A valve assembly includes a first valve plate defining at least one first opening and at least one second opening. A valve element located above the first valve plate has a central portion, and at least one tab extending outwards from the central portion. The at least one tab includes a narrow portion axially aligned with the at least one first opening such that the narrow portion at least partially covers the at least one first opening. The at least one tab is selectively provided with electrical energy to melt the narrow portion to form an orifice. The orifice is fluidly coupled with the at least one first opening.

The invention relates to an air spring (1) for a vehicle, comprising an air-spring module (2) having an air-spring module connection element (3) as connecting part with the load to be suspended, and air-spring module bellows (4), wherein the air-spring module bellows (4) are connected, on the side facing the air-spring module connection element (3), to the air-spring module connection element (3) at least in an airtight manner, a rolling piston (8),
wherein the air-spring module (2) has at least one connecting element (5) for at least airtight connection of the air-spring module (2) to the rolling piston (8), wherein the air-spring module bellows (4) are arranged in an airtight connecting manner between the air-spring module connection element (3) and the connecting element (5), wherein
the connecting element (5) is arranged directly adjacent to the rolling piston (8) at least in certain sections and the connecting element (5) is placed onto the rolling piston (8), and wherein one or more guide rib(s) (7) is/are arranged on the connecting element (5), which form an effective connection to the air-spring-module-side rolling piston end and stabilize the air-spring module (2) in the transverse direction to the longitudinal axis (L) of the rolling piston (8).

A multi-mode air shock is disclosed herein. The air shock includes an air spring having a primary air chamber, and a damper having an insertion end to telescope within the primary air chamber and a coupler to couple with a portion of a vehicle. An adjuster housing is fixedly coupled to an end of the air spring opposite of the damper, the adjuster housing having a secondary air chamber in communication with the primary air chamber and a mounting structure to couple with a different portion of the vehicle. There is a bulkhead with a valve to open or close the fluid communication between the primary air chamber and the secondary air chamber. The air shock also includes a tertiary air chamber in fluid communication with the secondary air chamber but not in fluid communication with the primary air chamber except via the secondary air chamber.

A unit bearing includes a bearing body configured to be received by a rigid bearing housing provided with an opening on at least one side, a carrier element and at least one support member engaging the rigid bearing housing through the opening. The bearing body includes elastomer abutments. The elastomer abutments are disposed between the rigid bearing housing and the support member. The carrier element is disposed between the support member and the elastomer abutments. The unit bearing is configured such that relative movements of the bearing body with respect to the bearing housing caused by loading of the support member along three mutually orthogonal directions are limited by the elastomer abutments.

A partition member of an anti-vibration hydraulic mount includes a first channel and a second channel between the working chamber and the compensating chamber. The partition member includes a membrane secured in a receiving cavity. The membrane divides the receiving cavity into two sub-spaces separated fluidically from each other. The membrane comprises a closing device configured to have an open configuration, in which the closing device is spaced apart from the central opening, and a closed configuration, in which the closing device abuts against the central opening to close the central passageway.

A viscous torsional vibration damper includes: a) an annular damper housing, which bounds a damper chamber; b) an inertia ring arranged in the damper chamber; c) a bearing device, which supports the inertia ring in the damper housing and which has at least one bearing element with an axial bearing region and/or a radial bearing region, d) a shear gap between the inertia ring and the damper housing, which shear gap is filled with a viscous fluid, e) wherein a plurality of the axial bearing segments and/or a plurality of the radial bearing segments is circumferentially distributed on the at least one bearing element.

A vertical decoupler assembly for a hydraulic mount including a first fluid chamber and a second fluid chamber includes a travel plate defining an interior space for receiving a removable vertical decoupler assembly. The vertical decoupler assembly includes an elastically deformable and tubular shaped diaphragm for dampening small vibrations across the mount. The vertical decoupler assembly may include an inner cage and an outer cage, each including a rigid, perforated, tubular wall disposed on either side of the diaphragm for limiting its radial deflection in each direction. The vertical decoupler assembly may include a rigid lower insert having an inverted cup shape with a second rim sealingly engaging the diaphragm and secured to the inner and outer cages. The decoupler diaphragm also includes a flange and a ring-shaped upper insert for nesting within and sealing against a throat at the upper end of the travel plate.

A damping valve device (27), includes a damping valve housing (31) with a tube part (33) and an outer top housing part (35), wherein an intermediate housing wall (39) which is fixed with respect to the tube part (33) spatially separates a coil assembly (37) from a valve region (73), and the outer top housing part (35) forms a back iron body for the coil assembly (37), wherein an inner sleeve (69) together with a base (71) closes the valve region (73), wherein the outer top housing part (35) is a component part which is separate from the intermediate housing wall (39), and the inner sleeve (69) is connected to the intermediate housing wall (39) in a pressure-tight manner independent from the outer housing part (35), and wherein a protective cap (93) which is separate from the outer top housing part (35) covers the outer top housing part (35).

A shock absorber includes a cylinder; a piston movable therein and dividing the cylinder in first and second cylinder chambers; a cylinder attachment for attachment to a first part of a vehicle and connected to the cylinder; and a piston attachment for attachment to a second part of a vehicle and connected to the piston. The piston attachment and cylinder attachment move towards one another on an inward movement and away from one another on an outward movement. The piston includes a first inward channel; a first inward valve to open the first inward channel on inward movement; a first outward channel; a first outward valve to open the first outward channel on outward movement; a second inward channel; a second inward valve to open the second inward channel on inward movement; a second outward channel; and a second outward valve to open the second outward channel on outward movement.

A shock absorber includes a cylinder and a piston movable within the cylinder along a cylinder wall, the piston dividing the cylinder in a first cylinder chamber and a second cylinder chamber, which are filled with fluid. The shock absorber also includes cylinder and piston attachments for attachment to parts of a vehicle, the piston attachment and cylinder attachment moving towards one another in an inward movement and away from one another in an outward movement. Primary and auxiliary flow and valve arrangements allow fluid flow in between the first and second cylinder chambers to provide primary and auxiliary damping behavior of the shock absorber, respectively. The auxiliary flow and valve arrangement includes a first auxiliary flow and valve arrangement providing on outward movement a damping behavior showing a frequency dependency, and a second auxiliary flow and valve arrangement providing on inward movement a damping behavior showing a linear dependency.