A strap is provided, intended for a sling for persons, where the strap is elongated with short end edges and longer lateral edges and comprises a first belt and a second belt. Each belt includes an inside and an outside, where the insides are turned towards one another, and the outsides are turned away from one another. The first belt and the second belt include warps and wefts. The strap has a longitudinal direction that is parallel to the warps, and a transverse direction that is parallel to the wefts. In the longitudinal direction of the strap there are a number of first sections, where the first belt and the second belt are interwoven, and second sections are provided between them, where the first belt and the second belt are not interwoven, so that an eye is formed in each of the second sections.

A sling for supporting a subject such as a patient includes a panel assembly including a left flank with a left end, a right flank with a right end, and an interflank panel. The interflank panel has a left extremity permanently joined to the left end of the left flank and a right extremity permanently joined to the right end of the right flank. The sling also includes a left closure element and a right closure element which are securable to each other and releasable from each other to adjust an effective dimension of the sling. In another embodiment, the sling includes a frangible closure member which secures the left flank to the right flank.

An overhead subject lift includes a lift assembly configured to be movably engaged with an overhead rail, the lift assembly including a coupler for coupling a subject to the lift assembly, an extendable member coupled to the coupler, an actuator for moving the coupler and the extendable member, and a sensor that detects a position of at least one of the extendable member and the coupler in at least one of a lateral direction and a longitudinal direction.

A wheelchair for transporting a patient comprising a support frame, the support frame having an upper portion located substantially near a first end of the support frame and a lower portion located substantially near a second end of the support frame, at least one seat extension, the seat extension moveably coupled to the support frame between the lower portion and upper portion of the support frame, at least one leg, a first leg coupled to the lower portion of the support frame, at least two wheels mounted on the support frame, an anti-tip bar, the anti-tip bar being substantially horizontally disposed on the lower portion of the support frame and projecting in the lateral direction for stabilizing the wheelchair in the lateral direction, and an extendable beam positioned on the upper portion of the support frame and moveable coupled to the support frame.

A mobility device that includes support assemblies that may be secured to feet, legs, thighs, and torso of a user. An exemplary mobility device may further include an actuator that may be coupled with the exemplary support assemblies and may actuate rotational movements of the exemplary support assemblies with respect to each other. Such movement of support assemblies may accordingly move respective limbs of a disabled user. An exemplary mobility device may allow for a user to change position from a lying position to a standing position or from a standing position to a sitting position, which may significantly increase mobility of a disabled user. An exemplary mobility device may further include an exemplary wheeled base that may allow a disabled user to further move around.

A healthcare lifting vehicle includes a base frame, a drive mechanism, a preloading mechanism and a conveying mechanism. The preloading mechanism includes a pressure wheel and an elastic member, and the pressure wheel is movably coupled to the base frame, and both ends of the elastic member are connected to the base frame and the pressure wheel respectively. The conveying mechanism includes a reel, a transfer gear and a conveyor belt, and the reel is pivotally connected to the base frame and driven by the drive mechanism, and the transfer gear is axially coupled to base frame and formed on a side of the pressure wheel, and the conveyor belt is wound around the reel and extended towards the transfer gear and elastically coupled between the transfer gear and the pressure wheel.

A healthcare lifting vehicle includes a base frame, a drive mechanism, a preloading mechanism and a conveying mechanism. The preloading mechanism includes a pressure wheel and an elastic member, and the pressure wheel is movably coupled to the base frame, and both ends of the elastic member are connected to the base frame and the pressure wheel respectively. The conveying mechanism includes a reel, a transfer gear and a conveyor belt, and the reel is pivotally connected to the base frame and driven by the drive mechanism, and the transfer gear is axially coupled to base frame and formed on a side of the pressure wheel, and the conveyor belt is wound around the reel and extended towards the transfer gear and elastically coupled between the transfer gear and the pressure wheel.

The invention relates to a bed-sore prevention device that is modular and has universal integration capability, for effectively preventing bed-sores in patients through use of a mechanical means that may be fitted into a full spectrum of beds to support a multitude of resting positions for the patient. The lack of an assembly with boards disposed with a motor output and rails provides portability and offers solutions to proxy-health care providers, as well as care givers, with respect to fitting and unfitting the device onto any bed or lack of bed. Furthermore, the present invention solves the problem of limited resting positions with the use of mechanical means, as opposed to electro-mechanical means, for delivering or off-loading tension load onto the pliable support material. The use of a pliable support operably connected to mechanical means, with telescopic elongation thereof, results in a more precise control of a patient in a recumbent, supine, or prone position. Pronation of a patient, which may result in significant respiratory outcomes, may be supported by such device. In addition to supporting pronation, lift and rotation may be achieved by the rope and block-coupled support structureto the extent of achieving an intervening space between bed mattress and support structure. Additionally, the support structure may have additional apertures for the traversal of vital tubings and lines connected from the prone patient to a medical monitoring and therapeutic device. Moreover, tracks may be impressed on the support net, configured to house and guide the tubes and lines.

A subject support system includes a sling, a clamp, and a strap coupled to the clamp. The sling includes an outer perimeter extending around and defining a support region of the sling and a visual indicator positioned along the outer perimeter of the sling. The clamp is selectively coupled to the visual indicator. The clamp is repositionable between a closed position, in which the clamp is engaged with the visual indicator, and an open position, in which the clamp is disengaged from the visual indicator. The strap coupled to the clap is configured to couple the clamp to a lift mechanism.

A switch assembly for a lift unit includes a switch, an emergency stop device, and a reset actuator. The switch is arranged to move between a closed position, wherein the switch electrically couples a lift motor of the lift unit to an energy source, and an open position, wherein the switch electrically decouples the lift motor from the energy source. The emergency stop device is coupled to the switch and arranged to move the switch from the closed position to the open position. The reset actuator is coupled to the switch and arranged to move the switch from the open position to the closed position, wherein the reset actuator is controllable to move the switch from the open position to the closed position.