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.

A gait rehabilitation device includes a stand equipped with casters spaced apart along the width and the length of the stand. Two movable arms forming a pedal crank, each arm comprising a first end rotatably mounted on the device about an axis parallel to the width of the stand. The wedging element to wedge the patient’s foot/leg is adjustable and lockable according to the width of the device. The thigh/leg spreader to adjustably space the patient’s thighs/legs on either side of the saddle support is configured to follow the alternating movement of the patient’s lower limbs. The position setting of the wedging element according to the width of the device is independent of the space setting of the thigh/leg spreader.

There is provided a technique by which posture changing can be given to an occupant while the forward shift of his/her hip portion is prevented. A seat for vehicle includes a seat cushion, and a seat back coupled to the seat cushion, and the seat back includes a posture changing mechanism having a back face supporting mechanism. There is provided a technique by which a fatigue reduction operation using the posture changing mechanism includes a) moving the back face supporting mechanism set to a position of a lumbar spine portion of an occupant from a first position state to a rear direction side and setting the back face supporting mechanism to a second position state, and b) thereafter, moving the back face supporting mechanism stepwise to a front direction side from the second position state to the first position state.

Systems, devices, and methods are described herein that relate to massage devices with force control and feedback for providing pain relief and improved muscle recover to users. The massage devices can output mechanisms for applying a mechanical output to a muscle area of a user to treat a muscle condition, driving mechanisms for driving the movement of the output mechanisms, and sensors for measuring force and other properties associated with application of the mechanical output. The massage devices can be configured to adapt therapy being applied to a muscle area or provide users with feedback based on sensor measurements.

A method of controlling a mobility device and related device including at least one actuator component that drives at least one joint component is described. The control method may include executing a control application with an electronic controller to perform: receiving a command in the control system of the mobility device for initiating an automated assessment and adjustment protocol; controlling one or more mobility device components to perform the automated assessment; electronically gathering user performance data associated with the automated assessment and determining user performance metrics; and electronically controlling one or more of the mobility device components in accordance with the performance metrics. The automated assessment includes controlling mobility device components to perform a predetermined assessment activity related to performance of the mobility device and/or user. Automatic adjustments to the device components, including adjusting tension and resistance levels of the joint components, may then be made based the performance metrics.

A back clapping machine with chest percussion function includes a casing, a movement mechanism, a clap mechanism, and a buffer unit. The casing includes an outer cover, a rear cover, and a housing space therein, in which the movement mechanism is disposed. The clap mechanism is in the housing space and connected with the front lateral side of the movement mechanism. The buffer unit is in the housing space and arranged to elastically abut against the outer cover and the rear cover therebetween. Thus, the present invention automatically carries out back clapping operation and detects the distance for back clapping, also provides a shock buffering effect, thus achieving a back clapping chest percussion operation through a hand alike structure and preventing pressure ulcer.

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.

A medical apparatus for standing aid comprising a backrest (4) that has at least one side thereof provided with a crank rocker mechanism that comprises a crank mechanism (1), a triangular linkage mechanism (2), and a rocker mechanism (3), the crank mechanism (1) being rotatably connected to the triangular linkage mechanism (2) such that an included angle between a second driven link (BE) of the triangular linkage mechanism (2) and the crank mechanism (1) is always smaller than 90°, and the crank mechanism (1) driving the triangular linkage mechanism (2), the rocker mechanism (3) and the backrest (4) connected to the triangular linkage mechanism (2) to perform interactive movement repeatedly along a predetermined curve trajectory in response to a driving force coming from a drive effect of a driving unit (100), so that the backrest (4) connected to the second driven link (BE) assists a trainee in standing up repeatedly by obliquely supporting the trainee's waist.

The present disclosure relates to the field of exercising equipment. A device (100, 200, 300, 400, 500, 600) disclosed in the present disclosure increases the reverse blood flow rate, i.e., flow rate of blood from legs towards heart. The device (100, 200 300, 400, 500, 600) includes a pedal (125, 220, 330, 420, 520, 630) configured to support a foot of a leg thereon. The device (100, 200, 300, 400, 500, 600) includes a drive mechanism (140, 250, 350, 530) to oscillate the pedal (125, 220, 330, 420, 520), thereby rocking the foot about the axis of the ankle joint to cause natural movement of the foot as during walking.

A mechanical transmission, tethered actuation system, an autonomous ankle exoskeleton design and method of their use employing a cable, pulleys and associated pulley housings to change angular transmission of linear force on the cable. The pulleys are linked by a ground link and the cable is threaded across and between the pulleys, whereby rotation of either of the pulleys in one direction causes rotation of the other pulley in the opposite direction. Independently of the pulleys, the pulley housings can freely rotate about associated pulleys, and a link between the pulley housings is provided, whereby rotation of one of the pulley housings in one direction causes rotation of the other pulley housing at an equivalent angle in the opposite direction, thereby enabling a change in transmission angle of linear force on the cable threaded across and between the pulleys and the associated pulley housing essentially without resistance. When pulleys have the same angular velocity ratio as that of the associated pulley housings, there is no cable slack since the net changes in length of the cable wrapping around two pulleys is zero.