초록 ▼

A suspension system for a vehicle includes a right front wheel, a left front wheel, a right rear wheel and a left rear wheel. A suspension system for the vehicle includes a first cylinder supporting the vehicle at the right front wheel in fluid communication with a second cylinder supporting the veh

A suspension system for a vehicle includes a right front wheel, a left front wheel, a right rear wheel and a left rear wheel. A suspension system for the vehicle includes a first cylinder supporting the vehicle at the right front wheel in fluid communication with a second cylinder supporting the vehicle at the left front wheel, wherein the first and second cylinders form a virtual articulated front axle. The suspension system also includes a third cylinder supporting the vehicle at the right rear wheel and a fourth cylinder supporting the vehicle at the left rear wheel. The suspension system includes two spool valves in fluid communication with the first and second cylinders and intermediate the first and second cylinders. When one of the rear wheels is unweighted, an associate one of the spool valves closes and fluid flow between the first and second cylinders is blocked to create a virtual locked axle.

대표청구항 ▼

1. A suspension system for a vehicle having a right front wheel, a left front wheel, a right rear wheel and a left rear wheel; the system comprising: a first cylinder supporting the vehicle at the right front wheel in fluid communication with a second cylinder supporting the vehicle at the left fron

1. A suspension system for a vehicle having a right front wheel, a left front wheel, a right rear wheel and a left rear wheel; the system comprising: a first cylinder supporting the vehicle at the right front wheel in fluid communication with a second cylinder supporting the vehicle at the left front wheel, wherein the first and second cylinders form a virtual articulated front axle;a third cylinder supporting the vehicle at the right rear wheel and a fourth cylinder supporting the vehicle at the left rear wheel;at least one locking valve in fluid communication with the first and second cylinders and intermediate the first and second cylinders; anda sensor associated with the rear wheels sensing whether weight is on the wheels, wherein the sensor closes the locking valve when the sensor senses that there is a substantial decrease in weight on one of the rear wheels. 2. A suspension system according to claim 1, wherein the locking valve a spool valve. 3. A suspension system according to claim 1, wherein the sensor comprises a spring in the spool valve. 4. A suspension system according to claim 1, wherein the first and third cylinders are extended and refracted independently of the second and fourth cylinders. 5. A suspension system according to claim 1, wherein upon closing the locking valve, the virtual articulated front axle behaves as a virtual locked front axle. 6. A suspension system according to claim 1, wherein the locking valves comprise spool valves biased to a closed position when not actuated. 7. A suspension system according to claim 1, wherein the spool valve is biased toward an open position when not actuated. 8. A suspension system for a vehicle, a right first wheel, a left first wheel, a right second wheel and a left second wheel; the system comprising: a first cylinder supporting the vehicle at the right first wheel in fluid communication with a second cylinder supporting the vehicle at the left first wheel, wherein the first and second cylinders form a virtual articulated first axle;a third cylinder supporting the vehicle at the right second wheel and a fourth cylinder supporting the vehicle at the left second wheel;one or more locking valves in fluid communication with the first and second cylinders and intermediate the first and second cylinders; anda sensor associated with the second wheels sensing whether weight is on the wheels, wherein the sensor closes the locking valve when the sensor senses that there is no weight on one of the second wheels. 9. A suspension system according to claim 8, wherein the locking valve a spool valve. 10. A suspension system according to claim 8, wherein the sensor comprises a spring in the spool valve. 11. A suspension system according to claim 8, wherein the first and third cylinders are extended and refracted independently of the second and fourth cylinders. 12. A suspension system according to claim 8, wherein upon closing the locking valve, the virtual articulated front axle behaves as a virtual locked front axle. 13. A suspension system according to claim 8, wherein the locking valves comprise spool valves biased to an open position when not actuated. 14. A vehicle, comprising: a right front wheel, a left front wheel, a right rear wheel and a left rear wheel;a suspension system comprising: a first cylinder supporting the vehicle at the right front wheel in fluid communication with a second cylinder supporting the vehicle at the left front wheel, wherein the first and second cylinders form a virtual articulated front axle;a third cylinder supporting the vehicle at the right rear wheel and a fourth cylinder supporting the vehicle at the left rear wheel;a locking valve in fluid communication with the first and second cylinders and intermediate the first and second cylinders; anda sensor associated with the rear wheels sensing whether weight is on the wheels, wherein the sensor closes the locking valve when the sensor senses that there is no weight on one of the rear wheels. 15. A vehicle according to claim 14, wherein the locking valve a spool valve. 16. A vehicle according to claim 14, wherein the sensor comprises a spring in the spool valve. 17. A vehicle according to claim 14, wherein the first and third cylinders are extended and retracted independently of the second and fourth cylinders. 18. A vehicle according to claim 14, wherein upon closing the locking valve, the virtual articulated front axle behaves as a virtual locked front axle. 19. A vehicle according to claim 14, wherein the locking valves comprise spool valves biased to a closed position when not actuated. 20. A method for leveling a vehicle, the vehicle having a chassis, a first wheel and an associated first telescoping hydraulic cylinder supporting the chassis, a second wheel and an associated second telescoping hydraulic cylinder supporting the chassis, a third wheel and an associated third telescoping hydraulic cylinder supporting the chassis, and a fourth wheel and an associated fourth telescoping hydraulic cylinder supporting the chassis; the first and second wheels defining a first set of wheels, the third and fourth wheels defining a second set of wheels; the method comprising: providing a valve arrangement providing for extending and retracting the first, second, third and fourth cylinders; wherein the first and third hydraulic cylinders are fluidly connected and extend and retract together to level the vehicle; and wherein the second and fourth hydraulic cylinders are fluidly connected and extend and retract together to level the vehicle; wherein the first and second cylinders are fluidly connected and extension of one of the first or second cylinders retracts the other of the first and second cylinders to simulate a floating axle in a first mode; anddetermining whether there is a predetermined weight on third or fourth wheels, and if there is not a predetermined weight on one of the wheels, closing fluid flow between the first and second cylinders. 21. A method according to claim 20, wherein the valve arrangement comprises a spool valve. 22. A method according to claim 21, wherein the determining comprises comparing whether the weight on one of the third or fourth wheels is less than the weight on the first and second wheels. 23. A method according to claim 20, comprising extending and retracting the first and third cylinders independently of the second and fourth cylinders. 24. A method according to claim 20, wherein upon closing the locking valve, the virtual articulated front axle behaves as a virtual locked front axle. 25. A method according to claim 20, wherein the valve arrangement creates a virtual floating axle between the first and second cylinders create when the valve arrangement is actuated and wherein the valve arrangement creates a virtual locked axle between the first and second cylinders when the valve arrangement is unactuated.