An aspirator for a brake system is provided having integrated functions of a flow bypass and a check valve for automotive applications to achieve various suction flow openings in response to different engine operating conditions to enhance brake boost performance. The brake system includes a brake vacuum booster, an engine having an intake manifold, an aspirator having a movable convergence nozzle, the aspirator being connected to the manifold, and a vacuum line connecting the booster to the aspirator. The aspirator includes a body having an interior end wall. A biasing element such as a spring is provided between the movable convergence nozzle and the interior end wall of the aspirator body. The body of the aspirator has an air flow path having an upstream area and a downstream area. The movable convergence nozzle is positioned in the upstream area of the flow path.

An aspirator for a brake system is provided having integrated functions of a flow bypass and a check valve for automotive applications to achieve various suction flow openings in response to different engine operating conditions to enhance brake boost performance. The brake system includes a brake vacuum booster, an engine having an intake manifold, an aspirator having a movable convergence nozzle, the aspirator being connected to the manifold, and a vacuum line connecting the booster to the aspirator. The aspirator includes a body having an interior end wall. A biasing element such as a spring is provided between the movable convergence nozzle and the interior end wall of the aspirator body. The body of the aspirator has an air flow path having an upstream area and a downstream area. The movable convergence nozzle is positioned in the upstream area of the flow path.

A system for and a method of controlling driving of a continuously-operable electronic vacuum pump includes determining conditions for allowing and disallowing first and second electronic vacuum pumps to operate for each braking situation according to vehicle state information associated with braking. The first and second electronic vacuum pumps are driven individually or concurrently according to the determined braking situation. Thus, an optimal negative pressure optimal suitable for the vehicle state information is easily supplied to a booster.

A method and device for failure detection of vacuum sensor is disclosure. The method includes: S1: obtaining a first vacuum pressure when a brake pedal is validly stamped; S2: determining whether a braking action by the brake pedal is maintained, wherein next S3 is performed if yes, and a detection is stopped if not; S3: obtaining a second vacuum pressure when the brake pedal is validly released; and S4: determining whether the second vacuum pressure is within a variable range of the first vacuum pressure, wherein the vacuum sensor is determined to have failed if yes; and, the vacuum sensor is determined to have not failed. The disclosure performs a logical control, and determines whether the vacuum sensor is blockage or failure, thus safety in traffic is ensured, and accidents that the braking action fails due to the blockage or failure of the vacuum sensor is avoided.

A method and device for failure detection of vacuum sensor is disclosure. The method includes: S1: obtaining a first vacuum pressure when a brake pedal is validly stamped; S2: determining whether a braking action by the brake pedal is maintained, wherein next S3 is performed if yes, and a detection is stopped if not; S3: obtaining a second vacuum pressure when the brake pedal is validly released; and S4: determining whether the second vacuum pressure is within a variable range of the first vacuum pressure, wherein the vacuum sensor is determined to have failed if yes; and, the vacuum sensor is determined to have not failed. The disclosure performs a logical control, and determines whether the vacuum sensor is blockage or failure, thus safety in traffic is ensured, and accidents that the braking action fails due to the blockage or failure of the vacuum sensor is avoided.

Apparatus for providing hydraulic line pressure and vacuum respectively to the steering subsystem and the braking subsystem of a wheeled motor vehicle comprises a battery powered electric motor which drives one or more of a hydraulic pump and a vacuum pump. When the engine is stopped while the vehicle is moving, to save fuel, the electric motor drives the pumps, so that hydraulic pressure and vacuum are provided for continued safe operation of the vehicle.

Apparatus for providing hydraulic line pressure and vacuum respectively to the steering subsystem and the braking subsystem of a wheeled motor vehicle comprises a battery powered electric motor which drives one or more of a hydraulic pump and a vacuum pump. When the engine is stopped while the vehicle is moving, to save fuel, the electric motor drives the pumps, so that hydraulic pressure and vacuum are provided for continued safe operation of the vehicle.

A sealing assembly for installation on a port of a spring brake actuator includes a plug, a one-way valve and a cap. The plug receives the one-way valve for providing one-way air flow through the orifices and maintaining about two psi in the spring brake chamber at zero stroke. An elastomeric piece is affixed to a first set of segments of the plug for sealing against an inner surface of the port. The cap has arms sized to extend around a third set of segments of the plug and snap onto the plug. A fourth set of segments of the plug elastically deform so the sealing assembly can be installed and removed from the port easily.

A sealing assembly for installation on a port of a spring brake actuator includes a plug, a one-way valve and a cap. The plug receives the one-way valve for providing one-way air flow through the orifices and maintaining about two psi in the spring brake chamber at zero stroke. An elastomeric piece is affixed to a first set of segments of the plug for sealing against an inner surface of the port. The cap has arms sized to extend around a third set of segments of the plug and snap onto the plug. A fourth set of segments of the plug elastically deform so the sealing assembly can be installed and removed from the port easily.

A braking control system and method to synchronize the operation of the braking system of a towed vehicle with the braking system of a towing vehicle to match the deceleration and acceleration of the towed vehicle with the deceleration and acceleration of the towing vehicle wherein the braking control system includes a braking device comprising an electrically driven linear actuator coupled between an electric motor and the brake pedal of the towed vehicle and a control device coupled to the electric motor and including logic to control operation of the electrically driven linear actuator to selectively extend and retract the electrically driven linear actuator to selectively depress and release the brake pedal of the towed vehicle as the towing vehicle decelerates and accelerates.