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Electric Brake System
| Content Provider | The Lens |
|---|---|
| Abstract | Disclosed is an electric brake system. The electric brake system includes a master cylinder including first and second chambers, and first and second pistons disposed at the first and second chambers, respectively; a simulation device connected to the master cylinder and configured to provide a reaction force according to pedal effort of a brake pedal; a hydraulic pressure supply device configured to generate a hydraulic pressure by a hydraulic piston which is operated by an electrical signal that is output to correspond to displacement of the brake pedal; a hydraulic pressure control unit configured to deliver the hydraulic pressure discharged from the hydraulic pressure supply device to a wheel cylinder provided at each of wheels; a first backup flow path and a second backup flow path configured to connect the master cylinder and the hydraulic pressure control unit; a first cut valve and a second cut valve configured to control delivery of a hydraulic pressure of the first and second backup flow paths; an electronic control unit (ECU); a first pressure sensor installed between the first chamber of the master cylinder and the first cut valve; and a second pressure sensor installed at the first hydraulic flow path, the second hydraulic flow path, or the hydraulic pressure control unit, wherein, in a state in which the second cut valve is closed and the outlet valve, which is connected to the second backup flow path, is opened, to discharge the hydraulic pressure in the hydraulic pressure control unit connected to the second hydraulic flow path, the ECU operates the hydraulic pressure supply device to generate a pressure in the first chamber, and when a measured value of the second pressure sensor is less than an expected value, the ECU determines that the second piston of the master cylinder is stuck. |
| Related Links | https://www.lens.org/lens/patent/011-591-780-570-035/frontpage |
| Language | English |
| Publisher Date | 2019-12-24 |
| Access Restriction | Open |
| Content Type | Text |
| Resource Type | Patent |
| Jurisdiction | United States of America |
| Date Applied | 2017-10-23 |
| Agent | Ladas & Parry, Llp |
| Applicant | Mando Corp |
| Application No. | 201715791304 |
| Claim | An electric brake system comprising: a master cylinder including first and second chambers which are formed inside the master cylinder and configured to communicate with a reservoir which stores oil, and first and second pistons disposed at the first and second chambers, respectively, and configured to discharge oil by movements of the first and second pistons according to pedal effort of a brake pedal; a simulation device connected to the master cylinder and configured to provide a reaction force according to the pedal effort of the brake pedal; a hydraulic pressure supply device configured to generate a hydraulic pressure by a hydraulic piston which is operated by an electrical signal that is output to correspond to displacement of the brake pedal; a hydraulic pressure control unit configured to deliver the hydraulic pressure discharged from the hydraulic pressure supply device to wheel cylinders provided at each of wheels, and including an inlet valve provided at a flow path connecting the hydraulic pressure supply device and at least one of the wheel cylinders, and an outlet valve provided at a flow path connecting between the inlet valve, at least one of the wheel cylinders, and the reservoir; a first backup flow path configured to connect the first chamber of the master cylinder and the hydraulic pressure control unit and connected to a first hydraulic flow path that is connected to the hydraulic pressure supply device; a second backup flow path configured to connect the second chamber of the master cylinder and the hydraulic pressure control unit and connected to a second hydraulic flow path that is connected to the hydraulic pressure supply device; a first cut valve provided between the first chamber of the master cylinder and a position at which the first hydraulic flow path is connected to the first backup flow path, and configured to control delivery of a hydraulic pressure; a second cut valve provided between the second chamber of the master cylinder and a position at which the second hydraulic flow path is connected to the second backup flow path, and configured to control delivery of a hydraulic pressure; an electronic control unit (ECU) configured to control valves on the basis of hydraulic pressure information and displacement information of the brake pedal; and a first pressure sensor installed between the first chamber of the master cylinder and the first cut valve, and a second pressure sensor installed at the first hydraulic flow path, the second hydraulic flow path, or the hydraulic pressure control unit, wherein, in a state in which the second cut valve is closed and the outlet valve, which is connected to the second backup flow path, is open, to discharge the hydraulic pressure in the hydraulic pressure control unit connected to the second hydraulic flow path, the ECU operates the hydraulic pressure supply device to generate a pressure in the first chamber, and when a measured value of the second pressure sensor is less than an expected value, the ECU determines that the second piston of the master cylinder is stuck. The electric brake system of claim 1 , wherein the ECU compares a measured value of the first pressure sensor with the measured value of the second pressure sensor, and when the measured value of the second pressure sensor is less than the measured value of the first pressure sensor, the ECU determines that the second piston of the master cylinder is stuck. The electric brake system of claim 1 , further comprising: a check valve provided at a reservoir flow path connecting the reservoir and the master cylinder, and configured to allow fluid to flow only in a direction from the reservoir to the master cylinder; and an inspection valve installed at a bypass flow path connecting front and rear sides of the check valve on the reservoir flow path. The electric brake system of claim 1 , further comprising a simulator valve configured to open and close a flow path between the master cylinder and the simulation device, wherein the ECU controls the simulator valve to be in a closed state before operating the hydraulic pressure supply device. The electric brake system of claim 1 , wherein the ECU controls the inlet valve to be in a closed state. An electric brake system comprising: a master cylinder including first and second chambers which are formed inside the master cylinder and configured to communicate with a reservoir which stores oil, and first and second pistons disposed at the first and second chambers, respectively, and configured to discharge oil by movements of the first and second pistons according to pedal effort of a brake pedal; a simulation device connected to the master cylinder and configured to provide a reaction force according to the pedal effort of the brake pedal; a hydraulic pressure supply device configured to generate a hydraulic pressure by a hydraulic piston which is operated by an electrical signal that is output to correspond to displacement of the brake pedal; a hydraulic pressure control unit configured to deliver the hydraulic pressure discharged from the hydraulic pressure supply device to wheel cylinders provided at each of wheels, and including an inlet valve provided at a flow path connecting the hydraulic pressure supply device and at least one of the wheel cylinders, and an outlet valve provided at a flow path connecting between at least one of the wheel cylinders, and the reservoir; a first backup flow path configured to connect the first chamber of the master cylinder and the hydraulic pressure control unit and connected to a first hydraulic flow path that is connected to the hydraulic pressure supply device; a second backup flow path configured to connect the second chamber of the master cylinder and the hydraulic pressure control unit and connected to a second hydraulic flow path that is connected to the hydraulic pressure supply device; a first cut valve provided between the first chamber of the master cylinder and a position at which the first hydraulic flow path is connected to the first backup flow path, and configured to control delivery of a hydraulic pressure; a second cut valve provided between the second chamber of the master cylinder and a position at which the second hydraulic flow path is connected to the second backup flow path, and configured to control delivery of a hydraulic pressure; an electronic control unit (ECU) configured to control valves on the basis of hydraulic pressure information and displacement information of the brake pedal; and a first pressure sensor installed between the second chamber of the master cylinder and the second cut valve, and a second pressure sensor installed at the first hydraulic flow path, the second hydraulic flow path, or the hydraulic pressure control unit, wherein, in a state in which the second cut valve is closed, the ECU operates the hydraulic pressure supply device to generate a pressure in the first chamber, and when a measured value of the first pressure sensor is less than an expected value, the ECU determines that air is present in the first chamber of the master cylinder. The electric brake system of claim 6 , wherein, in a state in which the inlet valve connected to the second backup flow path is closed to block a flow path between the hydraulic pressure supply device and the at least one of the wheel cylinders, the ECU operates the hydraulic pressure supply device to generate a pressure in the first chamber, and when the measured value of the first pressure sensor is less than the expected value, the ECU determines that air is present in the first chamber of the master cylinder. The electric brake system of claim 6 , further comprising: a check valve provided at a reservoir flow path connecting the reservoir and the master cylinder, and configured to allow fluid to flow only in a direction from the reservoir to the master cylinder; and an inspection valve installed at a bypass flow path connecting front and rear sides of the check valve on the reservoir flow path. The electric brake system of claim 6 , further comprising a simulator valve configured to open and close a flow path between the master cylinder and the simulation device, wherein the ECU controls the simulator valve to be in a closed state before operating the hydraulic pressure supply device. The electric brake system of claim 6 , wherein the ECU controls the inlet valve to be in a closed state. |
| CPC Classification | Vehicle Brake Control Systems Or Parts Thereof;Brake Control Systems Or Parts Thereof; In General ;Arrangement Of Braking Elements On Vehicles In General;Portable Devices For Preventing Unwanted Movement Of Vehicles;Vehicle Modifications To Facilitate Cooling Of Brakes Indexing Scheme Relating To Aspects Cross-Cutting Vehicle Technology |
| Examiner | Melody M Burch |
| Extended Family | 011-591-780-570-035 105-320-919-791-830 029-626-977-485-724 057-664-950-671-773 015-793-984-603-733 003-283-166-651-922 166-940-489-006-790 |
| Patent ID | 10513249 |
| Inventor/Author | Kim Hyun-ho |
| IPC | B60T13/68 B60T7/04 B60T8/00 B60T8/17 B60T8/40 B60T8/88 B60T8/90 B60T13/14 B60T13/66 B60T13/74 |
| Status | Active |
| Owner | Hl Mando Corporation |
| Simple Family | 011-591-780-570-035 105-320-919-791-830 029-626-977-485-724 057-664-950-671-773 015-793-984-603-733 003-283-166-651-922 166-940-489-006-790 |
| CPC (with Group) | B60T13/662 B60T8/4081 B60T13/745 B60T2270/404 B60T13/686 B60T7/042 B60T8/00 B60T8/17 B60T8/90 B60T13/146 B60T2270/403 B60T17/221 B60T8/171 B60T11/22 B60T15/028 B60Y2400/306 B60T8/88 B60T13/142 |
| Issuing Authority | United States Patent and Trademark Office (USPTO) |
| Kind | Patent/New European patent specification (amended specification after opposition procedure) |
