas source; at least one gas outlet connected to said gas source and arranged to direct said gas so as to clear water and/or debris from the road surface in front of at least one of the wheels; and a deflector configured to deflect water and/or debris from said road surface, wherein said gas outlet is attached to or integrated with said deflector.

19. Apparatus on a wheeled vehicle comprising; a gas source; at least one gas outlet connected to said gas source and arranged to direct said gas so as to clear water and/or debris from the road surface in front of at least one of the wheels; and a deflector configured to deflect water and/or debris from said road surface, wherein said gas outlet is attached to or integrated with said deflector.

20. The vehicle according to claim 18 or apparatus according to claim 19, wherein the gas source is arranged to supply a burst of gas.

21. The vehicle or apparatus according to any of claims 15 to 20, wherein the deflector is rotatable about a substantially vertical axis.

22. Apparatus for a wheeled vehicle comprising a control system arranged to issue a signal in the event of determining that one or more wheels of the vehicle has lost, or is at risk of losing, frictional contact with a road surface, the apparatus comprising: a gas source arranged to supply a burst of gas upon receiving said signal; and at least one gas outlet connected to said gas source and arranged to direct said burst of gas so as to clear water and/or debris from the road surface in front of at least one of the wheels.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0038] One or more non-limiting examples will now be described with reference to the accompanying drawings, in which:

[0039] FIG. 1 shows a vehicle in accordance with an embodiment of the invention;

[0040] FIG. 2 shows part of the embodiment of FIG. 1 including a gas source, a gas outlet and deflector positioned in front of a wheel;

[0041] FIG. 3 shows a cross section of the gas source and deflector of FIG. 2;

[0042] FIG. 4 shows the movement of the components of FIGS. 2 and 3 relative to the wheel; and

[0043] FIGS. 5A and 5B show front and top views respectively of another embodiment providing movement of water and/or debris to the side of the road.

[0044] FIG. 1 shows a side view of a vehicle 100 embodying the invention moving in the direction of the arrow 102 along a road surface 104. The Figure shows one of the front wheels 106a and one of the rear wheels 106b. The wheels 106a,b contact the road surface 104 over respective contact patches 108. Mounted to the vehicle chassis in front of each wheel 106a,b is a gas source 110in this case a pyrotechnic gas cylinderand a gas outlet 112 which are described in greater detail hereinbelow. The pyrotechnic gas cylinder 110 is single use, removable and replaceable.

[0045] The vehicle also has a number of sensors forming part of a typical vehicle monitoring system, represented schematically by an on-board-camera 114. Such a system, may typically include a large number of sensors such as temperature sensors, wheel monitoring sensors etc.,

[0046] An additional gas source is provided by vents 116 in the vehicle's body which are designed to draw in ambient air as the vehicle is travelling.

[0047] A deflector 118 is positioned in front of each wheel 106a,b. FIG. 1 also shows diagrammatically a layer of water and/or debris 120 on the road surface.

[0048] FIG. 2 shows in more detail the pyrotechnic cylinder 110 positioned in front of a wheel 106. The pyrotechnic cylinder 110 is connected to a deflector 118 which, as is shown in FIG. 3, defines an internal chamber that acts as a plenum to distribute gas entering from the upper end to a plurality of nozzles at the lower end, forming a gas outlet 112. The plenum has a convergent-divergent, or waisted, profile to provide a de Laval nozzle shape.

[0049] Also connected to the internal chamber is a channel or conduit 124 which communicates with the vent 116 (see FIG. 1) mentioned above. The nozzles forming the gas outlet 112 direct gas from the cylinder 110 so as to clear water and/or debris from the road surface in front of the wheel 106 so as to provide a dry area 122 behind the gas outlet 112 and in front of the wheel 106.

[0050] The system shown in the Figures is provided on a four-wheeled passenger vehicle. In this embodiment four gas cylinders 110 and deflectors 118 are provided, one for each wheel 106a.b (only two of which are shown).

[0051] The deflector 118 is close enough to the road to reduce the amount of water or other debris getting to the tyree.g. approximately 5 mm. This deflector generally improves driving conditions and could be fixed or, as in this embodiment, can be deployed from a stored position to the illustrated operating position as driving conditions become worse, but before there is a need for emergency intervention.

[0052] The deflector may be constructed from a tough and resilient rubber based material appropriate to its location. The deflector may also comprise a wear resistant replaceable impact strip.

[0053] The deflector may provide a lower aerodynamic drag coefficient than the tyre itself and the overall drag force on the vehicle may thus be reduced, assisting fuel economy.

[0054] FIG. 4 shows the selective deployment of the deflector 118. In particular it shows the deflector 118 in a stored position 300 and a deployed, operating position 302.

[0055] In both the stored and deployed positions 300, 302 the deflector 118 and pyrotechnic canister 110 are positioned forward of the wheel 106.

[0056] Upon receipt of an appropriate signal from the control system, the deflector 118 can be deployed so that the gas outlet 112 is close to the road surface. A clearance of about 5 mm is envisaged as mentioned earlier.

[0057] In use information is provided from sensors 114 to a vehicle control system to control the operation of the deflectors 118 and gas sources 110. The sensors 114 can scan the road ahead to provide critical operational information describing the oncoming road conditions. Information can also be obtained from wheel rotation sensors which can, for example, determine if one or more wheels has lost grip of the road surface. This information is then provided to an on-board computer system controlling operation of the system as is described further below.

[0058] In benign driving conditions the deflector 118 will be in the stored position 300; whereas, if weather conditions deteriorate the deflector 118 can be deployed to the operating position 302. When deployed the deflector 118 is close enough to the road to reduce the amount of water and /or other debris getting to the tyre. The air entering the deflector 118 from the vents 116 via the channel 124 can provide a steady flow which is able to lift and move surface water from the road in front of the tyres albeit that it has relatively low momentum. Additional air can come from multiple sources that include conventional air vents, electric motors (where fitted to electric vehicles or hybrid electric vehicles) etc.

[0059] In the event of an emergency where the vehicle has lost frictional contact with the road, or is in imminent danger of doing so, a signal is generated by the vehicle control system and is sent to the pyrotechnic cylinder 110. Upon receiving this the cylinder 110 activates and expels a rapid burst of hot gas through the nozzle interior chamber of the deflector 118 which has a waisted section to form a de Laval nozzle. This nozzle is designed to accelerate the hot gas towards the gas outlet 112. The hot gas is then able to lift and or move the surface water 120 from the road providing a dry section of road 122 for the tyre to move along. Ideally the deflector 118 is already in its operating position when the above-mentioned signal is triggered. However if it is not, the deployment mechanism is arranged to permit forceful deployment under the force of the explosive gases from the cylinder 110.

[0060] Another embodiment will now be described with reference to FIGS. 5A and 5B. This is very similar to the previous embodiment except that the deflectors can be adjusted.

[0061] FIG. 5A shows a front view of the vehicle 400 of another embodiment on a road surface 104. Also shown are the two front wheels 406a, 406c. An arrow 410 shows the direction in which water and/or debris cleared from the road surface is moved. The arrow 410 is directed towards the side of the vehicle 400.

[0062] FIG. 5B shows a top view of the vehicle 400 also showing the front wheels 406a, c. In front of each wheel 406a,c is a deflector 402 and a deflector mounting 404. In this embodiment the deflector 402 can be rotated about the mounting 404 in order to clear water and/ or debris from the road surface in the direction of the arrow 410 towards the side of the road 408. The control system may use information from sensors on the vehicle to set the angle of rotation of the deflector 402 about the deflector mounting 404 to provide the most optimal performance.

[0063] The deflectors 402 can be adjusted and rotated to push the surface water and/or debris to the left or the right of the vehicle depending on the side of the road used for driving in the country of operation. The deflector may have a single inclined surface for deflecting water and/or debris to one side. For vehicles moving from country to country, asymmetric deflectors can be adjusted to the change in driving.

[0064] During severe weather and heavy traffic, if the majority of vehicles are fitted with such deflectors 402 the vehicles may effectively sweep water and/or debris away from the road. In this way overall road conditions may be improved for all road users who will also be exposed to less spray and have better visibility.

[0065] The development and optimisation of the system can be achieved through the use of advanced computer simulations, wind tunnel studies and ground testing. These methods can optimise the shape of the deflector and the optimal position to provide the desired sweeping effect.

[0066] Many variations and modifications of the arrangements described above may be made within the scope of the invention as defined in the attached claims.