Hydraulic pressure control apparatus and method for vehicular automatic transmission
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16H-061/00
F16H-061/26
출원번호
US-0635573
(2003-08-07)
우선권정보
JP-0232583 (2002-08-09)
§371/§102 date
20030722
(20030722)
발명자
/ 주소
Miyata, Hideki
Hojo, Yasuo
Iijima, Yoshihiro
Fukaya, Naoyuki
Yamamoto, Haruki
Suzuki, Fuminori
출원인 / 주소
Toyota Jidosha Kabushiki Kaisha
대리인 / 주소
Oblon, Spivak, McClelland, Maier &
인용정보
피인용 횟수 :
11인용 특허 :
6
초록▼
A switching valve is provided which operates hydraulic friction engaging elements in a combination to establish a fifth speed “5th” when in a first position, and in a combination to establish a third speed “3rd” when in a second position, when a first electromagnetic valve to a fifth electromagnetic
A switching valve is provided which operates hydraulic friction engaging elements in a combination to establish a fifth speed “5th” when in a first position, and in a combination to establish a third speed “3rd” when in a second position, when a first electromagnetic valve to a fifth electromagnetic valve fail so as to stop operating. As a result, in the event of failure while driving, the fifth speed “5th” is first established to enable the vehicle to continue running. Then, when the position of a manual valve is changed by an operation by the driver when the vehicle is stopped or the like, the switching valve shifts a transmission into the third speed “3rd”, which has a larger gear ratio than the fifth speed “5th”, to ensure the driving force required to take off again.
대표청구항▼
1. A hydraulic pressure control apparatus for an automatic transmission for a vehicle, comprising:a plurality of hydraulic friction engaging devices which are selectively operated to selectively establish a speed of the automatic transmission; a plurality of electromagnetic control valve devices whi
1. A hydraulic pressure control apparatus for an automatic transmission for a vehicle, comprising:a plurality of hydraulic friction engaging devices which are selectively operated to selectively establish a speed of the automatic transmission; a plurality of electromagnetic control valve devices which change a combination of the plurality of hydraulic friction engaging devices being operated so as to selectively establish a first predetermined speed and a second predetermined speed; a driving state switching valve switched by an operation by a driver, which switches a driving state of the automatic transmission by supplying a hydraulic fluid fed under pressure from a hydraulic pump to a predetermined hydraulic fluid path; and a switching valve which is switched from a first position to a second position according to a change in a position of the driving state switching valve when all of the plurality of electromagnetic control valve devices stop working, the switching valve operating the hydraulic friction engaging devices in a combination to establish the first predetermined speed when in the first position, and in a combination to establish the second predetermined speed when in the second position. 2. The apparatus according to claim 1, wherein the switching valve is switched from the first position to the second position when hydraulic pressure for driving the vehicle forward stops being output due to a change in the position of the driving state switching valve.3. The apparatus according to claim 1, wherein the switching valve is switched from the first position to the second position when hydraulic pressure for driving the vehicle in reverse is output due to a change in the position of the driving state switching valve.4. The apparatus according to claim 1, wherein the hydraulic friction engaging devices include a first clutch, a second clutch, a first brake, a second brake, and a third brake; the first predetermined speed is established by engaging the second clutch and the third brake in combination, and the second predetermined speed is established by engaging the first clutch and the third brake in combination; the plurality of electromagnetic control valve devices include a normally closed type first clutch control valve, a normally open type second clutch control valve, a normally closed type first brake control valve, a normally closed type second brake control valve, and a normally open type third brake control valve; the driving state switching valve prohibits output of hydraulic pressure when a shift lever is shifted to an N position and allows the output of a D range hydraulic pressure when the shift lever is shifted to a D position; and the switching valve switches the output of the D range hydraulic pressure so as to engage the second clutch when in the first position, and so as to engage the first clutch when in the second position.5. A hydraulic pressure control apparatus for an automatic transmission for a vehicle, comprising:a plurality of hydraulic friction engaging devices which are selectively operated to selectively establish a speed of the automatic transmission; a plurality of electromagnetic control valve devices which change a combination of the plurality of hydraulic friction engaging devices being operated so as to selectively establish a first predetermined speed and a second predetermined speed by; a driving state switching valve which switches a driving state of the automatic transmission by supplying an hydraulic fluid fed under pressure from a hydraulic pump by operation of an engine to a predetermined hydraulic fluid path; and a switching valve which is switched from a first position to a second position according to a change in an operating state of the hydraulic pump when all of the plurality of electromagnetic control valve devices stop working, the switching valve operating the hydraulic friction engaging devices in a combination to establish the first predetermined speed when in the first position, and in a combination to establish the second predetermined speed when in the second position. 6. The apparatus according to claim 5, wherein the switching valve is switched from the first position to the second position when a line hydraulic pressure stops being output due to operation of the hydraulic pump stopping.7. The apparatus according to claim 5, wherein the switching valve is switched from the first position to the second position according to a change in the position of the driving state switching valve.8. The apparatus according to claim 5, wherein the hydraulic friction engaging devices include a first clutch, a second clutch, a first brake, a second brake, and a third brake; the first predetermined speed is established by engaging the second clutch and the third brake in combination, and the second predetermined speed is established by engaging the first clutch and the third brake in combination; the plurality of electromagnetic control valve devices include a normally closed type first clutch control valve, a normally open type second clutch control valve, a normally closed type first brake control valve, a normally closed type second brake control valve, and a normally open type third brake control valve; the driving state switching valve prohibits output of hydraulic pressure when a shift lever is shifted to an N position and allows the output of a D range hydraulic pressure when the shift lever is shifted to a D position; and the switching valve switches the output of the D range hydraulic pressure so as to engage the second clutch when in the first position, and so as to engage the first clutch when in the second position.9. A hydraulic pressure control method for an automatic transmission for a vehicle, including a plurality of hydraulic friction engaging devices which arc selectively operated to selectively establish a speed of the automatic transmission, a plurality of electromagnetic control valve devices which change a combination of the plurality of hydraulic friction engaging devices being operated so as to selectively establish a first predetermined speed and a second predetermined speed, a driving state switching valve switched by an operation by a driver, which switches a driving state of the automatic transmission by supplying a hydraulic fluid fed under pressure from a hydraulic pump to a predetermined hydraulic fluid path, and a switching valve which operates the hydraulic friction engaging devices, comprising the steps of:switching the switching valve from a first position to a second position according to a change in a position of the driving state switching valve when all of the plurality of electromagnetic control valve devices stop working; and operating the hydraulic friction engaging devices in a combination to establish the first predetermined speed when in the first position, and in a combination to establish the second predetermined speed when in the second position. 10. The method according to claim 9, wherein the switching valve is switched from the first position to the second position when hydraulic pressure for driving the vehicle forward stops being output due to a change in the position of the driving state switching valve.11. The method according to claim 9, wherein the switching valve is switched from the first position to the second position when hydraulic pressure for driving the vehicle in reverse is output due to a change in the position of the driving state switching valve.12. The method according to claim 9, wherein the hydraulic friction engaging devices include a first clutch, a second clutch, a first brake, a second brake, and a third brake; the first predetermined speed is established by engaging the second clutch and the third brake in combination, and the second predetermined speed is established by engaging the first clutch and the third brake in combination; the plurality of electromagnetic control valve devices include a normally closed type first clutch control valve, a normally open type second clutch control valve, a normally closed type first brake control valve, a normally closed type second brake control valve, and a normally open type third brake control valve; the driving state switching valve prohibits output of hydraulic pressure when a shift lever is shifted to an N position and allows the output of a D range hydraulic pressure when the shift lever is shifted to a D position; and the switching valve switches the output of the D range hydraulic pressure so as to engage the second clutch when in the first position, and so as to engage the first clutch when in the second position.13. A hydraulic pressure control method for an automatic transmission for a vehicle, including a plurality of hydraulic friction engaging devices which are selectively operated to selectively establish a speed of the automatic transmission, a plurality of electromagnetic control valve devices which change a combination of the plurality of hydraulic friction engaging devices being operated so as to selectively establish a first predetermined speed and a second predetermined speed by, a driving state switching valve which switches a driving state of the automatic transmission by supplying an hydraulic fluid fed under pressure from a hydraulic pump by operation of an engine to a predetermined hydraulic fluid path, and a switching valve which operates the hydraulic friction engaging devices, comprising the steps of:switching the switching valve from a first position to a second position according to a change in an operating state of the hydraulic pump when all of the plurality of electromagnetic control valve devices stop working; and operating the hydraulic friction engaging devices in a combination to establish the first predetermined speed when in the first position, and in a combination to establish the second predetermined speed when in the second position. 14. The method according to claim 13, wherein the switching valve is switched from the first position to the second position when a line hydraulic pressure stops being output due to operation of the hydraulic pump stopping.15. The method according to claim 13, wherein the switching valve is switched from the first position to the second position according to a change in the position of the driving state switching valve.16. The method according to claim 13, wherein the hydraulic friction engaging devices include a first clutch, a second clutch, a first brake, a second brake, and a third brake; the first predetermined speed is established by engaging the second clutch and the third brake in combination, and the second predetermined speed is established by engaging the first clutch and the third brake in combination; the plurality of electromagnetic control valve devices include a normally closed type first clutch control valve, a normally open type second clutch control valve, a normally closed type first brake control valve, a normally closed type second brake control valve, and a normally open type third brake control valve; the driving state switching valve prohibits output of hydraulic pressure when a shift lever is shifted to an N position and allows the output of a D range hydraulic pressure when the shift lever is shifted to a D position; and the switching valve switches the output of the D range hydraulic pressure so as to engage the second clutch when in the first position, and so as to engage the first clutch when in the second position.17. A hydraulic pressure control apparatus for an automatic transmission for a vehicle, comprising:a plurality of hydraulic friction engaging devices which are adapted to be selectively operated to selectively establish a speed of the automatic transmission; a plurality of electromagnetic control valve devices which are adapted to change a combination of the plurality of hydraulic friction engaging devices being operated so as to selectively establish a first predetermined speed and a second predetermined speed; a driving state switching valve adapted to be switched by an operation by a driver, to switch a driving state of the automatic transmission by supplying a hydraulic fluid fed under pressure from a hydraulic pump to a predetermined hydraulic fluid path; and a switching valve adapted to control operation of the hydraulic friction engaging devices in combination to selectively establish at least said first and second predetermined speeds, wherein upon failure of at least one of the electromagnetic control valve devices when the switching valve is in a first position, the switching valve is maintained in the first position to establish said first predetermined speed and wherein, upon the driving state switching valve subsequently changing position during failure of at least one of the electromagnetic control valve devices, the switching valve switches to a second position to establish the second predetermined speed. 18. The apparatus according to claim 17, wherein the switching valve is switched from the first position to the second position when hydraulic pressure for driving the vehicle forward stops being output due to a change in the position of the driving state switching valve.19. The apparatus according to claim 17, wherein the switching valve is switched from the first position to the second position when hydraulic pressure for driving the vehicle in reverse is output due to a change in the position of the driving state switching valve.20. The apparatus according to claim 17, wherein the hydraulic friction engaging devices include a first clutch, a second clutch, a first brake, a second brake, and a third brake; the first predetermined speed is established by engaging the second clutch and the third brake in combination, and the second predetermined speed is established by engaging the first clutch and the third brake in combination; the plurality of electromagnetic control valve devices include a normally closed type first clutch control valve, a normally open type second clutch control valve, a normally closed type first brake control valve, a normally closed type second brake control valve, and a normally open type third brake control valve; the driving state switching valve prohibits output of hydraulic pressure when a shift lever is shifted to an N position and allows the output of a D range hydraulic pressure when the shift lever is shifted to a D position; and the switching valve switches the output of the D range hydraulic pressure so as to engage the second clutch when in the first position, and so as to engage the first clutch when in the second position.21. A hydraulic pressure control apparatus for an automatic transmission for a vehicle, comprising:a plurality of hydraulic friction engaging devices which are adapted to be selectively operated to selectively establish a speed of the automatic transmission; a plurality of electromagnetic control valve devices which is adapted to change a combination of the plurality of hydraulic friction engaging devices being operated so as to selectively establish a first predetermined speed and a second predetermined speed by; a driving state switching valve which is adapted to switch a driving state of the automatic transmission by supplying an hydraulic fluid fed under pressure from a hydraulic pump by operation of an engine to a predetermined hydraulic fluid path; and a switching valve adapted to control operation of the hydraulic friction engaging devices in combination to selectively establish at least said first and second predetermined speeds, wherein upon failure of at least one of the electromagnetic control valve devices when the switching valve is in a first position, the switching valve is maintained in the first position to establish said first predetermined speed and wherein, upon a change in an operating state of the hydraulic pump during failure of at least one of the electromagnetic control valve devices, the switching valve switches to a second position to establish the second predetermined speed. 22. The apparatus according to claim 21, wherein the switching valve is switched from the first position to the second position when a line hydraulic pressure stops being output due to operation of the hydraulic pump stopping.23. The apparatus according to claim 21, wherein the switching valve is switched from the first position to the second position according to a change in the position of the driving state switching valve.24. The apparatus according to claim 21, wherein the hydraulic friction engaging devices include a first clutch, a second clutch, a first brake, a second brake, and a third brake; the first predetermined speed is established by engaging the second clutch and the third brake in combination, and the second predetermined speed is established by engaging the first clutch and the third brake in combination; the plurality of electromagnetic control valve devices include a normally closed type first clutch control valve, a normally open type second clutch control valve, a normally closed type first brake control valve, a normally closed type second brake control valve, and a normally open type third brake control valve; the driving state switching valve prohibits output of hydraulic pressure when a shift lever is shifted to an N position and allows the output of a D range hydraulic pressure when the shift lever is shifted to a D position; and the switching valve switches the output of the D range hydraulic pressure so as to engage the second clutch when in the first position, and so as to engage the first clutch when in the second position.25. A hydraulic pressure control method for an automatic transmission for a vehicle, including a plurality of hydraulic friction engaging devices which are adapted to be selectively operated to selectively establish a speed of the automatic transmission, a plurality of electromagnetic control valve devices which are adapted to change a combination of the plurality of hydraulic friction engaging devices being operated so as to selectively establish a first predetermined speed and a second predetermined speed, a driving state switching valve adapted to be switched by an operation by a driver, to switch a driving state of the automatic transmission by supplying a hydraulic fluid fed under pressure from a hydraulic pump to a predetermined hydraulic fluid path, and a switching valve adapted to operate the hydraulic friction engaging devices, comprising the steps of:maintaining the switching valve in a first position when the switching valve is in the first position upon failure of at least one of the electromagnetic control valve devices; switching the switching valve from a first position to a second position upon the driving state switching valve subsequently changing position during failure of at least one of the electromagnetic control valve devices; and operating the hydraulic friction engaging devices in a combination to establish the first predetermined speed when the switching valve is in the first position, and in a combination to establish the second predetermined speed when the switching valve is in the second position. 26. The method according to claim 25, wherein the switching valve is switched from the first position to the second position when hydraulic pressure for driving the vehicle forward stops being output due to a change in the position of the driving state switching valve.27. The method according to claim 25, wherein the switching valve is switched from the first position to the second position when hydraulic pressure for driving the vehicle in reverse is output due to a change in the position of the driving state switching valve.28. The method according to claim 25, wherein the hydraulic friction engaging devices include a first clutch, a second clutch, a first brake, a second brake, and a third brake; the first predetermined speed is established by engaging the second clutch and the third brake in combination, and the second predetermined speed is established by engaging the first clutch and the third brake in combination; the plurality of electromagnetic control valve devices include a normally closed type first clutch control valve, a normally open type second clutch control valve, a normally closed type first brake control valve, a normally closed type second brake control valve, and a normally open type third brake control valve; the driving state switching valve prohibits output of hydraulic pressure when a shift lever is shifted to an N position and allows the output of a D range hydraulic pressure when the shift lever is shifted to a D position; and the switching valve switches the output of the D range hydraulic pressure so as to engage the second clutch when in the first position, and so as to engage the first clutch when in the second position.29. A hydraulic pressure control method for an automatic transmission for a vehicle, including a plurality of hydraulic friction engaging devices which are adapted to be selectively operated to selectively establish a speed of the automatic transmission, a plurality of electromagnetic control valve devices which are adapted to change a combination of the plurality of hydraulic friction engaging devices being operated so as to selectively establish a first predetermined speed and a second predetermined speed by, a driving state switching valve adapted to switch a driving state of the automatic transmission by supplying an hydraulic fluid fed under pressure from a hydraulic pump by operation of an engine to a predetermined hydraulic fluid path, and a switching valve adapted to operate the hydraulic friction engaging devices, comprising the steps of:maintaining the switching valve in a first position when the switching valve is in the first position upon failure of at least one of the electromagnetic control valve devices; switching the switching valve from a first position to a second position upon a change in an operating state of the hydraulic pump during failure of at least one of the electromagnetic control valve devices during failure of at least one of the electromagnetic control valve devices; and operating the hydraulic friction engaging devices in a combination to establish the first predetermined speed when the switching valve is in the first position, and in a combination to establish the second predetermined speed when the switching valve is in the second position. 30. The method according to claim 29, wherein the switching valve is switched from the first position to the second position when a line hydraulic pressure stops being output due to operation of the hydraulic pump stopping.31. The method according to claim 29, wherein the switching valve is switched from the first position to the second position according to a change in the position of the driving state switching valve.32. The method according to claim 29, wherein the hydraulic friction engaging devices include a first clutch, a second clutch, a first brake, a second brake, and a third brake; the first predetermined speed is established by engaging the second clutch and the third brake in combination, and the second predetermined speed is established by engaging the first clutch and the third brake in combination; the plurality of electromagnetic control valve devices include a normally closed type first clutch control valve, a normally open type second clutch control valve, a normally closed type first brake control valve, a normally closed type second brake control valve, and a normally open type third brake control valve; the driving state switching valve prohibits output of hydraulic pressure when a shift lever is shifted to an N position and allows the output of a D range hydraulic pressure when the shift lever is shifted to a D position; and the switching valve switches the output of the D range hydraulic pressure so as to engage the second clutch when in the first position, and so as to engage the first clutch when in the second position.
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이 특허에 인용된 특허 (6)
Tooru Takahashi JP, Control apparatus for automatic transmission of vehicle.
Kim, Tae-Kyun; Jang, Jae-Duk; Park, Jong-Sool; Shim, Hyun-Soo; Lee, Jin-Hee; Lee, Chang-Wook, Hydraulic control system for automotive automatic transmission.
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