The invention relates to a two-block or multi-block railroad tie with concrete blocks, which carry the rail supports and are connected with one another by tied-in reinforcing parts, as well as to a method for producing such two-block or multi-block railroad ties.
For previous methods of producing two-block railroad ties or also multi-block railroad ties, complete ties are produced in one mold and subsequently have to be equipped only with the rail-fastening means. This method of producing the complete ties, and this applies, of course, particularly to multi-block railroad ties, such as those used, for example, at the switch points, has the disadvantage that the very long and, with that, also heavy railroad ties can be transported only awkwardly from the manufacturing plant to the far-removed building site. In so doing, the danger also exists, in particular, that the long railroad ties will be damaged during this transport and, especially, will be bent, so that they are no longer aligned accurately for the desired gauge.
It is therefore an object of the invention to configure a two-block or multi-block railroad tie of the type mentioned above, which can be produced easily and ensures a more advantageous, damage-free transport to the building site.
Pursuant to the invention, this objective is accomplished owing to the fact that the two-block or multi-block railroad tie consists of several prefabricated individual blocks, the protruding reinforcements of which are connected with one another and, in particular, welded together. This results in a preferred manufacturing method, for which the prefabricated individual blocks, which, after all, are correspondingly short and light, are transported from the factory to the building site and are aligned to the correct gauge with the help of a gage and connected with one another only in the area of the building site.
In a development of the invention, equalizing pieces are disposed between the reinforcing parts of the individual blocks in order to make possible a connection, especially a welded connection, at the correct gauge width in spite of any displacement of the alignment.
For this purpose and in accordance with a further distinguishing feature of the present invention, the protruding reinforcing parts in the individual blocks may, for example, be offset laterally in each case, so that, when the individual blocks are aligned axially, they overlap one another and extend closely adjacent to one another. This construction enables the track lengths to be equalized by a mutual displacement of the individual blocks and, at the same time, as a result of the overlapping of the reinforcing parts, to ensure that a problem-free connection in any assignment of the individual blocks, in spite of this displaceability.
It is particularly advantageous if the reinforcements are V-shaped bar joists with, in each case, three parallel, longitudinal reinforcing rods, which are connected with one another by a zigzag-shaped bracing.
For this construction as bar joists, it can very easily be arranged that the protruding sections of the bar joists are sufficiently long, so that they mutually overlap in every case. By slightly bending up the one bar joist, it can readily overlap the protruding bar joist of the adjoining individual block, whereupon the mutually overlapping parts can be clamped, bolted or preferably welded.
Moreover, a connection, for which the protruding sections of the bar joists are constructed shortened, so that they are still at a distance from one another for the final assembly, is achieved particularly easily. The connection can then be brought about by a correspondingly somewhat larger bar joist piece, which is placed simply ever the mutually opposite bar joist ends of the individual blocks and then, as already indicated, clamped together with or bolted or welded to these.
Finally, it is also within the scope of the invention that the mutually braced reinforcing parts also protrude downward from the only partly formed concreting of the individual blocks. This ensures that the railroad ties are embedded even more strongly in the pavements especially in the case of solid pavements with railroad ties embedded in the sealing layer.
As already indicated, the present invention is generally suitable for railroad ties at switch points, since these are particularly long and heavy, especially in the end regions of the switch points, where the outer rails are relatively far apart. If they are then also to be constructed as multi-block ties for the purpose of saving weight, a special transporting problem arises in view of the length, since it is very likely then that damage and bending will occur.
Further advantages, distinguishing features and details of the invention arise out of the following description of an example and from the accompanying drawings.
A three-block railroad tie for switch points, consisting of the individual blocks 1, 1′ and 1″, is shown diagrammatically in
In the final analysis, it does not matter at all that, as can be seen in
The invention is not limited to the example shown. In particular, it is not necessary that the concreting of the individual blocks 8 be carried out only partly, so that the reinforcements also protrude partly at the bottom from the concrete blocks, as is particularly preferred for two-block or multi-block railroad ties for solid pavements. Moreover, reinforcements other than the bar joists shown, such as prefabricated reinforcing baskets or several continuous reinforcing rods or the like could, of course, also be provided.
Number | Date | Country | Kind |
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102 30 741 | Jul 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP03/07369 | 7/9/2003 | WO | 00 | 7/20/2004 |
Publishing Document | Publishing Date | Country | Kind |
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WO2004/005618 | 1/15/2004 | WO | A |
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466 934 | Aug 1946 | BE |
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Number | Date | Country | |
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20050145709 A1 | Jul 2005 | US |