METHOD FOR CONTROLLING ESC INTEGRATED BRAKING SYSTEM
원문보기
IPC분류정보
국가/구분
United States(US) Patent
공개
국제특허분류(IPC7판)
B60T-017/22
B60T-008/88
B60T-008/92
B60T-013/68
B60T-013/14
출원번호
16995814
(2020-08-18)
공개번호
20210053543
(2021-02-25)
우선권정보
KR-10-2019-0101579 (2019-08-20)
발명자
/ 주소
SEOL, Yong Cheol
출원인 / 주소
SEOL, Yong Cheol
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
Disclosed is a method of controlling an electronic stability control (ESC) integrated braking system, which includes, when a failure in which pressure is unable to be formed in a master cylinder unit is detected during braking of a vehicle by the ESC integrated braking system, maintaining, by a cont
Disclosed is a method of controlling an electronic stability control (ESC) integrated braking system, which includes, when a failure in which pressure is unable to be formed in a master cylinder unit is detected during braking of a vehicle by the ESC integrated braking system, maintaining, by a controller, a braking force applied during the braking by closing designated oil pressure relief valves for coupling the master cylinder unit and a flow channel of a circuit, and when pressure (PC1) of a pedal cylinder becomes equal to or greater than pressure (MC1) of the circuit based on the maintained braking force, by a brake pedal stepped on by a driver, controlling, by the controller, the designated oil pressure relief valves to be in an open state and then switching the state of the designated oil pressure relief valves to a mechanical backup state.
대표청구항▼
1. A method of controlling an electronic stability control (ESC) integrated braking system, the method comprising: when a failure in which pressure is unable to be formed in a master cylinder unit is detected during braking of a vehicle by the ESC integrated braking system, maintaining, by a control
1. A method of controlling an electronic stability control (ESC) integrated braking system, the method comprising: when a failure in which pressure is unable to be formed in a master cylinder unit is detected during braking of a vehicle by the ESC integrated braking system, maintaining, by a controller, a braking force applied during the braking by closing designated oil pressure relief valves for coupling the master cylinder unit and a flow channel of a circuit; andwhen pressure (PC1) of a pedal cylinder unit becomes equal to or greater than pressure (MC1) of the circuit based on the maintained braking force, by a brake pedal stepped on by a driver, controlling, by the controller, the designated oil pressure relief valves to be in an open state and then switching the state of the designated oil pressure relief valves to a mechanical backup state. 2. The method of claim 1, wherein the circuit is a flow channel comprising inlets valve and outlet valves for forming braking pressure in respective wheel cylinders of front wheels and rear wheels via the designated oil pressure relief valves. 3. The method of claim 1, further comprising immediately switching, by the controller, the state of the designated oil pressure relief valves to the mechanical backup state when the failure in which pressure is unable to be formed in the master cylinder unit is detected prior to the braking of the vehicle by the ESC integrated braking system. 4. The method of claim 3, further comprising: when a failure in which pressure is unable to be formed in the master cylinder unit is not detected prior to the braking of the vehicle by the ESC integrated braking system,checking, by the controller, whether a required braking force is generated through a pedal stroke sensor; anddetermining, by the controller, that the required braking force has not been generated if a pedal stroke is 0 as a result of the check and performing initial location control for maintaining the master cylinder unit in an initial state. 5. The method of claim 4, further comprising: if, the pedal stroke is not 0 as a result of the check,calculating, by the controller, required pressure corresponding to the pedal stroke value; andperforming, by the controller, pressure control over the master cylinder unit in accordance with the calculated required pressure by driving an actuator of the master cylinder unit. 6. The method of claim 5, further comprising: if pressure of the master cylinder unit corresponding to the pressure control is unable to be formed after the performing of the pressure control over the master cylinder unit in accordance with the calculated required pressure,checking, by the controller, whether the designated oil pressure relief valves are in a normal state; andimmediately switching, by the controller, the state of the designated oil pressure relief valves to the mechanical backup state if the designated oil pressure relief valves are not in the normal state as a result of the check of the states of the designated oil pressure relief valves. 7. The method of claim 1, wherein the designated oil pressure relief valves comprise: a fourth oil pressure relief valve for coupling the master cylinder unit and a flow channel of a front wheel-side circuit, anda fifth oil pressure relief valve for coupling the master cylinder unit and a flow channel of a rear wheel-side circuit. 8. The method of claim 6, further comprising: if the designated oil pressure relief valves are in the normal state,performing, by the controller, duty control over the designated oil pressure relief valves in a closed state; andcontrolling, by the controller, a sixth oil pressure relief valve to be in the closed state, the sixth oil pressure relief valve being a split block valve formed in a flow channel for coupling the designated oil pressure relief valves. 9. The method of claim 1, further comprising: in the maintaining of the braking force applied during the braking by closing the designated oil pressure relief valves for coupling the master cylinder unit and the flow channel of the circuit,in a state in which a pedal stroke continues to be input,controlling to continue to maintain, by the controller, the designated oil pressure relief valves in the closed state when the pressure of the pedal cylinder unit is smaller than the pressure of the circuit. 10. The method of claim 1, further comprising: after the maintaining of the braking force applied during the braking by closing the designated oil pressure relief valves for coupling the master cylinder unit and the flow channel of the circuit,when the brake pedal is released,performing, by the controller, duty control over the designated oil pressure relief valves in the open state in accordance with a released degree of the brake pedal. 11. The method of claim 1, wherein in the maintaining of the braking force applied during the braking by closing the designated oil pressure relief valves for coupling the master cylinder unit and the flow channel of the circuit, the controller releases the maintaining of the braking force when a required braking force does not occur because the driver does not step on the brake pedal or the pressure of the pedal cylinder unit is equal to or greater than the pressure of the circuit. 12. The method of claim 11, wherein when the maintaining of the braking force is released, the controller switches the state of the designated oil pressure relief valves to the mechanical backup state and turns on a warning lamp. 13. An electronic stability control (ESC) integrated braking system, the system comprising: a master cylinder unit;oil pressure relief valves;a pedal cylinder unit; anda controller,wherein, when a failure in which pressure is unable to be formed in the master cylinder unit is detected during braking of a vehicle by the ESC integrated braking system, the controller maintains a braking force applied during the braking by closing designated oil pressure relief valves for coupling the master cylinder unit and a flow channel of a circuit, andwherein, when pressure (PC1) of the pedal cylinder unit becomes equal to or greater than pressure (MC1) of the circuit based on the maintained braking force, by a brake pedal stepped on by a driver, the controller controls the designated oil pressure relief valves to be in an open state and then switches the state of the designated oil pressure relief valves to a mechanical backup state. 14. The system of claim 13, wherein the circuit is a flow channel comprising inlets valve and outlet valves for forming braking pressure in respective wheel cylinders of front wheels and rear wheels via the designated oil pressure relief valves. 15. The system of claim 13, wherein the controller immediately switches the state of the designated oil pressure relief valves to the mechanical backup state when the failure in which pressure is unable to be formed in the master cylinder unit is detected prior to the braking of the vehicle by the ESC integrated braking system. 16. The system of claim 15, wherein, when a failure in which pressure is unable to be formed in the master cylinder unit is not detected prior to the braking of the vehicle by the ESC integrated braking system, the controller checks whether a required braking force is generated through a pedal stroke sensor, and determines that the required braking force has not been generated if a pedal stroke is 0 as a result of the check and performs initial location control for maintaining the master cylinder unit in an initial state. 17. The system of claim 16, wherein, if the pedal stroke is not 0 as a result of the check, the controller calculates required pressure corresponding to the pedal stroke value, and performs pressure control over the master cylinder unit in accordance with the calculated required pressure by driving an actuator of the master cylinder unit. 18. The system of claim 13, wherein, in a state in which a pedal stroke continues to be input, the controller controls to continue to maintain the designated oil pressure relief valves in the closed state when the pressure of the pedal cylinder unit is smaller than the pressure of the circuit. 19. The system of claim 13, wherein, after maintaining the braking force applied during the braking by closing the designated oil pressure relief valves for coupling the master cylinder unit and the flow channel of the circuit, when the brake pedal is released, the controller performs duty control over the designated oil pressure relief valves in the open state in accordance with a released degree of the brake pedal. 20. The system of claim 13, wherein when maintaining the braking force applied during the braking by closing the designated oil pressure relief valves for coupling the master cylinder unit and the flow channel of the circuit, the controller releases the maintaining of the braking force when a required braking force does not occur because the driver does not step on the brake pedal or the pressure of the pedal cylinder unit is equal to or greater than the pressure of the circuit.
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