There is a system for secure use of a wheelchair in demand response transportation systems comprising a wheelchair restraint comprising a central housing disposed between a vehicle strap and a wheelchair strap, the vehicle strap to secure the wheelchair restraint to the demand response vehicle, further comprising a vehicle strap sensor configured to provide a vehicle strap sensor electrical signal indicating whether the vehicle strap is securely affixed to a wheelchair anchor of a demand response vehicle, the wheelchair strap to secure the wheelchair restraint to the wheelchair, further comprising a wheelchair strap sensor configured to provide a wheelchair strap sensor signal indicating whether the wheelchair strap is securely connected to a wheelchair via the wheelchair strap.

An apparatus is provided for mounting at least one wheelchair securement devices to a pair of spaced-apart vehicle seat mounting structures each secured to and within an occupant transport vehicle and extending in a direction parallel to a direction of travel of the occupant transport vehicle. The apparatus includes an elongated support member extending transversely along a floor of the occupant transport vehicle between the vehicle seat mounting tracks, anchors coupled to opposite ends of the elongated support member and each releasably attachable to a different one of the vehicle seat mounting structures, and at least one wheelchair securement device secured to the elongated support member between the two anchors. In some embodiments, the at least one wheelchair securement device is slidably mounted to the elongated support member and selectively securable to and along the elongated support member between the two anchors.

A unified carrier cargo rack and storage system for a vehicle including a receiver unit installed in the rear of the vehicle and a modular carrier rack, including a transitional carrier bar, a secondary bar and a cargo carrier bar, wherein the cargo carrier bar is further operable to engage and immobilize cargo; are disclosed as are male and female securing mechanisms.

A wheelchair docking system including a frame having an upper portion and a lower portion, the upper portion being movable relative to the lower portion between a lowered position and a raised position. A coupler mechanism engages a wheelchair during a docking operation. The system also includes a first latching mechanism being movable between a retracted position and a latching position such that the first latching mechanism is spaced from the coupler mechanism. A second latching mechanism moves the upper portion of the frame between its lowered position and raised position. The first latching mechanism is partially retracted by a wheelchair during the docking operation, and the first latching mechanism is biased to its latching position when the coupler mechanism engages the wheelchair.

A height adjustable wheelchair docking system for releasably securing a wheelchair to the floor of a transport vehicle includes: a base frame with an open end, and for rigid attachment to the floor of a transport vehicle; a middle frame for sliding back and forth in a horizontal direction within the base frame and through the open end; means to slide the middle frame in relation to the base frame; and a top frame for covering at least a part of the base frame and middle frame, and to move up and down in a vertical direction in relation to the base frame when the middle frame is sliding back and forth in a horizontal direction within the base frame and through the open end. The top frame further includes a female or male docking fixture for locking engagement with a male or female docking fixture on a wheelchair.

A seat assembly for a transport vehicle includes a seat base assembly configured to being coupled to a floor of the transport vehicle. The seat base assembly includes a seat and a cable system having a cable and an actuating mechanism operably coupled to the cable. A clamping arm is operatively coupled to the seat base assembly and the cable system. The actuating mechanism operably actuates the cable to move the clamping arm between an unlatched position and a latched position with respect to the floor. In the latched position, the seat base assembly is coupled to the floor, and in the unlatched position, the seat base assembly is decoupled from the floor.

Cot fastening systems (2) which fix and hold an emergency cot (14) to a crash stable cot fastener track (12) provided within an emergency vehicle (8). The track (12) has a longitudinal length with front (85) and back ends (80), open side rails (28, 30) longitudinally extending between the ends, and a channel (86, 88) centrally located between the rails. The side rails (28, 30) align, accommodate and guide a forward fixture (4) of the cot towards the front end (85) as the cot (14) is rolled within the vehicle to retain the forward fixture (4) adjacent the front end (85) at least vertically and laterally. The channel (86, 88) accommodates and retains a rearward fixture (6) adjacent the back end (80) at least vertically and laterally. A securing mechanism (70,102) releasably prevents removal of the forward fixture (4) from the open side rails and removal of the rearward fixture (6) from the channel (86, 88).

Cot fastening systems (2) which fix and hold an emergency cot (14) to a crash stable cot fastener track (12) provided within an emergency vehicle (8). The track (12) has a longitudinal length with front (85) and back ends (80), open side rails (28, 30) longitudinally extending between the ends, and a channel (86, 88) centrally located between the rails. The side rails (28, 30) align, accommodate and guide a forward fixture (4) of the cot towards the front end (85) as the cot (14) is rolled within the vehicle to retain the forward fixture (4) adjacent the front end (85) at least vertically and laterally. The channel (86, 88) accommodates and retains a rearward fixture (6) adjacent the back end (80) at least vertically and laterally. A securing mechanism (70,102) releasably prevents removal of the forward fixture (4) from the open side rails and removal of the rearward fixture (6) from the channel (86, 88).

A pre/post-tensioning controller system for a wheelchair tie-down and occupant restraint system (“WTORS”) will be a comprehensive energy management system for controlling excessive excursions of a wheeled mobility device during various adverse driving scenarios. The system uses multiple pre-tensioning and post-tensioning events during a front, side, or rear impact crash or rollover scenario—and effectively controls excursions by the tensioning of the WTORS equipment at specific and ideal moments. The system also uses tensioning events on the tie-down equipment during a long duration turn or other aggressive maneuvers. The system may also use tensioning events on the occupant restraints. The energy management system can be adapted for use with traditional four-point tie-downs and newer three- and two-point tie-down systems that incorporate fixed or movable bumpers, as well as compressive-type securement systems, and other systems as well, including docking systems.

A modified OEM vehicle having an interior for accommodating a passenger in a wheelchair including a floor base assembly, a seat, and a seat base assembly operatively connected to the seat. The seat base assembly includes a lower seat base assembly configured to be coupled to the floor base assembly, an upper seat base assembly pivotably coupled to the lower seat base assembly, and an actuator coupled to the lower seat base assembly and to the upper seat assembly. The actuator includes a retracted position in which the seat is located in a seated position and an extended position in which the seat is located in a tilted position, wherein the tilted position of the seat provides additional space for the wheelchair within the interior of the vehicle.