A method of forming a dirt shield on a shock absorber includes positioning a mold over a portion of the shock absorber, heat shrinking a sleeve onto the mold, and removing the mold from the portion of the shock absorber such that the sleeve after heat shrinking remains on the shock absorber and forms the dirt shield. The shock absorber includes a piston rod, a mount rigidly attached to the piston rod, and a bushing secured to the mount. Prior to heat shrinking the sleeve, the sleeve slides over the bushing, and after heat shrinking the sleeve the bushing has an outer dimension greater than an inner dimension of the dirt shield. Also, a plurality of sleeves having the same inner dimension is used to form a plurality of dirt shields having different inner dimensions.

A method of forming a dirt shield on a shock absorber includes positioning a mold over a portion of the shock absorber, heat shrinking a sleeve onto the mold, and removing the mold from the portion of the shock absorber such that the sleeve after heat shrinking remains on the shock absorber and forms the dirt shield. The shock absorber includes a piston rod, a mount rigidly attached to the piston rod, and a bushing secured to the mount. Prior to heat shrinking the sleeve, the sleeve slides over the bushing, and after heat shrinking the sleeve the bushing has an outer dimension greater than an inner dimension of the dirt shield. Also, a plurality of sleeves having the same inner dimension is used to form a plurality of dirt shields having different inner dimensions.

An air spring assembly includes a piston configured to couple to a suspension component, a top cap configured to couple to a vehicle frame, and a hollow guide tube having a first end coupled to the top cap and a second end provided with an aperture to the hollow. The piston passes through the aperture and is disposed at least partially within the guide tube. The assembly also includes a diaphragm disposed at least partially within the guide tube, disposed between and attached to the piston and the top cap. The assembly further includes a seal member having an outboard portion coupled to the guide tube proximate the second end, an inboard portion coupled to the outer periphery of the piston, and a membrane extending between the outboard portion and the inboard portion. The membrane defines a rolling lobe disposed between the guide tube and the piston.

An air spring bellows for an air spring. The air spring may be used in suspension systems for automobiles, trucks, buses, trains, and industrial machines, among other applications. The air spring includes an air spring bellows. The bellows includes a flexible elastomeric substrate. The substrate is formed of polyurethane. Polyurethane may be the sole elastomer, or the majority of the elastomeric material, in the substrate. The substrate may be translucent. The bellows may include reinforcements, such as fiber cords. Plies of the fiber cords may be arranged within the elastomeric substrate.

A spring-damper assembly includes a damper and an adjustable gas spring system coupled to the damper. The spring-damper assembly can be coupled to a vehicle as part of a suspension thereof. The adjustable gas spring system maintains the ride height of the vehicle while absorbing forces from changes in the terrain. The dampers control unwanted movement of the coil spring and dissipate forces from the suspension.

An air spring unit for a chassis of a motor vehicle, includes an air spring cover and an air spring piston, wherein an airtightly secured rolling bellows made of elastomer material partially delimits a working chamber between the air spring cover and the air spring piston, which working chamber can be filled with compressed air, wherein the rolling bellows is surrounded by a divided, sleeve-shaped outer guide having a first outer guide part and a second outer guide part.

An air spring unit for a chassis of a motor vehicle, includes an air spring cover and an air spring piston, wherein an airtightly secured rolling bellows made of elastomer material partially delimits a working chamber between the air spring cover and the air spring piston, which working chamber can be filled with compressed air, wherein the rolling bellows is surrounded by a divided, sleeve-shaped outer guide having a first outer guide part and a second outer guide part.

A telescopic arrangement (10) having a hollow cylinder (12) and a part (14) which is telescopically engaged with the cylinder. The arrangement is provided with at least one coil (22) constituting a first form of pulse-induction device, and at least one target (28) constituting a second form of pulse-induction device, to monitor the position of the said part (14) relative to the cylinder (12). A plurality of devices (22) each of one of the said first and second forms of device are positioned on the outside of the cylinder (12), at different respective positions therealong. At least one (28) of the other of the said first and second forms of device is fixed relative to the said part (14) of the arrangement (10) in a position such that it is moved over the said plurality of devices (22) in succession as the said part (14) is telescopically moved relative to the cylinder (12) of the arrangement (10).

A telescopic arrangement (10) having a hollow cylinder (12) and a part (14) which is telescopically engaged with the cylinder. The arrangement is provided with at least one coil (22) constituting a first form of pulse-induction device, and at least one target (28) constituting a second form of pulse-induction device, to monitor the position of the said part (14) relative to the cylinder (12). A plurality of devices (22) each of one of the said first and second forms of device are positioned on the outside of the cylinder (12), at different respective positions therealong. At least one (28) of the other of the said first and second forms of device is fixed relative to the said part (14) of the arrangement (10) in a position such that it is moved over the said plurality of devices (22) in succession as the said part (14) is telescopically moved relative to the cylinder (12) of the arrangement (10).

A damper bumper cap for covering the rod side end of the damper tube containing a piston rod seal and for retaining a dust cover on the damper tube. The cap includes a side wall positioned in contact with the damper tube, an end wall that extends radially inwardly over the piston rod seal, and an annular skirt that is spaced radially outward of the side wall. First and second groups of connection wall segments extend radially between the side wall and the annular skirt at different heights to define vent openings in the spaces between the connection wall segments in the first and second groups of connection wall segments. The vent openings thus provide a plurality of tortuous airflow paths through the cap at circumferentially spaced locations.