Under the control of a controller, a drive mechanism portion moves a massaging member and an ascent-descent mechanism moves up and down the massaging member together with the entire drive mechanism portion. During an ordinary kneading massage, the massaging member performs a relative motion to describe a reference locus in the shape of a closed curve. The controller controls to make the massaging member perform a relative reciprocating movement within a partial movement range corresponding to a partial segment of the reference locus and simultaneously controls to make the ascent-descent mechanism move the drive mechanism portion up and down. The relative reciprocating movement of the massaging member along the partial segment of the reference locus and the up-down movement of the entire drive mechanism portion are combined together to produce a new motion of the massaging member describing a locus different from the reference locus.

A wearable upper limb rehabilitation training robot with precise force control includes a wearable belt, a multi-degree-of-freedom robot arm, and a control box. The robot is worn on the waist of a person by using a belt, and driven by active actuators, to implement active and passive rehabilitation training in such degrees of freedom as adduction/abduction/anteflexion/extension of left and right shoulder joints and anteflexion/extension of left and right elbow joints. In addition, a force/torque sensor is mounted on a tip of the robot arm, to obtain a force between the tip of the robot arm and the human hand during rehabilitation training as a feedback signal, to adjust an operating state of the robot, thereby realizing the precise force control during the rehabilitation training.

A system for moving or assisting in movement of a body part of a subject, as well as a rehabilitation system including such a movement assistance system, includes a body part interface configured to be secured to the body part, and a motor-actuated assembly connected to the body part interface to move the body part interface to cause flexion or extension movement of the body part. A force sensing module is configured to measure forces applied between the body part interface and the motor-actuated assembly to ascertain at least one of volitional flexion and volitional extension movement of the body part by the subject, among other functions that may be implemented in movement assistance and rehabilitation systems using the disclosed force sensing module designs.

A rehabilitation assisting apparatus has a main body, a waist assisting unit mounted above the main body, and two leg assisting units separately disposed side by side above the main body. Each of the leg assisting units is pivotally connected with the waist assisting unit. An upper rocking plate of the waist assisting unit can be driven to roll leftward and rightward to rehabilitate or train a waist of a user. A leg lifting bracket of each of the leg assisting unit can be driven to pitch upward and downward to rehabilitate or train a leg of the user.

A face cradle system; the face cradle system includes a face cradle configured to be used in combination with a host massage therapy table. The face cradle includes an adjustable frame includes an open-ended oval shape having a first-arm extension, a second-arm extension, and an oval portion. The oval portion of the adjustable frame includes a padded forehead hammock positioned at a closed end of the oval portion. The padded forehead hammock features a sinus relief nodule which makes contact upon, and applies pressure to, an area directly above a bridge of a nose. The oval portion, the first-arm extension and the second-arm extension are connected at an adjustable pivot point. The face cradle system promotes proper alignment of the spine, relieves and prevents a user's sinus pressure while in a prone position, and overall facilitates a more beneficial massage.

Exoskeleton kinematic chain arranged to pivotally connect a first element to a second element, said first element comprising two pivot points A.sub.1 and B.sub.1 located at a distance A.sub.1B.sub.1, said second element comprising two pivot points A.sub.2 and B.sub.2 located at a distance A.sub.2B.sub.2. The exoskeleton kinematic chain comprises a first external link pivotally connected to the first element at the pivot point A.sub.1 and a first end link pivotally connected to the first external link at a pivot point D.sub.1, said pivot point D.sub.1 being located at a distance A.sub.1D.sub.1 by the pivot point A.sub.1. The exoskeleton kinematic chain comprises then a second external link pivotally connected to the second element at the pivot point A.sub.2, and a second end link pivotally connected to the second external link at a pivot point D.sub.2, said pivot point D.sub.2 being located at a distance A.sub.2D.sub.2 by the pivot point A.sub.2. The exoskeleton kinematic chain also comprises a first intermediate link pivotally connected to the first element at the pivot point B.sub.1 and integrally connected to the second end link at a junction point C.sub.2, a second intermediate link pivotally connected to the second element at the pivot point B.sub.2 and integrally connected to the first end link at a junction point C.sub.1. The first and the second end link are pivotally connected to each other at a pivot point M. Defining ==θ, for any value of θ, the projections of the pivot points A.sub.1, B.sub.1, A.sub.2, B.sub.2 in a plane π, lay in a circumference K having center O and radius r=A.sub.1D.sub.1=A.sub.2D.sub.2=D.sub.1B.sub.2=MB.sub.2=D.sub.2B.sub.1=MB.sub.1, in such a way that decreasing the value of θ the first and the second element rotate with respect to each other about an axis z orthogonal to the plane π and passing through the center O in the direction for which the point A.sub.1 is overlapped to the point B.sub.2.

A massage device comprising at least one arcuate support provided with a plurality of adjacent rollers, wherein each roller is constrained to the arcuate support in a certain position and is further adapted to rotate about an axis belonging to a plane substantially parallel to the tangential plane to the profile of the arcuate support at said certain position, and each roller of said plurality of rollers is convergent or divergent with respect to the immediately adjacent roller.

A driving module including a driving source configured to generate power, a gear train including a decelerating gear set configured to receive driving power from the driving source and a ring gear attached to one side thereof, and a rotary joint including at least one planetary gear configured to rotate using power received from an output end of the decelerating gear set and to revolve along the ring gear is disclosed.

Rehabilitating an impaired body part of a subject such as a stroke patient includes systems, devices, and methods using an orthosis system configured to attach to the impaired body part and to move or assist in movement of the impaired body part. A control system is configured to operate the orthosis system in a mode in which the orthosis system first allows the subject to move volitionally or attempt to move volitionally the impaired body part in a predefined motion and then operates to move or assist in the predefined motion of the impaired body part. Additional modes of operation include a brain computer interface mode of operation and a mode in which the orthosis system operates in a continuous passive mode of operation comprising a plurality of repetitions of an exercise to move the impaired body part.

A health care device includes a health care body for positioning a body part of a user, so as to maintain a first specific positional relationship with the body part, wherein the body part has an acupoint; an acupoint work piece for performing a health care work onto the use through the acupoint; and a work piece holder having a first end connected to the health care body and a second end for fixing the acupoint work piece, so that under the first specific positional relationship, the acupoint work piece performs the health care work under the condition that the acupoint work piece has a second specific positional relationship with the acupoint. A health care body, method and system are also provided.