The invention relates to suspension design. The present vehicle suspension comprises a quadrangular frame. Each corner portion of the frame has a wheel block kinematically attached thereto so as to form two pairs of wheelsa front pair and a rear pair. On each side of the frame, longitudinal and transverse coupling cables are fastened for movement therealong inside housings. Each wheel block consists of a body that is simultaneously connected to two coupling cables. Movably mounted on the body are parallel horizontal arms, the first of which is fastened to the body by its middle portion. A knuckle with the hub of a wheel is attached to an end of the first arm and to another end of the second arm, and two coupling cable dampers are attached to the other end of the first arm. The housings of the cables are attached to the body of the corresponding wheel block. The free end of each cable is enclosed in a damper. Mounted on the cable end portions that freely project from the housings in front of a damper are spring stabilizers of the position of the wheel of the wheel block. Each coupling cable is provided with a linear actuator. The result is an increase in the stability and smoothness of movement of a vehicle.

Embodiments of the present disclosure include a wheelchair configured to reposition an occupant between a lowered and a raised position. The wheelchair can include a frame, a seat moveable relative to the frame, a drive wheel, and one or more pairs of arm assemblies. The arm assembly includes a wheel configured to move from a first spatial location when the wheel chair is operating on flat, level ground to a second spatial location that is different than the first spatial location. Arm limiters can selectively engage the arm assembly based on at least one of a seat position, position of the arm assembly and surface conditions of ground surface. The arm limiters can limit the range of motion of the arm assembly and sometimes other operational aspects of the chair.

A wheelchair including a frame and a suspension system. The suspension system may have at least one front caster arm pivotally connected to the frame, a front caster connected to the front caster arm, a first link, and a second link. The first link is pivotally connected to the frame, and the second link is slidably connected to the front caster arm and pivotally connected to the first link.

The presently disclosure describes a system for stabilizing a wheelchair. The system includes at least one caster arm configured to maintain contact with a surface underlying the wheelchair. The at least one caster arm includes a force sensing system configured to measure a force exerted on the underlying surface by the at least one caster arm; and an actuator to configured adjust a position of the at least one caster arm based at least in part on the measured force.

An embodiment can include a suspension system for a powered wheelchair, the suspension system comprising an arm and an air suspension subsystem. The air suspension subsystem in this embodiment can comprise a coil spring and an air bag surrounded by the coil spring. The arm in this embodiment can be configured to (a) couple a drive axle to a frame of the powered wheelchair and (b) move the drive axle relative to the frame. In this embodiment, a first end of the drive axle can be coupled to a wheel of the powered wheelchair, while the frame is closer to a second end of the drive axle than the first end, and the first end of the drive axle is opposite the second end of the drive axle. A first end of the air suspension subsystem in this embodiment can be coupled to the frame when a second end of the air suspension subsystem is coupled to the arm and the second end of the air suspension subsystem is opposite the first end of the air suspension subsystem. Other embodiments are disclosed.

A caster wheel suspension assembly for a wheelchair or the like includes a housing with a clevis portion and a tubular portion; a fork member pivotably mounted in the clevis portion of the housing, the fork member having a pair of fork arms extending from the housing, each of the fork arms terminating in a lower end, the fork member having an upper portion formed as a clevis tang disposed in the clevis portion of the housing; a damping element in the tubular portion of the housing; and a compression adjustment element connected to the clevis pin and extending axially through the damping element. The compression adjustment element is configured to apply an adjustable compressive force to the damping element, and it is further configured to be moved axially within the tubular portion of the housing for adjustment of the compressive force applied to the damping element.

Embodiments of the present disclosure include a wheelchair configured to reposition an occupant between a lowered and a raised position. The wheelchair can include a frame, a seat moveable relative to the frame, a drive wheel, and one or more pairs of arm assemblies. The arm assembly includes a wheel configured to move from a first spatial location when the wheel chair is operating on flat, level ground to a second spatial location that is different than the first spatial location. Arm limiters that can selectively engage the arm assembly dependent on the position of the arm assembly and surface conditions of ground and can limit the range of motion of the arm assembly and sometimes other operational aspects of the chair.

A conveyance for surmounting obstacles which includes a first ground engaging arrangement, and a second ground engaging arrangement, and the first and second ground engaging arrangements are operable to move in an alternating sequence of movements to enable the conveyance to surmount obstacles. The conveyance is statically balanced alternately by one then the other of the ground engaging arrangements throughout the sequence of movements. Each ground engaging arrangement includes a forwardly disposed portion and a rearwardly disposed portion which are spaced apart from one another. Each ground engaging arrangement further includes an obstacle accommodating region located between the forwardly disposed portion and the rearwardly disposed portion which can accommodate a portion of an obstacle being surmounted during use.

Embodiments of a suspension for a vehicle is provided. The suspension includes, for example, a frame and a locking assembly. The locking assembly inhibits tipping of a frame of the vehicle when tipping of the frame is detected.

A wheelchair suspension comprises a frame, at least one pivot arm, at least one front caster, at least one rear caster, a stabilizing system, and a sensor. The pivot arm is coupled to the frame. The front caster is coupled to the pivot arm. The rear caster is coupled to the frame. The stabilizing system is coupled to the frame and the pivot arm. The sensor is arranged such that tipping of the frame causes actuation of the stabilizing system to at least partially resist further movement of the frame.