A shock absorber adjuster assembly comprising at least one spring arranged so as, in use, to extend between a pair of spaced apart spring seats. At least one of the spring seats is adjustable and is formed by a cylindrical body, a first adjustable member and a second adjustable member. The body has a first thread formed on its outer surface and a second thread formed on its inner surface. The first adjustable member includes a first flange having a threaded inner surface which is engageable with the first thread of the body so that the first flange can be screwed along the first thread. The second adjustable member includes a second flange provided on an end of a shaft. The separation between the first and second flanges can thereby be adjusted by moving of either or both of said first and second flanges.

An active mechanical safety device for the compensation of the impacts on a vehicle, comprising a connecting element configured to be constrained to a suspended mass of a vehicle, a respective adjustment element configured to be constrained to the suspended mass and to be positioned between the connecting element and a respective shock absorber element of said vehicle, wherein the adjustment element, following an external stress to which the vehicle is subjected, is movable between a first position, wherein the adjustment element is configured to approach the connecting element to the shock absorber element, and a second position, wherein the adjustment element is configured to move the connecting element away from the shock absorber element.

A motion control system includes a top mount, a bottom mount, a rigid housing, an air spring, and a linear actuator. The air spring transfers force of a first load path between the top mount and the bottom mount. The air spring includes a pressurized cavity containing pressurized gas that transfers the force of the first load path. The linear actuator transfers force of a second load path between the top mount and the bottom mount in parallel to the first load path. The rigid housing defines at least part of the pressurized cavity and transfers the force of the second load path.

A device for adjusting the level of a motor vehicle comprises an electric motor (4) and an actuating gear (3) which is connected upstream of a screw drive (2). The actuating gear (3) is formed by three series-connected gears (14, 15, 16) with parallel rotation axes (D14, D15, D16). An input gear (14), the number of teeth of which is at least one and at most five, is coupled to the motor shaft (17) of the electric motor (4) for conjoint rotation. The input gear engages with an intermediate gear (15) which engages with an output gear (16) which is connected to a nut (9) of the screw drive (2) for conjoint rotation.

An adjustment assembly for compensating a length variation of a spring element for a vehicle is enabled. The adjustment assembly can comprise a first adjustment element having a primary abutment surface and a primary support surface. The adjustment assembly can comprise a second adjustment element having a secondary abutment surface and a secondary support surface. The first adjustment element and the second adjustment element can be arranged adjacent to one another along an axis such that the primary abutment surface and the secondary abutment surface contact each other. The primary abutment surface and the secondary abutment surface can extend circumferentially around the axis respectively and can be sloping, such that a distance between the primary support surface and the secondary support surface is adaptable by rotating the first adjustment element and the second adjustment element relative to one another.

A wrench and nut combination, including: a wrench lug including: a wrench lug feature that substantially mates with a nut feature of a nut of a shock absorber during a first rotation of said nut, relative to external body threads on a body of the shock absorber, in a first direction, wherein the wrench lug feature and the nut feature release during a second rotation of said nut, relative to the external body threads, in a second direction, wherein at least one of the first rotation and the second rotation causes an adjustment to a compressive coil spring pre-load of a set of coil springs disposed in the shock absorber.

A suspension device has an upper shell having a stepped section around an inner circumferential surface; a lower shell; a ball screw shaft rotatably supported by the upper shell; a bearing unit arranged between a part of the ball screw shaft and the upper shell, and having an outer side part in a radial direction including a side surface that comes in contact with a side surface on the other side in the axial direction of the stepped section; a ball nut screwed on the ball screw shaft; an inner tube joined to the lower shell and the ball nut; an electric motor; and a coil spring, and a circumscribed circle diameter of the ball nut and the inner tube is less than an inner diameter dimension of the stepped section.

A suspension system includes a top mount, a bottom mount, a rigid housing, an air spring, and a linear actuator. The air spring transfers force of a first load path between the top mount and the bottom mount. The air spring includes a pressurized cavity containing pressurized gas that transfers the force of the first load path. The linear actuator transfers force of a second load path between the top mount and the bottom mount in parallel to the first load path. The rigid housing defines at least part of the pressurized cavity and transfers the force of the second load path.

A vehicle height adjustment device of the present invention includes a motion conversion unit that includes a rotating member and a linear motion member, and that converts a rotational motion of the rotating member into a linear motion of the linear motion member, a plurality of motors, a driven gear coupled to the rotating member, a plurality of drive gears that meshes with the driven gear, and a spring seat that is coupled to the linear motion member, and that supports one end of a suspension spring interposed between a vehicle body and an axle of a vehicle, wherein after driving the spring seat and then stopping the spring seat, some drive gears of the drive gears are driven in a direction opposite a drive direction of the spring seat.

A method and apparatus for a suspension comprising a spring having a threaded member at a first end for providing axial movement to the spring as the spring is rotated and the threaded member moves relative to a second component. In one embodiment, the system includes a damper for metering fluid through a piston and a rotatable spring member coaxially disposed around the damper and rotatable relative to the damper.