Disclosed embodiment provide a sliding step assembly for a vehicle or a rail vehicle, comprising at least one footboard, which is guided on a guiding device for movement along a travel path between a retracted position and an extended position by driving by a drive. The drive contains at least one electrical linear motor operating without contact, wherein the driving force of the electrical linear motor is transferred to the footboard without mechanical connection.

A boarding assembly (1) for boarding a vehicle (2), wherein, in a mounted state, the assembly is arranged outside the vehicle body (4) on a vehicle body outer wall. The boarding assembly (1) comprises at least one first step (10), which is suspended in the boarding assembly (1) such that the first step can rotate about a first axis of rotation. The boarding assembly (1) also comprises a pivot device (20) having a second axis of rotation (22), running substantially parallel to the vehicle body outer wall in the mounted state. The pivot device (20) is arranged entirely on the outside of the vehicle body outer wall, in particular within the boarding assembly (1), in the mounted state.

A tread strip for a vehicle is formed of at least two parts, an inner part and an outer part. The inner part is configured for attachment to the vehicle and/or to an outer part. The outer part is configured for attachment to the inner part and/or the vehicle. The outer part further includes an intermediate portion extending along a longitudinal axis between two attachment portions, the two attachment portions being configured for attachment to the inner part. The inner part has an intermediate portion extending along the longitudinal axis between two end portions. The end portions are configured for attachment of the inner part to the vehicle and/or for attachment to the outer part. The tread strip may be mounted to a vehicle by attaching the inner part and then attaching the outer part to the inner part and/or sealing the inner part with respect to the vehicle.

The front door (1) tilts in the structure of the vehicle (VP) by means of upper hinges (2), assisted by dampers (3) connected to the internal structure (4) of the front door (1) and to the vehicle, provided with the lower portion (5) articulated by the lower hinge (6) to the structure of the vehicle (VP). The lower portion of the door (5) projects outwards when the front door (1) is opened through the action of cables (15) and pulleys (16). On the opening of the lower portion of the door (5), a retractable staircase (7) extends; when retracted, it folds under the floor of the vehicle (8). The front door (1) is activated internally by the passengers using a lever (9) that tums a rod (10), moving shafts (11) that release the locking mechanism. The internal release depends on an electromagnetic safety key, making it possible to open the front door (1) if the vehicle breaks down.

The front door (1) tilts in the structure of the vehicle (VP) by means of upper hinges (2), assisted by dampers (3) connected to the internal structure (4) of the front door (1) and to the vehicle, provided with the lower portion (5) articulated by the lower hinge (6) to the structure of the vehicle (VP). The lower portion of the door (5) projects outwards when the front door (1) is opened through the action of cables (15) and pulleys (16). On the opening of the lower portion of the door (5), a retractable staircase (7) extends; when retracted, it folds under the floor of the vehicle (8). The front door (1) is activated internally by the passengers using a lever (9) that tums a rod (10), moving shafts (11) that release the locking mechanism. The internal release depends on an electromagnetic safety key, making it possible to open the front door (1) if the vehicle breaks down.

A folding staircase for use in a door opening having a threshold. The folding staircase has a pair of stringers that have an upper end and a lower end that is adapted for contacting a ground surface. The stringers are spanned by at least one tread. A hinge is connected to a floor near the door opening and a threshold plate pivotally connected thereto is movable between a use position and a stowed position. The staircase may be provided with a lifting mechanism that biases the staircase and threshold plate toward their stowed positions. The lifting device provides a variable force that provides more rotational force when the staircase would require a user to bear more of its weight and less force when less of the weight of the staircase would be borne by a user.

A folding staircase for use in a door opening having a threshold. The folding staircase has a pair of stringers that have an upper end and a lower end that is adapted for contacting a ground surface. The stringers are spanned by at least one tread. A hinge is connected to a floor near the door opening and a threshold plate pivotally connected thereto is movable between a use position and a stowed position. The staircase may be provided with a lifting mechanism that biases the staircase and threshold plate toward their stowed positions. The lifting device provides a variable force that provides more rotational force when the staircase would require a user to bear more of its weight and less force when less of the weight of the staircase would be borne by a user.

A railway vehicle for passenger transport comprising a vehicle body, said vehicle body including a passenger entrance area and a vehicle boarding aid for facilitating passengers' access to the passenger entrance area, the vehicle boarding aid comprising a movable entry threshold arranged in an access position facilitating passengers' access to the passenger entrance area and a vertical position adjusting device for vertically adjusting the access position of the entry threshold as a function of a potential vertical gap between a station platform and the passenger entrance area, wherein said entry threshold is fixedly arranged in said access position in all operating states of the railway vehicle.

Systems and methods for a shuttle platform that is configured to allow a path for one or more passengers to load or unload from a light rail transit vehicle that runs on a shared track. The shuttle platform can move in a linear plane and may be operationally engaged with a drive system comprising, a drive component and a combination position lock and drive mechanism disconnect. The drive component may comprise a transfer component. The combination position lock and drive mechanism disconnect may comprise: a drive disengage latch; a secondary lock latch selectably alternatively engagable between strikers; a manual drive receiver simultaneously operationally engagable with both the drive disengage latch and the secondary lock latch, and comprising a manual drive work output operationally engagable with the manual drive work input; and an automatic release.

A portable slope comprising at least a plate member and a first reinforcing part, and configured in a manner such that the first reinforcing part extends in the longitudinal direction of the slope, a hollow part is formed between the plate member and the first reinforcing part, the shape of the cross-section perpendicular to the longitudinal direction of the first reinforcing part is quadrangular, and the like. Provided is a portable slope to be used to bridge a difference in step produced between buildings and train car bodies, the portable slope being lightweight and exhibiting excellent load bearing characteristics and durability, making it possible for a wheelchair-user to safely travel on the slope by the positioning of derailment prevention walls on both lateral surfaces of the slope, and further exhibiting excellent portability as a result of the slope itself being lightweight.