The invention relates to a rail vehicle having a cover for a front coupling of the rail vehicle, wherein the cover is formed by at least one moveable front hatch which can be displaced between an open and a closed end position by means of a drive.
The cover for the front coupling of such a rail vehicle primarily serves visual and aerodynamic purposes. Two front hatches which are arranged one on top of the other are frequently found, said front hatches being displaced where necessary into an open end position with the result that an additional vehicle part can be coupled by means of the front coupling.
Examples of such vehicles from the prior art are the ICE 2 (DB series 402), the ICE 3 (DB series 403/406) and the TGV of the French national railway SNCF.
In all these embodiments of rail vehicles with a cover for its front coupling it is considered disadvantageous that the design of the drive of the front hatch can be regarded as being costly. This also applies to the mounting of the actual front hatch or hatches and the guidance thereof.
Taking this as a basis, the invention is based on the object of simplifying the mounting of the cover in a rail vehicle of the type mentioned at the beginning.
This object is achieved in this rail vehicle in that a movement of the at least one front hatch is guided in such a way that said movement takes place along a circular segment path about a rotary axis.
The movement of the front hatch along a circular segment path has the advantage that simple mounting of the cover for the front coupling of the rail vehicle is brought about and the structure is configured in a simple way.
The rotary axis is preferably arranged horizontally in order to define the movement of the front hatch because in this case it is possible to implement favorable guidance of the rotary movement.
The drive is preferably embodied as a cylinder drive, wherein one side of the cylinder drive is coupled to a bodyshell of the rail vehicle and the other side of the cylinder drive is coupled to the at least one front hatch. Activating the cylinder, which may be, in particular, a pneumatic cylinder, then causes the front hatch to be displaced between the two end positions.
The drive is preferably embodied in self-locking fashion in at least one end position, with the result that the end position which is assumed cannot be readily exited again by the front hatch.
In order to define the movement of the at least one front hatch on a circular path or along a circular path segment it is favorable if the front hatch is guided by means of a guide arm, one end of which is coupled laterally in the front space of the rail vehicle while its other end is connected both to the front hatch and to the drive.
A further front hatch is preferably provided, with the result that the cover of the front coupling is formed by an upper and a lower front hatch which can be mounted in a way such that they correspond to one another. The statements which have been made above with respect to the example of a front hatch apply accordingly to the embodiment of the two front hatches and the drive thereof.
An exemplary embodiment of the invention will be explained in more detail below with reference to the drawing, in which:
The movement of the upper front hatch 1 is determined by a guide arm 2.
The guide arm 2 is rotatably mounted in the lateral region of a front space, specifically about a rotary axis A which defines a purely rotary movement for a movement of the upper front hatch 1. Since the rotary axis A lies in the transverse direction of the rail vehicle or horizontally, the front hatch 1 moves between an upper and a lower position, which respectively correspond to a closed and an open end position.
The pneumatic cylinder 3 is coupled at its bodyshell-side ends to a holder 4. A front coupling (not illustrated), which is, for example, not telescopic, is located inwards of the holder 4 with respect to the vehicle. It is apparent that a piston rod 5 of the pneumatic cylinder 3 is extended completely for the closed end position. In contrast, this piston rod 5 would be retracted for the open end position. Activating the pneumatic cylinder 3 then brings about a displacement of the upper front hatch 1 between the open and the closed end position on a circular path segment which is defined by the rotary axis A.
The pneumatic cylinder 3 is of self-locking design for both end positions.
The various perspective views of
From
Number | Date | Country | Kind |
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10 2009 041 445.2 | Sep 2009 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2010/063596 | 9/16/2010 | WO | 00 | 3/16/2012 |