The invention relates to a fixed carriageway for rail vehicles having sleepers embedded in a carriageway panel and a reinforcement, which comprises plural longitudinal rods and transverse rods disposed in the carriageway panel parallel and transverse to the sleepers.
The term “fixed carriageway” refers to a section of rail with a superstructure, in which the ballast is replaced by another material such as concrete or asphalt for example. In the construction of the fixed carriageway, the sleepers are adjusted and embedded in a casting compound, creating a carriageway panel. The substructure of the carriageway panel may comprise a hydraulically bonded support layer, a ballast support layer, a frost-protection layer, a foil or a geotextile.
In the operation of rail sections, it is necessary to determine whether a certain section of track is clear or whether a train is located thereon. To this end, track circuits can be used in which a transmitter feeds an audio frequency signal into the track in such a manner that the rails act as to-and-fro conductors. At a remote site, the signal is evaluated by a receiver and by means of the signal level received, it is decided whether the section of track between the transmitter and receiver is clear.
One of these track circuit systems, which is available under the reference UM71 and is used in various countries, operates with four carrier frequencies of between 1.7 and 3.1 kHz.
Due to the impedances of rails and track connectors, the signal levels of the track circuits are damped or energy is drained from the track circuits as the distance between transmitter and receiver increases. Since the system is impressed particularly by inductive voltage drops due to the frequencies used, this component of damping can be compensated by the regular arrangement of specified transverse capacitances between the two rails. On a clear section, with compensation, maximum track circuit lengths of 1500 meters can be achieved. In non-compensated realisations, on the other hand, only track circuit lengths of 450 meters maximum are possible. Conventional track circuit systems, such as the above-mentioned system UM71, have hitherto been used predominantly with ballast carriageways.
A reason for not using such track circuits in fixed carriageways, however, is the fact that in these carriageways transverse rods and longitudinal rods are present in the concrete support panel as reinforcement. In the reinforcing rods extending longitudinally to the track axis, due to the magnetic fields of the audio frequency rail currents, a voltage is induced. Closed short-circuit current paths can form via the transverse reinforcements. The losses thus occurring in the reinforcement rods cause additional damping of the track circuit signals or to additional energy depletion. A possible consequence of this is that the receiver of the track circuit no longer measures a sufficient level in spite of a clear section of track and thus signals that the track is occupied, which is not in fact the case.
An object of the invention is therefore to indicate a fixed carriageway in which a track circuit system can be used in a trouble-free manner.
To achieve this, in a fixed carriageway of the type mentioned in the introduction, it is provided that the longitudinal rods and the transverse rods are electrically isolated from one another.
By means of electrical isolation, the formation of closed short-circuit current paths is prevented, and accordingly damping of the track circuit signals does not occur. The receiver of the track circuit then only measures a low level if a train is in fact on the section of track.
In a further embodiment of the invention, it can be provided that longitudinal rods extending parallel to one another and/or coupled together are isolated from one another in the overlap region. Electrical interruption of the longitudinal rods is a particularly effective way of reducing damping. The length of the continuous longitudinal rods of the reinforcement is thus shortened to a specified value, so that the desired reduced damping is set.
Trouble-free operation of the track circuit can be achieved in the fixed carriageway according to the invention in that a spacer is disposed between two rods to be isolated from one another. A spacer of this type can be assembled with virtually no cost or complication in the construction of the fixed carriageway. By means of the spacer, the rods to be isolated from one another are held at a specified distance from one another before being embedded in the casting compound, so that no electrical connection forms between the longitudinal rods and the transverse rods. In this case, it may be considered a particularly great advantage that the static properties of the fixed carriageway are not affected by the spacers, since in the carriageway according to the invention, the same longitudinal and transverse rods are used as before, lying virtually in the same place as in conventional fixed carriageways.
It is also within the scope of the invention that the spacer comprises a first section at least partially engaging round the first rod and a second section at least partially engaging around the second rod. A spacer so constructed is characterised by particularly good grip on the rods, so that slipping off or displacement is virtually impossible. An even better grip and particularly safe fixing are achieved if the first and second section of a spacer are formed in the shape of segments of a circle and are adapted to the outer diameter of the rods. In the case of spacers which are used at points of intersection of a longitudinal rod with a transverse rod, the first and second section of the spacer can be offset with respect to one another by 90°.
Spacers can be particularly easily mounted on the fixed carriageway if the two sections are formed as clips. In this case, it can be provided that the spacers consist of a resilient material, in particular a plastics material. Such spacers can be manufactured economically and can be clipped easily on to the normally round rods.
It is within the scope of the invention that longitudinal rods are isolated by spacers from transverse rods which are formed for example as lower booms of a grid support of a sleeper. Sleepers for a fixed carriageway may for example have two sleeper blocks, which are connected together by two grid supports extending in parallel. The grid support(s) conventionally comprises or comprise plural grid rods extending transversely and acting as transverse rods. By means of the isolation provided according to the invention of the longitudinal rods from the transverse rods by spacers, problem-free functioning of the track circuit system is ensured.
In a further embodiment of the invention, it can be provided that in a sleeper having two grid supports of the fixed carriageway according to the invention, spacers are only mounted on one lower boom of a grid support. Thus the other lower booms of the grid support are automatically kept at a distance from the longitudinal rods, so that the desired electrical isolation is achieved.
According to an alternative, also particularly effective modification of the fixed carriageway according to the invention, in the case of rods to be isolated from one another, at least one rod may have an insulating coating. The coating serves the same purpose as the spacer, as it prevents contact between a transverse rod and a longitudinal rod, so that short-circuit current paths do not form. Accordingly, an additional energy drain or damping of the track circuit signals is also prevented.
Advantageously, a transverse rod having the insulating coating may be formed as the lower boom of a grid support of a sleeper. A lower boom of this type can be provided with the insulating coating all over, so that at no point can there be unwanted contact with a longitudinal rod.
In order to minimise the construction cost, it is sufficient in the fixed carriageway according to the invention that in the case of a sleeper having plural grid supports, only one lower boom of a grid support has the insulating coating. It is particularly advantageous that the lower boom having the insulating coating has a different height position, in particular a lower height, than the other lower booms. The longitudinal rods can then rest on the shallower lower boom without contact being formed between them, and in addition the longitudinal rods are also isolated from the same lower booms, which have a normal height.
It can be provided that in the fixed carriageway according to the invention, additionally the sections of the grid support adjoining the lower boom may have an insulating coating. Thus also, contact between the longitudinal rods and/or vertically extending sections of the grid support of the sleeper is prevented.
In addition, the invention relates to a method of manufacturing a fixed carriageway for rail vehicles with sleepers embedded in a carriageway panel and reinforcement, which comprises plural longitudinal rods and transverse rods disposed in the carriageway panel parallel and transversely to the sleepers.
In the method according to the invention it is provided that the longitudinal rods and the transverse rods are installed electrically isolated from one another.
Further embodiments of the invention are indicated in the subclaims.
Further advantages and details of the invention are explained by means of embodiments with reference to the Figures, which are diagrammatic representations.
The fixed carriageway 1 shown in
As can be best seen from
Additionally, the reinforcement comprises longitudinal rods 11 disposed at right angles to the transverse rods and extending parallel to the rails 5. As can be best seen from
At points of intersection between the transverse rods 10 and longitudinal rods 11 or transverse rods 10 and longitudinal rods 12 or 13, spacers 14 are inserted, which are clipped on to the reinforcement rods having a circular cross-section.
By means of the spacer 14, the longitudinal rod 11 is kept at a specified distance from the transversely extending lower boom 21 of the grid support, and contact and the formation of an electric circuit between the transverse rods 10 and the longitudinal rods 11 is prevented. It is sufficient if the spacers 14 are clipped on to one transverse rod 10 or to one lower boom of a grid support, since thus the other lower booms are electrically isolated from the longitudinal rods.
The two outer longitudinal rods 12, 13 resting on the transverse rods are likewise separated and isolated from the transverse rods 10 by the spacers 14. Two spacers are used per gap between sleepers. The transverse rods in each sleeper gap are likewise isolated by spacers from the longitudinal reinforcement extending below, four spacers being used per transverse rod 10, as can be seen in
In addition, the longitudinal rods are also separated from one another in the overlap region by two spacers 14 respectively. The overlap region in the example shown is about 1.2 meters, the individual longitudinal rods 11 being in this case 14 meters long, so that sections having this length are produced which are electrically isolated from one another. The measurements indicated are not to be considered limiting, however, but may be varied depending on the particular requirements.
In
Corresponding to the first embodiment, the sleepers 4 are embedded in the carriageway panel 2. The reinforcement comprises transverse rods 10 and longitudinal rods 11, which are passed through the grid supports 7, 22.
At some points of intersection between transverse rods 10 and longitudinal rods 11, spacers 14 are clipped on. The same applies to the overlap region of the longitudinal rods 11.
Unlike in the first embodiment, the grid support 22 of the sleeper has a lower boom 18 with a low height, i.e. this lower boom 18 in the installed state lies higher than the other three lower booms 19 of the sleeper. As can be seen in
In the embodiment shown, the shortened lower boom 18 of the grid support 22 has a grid support height of 100 mm, whereas the other lower booms are 110 mm high, so that the longitudinal rods 11 only rest on the shortened lower boom 18.
In the method of manufacturing the fixed carriageway, the sleepers are positioned as usual with their grid supports and the transverse rods and longitudinal rods of the reinforcement, and then the spacers are mounted. The other steps in the sequence of the method of construction are not altered, but only the modified grid support 22 is used, which is shown in
Number | Date | Country | Kind |
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10 2005 018 195 | Apr 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE2006/000284 | 2/15/2006 | WO | 00 | 10/12/2006 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/111113 | 10/26/2006 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4617775 | Padrun | Oct 1986 | A |
5371991 | Bechtel et al. | Dec 1994 | A |
6237856 | Bachmann et al. | May 2001 | B1 |
Number | Date | Country |
---|---|---|
198 49 266 | May 2000 | DE |
198 48 928 | Oct 2000 | DE |
199 59 978 | Apr 2001 | DE |
0 715 021 | Jun 1996 | EP |
0 777 015 | Jun 1997 | EP |
0 980 931 | Feb 2000 | EP |
4-97064 | Mar 1992 | JP |
Number | Date | Country | |
---|---|---|---|
20070164125 A1 | Jul 2007 | US |