JP5220184B2 - Fixed track for rail-traveling vehicles on bridges - Google Patents

Description

  The present invention relates to a fixed track for a rail vehicle on a bridge. The fixed track is composed of a bridge superstructure plate, a support plate covering the bridge superstructure plate, having a longitudinal ridge and a stopper, and a superstructure plate having a recess, On the superstructure plate, rails are provided by fixing means.

  In recent years, so-called fixed tracks have become dominant in the high-speed operation section of railways. In the said structure, the rail is not fixed on the sleeper provided in the ballast roadbed, but is mounted in the support plate made from a reinforced concrete. The reasons for using fixed trajectories for high speed sections are improved position stability and increased availability due to the relatively long maintenance period.

  Conventionally, there has been a problem in laying a fixed track on a bridge. In a fixed track with continuously welded rails, the individual cross-sections remain almost immovable at virtually any temperature, and changes in temperature only cause stress changes in the rails. Absent. In a bridge structure, a change in temperature causes a change in length, so it is difficult to solve the problem of combining a fixed track with a bridge.

  In order to solve the above problems, Patent Document 1 proposes the following proposal. That is, the support plate is disposed on the bridge structure so as to be movable in the longitudinal direction, so that the bridge structure can be moved under the fixed track. As the train brakes, forces that can be very large are received and transmitted at the support plate, which must release this force to the bridge superstructure. It is very difficult to adjust the distribution of the braking force for the bridge and the continuous rail.

  In order to avoid such problems, fixed tracks for rail vehicles on the bridge, known as the “Reda” system, have been developed. In the system, to protect the surface seal, a support plate is provided on the bridge superstructure plate, the support plate having a relatively thick reinforcing strip in the region of the rail, The reinforcing strip is provided with a recess in a state of being separated from each other in the longitudinal direction. Above these reinforcing strips, an upper structural plate is provided which engages a recess in the reinforcing strip of the support plate by means of a lower protrusion on the upper structural plate, thereby The support plate is connected in shape connection. The manufacture of such a known fixed track is time consuming and costly and requires significant material consumption, so if one side of the rail is raised, the weight and structural height will be too great.

  Known Patent Document 2 describes a fixed track for a rail traveling vehicle on a bridge, which is composed of a bridge upper structure plate, a support plate, and an upper structure plate. In this document, the superstructure plate has a recess for each raised portion, and each raised portion is provided at the longitudinal end of the support plate. In this configuration, the recess in the upper structural plate surrounds the raised portion of the support plate. In this configuration, it is necessary to perform laborious reinforcement in the longitudinal direction, and very precise work is required. For this reason, a great deal of cost is required for work and time. Furthermore, the reinforcing stripes of the support plate and the superstructure plate can only be realized with a minimum length of 6 m each. This requires a large number of plates on the bridge, and laborious formwork and reinforcement work on the concrete plates and stoppers. Each plate must have two stoppers by placing each stopper at the end of the plate of that configuration.

German Patent Application Publication No. 2443770 German Patent Application Publication No. 19620731

  It is an object of the present invention to provide a configuration that simplifies reinforcement in the longitudinal direction, reduces the cost required for the formwork and manufacturing, and enables the manufacture of longer plates.

The above-mentioned subject is realized by the present invention by the following points.
That is, the support plate (1) having the longitudinal recess (4) has the stopper (5) at the height of the center of the upper structure plate (8) provided on the stopper. The longitudinal recess (7) of the plate (1) is interrupted by the stopper (5) in the region with a length of 60 to 100 cm, and the superstructure plate (8) is longitudinally raised (4), the longitudinal ridge is interrupted by a recess (6) with a length of 65 cm to 105 cm in the central region of the longitudinal ridge, and the support plate The stopper (5) of (1) is engaged in shape connection.

  A belt-like layer is provided on the edge of the longitudinal ridge (4), and a belt-like elastomer is bonded to the edge of the longitudinal ridge (4) as a belt-like layer. The strip layer has a thickness of 1.0 to 1.5 cm.

  A protective concrete layer (3) is provided under the support plate (1). The protective concrete layer preferably has a minimum concrete grade of C25 / 35 and a thickness of 5 to 11 cm.

  A seal (11) can be provided between the bridge superstructure plate (2) and the support plate (1) or protective concrete layer (3). The seal is realized by an asphalt sheet and is used for protecting the bridge superstructure plate (2).

  The support plate (1) has transverse grooves (9, 10) at a distance of 300 to 800 cm from each other on the side of the support plate facing the protective concrete layer (3). The groove has a width of 8 to 12 cm and is realized over the entire width of the support plate (1).

  A longitudinal ridge (4) having a recess (6) is provided in the support plate (1), and a longitudinal recess (7) having a stopper (5) is provided in the upper structural plate (8). Good. This can improve the possibility of adapting the configuration to the individual conditions of the bridge and the stress burden.

[Advantages of the present invention]
Increase the length of the plate on the bridge, so that the length of the plate on the bridge can be up to 30 m.
All that is required for longitudinal reinforcement is simple and inexpensive, reducing the need for cutting and bending.
Overall, the plate requires less reinforcement. (Reinforcement against the stopper is reduced.)
The cost for formwork and reinforcement and other consumption is reduced by approximately 50%.
By providing a stopper at the center of the support plate, only one stopper should be provided for each support plate, and a recess may be provided in the upper structure plate.
In the conventional construction method, two stoppers are provided, and each of the two stoppers is provided at each end of the plate. When the length changes with the bridge superstructure plate, no restraint occurs.
“Running” of the superstructure plate in the longitudinal direction is avoided.
By arranging the stopper in the center, the superstructure plate can be expanded or contracted based on the effect of temperature without any limitation.
The number of superstructure plates and stoppers is significantly reduced with respect to the length of the bridge superstructure. (For example, instead of using two stoppers for a 6 m long plate, use one stopper for a 18 m long plate.)

It is a longitudinal direction sectional view of a bridge structure of a fixed track. It is sectional drawing of the bridge in the edge part area | region of a plate. It is sectional drawing of the bridge in the center of a plate.

  Hereinafter, the present invention will be described in more detail based on embodiments.

  The support plate 1 is placed on the bridge upper structure plate 2 via the protective concrete layer 3. The support plate 1 has a longitudinal recess 7 and a stopper 5 in the central region, which engages a recess 6 provided in the center of the longitudinal ridge 4 of the upper structural plate 8. ing. The support plate 1 has transverse grooves 9; 10 at a distance of 300 to 800 cm from each other, the transverse grooves being realized with a width of approximately 10 cm. The transverse groove is used for draining the bridge superstructure plate 2 in the transverse direction.

  A seal 11 is provided between the support plate 1 and the bridge superstructure plate 2 or the protective concrete layer 3. The support plate 1 is separated from the upper structure plate 8 via a separation surface 12. This allows the two plates to move differently when affected by temperature, thereby avoiding cracks in the structure. A band-like layer is bonded to the edge of the longitudinal bulge 4 as a band-like elastomer (t≈10 mm).

DESCRIPTION OF SYMBOLS 1 Support plate 2 Bridge superstructure plate 3 Protective concrete layer 4 Longitudinal recess, longitudinal ridge 5 Stopper 6 Depression 7 Longitudinal recess 8 Superstructure plate 9,10 Transverse groove 11 Seal 12 Separation surface

Claims (9)

A fixed track for a rail vehicle on a bridge, the fixed track covering the bridge superstructure plate (2), the bridge superstructure plate, and having a longitudinal recess and a stopper In a fixed track, comprising a support plate (1) and an upper structural plate (8) having a longitudinal ridge, on which rails are provided by fixing means,
Wherein the support plate (1) having a longitudinal recess (7), and the stopper (5) is provided so as to protrude from the bottom of the longitudinal recess (7),
The longitudinal recess (7) of the support plate (1) is interrupted by the stopper (5) with a length of 60 to 100 cm in the longitudinal direction of the support plate (1) ,
The superstructure plate (8) has a longitudinal ridge (4), which is a recess having a length of 65 cm to 105 cm in the longitudinal central region of the longitudinal ridge. Interrupted by (6),
Stationary orbit the stopper inside the said support plate of the recess (6) (1) (5) is characterized in that it is fitted. The fixed track according to claim 1, characterized in that a band-like layer is provided in the edge region of the longitudinal ridge (4). A fixed track according to claim 1 or 2, characterized in that a strip elastomer is bonded as a strip layer to the edge region of the longitudinal ridge (4) .   The fixed track according to claim 1, characterized in that a protective concrete layer (3) is provided under the support plate (1). The fixing according to claim 4 , characterized in that a seal (11) is provided between the bridge superstructure plate (2) and the support plate (1) or the protective concrete layer (3). Formula orbit.   The support plate (1) is provided with transverse grooves (9; 10) at a distance of about 600 to 800 cm from each other with respect to the stopper (5). 2, characterized in that it is realized over the entire length of the support plate (1) and passes through the longitudinal ridge (4). Fixed orbit. The stopper (5) and the longitudinal recess (7) are provided on the side of the support plate (1) facing the lower side of the upper structural plate (8), and the recess (6) and The fixed track according to claim 1, characterized in that the longitudinal ridge (4) is provided on the side of the superstructure plate (8) facing the support plate (1). The said stopper (5) is provided in the position on the said support plate (1) corresponding to the center of the length of the longitudinal direction of the said superstructure plate (8). Fixed orbit. A separation layer is incorporated between the upper structural plate (8) and the support plate (1) so as to separate the support plate (1) from the upper structural plate (8). The fixed track according to claim 1.

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