EP1318239A1 - Method for building a ballastless track - Google Patents

Abstract

The method involves continuously pouring concrete to form two concrete walls (2) which laterally delimit the edges of a concrete track slab to be formed. A track slab forming concrete (1) is poured between the two walls. A compact tie plate inserter system (20) is operated to insert tie plates (3) in the freshly poured track slab forming concrete.

Description

The invention relates to a method of constructing a railway in which creates a concrete track slab and elements are inserted into it anchoring the railroad track by means of an insertion device, the latter being mobile along the route of the railway.

EP 0 803 609 discloses a method and a device for inserting saddles in concrete to quickly make a railway track at reduced cost. Such an insertion device comprises a mobile platform spanning the slab of freshly poured concrete which allows the insertion device to be moved along the track of the railway. It is also known from the patent application FR 00 10120, filed by the applicant, to carry out the precise positioning of such a stool insertion device by means of a measurement station referenced with respect to topographic survey points arranged along the course of the railway, the measuring station comprising an optical measuring device cooperating with reflectors carried by the stool insertion machine for precisely locate the insertion device.

However, such a track construction method has the disadvantage of having a rate of progress limited by the time necessary for movement and precise positioning of the stool insertion device.

Another disadvantage of such a construction method is that it requires the use a relatively bulky stool insertion device, the latter comprising a mobile platform spanning the freshly poured concrete slab, the width necessarily exceeds the width of the concrete slab to be built. Moreover, the insertion device is generally coupled with a casting machine continuous concrete, the latter being placed in front of the stool insertion device and shaping the concrete slab by means of a sliding formwork. However, the use of such a continuous concrete casting machine has the disadvantage of require a concrete of particular formulation whose texture does not allow its pumping, which requires having to transport this concrete in large quantities, by a other means, such as agitator containers, before depositing the concrete by gravity.

It follows that such a construction process may prove impossible to implement. works when space is limited on both sides of the railway, especially during the construction of railways inside tunnels or on bridges.

Also, the object of the present invention is to remedy these drawbacks by proposing a method of building a railroad on a concrete slab using using reduced quantities of continuously molded concrete, the complement to total volume of concrete to build the track slab being made by concrete pumpable. Another object of the invention is to propose a construction method which allows the use of a machine for the continuous casting of concrete and a device for the insertion of anchoring elements having compact dimensions and which is simple and economical to implement.

a) réalisation de deux murets de béton délimitant latéralement les bords de la dalle de voie à couler, ces deux murets étant réalisés au moyen d'une machine de coulée en continu du béton ;

b) coulée de la dalle de voie en béton entre lesdits murets ;

c) insertion des éléments d'ancrage dans la dalle de voie fraíchement coulée au moyen du dispositif d'insertion.

To this end, the subject of the invention is a method of constructing a railway track in which a concrete track slab is produced and anchoring elements of the railway track are inserted into the track slab by means of a mobile insertion device along the track of the railway, characterized in that it comprises the following stages:

a) production of two concrete walls laterally delimiting the edges of the track slab to be poured, these two walls being produced by means of a continuous concrete casting machine;

b) pouring the concrete track slab between said low walls;

c) insertion of the anchoring elements into the freshly poured track slab by means of the insertion device.

• les murets servent de moyen de guidage au dispositif d'insertion lors de ses déplacements.
• la machine de coulée en continu du béton est guidée, lors de l'étape a) de réalisation des murets, par une station de mesure référencée par rapport à des points de relevé topographique, cette station de mesure comprenant un dispositif de mesure optique coopérant avec des réflecteurs portés par la machine de coulée en continu ;
• le dispositif d'insertion est muni de roues possédant un écartement adapté pour circuler sur les murets, les roues comportant un boudin externe s'engageant en regard du bord latéral du muret et assurant le guidage du dispositif d'insertion le long du muret ;
• le dispositif d'insertion comporte un bras articulé qui insère avec précision les éléments d'ancrage dans la dalle de voie en béton fraíchement coulée, le positionnement précis du bras articulé étant réalisé au moyen d'une station de mesure référencée par rapport à des points de relevé topographique, la station comprenant un dispositif de mesure optique coopérant avec des réflecteurs portés par le bras articulé du dispositif d'insertion ;
• la dalle de voie est réalisée dans un béton de formulation traditionnelle qui est amené entre les deux murets à la pompe ou à la toupie ;
• la dalle de voie est nivelée au moyen d'une règle vibrante guidée par les murets, la précision altimétrique de la règle vibrante étant calquée sur celle des murets ;
• préalablement à l'étape b) de coulée du béton pour la réalisation de la dalle de voie, des armatures métalliques sont disposées entre les deux murets afin de réaliser une dalle de voie en béton armé
• lors de l'étape a), on réalise simultanément une dalle de fondation en béton s'étendant entre des deux murets, cette dalle de fondation présentant une épaisseur inférieure à la hauteur des murets pour laisser une cavité de réception entre les murets dans laquelle est coulé le béton de la dalle de voie.

According to particular embodiments, the construction method according to the invention can comprise one or more of the following characteristics taken in isolation or according to all technically possible combinations:

• the walls serve as a guide means for the insertion device during its movements.
• the continuous concrete pouring machine is guided, during step a) of producing the low walls, by a measurement station referenced with respect to survey points, this measurement station comprising an optical measurement device cooperating with reflectors carried by the continuous casting machine;
• the insertion device is provided with wheels having a spacing adapted to circulate on the walls, the wheels comprising an external flange engaging opposite the lateral edge of the wall and guiding the insertion device along the wall;
• the insertion device comprises an articulated arm which precisely inserts the anchoring elements in the freshly poured concrete track slab, the precise positioning of the articulated arm being carried out by means of a measurement station referenced with respect to points topographic survey, the station comprising an optical measurement device cooperating with reflectors carried by the articulated arm of the insertion device;
• the track slab is made of a concrete of traditional formulation which is brought between the two walls with a pump or a router;
• the track slab is leveled by means of a vibrating rule guided by the low walls, the altimetric precision of the vibrating rule being modeled on that of the low walls;
• prior to step b) pouring the concrete for the realization of the track slab, metal reinforcements are placed between the two walls in order to make a reinforced concrete track slab
• during step a), a concrete foundation slab extending between two low walls is produced simultaneously, this foundation slab having a thickness less than the height of the low walls to leave a receiving cavity between the low walls in which is poured the concrete of the track slab.

• La figure 1 est une vue représentant schématiquement les différentes étapes d'un mode de réalisation particulier du procédé de construction d'une voie ferrée selon l'invention ;
• La figure 2 est une vue représentant schématiquement en perspective l'étape de réalisation des murets conformément au procédé de la figure 1 ;
• La figure 3 est une vue représentant schématiquement en perspective l'étape d'insertion des éléments d'ancrage conformément au procédé de la figure 1 ;
• La figure 4 est une vue en coupe d'une voie ferrée sur une dalle de béton obtenue selon un second mode de réalisation du procédé de construction selon l'invention.

The aims, aspects and advantages of the present invention will be better understood from the description given below of an embodiment of the invention, presented by way of nonlimiting example, with reference to the accompanying drawings, wherein :

• Figure 1 is a view schematically showing the different stages of a particular embodiment of the method of constructing a railroad track according to the invention;
• Figure 2 is a view schematically showing in perspective the step of making the walls according to the method of Figure 1;
• Figure 3 is a view schematically showing in perspective the step of inserting the anchoring elements according to the method of Figure 1;
• Figure 4 is a sectional view of a railroad track on a concrete slab obtained according to a second embodiment of the construction method according to the invention.

To make the drawing easier to read, only the elements necessary for understanding of the invention have been shown.

Figure 1 shows schematically the different stages of a particular mode for carrying out the method of constructing a railroad track according to the invention. According to this figure, in a first step of the process, two low walls 2 with a height of the order of 20 to 40 cm and a width of the order of 10 cm are built along the track, these two low walls 2 delimiting laterally the edges of the concrete slab to be poured to support the track railway. These low walls 2 are preferably made of concrete by means of a continuous concrete casting machine 10 of reduced size, of the type described in patent application FR-A1-2 662 452 and available from the company M-B-W. Such a machine 10 is mounted on wheels 11 and includes a reservoir for concrete 12 pouring gravity from concrete upstream of a sliding formwork 13 making the shape of the wall 2.

During this step, illustrated in more detail in FIG. 2, the casting machine in continuous 10 is advantageously guided in its advancement by a measure 5 placed at the edge of the track and installed on a tripod vertically from a topographic survey terminal 6. This measuring station 5 includes a distance measuring device equipped with a transmitting optic and a receiving optics making it possible to know the distance with great precision and the angle separating the measurement station 5 from a set of reflectors 7 carried by the continuous casting machine 10. The laser measuring device used is example the device marketed under the reference TC / TCA 2003 by the company LEICA.

During this first step, the height of the walls 2 is advantageously chosen to so that the upper surface of the low walls 2 delimits the height of the concrete slab at flow, the walls 2 having interior blanks which are inclined relative to the vertical so that the space between the two walls 2 forms a converging cavity for receiving a concrete track slab 1.

In an optional second step of the process illustrated in FIG. 1, an armature metal 4 is placed between the two low walls 2 in order to produce a track slab 1 in reinforced concrete. Of course, this step of the process can be omitted when wants a concrete slab 1 without reinforcement 4.

In a third step of the process, after solidification of the concrete constituting the two low walls 2, traditional concrete is poured into the cavity delimited by the two walls 2 so as to fill this cavity to a height at least equal to the upper surface of the walls 2. This traditional concrete is brought for example by pumping through a pipe connected to a tank located at a clear point around the railroad tracks. In an alternative embodiment, the reservoir may also rest on wheels and circulate on the two low walls 2, the concrete being able then be spread by means of a router.

In a fourth step illustrated in FIGS. 1 and 3, a device for inserting stool 20 of reduced size is brought above the track slab 1 freshly cast, this insertion device 20 comprising a rectangular frame resting on four wheels 21 having a spacing adapted to circulate on the walls 2. In accordance with FIG. 1, the wheels 21 each have an edge external provided with a flange 21a engaging opposite the external blank of the wall 2 and guiding the insertion device 20 along the wall 2.

The insertion device 20 also comprises, in a manner known per se and in accordance with the device disclosed in document EP 0 803 609, an arm articulated 23 moving vertically to insert saddles 3 in the concrete slab 1 freshly poured and means to vibrate the concrete around the saddle 3 during its insertion. This articulated arm 23 is disposed in the rear part of the chassis and includes reflectors 7 cooperating with a measuring station 5 to insert precisely the 3 saddles with an accuracy of less than a millimeter, as is described in patent application FR 00 10120 filed by the applicant. The insertion device 20 further comprises, at the front of the chassis, a vibrating rule 22 leveling the surface of the track slab 1 with traced altimetric precision on that of the upper surface of the two walls 2.

Thus, during the advancement of the insertion device 20, the concrete slab 1 freshly poured is leveled by the vibrating rule 22 and the saddles 3 are inserted successively by the articulated arm 23, the positioning of the insertion device 20 during its advancement being facilitated by guiding the wheels 21 on the walls 2.

Such a method of building a railway has the advantage of being able to be used in places where the available space is limited since it allows the use a compact concrete pouring machine. Indeed, this continuous concrete casting machine is sized to make low walls small dimension requiring little concrete volume, the track slab made between the two low walls being poured in a concrete of traditional formulation which presents the advantage of being able to be brought by pumping, which makes it possible to place the tank remote concrete in an open area.

In addition, according to the method according to the invention, the walls are used for guide the saddle insertion device on the railway track which ensures pre-positioning of the insertion device and reduces the time required for precise positioning of the arm supporting the inserts.

The low walls also have the advantage of serving as a support for possible metal reinforcements intended to be inserted in the track slab and allow also to simplify the installation of sleeves or drains in the track slab.

FIG. 4 shows an alternative embodiment of the method according to the invention in which the first step of the process is modified. According to this figure, we uses in this first step a continuous concrete casting machine, not shown in the figure, comprising a sliding formwork for making simultaneously the two low walls 2 and a foundation slab 2a extending at the base of the two low walls 2. The foundation slab 2a thus produced has a very thick less than the height of the two walls 2, of the order of 20 cm for a height of walls of around 40 cm, so that there remains a cavity between the two walls 2 in which is poured the track slab 1. The following steps of the process are identical to those described for the embodiment of Figures 1 to 3, the two walls 2 still serving as a rolling surface for a saddle insertion device 20 as shown in Figure 3.

Such an alternative embodiment, although it requires the use of a continuous casting of concrete with a larger gauge, has the advantage ensure a perfect relative positioning of the two walls and allows a realization faster of the two walls, reducing the time required for positioning of the continuous casting machine. In addition, such a variant retains the advantage of ensuring a pre-positioning of the insertion device by the cooperation of the wheel flanges with the edge of the walls.

Of course, the invention is in no way limited to the embodiment described and illustrated which has been given only as an example. Modifications are still possible, in particular from the point of view of the constitution of the various elements or by substitution of technical equivalents, without however leaving the field of protection of the invention.

Claims (9)

Method for constructing a railway track in which a concrete track slab (1) is produced and anchoring elements (3) of the railway track are inserted into said track slab (1) by means of a device insertion (20) mobile along the track of the railway, characterized in that it comprises the following stages: a) making two low walls (2) in concrete laterally delimiting the edges of the track slab (1) to be poured, these two low walls being produced by means of a continuous concrete casting machine (10); b) pouring the concrete track slab (1) between said low walls (2); c) insertion of the anchoring elements (3) in the freshly poured track slab (1) by means of the insertion device (20). Method of constructing a railroad track according to claim 1, characterized in that said low walls (2) serve as a guide means for the insertion device (20) during its movements. Method of constructing a railway track according to claim 1, characterized in that the continuous casting machine (10) is guided during step a) of making the walls (2) by a measuring station (5) referenced with respect to topographic survey points (6), said station (5) comprising an optical measurement device cooperating with reflectors (7) carried by the continuous casting machine (10). Method of constructing a railway track according to any one of claims 1 to 2, characterized in that said insertion device (20) is provided with wheels (21) having a spacing adapted to run on said walls (2) , said wheels (21) comprising an outer flange (21a) engaging opposite the lateral edge of the wall (2) and guiding the insertion device (20) along the wall (2). Method of constructing a railway track according to any one of Claims 1 to 4, characterized in that the insertion device (20) comprises an articulated arm (23) which precisely inserts the anchoring elements (3) , the precise positioning of the articulated arm (23) being carried out by means of a measurement station (5) referenced with respect to survey points (6), said station (5) comprising an optical measurement device cooperating with reflectors (7) carried by the arm (23) of the insertion device (20). Method of constructing a railway track according to any one of Claims 1 to 5, characterized in that the track slab (1) is made of a concrete of traditional formulation which is brought between the two walls (2) to the pump or router. Method of constructing a railway track according to claim 6, characterized in that the track slab (1) is leveled by means of a vibrating rule (22) guided by the walls (2), the altimetric precision of the rule vibrating (22) being modeled on that of the walls (2). Method of constructing a railroad track according to any one of Claims 1 to 7, characterized in that , before step b) of pouring concrete for the production of the track slab, metallic reinforcements (4) are arranged between the two walls (2) in order to produce a track slab (1) in reinforced concrete. Method of constructing a railway track according to claim 1 to 8, characterized in that , during step a), a concrete foundation slab (2a) extending between two low walls (2) is produced simultaneously , said foundation slab (2a) having a thickness less than the height of the walls (2) to leave between the walls (2) a receiving cavity in which is poured the concrete of the track slab (1).

Images