IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0761005
(2007-06-11)
|
등록번호 |
US-7748792
(2010-07-26)
|
발명자
/ 주소 |
- Crombez, Dale S.
- Gabor, Daniel A.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
9 |
초록
▼
A brake-by-wire automotive braking system includes a master cylinder connected to a number of wheel cylinders, with the master cylinder being actuated by a brake pedal assembly operatively connected with a master cylinder force simulator simulating the resistive force/displacement characteristics of
A brake-by-wire automotive braking system includes a master cylinder connected to a number of wheel cylinders, with the master cylinder being actuated by a brake pedal assembly operatively connected with a master cylinder force simulator simulating the resistive force/displacement characteristics of the master cylinder itself. An electronically controlled compliance device selectively immobilizes the master cylinder force simulator so that the resistive force provided by the simulator may be applied selectively to the brake pedal. This produces a transparency in the brake pedal's operational feel, notwithstanding the presence or absence of force provided by the master cylinder force simulator.
대표청구항
▼
What is claimed is: 1. An automotive braking system, comprising: a master cylinder connected to a plurality of wheel cylinders; a brake pedal assembly having a pedal attached to a rotating suspension, with said brake pedal being operatively connected with said master cylinder; and a master cylinder
What is claimed is: 1. An automotive braking system, comprising: a master cylinder connected to a plurality of wheel cylinders; a brake pedal assembly having a pedal attached to a rotating suspension, with said brake pedal being operatively connected with said master cylinder; and a master cylinder force simulator connected with said rotating suspension, with said force simulator comprising: a resilient element having a base and a resilient body extending from said base, with said resilient body being elastically deformable by said rotating suspension when said pedal is actuated with said base held stationary, such that a resistive force/displacement characteristic of said master cylinder is simulated and applied to said brake pedal; and an electronically controlled compliance device for selectively immobilizing the base of said resilient element, whereby resistive force provided by said resilient element to movement of said brake pedal may be applied selectively to said brake pedal. 2. A braking system according to claim 1, wherein said braking system functions with both friction braking and regenerative braking. 3. A braking system according to claim 1, further comprising a linear compliance device connected between said brake pedal assembly and said master cylinder. 4. A braking system according to claim 1, wherein said electronically controlled compliance device is electro-magnetically actuated. 5. A braking system according to claim 1, wherein said electronically controlled compliance device is mechanically actuated. 6. An automotive braking system having both friction braking and regenerative braking, comprising: a hydraulic master cylinder connected to a plurality of friction brake wheel cylinders; a brake pedal assembly having a pedal attached to a rotating suspension, with said brake pedal being operatively connected with said master cylinder; a linear compliance device connected between said brake pedal assembly and said master cylinder; and a master cylinder force simulator connected with said rotating suspension, with said force simulator comprising: a resilient element having a base and a resilient body extending from said base, with said resilient body being elastically compressed by said rotating suspension when said pedal is actuated with said base held stationary, such that a resistive force/displacement characteristic of said master cylinder is simulated and applied to said brake pedal; and an electronically controlled compliance device for selectively immobilizing the base of said resilient element, whereby resistive force provided by said resilient element to movement of said brake pedal may be applied selectively to said brake pedal. 7. A braking system according to claim 6, further comprising: a motor/generator, connected with at least one road wheel, for providing both tractive effort and regenerative braking; an energy storage device, connected with said motor/generator, for providing both tractive energy and for storing energy reclaimed during regenerative braking; and a controller, connected with said motor/generator, with said energy storage device, and with said electronically controlled compliance device, with said controller operating said electronically controlled compliance device such that said resistive force will be provided by said resilient element when said motor/generator is being operated regeneratively, but not when braking is being performed by said master cylinder and said wheel cylinders. 8. A braking system according to claim 7, wherein said motor/generator comprises a fluid motor/pump, and said energy storage device comprises a fluid accumulator. 9. A braking system according to claim 7, wherein said motor/generator comprises an electric motor/generator, and said energy storage device comprises a traction battery. 10. An automotive brake-by-wire system, comprising: a hydraulic master cylinder connected to a plurality of friction brake wheel cylinders; a brake pedal assembly having a pedal attached to a rotating suspension, with said brake pedal being operatively connected with said master cylinder; a linear compliance device connected between said brake pedal assembly and said master cylinder; a master cylinder force simulator connected with said rotating suspension, with said force simulator comprising: a resilient element having a base and a resilient body extending from said base, with said resilient body being elastically deformable by said rotating suspension when said pedal is actuated with said base held stationary, such that a resistive force/displacement characteristic of said master cylinder is simulated and applied to said brake pedal; and an electronically controlled, magnetically actuated compliance device for selectively immobilizing the base of said resilient element, whereby resistive force provided by said resilient element to movement of said brake pedal may be applied selectively to said brake pedal; a brake pedal position sensor; and a controller, operatively connected with said linear compliance device, as well as with said electronically controlled compliance device and said brake pedal position sensor, with said controller adapted to adjust said linear compliance device, and controlling said electronically controlled compliance device such that said master cylinder may be actuated directly by said brake pedal without resistance from said electronically controlled, magnetically actuated compliance device.
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