Hydrostatic pump and motor with improved torque reversal characteristics
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16H-039/00
F16H-061/40
출원번호
US-0255350
(2008-10-21)
등록번호
US-8205444
(2012-06-26)
발명자
/ 주소
Kuras, Brian D.
Cronin, Michael G.
DeMarco, Frank Anthony
Bowman, Tyler
출원인 / 주소
Caterpillar Inc.
대리인 / 주소
Leydig, Voit & Mayer
인용정보
피인용 횟수 :
1인용 특허 :
13
초록▼
A system and method for variator control employs positively directed electronic make-up and flushing relief valves for more precise torque control of a hydraulic variator, especially during torque reversal, as well as improved cold weather operation. This can improve machine response during periods
A system and method for variator control employs positively directed electronic make-up and flushing relief valves for more precise torque control of a hydraulic variator, especially during torque reversal, as well as improved cold weather operation. This can improve machine response during periods of severe torque change. The ability to more tightly control variator torque allows more precise torque management algorithms for power control and engine matching purposes. Moreover, the ability to positively control venting of the hydraulic circuit for purposes of fluid cooling allows for more consistent machine response regardless of ambient temperature.
대표청구항▼
1. A hydraulic variator system for improved torque reversal performance, the variator system including a hydraulic variator pump linked to a hydraulic variator motor via a hydraulic circuit, the hydraulic circuit comprising: a first hydraulic line connecting the hydraulic variator pump to the hydrau
1. A hydraulic variator system for improved torque reversal performance, the variator system including a hydraulic variator pump linked to a hydraulic variator motor via a hydraulic circuit, the hydraulic circuit comprising: a first hydraulic line connecting the hydraulic variator pump to the hydraulic variator motor; a second separate hydraulic line connecting the hydraulic variator pump to the hydraulic variator motor; a make-up hydraulic circuit bridging the first hydraulic line and the second hydraulic line, wherein the make-up hydraulic circuit includes first and second electronically actuatable valves having mutually exclusive open states such that when one of the first and second electronically actuatable valves is open, the other of the first and second electronically actuatable valves is closed, the first and second electronically actuatable valves reversing states in response to an electronic signal slightly prior to a torque reversal, the first electronically actuatable valve linking the first hydraulic line to a fluid source and the second electronically actuatable valve linking the second hydraulic line to the fluid source; and a flushing cooling circuit comprising a three-way valve for selectively flushing fluid from the first hydraulic line and the second hydraulic line. 2. The hydraulic variator system according to claim 1, wherein the electronically actuatable three-way valve for selectively flushing fluid from the first hydraulic line and the second hydraulic line has a first state wherein the first hydraulic line is linked to a fluid cooling facility, a second state wherein the second hydraulic line is linked to the fluid cooling facility, and a third state wherein both the first and second hydraulic lines are isolated from the fluid cooling facility. 3. The hydraulic variator system according to claim 2, wherein at least the first and second states of the electronically actuatable three-way valve are proportional states. 4. The hydraulic variator system according to claim 2, further including a controller for operating the electronically actuatable three-way valve, the controller having associated therewith a non-transitory computer-readable medium having recorded thereon computer-executable instructions including: instructions for monitoring a variator temperature; and instructions for operating the electronically actuatable three-way valve by allowing flushing to vent hydraulic fluid for cooling if the variator temperature exceeds a predetermined threshold and otherwise preventing flushing. 5. The hydraulic variator system according to claim 1, further including two-way isolation valve in series with the three-way valve. 6. The hydraulic variator system according to claim 1, further including a controller for operating the first and second electronically actuatable valves, the controller having associated therewith a non-transitory computer-readable medium having recorded thereon computer-executable instructions including: instructions for monitoring a commanded variator torque value; instructions for monitoring a pressure of the first hydraulic circuit and the second hydraulic circuit; instructions for determining whether the torque reversal is imminent based on the monitored pressure; and instructions for reversing the state of each of the first and second electronically actuatable valves if the torque reversal is imminent and if the monitored pressure is within an acceptable range. 7. The hydraulic variator system according to claim 6, wherein the monitored pressure is within an acceptable range if it is within a predetermined proximity to zero pressure. 8. The hydraulic variator system according to claim 7, wherein the instructions for reversing the state of each of the first and second electronically actuatable valves include instructions for commanding the reversal of the state of each of the first and second electronically actuatable valves prior to the torque reversal. 9. A method for providing improved torque reversal performance in a hydraulic variator system including a hydraulic variator pump linked to a hydraulic variator motor via a hydraulic circuit having separate first and second hydraulic lines connecting the hydraulic variator pump to the hydraulic variator motor, and a make-up hydraulic circuit associated with the first and second hydraulic lines, the make-up hydraulic circuit including first and second electronically actuatable valves for supplying fluid to the first and second hydraulic lines respectively, the method comprising: monitoring a commanded variator torque value; monitoring a pressure of the first hydraulic circuit and the second hydraulic circuit; determining whether a torque reversal is imminent based on the monitored pressure; and reversing a state of each of the first and second electronically actuatable valves if a torque reversal is imminent and if the monitored pressure has crossed into a predefined dead band. 10. The method according to claim 9, wherein the predefined dead band includes a range centered on a hydraulic source pressure. 11. The method according to claim 9, wherein the step of reversing the state of each of the first and second electronically actuatable valves includes commanding a reversal of the state of each of the first and second electronically actuatable valves prior to the torque reversal. 12. The method according to claim 9, wherein the hydraulic variator system further includes an electronically actuatable three-way valve and the method further comprises monitoring a variator temperature and actuating the electronically actuatable three-way valve based on the variator temperature. 13. The method according to claim 12, wherein actuating the electronically actuatable three-way valve based on the variator temperature includes allowing flushing through the electronically actuatable three-way valve if the variator temperature exceeds a predetermined threshold and otherwise preventing flushing. 14. A non-transitory computer-readable medium having recorded thereon computer-executable instructions for providing improved torque reversal performance in a hydraulic variator system including a hydraulic variator pump linked to a hydraulic variator motor via a hydraulic circuit having separate first and second hydraulic lines connecting the hydraulic variator pump to the hydraulic variator motor, and a make-up hydraulic circuit associated with the first and second hydraulic lines, the make-up hydraulic circuit including first and second electronically actuatable valves for supplying fluid to the first and second hydraulic lines respectively, the computer-executable instructions comprising: instructions for monitoring a commanded variator torque value; instructions for monitoring a pressure of the first hydraulic circuit and the second hydraulic circuit; instructions for determining whether a torque reversal is imminent based on the monitored pressure; and instructions for reversing a state of each of the first and second electronically actuatable valves if a torque reversal is imminent and if the monitored pressure has crossed into a predefined dead band. 15. The non-transitory computer-readable medium according to claim 14, wherein the predefined dead band comprises a range centered on a hydraulic source pressure. 16. The non-transitory computer-readable medium according to claim 14, wherein the instructions for reversing the state of each of the first and second electronically actuatable valves include instructions for commanding a reversal of the state of each of the first and second electronically actuatable valves prior to the torque reversal. 17. The non-transitory computer-readable medium according to claim 14, wherein the hydraulic variator system further includes an electronically actuatable three-way valve and the computer-executable instructions further include instructions for monitoring a variator temperature and actuating the electronically actuatable three-way valve based on the variator temperature. 18. The non-transitory computer-readable medium according to claim 17, wherein the instructions for actuating the electronically actuatable three-way valve based on the variator temperature includes instructions for allowing flushing through the electronically actuatable three-way valve if the variator temperature exceeds a predetermined threshold and otherwise preventing flushing. 19. The non-transitory computer-readable medium according to claim 17, wherein the instructions for actuating the electronically actuatable three-way valve based on the variator temperature include instructions for providing a proportional digital command to the electronically actuatable three-way valve.
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이 특허에 인용된 특허 (13)
Deneir, Stephan P. G.; Young, Steven C., Control arrangement and method for a hydraulic system.
Dantlgraber Jorg (Lohr-Sackenbach DEX) Schulz Lothar (Bischbrunn DEX) Puschel Reiner (Lohr/Main DEX), Hydraulic circuit for supplying a plurality of series-operated of a hydraulically controlled installation.
Martin Wustefeld DE; Jurgen Ploog DE; Bernd Hames DE; Bernd Hanisch DE, Hydrostatic vehicle drive with control device and control device for hydrostatic drives.
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