Patent ID: 6056372
Filing Date: 2000-05-02
Classification: B60T,Y10S

Abstract:
A braking system of diagonal type of a motor vehicle having front right and left wheels and rear right and left wheels, said braking system having two pressure application sub-systems connected to respective two mutually independent pressurizing chambers of a master cylinder, one of said two sub-systems including a front right wheel brake cylinder for braking said front right wheel and a rear left wheel brake cylinder for braking said rear left wheel, while the other of said two sub-systems including a front left wheel brake cylinder for braking said front left wheel and a rear right wheel brake cylinder for braking said rear right wheel, each of said two sub-systems further including a front brake cylinder passage connecting said master cylinder and said front wheel brake cylinder, a rear brake cylinder passage connecting said front brake cylinder passage and said rear wheel brake cylinder, a first solenoid-operated valve device disposed in a portion of said front brake cylinder passage between said master cylinder and a point of connection between said front and rear brake cylinder passages, a second solenoid-operated valve device disposed in said rear brake cylinder passage and having an open and a closes state, a reservoir passage connected at one end thereto to a portion of said rear brake cylinder passage between said second solenoid-operated valve device and said rear wheel brake cylinder, a reservoir connected to the other end of said reservoir passage, a third solenoid-operated valve device disposed in said reservoir passage and having an open and a closed state, a pump passage connected at one end thereto to said reservoir and at the other end to a portion of said front brake cylinder passage between said first solenoid-operated valve device and said front wheel brake cylinder or a portion of said rear brake cylinder passage between said second solenoid-operated valve device and said point of connection, and a pump disposed in said pump passage, for pressurizing a fluid received from said reservoir, wherein an improvement comprises:a controller for controlling said first, second and third solenoid-operated valve devices and said pump of said each sub-system, to control a braking pressure in each of the front and rear wheel brake cylinders of said each sub-system, said controller including solenoid valve control means for alternately placing said third solenoid-operated valve device in said open and closed states in a predetermined switching pattern while at the same time holding said second solenoid-operated valve device in said open state or alternately placing said second solenoid-operated valve device in said open and closed states in a predetermined switching pattern;wherein said controller includes (a) control mode selecting means for selecting one of a plurality of pressure control modes for each of said front and rear wheel brake cylinders of said each sub-system, depending upon a slipping condition of said each wheel, said pressure control modes including a pressure decrease mode, a pressure increase mode and a pressure hold mode in which the braking pressure in the corresponding wheel brake cylinder is decreased, increased and held constant, respectively, and (b) solenoid valve opening and closing means for controlling said first second and third solenoid-operated valve devices according to the pressure control mode selected for said each wheel brake cylinder, said solenoid valve control means including a basic control portion for establishing the selected pressure control mode by holding each of said first, second and third solenoid-operated valve devices in a predetermined one of the open and closed states, and an auxiliary control portion for establishing said selected pressure control mode by alternately placing each of at least one of said first, second and third solenoid-operated valve devices in the open and closed states, said auxiliary control portion comprising said solenoid valve control means;wherein said controller controls said first, second an third solenoid-operated valve devices so as to control the braking pressure in each of the wheel brake cylinders in an anti-lock fashion so as to prevent an excessive amount of slip of the corresponding wheel during braking of the motor vehicle, said solenoid valve control means comprising front pseudo-hold means for establishing a pseudo-hold mode for said front wheel brake cylinder when said pressure hold mode is selected by said control mode selecting means for said front wheel brake cylinder, irrespective of the pressure control mode selected for said rear wheel brake cylinder, said front pseudo-hold mode being established by alternately placing at least said third solenoid-operated valve device in said open and closed states, so that the braking pressure in said front wheel brake cylinders is held constant in said pseudo-hold mode.