A device (1) that supports the mobility of a person with restricted mobility comprises a trolley (3) and a mast (4) attached to the trolley (3). The mast (4) comprises a backrest (6) and armrests (5) for receiving the person.

A system for patient rehabilitation is disclosed. The system includes a first movable frame including an articulating bed, wherein the bed is configured to be selectively articulated to an inclined position, a suspension system, wherein the suspension system is disposed within the articulating bed and is selectively adjustable to accommodate varying patient height, a harness, wherein the harness is selectively engageable with the suspension system, wherein the harness is selectively adjustable to accommodate varying patient sizes, a second movable frame including a walker, wherein the walker includes a pair of legs and a motor, wherein approximation of the two movable frames permits the patient to easily utilize the walker from the bed. A method of using the system for patient rehabilitation is also disclosed.

A portable, lightweight emergency lifting device for downed persons that is intended for use by paramedics/emergency personnel as well as medical facilities and private owners. The lifting device has a redundant, fail safe lifting system utilizing twin electric screw jacks. It has a seat with a ramped front edge that extends to the ground when the device is in its collapsed configuration to aid in loading the patient. The vertical legs open only to an acute angled position so as to leave the immediate area under the seat open and uncluttered. The frame is on casters and the seat resides between the horizontal frame members when the device is in its collapsed configuration thus allowing the lowest possible pick up of a patient.

A robot includes an arm mechanism that operates in accordance with a first motion pattern for supporting a user with a standing-up motion which starts in a sitting posture and finishes in a standing posture, a control unit that (i) acquires first information used to identify a predetermined position of the arm mechanism corresponding to a half-crouching posture of the user during a motion in accordance with the first motion pattern and (ii) detects whether the current position of the arm mechanism operating in accordance with the first motion pattern is included in a first range including the predetermined position identified by the first information, and a presentation unit that presents a first signal if the control unit detects that the position of the arm mechanism is included in the first range.

The present invention provides a mobility device and methods of use to easily and quickly transfer a physically challenged individual from one seat to another seat. The mobility device and methods of use of the present invention also facilitates moving the physically challenged individual from one seat located at one location to another seat located at another location.

Devices, systems, and methods are described including a wearable lift device including a flexible material having a shape sufficient to encircle a portion of a subject's body; a fastener configured to secure the flexible material around the portion of the subject's body; at least one lift attachment element associated with the flexible material at one or more lift attachment sites, the at least one lift attachment element configured to attach the wearable lift device to a lift apparatus; a load sensor associated with at least one of the one or more lift attachment sites or along a load path between the one or more lift attachment sites; a microcontroller including circuitry configured to receive and process information regarding the measured load; and a reporting device operably coupled to the microcontroller and configured to transmit one or more signals indicative of the processed information regarding the measured load.

A patient transport apparatus comprising a support frame, a base, a bracket coupled to the support frame and comprising a channel being non-linear, a frame assembly coupled between the support frame and the base and comprising a slidable member disposed in the channel, the slidable member being moveable between a plurality of different positions in the channel to place the support frame in a plurality of different poses relative to the base. The patient transport apparatus also comprises a sensor configured to detect the slidable member in the channel and produce a reading, as well as a controller coupled to the sensor and configured to receive the reading from the sensor, determine the position of the slidable member in the channel based on the reading, and determine the pose of the support frame relative to the base based on the determined position of the slidable member.

A self or assist-operated lift apparatus is disclosed. In various embodiments, the lift apparatus includes a vertical rail; a linear bearing positioned to be moved along the vertical rail; a drive mechanism coupled to the linear bearing and configured to move the linear bearing at a controlled rate along the vertical bearing between a first position at a lower end of a range of motion and a second position at an upper end of the range of motion; and a seat attached to the linear bearing, the seat being constructed at least in part of a substantially rigid material and having a size and shape suitable to accommodate a seated human occupant.

According to embodiments, an overhead lift includes a lift actuator; and a control system communicatively coupled to the lift actuator. The control system may include a control unit comprising a processor with a memory communicatively coupled to the processor and having computer readable and executable instructions and at least one transceiver communicatively coupling the control unit to at least one of a computer, a network, and a data storage device. The processor executes the computer readable and executable instructions to: determine at least one operating characteristic of the overhead lift and an operating time of the overhead lift as the overhead lift is actuated; determine an accumulated load-time parameter for the overhead lift based on the at least one operating characteristic and the operating time; and upload the accumulated load-time parameter to at least one of the computer, the network, and the data storage device.

A patient transport apparatus transports a patient over a surface. The patient transport apparatus comprises a support structure comprising a base, a patient support surface, and a reference sensor arranged to sense inclination of the support structure. A drive system is coupled to the support structure and operable to propel the patient transport apparatus. A handle assembly is operable by a user to control operation of the drive system. The handle assembly comprises a handle movable relative to the base and a position sensor arranged to sense positioning of the handle. A controller is coupled to the reference sensor and the position sensor, and is adapted to control the drive system in response to signals received from the reference sensor and the position sensor.