A stretcher, which comprises: a support frame for supporting a patient; a pair of front legs rotatably coupled to the support frame around a first rotation axis, wherein each front leg supports a front wheel holder frame hinged to the respective front leg around a first oscillation axis parallel to the first rotation axis and supporting a front wheel resting on a rest plane, wherein the front wheel pivots around a respective first pivot axis orthogonal to the first oscillation axis; a pair of rear legs rotatably coupled to the support frame around a second rotation axis, wherein each rear leg supports a rear wheel holder frame hinged to the respective rear leg around a second oscillation axis parallel to the second rotation axis and supporting a rear wheel resting on a rest plane, wherein the front wheel pivots around a respective second pivot axis orthogonal to the second oscillation axis; a handling arrangement for the front wheel holder frame and the rear wheel holder frame; a control module configured to keep the first pivot axis and the second pivot axis always orthogonal to the rest plane on which the front and rear wheels roll.

A hydraulic drive unit for a stretcher has a hydraulic circuit with a differential cylinder, a pump, a tank and a valve assembly. The differential cylinder includes a rod working chamber and a piston working chamber. The valve assembly is switchable into at least a first state and a second state, wherein the rod working chamber is connected to the tank in the first state and to the pump in the second state, and wherein the piston working chamber is connected to the pump in the first state and to the tank in the second state. The tank is a tank separated from the atmosphere with a variable tank volume, so that the hydraulic circuit is configured as a closed hydraulic circuit. A stretcher having such a hydraulic drive unit is also provided.

A deployable gurney lift assembly (12), which has a carriage assembly (14) plate (20) with two pivot arms (38) disposed opposite one another on each side of the carriage assembly (14), an antler holder (16) to accommodate a bar of the gurney, and at least one hydraulic, pneumatic, or electric jack (22) lift actuator for lifting and lowering the arms (38). Retractable deployment apparatus for slidably moving the retractable deployment apparatus along a length of base tracks (28). Base tracks (28) having rear ends terminating in stops (42), and carriage assembly (14) guides slidably engaged along deployment tracks (28).

An apparatus includes a hydraulic circuit that is configured to selectively open fluid communication between one portion of the hydraulic circuit and another portion of the hydraulic circuit, such as a reservoir, based on the flow of the hydraulic fluid in the one portion. When the flow of hydraulic fluid exceeds a selected threshold in the one portion of the hydraulic circuit, the flow of fluid urges the opening of a hydraulic component of the hydraulic circuit to allow fluid communication between the one portion and the reservoir to discharge fluid from the one portion.

A hydraulic system for a mobile rescue stretcher has a hydraulic cylinder, with first and second working chambers, a tank and pump. The first and second chambers are connected to the pump via first and second line arrangements, respectively, and can be pressurized by the pump. Hydraulic fluid flows out of the first chamber via the first line arrangement when pressure is applied to the second chamber. The first line arrangement has a first check valve which opens when pressure is applied to the second line arrangement. Hydraulic fluid flows out of the second chamber via the second line arrangement when pressure is applied to the first chamber. The second line arrangement has a first branch line connected to the pump and a second branch line connected to the tank. A pressure valve in the second branch line opens when pressure is applied to the second line arrangement.

According to one embodiment, a roll-in cot may include a support frame, a pair of front legs, a pair of back legs, and a cot actuation system. The pair of front legs may be slidingly coupled to the support frame. Each front leg includes at least one front wheel. The pair of back legs may be slidingly coupled to the support frame. Each back leg includes at least one back wheel. The cot actuation system includes a front actuator that moves the front legs and a back actuator that moves the back legs. The front actuator and the back actuator raises or lowers the support frame in tandem. The front actuator raises or lowers the front end of the support frame independently of the back actuator. The back actuator raises or lowers the back end of the support frame independently of the front actuator.

According to one embodiment, a roll-in cot may include a support frame, a pair of front legs, a pair of back legs, and a cot actuation system. The pair of front legs may be slidingly coupled to the support frame. Each front leg includes at least one front wheel. The pair of back legs may be slidingly coupled to the support frame. Each back leg includes at least one back wheel. The cot actuation system includes a front actuator that moves the front legs and a back actuator that moves the back legs. The front actuator and the back actuator raises or lowers the support frame in tandem. The front actuator raises or lowers the front end of the support frame independently of the back actuator. The back actuator raises or lowers the back end of the support frame independently of the front actuator.

An ambulance stretcher, which comprises: a support frame for supporting a patient; a pair of front legs, each having a front wheel; a pair of rear legs, each having a rear wheel; an actuation arrangement provided with a front actuator, which moves the pair of front legs and a rear actuator, which moves the pair of rear legs; and a front coupling body connected to a front end of the support frame; a control unit of the coupling body provided at least a first sensor connected to the coupling body and configured to detect a correct positioning of the coupling body in a respective support coupling of an automatic loading/unloading apparatus of an ambulance, and at least a second sensor connected to the coupling body configured to detect a load bearing on the coupling body; at least one release arrangement arranged at the front end of the support frame and configured to operate a release between the coupling body and the support coupling; and an electronic control unit operatively connected to the actuation arrangement, to the release arrangement and to the control unit and configured to actuate one between the actuation arrangement and the release arrangement as a function of a signal received from at least one between the first sensor and the second sensor of the control unit.

An ambulance stretcher, which comprises: a support frame for supporting a patient; a pair of front legs, each having a front wheel; a pair of rear legs, each having a rear wheel; an actuation arrangement provided with a front actuator, which moves the pair of front legs and a rear actuator, which moves the pair of rear legs; and a front coupling body connected to a front end of the support frame; a control unit of the coupling body provided at least a first sensor connected to the coupling body and configured to detect a correct positioning of the coupling body in a respective support coupling of an automatic loading/unloading apparatus of an ambulance, and at least a second sensor connected to the coupling body configured to detect a load bearing on the coupling body; at least one release arrangement arranged at the front end of the support frame and configured to operate a release between the coupling body and the support coupling; and an electronic control unit operatively connected to the actuation arrangement, to the release arrangement and to the control unit and configured to actuate one between the actuation arrangement and the release arrangement as a function of a signal received from at least one between the first sensor and the second sensor of the control unit.

A hydraulic system for a mobile rescue stretcher has a hydraulic cylinder, with first and second working chambers, a tank and pump. The first and second chambers are connected to the pump via first and second line arrangements, respectively, and can be pressurized by the pump. Hydraulic fluid flows out of the first chamber via the first line arrangement when pressure is applied to the second chamber. The first line arrangement has a first check valve which opens when pressure is applied to the second line arrangement. Hydraulic fluid flows out of the second chamber via the second line arrangement when pressure is applied to the first chamber. The second line arrangement has a first branch line connected to the pump and a second branch line connected to the tank. A pressure valve in the second branch line opens when pressure is applied to the second line arrangement.