A bellows formed from an elastic material with a cylinder jacket as a basic shape, a cylinder axis corresponding to a working direction, and a jacket surface shaped into a plurality of folds transversely with respect to the working direction. Each fold has a first fold diameter perpendicular to the working direction and spaced apart therefrom in the working direction, a second fold diameter differing from the first fold diameter and spaced apart therefrom in the working direction, against the first fold diameter, and a fold wall formed integrally therewith. Consecutive folds in the working direction each have the same inner fold diameter, but alternating different outer fold diameters.

A shield is slidably mounted to a cylinder of a shock absorber and fastened to a piston shaft of the shock absorber. The shield may include a circumferential slot that fits over a disk formed on the piston shaft to secure the shield to the piston shaft. The shield may include a partial cylinder that extends over a point of entry of the piston shaft into the cylinder. For example, the shield may have a cross section that is a 200 to 270 degree arc. The shield may include a guide along an interior surface that engages a slider secured to the cylinder. The guide may be a slot and the slider is a post seated in the slot.

A shield is slidably mounted to a cylinder of a shock absorber and fastened to a piston shaft of the shock absorber. The shield may include a circumferential slot that fits over a disk formed on the piston shaft to secure the shield to the piston shaft. The shield may include a partial cylinder that extends over a point of entry of the piston shaft into the cylinder. For example, the shield may have a cross section that is a 200 to 270 degree arc. The shield may include a guide along an interior surface that engages a slider secured to the cylinder. The guide may be a slot and the slider is a post seated in the slot.

A shielding element for protecting at least one suspension and/or driveline component. The shielding element is connected to a suspension component. The suspension component extends in a first axial direction and includes a mounting portion at one end for mounting the suspension component to a vehicle. The suspension component further includes a second end for mounting the suspension component to a knuckle. The second mounting portion is capable of receiving a suspension mounting component, which may be or include a ball joint. The shielding element is located near the second mounting portion. The shielding element extends from a surface of the suspension component in a second direction different from the first direction. The portion of the protection element that extends in the second direction may protect at least one of the mounting point, the suspension mounting component, and the driveline component from contact with debris.

A shielding element for protecting at least one suspension and/or driveline component. The shielding element is connected to a suspension component. The suspension component extends in a first axial direction and includes a mounting portion at one end for mounting the suspension component to a vehicle. The suspension component further includes a second end for mounting the suspension component to a knuckle. The second mounting portion is capable of receiving a suspension mounting component, which may be or include a ball joint. The shielding element is located near the second mounting portion. The shielding element extends from a surface of the suspension component in a second direction different from the first direction. The portion of the protection element that extends in the second direction may protect at least one of the mounting point, the suspension mounting component, and the driveline component from contact with debris.

Example aspects relate to a shock absorber with a position sensor, and a method to produce it. The shock absorber comprises a first and second damper part, which are arranged movable relative to each other in a longitudinal direction L. A position sensor is arranged to detect the relative position of the first damper part to the second damper part, and comprises an index element on the first damper part as well as an electric detection circuit for detecting the position of the index element. A flexible sleeve is at least partially arranged around the first and/or the second damper part and fixed relative to the second damper part. To enable a particularly simple design, the detection circuit is attached to the flexible sleeve.

A dirt shield for shock absorbers having a piston assembly and a cylinder member with a metal dirt shield cap connected to a rod of the piston assembly. A plastic dirt shield bracket is adapted to be fixed to the metal dirt shield cap and includes a first portion and a second portion hingedly connected to one another. A dirt shield tube is connected to the plastic dirt shield bracket.

A dirt shield for shock absorbers having a piston assembly and a cylinder member with a metal dirt shield cap connected to a rod of the piston assembly. A plastic dirt shield bracket is adapted to be fixed to the metal dirt shield cap and includes a first portion and a second portion hingedly connected to one another. A dirt shield tube is connected to the plastic dirt shield bracket.

Provided is a bumper cap to be attached to a shock absorber main body, and includes a cover part having an opening at one end, having a bottom part and a through hole penetrating the bottom part at another end, and configured to cover the shock absorber main body, and a plurality of protruding parts protruding from the bottom part of the cover part toward the opening side, and in which a gap is formed between the adjacent protruding parts, in which a suppression part configured to suppress a rotation of a fluid, which has flowed into a space between the inside of the cover part and the shock absorber main body from an outside of the cover part through the through hole, in the cover part is further provided.

A shock absorber for a vehicle suspension system may include a damper tube defining an axis, a rod operably coupled to the damper tube to be movable along the axis relative to the damper tube in response to jounce and rebound events, a dust boot operably coupled to the rod and extending along peripheral sides of the rod and at least a proximal end of the damper tube relative to the rod, the dust boot being movable with the rod, a target disposed on a damper bump cap operably coupled to the proximal end of the damper tube, and a measurement assembly affixed to the dust boot. The measurement assembly may include a PCB elongated parallel to the axis to track relative movement between the target and the measurement assembly responsive to the jounce and rebound events to generate ride height information based on the relative movement.