The invention relates to a ballast sweeping installation for picking up and distributing ballast located on a track, consisting of a sweeping brush rotatable about an axis of rotation, a ballast conveyor belt arranged in front of the same with regard to a brush rotation direction and having a transport direction extending parallel to the axis of rotation, and with a ballast guiding plate positioned between the sweeping brush and ballast conveyor belt for passing the ballast on to the ballast conveyor belt.
Ballast sweeping installations of this kind are often used in connection with a ballast plough and are known, for instance, from DE 911 02 31 U1 or EP 2 250 318. In this, excess ballast is swept from the track and fed to a conveyor belt for discharge in the shoulder area of the track.
Also known, according to WO 2013/189564, is a ballast plough having a ballast silo for intermediate storage of large quantities of ballast. If the ballast silo is full, the same can be discharged into the shoulder area of the track by means of a transversely displaceable conveyor belt.
It is the object of the present invention to provide a ballast sweeping installation of the type mentioned at the beginning with which an improved ballast distribution is possible.
According to the invention, this object is achieved with a ballast sweeping installation of the specified kind in that a length of the ballast conveyor belt delimited by two deflection ends is designed to be shorter than a length of the sweeping brush extending in the axis of rotation, and that the ballast conveyor belt is designed to be displaceable in the transport direction by means of a drive.
With this special design of the ballast conveyor belt, it is now possible in an advantageous manner to discharge excess ballast, picked up by the sweeping brush, in a targeted manner into the tamping zones of the track as needed in order to ultimately enable a qualitatively uniform tamping. Consequently, a heretofore customary disposal of the excess ballast into the shoulder area and a resulting uneconomical ballast accumulation becomes unnecessary.
Additional advantages of the invention become apparent from the dependent claims and the drawing description.
The invention will be described in more detail below with reference to an embodiment represented in the drawing in which
A ballast sweeping installation 1, represented in
A length lS of the ballast conveyor belt 5 delimited by two deflection ends 8 is designed to be shorter than a length lK of the sweeping brush 3 extending in the axis of rotation 2. Preferably, the length lS of the ballast conveyor belt 5 is designed to correspond approximately to a gauge of a track 9 to be swept off.
The ballast conveyor belt 5 is designed to be displaceable by means of a drive 10 in the transport direction 6 relative to the sweeping brush 3 and parallel to the axis of rotation 2 in both directions. Preferably, the displacement path is dimensioned in such a way that each deflection end 8 is movable in each case from the position visible in
Arranged underneath the ballast conveyor belt 5 are two cover plates 13—spaced from one another in the transport direction 6 at a distance corresponding to the gauge of the track 9—for avoiding any ballast discharge upon rails 14 of the track 9. The tamping zones 15 which are essential for a tamping of the track 9 are located adjoining both longitudinal sides of the rail 14.
Due to the displaceability of the ballast conveyor belt 5, it is possible, for example—in the case of an adjacent track to the left as seen in the track direction in
However, it is advantageously also possible in the central basic position of the ballast conveyor belt 5 visible in
As can be seen in
Number | Date | Country | Kind |
---|---|---|---|
A 258/2016 | May 2016 | AT | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2017/000504 | 4/24/2017 | WO | 00 |