A patient lift system includes a lift housing, a base lift strap having a first end coupled to a lift housing and a second end coupled to a sling bar. The base lift strap is infection controlled. In one embodiment, a protective sleeve covers the base lift strap, wherein the protective sleeve has a first end and a second end. In another embodiment, the base lift strap is chemically treated to provide infection control.

An apparatus includes a drive mechanism, a patient support mechanism, and an electronic system. The drive mechanism is included in a trolley and is configured to suspend the trolley from a support track. The drive mechanism includes a first sensor configured to sense an operating condition of the drive mechanism. The patient support mechanism couples to the trolley and includes a tether and a second sensor. The tether can be operatively coupled to a patient such that the patient support mechanism supports the patient. The second sensor is configured to sense an operating condition of the patient support mechanism. The electronic system is included in the trolley and has at least a processor and a memory. The processor is configured to define a gait characteristic of the patient based at least in part on a signal received from the first sensor and a signal received from the second sensor.

A human lift apparatus is disclosed. In various embodiments, the lift apparatus includes a substantially vertical guide rail; a carriage positioned to be moved up and down along the guide rail; a drive mechanism coupled to the carriage and configured to move the carriage at a controlled rate along the guide rail; and a tiltable seat coupled mechanically to the carriage in a manner that allows the seat to tilt about a substantially transverse tilt axis that is substantially parallel to the floor and runs substantially across the seat at a depth that enables a human subject to be seated on the tiltable seat with the center of gravity of the human subject being between the tilt axis and a back end of the seat. The tiltable seat is tiltably mounted in a manner and location that allows the tiltable seat to tilt down, with a front edge of the seat lower than the back edge of the seat, as the center of gravity of the human subject is shifted to a position forward of the tilt axis.

A lift system has a back panel and a seat panel to provide a seat. The back panel is slidably mounted on a support column via slider so that the back panel can be moved up and down to adjust the seat height. The seat panel can be flipped back when the back panel is in an upright position. The back panel, together with the support column, can be oriented in a horizontal position and the seat panel can be adjusted similarly. With the support column, the lift system can be attached to a wheeled frame for mobility, but it can also be attached to a pole, a rotatable arm, a wall or a ceiling.

The application relates to a device for, and method of transferring a patient on a bed between a lying position along a bed to a seated position facing the side of a bed. The device comprises an arm hold to allow the patient to clinch the arm hold to his or her chest, thereby enabling the device to transfer the patient between a lying position and a seated position. Preferably, the device further comprises a leg support to assist in transferring the lower portion of the patients body between a lying position and a seated position.

A patient lift system includes a lift housing, a base lift strap having a first end coupled to a lift housing and a second end coupled to a sling bar. The base lift strap is infection controlled. In one embodiment, a protective sleeve covers the base lift strap, wherein the protective sleeve has a first end and a second end. In another embodiment, the base lift strap is chemically treated to provide infection control.

A toilet seat lift assembly includes a toilet seat that is mountable to a toilet and the toilet seat has a lower half and an upper half. A set of first brackets is each movably coupled between the lower half and the upper half of the toilet seat. A set of second brackets is each movably coupled between the lower half and the upper half of the toilet seat. A lifting unit is movably coupled to the upper half of the toilet seat for urging the upper half into a home position or a deployed position. A remote control is in communication with the lifting unit for remotely actuating the lifting unit into the lowering condition or the lifting condition. In this way the remote control facilitates a person to either lift or lower themselves onto the toilet.

A body lifting device for a bed is provided with a support unit, having a predetermined height, connected to a fixing part of a bed. A movable bed part adjusts an angle between the fixing and movable parts. A driving force transfer member of the device is connected to the movable part at one end, the other end extending toward the fixing part, and has a support point therebetween supported by the support unit. A length between the support point and the other end varies depending on an angle adjustment of the movable part. A lifting unit of the device supports a portion of a user's body, and is connected to the other end of the driving force transfer member. The lifting unit selectively lifts up the user's body depending on movement of the driving force transfer member, which is caused by adjusting an angle of the movable part.

An apparatus includes a drive mechanism, a patient support mechanism, and an electronic system. The drive mechanism is included in a trolley and is configured to suspend the trolley from a support track. The drive mechanism includes a first sensor configured to sense an operating condition of the drive mechanism. The patient support mechanism couples to the trolley and includes a tether and a second sensor. The tether can be operatively coupled to a patient such that the patient support mechanism supports the patient. The second sensor is configured to sense an operating condition of the patient support mechanism. The electronic system is included in the trolley and has at least a processor and a memory. The processor is configured to define a gait characteristic of the patient based at least in part on a signal received from the first sensor and a signal received from the second sensor.

A system for turning a patient supported on a patient support apparatus includes a U-shaped frame and a rectangular frame pivotably coupled to the U-shaped frame. The rectangular frame includes first and second sheet grippers configured to removeably couple a plurality of sheets to the system and secure the patient between the sheets. The rectangular frame, the sheets, and the patient are configured to rotate at least 180 degrees relative to the U-shaped frame after the U-shaped frame, the rectangular frame, the sheets, and the patient are raised at least a clearance distance above the patient support apparatus.