An automatic massage portable massage table, and belongs to the technical field of massage apparatuses. The automatic massage portable massage table includes a rigid planner surface, a cushioned pad, an upholstery cover, table legs, long leg supports, short leg supports, a cable system, a headrest cradle, a headrest cushion, and a plurality of airbags. According to the automatic massage portable massage table of the present disclosure, a user can command a circuit board to supply power to an air pump and a plurality of air valves through buttons of a controller. After being powered on, the air pump supplies air to the air valves. Meanwhile, the circuit board controls, according to a pre-stored program, the air valves to achieve air supply and air release, thus controlling the airbags to be inflated and deflated.

Proposed is a rehabilitation exercise device for upper and lower limbs. The rehabilitation exercise device is characterized by including: a first support supporting a user's hand or foot; a second support supporting a user's forearm or calf; a pair of first hinges rotatably connecting the first support and the second support to each other; a third support supporting a user's upper arm or thigh; a pair of second hinges rotatably connecting the second support and the third support to each other; and a distance adjustment part configured to adjust a distance between the first support and the third support by adjusting length of the second support.

A portable therapeutic unit and system for treating a back, a neck, or the back and the neck of a user is disclosed. The therapeutic unit includes a first seat, a back support, a hinge, and a metal back. The first seat is designed for the user to sit thereupon. The back support is designed to support a back of the user. The hinge pivotally connects the first seat and the back support. The metal back is connected to the back support, with the metal back magnetically coupling with an attachment magnet. Further, the attachment magnet couples to a therapeutic aid to deliver treatment to the user.

A wheeled walker including a front wheel pair viewed in a driving direction and a rear wheel pair viewed in the driving direction; a frame including rearward oriented struts, wherein each of the rearward oriented struts supports a rear wheel of the rear wheel pair; a platform attached at the wheeled walker, wherein the platform includes at least one platform wheel and a standing platform for a person using the walker; and an electric drive that is configured to move the wheeled walker forward in the driving direction, wherein the wheeled walker includes a coupling device that attaches the platform at the wheeled walker and transfers pull forces and push forces between the wheeled walker and the platform, wherein the coupling device is arranged in an intersection portion of a scissor linkage that is associated with the wheeled walker.

The present application provides a zero-gravity massage folding chair, which relates to the technical field of health care equipment. The zero-gravity massage folding chair comprises a chair body and a face fabric provided on the chair body, wherein the chair body is provided with a plurality of massagers, the massagers are provided on the face fabric, the chair body is unfolded when in use, the massagers provided on the chair body massage corresponding parts of the human body, and the chair body is folded when not in use. The zero-gravity chair of the present application can choose to massage in different scenes according to actual needs, such as in parks or at home, thus overcoming the defect that the traditional space capsule massage chair cannot move according to actual situations.

A vestibular training apparatus and method as disclosed and claimed. Wherein the training apparatus comprises a motorized rotational platform, an adjustable body harness, a swivel coupling attached to the adjustable harness, a beam anchor, and pulley system. The pulley system in connection with the beam anchor allows a user to be lifted by the trainer after rotating on the motorized rotational platform, wherein the user continues to rotate after being lifted by the trainer as a result of inertia.

A transportation device including a frame with a geometry and proportions that supports the body in a way that permits free movement of the lower body and legs, unencumbered by the device itself, to propel the transportation device and enable steering of the transportation device while riding with the body partially or wholly suspended off of the ground. In a portable configuration of the transportation device, a body suspension apparatus rotates in line with a central down tube and a steering mechanism rotates adjacent the central down tube. A plurality of telescoping down tubes forming the central down tube are nested within one another to reduce the length of the central down tube.

A walker that includes a handle, first frame having first and second legs, a second frame having first and second legs, one or more support bars, and a foldable or stowable foot rest, in which the folding action of the foot rest is actuated via the handle.

A rollator includes a collapsible frame supported on a plurality of wheels, a pair of handlebars, and a braking mechanism.

A robotic assistant includes a wheeled base, a body positioned on the base, a foldable seat rotatably connected to the body, an actuator to rotate the foldable seat with respect to the body, and a control system that receives command instructions. The actuator is electrically coupled to the control system. In response to the command instructions, the control system is to control the actuator to rotate the foldable seat to a folded position or an unfolded position. The control system is further to detect whether an external force from a user has applied to the foldable seat, and release the actuator to allow the foldable seat to be manually rotated.