The present disclosure relates to patient support systems, such as hospital beds, and particularly to reconfigurable patient support systems movable among a number of different positions. The present disclosure further relates to control algorithms and interfaces for use in patient support systems.

A medical device transfer system configured to transfer a medical device to a bed rail, including: a transfer assembly configured to be attached to the medical device including: a clamp latch; a cart latch; a clamp engagement element configured to engage a clamp fixture; and a cart engagement opening; and a cart engagement assembly configured to engage the transfer assembly and to connect to a cart, the cart engagement assembly comprising a transfer assembly engagement element, wherein the transfer assembly engagement element is configured to engage the cart engagement opening, wherein clamp latch is configured to lock and unlock the transfer assembly to the clamp fixture, and wherein the cart latch is configured to lock and unlock the cart engagement assembly to the transfer assembly.

A user module for a patient support is provided. The user module is coupled to a patient support barrier, such as a siderail or a footboard.

A power supply system for a facility includes a patient support apparatus with a controller and a patient support. A power source is operably coupled to the patient support apparatus. The controller is in communication with the power source. A transmitting assembly is coupled to the patient support apparatus and the power source. A receiving assembly is operably coupled to the patient support. The transmitting assembly wirelessly communicates with the receiving assembly to power the patient support. A locating feature is in communication with the controller of the patient support apparatus. The locating feature is configured to aid in aligning the power source on the patient support apparatus to indicate when the receiving assembly is in communication with the transmitting assembly.

A user module for a patient support apparatus is provided. The user module has a user interface operably coupled thereto. The user interface includes an input device and an output device. The output device includes a visual display including textual and non-textual elements. The non-textual elements include enhanced, graphical, and animated portions relating to one or more operational features of the patient support or to a person positionable on the patient support. The input device includes one or more touch sensors corresponding to defined regions of the visual display.

Systems and methods for a load sensing system that determines a mass on a bed. The systems generally are in the form of a castor base, particularly one that can be used as part of an adjustable hospital bed. The load sensing system serves to determine the mass of any object or objects (typically a human or animal patient) which is placed on the bed by having the mass create a force on lever arms of a plurality of load cells in the castor base. The load sensing systems are designed to work without hindering the adjustable functionality of the bed and can accurately determine mass (weight) at any position of the bed, and potentially even while the bed is adjusting between positions.

A system and method of patient bed communication and bed-to-room association in a healthcare facility having a network with at least one wireless access point (WAP) and a nurse call system is provided. A handheld unit is moved to a position within a pairing distance of a pairing zone of a patient bed so that the handheld unit and the bed are paired using a first wireless communication technology. A second wireless communication technology is used to send bed identification data (ID) to the handheld unit after the pairing operation has been completed. The bed ID is transmitted from the handheld unit to the nurse call system via a wired connection to establish a bed-to-room association between the patient bed and a room in which the patient bed is located. A third wireless communication technology is used to send bed status data and the bed ID to the WAP of the network.

A modular system is usable to vary the conditions around a bed in a home to provide various levels of support for patients who are at home and have varying acuity of medical complications. The modular system allows the home bed to be temporarily adapted for medical care.

Systems, methods, and techniques for operating a patient support apparatus are disclosed. The patient support apparatus includes moveable components and actuators to actuate the components. A user interface receives a user input to manipulate the actuatable components and produces an input signal in response to receiving the user input. A behavior controller receives the input signal from the user interface, generates a motion command signal based on the input signal, and transmits the motion command signal. A motion controller receives the motion command signal from the behavior controller and receives feedback signals from one or more of the actuators. The feedback signals are provided solely to the motion controller. The motion controller controls one or more of the actuators to actuate one or more of the actuatable components based on the motion command signal and the feedback signals.

A patient support apparatus, such as a bed, cot, stretcher, operating table, recliner, or the like, includes a patient support structure, a user interface, a display, a plurality of lights, and a controller. The user interface comprises a display and controls for configuring various components of the patient support apparatus. The controller uses the lights and/or display to issue one or more reminders to the caregiver to put the patient support apparatus in a desired configuration before the caregiver walks away from the patient support apparatus. The reminders help ensure that the caregiver properly configured the patient support apparatus. In some embodiment, the reminders include pulsing the lights in an unobtrusive, but easily seen, manner until the proper configuration is achieved. Reminders may also be implemented by prohibiting certain functionality until the patient support apparatus is properly configured.