A system for loading/unloading (100) an ambulance patient transport equipment (50) onto/from a loading surface (L) of an ambulance (V), wherein the system (100) comprises: a loading/unloading apparatus (60) of a patient transport equipment (50) associable with the loading surface (L), wherein the loading/unloading apparatus (60) comprises: at least one safety hook (611) which can be rigidly fixed to the loading surface (L); a patient transport equipment (50) comprising: an undercarriage (20) equipped with a support frame (21) and a plurality of legs (22,23) articulated to the support frame (21) and provided with rest wheels (221,231); an additional patient support device (30) configured to be mounted in a releasable manner on the undercarriage (20), wherein the additional device (30) comprises a load-bearing structure (31) to which a fixing block (315) is rigidly fixed adapted to detachably constrain the additional device (30) to the undercarriage (20); a rigid constraint body (250) rigidly fixed to the support frame (21) of the undercarriage (20) and provided, at a lower end, with a coupling body (251) configured to be detachably coupled to the safety hook (611) of the loading/unloading apparatus (60) and, at an opposite upper end thereof, with a fixing arrangement (252) configured to be detachably engaged by the fixing block (315) of the additional device (30).

A patient transport system (10) that comprises: at least one mobile undercarriage (20) provided with rest wheels (221,231) and equipped with a fixing arrangement (252); a plurality of additional devices (30) for supporting the patient, wherein the additional devices (30) of the plurality of additional devices are structurally different from each other; wherein each additional device (30) is equipped with a relative fixing block (315), wherein each fixing block (315) is configured to selectively engage with the fixing arrangement (252) of the undercarriage (20), so that any one of the additional devices (30) can be selectively mounted on the same undercarriage (20) by means of the connection between the fixing arrangement (252) of the undercarriage (20) with the fixing block (315) of the respective additional device (30).

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 including a lift actuator a biasing device, and a biasing load adjustment assembly. The lift actuator is operable to move the auxiliary wheel to the deployed position and to the stowed position. The biasing device configured to bias the auxiliary wheel towards the deployed position. The biasing load adjustment assembly configured to adjust a biasing force being applied by the biasing device to the auxiliary wheel.

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.

According to one embodiment, a roll-in cot may include a support frame, a pair of back legs, a pair of front legs, and a cot actuation system. The pair of back legs and the pair of front legs can be slidingly coupled to the support frame. Each of the pair of front legs can include a front wheel and an intermediate load wheel. The intermediate load wheel is offset from the front wheel by a load wheel distance. A front actuator can raise the pair of front legs such that the front wheel and the intermediate load wheel of each of the pair of front legs are aligned along a loading level. The intermediate load wheel of each of the pair of front legs can be offset from the pair of back legs by a loading span. The load wheel distance can be greater than the loading span.

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 including a lift actuator a biasing device, and a biasing load adjustment assembly. The lift actuator is operable to move the auxiliary wheel to the deployed position and to the stowed position. The biasing device configured to bias the auxiliary wheel towards the deployed position. The biasing load adjustment assembly configured to adjust a biasing force being applied by the biasing device to the auxiliary wheel.

Systems for facilitating movement of a patient transport apparatus are provided and include user input control device that includes a mode switch selectable between a longitudinal transport mode and a multidirectional mode and a driving assist device actuatable between at least one engaged state and a non-engaged state. The mode switch generates signals based on the selected mode and the driving assist device generates engaged or non-engaged signals which are received by a controller. The controller is configured to generate an output signal sent to a lift actuator, swivel actuator, and/or a powered drive system to assist a user in propelling the apparatus in a desired manner.

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 including a lift actuator a biasing device, and a biasing load adjustment assembly. The lift actuator is operable to move the auxiliary wheel to the deployed position and to the stowed position. The biasing device configured to bias the auxiliary wheel towards the deployed position. The biasing load adjustment assembly configured to adjust a biasing force being applied by the biasing device to the auxiliary wheel.

A bed is provided. The bed may include a lift system which raises and lowers a support deck of the bed. The lift system may include multiple individually actuatable lift systems. The bed may include a powered bed mover system.

A person support apparatus includes a deck with a seat section, a leg section, and a back section. The back section is pivotally mounted to the seat section. The leg section has a proximal end pivotally mounted to the seat section and a cantilevered end spaced a first distance from its proximal end. The seat section, the leg section, and the back section are arranged to lie in a common plane when the deck is in a supine configuration to support a person in a supine position. A lift is mounted to the seat section of the deck, with the lift being configured to raise the deck relative to a supporting floor surface to a maximum height less than the first distance.