A walking training apparatus 1 includes a leg robot 2 attached to a leg of a walking trainee, a motor 261 configured to rotationally drive a knee joint 22 of the leg robot 2, a control unit 332 configured to control the motor 261 so that the motor 261 rotationally drives the knee joint 22 in a leg-idling period in a gait motion of the walking trainee, a motor torque detection unit 262 configured to detect a motor torque, the motor torque being a torque generated by the motor 261, and a determination unit 333 configured to determine whether or not the walking trainee is in a spasticity state or a rigidity state by using a value of the motor torque detected in the leg-idling period by the motor torque detection unit 262.

A percussive massage device that includes a housing, an electrical source, a motor positioned in the housing, a switch for activating the motor, and a push rod assembly operatively connected to the motor and configured to reciprocate in response to activation of the motor. The housing includes first, second and third handle portions that cooperate to define a handle opening, wherein the first handle portion defines a first axis, the second handle portion defines a second axis and the third handle portion defines a third axis, and wherein the first, second and third axes cooperate to form a triangle.

A walking assistance apparatus includes stimulus applying means for applying a stimulus to a leg part on which a walking assistance apparatus is mounted and state detection means for detecting a supporting leg condition and a lifted leg condition of the leg part on which the walking assistance apparatus is mounted. The stimulus applying means applies a first stimulus to the leg part when the state detection means has detected that the leg part on which the walking assistance apparatus is mounted is in the lifted leg condition, and the stimulus applying means does not apply a stimulus to the leg part or applies a second stimulus that is weaker than the first stimulus when the state detection means has detected that the leg part on which the walking assistance apparatus is mounted is in the supporting leg condition.

A system for patient rehabilitation is disclosed. The system includes a first movable frame including an articulating bed, wherein the bed is configured to be selectively articulated to an inclined position, a suspension system, wherein the suspension system is disposed within the articulating bed and is selectively adjustable to accommodate varying patient height, a harness, wherein the harness is selectively engageable with the suspension system, wherein the harness is selectively adjustable to accommodate varying patient sizes, a second movable frame including a walker, wherein the walker includes a pair of legs and a motor, wherein approximation of the two movable frames permits the patient to easily utilize the walker from the bed. A method of using the system for patient rehabilitation is also disclosed.

A massage device includes a base, a drive unit, and a transmission unit. The drive unit is coupled to the base. The transmission unit is disposed at one side of the base. The drive unit includes a drive member to drive a rotary shaft for driving massage members. One end of the rotary shaft is provided with a unidirectional bearing and a first bevel gear. The unidirectional bearing is able to control the rotation of the first bevel gear. The transmission unit includes two positioning blocks and a worm shaft connected between the two positioning blocks. The worm shaft is provided with a second bevel gear and a movable member thereon. The first bevel gear meshes with the second bevel gear. When the first bevel gear is rotated, the second bevel gear is driven to link other parts so that the drive unit can slide on the base.

An ultra-thin massaging core includes a housing having two supporting bases, and a kneading massage mechanism including a kneading rotary shaft, a kneading drive device and two partial pendulum type kneading massage members. Ends of the kneading rotary shaft are mounted on the supporting bases. The kneading massage members are close to the ends of the kneading rotary shaft. The kneading drive device includes a kneading motor and a kneading speed reducer. A recessed accommodation space is formed between the supporting bases. The kneading motor is provided on the accommodation space. The kneading rotary shaft is located above the kneading motor, and the two are perpendicularly staggered. A first output end of an output shaft of the kneading motor is connected with the kneading rotary shaft through the kneading speed reducer in a transmission mode. The kneading speed reducer has a U-shaped transmission structure and is small in size.

There is provided a multifunctional apparatus for the passive physical rehabilitation comprising a main frame (1), and a second frame (2) which incorporates a seat (3) and a backrest (20) for supporting a user (10), the apparatus is characterized in that is movable onto a surface while performing the physical rehabilitation exercise, and in that it further comprises first supporting means (41) for supporting the lower limbs ends of the user (10) associated to a transmission shaft (40), said first supporting means being mounted in oscillating manner onto said main frame (1); and second supporting means (43,44) for supporting the upper limbs ends of the user (10) associated to said transmission shaft (40), said supporting means (44) being mounted in oscillating manner relative to said main frame (1); the arrangement being such that as a result of the motion of the apparatus the same causes a reciprocating elliptical motion of said first supporting means (41) and said second supporting means (44) for supporting the limbs ends of the user (10) with a predetermined amplitude.

A percussive therapy device that includes a housing, an electrical source, a motor positioned in the housing, a switch for activating the motor, a push rod assembly operatively connected to the motor and configured to provide reciprocating motion in response to activation of the motor, and a massage attachment secured to a distal end of the push rod assembly. The reciprocating motion of the push rod assembly has a user-adjustable amplitude.

An aid device for the movement and rehabilitation hand fingers includes a exoskeleton, an articulated glove or a wearable mechanism configured to be positioned on the back of at least one finger and to be mechanically constrained to the finger, and a motorized system exerting a movement or a change in the configuration of the exoskeleton. The exoskeleton includes a rigid elements arranged on a row one behind the other along a longitudinal axis parallel to the longitudinal extension of the finger and articulated with each other to make a modular underactuated structure and obtain maximum shape and kinematic adaptability to the fingers, particularly to follow the extension and flexing movement of the fingers. The motorized system includes pulling and/or pushing elements that act on one or more of the elements of the exoskeleton to produce finger movements and particularly the extension and flexing movements of the fingers.

An exoskeleton for a leg of a user comprises a leg structure, a foot plate moveably mounted thereto, and a biasing member extending between the leg structure and the foot plate, the foot plate is moveably mounted to the leg structure between a first position in which the rearward portion extends downwardly and the forward portion extends upwardly and a second position in which the rearward portion extends upwardly and the forward portion extends downwardly and the foot plate is biased to the first position.