Method for operating a brake system for motor vehicles, and brake system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60T-011/10
B60T-008/40
B60T-017/18
B60T-007/04
B60T-011/16
출원번호
US-0374370
(2013-01-25)
등록번호
US-9108604
(2015-08-18)
우선권정보
DE-10 2012 201 515 (2012-02-02)
국제출원번호
PCT/EP2013/051436
(2013-01-25)
국제공개번호
WO2013/113625
(2013-08-08)
발명자
/ 주소
Böhm, Jürgen
Jungbecker, Johann
Drumm, Stefan
Besier, Marco
Biller, Harald
Penzar, Zlatko
Führer, Jochen
Linkenbach, Steffen
출원인 / 주소
Continental Teves AG & Co. oHG
대리인 / 주소
RatnerPrestia
인용정보
피인용 횟수 :
1인용 특허 :
9
초록▼
A system and method for operating a brake system for motor vehicles, includes a master brake cylinder actuated by a brake pedal and separably connected to at least one hydraulically acutuatable wheel brake by at least one brake circuit, a hydraulically operable pedal travel simulator is connectable
A system and method for operating a brake system for motor vehicles, includes a master brake cylinder actuated by a brake pedal and separably connected to at least one hydraulically acutuatable wheel brake by at least one brake circuit, a hydraulically operable pedal travel simulator is connectable to the master brake cylinder, an electrically controllable pressure provision apparatus is separably connected to the brake circuit, and an electronic open-loop and closed-loop control unit. Upon brake pedal actuation, a pressure of the pressure provision apparatus is applied to the brake circuit in a first operating mode and the pressure of the master brake cylinder is applied to the brake circuit in a second operating mode. In the event of transition from the second operating mode to the first operating mode while the brake pedal is actuated, the actuation travel of the brake pedal is adjusted by electronic open-loop or closed-loop control.
대표청구항▼
1. A method for operating a brake system for motor vehicles, comprising: a master brake cylinder which can be actuated by a brake pedal and which is separably connected to at least one brake circuit (I, II) with at least one hydraulically actuable wheel brake, wherein a first variable (PTHZ) which c
1. A method for operating a brake system for motor vehicles, comprising: a master brake cylinder which can be actuated by a brake pedal and which is separably connected to at least one brake circuit (I, II) with at least one hydraulically actuable wheel brake, wherein a first variable (PTHZ) which characterizes a pressure in the master brake cylinder and a second variable (SPedal) which characterizes an actuation travel of the brake pedal are measured periodically,a hydraulically actuable pedal travel simulator which is or can be connected to the master brake cylinder and which is designed so as to be capable of being switched on and off by a simulator release valve,an electrically controllable pressure supply device which is separably connected to the brake circuit (I, II) and which is formed by a cylinder-piston arrangement whose piston can be actuated by an electromechanical actuator, andan electronic open-loop and closed-loop control unit for activating the electrically controllable pressure supply device and valves of the brake system,wherein, when the brake pedal is actuated, in a first operating mode (ZA) the brake circuit (I, II) is provided with a pressure (PSetp) of the pressure supply device, and in a second operating mode (ZP) the brake circuit is provided with the pressure (PTHZ) of the master brake cylinder,wherein in a case of a changeover from the second operating mode (ZP) into the first operating mode (ZA) during actuation of the brake pedal from a non-actuated position the actuation travel (SPedal) of the brake pedal is adjusted under electronic open-loop or closed-loop control, andwherein a first characteristic curve, which describes a relationship between the first and second variables (PTHZ, SPedal) in the first operating mode (ZA), and a second characteristic curve which describes a relationship between the first and second variables (PTHZ, SPedal) in the second operating mode (ZP), are predefined, and wherein comparing the current values of the first and second variables (PTHZ, SPedal) with the first characteristic curve and/or the second characteristic curve it is decided whether pressure medium will be discharged from or fed into the master brake cylinder. 2. The method as claimed in claim 1, wherein in the case of the changeover from the second operating mode (ZP) into the first operating mode (ZA) during actuation of the brake pedal the actuation travel (SPedal) of the brake pedal is adjusted by discharging a pressure medium, under electronic open-loop or closed-loop control, from the master brake cylinder or by feeding the pressure medium into the master brake cylinder under electronic open-loop or closed-loop control. 3. The method as claimed in claim 1, wherein the actuation travel (SPedal) is reduced by feeding in a pressure medium if a value pair composed of the first and second variables (S2, P1) is below the second characteristic curve after the pedal travel simulator is activated. 4. The method as claimed in claim 1, wherein the actuation travel (SPedal) is increased by discharging a pressure medium if a value pair composed of the first and second variables (S5, P2) is above the first characteristic curve the pedal travel simulator is activated. 5. The method as claimed in claim 1, wherein in the case of the changeover from the second operating mode (ZP) into the first operating mode (ZA), sensors for measuring the first and second variables (PTHZ, SPedal) are firstly initialized and then the pedal travel simulator is switched on by a simulator release valve, and afterwards the adjustment of the actuation travel (SPedal) of the brake pedal carried out. 6. The method as claimed in claim 1, wherein the actuation travel (SPedal) of the brake pedal is reduced in that an activation valve which is arranged between the pressure supply device and the brake circuit (I, II) is opened, and the pressure supply device is activated in such a way that pressure medium volume is forced into the master brake cylinder. 7. The method as claimed in claim 1, wherein the actuation travel (SPedal) of the brake pedal is increased in that an outlet valve which is arranged between a wheel brake and a pressure medium reservoir container is opened. 8. The method as claimed in claim 7, wherein an activation valve which is arranged between the pressure supply device and the brake circuit (I, II) is opened simultaneously with the increase of the actuation travel (SPedal) of the brake pedal. 9. The method as claimed in claim 1, wherein a case of the changeover the actuation travel (SPedal) of the brake pedal is not adjusted if a current value of the second variable (SPedal) is lower than a predefined first threshold value (Sg) and if in addition the current value of the first variable (PTHZ) is lower than a predefined second threshold value (Pg). 10. A method for operating a brake system for motor vehicles, comprising: a master brake cylinder which can be actuated by a brake pedal and which is separably connected to at least one brake circuit (I, II) with at least one hydraulically actuable wheel brake, wherein a first variable (PTHZ) which characterizes a pressure in the master brake cylinder and a second variable (SPedal) which characterizes an actuation travel of the brake pedal are measured periodically,a hydraulically actuable pedal travel simulator which is or can be connected to the master brake cylinder and which is designed so as to be capable of being switched on and off by a simulator release valve,an electrically controllable pressure supply device which is separably connected to the brake circuit (I, II) and which is formed by a cylinder-piston arrangement whose piston can be actuated by an electromechanical actuator, andan electronic open-loop and closed-loop control unit for activating the electrically controllable pressure supply device and valves of the brake system,wherein, when the brake pedal is actuated, in a first operating mode (ZA) the brake circuit (I, II) is provided with a pressure (PSetp) of the pressure supply device, and in a second operating mode (ZP) the brake circuit is provided with the pressure (PTHZ) of the master brake cylinder,wherein in a case of a changeover from the second operating mode (ZP) into the first operating mode (ZA) during actuation of the brake pedal the actuation travel (SPedal) of the brake pedal is adjusted under electronic open-loop or closed-loop control,wherein a first characteristic curve, which describes a relationship between the first and second variables (PTHZ, SPedal) in the first operating mode (ZA), and a second characteristic curve which describes a relationship between the first and second variables (PTHZ, SPedal) in the second operating mode (ZP), are predefined, and wherein comparing the current values of the first and second variables (PTHZ, SPedal) with the first characteristic curve and/or the second characteristic curve it is decided whether pressure medium will be discharged or fed in, andwherein the actuation travel (SPedal) adjusted to a value (S3, S4) in accordance with the first characteristic curve. 11. A method for operating a brake system for motor vehicles, comprising: a master brake cylinder which can be actuated by a brake pedal and which is separably connected to at least one brake circuit (I, II) with at least one hydraulically actuable wheel brake, wherein a first variable (PTHZ) which characterizes a pressure in the master brake cylinder and a second variable (SPedal) which characterizes an actuation travel of the brake pedal are measured periodically,a hydraulically actuable pedal travel simulator which is or can be connected to the master brake cylinder and which is designed so as to be capable of being switched on and off by a simulator release valve,an electrically controllable pressure supply device which is separably connected to the brake circuit (I, II) and which is formed by a cylinder-piston arrangement whose piston can be actuated by an electromechanical actuator, andan electronic open-loop and closed-loop control unit for activating the electrically controllable pressure supply device and valves of the brake system,wherein, when the brake pedal is actuated, in a first operating mode (ZA) the brake circuit (I, II) is provided with a pressure (PSetp) of the pressure supply device, and in a second operating mode (ZP) the brake circuit is provided with the pressure (PTHZ) of the master brake cylinder,wherein in a case of a changeover from the second operating mode (ZP) into the first operating mode (ZA) during actuation of the brake pedal the actuation travel (SPedal) of the brake pedal is adjusted under electronic open-loop or closed-loop control,wherein the actuation travel (SPedal) of the brake pedal is increased in that an outlet valve which is arranged between a wheel brake and a pressure medium reservoir container is opened,wherein an activation valve which is arranged between the pressure supply device and the brake circuit (I, II) is opened simultaneously with the increase of the actuation travel (SPedal) of the brake pedal, andwherein simultaneously with the actuation of the piston of the cylinder-piston arrangement by the electromechanical actuator, the piston is set to a piston position (SK1) which is predetermined according to a predefined piston position pressure characteristic curve. 12. A method for operating a brake system for motor vehicles, comprising: a master brake cylinder which can be actuated by a brake pedal and which is separably connected to at least one brake circuit (I, II) with at least one hydraulically actuable wheel brake, wherein a first variable (PTHZ) which characterizes a pressure in the master brake cylinder and a second variable (SPedal) which characterizes an actuation travel of the brake pedal are measured periodically,a hydraulically actuable pedal travel simulator which is or can be connected to the master brake cylinder and which is designed so as to be capable of being switched on and off by a simulator release valve,an electrically controllable pressure supply device which is separably connected to the brake circuit (I, II) and which is formed by a cylinder-piston arrangement whose piston can be actuated by an electromechanical actuator, andan electronic open-loop and closed-loop control unit for activating the electrically controllable pressure supply device and valves of the brake system,wherein, when the brake pedal is actuated, in a first operating mode (ZA) the brake circuit (I, II) is provided with a pressure (PSetp) of the pressure supply device, and in a second operating mode (ZP) the brake circuit is provided with the pressure (PTHZ) of the master brake cylinder, andwherein in a case of a changeover from the second operating mode (ZP) into the first operating mode (ZA) during actuation of the brake pedal from a non-actuated position the actuation travel (SPedal) of the brake pedal is adjusted under electronic open-loop or closed-loop control, andwherein after the adjustment of the actuation travel (SPedal) of the brake pedal an isolating valve which is arranged between the master brake cylinder and the brake circuit (I, II) is closed, and then a predetermined setpoint pressure (PSetp) is set by the pressure supply device, which setpoint pressure (PSetp) is determined on the basis of the current values of the first and second variables (PTHZ, SPedal). 13. A brake system for motor vehicles, comprising a master brake cylinder which can be actuated by a brake pedal and which is separably connected to at least one brake circuit (I, II) with at least one hydraulically actuable wheel brake,a measuring device for determining a first variable (PTHZ) which characterizes a pressure in the master brake cylinder, and a measuring device for determining a second variable (SPedal) which characterizes an actuation travel of the brake pedal,a hydraulically actuable pedal travel simulator which is or can be connected to the master brake cylinder and which is designed so as to be capable of being switched on and off by means of a simulator release valve,an electrically controllable pressure supply device which is separably connected to the brake circuit (I, II) and which is formed by a cylinder-piston arrangement whose piston can be actuated by an electromechanical actuator,a wheel brake pressure modulation unit which has, per wheel brake, an inlet valve and an outlet valve for setting a wheel-specific brake pressure which is derived from the pressure in the brake circuit (I, II), andan electronic open-loop and closed-loop control unit for activating the electrically controllable pressure supply device and valves of the brake system,wherein in a first operating mode (ZA) when the brake pedal is actuated a pressure (PSetp) of the pressure supply device is applied to the brake circuit (I, II), and wherein in a second operating mode (ZP) when the brake pedal is actuated the pressure (PTHZ) of the master brake cylinder is applied to the brake circuit (I, II),wherein in a case of a changeover from the second operating mode (ZP) into the first operating mode (ZA) during actuation of the brake pedal from a non-actuated position the open-loop and closed-loop control unit carries out adjustment of the actuation travel (SPedal) of the brake pedal, andwherein a first characteristic curve, which describes a relationship between the first and second variables (PTHZ, SPedal) the first operating mode (ZA), and a second characteristic curve which describes a relationship between the first and second variables (PTHZ, SPedal) in the second operating mode (ZP), are predefined and wherein comparing the current values of the first and second variables (PTHZ, SPedal) with the first characteristic curve and/or the second characteristic curve by the open-loop and closed-loop control unit it is decided whether pressure medium will be discharged from or fed into the master brake cylinder. 14. A brake system having an electronic open-loop and closed-loop control unit, comprising a master brake cylinder which can be actuated by a brake pedal and which is separably connected to at least one brake circuit (I, II) with at least one hydraulically actuable wheel brake,a measuring device for determining a first variable (PTHZ) which characterizes a pressure in the master brake cylinder, and a measuring device for determining a second variable (SPedal) which characterizes an actuation travel of the brake pedal,a hydraulically actuable pedal travel simulator which is or can be connected to the master brake cylinder and which is designed so as to be capable of being switched on and off by means of a simulator release valve,an electrically controllable pressure supply device which is separably connected to the brake circuit (I, II) and which is formed by a cylinder-piston arrangement whose piston can be actuated by an electromechanical actuator,a wheel brake pressure modulation unit which has, per wheel brake, an inlet valve and an outlet valve for setting a wheel-specific brake pressure which is derived from the pressure in the brake circuit (I, II), andan electronic open-loop and closed-loop control unit for activating the electrically controllable pressure supply device and valves of the brake system,wherein in a first operating mode (ZA) when the brake pedal is actuated a pressure (PSetp) of the pressure supply device is applied to the brake circuit (I, II), and wherein in a second operating mode (ZP) when the brake pedal is actuated the pressure (PTHZ) of the master brake cylinder is applied to the brake circuit (I, II),wherein in a case of a changeover from the second operating mode (ZP) into the first operating mode (ZA) during actuation of the brake pedal from a non-actuated position the open-loop and closed-loop control unit carries out adjustment of the actuation travel (SPedal) of the brake pedal, andwherein the electronic open-loop and closed-loop control unit carries out the method of claim 1.
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이 특허에 인용된 특허 (9)
Mizutani, Yasuji; Nakamura, Eiji, Brake control apparatus and brake control method.
Kagawa, Kazunori; Matsuki, Kimihiro; Miyazaki, Tetsuya; Kawahata, Fumiaki; Otomo, Akihiro; Nakamura, Eiji, Braking pressure control apparatus capable of switching between two brake operating states using power-operated and manually operated pressure sources, respectively.
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