A trolley system configured to transport a patient within an MRI environment includes a patient support portion, a base portion configured for movement relative to a floor, a lift coupled to the patient support portion and the base portion, an electric motor coupled to the lift, and an electric blower coupled to the patient transfer device. The lift is configured to change the elevation of the patient support portion relative to the base portion. The motor is mounted such that the elevation of the motor is fixed relative to base portion. The trolley system is positionable adjacent an MRI apparatus within the MRI environment and the magnetic field of the MRI does not interfere with the operation of the motor or blower. The trolley system may further include a patient transfer device having an air bearing. The blower is configured to deliver air to the air bearing.

A bed rail having an operating position at one of the sides of a bed and a stored position between a mattress and box spring of the bed. To take down the bed rail, a guard frame portion is disengaged from a base frame portion, then the guard frame portion is pivoted and slid into the base frame portion. To set up the bed rail, the guard frame portion can be slid out of the base frame portion, pivoted relative to the base frame portion, then engaged to the base frame portion and into the operating position at a side of the bed.

An armrest assembly is disclosed herein. The armrest assembly includes a main body with a proximal adjustment assembly disposed at a first end and a distal adjustment assembly disposed at a second end. The proximal adjustment assembly provides for adjustment of the main body about a first axis. The distal adjustment assembly provides for adjustment of an arm pad about a second axis as well as a third axis. To prevent damage, a breakaway assembly is provided by the distal adjustment assembly to unlock the arm pad from a raised position and lower it into a lower position in the event a weight applied to the arm pad is beyond a particular weight threshold.

An enhanced hinge and method pivotally and removably connects a member from a structure. In one example, the hinge and method retains the member using a first hinge piece coupled to the structure and a second hinge piece coupled to the member. The first and second hinge pieces may be configured such that the second hinge piece is retained inside the first hinge piece in a closed position and is not free to be decoupled from the first hinge piece but is free to pivot to an open position at the closed position. At the open position the second hinge piece is inverted as compared to its position in the closed position, is free to pass through the first hinge piece and is free to be decoupled from the first hinge piece.

There is provided a bed system that is simple to install on existing hospital beds and which does not require any modification of the existing bed. The bed system has a first and a second frame nested in a common pivot means, and actuators connected thereto in order to establish an angle formed between the frames, where they are rotatable about a longitudinal axis through activation of the actuators. The system is mounted on a base frame, which can be attached to an existing frame of a hospital bed.

A siderail assembly includes a guide, a support frame coupled to the frame and movable between first and second positions, and a barrier coupled to the support frame and movable therewith. The siderail assembly further includes a handle coupled to the barrier to move between a first position and a second position relative to the barrier. The siderail assembly may include electronic controls to change the position or limit movement of various portions of a patient support apparatus on which the siderail assembly may be coupled.

A patient trolley configured for transporting a patient to a target modality includes a top portion having a top surface and an overhang area along at least one side of the top portion, a bottom portion supporting the top portion, and a side rail coupled to the top portion for movement between a deployed position and a stowed position. The patient trolley is configured to dock adjacent the target modality such that the overhang area is capable of extending over at least a portion of the target modality. The patient trolley may be combined with a patient transfer device to facilitate transfer of a patient from the top surface of the patient trolley to the patient support surface of the target modality. Methods of docking the patient trolley adjacent a target modality and transferring a patient from the patient trolley to the target modality are also provided.

An armrest assembly is disclosed herein. The armrest assembly includes a main body with a proximal adjustment assembly disposed at a first end and a distal adjustment assembly disposed at a second end. The proximal adjustment assembly provides for adjustment of the main body about a first axis. The distal adjustment assembly provides for adjustment of an arm pad about a second axis as well as a third axis. To prevent damage, a breakaway assembly is provided by the distal adjustment assembly to unlock the arm pad from a raised position and lower it into a lower position in the event a weight applied to the arm pad is beyond a particular weight threshold.

The utility model discloses a novel nursing bed and chair system. The system includes a bed frame. The bed frame is provided with a backrest portion, a footrest portion and a cushion portion. The backrest portion and the footrest portion are connected to the cushion portion in a vertically rotatable manner, respectively. One end of the footrest portion, remote from the cushion portion, is provided with a foot pad portion. The foot pad portion is rotatably connected to the footrest portion. The system further includes a backrest push rod and a footrest push rod with outer housings being fixed to the bed frame. An actuator of the backrest push rod is fixedly connected to the back of the backrest portion. The outer housing of the footrest push rod is fixed to the bed frame, and an actuator of the footrest push rod is connected to a transmission mechanism. The transmission mechanism includes a transmission frame and an L-shaped support frame. One end of the transmission frame is rotatably connected to the bed frame, and the other end is rotatably connected to one end of the L-shaped support frame. The other end of the L-shaped support frame is connected to one end of the foot pad portion remote from the footrest portion. The actuator of the footrest push rod is fixedly connected to the transmission frame. By adopting the utility model, a higher degree of automation can be achieved.

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.