Hydraulic control device for automatic transmission
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0546726
(2009-08-25)
|
등록번호 |
US-8224541
(2012-07-17)
|
우선권정보 |
JP-2008-255841 (2008-09-30) |
발명자
/ 주소 |
- Yoshioka, Yuhei
- Noda, Kazuyuki
- Itazu, Naoki
- Nozaki, Yoshinobu
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
8 |
초록
▼
A hydraulic control device for an automatic transmission that includes a fail-safe function to establish a fail-safe traveling state where a predetermined shift speed is established, and a fail-safe stopping state where the primary pressure to all of the hydraulic servos is cut-off when a failure oc
A hydraulic control device for an automatic transmission that includes a fail-safe function to establish a fail-safe traveling state where a predetermined shift speed is established, and a fail-safe stopping state where the primary pressure to all of the hydraulic servos is cut-off when a failure occurs. The hydraulic control device is able to switch between the fail-safe traveling state and the fail-safe stopping state even after a failure occurs, thereby enhancing a limp-mode function.
대표청구항
▼
1. A hydraulic control device for an automatic transmission, which is structured so as to establish a plurality of shift speeds by using a plurality of first system solenoid valves which are controlled by a first command system, and so as to establish a fail-safe running state where a primary pressu
1. A hydraulic control device for an automatic transmission, which is structured so as to establish a plurality of shift speeds by using a plurality of first system solenoid valves which are controlled by a first command system, and so as to establish a fail-safe running state where a primary pressure is supplied to a corresponding hydraulic servo of at least one of friction engagement elements which establishes a predetermined one of the shift speeds, or a fail-safe stopping state where a primary pressure to the hydraulic servos of all of the friction engagement elements is cut off, when a failure occurs in the first command system, the hydraulic control device, comprising a second system solenoid valve that is controlled by a second command system and that controls an output state of a signal pressures;a first computer that generates an electric command of the first command system; anda second computer in which at least wires thereof are formed in a separate system from that of the first computer, and that generates an electric command of the second command system,wherein the fail-safe traveling state and the fail-safe stopping state are switched by the signal pressure of the second system solenoid valve. 2. The hydraulic control device for an automatic transmission according to claim 1, further comprising: a second system switch valve which is switched between a supply position at which the primary pressure is supplied to the hydraulic servo of the friction engagement element which establishes the predetermined shift speed in the fail-safe traveling state and a cutoff position at which the primary pressure is cut off, based on the signal pressure of the second system solenoid valve, whereinthe fail-safe traveling state and the fail-safe stopping state are switched by switching the supply position and the cutoff position. 3. The hydraulic control device for an automatic transmission according to claim 2, wherein the first system solenoid valve includesa plurality of engagement-pressure control solenoid valves that regulate and control respective engagement pressures to be supplied to the hydraulic servos of the friction engagement elements establishing all of the shift speeds, anda fail solenoid valve that outputs a fail signal pressure when the failure occurs the hydraulic control device for an automatic transmission further comprising:a distribution switch valve that distributes an engagement pressure from one of the engagement-pressure control solenoid valves to two of the hydraulic servos;a primary-pressure switch valve which is switched from a supply position at which the primary pressure is supplied to the engagement-pressure control solenoid valves, to a reverse input position at which, when the fail signal pressure is received, a reverse input pressure is input to exhaust ports of two of the engagement-pressure control solenoid valves connected to the hydraulic servo of the friction engagement element which establishes the predetermined shift speed so that the primary pressure is supplied to the two hydraulic servos; anda reverse input oil passage that transmits the reverse input pressure from the primary-pressure switch valve to the exhaust ports of the two engagement-pressure control solenoid valves through the distribution switch valve, whereinthe distribution switch valve is controlled to be located at a first position where the engagement pressure is supplied to one of the two hydraulic servos at least in a reverse travel range, a non-travel range, and at a specific shift speed in a forward travel range, and is controlled to be located at a second position where the engagement pressure is supplied to the other hydraulic servo in other forward travel ranges, and the distribution switch valve provides a communication with the reverse input oil passage at the second position and cuts off the reverse input oil passage at the first position, andthe second system switch valve switches the fail-safe traveling state and the fail-safe stopping state by switching supply and cutoff of the reverse input pressure by switching supply and cutoff of the primary pressure to the primary-pressure switch valve. 4. The hydraulic control device for an automatic transmission according to claim 3, wherein the distribution switch valve includesa biasing unit that biases a spool to the first position,a forward-travel engagement-pressure input oil chamber that receives an engagement pressure, which is supplied to the corresponding hydraulic servo of at least one of the friction engagement elements engaged upon starting of forward traveling when the first command system is in a normal state so as to switch the spool to the second position against biasing force of the biasing unit,a lock-pressure input oil chamber that receives a lock pressure at the second position to lock the spool to the second position, andan unlock-pressure input oil chamber that receives an unlock pressure for returning the spool, which is locked to the second position, to the first position, andthe forward-travel engagement-pressure input oil chamber is structured so as to receive the signal pressure of the second system solenoid valve when the failure occurs in the first command system. 5. The hydraulic control device for an automatic transmission according to claim 1, wherein the first system solenoid valve includes a range setting solenoid valve that is driven based on an operation of shift-range operating unit and that sets a shift range inside the automatic transmission.
이 특허에 인용된 특허 (8)
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Kamada Shinya (Hiroshima JPX) Yamamoto Koichi (Hiroshima JPX) Sawazaki Tomoo (Higashihiroshima JPX) Shinozuka Hiroshi (Hiroshima JPX) Kurokawa Kazushi (Hiroshima JPX) Teraoka Takamichi (Hiroshima JPX, Automatic transmission control system.
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Gierer, Georg; Ruhringer, Uwe, Control device for an automatic automobile transmission.
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Kamada Shinya,JPX ; Yamamoto Koichi,JPX ; Sawazaki Tomoo,JPX ; Shinozuka Hiroshi,JPX ; Kurokawa Kazushi,JPX ; Teraoka Takamichi,JPX ; Hombo Masakazu,JPX ; Hirami Naotaka,JPX ; Kanda Yasunori,JPX ; Ao, Control system for automatic transmission.
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Furukawa Toshiharu (Susono JPX) Shindo Yoshio (Susono JPX), Control system with failsafe for shift-by-wire automatic transmission.
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Furukawa Toshiharu (Susono JPX) Shindo Yoshio (Susono JPX), Control system with failsafe range passages in a changeover valve for shift-by-wire automatic transmission.
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Shimizu, Tetsuya; Noda, Kazuyuki; Ishikawa, Kazunori; Kasuya, Satoru; Matsubara, Tooru; Kojima, Masahiro; Ibaraki, Ryuji; Tabata, Atsushi, Hydraulic control apparatus for automatic transmission, and hybrid drive system provided with the same.
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Jang Jaeduk,KRX, Hydraulic control system for automatic transmissions to improve shift quality.
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Jang Jaeduck,KRX, Hydraulic control system for automatic transmissions used in vehicles.
이 특허를 인용한 특허 (2)
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Shimizu, Tetsuya; Yamaguchi, Masamichi; Tsuchida, Kenichi; Fukaya, Naoyuki; Ishikawa, Kazunori, Control device for automatic transmission.
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Nakade, Yusuke; Itazu, Naoki, Shift-by-wire gearshift control apparatus.
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