A patient support apparatus includes a base having a length and including a plurality of caster wheels enabling movement of the patient support apparatus across a floor surface. An auxiliary wheel support structure is secured to the base and rotatably supports at least one non-castered auxiliary wheel. A drive mechanism including a motor may be configured to drive the auxiliary wheel. A braking system including at least one brake member may be configured to apply a braking force to decelerate the auxiliary wheel and is movable between a first position wherein the at least one brake member is disengaged from the auxiliary wheel and a deployed position wherein the at least one brake member is frictionally engaged with the auxiliary wheel to restrict rotation of the auxiliary wheel. The braking system may be configured to synchronize the braking forces applied to first and second auxiliary wheels.

A patient bed includes a drainage bag sensor. The patient bed includes, for example, a frame configured to support a patient, a drainage bag holder coupled to the frame and configured to support a drainage bag, and a sensor to detect a presence of the drainage bag being supported by the drainage bag holder.

A patient bed includes a drainage bag sensor. The patient bed includes, for example, a frame configured to support a patient, a drainage bag holder coupled to the frame and configured to support a drainage bag, and a sensor to detect a presence of the drainage bag being supported by the drainage bag holder.

A patient transport apparatus transports a patient over a floor surface. The patient transport apparatus comprises a support structure and support wheels coupled to the support structure. An auxiliary wheel is coupled to the support frame to influence motion of the patient transport apparatus over a floor surface. The auxiliary wheel is movable to a deployed position with the auxiliary wheel engaging the floor surface and a stowed position with the auxiliary wheel spaced a distance from the floor surface. An actuator assembly coupled to the support frame and to the auxiliary wheel. The actuator assembly includes a lift actuator and a spring cartridge assembly. The lift actuator is operable to move the auxiliary wheel to the deployed position and to the stowed position. The spring cartridge assembly is configured to bias the auxiliary wheel towards the deployed position.

A patient transport apparatus transports a patient over a floor surface. The patient transport apparatus comprises a support structure and support wheels coupled to the support structure. An auxiliary wheel is coupled to the support structure to influence motion of the patient transport apparatus over the floor surface to assist users. An actuator is operatively coupled to the auxiliary wheel and operable to move the auxiliary wheel relative to the support structure from a retracted position to a deployed position. A user interface sensor is operatively connected to the actuator and configured to generate signals responsive to the user touching the user interface. A controller is operatively coupled to the user interface sensor and the actuator to operate the actuator in response to detection of signals.

A patient transport apparatus transports a patient over a floor surface. The patient transport apparatus comprises a support structure and support wheels coupled to the support structure. An auxiliary wheel is coupled to the support structure to influence motion of the patient transport apparatus over the floor surface to assist users. An actuator is operatively coupled to the auxiliary wheel and operable to move the auxiliary wheel relative to the support structure from a retracted position to a deployed position. A user interface sensor is operatively connected to the actuator and configured to generate signals responsive to the user touching the user interface. A controller is operatively coupled to the user interface sensor and the actuator to operate the actuator in response to detection of signals.

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.

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.

Certain aspects relate to systems and techniques for operating a medical platform that may include a table with a base and table top, one or more robotic arms that are coupled to the table, one or more wheel assemblies coupled to the base to support and move the base in a physical environment, and an input device configured to receive user inputs of a first type. The mobile medical platform may be configured to receive a first user input of the first input type via the input device. The mobile medical platform may be configured to, in response to receiving the first user input of the first input type and in accordance with a determination that the first user input meets first criteria, initiate first movement of the at least one motorized wheel in accordance with the first user input of the first input type.

A patient transport apparatus for transporting a patient over a floor surface is described herein. The patient transport apparatus includes an auxiliary wheel assembly including an auxiliary wheel, an auxiliary wheel drive system, and a control system for operating the auxiliary wheel drive system based on user commands. The control system includes a processor that is programmed to receive a user command to operate the auxiliary wheel drive system in a drive mode and responsively operate a motor control circuit to transmit power signals to a motor to rotate the auxiliary wheel. The processor is also programmed to receive a user command to operate the auxiliary wheel drive system in a free wheel mode and responsively operate the motor control circuit to enable the auxiliary wheel to rotate relatively freely with the auxiliary wheel in a deployed position.