The present disclosure provides an assistive equipment and a supporting device of the same. The supporting device includes a housing, a first positioning element, a second positioning element and an elastic element. The first positioning element and the second positioning element are respectively disposed at two ends of the housing. The elastic element is disposed between the first positioning element and the second positioning element. When the second positioning element positions an end of the elastic element, a rotation of the second positioning element at a first pivot produce a deformation to the elastic element.

A human interface device is configured to be coupled to a trunk of a person and comprises a frame, a fabric coupled to said frame configurable to be under tensile forces, and a belt configured to be coupled to two side edges of said frame wherein when said belt is worn by said person, an area of said fabric will be pushed against the person's lower back conforming to the shape of the lower back of said person. In operation when said human interface device is worn by said person, the weight of any load coupled to or supported by said frame will be partially supported by the friction force between the area of said fabric which is pushed against the person's lower back, and the person's lower back allowing said person to carry said load.

An orthopedic brace features a belt brace and an adjustable spinal support extension. The belt brace includes a structural member. The adjustable spinal support extension is configured for insertion into the structural member. The adjustable spinal support extension includes a sleeve, a first strut member, and a second strut member adjustably coupled to the first strut member to alter a length of the spinal support extension. The first strut member and the second strut member are partially enclosed within the sleeve and a fastener of the structural member is attachable to a fastener on the sleeve when the adjustable spinal support extension is placed within the sleeve.

A human motion assistance device has upper back straps and is configured to attach to a user. A leg strap arrangement with lower back straps is configured to attach to the user. A differential assembly is connected between the upper back straps and lower back straps to reduce resistance of the upper torso harness and leg strap arrangement during gait. When crouching or lifting, the differential assembly transfers force to stretch and retract the upper torso harness and leg strap arrangement, which provides human motion assistance. The differential assembly can be implements as an x-bar, lever arm, pulley, gears, or tube. The leg strap arrangement has a knee pad adapted to cover a knee of the user. The knee pad opens along a segment. The upper torso harness has a shoulder strap and buckle. The leg strap arrangement is an elastic material.

A human interface device is configured to be coupled to a trunk of a person and comprises a frame, a fabric coupled to said frame configurable to be under tensile forces, and a belt configured to be coupled to two side edges of said frame wherein when said belt is worn by said person, an area of said fabric will be pushed against the person’s lower back conforming to the shape of the lower back of said person. In operation when said human interface device is worn by said person, the weight of any load coupled to or supported by said frame will be partially supported by the friction force between the area of said fabric which is pushed against the person’s lower back, and the person’s lower back allowing said person to carry said load.

A brace (10) which can be used in the orthopedic sector for correctly blocking and anatomically supporting the vertebral column, substantially consisting of a semirigid slat (11), with elongated vertical development, shaped in accordance with the vertebral column and thus making it possible to follow and support the column, the lower part being attached to straps (12) which are fixed at the front to an abdominal plate (13), wrapping around the waist, and the upper part to the end of straps (14) which also couple to the same abdominal plate (13), passing through loops (15) positioned at the sides, there being, in the initial part of the straps (14), that is to say in the coupling area (16) of the casing that encloses the semirigid slat and to a certain extent the section towards the front of the brace, a pocket (17) surrounded by stitching and in which there is a slit (18), said pocket being designed to accommodate a stiffening element (19) with a substantially arched shape.

A thoracic lumbar sacral orthosis attachment for configuring an orthopedic device as a thoracic lumbar sacral orthosis by connecting the attachment to the orthopedic device. The attachment has an anterior aspect including an anterior panel arranged to connect to an orthopedic device. An anterior thoracic extension (ATE) is securable to the anterior panel, and a support bar extends from the ATE. A strap system includes an axillary strap system and/or a shoulder strap system removably securing onto a surface of the orthopedic device, and/or the ATE.

A multifunctional vest for posture correcting, pain relieving and workout boosting comprises a vest-like garment wearing by an individual on the torso, the garment having shoulder and waist bands that join the anterior portion with posterior portion for securing and adjusting the fit of the garment to the wearer. The upper anterior section is made of elastic materials that allow for both female and male individuals to wear. The multifunctional vest also comprises removable parts that can be used for multiple purposes. Support stays and scapular straps are provided in the posterior portion for improving body posture. A therapeutic magnet belt that can be attached to both anterior and posterior portion is provided for purpose of relieving pain. For boosting workout purpose, a workout boosting sheet is provided in attaching to necessary place while doing exercise or daily activities.

A spine force modulating assembly for supporting a human spine that prevents, slows down, and or treats spine-related disorders. The spine force modulating assembly includes a frame of a length proportional to a distance between a third thoracic spine bone and a first sacral spine bone of a spine of a wearer of the spine force modulating assembly. The frame is of a “S” shape and configured to support a spine portion between the third thoracic spine bone and the first sacral spine bone. The spine force modulating assembly further includes a pair of shoulder straps extending from near the upper end of the frame and a pair of waist straps extending from near the lower end of the frame.

A spinal support device comprises a biomechanically stiff trapezius grapnel adapted to extend over and engage human trapezius muscles from a dorsal position toward a ventral position, a harness coupled to the trapezius grapnel and adapted to snugly anchor onto a human torso to maintain engagement of the trapezius grapnel with the human trapezius muscles, and a penannular cervical spine support portion coupled to and supported by the trapezius grapnel. The cervical spine support portion comprises a series of biomechanically stiff vertebra supports and a series of symphyseal resistive dampers. The vertebra supports are spaced from one another by symphyseal resistive joints formed by the symphyseal resistive dampers so that the vertebra supports alternate with the symphyseal resistive joints. The vertebra supports and the symphyseal resistive joints are positioned for dorsal alignment with respective alternating human vertebrae.