Vehicle braking system
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0565761
(2014-12-10)
|
등록번호 |
US-9889830
(2018-02-13)
|
우선권정보 |
JP-2013-255688 (2013-12-11) |
발명자
/ 주소 |
- Ohmura, Kazutaka
- Kojima, Takeshi
- Futamura, Tomoyuki
|
출원인 / 주소 |
|
대리인 / 주소 |
Carrier Blackman & Associates, P.C.
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
6 |
초록
▼
In a vehicle braking system for stabilizing vehicle behavior: a motor control unit determines whether or not the motor control unit receives a drive forbid signal from a yaw-moment control unit, when the motor control unit receives a drive instruction signal from a vehicle-behavior stabilization con
In a vehicle braking system for stabilizing vehicle behavior: a motor control unit determines whether or not the motor control unit receives a drive forbid signal from a yaw-moment control unit, when the motor control unit receives a drive instruction signal from a vehicle-behavior stabilization control unit. The motor control unit receives the drive forbid signal when the yaw-moment control unit performs yaw-moment control. The motor control unit forbids prepressurization using a slave cylinder, when the motor control unit receives the drive forbid signal.
대표청구항
▼
1. A brake-by-wire vehicle braking system for a vehicle, said braking system comprising: a hydraulic-pressure generation device comprising a slave cylinder operated by an electric motor, which communicates with a master cylinder and which is configured to generate a normal braking force with hydraul
1. A brake-by-wire vehicle braking system for a vehicle, said braking system comprising: a hydraulic-pressure generation device comprising a slave cylinder operated by an electric motor, which communicates with a master cylinder and which is configured to generate a normal braking force with hydraulic pressure by operating the electric motor;a vehicle-behavior stabilization device which communicates with the hydraulic-pressure generation device and which is configured to generate a first modified braking force for stabilizing a vehicle behavior;a first vehicle-behavior stabilization control unit which is configured to perform a first control for stabilizing the vehicle behavior by controlling the vehicle-behavior stabilization device, the first control including pre-pressurization of said slave cylinder;a hydraulic-pressure generation control unit which controls the hydraulic-pressure generation device so as to generate a target hydraulic pressure during the first control for stabilizing the vehicle behavior performed by the first vehicle-behavior stabilization control unit; anda second vehicle-behavior stabilization control unit which is configured to perform a second control for stabilizing the vehicle behavior by generating, at each of a plurality of wheels of the vehicle, a second modified braking force which is lower than the first modified braking force generated by the vehicle-behavior stabilization device under the first control of the first vehicle-behavior stabilization control unit;wherein, during the second control for stabilizing the vehicle behavior performed by the second vehicle-behavior stabilization control unit, the hydraulic-pressure generation control unit either forbids generation of the target hydraulic pressure by the hydraulic-pressure generation device or reduces the target hydraulic pressure;wherein the first vehicle behavior stabilization control unit is configured to determine whether the vehicle behavior corresponds to a first value set which is in a vehicle-behavior stabilization control region of a map stored in a memory of the vehicle braking system on the basis of sensed values of steering speed and steering angle, and if the first value set is in the vehicle-behavior stabilization control region, to perform the first control for stabilizing the vehicle behavior by controlling the vehicle-behavior stabilization device; andwherein the second vehicle-behavior stabilization control unit is configured to determine whether the vehicle behavior corresponds to a second value set which is in a yaw-moment control region of the map stored in the memory of the vehicle braking system, the yaw-moment control region being different from and having no overlapping regions with the vehicle-behavior stabilization control region, on the basis of the sensed values of steering speed and steering angle, and if the second value set is in the yaw-moment control region, to perform the second control for stabilizing the vehicle behavior by generating the second modified braking force. 2. The vehicle braking system according to claim 1, wherein the hydraulic-pressure generation control unit brings the target hydraulic pressure generated by the hydraulic-pressure generation device to zero during the second control for stabilizing the vehicle behavior performed by the second vehicle-behavior stabilization control unit. 3. The vehicle braking system as claimed in claim 1, wherein the second control performed by the second vehicle-behavior stabilization control unit comprises a feedforward control. 4. A brake-by-wire vehicle braking system for a vehicle, said braking system comprising: a plurality of sensors including a steering angle sensor and a yaw-rate sensor;a hydraulic-pressure generation device comprising a slave cylinder operated by an electric motor, which communicates with a master cylinder and which is configured to generate a normal braking force with hydraulic pressure by operating the electric motor;a vehicle-behavior stabilization device which communicates with the hydraulic-pressure generation device and which is configured to generate a first modified braking force for stabilizing a vehicle behavior;a first vehicle-behavior stabilization control unit which is configured to selectively perform a first control for stabilizing the vehicle behavior by controlling the vehicle-behavior stabilization device, the first control including pre-pressurization of said slave cylinder, the first vehicle behavior stabilization control unit configured to determine whether the vehicle behavior corresponds to a first value set which is in a vehicle-behavior stabilization control region of a map stored in a memory of the vehicle braking system on the basis of sensed values of steering speed and steering angle, and if the first value set is in the vehicle-behavior stabilization control region, to perform the first control by controlling the vehicle-behavior stabilization device;a hydraulic-pressure generation control unit which controls the hydraulic-pressure generation device so as to generate a target hydraulic pressure during the first control for stabilizing the vehicle behavior performed by the first vehicle-behavior stabilization control unit;a second vehicle-behavior stabilization control unit which is configured to selectively perform a second control for stabilizing the vehicle behavior by generating, at each of a plurality of wheels of the vehicle, a second modified braking force which is lower than the first modified braking force generated by the vehicle-behavior stabilization device under the first control, the second vehicle-behavior stabilization control unit configured to determine whether the vehicle behavior corresponds to a second value set which is in a yaw-moment control region of the map stored in the memory of the vehicle braking system, the yaw moment control region being different from and having no overlapping regions with the vehicle-behavior stabilization control region, on the basis of the sensed values of steering speed and steering angle, and if the second value set is in the yaw moment control region, to perform the second control for stabilizing the vehicle behavior by generating the second modified braking force; anda selection switch for selecting either the first control unit or second control unit to stabilize the vehicle behavior, based on input received from said sensors;wherein, during operation of the second control for stabilizing the vehicle behavior, the hydraulic-pressure generation control unit either forbids generation of the target hydraulic pressure by the hydraulic-pressure generation device or reduces the target hydraulic pressure.
이 특허에 인용된 특허 (6)
-
Cox Joseph H. (Chesterfield MO) Killeen Richard A. (St. Charles MO) Hierholzer Brian K. (Hazelwood MO) Roloff Paul W. (St. Charles MO) Olsen Michael A. (Lake St. Louis MO), Automatic hydraulic lift circuit.
-
Mamoru Sawada JP, Brake control device.
-
Wachi Yuzi,JPX ; Fukushima Toshiaki,JPX, Brake system.
-
Sakamoto Shigeru,JPX ; Ohnuma Yutaka,JPX ; Itoh Kenji,JPX ; Suzuki Masakuni,JPX ; Sawada Kouichi,JPX ; Isono Hiroshi,JPX ; Noguchi Noboru,JPX, Braking device.
-
Hatano, Kunimichi; Ohnishi, Takaaki, Slave cylinder.
-
Matsuda Shohei,JPX, Vehicle behavior control system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.