A vehicle height adjustment system includes: a cylinder housing part having an inner space configured to receive working fluid; a piston part positioned in the cylinder housing part, the piston part configured to move linearly in response to the working fluid transferred to the cylinder housing; a damper rod part positioned in the piston part; a protrusion part protruding outward from the damper rod part; and a guide part formed in the piston part facing the protrusion part, wherein the protrusion part is inserted into the guide part.

A vehicle height adjustment system includes: a cylinder housing part having an inner space configured to receive working fluid; a piston part positioned in the cylinder housing part, the piston part configured to move linearly in response to the working fluid transferred to the cylinder housing; a damper rod part positioned in the piston part; a protrusion part protruding outward from the damper rod part; and a guide part formed in the piston part facing the protrusion part, wherein the protrusion part is inserted into the guide part.

A gas spring and damper assembly includes a damper assembly and a gas spring assembly. The gas spring assembly is axially coextensive with the damper assembly and includes a flexible spring member, a first end member assembly and a second end member assembly. The first end member assembly includes a first wall portion that extends about a longitudinal axis and defines an end member chamber. A second wall portion projects outwardly beyond an outer peripheral surface portion of the first wall portion. The second wall portion at least partially defines an intermediate chamber in fluid communication with the end member chamber and is dimensioned to receive an associated control device. A third wall portion at least partially defines an end member passage through which the end member chamber can be selectively placed in fluid communication with the spring chamber by way of the intermediate chamber and the associated control device.

A gas spring and damper assembly includes a damper assembly and a gas spring assembly. The gas spring assembly is axially coextensive with the damper assembly and includes a flexible spring member, a first end member assembly and a second end member assembly. The first end member assembly includes a first wall portion that extends about a longitudinal axis and defines an end member chamber. A second wall portion projects outwardly beyond an outer peripheral surface portion of the first wall portion. The second wall portion at least partially defines an intermediate chamber in fluid communication with the end member chamber and is dimensioned to receive an associated control device. A third wall portion at least partially defines an end member passage through which the end member chamber can be selectively placed in fluid communication with the spring chamber by way of the intermediate chamber and the associated control device.

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 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 gas spring and damper assembly includes a damper assembly and a gas spring assembly. The gas spring assembly is axially coextensive with the damper assembly and includes a flexible spring member, a first end member assembly and a second end member assembly. The first end member assembly includes a first wall portion that extends about a longitudinal axis and defines an end member chamber. A second wall portion projects outwardly beyond an outer peripheral surface portion of the first wall portion. The second wall portion at least partially defines an intermediate chamber in fluid communication with the end member chamber and is dimensioned to receive an associated control device. A third wall portion at least partially defines an end member passage through which the end member chamber can be selectively placed in fluid communication with the spring chamber by way of the intermediate chamber and the associated control device.

A gas spring and damper assembly includes a damper assembly and a gas spring assembly. The gas spring assembly is axially coextensive with the damper assembly and includes a flexible spring member, a first end member assembly and a second end member assembly. The first end member assembly includes a first wall portion that extends about a longitudinal axis and defines an end member chamber. A second wall portion projects outwardly beyond an outer peripheral surface portion of the first wall portion. The second wall portion at least partially defines an intermediate chamber in fluid communication with the end member chamber and is dimensioned to receive an associated control device. A third wall portion at least partially defines an end member passage through which the end member chamber can be selectively placed in fluid communication with the spring chamber by way of the intermediate chamber and the associated control device.

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 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.