Portable lifting and transferring techniques for assisting in the mobility of disabled persons are disclosed. In one particular embodiment, the techniques may be realized as a portable lifting and transferring apparatus for assisting disabled persons that is compact, lightweight, and portable for use in different locations. Preferably, such an apparatus would provide multiple pivot points for providing multiple degrees of maneuvering freedom when lifting and transferring disabled persons and/or their mobility devices and for providing compatibility with a wide range of vehicles. The techniques may also be realized in other embodiments as disclosed herein.

A gurney transfer assist device for a helicopter has a fixed height frame supporting a slidably movable bed deck frame. The fixed height frame is releasably secured to a known wheeled gurney. The fixed height dimension raises a carried stretcher to a vertical height to allow transfer to and/or from a medical helicopter loading surface. The slidably movable bed deck frame is extendable outwardly from one end of the fixed height frame and the extending end is angulated to facilitate transfer of the stretcher and supported patient to/from the helicopter loading surface.

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.

The disclosure relates to a method and an apparatus to automatically maneuver a wheelchair relative to a vehicle. The vehicle has a first sensor arrangement comprising at least one sensor, and the wheelchair has a second sensor arrangement comprising at least one sensor. The automatic maneuver is carried out both on the basis of sensor signals from the first sensor arrangement and on the basis of sensor signals from the second sensor arrangement.

The disclosure relates to a method and an apparatus to automatically maneuver a wheelchair relative to a vehicle. The vehicle has a first sensor arrangement comprising at least one sensor, and the wheelchair has a second sensor arrangement comprising at least one sensor. The automatic maneuver is carried out both on the basis of sensor signals from the first sensor arrangement and on the basis of sensor signals from the second sensor arrangement.

A lifting device for lifting a wheelchair into and out of a rear loading space of a motor vehicle includes lifting assemblies, fastened within a loading space of the vehicle, each having a pivot bearing; a telescopic lifting arm, connected to the pivot bearings to pivot about an axis in the vehicle transverse direction; a transverse stay which runs in the vehicle transverse direction, connected to free end portions of the lifting arms; and a coupling unit disposed on the transverse stay and configured to couple at least indirectly to the wheelchair.

A restraint apparatus for securing a mobility device in a vehicle includes a base configured to being mounted to a floor of the vehicle, a support coupled to the base and extending upward therefrom, and a backing plate adjustably coupled to the support. The backing plate defines a channel to provide vertical adjustment of the backing plate with respect to the support. An upper support is pivotally coupled to the backing plate, and a claw assembly is coupled to the upper support. The claw assembly includes a claw member and a latching member, where the latching member is pivotally coupled to the claw member to enable pivotal movement between an unlatched position and a latched position. A control system operably controls the pivotal movement of the latching member between its latched position to its unlatched positions. In the unlatched position, the claw assembly provides an opening for receiving the device.

A method and an alignment system which auto-levels and/or auto-centers a loading platform to load and unload a wheeled stretcher to and from an emergency transport vehicle are disclosed. A controller 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 of the wheeled stretcher.

A track assembly for mounting a movable object includes a track having a web and at least one flange joined with the web. A stop assembly is mounted to the track at the web by a releasable connection and configured to engage the flange to form a moment restraint for the connection of the stop assembly to the web.

The disclosure relates to a a method for automating driving of a vehicle into a stopping position. The method includes receiving and processing vehicle environment signals, and generating control signals configured to at least partly automate the driving of the vehicle into the stopping position. The processing includes detecting an entry/exit area to be used for boarding/disembarking of a wheelchair user, checking whether the entry/exit area has spatial dimensions required for for the boarding/disembarking, checking whether the entry/exit area is independently traversable by the wheelchair user, and determining a stopping position adjacent to the entry/exit area for stopping the vehicle in response to recognizing that (i) the entry/exit area has the spatial dimensions required for the at least one of the boarding and the disembarking of the wheelchair user and (ii) the entry/exit area is independently traversable by the wheelchair user.