The present invention relates to a military stretcher system. The system includes a military hand-carried stretcher. An adaptor is provided for adapting the stretcher to fasten to a military transportation stretcher holder, typically used on vessels and in vehicles and in aircraft. Advantageously, the adaptor may adapt the stretcher to fasten to the holder (e.g. a racking system) conventionally used to hold a known NATO type stretcher.

The invention generally encompasses an animal cart system for safely carrying, transporting and offloading an animal from an examination or surgery area to a recovery area, the cart system comprising a floor cart, the floor cart comprising an upper platform having rails, a lower platform, an actuator secured to the upper platform and the lower platform, and a pivoting connection coupled to the upper platform and the lower platform that tilts the upper platform in response to the actuator, and an examination cart slidably and releaseably coupled to the upper platform.

A method and an alignment system which auto-levels and/or auto-centers a loading platform (104) to load and unload a wheeled stretcher (106) to and from an emergency transport vehicle (100) are disclosed. A controller (114) of the alignment system receives a command to extend the loading platform from the emergency vehicle and extends the loading platform under power from the emergency transport vehicle. The controller recognizes an approaching wheeled stretcher, and aligns automatically the loading platform with a leading edge of the approaching wheeled stretcher to compensate automatically for any alignment issues between the loading platform and loading wheels (130) of the wheeled stretcher.

A method and an alignment system which auto-levels and/or auto-centers a loading platform (104) to load and unload a wheeled stretcher (106) to and from an emergency transport vehicle (100) are disclosed. A controller (114) of the alignment system receives a command to extend the loading platform from the emergency vehicle and extends the loading platform under power from the emergency transport vehicle. The controller recognizes an approaching wheeled stretcher, and aligns automatically the loading platform with a leading edge of the approaching wheeled stretcher to compensate automatically for any alignment issues between the loading platform and loading wheels (130) of the wheeled stretcher.

A deployable gurney lift assembly 12 having a carriage assembly 14 composed of a carriage assembly plate 20 with two pivot carriage arms 38 disposed opposite one another to engage the sides of a gurney G, at least one safety bar holder 16 to accommodate a safety bar B of the gurney G, the safety bar holders 16 with at least one bar latch 18 to receive and secure a gurney bar B therein. At least one lift actuator 88 lifts and lowers the arms 38.

The invention relates to a bench with a scales function, which comprises sensors disposed in parallel along lower lateral bars of the bench and connected to a digital transmitter that transmits to a screen by means of a cable or Bluetooth. In addition to the current functions of the platforms to which the beds are anchored in the vehicles, the bench with an electronic scales function provides the exact value of the weight of the patient, in real time, facilitating the calculation of the precise doses of drugs, fluids, etc.

Embodiments of a cot comprise a support frame, legs coupled to the support frame, at least one hydraulic actuator configured to raise or lower the legs, and a manual release system coupled to the at least one actuator and configured to lower the cot manually at a controlled descent rate. The manual release system comprises a manual actuation component, a manual release valve operable to be opened upon actuation by the manual actuation component, a fluid reservoir operable to receive hydraulic fluid from the at least one actuator upon opening of the manual valve; and a flow regulator configured to control the flow rate of the hydraulic fluid into the fluid reservoir, wherein the release of hydraulic fluid into the fluid reservoir at the controlled flow rate is configured to manually lower the cot at the controlled descent rate.

Systems, devices, and methods for monitoring and treating a patient on route to a medical facility are disclosed. The system comprises a critical care unit; at least one patient monitoring device coupled to the critical care unit, wherein the critical care unit obtains physiological data about the patient from each patient monitoring device; at least one patient treatment device coupled to the critical care unit, wherein the critical care unit provides treatment instructions to each patient treatment device; a two way communications device coupled to the critical care unit; and a remote communications terminal in communication with the two way communications device. The critical care unit preferably sends the physiological data to the remote communications terminal and receives the treatment instructions from the remote communications terminal via the two way communications device.

Systems, devices, and methods for monitoring and treating a patient on route to a medical facility are disclosed. The system comprises a critical care unit; at least one patient monitoring device coupled to the critical care unit, wherein the critical care unit obtains physiological data about the patient from each patient monitoring device; at least one patient treatment device coupled to the critical care unit, wherein the critical care unit provides treatment instructions to each patient treatment device; a two way communications device coupled to the critical care unit; and a remote communications terminal in communication with the two way communications device. The critical care unit preferably sends the physiological data to the remote communications terminal and receives the treatment instructions from the remote communications terminal via the two way communications device.

An ambulance cot and cot loading and unloading system for an emergency vehicle comprises a cot having a head end, a base for mounting to a deck of an emergency vehicle, a track mounted for linear movement along said base, and an arm mounted for linear movement along said track from a retracted position to an extended position. The arm is and configured to engage the cot, and wherein when the track is extended along the base and the arm is extended along the track the arm is extended from the base in an extended position and is configured for lifting the cot and providing cantilevered support to the cot while in the extended position.