Abstract: The invention relates to a pump assembly for pumping brake fluid into a hydraulic slip-controlled vehicle brake system. To achieve a simple, compact construction of the pump assembly, the invention proposes embodying the pump assembly with an electromagnet which has a permanent magnet and is driven into an oscillating motion by being supplied with an alternating voltage; a moving part of the electromagnet is solidly connected to a tappet, both of whose ends form pistons of two piston pumps.

Abstract: It is an object of this invention to provide a method for when and on which wheel to initiate braking force distribution. In a brake hydraulic device for a motor vehicle, a rear wheel subject to control is an inner or outer wheel is checked; if the outer wheel is to be controlled, deceleration threshold value is increased according to the lateral acceleration, and if the absolute value of the vehicle deceleration exceeds the deceleration threshold value, the braking distribution control is operated on the rear wheel; and if the inner wheel is to be controlled, deceleration threshold value is decreased according to the lateral acceleration, and if the absolute value of vehicle deceleration exceeds the deceleration threshold value, the braking distribution control is operated on the rear wheel.

Abstract: An oleopneumatic shock absorbing device including a hydraulic fluid-filled cylinder (1) combined with a movable assembly moved by outside forces for circulating the hydraulic fluid. The movable assembly consists of a hollow mobile piston (3) on the end of a push rod (2) with an internal longitudinal space (13) forming a reservoir for the hydraulic fluid. When the piston (3) and the push rod (2) are moved, the fluid flows through a variable flow-rate transfer channel (11) providing variable, e.g. gradual shock absorption throughout both the outward stroke and the return stroke.

Abstract: A resilient mounting, such as a rubber mounting, with hydraulic damping, in particular for mounting engines of motor vehicles, has two rigid end walls which are disposed opposite to each other in the axial direction, and at least two chambers which are disposed axially one behind the other and which contain damping fluid. The chambers are separated by a rigid partitioning wall. The chambers communicate with each other through a flow passage which extends in an annular configuration around the axis of the mounting, the flow passage being formed in the rigid partitioning wall. The rigid partitioning wall is arranged radially inwardly of, and supported by, an elastic, axially movable diaphragm which is fixedly and sealingly clamped at its outer periphery. At least one of the chambers is defined in part by a rubber-elastic spring member constituting part of the generally peripheral wall of the chamber.