Provided is a robot. The robot includes a main body provided with a traveling wheel, a seat base coupled to an upper portion of the main body, a seat pad configured to cover the seat base at an upper side of the seat base, a pair of arm supporters connected to both sides of the seat base, respectively, and a pair of moving mechanisms disposed between the seat base and the seat pad, the pair of moving mechanisms being configured to allow the pair of arm supporters to move forward and backward.

An assisted standing and walking device for a user with at least one side paralysis or weakness is provided with provisions for assisted transitioning of the user from a seated position to a standing position prior to walking in the assisted standing and walking device with user friendly attachment and release with controlled limitation of lateral gait movement that occurs in lateral walking gait motion.

A wheelchair is described herein, including wheels, a support frame that engages with the wheels, a seat base fitted to the support frame, and suspension between the frame and the seat base, wherein the seat base is adapted to move with respect to the support frame when a human occupant is seated on the seat base such that the suspension dampens body weight force between the seat base and the support frame.

There is provided a dynamic and proactive system for supporting sitting while detecting and changing sitting postures of a user and method of operation thereof. The system including a frame, a plurality of supports, each configured to support a different body part, and a plurality of joints each configured to move independently of or together with any other of the joints, each of the supports is connected to the frame via a corresponding joint, at least one of the joints is a two dimensional joint which enables a change in angle between the frame and a corresponding support. Each one of the plurality of supports is configured to move with respect to the frame or to another support, thereby enabling any changes in sitting postures of the user. The system comprises sensors, which based on their readings, the system detects user postures and suggests or creates posture changes.

There is provided a dynamic and proactive system for supporting sitting while detecting and changing sitting postures of a user and method of operation thereof. The system including a frame, a plurality of supports, each configured to support a different body part, and a plurality of joints each configured to move independently of or together with any other of the joints, each of the supports is connected to the frame via a corresponding joint, at least one of the joints is a two dimensional joint which enables a change in angle between the frame and a corresponding support. Each one of the plurality of supports is configured to move with respect to the frame or to another support, thereby enabling any changes in sitting postures of the user. The system comprises sensors, which based on their readings, the system detects user postures and suggests or creates posture changes.

Disclosed are handicap apparatus using (a) one or more resilient, snap-on bumper structures, (b) unique tips covers, (c) leg elevating units, (d) resilient structures having a density that provides a softer exterior and a harder interior. The handicap apparatus includes crutches, canes, wheelchairs, scooters, and walkers.

Disclosed are handicap apparatus using (a) one or more resilient, snap-on bumper structures, (b) unique tips covers, (c) leg elevating units, (d) resilient structures having a density that provides a softer exterior and a harder interior. The handicap apparatus includes crutches, canes, wheelchairs, scooters, and walkers.

A mobility device (1) comprising: a main frame (3) having a central longitudinal axis which coincides with the median plane of the mobility device (1), an elongated body support member (13b) which has a central longitudinal axis (At) that is contained in a median plane of the mobility device (1), the body support member (13b) being pivotally connected to the main frame (3) via a medial pivot connection (17), and an elongated rotation transfer member (13c) rotatably connected to the body support member (13b), wherein the rotation transfer member (13b) has a central longitudinal axis (A2) which extends transversally relative to the central longitudinal axis (At) of the body support member (13b).

Provided is a robot including a seating body provided with a seat and an armrest body and a steering, the steering housing has an opening in an upper portion thereof and an inner space therein is disposed on the armrest body. The steering includes a handle and a lower portion passing through the opening, the lower portion being accommodated in the inner space and an elevator accommodated in the inner space, the elevator being connected to the lower portion of the steering body to elevate the steering body.

A mobility device positionable between a powered transport position and a powered wheelchair position is provided. The mobility device includes a frame including a pair of side rails, a pair of wheels on each side rail, a distance between each wheel on a corresponding side rail defining a length of the mobility device, a pair of arms coupled to an end of the pair of side rails, and a seat member positioned between the pair of arms. A pair of foot plates is pivotally attached to the pair of side rails and rotatable between an unfolded position in which the foot plate is horizontal and a folded position in which the foot plate is vertical. Each foot plate having a length at least substantially equal to the length of the mobility device.