A wire harness includes a plurality of insulated electric wires, a sheath covering a part in a longitudinal direction of the insulated wires, and a branching portion fixing member covering an end portion of the sheath with the insulated wires guided out therefrom, and one-parts in respective longitudinal directions of the insulated wires being guided out from the end portion of the sheath. The branching portion fixing member includes a plurality of guiding-out portions to guide out the one-parts of the plurality of insulated wires respectively. The wire harness is provided with a protective tube to cover at least one of the guiding-out portions, and the insulated wire guided out from the at least one of the guiding-out portions, and a tightening member to tighten and fix one end portion of the protective tube to an outer peripheral surface of the at least one of the guiding-out portions.

A hydraulic block for a hydraulic unit of a brake controller of a hydraulic vehicle brake system is configured to fit with hydraulic components such as solenoid valves of the brake controller. The hydraulic block is manufactured by 3D printing, which enables considerably more complex line routing than manufacture by machining.

A hydraulic block for a hydraulic unit of a brake controller of a hydraulic vehicle brake system is configured to fit with hydraulic components such as solenoid valves of the brake controller. The hydraulic block is manufactured by 3D printing, which enables considerably more complex line routing than manufacture by machining.

A hydraulic valve assembly for a work vehicle includes a fan and brake function module. A first pump supplies hydraulic pressure to a fan circuit and to first and second service brake circuits of the vehicle. A second pump supplies hydraulic pressure to a steering and work function module that in turn supplies hydraulic pressure to a steering circuit and a work function circuit of the vehicle. The hydraulic valve assembly may also include a work control module and an auxiliary module. The modules of the hydraulic valve assembly are separably connected together via interface surfaces.

To provide a brake piping structure for saddled vehicle which can reduce the number of restraining members used for brake piping and allow brake piping to avoid interfering with other parts. The brake piping structure for saddled vehicles includes a pair of left and right rear frames connected to a rear portion of a vehicle body frame of a saddled vehicle and supporting a seat, a swing arm swingably supported, via a pivot, by the vehicle body frame, and brake piping which conveys hydraulic pressure generated by an ABS modulator to a rear brake caliper for a rear wheel. The ABS modulator is disposed between the pair of left and right rear frames. The brake piping extends from the ABS modulator forward and downward of the vehicle body along the rear frame and is, by being curved rearward of the vehicle body in front of the pivot and then by being routed under the swing arm, connected to the rear brake caliper.

Described is a housing component of a housing of a vehicle pressure-medium-conducting apparatus, including: at least one connector bore having an internal thread for screwing-in a connector element having an external thread for feeding and/or discharging the pressure medium to/from the apparatus; in which a material of the housing component is composed, at least in a region of the connector bore, of a thermoplastic of PPA (polyphthalamide). Also described is a pressure-medium-conducting device of a vehicle, including: at least one housing having at least one housing component, wherein the housing component includes: at least one connector bore having an internal thread for screwing-in a connector element having an external thread for feeding and/or discharging the pressure medium to/from the apparatus; in which a material of the housing component is composed, at least in a region of the connector bore, of a thermoplastic of PPA (polyphthalamide).

Described is a housing component of a housing of a vehicle pressure-medium-conducting apparatus, including: at least one connector bore having an internal thread for screwing-in a connector element having an external thread for feeding and/or discharging the pressure medium to/from the apparatus; in which a material of the housing component is composed, at least in a region of the connector bore, of a thermoplastic of PPA (polyphthalamide). Also described is a pressure-medium-conducting device of a vehicle, including: at least one housing having at least one housing component, wherein the housing component includes: at least one connector bore having an internal thread for screwing-in a connector element having an external thread for feeding and/or discharging the pressure medium to/from the apparatus; in which a material of the housing component is composed, at least in a region of the connector bore, of a thermoplastic of PPA (polyphthalamide).

A brake booster is mounted on a forward bulkhead of a motor vehicle having two elements, a first element being securely connected to the brake booster whilst a second element is securely connected to the bulkhead. The two elements are restrained against vertical movement relative to one another by at least one connector which is deformed or fails upon a movement of the brake booster upward relative to the bulkhead. An actuator is movably mounted to the bulkhead below the brake booster and rearward of a gearbox housing such that rearward movement of the gearbox housing during a frontal collision presses against the actuator and moves the actuator upward to apply pressure to the brake booster, the pressure causing the brake booster to move upward relative to the bulkhead.

The present disclosure provides a system and method for removing a residual pressure of compressed air in a motor driven air compressor management system applied to an eco-friendly vehicle. That is, the present disclosure provides a system and a method for removing a residual pressure in a motor driven air compressor management system, which allow a continuous smooth operation of a motor driven air compressor by easily removing a residual pressure of compressed air before a subsequent operation of the motor driven air compressor even though the residual pressure of the compressed air, which fills in an air tank during an operation of the motor driven air compressor, remains according to a tuning off of the motor driven air compressor.

The present disclosure provides a system and method for removing a residual pressure of compressed air in a motor driven air compressor management system applied to an eco-friendly vehicle. That is, the present disclosure provides a system and a method for removing a residual pressure in a motor driven air compressor management system, which allow a continuous smooth operation of a motor driven air compressor by easily removing a residual pressure of compressed air before a subsequent operation of the motor driven air compressor even though the residual pressure of the compressed air, which fills in an air tank during an operation of the motor driven air compressor, remains according to a tuning off of the motor driven air compressor.