MOTOR VEHICLE BRAKING SYSTEM HAVING A HYDRAULICALLY ACTUATED SERVICE BRAKING SYSTEM AND AN ELECTORMECHANICALLY ACTUATED BRAKING SYSTEM
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IPC분류정보
국가/구분
United States(US) Patent
공개
국제특허분류(IPC7판)
B60T-008/17
B60T-007/00
출원번호
US-0378422
(2010-06-18)
공개번호
US-0245815
(2012-09-27)
우선권정보
DE-10 2009 027 035.3 (2009-06-18)
국제출원번호
PCT/EP2010/058644
(2010-06-18)
§371/§102 date
20120613
(20120613)
발명자
/ 주소
Schneider, Heinz-Anton
Balz, Jürgen
출원인 / 주소
CONTINENTAL TEVES AG & CO. OHG
인용정보
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0인용 특허 :
0
초록▼
The invention relates to a motor vehicle brake system having a hydraulically actuatable service brake system and an electromechanically actuatable brake system, including an operating element HMI, in particular for activating a parking brake function, an electronic control device (EPB-ECU) for activ
The invention relates to a motor vehicle brake system having a hydraulically actuatable service brake system and an electromechanically actuatable brake system, including an operating element HMI, in particular for activating a parking brake function, an electronic control device (EPB-ECU) for activating an electromechanical actuator of the electromechanically actuatable brake system, and an electrohydraulic control unit (HECU) associated with a service brake and serving to control or regulate hydraulically implemented service brake functions, driving stability functions and/or braking assistance functions. It is an aim of the invention to contribute to reducing the stress on parts or components of the brake system. It is proposed that an electronically controlled hydraulic pressure conditioning process is carried out in integrated brake calipers after hydraulic actuation of the brake, it being further provided that the electromechanical brake system generates additional application forces only after the hydraulic pressure conditioning process.
대표청구항▼
1.-14. (canceled) 15. A motor vehicle brake system having a hydraulically actuatable service brake system and an electromechanically actuatable brake system, comprising an operating element for activating a parking brake function, an electronic control unit for activating an actuator of the brake sy
1.-14. (canceled) 15. A motor vehicle brake system having a hydraulically actuatable service brake system and an electromechanically actuatable brake system, comprising an operating element for activating a parking brake function, an electronic control unit for activating an actuator of the brake system, and an electrohydraulic control unit which is associated with a service brake and serves to control or regulate service brake functions, driving stability functions and/or braking assistance functions, wherein in order to reduce stress on parts or components of the electromechanical brake system following an automatic or driver-initiated hydraulic brake actuation, and prior to completion of a temporally following electromechanical brake actuation, an electronically controlled hydraulic pressure conditioning process is carried out in at least one operating pressure chamber of an electromechanically actuatable brake caliper. 16. The motor vehicle brake system as claimed in claim 15, wherein a brake actuation is predetermined by plausibility checking with reference to a plurality of different pieces of information, with reference to a balancing of a plurality of pieces of sensor information, in order to evaluate an actual vehicle driving state, and the electronically controlled hydraulic pressure conditioning process takes place temporally after energization of the actuator. 17. The motor vehicle brake system as claimed in claim 15, wherein the actuator generates a perceptible application force component temporally after the electronically controlled hydraulic pressure conditioning process. 18. The motor vehicle brake system as claimed in claim 15, wherein the actuator is actuated, and generates a reduced application force component, during the electronically controlled hydraulic pressure conditioning process. 19. The motor vehicle brake system as claimed in claim 15, wherein the electronically controlled hydraulic pressure conditioning process comprises a hydraulic pressure limiting function or a hydraulic pressure reducing function. 20. The motor vehicle brake system as claimed in claim 15, wherein the electronically controlled hydraulic pressure conditioning process has predetermined parameters, including hydraulic pressure threshold values predetermined to be constant, which are stored in the electronic control unit. 21. The motor vehicle brake system as claimed in claim 15, wherein the electronically controlled hydraulic pressure conditioning process has state-dependently adapted hydraulic pressure threshold values. 22. The motor vehicle brake system as claimed in claim 15, wherein the electronically controlled hydraulic pressure conditioning process is carried out in a state-dependent manner, in dependence on brake-relevant marginal conditions, measurement values and/or parameters, in dependence on a detected standstill of the vehicle. 23. The motor vehicle brake system as claimed in claim 15, wherein a plausibility check is carried out prior to execution or ending of the electronically controlled hydraulic pressure conditioning process in order to determine in advance, on the basis of measured or determined information, whether the pressure conditioning process can or cannot be carried out without danger, and in that a decision to carry out a pressure conditioning process is rejected, interrupted or ended after a negative result of the plausibility check. 24. The motor vehicle brake system as claimed in claim 19, wherein the electronically controlled hydraulic pressure conditioning process comprises at least one actuation of an electromagnetic valve of an electrohydraulic control unit, which actuation is controlled or regulated by the electronic control unit of the service brake system. 25. The motor vehicle brake system as claimed in claim 15, wherein the electronic control unit of the electromechanically actuatable brake system and the electronic control unit of the service brake system are provided to be integrated in a common housing as a common control unit. 26. The motor vehicle brake system as claimed in claim 25, wherein the common control unit comprises a network with other sensors and/or electronic control devices (ECU) of a motor vehicle within a networked, wire-connected or wireless data transfer system. 27. The motor vehicle as claimed in claim 26, wherein the wireless data transfer system is selected from the group consisting of CAN, LIN, FLEXRAY and Byteflight. 28. The motor vehicle as claimed in claim 25, wherein the common electronic control unit has at least one open interface which is set up in such a way that that a pressure conditioning process is executed upon request by another vehicle-integrated electronic control device, or upon request by an electronic control device arranged outside the vehicle, such as in particular upon request by a higher-level electronic chassis controller. 29. An operating method for a motor vehicle brake system having a hydraulically actuatable service brake system and an electromechanically actuatable brake system, comprising an operating element for activating a parking brake function, an electronic control unit for activating an actuator of the brake system, and an electrohydraulic control unit which is associated with a service brake and serves to control or regulate service brake functions, driving stability functions and/or braking assistance functions, wherein in order to reduce stress on parts or components of the electromechanical brake system following an automatic or driver-initiated hydraulic brake actuation, and prior to completion of a temporally following electromechanical brake actuation, an electronically controlled hydraulic pressure conditioning process is carried out in at least one operating pressure chamber of an electromechanically actuatable brake caliper, the method comprising brake actuation predetermined by checking with reference to a plurality of different pieces of information, with reference to a balancing of a plurality of pieces of sensor information, in order to evaluate an actual vehicle driving state, and the electronically controlled hydraulic pressure conditioning process takes place temporally after energization of the actuator.
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