A bed includes a telescoping foot-end leg at a first end; a telescoping head-end leg at a second end opposite from the first end; a rotating frame that rotates on a lateral first axis extending between an upper portion of the foot-end leg and an upper portion of the head-end leg; and a tilting frame supported by the rotating frame. The rotating frame tilts on a second axis perpendicular to the first axis. The tilting frame is configured to support the patient's entire body. The foot-end leg and the head-end leg are configured to be telescoped while the patient is on the bed such that the height of the foot-end leg is lower than the height of the head-end leg and a slope of the first axis is at least 15 degrees.

A bed comprises a frame and a siderail assembly. The siderail assembly includes a noncollapsible siderail panel having an upper edge and a lower edge, a guide rail affixed to the panel and having an extension which extends past the lower edge of the panel, and a link rotatably mounted on the frame. The link is configured to receive the extension so that the link grips the extension but also permits translation of the guide rail relative to the link.

A patient support apparatus includes an air supply and an air fluidization therapy bed including a fluidization space and a fluidizable medium positioned in the fluidization space. The air fluidization therapy bed receives a flow of pressurized air from the air supply. The flow of pressurized air operable to fluidize the fluidizable medium. The patient support apparatus is configured to provide other therapies, such as pulmonary therapies, in addition to the air fluidization therapy.

A one hand swing down bed rail control having a handle with a rotating portion. The rotating portion draws in the proximal ends of first and second lines that in turn draw in the distal ends of the first and second lines that in turn disengage first and second catches between a frame of the bed rail apparatus and a pair of legs of the bed rail apparatus, where a bed rail of the bed rail apparatus is positioned adjacent to a side of a bed and the legs of the bed rail apparatus extend between a mattress and a mattress support. Once the first and second catches are disengaged, the bed rail may swing down.

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 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.

A bed lifting frame for motorized height adjustment of a lying surface includes a head unit, a foot unit, and two frame elements. The head unit includes a first support unit and a head part which is mounted in a height-adjustable manner on the first support unit. The foot unit includes a second support unit and a foot part which is mounted in a height-adjustable manner on the second support unit. The two frame elements connect the head unit and the foot unit and are spaced apart from each other. The foot unit (3) includes two separate lifting columns (9), which are arranged and spaced apart from each other in such a way that a free passage area (10) is formed between the lifting columns (9).

A patient support apparatus, such as a bed, cot, stretcher, operating table, recliner, or the like, include a litter frame, a support deck, a battery, an AC connector for receiving electrical power, a plurality of motorized actuators, and a control system. The control system limits the amount of electrical power available to the motorized actuators to different levels depending upon whether the AC connector or the battery is powering the patient support apparatus. The control system may also or alternatively change the power available to the motorized actuators depending upon whether a mattress therapy is currently in progress or not. Still further, the control system may pause battery recharging during actuator movement, may utilize one or electronic fuses to control power delivery, and/or wake up sleeping (or shut down) microcontrollers using a specialized network transceiver command that cause the recipient transceiver to wake up its associated microcontroller.

A bed comprises a frame and a siderail assembly. The siderail assembly includes a noncollapsible siderail panel having an upper edge and a lower edge, a guide rail affixed to the panel and having an extension which extends past the lower edge of the panel, and a link rotatably mounted on the frame. The link is configured to receive the extension so that the link grips the extension but also permits translation of the guide rail relative to the link.

A patient support apparatus, such as a bed, cot, stretcher, operating table, recliner, or the like, include a litter frame, a support deck, a battery, an AC connector for receiving electrical power, a plurality of motorized actuators, and a control system. The control system limits the amount of electrical power available to the motorized actuators to different levels depending upon whether the AC connector or the battery is powering the patient support apparatus. The control system may also or alternatively change the power available to the motorized actuators depending upon whether a mattress therapy is currently in progress or not. Still further, the control system may pause battery recharging during actuator movement, may utilize one or electronic fuses to control power delivery, and/or wake up sleeping (or shut down) microcontrollers using a specialized network transceiver command that cause the recipient transceiver to wake up its associated microcontroller.