The present invention provides a Descending Mechanised Access Ramp (D-MAR) system for providing independent access for persons between a floor of a train and a station platform, the D-MAR system including a substantially planar casing box mountable to the floor of the train; a hinged jointed sliding ramp, installed inside the substantially planar casing box; a plurality of side wheels installed on sides of the hinged jointed sliding ramp, adapted to allow the hinged jointed sliding ramp to be slidably moveable inside the substantially planar casing box; a remote-controlled deployment mechanism configured to automatically deploy the hinged jointed sliding ramp between a stand-by position within the casing box on the floor of the train and a fully deployed position, such that a nose of the hinged jointed sliding ramp is slidably engaged with the station platform; and wherein, at least two mobile protection walls are positioned on the station platform and comprise tactile push buttons that are configured to trigger flashing lights installed on top of the at least one bollard on two mobile protection walls and to activate the remote controlled deployment mechanism of the D-MAR.

A vehicle floor structure includes a floor member that includes an opening that is open at an end corresponding to an entrance, the opening extending toward a vehicle cabin side, and a floor panel that is supported by the floor member to cover the opening and includes an open end at a position corresponding to the entrance. The floor panel is configured by sequentially arranging and integrating unit panels in a width direction with a direction parallel to the open end serving as a longitudinal direction of the unit panels.

A lifting system includes a top plate, a bottom plate and N pairs of hinged plates. The N pairs of hinged plates are connected by 2N pairs of hinges to N sides of the top plate and the bottom plate, where N is an integer greater than 2. A bladder is arranged between the top plate and the bottom plate and between inner edges of the N pairs of hinged plates.

A lifting mechanism for a foldable ramp may include a swivel lifting arm being biased in a passive position of the foldable ramp and being activatable for releasing and transmitting its bias into a lifting force on the foldable ramp. The foldable ramp may be for providing wheelchair access to a passenger car rear door. The foldable ramp can be swivelled between several positions including a passive position in which the foldable ramp is arranged in the car in a lying position.

A deployment mechanism for a bariatric ramp which has a drive motor pivotally secured to one side of the ramp platform. The deployment mechanism includes a lever located in a housing on the opposing side of the platform ramp. One end of the lever being connected to a platform pivot bar and the other end being connected to a spring secured within the housing.

A control device of a vehicle is installed in a vehicle including: a body having a vehicle cabin and a floor panel constituting a floor of the vehicle cabin; a door opening-closing mechanism that drives a door mounted on the body to open and close; and a slope deploying mechanism that deploys a slope plate housed under the floor panel to the outside of the body. The control device coordinates the operation of the door opening-closing mechanism and the slope deploying mechanism. The control device opens the door by the door opening-closing mechanism after deploying the slope plate toward the outside of the body by the slope deploying mechanism.

A system for a vehicle includes a LIDAR sensor attachable to the vehicle and a puddle lamp fixed relative to the LIDAR sensor and oriented to project a light projection downward beside the vehicle. A computer may be in communication with the LIDAR sensor and the puddle lamp and programmed to actuate the puddle lamp in response to receiving data generated by the LIDAR sensor indicating a user positioned within a threshold distance of the vehicle.

An extendable lift assembly, comprising a sliding rail assembly, including a plate and a knuckle arm pivotably connected to the plate, and a first platform pivotably connected to the knuckle arm.

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.

Improved passenger access and suspension systems for passenger buses, and controllers configured for use therewith; and passenger buses incorporating such systems and controllers. Integration of access ramp, door, suspension, charge interface, and other systems provides improvements in fully- or semi-automatic deployment of features such as passenger doors and ramps, and charge interface components, as well as navigation to passenger access points.