Electrohydraulic brake system and method for operating the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60T-013/66
B60T-008/40
B60T-001/10
B60T-007/04
B60T-013/74
출원번호
US-0144569
(2009-12-16)
등록번호
US-9199618
(2015-12-01)
우선권정보
DE-10 2009 005 937 (2009-01-23)
국제출원번호
PCT/EP2009/067331
(2009-12-16)
§371/§102 date
20110823
(20110823)
국제공개번호
WO2010/083925
(2010-07-29)
발명자
/ 주소
Drumm, Stefan A.
출원인 / 주소
CONTINENTAL TEVES AG & CO. OHG
대리인 / 주소
Brinks Gilson & Lione
인용정보
피인용 횟수 :
1인용 특허 :
10
초록▼
Disclosed is an electrohydraulic brake system for use in vehicles which can be braked by means of generator operation of an electric drive motor. The brake system comprises, inter alia, a brake booster and an electronic control unit which is provided for distributing the braking effect between a gen
Disclosed is an electrohydraulic brake system for use in vehicles which can be braked by means of generator operation of an electric drive motor. The brake system comprises, inter alia, a brake booster and an electronic control unit which is provided for distributing the braking effect between a generative component or recuperation braking component and a friction braking component. In order to optimize the take-up of pressure medium, in particular during recuperation braking, the brake booster (6, 11, 15) is configured to be electrically actuated by the electronic control unit (10). The boosting force generated by the brake booster (6, 11, 15) is exerted as a function of variables relevant to the brake system.
대표청구항▼
1. An electrohydraulic brake system comprising: an electric motor operating as a generator;an actuation unit controlled by a brake pedal and configured as a combination of a hydraulic brake master cylinder and a first electrohydraulic actuator having an electrically actuated piston that linearly tra
1. An electrohydraulic brake system comprising: an electric motor operating as a generator;an actuation unit controlled by a brake pedal and configured as a combination of a hydraulic brake master cylinder and a first electrohydraulic actuator having an electrically actuated piston that linearly translates within a cylinder, the electrohydraulic actuator forming a brake booster connected upstream of the hydraulic brake master cylinder, the brake booster generating a pressure constituting a boosting force and additively superimposing the boosting force on an actuating force induced via the brake pedal;hydraulic brake lines connecting the actuation unit to friction brakes of the vehicle, the friction brakes being configured to produce a friction brake component;an electronic control unit for distributing a braking effect between a recuperation brake component produced by the generator and the friction brake component, the electronic control unit being configured to electrically actuate the brake booster; anda second electrohydraulic actuator being a linear actuator in the form of a cylinder-piston arrangement having a linearly translating piston, connected to the actuation unit, configured to take up a pressure medium volume from the hydraulic brake master cylinder, which corresponds to the recuperation brake component for producing a characteristic brake pedal feel resembling friction braking with a predetermined boosting force, wherein the second electrohydraulic actuator provides fluid uptake from the master cylinder. 2. The electrohydraulic brake system as claimed in claim 1, wherein the cylinder-piston arrangement is connected to one of the hydraulic brake lines between the hydraulic brake master cylinder and the friction brakes. 3. The electrohydraulic brake system as claimed in claim 1, wherein the first electrohydraulic actuator and the second electrohydraulic actuator are separate and act independently from each other based on signals from the electronic control unit. 4. A method of operating an electrohydraulic brake system for decelerating a vehicle, the method comprising the steps of: producing a brake system comprising: an electric motor operating as a generator;an actuation unit controlled by a brake pedal and configured as a combination of a hydraulic brake master cylinder and a first electrohydraulic actuator having an electrically actuated piston that linearly translates within a cylinder, the electrohydraulic actuator forming a brake booster connected upstream of the hydraulic brake master cylinder;hydraulic brake lines connecting the actuation unit to friction brakes of the vehicle, the friction brakes being configured to produce a friction brake component;an electronic control unit for distributing a braking effect between a recuperation brake component produced by the generator and the friction brake component, the electronic control unit being configured to electrically actuate the brake booster; anda second electrohydraulic actuator being a linear actuator in the form of a cylinder-piston arrangement having a linearly translating piston, connected to the actuation unit, configured to take up a pressure medium volume from the hydraulic brake master cylinder, which corresponds to the recuperation brake component for producing a characteristic brake pedal feel resembling friction braking with a predetermined boosting force, wherein the second electrohydraulic provides for fluid uptake from the master cylinder;calculating a boosting force as a function of signals or parameters related to the brake system;generating a pressure constituting the boosting force via the brake booster and additively superimposing the boosting force on an actuating force induced via the brake pedal; andcausing the second hydraulic actuator in the form of a cylinder-piston arrangement having the linearly translating piston, during recuperation braking and during proportional friction and recuperation braking, to take up a pressure medium volume from the hydraulic brake master cylinder, which corresponds to the recuperation brake component, controlled to produce a characteristic brake pedal feel resembling friction braking with a predetermined boosting force. 5. The method as claimed in claim 4, wherein the signals or parameters related to the brake system comprise deceleration requests from the driver or from automatic driver assist systems and deceleration potentials of recuperation braking, of an unboosted, of a boosted and of an electronically controlled actuation of the friction brakes, and of mixed forms thereof. 6. The method as claimed in claim 4, further comprising the steps of: calculating the boosting force to be just sufficient to effect a required deceleration of the vehicle during proportional friction and recuperation braking;applying the boosting force. 7. The method as claimed in claim 4, further comprising the step of: determining an actuating force exerted on the brake pedal from a value of a pressure induced in the brake master cylinder and from a value representing the boosting force. 8. The method as claimed in claim 4, further comprising the step of: determining that a braking request has been made from a brake pedal actuation travel, a brake pedal actuating force and further driver-dependent and driver-independent signals or parameters. 9. The method as claimed in claim 4, further comprising the step of: generating a signal indicating an instantaneously possible recuperation braking effect based on brake system data comprising at least one of an admissible output of the electric motor working as a generator, an admissible charging capacity of an electric energy storage device or battery present in the vehicle, and a current charge state of the electric energy storage device or battery present in the vehicle. 10. The method as claimed in claim 4, wherein the first electrohydraulic actuator and the second electrohydraulic actuator are separate and act independently from each other based on signals from the electronic control unit.
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이 특허에 인용된 특허 (10)
Ito Hisahiro,JPX ; Itoh Tomoyuki,JPX ; Yoshikawa Shinji,JPX ; Aoki Yasushi,JPX, Brake system for an electric vehicle.
Hiroshi Isono JP; Yasuji Mizutani JP, Vehicle braking system having devices for controlling fluid flows between pressurizing and assisting chambers of master cylinder and pressure source and reservoir.
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