Provided is a hydraulic unit of a brake system including a housing; an oil supply part configured to supply oil to the housing; an oil discharge part configured to discharge the oil, supplied to the housing through the oil supply part, to the outside of the housing; and a piston movably mounted on the housing, and configured to open and close the oil supply part and the oil discharge part.

Provided is a hydraulic unit of a brake system including a housing; an oil supply part configured to supply oil to the housing; an oil discharge part configured to discharge the oil, supplied to the housing through the oil supply part, to the outside of the housing; and a piston movably mounted on the housing, and configured to open and close the oil supply part and the oil discharge part.

A remote stop system for a vehicle configured to be operated autonomously or semi-autonomously. The remote stop system includes a mechanical remote stop system configured to apply a first braking force and an electrical remote stop system configured to apply a second braking force. A remote stop actuator is configured to send a wireless control signal to the vehicle. The remote stop actuator having two states: a first state having the remote stop actuator transmitting the wireless control signal to the mechanical remote stop system and the electrical remote stop system and a second state having the remote stop actuator without transmitting the wireless control signal to the mechanical remote stop system and the electrical remote stop system. In the second state, the first braking force and the second braking force are applied simultaneously. A vehicle system includes the vehicle and the remote stop system.

A hydraulic brake system, including: a brake operation member; a brake device; a master cylinder; a communication switching valve; a low-pressure-source shut-off valve; a high-pressure source; a regulator; a pressure adjuster; and a controller, wherein, when a pressurizing state of the master cylinder is switched from a first pressurizing state to a second pressurizing state after initiation of an operation on the brake operation member, the controller executes a pressurizing-state switching control in which switching of a state of the low-pressure-source shut-off valve from an open state to a closed state and switching of a state of the communication switching valve from a closed state to an open state are carried out after a pressure-regulating state of the regulator has been switched from a first pressure-regulating state to a second pressure-regulating state by controlling the pressure adjuster to increase a second pilot pressure while the first pressurizing state is maintained.

A brake system for a vehicle having at least two axles. The brake system includes a first axle unit which can be mounted or is mounted on a first axle of the vehicle and has a motorized brake pressure build-up device, a first wheel brake cylinder and a second wheel brake cylinder, and a second axle unit which can be mounted or is mounted on a second axle of the vehicle and is formed separately hydraulically from the first axle unit. The first axle unit includes a first outlet valve assigned to the first wheel brake cylinder and a second outlet valve assigned to the second wheel brake cylinder. The brake fluid can be let out of the first wheel brake cylinder via the first outlet valve and out of the second wheel brake cylinder via the second outlet valve into the connected brake fluid reservoir.

A hydraulic brake system, including: a brake operation member; a brake device; a master cylinder; a communication switching valve; a low-pressure-source shut-off valve; a high-pressure source; a regulator; a pressure adjuster; and a controller, wherein, when a pressurizing state of the master cylinder is switched from a first pressurizing state to a second pressurizing state after initiation of an operation on the brake operation member, the controller executes a pressurizing-state switching control in which switching of a state of the low-pressure-source shut-off valve from an open state to a closed state and switching of a state of the communication switching valve from a closed state to an open state are carried out after a pressure-regulating state of the regulator has been switched from a first pressure-regulating state to a second pressure-regulating state by controlling the pressure adjuster to increase a second pilot pressure while the first pressurizing state is maintained.