Equipment, a system, a method and a computer-readable storage medium for filling and bleeding brake fluid. The equipment includes: a hydraulic pump, configured to supply brake fluid to a brake fluid reservoir of a vehicle; a command sending unit, configured to send a command to a hydraulic brake system of the vehicle for pumping the brake fluid to a bleed screw provided on a brake fluid loop; and a wireless transmitter, configured to send a wireless control signal to an exhaust device connected to the bleed screw for actuating tightening or loosening of the bleed screw. According to the present disclosure, the task of filling and bleeding brake fluid can be simply and efficiently completed for the vehicle, the labor cost and time cost can be effectively saved, and meanwhile, the task flow can be standardized and operation-friendly.

An assembly for venting a bicycle hydraulic braking system. One portion of the assembly is bleeding valve for a bicycle hydraulic braking system, comprising a valve body rotatably insertable in a seat of a brake caliper that has an axial inner cavity in fluid communication with a fluid cavity in the caliper and a closing body configured to removably held it in the axial cavity. A second portion of the assembly is a hydraulic fitting for venting the braking system. The hydraulic fitting has a fastening lip for a flexible tube, a portion to engage a tool, a portion configured to screw into a threaded cavity of the bleeding valve, and an axial passage through the fitting.

A brake control system for a vehicle, the brake control system including a master cylinder, a brake line for communicating brake fluid between the master cylinder and a brake, a fluid reservoir in fluid communication with the brake line during non-braking conditions, and means for selectively moving brake fluid into and/or out of the fluid reservoir. The means for selectively moving brake fluid into and/or out of the fluid reservoir includes means for removing gas from the fluid reservoir, and is configured to move brake fluid into the fluid reservoir, so that brake fluid is moved along the brake line in a direction towards the master cylinder, during non-braking conditions. Upon receiving a signal of an anticipated brake event, brake fluid may also be moved out of the fluid reservoir, so that brake fluid is moved along the brake line in a direction away from the master cylinder.

Example methods, apparatus, systems and articles of manufacture are disclosed to facilitate brake bleeding. Example apparatus disclosed herein include a bleed controller to actuate a first valve connected to a pump and an end of a brake line, the pump connected to a reservoir; to actuate a second valve connected to the pump and a master cylinder, the master cylinder connected to the reservoir; and to operate the pump to bleed the brake line when the first valve is actuated and to bleed the master cylinder when the second valve is actuated.

A diagnostic method, in particular to determine the leak tightness of at least one seal and/or one valve, for at least one component of a vehicle, wherein a piston cylinder unit, whose piston is driven by an electromotive drive, forms a pressure supply unit, wherein a control unit identifies the piston position and/or piston movement of the piston by means of at least one sensor and the pressure generated by the pressure supply unit or the motor current flowing through the drive by means of at least one sensor. During the diagnostic method, the control unit may be used to measure quantities relating to piston movement/position, pressure, and/or pressure variation.

A method is for function checking of a pressure-medium operated electronic brake system of a vehicle, having a valve and sensor device, having a brake cylinder for actuating a brake, having an ABS solenoid control valve associated with the brake cylinder. For function checking of the control valve, it is temporarily activated and pressurized via the control unit and via the valve and sensor device such that pressure builds up at the input side of the control valve although a pressure increase in the associated brake cylinder is not expected, or a decrease after an interim increase is expected, and a malfunction of the anti-lock braking system solenoid control valve is identified if, contrary to expectations, a response of the vehicle due to a pressure increase in the brake cylinder, or due to the lack of a decrease after an increase, is established during this function check.

A brake system control module for use in a brake system is provided. The brake system control module includes a reservoir tank having a brake fluid level sensor. The brake system control module automatically determines if the brake fluid level sensor detects a low fluid level in the reservoir tank and monitors a value of sensors to determine if the value of the sensors is less than or greater than evac and fill start and stop thresholds. The brake system control module further manages an evacuation and a filling of the brake system based on the value of the sensors.

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 vehicle braking device of a by-wire type includes an actuator configured to flow out a fluid in a subject wheel cylinder among the plurality of wheel cylinders to flow towards the master chamber upon pressure decreasing control for the subject wheel cylinder under an ABS control execution and a control portion executing a first control controlling the driving portion such that an increasing amount of the master pressure under a pressure increasing control becomes great or a decreasing amount thereof under a pressure decreasing control becomes small and/or executes a second control which controls the driving portion such that the increasing amount of the master pressure under the pressure increasing control becomes small or the decreasing amount thereof under the pressure decreasing control of the master pressure becomes great.

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.