Braking system with mechanical combination valves
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60T-008/38
B60T-008/34
출원번호
US-0111091
(2005-04-21)
등록번호
US-7475952
(2009-01-13)
발명자
/ 주소
Reuter,David F.
Borgemenke,Daniel N.
출원인 / 주소
Delphi Technologies, Inc.
대리인 / 주소
Twomey,Thomas N.
인용정보
피인용 횟수 :
0인용 특허 :
10
초록▼
A hydraulic control system for a brake apparatus includes a combination valve and a motor connected to the combination valve. Output by the motor in a first direction places the combination valve in a first configuration, and output by the motor in a second direction opposite the first direction pla
A hydraulic control system for a brake apparatus includes a combination valve and a motor connected to the combination valve. Output by the motor in a first direction places the combination valve in a first configuration, and output by the motor in a second direction opposite the first direction places the combination valve in a second configuration different from the first configuration. In the first configuration, the control valve allows hydraulic fluid to flow along a first fluid path. In the second configuration, the control valve allows hydraulic fluid to flow along a second fluid path different from the first fluid path.
대표청구항▼
What is claimed is: 1. A hydraulic control system for a brake apparatus, the hydraulic control system comprising: a combination valve; an actuator connected to the combination valve such that output by the actuator in a first direction places the combination valve in a first configuration, and outp
What is claimed is: 1. A hydraulic control system for a brake apparatus, the hydraulic control system comprising: a combination valve; an actuator connected to the combination valve such that output by the actuator in a first direction places the combination valve in a first configuration, and output by the actuator in a second direction opposite the first direction places the combination valve in a second configuration different from the first configuration; the combination valve including an actuator pin operatively connected to the actuator such that the actuator pin is retracted using the actuator to place the combination valve in the first configuration and is extended using the actuator to place the combination valve in the second configuration; a cam driven by the actuator and having an eccentric surface and a follower having an outer surface that engages the actuator pin, the outer surface of the follower configured to extend and retract the actuator pin as the follower is moved by the cam; a clutch assembly, wherein rotation of the cam is controlled, at least in part, by the clutch assembly and the clutch assembly is configured to couple the cam with the actuator such that the cam rotates within a range less than 360 degrees as an output shaft of the actuator rotates; a pedal-operated master cylinder; and a controller connected to the actuator; wherein, in the first configuration, the combination valve allows hydraulic fluid to flow along a first fluid path and, in the second configuration, the combination valve allows hydraulic fluid to flow along a second fluid path different from the first fluid path; wherein the first fluid path forms part of a pressure modulation circuit and the second fluid path forms part of a pressure build circuit; wherein the controller controls the actuator to place the combination valve in the second configuration to increase braking pressure to initiate a controlled braking operation independent of user actuation of the pedal-operated master cylinder. 2. The hydraulic control system of claim 1 wherein the actuator is operatively connected to a braking pump. 3. The hydraulic control system of claim 2 wherein the actuator drives the braking pump in each of the first and second directions. 4. The hydraulic control system of claim 1 wherein the clutch assembly includes a clutch shaft connected to the actuator; a driven member having an aperture through which the clutch shaft extends; and a driver member integrally connected to the clutch shaft, the driver member including a latch piston configured to extend from a periphery of the driver member and couple the driven member to the driver member. 5. The hydraulic control system of claim 4 wherein the clutch assembly includes an extension spring configured to releasably couple the cam to the driven member to allow rotation of the cam from an initial angular position, associated with the first configuration of the mechanical actuation valve, to a different, second angular position associated with the second configuration of the combination valve only when the output of the actuator changes directions. 6. The hydraulic control system of claim 1 wherein the combination valve connects the pressure modulation circuit and the pressure build circuit to the pedal-operated master cylinder. 7. A hydraulic control system for a brake apparatus, the hydraulic control system comprising: a combination valve; a motor mechanically connected to the combination valve for positioning the combination valve between a first configuration and a second configuration different from the first configuration, the motor positions the combination valve from the first configuration to the second configuration only upon a change in output direction of the motor, the position of the combination valve remaining unchanged until a change in output direction of the motor; a braking pump operatively connected to the motor for driving the braking pump; a cam and follower assembly, wherein the motor is mechanically coupled to the combination valve using the cam and follower assembly; and a clutch assembly, wherein the motor includes an output shaft and the cam and follower assembly includes a cam, wherein rotation of the cam is controlled, at least in part, by the clutch assembly and the clutch assembly is configured to releasably couple the cam with the output shaft such that the cam rotates with the output shaft; wherein, in the first configuration, the combination valve allows hydraulic fluid to flow along a first fluid path for a pedal-initiated braking operation, and in the second configuration, the combination valve allows hydraulic fluid to flow along a second fluid path toward the pump, the second fluid path being different from the first fluid path; wherein, with the combination valve in the second configuration, the pump increases braking pressure to the brake apparatus to initiate a controlled braking operation without user actuation of a brake pedal. 8. The hydraulic control system of claim 7 wherein the motor is reversible between a first output direction and a second output direction opposite the first output direction, the braking pump being driven by the motor in each of the first and second output directions. 9. The hydraulic control system of claim 8 further comprising the output shaft operatively connected to the combination valve, wherein the motor is configured to rotate the output shaft such that with the output shaft rotating in a first direction, the combination valve is placed in the first configuration, and with the output shaft rotating in a second direction opposite the first direction, the combination valve is placed in the second configuration different from the first configuration. 10. The hydraulic control system of claim 7 wherein the combination valve includes an actuator pin mounted to be retracted by the motor thereby placing the combination valve in the first configuration, and extended, thereby placing the combination valve in the second configuration. 11. The hydraulic control system of claim 7 wherein the clutch assembly allows the cam to rotate between about 0° and about 180°. 12. A method of controlling a braking apparatus having a pressure modulation mode and a pressure build mode comprising the steps of: linking a reversible motor to a mechanical combination valve using a cam and follower assembly, wherein the motor is mechanically coupled to the mechanical combination valve using the cam and follower assembly, wherein the motor includes an output shaft and the cam and follower assembly includes a cam, wherein rotation of the cam is controlled, at least in part, by a clutch assembly and the clutch assembly is configured to releasably couple the cam with the output shaft such that the cam rotates with the output shaft; and providing an electronically initiated braking operation independent of brake pedal operation by actuating the mechanical combination valve using the reversible motor from a first configuration associated with a first motor output direction to a second configuration associated with a second motor output direction opposite the first motor output direction, the second configuration being different than the first configuration, the reversal of the motor being controlled by a controller independent of brake pedal operation whereby braking pressure is increased to the braking apparatus providing a controlled braking operation; once the mechanical combination valve is in at least one of the first configuration and the second configuration, the mechanical combination valve being moved by the reversible motor only upon a change in the motor output direction. 13. The method of claim 12 further comprising the step of switching hydraulic fluid flow from a first fluid path with the mechanical combination valve in the first configuration to a second fluid path different from the first fluid path with the mechanical combination valve in the second configuration. 14. The method of claim 12 further comprising the step of linking a pump to the reversible motor such that the reversible motor drives the pump in each of the first and second output directions.
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이 특허에 인용된 특허 (10)
Matouka Michael F. (Utica MI) Rajput Yudh V. (Xenia OH) Wilkey Paul D. (Vandalia OH) Bright James A. (Dayton OH), Anti-lock braking system.
Kircher Dieter (Frankfurt am Main DEX) von Gruenberg Hubertus (Bad Homburg DEX) Blum Klaus-Dieter (Kelkheim DEX), Brake system with anti-lock control and/or traction slip control as well as braking pressure modulator for such a brake.
Parker Donald L. (Middletown OH) Newton Jerry L. (Richmond IN) Reuter David F. (Beavercreek OH) Huntzicker Fred W. (Ann Arbor MI), Integral ABS and traction control having an electric modulator.
Johnston Gary Lee ; Zehnder ; II James William ; Kruckemeyer William Charles ; Oliver Michael Leslie, Integral control and isolation valve proportional brake system.
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