This invention pertains to sway bar systems, and a method of controlling their operation. Specifically, the present invention relates to provide a way of adjusting the response characteristics of a sway bar system by changing the structure of the typical sway bar links and regulating the modified structure by utilizing an electronically adjustable sway bar link. Said electronically adjustable sway bar link comprises a twin tube cylinder filled with mixed incompressible fluid and pressurized gas and forms a determined volume in order to host pressurized gas higher than fluid flow regulation functions, permitting a directional control valve to always remain fully submerged in incompressible fluid and to modify the fluid path between each tube of said twin tube cylinder, allowing closed or opened fluid flow operation, determined by a controlling device receiving an electronic input and piloting said directional control valve.

A sway bar disconnect assembly for a motor vehicle includes a first bar segment for being connected to a first wheel, a second bar segment for being connected to a second wheel, and a disconnect clutch configured for being selectively movable between a connect orientation in which the disconnect clutch non-rotatably fixes the first bar segment and the second bar segment together and a disconnect orientation in which the disconnect clutch rotationally decouples the first bar segment and the second bar segment from each other. The disconnect clutch includes a first clutch section non-rotatably fixed to the first bar segment and a second clutch section non-rotatably fixed to the second bar segment. The first clutch section includes axially displaceable male connectors and the second clutch section includes female connectors shaped for receiving the male connectors in the connect orientation. The disconnect clutch also includes an axially movable disconnector configured for axially contacting the male connectors, and an actuator configured for axially moving the disconnector to force the male connectors out of engagement with the female connectors causing the disconnect clutch to enter into the disconnect orientation.

A hydraulic anti-sway bar disconnect system for locking and unlocking movement of an anti-sway bar of a vehicle, the system including an actuable control valve for controlling the movement of a working fluid within the system, at least one cylinder and piston assembly connected to the anti-sway bar having a working fluid connection port at both ends of the cylinder, a working fluid reservoir in fluid connection with the working fluid connection ports on the at least one cylinder via the actuable control valve whereby the actuable control valve is operable to maintain the system in a locked condition whereby working fluid in the cylinder maintains the piston substantially in position and an unlocked condition in which the actuable control valve allows the working fluid in the cylinder to exit the cylinder giving the piston free travel in the cylinder.

Provided is an automobile capable of improving ride quality and adjustment stability. To this end, the automobile according to the exemplary embodiment of the present invention includes: an actuator; a first stabilizer bar which has one end coupled to one end of the actuator; a second stabilizer bar which has one end coupled to the other end of the actuator; and a decoupler which couples at least one of one end of the first stabilizer bar and one end of the second stabilizer bar to the actuator.

A suspension stabilization system may include a stabilizer bar having an end configured to connect to a suspension component of a vehicle, and a torsion shaft with an end connected to the stabilizer bar. A locking mechanism may be configured to rotationally couple and decouple at least a portion of the torsion shaft with a portion of a frame of the vehicle. Methods relate to stabilizing a vehicle suspension.

The present invention relates to an active rotary stabilizer and a stabilizer bar link assembly for a vehicle, which particularly may increase a degree of design freedom for a lower side of a vehicle body, improve ride comfort for a passenger, enhance durability of an actuator, and reduce the occurrence of noise caused by a backlash when the actuator is operated.

A sway bar system is described. The sway bar system includes a sway bar having a first end and a second end. An electronically controlled connector to provide a remotely controllable physical connection and disconnection capability between a first location on a vehicle and the first end of the sway bar; and the second end of the sway bar coupled to a second location on the vehicle.

Sway bars are described that include at least an inner sway bar, a first outer sway bar, and a second outer sway bar. The sway bar includes a first coupling portion and a second coupling portion that can engage and disengage under control from a remote location. The sway bar includes a larger diameter, outer sway bar assembly that can be disengaged and a smaller diameter inner sway bar. The sway bar can include a housing to retain fluid.

A stabilizer (105) for the anti-roll stabilization of a vehicle (100). The stabilizer (105) has a first stabilizer element (110) and a second stabilizer element (115). The first stabilizer element (110) is, or can be, coupled to a first wheel suspension element (120) of the vehicle (100) and the second stabilizer element (115) is, or can be, coupled to a second wheel suspension element (125) of the vehicle (100). Furthermore, the stabilizer (105) is provided with an electric motor (135) designed to rotate the first stabilizer element (110), relative to the second stabilizer element (115) in response to a control signal, so as to decouple the first wheel suspension element (120) from the second wheel suspension element (125). In this case the control signal represents a signal determined on the basis of a field-orientated control system.

Provided is a stabilizer assembly that allows a coupling member to make smooth slide movement. To this end, a stabilizer assembly for a vehicle comprises; a first stabilizer, a second stabilizer, and a clutch mechanism. The clutch mechanism includes a clutch case; a first engagement portion; a second engagement portion; an engagement slider; an actuator; a first protrusion; a second protrusion; and a collar fitted on outer peripheral surfaces of the first and second protrusions across a mating point thereof while the first and the second protrusions are set their front ends butted against each other, the collar having an outer diameter size not exceeding a size of the groove-bottom diameter of the engagement grooves.