WO2000061866A1 - Method for renewing railway lines - Google Patents

Abstract

The invention relates to a method for renewing railway lines having a substructure (5), a bed (4) consisting of ballast and a track (3) that is mounted thereon and consists of rails (1) and sleepers (2). The inventive method comprises the following steps: removing the existing superstructure (4) that is associated with the track and laying the track (3) on the substructure (5), removing the existing substructure (5, 6) in relation to the track to the depth that is required for the construction of the new railway line, if necessary and laying the track (3) on the resulting base (6), optionally embedding the substructure (9) required for the track, for the new railway line, embedding at least one support layer (8), especially a free or hydraulic support layer, for a solid railway, retreating the existing track (3), producing the solid railway with a track (3) which is mounted on a concrete or asphalt support layer (7) or with a track (3) with sleepers (2) which are cast into a concrete layer, whereby a new track (3) is projected and adjusted.

Description

 Process for renewing a track system

The present invention relates to a method for renewing a track system with a substructure, a bedding, in particular made of ballast, and a track made of rails and sleepers laid thereon.

Track systems have to be replaced from time to time because the ballast bed is changed by the load. In particular, the

Crushed stones crushed by the load. This can result in a deviation from the intended track position, which can lead to a hazard without costly maintenance measures.

The invention is based on the object of specifying a method for renewing a track system, by means of which a track system to be renewed can advantageously be replaced by a modern track system with great stability in position.

According to the invention, the method comprises the following steps:

track-bound expansion of the existing bedding and laying the track on the substructure,

- If necessary, track-based expansion of the existing one

Substructure to a depth required for the construction of the new track system and laying the track on the preserved ground, if necessary, track-based installation of a substructure for the new track system,

Installing at least one base layer for a solid carriageway, in particular an unbound or a hydraulically bound base layer,

Dismantling the existing track,

- Establish the solid track, especially with one on one

A track laid on concrete or asphalt base course or with a track with sleepers cast into a concrete layer, with front end of a new track and straightening and fixing the new track.

The solid carriageways produced by the method according to the invention have the advantage of particularly high strength and positional accuracy. Such lanes can therefore be used in particular for high speeds. By combining the specified process steps, the renewal can be carried out in a favorable manner. In particular, due to the track-bound work, renewal can also be carried out for track systems that are not accessible from the side. The materials can also be advantageously transported in and out via tracks.

According to an embodiment of the invention, the installation of the base layers is also track-bound. This operation can also be carried out advantageously. According to a further embodiment of the invention, after the new substructure has been installed, the existing tracks are dismantled and guide rails are laid, so that the base courses can then be installed using the guide rails. Thanks to the use of guide rails, even after the track has been dismantled, the pavement can be installed with great accuracy.

According to a further embodiment of the invention, after the new substructure has been installed, the existing tracks are dismantled and the base layers are installed using a floor undercarriage, in particular caterpillars. This eliminates the need to lay training rails.

According to a further embodiment of the invention, after the old track has been dismantled and the base layers have been finished, a concrete trough is applied, then the new track is pre-built, furnished and fixed in the concrete trough, and then the concrete trough is filled with concrete and the concrete is compacted. These method steps advantageously produce a solid roadway with cast sleepers.

According to a further embodiment of the invention, after the old track has been dismantled and the base layers have been finished, an asphalt or concrete base layer is applied to it and the new track is then pre-built, furnished and fixed on the concrete or asphalt base layer. These process steps advantageously produce a solid carriageway with the track grille placed on it. According to a further embodiment of the invention, the new track is set up and fixed on the asphalt or concrete base layer when the new track is being built. In particular, the. The height of the asphalt or concrete base course at the intended support points of the sleepers and the thickness of the sleepers in the area of the support points for the rails were measured, the need for height compensation and its size determined from the measured values, and suitable compensating means applied when laying the track section. By measuring the height of the support surface of the base layer and the threshold thickness in the area of the rail support during the laying process, a necessary height compensation can be determined before the threshold is placed on the base layer and before the rail is inserted into the threshold. As a result, the necessary compensating means can already be used when laying the track section. This eliminates the need for a separate, subsequent work step. The installation is accelerated and simplified overall.

According to one embodiment of the invention, the height of the rail at the bearing points on the sleepers is additionally measured and taken into account when determining the height compensation. This measure can also compensate for the height tolerances of the rails and thus further reduce the deviations in the height of the laid track from the target value.

According to a further embodiment of the invention, the height of the base course and / or the rail height is measured when the track section is laid, in particular in each case immediately before a track is laid Threshold, whereby the compensating means are attached before the rail is inserted into the sleepers. This simplifies and improves the determination of the bearing point to be measured on the base layer and the rail section to be measured. By attaching the compensating means before inserting the rail into the sleepers, it is not necessary to detach the rails from the sleepers for attaching the compensating means.

According to a further embodiment of the invention, the threshold is fixed against shifting after being set down. This ensures that the rail remains on the measured section of the base layer and the accuracy of the altitude obtained by the application of the compensating means is maintained.

The height ratio between the left and right rails of a threshold, the height ratio of successive thresholds and / or the longitudinal height ratio between two measuring points arranged at a predetermined distance, for example five meters, from one another are preferably taken into account when determining the height compensation. This allows all the usual requirements for positional accuracy to be taken into account.

According to a further embodiment of the invention, the position of the track section is aligned in the transverse direction, preferably starting from the threshold center, before being fixed. This advantageously not only determines the height but also the longitudinal direction of the track section, and the tolerances are reduced. According to one embodiment of the invention, the height and lateral position of the track section can be determined by means of auxiliary points applied to the base layer. The determination can also be carried out using lasers from fixed points. These methods of determination have been found to be particularly suitable.

According to a further embodiment of the invention, the measured values, the compensation measures carried out and the final track position are documented. This means that it is always possible to find out what the starting position was and what measures were taken to reach which final status.

A laying device is preferably used to carry out the method according to the invention, on which all the means necessary for carrying out the method are present. This means that laying can be done with a single device.

According to a further embodiment of the invention, the front end of a new track with sleepers cast into a concrete layer as the upper base layer and applied to a lower base layer comprises the steps:

Production of a track section with rails and sleepers attached to them at a predetermined distance from one another,

Arranging and holding the track section at a distance above the lower base layer, Straightening the side and height of the track section,

Supporting the track section over at least part of the sleepers on the lower base layer,

Introduction of fixing elements, in particular bolts, into the lower base layer, in particular in the middle of the carriageway, in the area of at least part of the sleepers, each with a free end projecting up to the associated sleeper,

Fixing the thresholds on the associated fixing elements against lateral displacement, and

Pouring the upper base layer, in particular using a previously installed formwork.

With this method, a trough is completely dispensed with. Instead, the track section is supported directly on the lower base layer. After aligning the lateral position of the track section, it is fixed by fixing elements, which are inserted into the lower base layer and fastened to a sleeper. In particular, bolts are used for this. In the method according to the invention, the track section is aligned by a separate device. As in the conventional method, the sleepers can be supported, for example, by means of spindles which are screwed into corresponding sleeves which are provided in the sleepers by the manufacturer. Due to the omission of the trough and the direct support on the lower base layer, appropriately manufactured spindles and sleeves are required. such. It can be used to equip all known or new types of sleepers.

As with known methods with a trough, it is also sufficient if only a part of the sleepers is supported on the lower supporting layer and fixed against lateral displacement by means of a bolt. Nevertheless, it is technically advantageous to prepare all sleepers for support and fixation. This also opens up the possibility of providing additional supports and / or fixings if the track position deviates from the target position.

An advantage of the method according to the invention is that a trough is no longer required. This eliminates the effort required to manufacture the trough. It is also particularly advantageous that the joint between the cast upper base layer and the trough is no longer present, which, because of its continuous extension, poses a particular risk when water penetrates.

According to a further embodiment of the invention, the bolts are introduced into recesses previously made in the lower base layer. The recesses, in particular laser-controlled, can be positioned very precisely, which also results in an exact positioning of the bolts. The necessary displacements of the sleepers relative to the bolts during alignment are relatively small.

According to a further embodiment of the invention, the thresholds are attached to the bolts so that they can be moved in height. This has the advantage that the thresholds, after loosening their support on the lower base layer, can follow a shrinkage of the upper base layer material. According to a further embodiment of the invention, the sleepers are released from the rails after the sleepers are supported on the lower base layer. This prevents displacements, in particular thermal expansions and contractions of the rails from being transmitted to the sleepers during the setting of the upper base layer.

According to a further embodiment of the invention, the bolt is fastened to the middle of the threshold. The tolerances that occur during the production of the thresholds are thereby halved.

According to a further embodiment of the invention, a reinforcement covering a plurality of sleepers and in particular connected to them is provided under the sleepers, which reinforcement is cast into the upper base layer. The reinforcement is connected to the threshold reinforcement. As a result, the forces acting on the sleepers, in particular pushing forces in the event of thermal expansion and contraction of the rails, are distributed over several sleepers and can thus be absorbed better.

According to one embodiment of the invention, the recesses are made as bores in the lower base layer. These can advantageously be introduced with particularly high accuracy. Another possibility is to make the recess as a slot which extends continuously in the longitudinal direction of the roadway.

According to a further embodiment of the invention, the alignment of the side and / or height of the track section takes place in two or more steps. This has proven to be particularly advantageous. It has also proven to be advantageous to check the track position after the sleepers have been fixed and supported and, if necessary, to correct them again. It is also advantageous to document the track position after the sleepers have been fixed.

According to a further embodiment of the invention, formwork with formwork elements which are anchored to the track is used for casting the upper base layer. In particular, the formwork elements are anchored via an upper formwork holder on the rail foot and a lower formwork holder on the reinforcement. The lower formwork holder is preferably cast in. This means that a formwork for pouring the upper base layer can be attached using simple means. The formwork can be reused except for the lower formwork holder. In principle, however, it is also possible to use a formwork carriage of a conventional type.

According to one embodiment of the invention, one-piece sleepers can be used as sleepers with a vertical elongated hole in the middle of the sleepers or receptacles attached to the side of the sleepers for the passage of the bolt for the lateral fastening of the sleeper. In this case, suitable adjusting and fixing means are provided in the elongated hole or the receptacle, through which the bolt can be guided and, after the track section has been aligned, can be fixed against lateral displacement relative to the threshold or vice versa.

According to a further embodiment of the invention, two-part sleepers are used with two parts, each connected to a rail, which carries a rail. The use of two-part sleepers has the advantage that the length of the joints between the threshold and the cast upper base layer and the weight of the threshold is reduced.

For the lateral fixing of the two-part sleepers on the bolts, a sheet that can be moved along the connecting iron and can be fixed thereon with a passage opening for the bolt is preferably used. The sheet is preferably formed in two parts, with two parts each having one half of the passage opening. The threshold can be easily fixed to the bolt against lateral displacement via the sheet. The two-part design has the advantage that the bolt can be inserted even before the threshold is fully aligned laterally, by pushing the two parts sufficiently far apart and joining them together only after the bolt has been inserted.

A preferred lifting device for the method according to the invention for lifting a track section with rails and sleepers attached to them comprises at least one frame spanning the carriageway, on which, in particular, grippers and lifting means for lifting the track section are attached to the rails. Here, the frame is designed to be movable along the road. Such a lifting device allows the track section to be set up continuously without the need for a large number of lifting devices. As the work progresses, the lifting device according to the invention is moved forward and used for the entire setup process.

According to one embodiment of the invention, means for aligning the side and / or height of the track section are additionally on the frame intended. The lifting device can thereby advantageously also be used to align the track section, so that a separate device is not required.

At least three frames are preferably provided, at least the first of which has a floor, in particular crawler, chassis. In this way, lifting and alignment of the track section can be carried out in several steps with one device. In particular, a rough alignment is carried out with the first frame, a fine alignment with the second frame, and a fine alignment with the third or a further frame with final fixing of the sleepers.

According to a further embodiment of the invention, the further frames each have a rail undercarriage, all frames being connected to one another via connecting rods, which preferably also carry supply lines at the same time. A floor trolley is therefore only required for the first frame, while the other frames can be moved on the rails that have already been prepared. For the lifting and straightening process, these frames are supported on the running surface of the floor trolley, i.e. the lower base layer.

According to a further embodiment of the invention, all the frames are arranged on a common floor, in particular crawler, chassis. This forms a complete device with which the track section can be raised, aligned and fixed.

According to a further embodiment of the invention, the frames have roller tongs for lifting and leveling rollers for aligning the track Cuts that roll on the rails. This enables the track section to be continuously raised and aligned.

In addition, the frames preferably also have load rollers which can be rolled off the rails and by which the rails are held down. This has also proven to be particularly advantageous for the mobile lifting and aligning device.

According to a further embodiment of the invention, before the trough is produced or before the asphalt or concrete base layer or before the new track is built or before the new track is set up and fixed, training rails are laid, and the trough is produced and / or creating the asphalt or concrete base course and / or building the new track and / or setting up and fixing the new track using the guide rails. By using training rails, the described work can be carried out with high accuracy again.

According to a further embodiment of the invention, the trough is produced and / or the asphalt or concrete base layer and / or the new track is built and / or the new track is set up and fixed using a floor undercarriage, in particular caterpillars. It is therefore not necessary to lay training rails.

According to a further embodiment of the invention, the track dismantling and / or the track extension are track-bound. This in turn has the advantage that the materials can be easily fed in and out. According to a further embodiment of the invention, the new track is set up and fixed on a track. Any materials required for this can be easily transported again.

According to a further embodiment of the invention, all the process steps up to the dismantling of the track are carried out in a first step, the dismantling of the track and possibly the installation of base layers in a second step and in at least one further step the track is built and the solid track is produced. A procedure in such operations has proven to be particularly advantageous. The track system can therefore be replaced quickly and cheaply.

According to a further embodiment of the invention, the production of an asphalt or concrete base layer is carried out in a third step and the track extension, the setting up and the fixing of the track are carried out in at least one further step. This procedure has proven to be advantageous for the production of a solid carriageway with the track grating on.

According to a further embodiment of the invention, the track extension is carried out in a third step and the track is set up and fixed and the sleepers are poured into a concrete layer in a fourth step. This procedure has proven to be advantageous for the production of a solid roadway with cast sleepers without the use of a concrete trough. According to a further embodiment of the invention, the production of a concrete trough and in at least one further operation the track extension, the setting up and fixing of the track and the casting of the sleepers into the trough are carried out in a third operation. This procedure has proven to be advantageous for the production of a solid roadway with cast sleepers using the concrete trough.

An embodiment of the invention is shown in the drawing and is described below. They show, each in a schematic representation,

1 shows a cross section through an old and a new track system and

Figure 2 shows part of the process steps according to the invention for renewing a track system.

On the right side of the dividing line I in Figure 1, an old track system is shown, with a track 3 formed by two rails 1 and sleepers 2, which is laid in a ballast bed 4. The ballast bed 4 is applied to a frost protection layer 5 and this in turn is applied to the substrate 6. In addition to or instead of the frost protection layer 5, a formation protection layer can also be provided.

In the new track system, the track 3 with rails 1 and sleepers 2 is placed on a concrete or asphalt base layer 7, which can also be multi-layered, and fastened thereon. The concrete or as The base layer 7 is applied to a lower base layer 8, in particular a hydraulically bound base layer or also an unbound base layer, which in turn is arranged on an antifreeze layer 9. The frost protection layer 9 lies on the substrate 6 and can in turn be replaced or supplemented by a formation protection layer.

Instead of the new track system shown with a fixed track, in which the track 3 is placed and fixed on a concrete or asphalt layer, the new track system can also be formed with a fixed track, in which the sleepers 2 of the track 3 are poured into a concrete layer are. The production of the solid carriageway without using a concrete trough is particularly preferred in that the sleepers 2 are supported directly on the lower base layer 8 and fixed thereon against lateral displacement before the sleepers 2 are poured into the concrete.

According to FIG. 2, in order to renew a track system with ballast bedding, the ballast bedding 4, as indicated by line 10, is first removed, then, according to line 11, the frost protection layer 5 and / or possibly a formation protection layer. Then, if necessary, the subsurface 6 is removed according to line 12 as far as is necessary for the construction of the new track system in order to maintain the height of the track 3 or, if desired, to reach a new height.

If necessary, a new frost protection and / or formation protection layer 9 is then applied to the surface of the substrate 6 thus obtained. brought to this a lower base layer 8, in particular a hydraulically bound base layer, but possibly also an unbound base layer. A concrete or asphalt base layer 7, which can also be multi-layered, is then applied to the lower base layer 8 in the case of solid carriageways with the track 3 laid on it. Then the track 3 is placed, aligned and fixed. In the case of solid carriageways with cast-in sleepers 2, either a concrete trough is applied to the lower base layer 8, in which the track 1 is then built, leveled and fixed, or the track 3 is pre-built, leveled and fixed on the lower base layer 8. The sleepers 2 are then poured into concrete, if necessary using formwork.

Up to the production of the lower base layer 8, all described process steps for the renewal of a track system can be carried out in one operation. The implementation can either be track-bound, using training rails or using floor trolleys. In any case, the renewal of the track system with the steps according to the invention is advantageous and, as a result, has a firm track that meets high accuracy requirements and is therefore particularly suitable for high speeds.

Reference list

rail

threshold

track

Ballast bedding

Frost protection layer

Substrate upper base layer lower base layer

Frost protection layer

line

line

line

parting line

Claims

Expectations 1. Method for renewing a track system with a substructure (5), a bedding (4), in particular made of ballast, and a track (3) made of rails (1) and sleepers (2) laid on it, with the following steps: Track-based removal of the existing bedding (4) and laying the track (3) on the substructure (5), if necessary, track-based expansion of the existing substructure (5, 6) to a depth required for the construction of the new track system and laying the track (3) on the base (6) obtained, if necessary, track-based installation of a substructure (9) for the new track system, - Installation of at least one base layer (8) for a solid Roadway, in particular an unbound or a hydraulically bound base layer, Dismantling the existing track (3), Manufacture of the solid carriageway, in particular with a track (3) placed on a concrete or asphalt base layer (7) or with a track (3) with a cast in a concrete layer. NEN sleepers (2) with front end of a new track (3) and straightening and fixing the new track. 2. The method according to claim 1, characterized in that after the installation of the new substructure (9) there is a dismantling of the existing tracks (3) and that the installation of the base layers (8) using a floor trolley, in particular caterpillars, or from before installed rails. 3. The method according to any one of the preceding claims, characterized in that after the dismantling of the old track (3) and the completion of the base layers (8) a concrete trough is applied to this (8), that the new track (3) in the concrete trough is built, set up and fixed, and then the concrete trough is filled with concrete and the concrete is compacted or that after the dismantling of the old track (3) and completion of the base course (8) an asphalt or concrete base course (7) is applied to it , and that the new track (3) is then pre-built, set up and fixed on the concrete or asphalt base course (7), the setting up and fixing of the new track (3) preferably taking place at the time of construction and preferably the height of the asphalt or concrete base layer (7) at the intended support points of the sleepers (2) and the thicknesses of the sleepers (2) in the area of Support points for the rails (1) measured, from the measured values the need for height compensation and its size determined and suitable compensation means are already applied when laying the track section. 4. The method according to any one of the preceding claims, characterized in that the front end of a new track (3) with sleepers (2) cast into a concrete layer as the upper base layer and applied to a lower base layer comprises the steps: - producing a track section with rails (1) and sleepers (2) attached to them at a predetermined distance from one another, Arranging and holding the track section at a distance above the lower base layer (8), Straightening the side and height of the track section, Supporting the track section over at least part of the sleepers (2) on the lower base layer (8), Introducing fixing elements, in particular bolts, into the lower base layer (8), in particular in the middle of the carriageway, in the area of at least part of the sleepers (2), each with a free end projecting up to the associated sleeper (2), Fixing the thresholds (2) on the associated fixing elements against lateral displacement, and Pouring the upper base layer (7), in particular using a previously installed formwork. 5. The method according to any one of the preceding claims, characterized in that before producing the trough or before producing the asphalt or concrete base layer (7) or before building the new track (3) or before setting up and fixing the new track ( 3) Guideways are laid, and that the manufacture of the trough and / or the creation of the asphalt or concrete base course (7) and / or the construction of the new track (3) and / or the setting up and fixing of the new track (3) under The rails are used. 6. The method according to any one of the preceding claims, characterized in that the manufacture of the trough and / or the manufacture of the asphalt or concrete base layer (7) and / or the construction of the new track (3) and / or the setting up and fixing of the new track ( 3) using a floor undercarriage, in particular caterpillars. 7. The method according to any one of the preceding claims, characterized in that the installation of the base layers (8) and / or the track dismantling and / or the track stem and / or the setting up and fixing of the new track (3) are track-bound. 8. The method according to any one of the preceding claims, characterized in that in a first step all the process steps up to dismantling the track, in a second step the dismantling of the track and, where appropriate, the installation of the base layers (8) and in at least one further step of the track construction and the manufacture of the solid roadway (7) can be carried out. 9. The method according to claim 8, characterized in that in a third step, the production of an asphalt or concrete base layer (7) and in at least one further step of the track stem, the establishment and fixation of the track (3) are carried out, or that in a third step of the Track construction and, in a fourth step, setting up and fixing the track (3) and pouring the sleepers (2) into a concrete layer. 10. The method according to claim 8, characterized in that in a third step the production of the concrete trough and in at least one further step of the track stem, the setting up and fixing of the track (3) and the pouring of the sleepers (2) are carried out in the trough .