The invention relates to a method for producing a slab track for rail vehicles with an emergency pathway for road vehicles wherein a prefabricated track section with rails and sleepers is supported and positioned on a substructure by means of a supporting and aligning device and a track slab is produced by casting in the sleepers.
Slab tracks for rail vehicles are known in the art and are preferentially used in tunnels. To ensure quick rescue in the event of accidents and disturbances, such tracks are provided, particularly in tunnels, with emergency pathways that are drivable for road vehicles and of course also walkable for pedestrians. A requirement with regard to the latter is that tripping points are eliminated as far as possible.
Known emergency pathways consist of prefabricated plates, e.g. of concrete, resting on a track slab of filling concrete in which the sleeper blocks are embedded. In the case of tracks with elastically supported, vertically movable sleeper blocks, an additional requirement is that the plates of the emergency pathway do not hinder the mobility of the sleeper blocks. An advantage of such emergency pathways is that the dimensions and the weight of the prefabricated plates can be designed such that the plates can be transported and laid by conventional means. However, a disadvantage is that the dimensions of the plates have to be adapted to the gauge, the sleeper block dimensions, the sleeper block spacing, and the slope of the filling concrete track slab. A slope is required to drain water. All these variable parameters make it uneconomical to keep a stock of prefabricated plates. A further disadvantage of emergency pathways of this kind is that the plates often do not rest stably on the filling concrete track slab so passing vehicles cause a tilting movement and the plates are thus subject to high local wear.
On the background of this prior art, it is the object of the invention to provide a method for producing a slab track for rail vehicles with an emergency pathway for road vehicles that is simple and cost-efficient to implement and that results in a slab track provided with a positionally stable emergency pathway having a high load capacity.
According to the invention, this object is achieved in that the part of the sleepers that projects from the track slab and the rails are separated by formwork elements and an emergency pathway is applied to the track slab by casting.
In particular, this method offers the advantage that the emergency pathway precisely fits onto the track slab and rests thereon stably. Furthermore, the need for prefabricating and more particularly keeping a stock of plates for the emergency pathway is eliminated.
According to one embodiment of the method, the formwork elements are attached before the track slab is cast. This modus operandi offers the advantage that it is not necessary to step on the track slab to attach the formwork elements after casting the track slab and that the emergency pathway may possibly be applied before the track slab has completely hardened.
According to a further embodiment of the method, the supporting and aligning device is removed before the emergency pathway is cast. This has the advantage that no parts or traces of the supporting and aligning device remain in the emergency pathway.
The invention also relates to a slab track produced according to the method of the invention.
In one embodiment of the slab track, a drainpipe is arranged in the substructure and communicates with the surface of the substructure via connecting openings provided in the substructure at certain intervals. A substructure prepared in this manner eliminates the need for the subsequent installation of a drainage system.
According to a further embodiment, the track slab is provided with connecting openings which communicate with the connecting openings provided in the substructure. It is very simple to provide the track slab with such connecting openings, e.g. by inserting formed parts before the track slab is cast.
According to another embodiment, the emergency pathway is divided by joints extending substantially transversely to the rails. These joints absorb expansions and contractions of the emergency pathway. Furthermore, this allows an easy stepwise manufacture of the emergency pathway in accordance with the length of the prefabricated track sections.
According to a further embodiment, the emergency pathway is provided with drainage shafts which communicate with the connecting openings of the track slab. These drainage shafts are preferably arranged in the area of the joints and ensure the drainage of water from the emergency pathway.
If according to another embodiment the surface of the emergency pathway is provided with drainage channels, the drainage of the emergency pathway is further improved.
According to a further embodiment, the sleepers have a heightened shoulder on at least one side of the rail whose surface is at least approximately flush with the surface of the emergency pathway. In this manner, gaps in the emergency pathway that might otherwise remain after removing the formwork elements are largely closed.
The invention further relates to formwork elements for implementing the method of the invention. The main object of these elements is to allow a quick setup and removal.
According to the invention, this object is achieved in that the formwork elements consist of hoods that are intended to be fitted over parts of the sleepers and of plates connecting adjacent hoods. These hoods and plates are quickly mountable and dismountable and are furthermore reusable.
According to one embodiment of the formwork elements, the plates are removably connectable to the hoods. This measure also facilitates the mounting and dismounting of the formwork elements.
According to a further embodiment of the formwork elements, the plates are connectable to the hoods such that the spacing between adjacent hoods is variable. This eliminates the need for providing plates of different lengths in accordance with different sleeper spacings.
Exemplary embodiments of the invention will be described in more detail hereinafter by way of examples with reference to the appended drawings. The latter show
In
In the illustration according to
Furthermore it is clearly visible in
1 substructure
2 drainpipe
3 connecting opening
4 supporting and aligning device
5 sleeper block
6 rubber shoe
7 inlay
8 rail
9 formwork hood
10 track slab
11 connecting opening
12 emergency pathway
13 side wall
14 rear wall
15 side wall
16 top wall
17 connecting part
18 bolt
19 connecting plate
20 opening
21 joint
22 drainage channel
23 drainage shaft
24 shoulders of 5
25 surface of 12
Number | Date | Country | Kind |
---|---|---|---|
10197028.3 | Dec 2010 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2011/074024 | 12/23/2011 | WO | 00 | 6/26/2013 |