A hydraulic unit for generating brake pressure for a hydraulic brake system, comprising a housing which is produced from a cast blank, wherein the cast blank has at least one receiving cavity which is provided for machining to form a receiving profile for sealingly receiving a connecting piece, which is connected to a fluid container and can be plugged into the receiving profile along a plug-in axis, wherein the housing comprises at least one piston bore for receiving at least one piston, which is driven along a piston bore axis into the cast blank.

The present invention relates to an actuator device (1) for a hydraulic brake/clutch actuation system of a motorcycle, comprising a secondary support structure (21) provided with at least a secondary chamber (211), a secondary piston (22) arranged within the secondary support structure (21) and able to be moved within the secondary chamber (211) between a secondary resting position and a secondary working position, and vice versa, a secondary actuating pin (23) solidly coupled to the secondary piston (22) and arranged outside the secondary support structure (21), wherein the free end (231) of the secondary actuating pin (23) is distanced from the secondary support structure (21) when the secondary piston (22) is in the secondary working position and is arranged at the secondary support structure (21) when the secondary piston (22) is in the secondary resting position, a secondary elastic element (24) arranged within the secondary support structure (21) and able to maintain the secondary piston (22) in the secondary working position when not actuated, wherein the primary chamber (111) and the secondary chamber (211) are arranged in fluid communication so that the secondary piston (22) is arranged from the secondary working position to the secondary resting position by the movement of a hydraulic fluid when the primary piston (12) is actuated from the primary resting position to the primary working position, and wherein the secondary elastic element (24) is arranged within the secondary chamber (211).

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.

The present disclosure relates to a method for producing a brake force device for a vehicle brake system, in which a housing is produced, wherein a recess is formed in the housing, wherein a piston device is arranged in the recess, wherein the piston device is movably guided in the axial direction of a longitudinal axis of the recess and along a specified maximum stroke path, and the length of the maximum stroke path of the piston device is modified for different embodiments of the brake force device. In order to improve and/or to simplify the implementation of different embodiments of the brake force device.

Disclosed herein an electronic brake system includes a first block in which a mechanical unit operated mechanically in association with a brake pedal is disposed; a second block in which an electrical unit electronically operated and controlled by an electronic control unit is disposed; and a connection line configured to hydraulically connect the first block and the second block, and the first block and the second block are installed at positions spaced apart in a vehicle so that mountability of the brake system and the degree of freedom in design of the vehicle may be improved.

Provided is a master cylinder for an electronic brake system. The master cylinder for the electronic brake system includes a pedal simulator provided between a first master piston and a second master piston and having a rubber member that provides reaction force to a brake pedal, and the first master piston includes a first piston and a second piston coupled to be movable relative to each other and having a communication channel to allow a pressing medium to flow between a reservoir and a first master chamber, a communication channel sealing member configured to block a portion of the communication channel according to a relative movement of the first piston and the second piston, and an elastic member configured to provide elastic force in a direction in which the first piston and the second piston are spaced apart.

A hydraulic block for a hydraulic unit of a slip-controlled, hydraulic power vehicle braking system including a primary piston, which protrudes from the hydraulic block and at which a pin-shaped signal generator holder for a permanent magnet is situated. The primary piston and the signal generator holder are enclosed with a tubular housing the shape of a cylindrical bowl, at which abut two converging, tangential walls.

The present disclosure in at least one embodiment provides an electromechanical braking apparatus including a rod configured to translate in response to a depression of a brake pedal, a master cylinder configured to receive brake oil and to be responsive to insertion of the rod for discharging the brake oil, a motor, and a gear mechanism having at least some part connected to the master cylinder and at least some other part connected to the motor, wherein the gear mechanism including an upper housing configured to receive at least some portion of a plurality of gears, and a lower housing coupled to the upper housing and configured to receive at least some other portion of the plurality of gears.

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 master cylinder for a brake may include: a cylinder housing a first piston installed in the cylinder housing, and movable by an operation force received from a brake pedal; and a second piston within the cylinder housing, and movable in connection with the first piston, wherein the first piston comprises: a first piston body partially within the cylinder housing; and a booster connection within the direction opposite to that in which the first piston body faces the second piston, integrated with the first piston body, and connected to a booster so as to receive the operation force of the brake pedal.