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.

In one embodiment, a cot loading and unloading system includes a fixed rail having a track, wherein the fixed rail is operable to be fixed to a floor, and a carriage directly coupled to the track and operable to travel along the fixed rail on the track, wherein the carriage is further operable to travel to an extended position such that at least a portion of the carriage extends beyond a length of the fixed rail.

In one embodiment, a system includes a cot loading and unloading system having a fixed rail including a track, wherein the fixed rail is operable to be fixed to a floor, a carriage having a carriage wireless chip, wherein the carriage is coupled to the track and operable to travel along the fixed rail on the track, and a master controller having a master wireless chip. The system further includes a cot having a cot wireless chip. The master wireless chip is operable to transmit a broadcast address to the cot, and the cot wireless chip is operable to receive the broadcast address and transmit a cot address signal. The carriage wireless chip is operable to receive the cot address signal and transmit a strength signal based on the cot address signal. The master controller receives the strength signal from the carriage wireless chip.

In one embodiment, a carriage of a cot loading and unloading system includes a plurality of wheels for engaging a track defined by a fixed rail of the cot loading and unloading system, a power drive assembly operable to drive the carriage to travel along the track of the fixed rail, and a pair of lift arms for supporting a cot.

In one embodiment a support beam for supporting a carriage of a cot loading and unloading system includes a support beam member operable to translate within a fixed rail that is fixed to a vehicle, and operable to support the carriage beyond a length of the fixed rail when the support beam is in an extended position.

In one embodiment, a carriage of a cot loading and unloading system, the carriage includes a plurality of wheels for engaging a track defined by a fixed rail of the cot loading and unloading system, wherein the carriage is operable to travel to an end of the fixed rail such that a portion of the carriage extends beyond a length of the track, and a pair of load arms for supporting a cot.

In one embodiment, a removable section of a fixed rail for a cot loading and unloading system, the removable section includes a first side, a second side, wherein each of the first side and the second side define a track for wheels of a carriage operable to translate on the fixed rail and the removable section, and at least one fastening mechanism for removably attaching the removable section to an end roller support section of the fixed rail.

A deployable gurney ramp assembly with a retractable ramp deployment apparatus having two deployment tracks extending parallel, parallel first and second base tracks terminating in stops, the deployment tracks slidably engage the base tracks, with ramp guides slidably pivotally engaging a ramp at the end permitting the ramp to pivot when raised or lowered. Extension devices are utilized to advance the deployment ramps and the ramp guides.

An ambulance cot loading and unloading system for an emergency vehicle includes a base for mounting in the emergency vehicle and an arm mounted for linear movement along the base, wherein the arm configured to support a cot while the cot is being loaded into or unloaded from the emergency vehicle. The ambulance cot loading and unloading system further includes an indicator mounted relative to the arm and a control system, which is in communication with the indicator and configured to generate a status indication of the cot loading and unloading system at the indicator.

A patient support system includes a patient support apparatus and a powered device mounted relative to the patient support apparatus and an electrical circuit to power the powered device, with the electrical circuit having a wireless power receiver to inductively couple to and transfer electrical energy from a wireless power transmitter when the wireless power receiver is in proximity to the wireless power transmitter.