A master piston for a hydraulic vehicle brake is arranged in a master cylinder of the hydraulic vehicle brake and is movable in a reciprocal manner along a master piston longitudinal axis. The master piston has at least one piston element and a seal which is injection molded onto the piston element. The master piston has at least one guide portion for guiding the master piston in the master cylinder. The guide portion is elastically deformable at least in some portions in a radial direction to the master piston longitudinal axis. The guide portion is formed at least partially from a different material from the piston element. The piston element, the seal and the guide portion are produced together by a multi-component injection molding method. A method for producing the master piston is disclosed.

A hydraulic braking device comprising a master cylinder and a brake booster. The braking device comprises a control piston driven by actuating a brake pedal and mounted so as to be tightly slidable in a plunger of a piston of the brake booster. The control piston comprises a first end portion having a certain cross-sectional area and being arranged to cooperate with a gasket so as to establish, during braking, a modulated communication between the first chamber of the brake booster and a discharge chamber of the master cylinder. The braking device has an effective cross-sectional area counter-acting a pressure existing in a region comprised between a master cylinder piston and the control piston. Such area is different from the cross-sectional area of the first end portion of the control piston.

To prevent occurrence of contamination at the time of press-inserting and fixing a guide ring that guides sliding of a piston. In a brake hydraulic pressure control apparatus (1) including: a base body (2) having a cylinder hole (3); a piston (5) fitted to the cylinder hole (3) in a freely slidable manner; and a guide ring (8) attached to an opening (9) of the cylinder hole (3) and guiding sliding of the piston (5), the guide ring (8) has: a flange portion (8e) in a lower surface (8b) opposing the cylinder hole (3), the flange portion (8e) expanding in a radial direction of the guide ring (8); and bulged portions (8c) arranged at equally-spaced intervals to an outer circumferential surface (8d) of the guide ring (8) and each bulged outward in the radial direction of the guide ring (8) when compared to the flange portion (8e). When seen from a cross section in an axial direction (Ax) of the guide ring (8), each of the bulged portions (8c) has a tapered portion (8f) expanding in the radial direction of the guide ring (8) from the lower surface (8b) toward an upper surface (8a) of the guide ring (8).

A brake system has a wheel brake and is operable under a non-failure normal braking mode and a manual push-through mode. The system includes a master cylinder operable by a brake pedal during a manual push-through mode to provide fluid flow at an output for actuating the wheel brake. A first source of pressurized fluid provides fluid pressure for actuating the wheel brake under a normal braking mode. A secondary brake module includes a plunger assembly for generating brake actuating pressure for actuating the wheel brake under the manual push-through mode.

A pedal unit includes an accelerator pedal, a brake pedal, a first bracket, a second bracket, and a connector. The first bracket includes a first plate including a first surface and a second surface that rotatably supports the accelerator pedal disposed adjacent to the first surface and the brake pedal disposed adjacent to the second surface. The second bracket includes a second plate including a third surface that rotatably supports the brake pedal disposed adjacent to the third surface of the second plate. The connector connects the first bracket, the brake pedal, and the second bracket in a state in which the brake pedal is disposed between the second surface and the third surface.

Braking systems and methods having above atmospheric pressure applied to the working hydraulic fluid of the braking system. In certain preferred arrangements, the braking system includes at least one source of pressure, which pressurizes a fluid. The pressurized fluid acts on respective pressure surfaces of the master plunger(s) and the slave piston(s) that are opposite the active or working surfaces of the master plunger(s) and the slave piston(s).

A cylinder apparatus for a brake may include: a piston configured to reciprocate in a cylinder body; a rod coaxially coupled to the piston; a stopper disposed in the cylinder body with the rod penetrated and inserted into the stopper; and an elastic member disposed between the piston and the stopper and configured to elastically support the piston in a direction away from the stopper. The piston and the rod may be integrally formed by injection molding.

The present disclosure relates to a friction member and a master cylinder including the same. The master cylinder includes a cylinder body with a bore formed therein, a piston configured to move forward and backward in the bore and protrude a portion thereof from the cylinder body, a housing configured to surround the protruding portion of the piston and having a through hole formed therein such that an input rod connected to a brake pedal to press the piston is inserted, a friction member provided between the housing and the piston to increase a frictional force with the piston when the piston moves forward and backward, and a pedal simulator connected to the piston to provide a repulsive force to the brake pedal.

A hydraulic master apparatus for a hydraulic brake or clutch of handlebar-guided vehicles having a handlebar tube includes a support, a lever pivotally connected to the support, a hydraulic cylinder sized to fit in the handlebar tube and having a piston, and a pulling device configured to exert a pulling force on the piston when the lever is actuated. The apparatus also includes a grip width adjusting apparatus, by which a distance between the support for the lever and the hydraulic cylinder is adjusted to adjust a grip width. Also included is a cover that, responsive to being connected in the handlebar tube, defines with the hydraulic cylinder in the handlebar tube a compensating chamber therebetween.

Disclosed is a master cylinder for a vehicle brake. The master cylinder includes a cylinder body provided with a hollow bore, a primary piston configured to perform a reciprocating motion in the hollow bore in linkage with a pedal, a secondary piston configured to move in linkage with the motion of the primary piston, and a Brake Light Stop (BLS) sensor module comprising a magnet provided at the primary piston and provided in a ring shape, and a hall sensor installed at an outer side of the cylinder body to correspond to the magnet and configured to control on/off operations of a brake lamp by sensing a magnetic flux density according to the reciprocating motion of the primary piston, wherein the magnet has both sides thereof supported by the primary piston and a return spring that is provided between the primary piston and the secondary piston, respectively.