Disclosed herein are a brake fluid pressure sensor validity determination device and a determination method thereof. According to an embodiment of the present disclosure, the brake fluid pressure sensor validity determination device and the determination method thereof includes an inputter configured to receive a brake fluid pressure sensor value sensed by a brake fluid pressure sensor and receive a motor position sensor value sensed by a motor position sensor, an estimator configured to estimate a brake fluid pressure value on the basis of the motor position sensor value when the motor position sensor has not failed; and a determiner configured to determine whether the brake fluid pressure sensor has failed, determine whether the motor position sensor has failed when the brake fluid pressure sensor has not failed, and determine a validity of the brake fluid pressure sensor by comparing the estimated brake fluid pressure value with a brake fluid pressure sensor value.

A method for determining a leakage in a hydraulic brake system in a vehicle includes evaluating a suspected leakage in the hydraulic brake system and taking into account an actuation of an automated hand brake during the evaluation of the suspected leakage. The hydraulic brake system has a hydraulic footbrake and the automated hand brake has an electromechanical actuator. The hydraulic footbrake and the automated hand brake are configured to act on the same brake piston.

A brake device for a vehicle includes a fluid supply portion that supplies a fluid to a wheel cylinder utilizing the fluid in a reservoir and is configured such that a piston presses brake pads against a disc rotor to apply a braking force to a wheel. The brake device includes: a fluid level sensor configured to measure a value of a fluid level in the reservoir and a controller including one or more processors and configured to: estimate a wear amount of the brake pads based on a result of measurement by the fluid level sensor; estimate a heat generation amount of the brake pads based on the result of measurement; and determine whether a fluid leakage is occurring based on i) an amount of change in the fluid level that is based on the result of the measurement, ii) the wear amount, and iii) the heat generation amount.

Disclosed herein is a front mounted-type reservoir assembly installed on a front surface of a hydraulic block of an integrated dynamic brake system including a main reservoir tank that is provided with a main reservoir chamber that stores brake oil therein, and a plurality of oil ports, through which the brake oil flows in and out, on a front surface of the main reservoir tank, wherein at least one partition wall is provided in the main reservoir tank to partition the main reservoir chamber into a plurality of regions, and at least one separation wall is provided in at least one of the plurality of partitioned reservoir chambers to increase flow resistance of the brake oil.

A method for controlling a brake system in the case of leaks is provided. The brake system has a mechanically actuable master brake cylinder, which is connected to a first partial reservoir of a brake fluid vessel, and has an electric linear actuator, which is connected to a second partial reservoir of the brake fluid vessel. The master brake cylinder and the linear actuator are connected via an electrically closable circuit isolating valve. In order to protect the brake fluid, in the event of a leak during a transition to a standby state, the linear actuator is activated to take a brake fluid volume out of the first partial reservoir via the open circuit isolating valve and to displace it into the second partial reservoir.

A vehicle braking system includes brakes, a body, a braking linkage, a service brake comprising a braking piston movable relative to the body to act on the braking linkage and delimiting a service brake pressure chamber to place the braking piston in a service braking position. A parking brake acts on the braking piston and has a working configuration and a resting configuration. The parking brake includes a blocking device movable relative to the body to act on the braking piston and having a first position and a second position in which the blocking device is configured to immobilize the braking piston in a service braking position. A control device is movable relative to the body and has a locking position to hold the blocking device in the second position. A service brake indicator device receives information representing supply and/or venting of the service brake pressure chamber.

Disclosed is an oil leak detecting method of a brake system and an oil leak detecting system thereof. The method includes: closing a first hydraulic circuit and monitoring an amount of a leak of brake oil in a second hydraulic circuit; closing the second hydraulic circuit and monitoring an amount of a leak of brake oil in the first hydraulic circuit; and determining where brake oil leaks from among the first hydraulic circuit and the second hydraulic circuit. The first hydraulic circuit controls a flow of hydraulic pressure transmitted to two wheel cylinders. The second hydraulic circuit controls a flow of hydraulic pressure transmitted to other two wheel cylinders.

A braking device for a vehicle with increased operating safety and to a method for operating a braking device for a vehicle with increased operating safety is described. The proposed braking device comprises a container with a cavity, a hydraulic block and an electronic brake control device that is configured to control the pressure supply device. The brake control device is arranged in the container. Furthermore, at least one sensor element that is designed to detect a fluid is provided.

A brake fluid reservoir for a vehicle brake system includes a housing defining a fluid chamber for brake fluid. A funnel is mounted to the housing in the fluid chamber and defines first and second chamber portions of the fluid chamber. The funnel has an inlet opening via which brake fluid flows into the funnel from the first chamber portion and an outlet opening via which the brake fluid flows into the second chamber portion from the funnel. A valve mechanism operatively cooperates with the outlet opening to at least partially prevent brake fluid from flowing through the outlet opening from the second chamber portion toward the first chamber portion.

A hydraulic disc braking system is disclosed. The system has a manually operated control device for a cyclist to issue a braking command. The system has a master cylinder assembly having a membrane dividing the hydraulic fluid tank into a variable volume filled chamber and a complementarily variable volume empty chamber. A membrane detector senses the presence of the membrane relative to a predetermined position in the tank and/or a meter measures the distance of the membrane from the ceiling of tank.