A system is disclosed for controlling operation of a motor-driven brake boost assist system of a vehicle braking system during a loss of battery power to the brake boost assist system. The system makes use of a brake boost assist system including a motor, an electronic control unit (ECU) for controlling operation of the brake boost assist system, and a detection system. The detection system is responsive to a transition edge of a VBATTERY signal powering the motor. The detection system is configured to generate a wakeup pulse in response to detecting the transition edge. The wakeup pulse is applied to the ECU to wake up the ECU in the event of a momentary power loss to the ECU.

Provided is a brake device capable of detecting abnormality condition of a subject valve without using a wheel pressure sensor and the vehicle brake device includes a valve which is configured to open and close a fluid passage connected to the master chamber and at the same time which is a subject valve for a subject of failure judgement and an abnormality judging portion which is configured to judge whether or not the subject valve is in an abnormal state based on an advancement amount of the master piston accompanying an opening of the subject valve.

Provided is a brake device capable of detecting abnormality condition of a subject valve without using a wheel pressure sensor and the vehicle brake device includes a valve which is configured to open and close a fluid passage connected to the master chamber and at the same time which is a subject valve for a subject of failure judgement and an abnormality judging portion which is configured to judge whether or not the subject valve is in an abnormal state based on an advancement amount of the master piston accompanying an opening of the subject valve.

A railway car brake lock has a brake linkage arm connector configured to connect to a brake linkage arm. A draw rod is connected to the brake linkage arm connector. The draw rod has a locking rack with a plurality of locking rack teeth. An outside shell holds the locking rack, while allowing the locking rack to slide between a locking rack engaged position and a locking rack disengaged position. The locking rack engaged position corresponds to a railway car brake engaged position and wherein the locking rack disengaged position corresponds to a railway car brake disengaged position. A locking actuator piston has locking actuator piston teeth that engage the locking rack teeth when the locking actuator piston slides from a locking actuator piston disengaged position to a locking actuator piston engaged position.

A railway car brake lock has a brake linkage arm connector configured to connect to a brake linkage arm. A draw rod is connected to the brake linkage arm connector. The draw rod has a locking rack with a plurality of locking rack teeth. An outside shell holds the locking rack, while allowing the locking rack to slide between a locking rack engaged position and a locking rack disengaged position. The locking rack engaged position corresponds to a railway car brake engaged position and wherein the locking rack disengaged position corresponds to a railway car brake disengaged position. A locking actuator piston has locking actuator piston teeth that engage the locking rack teeth when the locking actuator piston slides from a locking actuator piston disengaged position to a locking actuator piston engaged position.

According to the present invention, even when information needed to calculate an acceleration command cannot be detected due to a sensor malfunction or the like, acceleration control can be continued by adding, in accordance with outside-world information, a correction to the result of calculating the acceleration command, which uses the result of an estimation made using alternative sensor information. The vehicle control device of the present invention comprises a vehicle behavior information acquisition unit 31 that acquires vehicle behavior information including lateral movement information of a vehicle 0, an acceleration control unit 39 that controls acceleration in accordance with the lateral movement information acquired by the vehicle behavior information acquisition unit 31, a diagnostic unit 37 that diagnoses whether or not there is abnormality in the vehicle behavior information and outputs diagnostic information, and an alternative possibility assessment unit 38 that assesses whether or not alternative control is possible on the basis of the lateral movement information and the diagnostic information.

According to the present invention, even when information needed to calculate an acceleration command cannot be detected due to a sensor malfunction or the like, acceleration control can be continued by adding, in accordance with outside-world information, a correction to the result of calculating the acceleration command, which uses the result of an estimation made using alternative sensor information. The vehicle control device of the present invention comprises a vehicle behavior information acquisition unit 31 that acquires vehicle behavior information including lateral movement information of a vehicle 0, an acceleration control unit 39 that controls acceleration in accordance with the lateral movement information acquired by the vehicle behavior information acquisition unit 31, a diagnostic unit 37 that diagnoses whether or not there is abnormality in the vehicle behavior information and outputs diagnostic information, and an alternative possibility assessment unit 38 that assesses whether or not alternative control is possible on the basis of the lateral movement information and the diagnostic information.

The invention relates to a brake master cylinder arrangement for a motor vehicle brake system, comprising at least one piston arrangement with: a pressure piston unit that can be moved along a movement axis (V) and, together with a housing arrangement of the brake master cylinder arrangement, defines a pressure chamber; and a force input member that can be moved according to the actuation of the brake pedal and is coupled, or can be coupled, to the pressure piston unit so as to move therewith, the brake master cylinder also comprising: a position transmitter element that can be moved according to the actuation of the force input member; a detection unit designed to detect a movement of the position transmitter element; and a coupling arrangement designed to couple the position transmitter element to at least one element of the piston arrangement in a substantially rigid manner, along the movement axis (V), the coupling arrangement also being designed to allow a rotation of the at least one element of the piston arrangement in relation to the position transmitter element about the movement axis (V).

A control system for a hybrid vehicle that can prevent an overcharging of a battery even if a wheel speed drops abruptly. The hybrid vehicle comprises: an engine; a generator that is driven by the engine; a drive motor that generate a drive torque; and a battery. The electric power generated by the generator is supplied directly to the battery or the drive motor. A controller is configured to determine whether the drive wheel will be locked, and to reduce the electric power generated by the generator less than an acceptable input power to the battery if the drive wheel is expected to be locked.

A railway slipping block brake lock has a brake linkage arm connector configured to connect a brake linkage arm to a draw rod. A draw rod is connected to the brake linkage arm connector. The draw rod has a draw rod engaged position corresponding to a railway brake engaged position, and the draw rod has a draw rod disengaged position corresponding to a railway brake disengaged position. A slipping block is mounted around the draw rod. The slipping block has a wedge shaped profile that fits to a wedge-shaped opening of a retaining frame. The retaining frame has a retaining frame wedge-shaped inside profile to receive the slipping block. The slipping block releases the draw rod and disengages from the retaining frame when the draw rod moves toward an engaged position.