Patent ID: 9162655
Filing Date: 2015-10-20
Classification: B60T

Abstract:
1. A braking device for a vehicle comprising: a master cylinder which has a given length with a front and a rear, the master cylinder having a cylindrical cavity extending in a longitudinal direction of the master cylinder; an accumulator which connects with the cylindrical cavity of the master cylinder and in which brake fluid is stored under pressure; a reservoir which connects with the cylindrical cavity of the master cylinder and in which the brake fluid is stored; a master piston which is disposed in the cylindrical cavity to be slidable in a longitudinal direction thereof, the master piston having a front oriented toward the front of the master cylinder and a rear oriented to the rear of the master cylinder, the master piston defining a master chamber and a servo chamber within the cylindrical cavity, the master chamber being formed on a front side of the master piston and storing therein the brake fluid to be delivered to a brake device working to apply a frictional braking force to a wheel of a vehicle, the servo chamber being formed on a rear side of the master piston; a spool valve which is disposed on the rear side of the master piston within the cylindrical cavity of the master cylinder, the spool valve working to switch among a pressure-reducing mode, a pressure-increasing mode, and a pressure-holding mode, the pressure-reducing mode being to communicate between the servo chamber and the reservoir chamber, the pressure-increasing mode being to communicate between the servo chamber and the accumulator, the pressure-holding mode being to hermetically close the servo chamber; a brake actuating member which is disposed behind the master cylinder and to which a braking effort, as produced by a driver of the vehicle, is transmitted; an input piston which is disposed behind the spool valve to be slidable within the cylindrical cavity of the master cylinder, the input piston connecting with the brake actuating member and being moved in response to the braking effort transmitted from the brake actuating member to drive the spool valve; a braking simulator member which is disposed ahead of the input piston within the cylindrical cavity of the master cylinder, the braking simulator member working to urge the input piston rearward; a fail-safe cylinder which is disposed behind the master piston to be slidable in a longitudinal direction thereof within the cylindrical cavity of the master cylinder, the fail-safe cylinder including a first cylindrical portion and a second cylindrical portion disposed behind the first cylindrical portion, the second cylindrical portion being greater in outer diameter than the first cylindrical portion; a fail-safe spring which works to urge the fail-safe cylinder toward the front of the master cylinder; an operating rod which transmits the braking effort from the brake actuating member to the input piston; a first retainer which is of a hollow cylindrical shape and disposed around and away from an outer periphery of a front portion of the operating rod; a second retainer which is of a hollow cylindrical shape and secured to an outer periphery of a rear portion of the operating rod; a return spring which is disposed between the first and second retainers so as to urge the first retainer frontward and the second retainer rearward; a stopper which is of a cylindrical shape and supports rear ends of the fail-safe spring and the fail-safe cylinder to stop the fail-safe cylinder from advancing over a given allowable range; and a movable member which is disposed on a front end of the first retainer which faces the front of the master cylinder, the movable member having a front surface which is oriented to the front of the master cylinder and defines a pressing surface of a convex dome-shape, wherein the input piston is slidable in the fail-safe cylinder in a longitudinal direction thereof, wherein the master cylinder has a supply port which opens to an outer periphery of the first cylindrical portion and to which the brake fluid is supplied from the accumulator; wherein the master cylinder and the fail-safe cylinder have reservoir flow paths formed therein, the reservoir flow paths establishing fluid communication between the reservoir and a fluid chamber that is a portion of the cylindrical cavity and defined in front of the input piston inside the fail-safe cylinder when the fail-safe cylinder is in a rearmost position in the given allowable range, wherein when the brake fluid is being supplied from the accumulator to the supply port, force, as developed by pressure of the brake fluid and a difference in traverse cross-section between the first cylindrical portion and the second cylindrical portion, presses the fail-safe cylinder rearward in the master cylinder to place the fail-safe cylinder at the rearmost position, wherein when the brake fluid is not being supplied from the accumulator to the supply port, the fail-safe cylinder is urged by the fail-safe spring frontward to block the reservoir flow path to hermetically close the fluid chamber defined ahead the input piston inside the fail-safe cylinder, thereby allowing the fail-safe cylinder to press the master piston in response to the braking effort transmitted to the input piston, wherein the stopper has a concave dome-shaped seat formed in a rear end thereof facing the rear of the master cylinder, and wherein the pressing surface is placed in slidable contact with the seat of the stopper.