Device for determining an operating state of at least one bidirectionally actuable hydraulic adjusting device of a shifting element of a transmission device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F15B-015/28
F15B-015/14
F16H-059/68
F16H-061/12
F16H-061/30
F16H-061/28
출원번호
US-0695310
(2011-04-04)
등록번호
US-9086080
(2015-07-21)
우선권정보
DE-10 2010 028 762 (2010-05-07)
국제출원번호
PCT/EP2011/055156
(2011-04-04)
§371/§102 date
20121030
(20121030)
국제공개번호
WO2011/138102
(2011-11-10)
발명자
/ 주소
Schmidt, Thilo
Popp, Christian
출원인 / 주소
ZF Friedrichshafen AG
대리인 / 주소
Davis & Bujold, P.L.L.C.
인용정보
피인용 횟수 :
0인용 특허 :
16
초록▼
A device for determining an operating state of a bi-directionally actuated hydraulic adjusting device of a transmission shifting element, which pressurizes active surfaces of a piston. The piston is biased to opposite end positions depending on which of a first active surface or a second active surf
A device for determining an operating state of a bi-directionally actuated hydraulic adjusting device of a transmission shifting element, which pressurizes active surfaces of a piston. The piston is biased to opposite end positions depending on which of a first active surface or a second active surface is pressurized with high pressure. The areas of the adjusting device, which can be pressurized with the pressure at the active surfaces of the piston, are connected with one another in positions of the piston element, between the end positions, via a throttle device. One of each area can be coupled for adjustment of the piston with the high-pressure area, and the other area with the low pressure area. An additional throttle device is provided upstream of the low pressure area and a pressure measuring device is provided upstream of the additional throttle device.
대표청구항▼
1. A device (1) for determining an operating state of at least one bi-directionally actuable hydraulic adjusting device (2, 3) of a shifting element (4, 5) of a transmission device, which are pressurized with hydraulic pressure (p_12, p_13) in areas of first and second active surfaces (6, 7, 8, 9) o
1. A device (1) for determining an operating state of at least one bi-directionally actuable hydraulic adjusting device (2, 3) of a shifting element (4, 5) of a transmission device, which are pressurized with hydraulic pressure (p_12, p_13) in areas of first and second active surfaces (6, 7, 8, 9) of a piston element (11, 12), wherein at the piston element (10 or 11), when a hydraulic pressure (p_sys) of a high-pressure area (34) is present in the area of the first active surface (6 or 8), an acting force component works in a direction of a first end position of the piston element (10 or 11), and, when the hydraulic pressure (p_sys) of the high-pressure area (34) is present in the area of the second active surface (7 or 9), an acting force component works in a direction of a second end position of the piston element (10 or 11),the areas (12 to 15) of the adjusting device (2, 3) which are pressurizable and which are assigned to the first and the second active surfaces (6 to 9) of the piston element (10, 11), in positions of the piston element (10 or 11), between the first and the second end positions, are connected with one another via a throttle device (16, 17) and one of the areas (12 or 14) is connectable, for the adjustment of the piston element (10 or 11), with the high-pressure area (34) and the other area (13 or 15) is connectable with a lower pressure area (18),an additional throttle device (21) is provided upstream of the lower pressure area (18), and a pressure measuring device (22) is provided upstream of the additional throttle device (21). 2. The device according to claim 1, wherein a valve device (19, 20) is positioned between the areas (12 to 15) of the adjusting device (2, 3) and the high-pressure and the lower pressure areas (34, 18). 3. The device according to claim 2, wherein the valve device (19, 20) is pressurizable, via an electro-hydraulic actuator (23, 24) and against a spring device (25, 26), with a control pressure (p_VS23, p_VS24). 4. The device according to claim 2, wherein the valve device (19, 20) is a 4/2-way valve. 5. The device according to claim 1, wherein a hydraulic storage (27) is provided upstream of the additional throttle device (21). 6. The device according to claim 5, wherein the hydraulic storage (27) is completely filled, when the pressure measuring device (22) identifies a faulty function in the area of the adjusting device (2, 3) by detecting a pressure below a predefined pressure threshold (p_sens). 7. The device according to claim 5, wherein a storage volume of the hydraulic storage (27) is equal at least to a hydraulic fluid volume which is displaced during movement of the piston element (10, 11) from one of the first and the second end positions to the other of the first and the second end positions. 8. The device according to claim 1, wherein a pressure limiting valve (33) is positioned upstream of the additional throttle device (21), and the pressure limiting valve (33) has a trigger pressure (p_DBV) that corresponds with a predefined pressure threshold (p_sens_thresh) at which the pressure measuring device (22) identifies a faulty function in the area of the adjusting device (2, 3). 9. The device according to claim 1, wherein the electro-hydraulic actuator is in an operating connection with the high-pressure area (34). 10. The device according to claim 1, wherein at least an additional adjusting device (3) of an additional shifting element (5) is operationally connectable, via an additional valve device (20), with the high-pressure area (34), and upstream of the additional throttle device (21) and the pressure measuring device (22), with the lower pressure area (18). 11. The device according to claim 10, wherein the additional adjusting device (3) is pressurizable with hydraulic pressure in areas of first and second surfaces (8, 9) of an additional piston element (11), whereby at the additional piston element (11), when a hydraulic pressure (p_sys) of the high-pressure area (34) is present in the area of the first active surface (8) of the additional piston element (11), an acting force component works in a direction of a first end position of the additional piston element (11), and when a hydraulic pressure (p_sys) of the high-pressure area (34) is present in the area of the second active surface (9) of the additional piston element (11), an acting force component works in a direction of a second end position of the additional piston element (11). 12. The device according to claim 11, wherein areas (14, 15) of the additional adjusting device (3) of the additional shifting element (5) and the active surfaces (8, 9) of the additional piston element (11) which are pressurizable with hydraulic pressure, are connected with each other in positions of the additional piston element (11), between the first and the second end positions, via an additional throttle device (17) and that one of the areas (14 or 15) of the additional adjusting device (3) is connectable, for the adjustment of the additional piston element (11), with the high-pressure area (34) and the other area (15 or 14) is connectable with the low lower pressure area (18), whereby upstream of the low lower pressure area (18) the additional throttle device (21) is provided and again upstream of the additional throttle device (21), the pressure measuring device (22) is provided. 13. The device according to claim 10, wherein a throttle cross section of the throttle device (16) assigned to shifting element (4), and a throttle cross section of the additional throttle device (17) of the additional shifting element (5) deviate from one another. 14. A device (1) for determining an operating state of a bi-directionally actuable hydraulic adjusting device (2, 3) which is coupled to a shifting element (4, 5) of a transmission device, wherein a piston element (10, 11) divides an interior of the hydraulic adjusting device (2, 3) into an area defined by a first active surface of the piston element (10, 11) and an area defined by a second active surface of the piston element (10, 11),the piston element (10, 11) is axially slidable to a first axial end position when the area defined by the first active surface of the piston element (10, 11) is pressurized with hydraulic pressure (p_sys) of a high-pressure area (34), and the piston element (10, 11) is axially slidable to a second axial end position when the area defined by the second active surface of the piston element (10, 11) is pressurized with the hydraulic pressure (p_sys) of the high-pressure area (34),a throttle device (16, 17) interconnects the areas defined by the first and the second active surfaces of the piston element (10, 11) when the piston element (10, 11) is positioned between the first and the second axial end positions;the area defined by the first active surface of the piston element (10, 11) is connectable with the high-pressure area (34) and the area defined by the second active surface of the piston element (10, 11) is connectable with a lower pressure area (18); andan additional throttle device (21) is provided upstream of the lower pressure area (18), and a pressure measuring device (22) is provided upstream of the additional throttle device (21).
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이 특허에 인용된 특허 (16)
Watanabe, Kazuyuki; Sakamoto, Naoyuki; Ayabe, Atsushi; Sato, Toshimitsu; Kimura, Hiromichi; Ogasawara, Hideaki; Nakamura, Mitsuhiro; Shibata, Noboru, Apparatus for controlling vehicle drive system including drive power source and automatic transmission.
Shimizu, Masanori; Chida, Ryuji; Yumoto, Takashi; Yamaguchi, Kenichi, Control apparatus, control method, and computer-readable storage medium for continuously variable transmission.
Taga Yutaka (Toyota JPX) Nakamura Shinya (Toyota JPX), Electrical/hydraulic transmission control system varying line pressure according to engine load.
Klik, Stefan; Meyer, Ingo; Schumacher, Ralph, Method and system for determining the actuating pressure of a servo cylinder actuated by pressurized fluid.
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