Patent ID: 7325886
Filing Date: 2008-02-05
Classification: B60T

Abstract:
1. A vehicular brake control system comprising: a master cylinder for generating brake fluid pressure based on an operation of a brake operating member by a driver; a plurality of wheel cylinders for generating braking force based on the brake fluid pressure generated by the master cylinder; main brake conduits for connecting the master cylinder with the plurality of wheel cylinders; a plurality of pressure increase control valves, a respective one of the plurality of pressure increase control valves provided for a respective one of the plurality of wheel cylinders in the main brake conduits, the plurality of pressure increase control valves controlling the brake fluid pressure applied to the plurality of wheel cylinders; pressure decrease conduits provided corresponding to the plurality of wheel cylinders and which are connected between the plurality of wheel cylinders and the plurality of pressure increase control valves in the main brake conduits; auxiliary brake conduits for supplying brake fluid; reservoirs which are connected to the auxiliary brake conduits and the pressure decrease conduits; a plurality of pressure decrease control valves provided in each of the pressure decrease conduits; recirculation conduits for connecting a portion between the reservoirs and the plurality of pressure decrease control valves in the pressure decrease conduits, and a portion between the plurality of pressure increase control valves and the master cylinder in the main brake conduits; pumps provided in the recirculation conduits, which recirculate brake fluid stored in the reservoirs to the main brake conduits; a motor for driving the pumps; differential pressure control valves provided between the master cylinder and points where the recirculation conduits are connected in the main brake conduits; and a control portion which controls a current supplied to the motor and also controls a current supplied to a solenoid coil provided in each of the differential pressure control valves, the plurality of pressure increase control valves, and the plurality of pressure decrease control valves in order to drive each of these valves, wherein the control portion supplies a current to the motor and the solenoid coils of the differential pressure control valves during TCS control so as to create a differential pressure between the brake fluid pressure on the master cylinder side and the brake fluid pressure on the wheel cylinder side while suppressing the driving force by driving the pumps and applying brake fluid pressure to the wheel cylinders among the plurality of wheel cylinders that correspond to driven wheels, and during this TCS control, the control portion sets, according to an instruction current value indicating a value of the current supplied to the differential pressure control valves, a value of the current supplied to the solenoid coils of the pressure increase control valves among the plurality of pressure increase control valves that are used to control the brake fluid pressure of the plurality of wheel cylinders corresponding to non-driven wheels.