A relief system for at least partially relieving the body weight of a person includes at least one first fastening device for fastening a first end of a first support device and at least one second fastening device for fastening a second end of the first support device which are formed on a cuff, such that an equally distributed tensile force is exerted on the cuff at the first fastening device and second fastening device when the first support device is guided through a guide device during a movement of the cuff when loaded by at least part of the body weight of the person. This advantageously permits a simple connection in particular of a bedridden patient to the relief system, without the patient first having to be moved, without other medical/therapeutic devices being disturbed, and without limiting the patient's stepping/walking movement.

A spinal decompression device from which a user suspends himself with his head up, taking advantage of gravity to stretch his spine and relieve tension in his back. Two crosspieces are connected at their middle portions to form an X. Each crosspiece has an arm near the top and a foot at the bottom, all extending horizontally and perpendicularly to the crosspieces. The height of the arms and their distance apart from each other are adjustable to fit each user so that the user may control the amount of his body weight suspended between the arms during treatment, by resting his feet on the ground. The device is collapsible for easier storage. A safety strap may be connected between the lower portions of each cross piece to prevent accidental collapse of the device. Wheels may be attached to the feet to make the device easier to move.

A complex rehabilitation technology system includes a frame and a complex rehabilitation technology device. This frame is movable between a collapsed carriable position and an expanded support position to facilitate portability or storage. The complex rehabilitation technology device is coupled to the frame. And, the complex rehabilitation technology device is configured to be operable when the frame is in the expanded support position. The complex rehabilitation technology system can be portable (e.g., configured for one-handed carrying).

A method for performing a surgical procedure includes: positioning a patient in a surgical patient interface device that includes: a base, a platform coupled to the base, and a first abutment and a second abutment each coupled to the platform; rotating the platform between a first position and a second position, where, in the first position, the platform extends in a substantially horizontal direction relative to the base, and the first and second abutments are separated by a first distance, and in the second position, the platform extends in a substantially vertical direction relative to the base; adjusting one or both of the first and second abutments relative to the platform such that, in the second position, the first and second abutments are separated by a second distance different from the first distance; and accessing a target portion of skin of the patient for the surgical procedure.

The application presents a multi-posture lower limb rehabilitation robot, which includes a robot base and a training bed. The training bed comprises two sets of leg mechanisms, a seat, a seat width adjustment mechanism, a mechanism for adjusting the gravity center of human body, a back cushion, a weight support system and a mechanism for adjusting the back cushion angle. The robot base comprises a mechanism for adjusting the bed angle. The mechanisms for adjusting the angles of bed and back cushion can be used together to provide paralysis patients with multiple training modes of lying, sitting, and standing postures. Each leg mechanism comprises hip, knee, and ankle joints, which are driven by electric motors; angle and force sensors are installed on each joint, and can be used to identify patients' motion intention to provide patients with active and assistant training. The mechanism for adjusting the gravity center of human body, the leg mechanisms, and the weight support system can be used together to implement human natural walking gait to improve the training effect.

A vertebra recovery apparatus has a main frame body, a swing assembly, and a driving module. The swing assembly is pivotally disposed on the main frame body, and is provided with two cantilevers. Each of the two cantilevers is provided with a support piece used for providing support under an armpit of each of the two arms of a human body, so that the human body stands in the swing assembly in a manner of suspending the feet. The driving module is disposed between the main frame body and the swing assembly, and may drive the swing assembly to perform motion of swinging forwards and backwards. The vertebra recovery apparatus performs stretching by using the weight of a user, and achieves the effects of enabling a vertebra to be fully stretched and to be in a normal location.

Vertical decompression relaxation device with vertical tank, with access ladders, with handrail and stairs for internal access, and adjustable tie rods attached to tie rods. mainly in the treatment of muscle and fascia stiffness.

A lumbar decompression device may include one or more bases that support one or more uprights with a plurality of upper support members and a plurality of lower support members. The upper support members are configured to engage with a user's upper body and support a user's body weight. The one or more uprights are positioned laterally from the upper support members such that the user may perform a variety of movements of their lower body without contacting the one or more uprights.

The present invention relates to a stimulation device (1) configured for interacting with an external body portion of a user, in particular the user's back. The interaction consists of exerting a mechanic action upon the user's body, 5 such as massage stimulation and/or skin scrubbing stimulation. For this purpose, the stimulation device (1) comprises a frame (50) provided with at least one upright element (2) extending along a longitudinal direction (L) preferably corresponding, in use, to a body height of the user, and stimulation means (4), slidably coupled with the upright element (2) according to the 10 longitudinal direction (L). Further, the stimulation device (1) is apt to be installed, in use, in a wall unit (100) for a shower cabin assembly (1000).

A decompression device may include a support structure having a first longitudinal brace, and a first cross brace may be coupled to or part of the first longitudinal brace. A harness may be coupled to the first cross brace of the support structure, and the harness may have a traction surface. An adjustable fastener may control the harness length therein controlling the distance between the traction surface and the first cross brace. The base may be positioned on a surface or structure, and portions of the harness may be positioned around the body of a user, such as under the arms and around the back. The user may manipulate the adjustable fastener to position portions of the harness a desired distance from the first cross brace. The user may then lean forwards with the support structure and the harness will provide lift, and therefore decompression, to the body and back of the user.