An exercise device comprises a base. A power mechanism and a vibration mechanism are each disposed in the base. The power mechanism powers the vibration mechanism. The vibration mechanism provides linear vibrations through the base of the device in a first axis parallel to a longitudinal axis of a user standing on the base. In some embodiments, the device is substantially free of vibration in a plane orthogonal to the first axis and is substantially free of rotational vibration in any direction at a time when the vibration mechanism provides the first plurality of linear vibrations. In some embodiments, the vibration mechanism operates between 10 and 60 Hz. In some embodiments an exercise kit is provided that includes the referenced exercise device, an exercise bar, and one or more elastic bands, each elastic band for removably coupling the base to the exercise bar.

A massage chair includes a backrest, and two sets of massage arms assembled with the backrest and spaced apart from each other along a transversal axis of the backrest, each set including a first and a second massage arm that respectively have a first and a second contact member and are movable relative to each other. The method includes positioning the two sets of the massage arms such that at least the first contact members of the first massage arms contact a desired region of a user's body, actuating the two sets of the massage arms to perform a sequence of kneading pulses or a continuous kneading displacement from a wide state to a narrow state to apply a gripping action on the user's body, and stopping the two sets of the massage arms in the narrow state for a period of time to maintain the gripping action on the user's body.

Provided is a thermotherapy device, which includes a first housing (10), a second housing (20) disposed under the first housing (10), a transfer plate (30), at both sides of which transfer rollers (31) are provided, and a pair of guide rails (40) that is provided to the second housing (20) and on which the respective transfer rollers (31) of the transfer plate (30) are placed. The pair of guide rails (40) are integrally molded when the second housing (20) is injection-molded. Thus, since the guide rails on which the transfer rollers of the transfer plate travel are integrally molded when the second housing is injection-molded, inefficiency caused by mounting separate rails as in the related art is removed, and thereby assemblability, productivity, and economic efficiency of the thermotherapy device can be improved.

The rotatable leg massage device has a base and a swinging arm. The swinging arm has a massaging end and a swinging end, the massaging end provided with a respective massaging roller on two sides. A second motor is disposed inside of the massage end and configured to rotate the two massaging rollers. The swinging end is disposed in front of the assembling base, and both sides of the swinging end are respectively provided with a swinging gear. A central aperture of each swinging gear is aligned with the through apertures of the assembling base and a shaft passing through all four apertures, the two swinging gears engages the two driving gears of the first motor, and the first motor is configured to drive the swinging arm to rotate around the base.

Embodiments for systems, methods and apparatuses of eyewear are disclosed. One method includes treating a patient with shutter glasses therapy for a relatively short period of time, such as at least a 6 week period; wherein the shutter glasses therapy includes blanking a first lens of shutter glasses being worn by the patient for a first blocking time, blanking a second lens of the shutter glasses being worn by the patient for a second blocking time, and controllably setting at least one of the first blocking time and the second blocking time.

Provided is a thermotherapy device, which includes a first housing (10), a second housing (20) disposed under the first housing (10), a transfer plate (30), at both sides of which transfer rollers (31) are provided, and a pair of guide rails (40) that is provided to the second housing (20) and on which the respective transfer rollers (31) of the transfer plate (30) are placed. The pair of guide rails (40) are integrally molded when the second housing (20) is injection-molded. Thus, since the guide rails on which the transfer rollers of the transfer plate travel are integrally molded when the second housing is injection-molded, inefficiency caused by mounting separate rails as in the related art is removed, and thereby assemblability, productivity, and economic efficiency of the thermotherapy device can be improved.

A massaging apparatus has two massaging systems arranged proximate to each other for performing more elaborate massage on target body areas. The massaging apparatus includes a first massaging member pair for massaging target areas; a second massaging member pair, provided independently of the first massaging member pair, for massaging target areas; a rotation shaft rotatably driven; a paired first conversion mechanisms, each disposed on a corresponding one of the first massaging members, for converting rotation of the rotation shaft into mutually approaching and separating movements of the first massaging members; and a second conversion mechanism for converting rotation of the rotation shaft into mutually approaching and separating movements of the paired second massaging members. The second massaging member pair is disposed between the paired first massaging members, and the second conversion mechanism is disposed between the paired first conversion mechanisms.

Provided is a vertical motion adjuster for a thermotherapy device capable of simultaneously accomplishing a pressing acupressure therapy effect and a pushing acupressure therapy effect. The vertical motion adjuster for the thermotherapy device includes a conveyance unit including a movable member configured to move along a mat, a support unit having one side hinged with the conveyance unit, and an elevation unit installed between the conveyance unit and the support unit and configured to raise the other side of the support unit in an arc shape. Accordingly, since the pressing acupressure therapy effect and the pushing acupressure therapy effect can be simultaneously accomplished as a moxibustion device is raised according to movement in an arc shape, a thermotherapy effect as well as an acupressure therapy effect through the moxibustion device can be improved.

A control system for controlling an exoskeleton worn by a user and having one or more actuators associated with various body members of the exoskeleton each corresponding to a body part of the user. The control system comprises a user interface for receiving input data indicative of a desired movement sequence, a memory component for storing pre-programmed movement data indicative of one or more sequential instructions required to effect the movement sequence, each instruction being associated with relative actuator movements for performing the instruction, and an actuator controller for moving the one or more actuators according to the relative actuator movements for each instruction. The control system also comprises a terrain sub-system for adjusting the actuator movements upon detection of a change in terrain slope and a balance control sub-system for periodically adjusting the balance of the exoskeleton during relative movement of the one or more actuators.

Provided is a thermotherapy device, which includes a first housing (10), a second housing (20) disposed under the first housing (10), a transfer plate (30), at both sides of which transfer rollers (31) are provided, and a pair of guide rails (40) that is provided to the second housing (20) and on which the respective transfer rollers (31) of the transfer plate (30) are placed. The pair of guide rails (40) are integrally molded when the second housing (20) is injection-molded. Thus, since the guide rails on which the transfer rollers of the transfer plate travel are integrally molded when the second housing is injection-molded, inefficiency caused by mounting separate rails as in the related art is removed, and thereby assemblability, productivity, and economic efficiency of the thermotherapy device can be improved.