A vehicle step device includes: a movable step that is provided in a door opening of a vehicle; and a drive controller that drives the movable step so that the movable step operates in deployment and storage directions. The drive controller includes a sidewalk detection unit that detects a sidewalk provided in parallel with a traveling road surface of the vehicle, a separation distance detecting unit that detects a separation distance between a side edge portion of the vehicle in which the movable step is stored and the sidewalk, and a deployment amount setting unit that sets a deployment amount of the movable step extending in a width direction of the traveling road surface from the side edge portion of the vehicle based on the separation distance. The deployment amount setting unit sets a deployment amount of the movable step to be larger as the separation distance increases.

A replacement floor assembly may include a base member having a top side, a bottom side, a front end, a rear end, a left side, and a right side. The front end and forward portions of the left and right sides define a forward section of the base member, whereas the rear end and rear portions of the left and right sides define a rear section of the base member. A first outboard flange member is mounted to at least a portion of the left side of the base member and a second outboard flange member is mounted to at least a portion of the right side of said base member. A front flange member is mounted to at least a portion of the front end of said base member so that at least portions of the forward section of the base member, the first and second outboard flange members, and the front flange member define a battery well.

A mobility access hybrid vehicle that includes a floor assembly that defines a mobility access system mounting area and a battery well, the battery well being located at a position forward of the mobility access system mounting area. A mobility access system is mounted within the mobility access system mounting area defined by the floor assembly. A hybrid battery is mounted within the battery well defined by the floor assembly. A first cover plate mounted over the battery well and a second cover plate mounted over the mobility access system together define a substantially flat interior floor area for first and second rows of occupant seating areas of the mobility access hybrid vehicle.

A vehicle including: a pair of suspension towers, each of which houses, in an upright state, a suspension unit configured to provide suspension to a front wheel; a power unit compartment that is provided between the pair of suspension towers, and that houses at least a drive unit configured to drive the front wheels; at least one of a high voltage component or a low voltage component, configuring a sub unit disposed at a vehicle upper side of the suspension towers; and a driving seat that is disposed in a vehicle cabin at the vehicle upper side of the power unit compartment, and that is provided such that feet of a driver are positioned further toward a vehicle lower side than upper ends of the suspension towers and such that a head of the driver is positioned further toward the vehicle upper side than the sub unit.

A ramp system for a vehicle includes a control device. Using an obstacle detection device, the control device determines whether an obstacle exists within a ramp extension area. Upon determining that an obstacle exists within the ramp extension area, the control device causes a vehicle to move to a location in which no obstacle exists within the ramp extension area.

When it is confirmed that a user exists based on an image of the situation outside a vehicle which is captured using a camera and a proximity sensor detects a fact that the user is approaching based on, for example, a putting of a hand of the user over the proximity sensor, a control device causes a ramp to be extended. As such, a user sitting in a wheelchair can cause the ramp to be extended by approaching the proximity sensor, such as the putting of the user's hand over the proximity sensor such that the user sitting in the wheelchair does not have to press an extension/storage button provided on the vehicle to cause the ramp to be extended.

An emergency egress system for a multi-passenger vehicle such as a school bus (10) includes a housing (30) that operatively supports a ramp (34) in movable connection therewith. Opening an emergency exit door (18) of the bus causes a housing door (24) to open and the ramp to move outwardly from a retracted position toward an extended position. Opening the emergency exit door also causes the suspension of the bus to be automatically lowered to place the emergency exit opening (16) closer to the ground (166).

A truck bumper dock extension with a flip step configurable for use on a truck body to provide a functional bumper and a dock extension for loading and unloading at an elevated truck-dock and with the flip step configurable for use on the truck body for loading and unloading at an un-elevated surface, such as for home delivery. A walking ramp and stowing compartment is secured by the flip step for secure transport and removable access to a walking ramp.

A ramp assembly to accommodate a wheel-chaired passenger to enter or exit a motorized vehicle having a conventional floor includes a frame and a ramp. The ramp is slidably coupled to the frame. The ramp assembly further includes a drive block configured to translate longitudinally along the track system. The ramp assembly further includes a wheel pivotally coupled to the ramp. The wheel has a longitudinal axis and is rotatably coupled to the drive block or the frame for rotation about the longitudinal axis to move the ramp between a raised position and a lowered position.

An object handling device handles a first object and a second object. A lower support beam, a first side frame and a second side frame define a lower object holding channel for supporting the first object. A first upper support beam and a second upper support beam define an upper object holding channel. An object lift vertically lifts the first object from the lower object holding channel to the upper object holding channel. A beam lift pivots the lower support beam and the first object. A lower hoist positions a second object within the lower object holding channel. A first telescoping support beam and a second telescoping support beam define an angled object displacement channel. An upper hoist links with the first object for displacing the first object along the angled object displacement channel.