A bed device includes: an operation section that receives an operation input; a controller that controls a movement of the bed in accordance with the operation input; a detector that detects a position of a patient on the bed; and, a limitation table that stores a limitation area set on the bed in association with a limitation content, wherein when the position of the patient detected by the detector is included in the limitation area, the limitation content is read out from the limitation table so as to control the controller in accordance with the limitation content. With this configuration, it is possible to provide a higher safety bed device which can not only notify the danger based on the bed movement but also limit the movement of the bed in accordance with the status of the patient or the bed device.

A patient support system for providing improved guidance tools with respect to a patient support apparatus. A user interface is configured to receive inputs from a user, and an information output device is configured to provide instructions to the user. The user interface and the information output device may be on a touchscreen display. The user inputs may include a search query. A controller may be adapted to determine search results corresponding to operational functions of the patient support apparatus responsive to the search query and to provide said search results to the user with the information output device. The user input may include shorthand commands corresponding to operational functions of the patient support apparatus. The user interface may include a voice actuation device configured to receive voice actuation commands from a user.

The present invention provides an adjustable bed handheld remote control that may include a handheld housing, a touch sensor on a front face of the handheld housing, a transmitter and the like. The touch sensor may be presented in a slider form and may be adapted to facilitate a user in adjusting a frame position of an adjustable bed. The transmitter may be electrically coupled to a processor and may receive input from the touch sensor, for communication control signals to the adjustable bed in accordance with the input received from the touch sensor.

A lifting apparatus and associated methods for raising a user in a body of water. The lifting apparatus includes a platform configured to receive a wheelchair. The apparatus is reconfigurable between a raised configuration; a lowered configuration; and a storage configuration. The apparatus is configured to maintain the platform in a substantially horizontal orientation in the raised, lowered and storage configurations.

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.

A bed comprises a fixed width deck section, a wing movably coupled to the fixed width section, and a rack and pinion mechanism for extending and retracting the wing.

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 for transporting a patient over a surface. The patient transport apparatus has support wheels coupled to a base and swivelable about swivel axes. An auxiliary wheel assembly is coupled to the base and includes an auxiliary wheel configured to move between a plurality of wheel positions, and an actuator operably coupled to the auxiliary wheel to move the auxiliary wheel between the plurality of wheel positions. A sensing system with a sensor is provided to detect a motion condition of the patient transport apparatus. A controller is coupled to the sensing system and to the actuator, and is configured to drive the actuator to move the auxiliary wheel between the plurality of wheel positions based on the motion condition of the patient transport apparatus.

A patient support facility including at least one patient support plate and at least two supports for the patient support plate. Each of the supports are configured to be mobile has an autonomous drive module with a chassis permitting movements and rotations in all horizontal directions, a drive facility, and a control unit. The patient support facility includes a control facility that is configured to operate the drive modules in a coordinated and individual manner.

A linear actuator system with a controller, said controller comprising a controller and programmable means for controlling the operation of an electrical motor. The electrical linear actuator system comprises a user control unit (1), an electrical cord with a plug for connecting the user control unit (1) and the controller, where the controller and/or the user control unit comprises a socket (1a) for receiving the plug (2). The plug (2) comprises a locking ring (5), which is rotatable relative to the plug (2), and the socket (1 a) comprises an opening (16) for receiving the plug (2) including the locking ring (5) in the opening (16) of the socket (1 a). The socket (1 a) further comprises an aperture (4) through which a part of the locking ring (5) is accessible when the plug (2) including the locking ring (5) is inserted into the opening (16) of the socket (1a). The locking ring (5) and the opening (16) of the socket are adapted such that the locking ring (5), when inserted in the opening (16), can be rotated between an unlocked position and a locked position: where, in the unlocked position, a protrusion (8a, 8b) is received in and aligned with an axial part (12a, 12b) of a recess (12), such that the plug (2) may freely be inserted into or removed from the socket (1a), and where, in the locked position, the protrusion (8a, 8b) engages the radial part (12c,12d) of the recess (12), such that the plug (2) is prevented from being unplugged.