The invention refers to a device suitable for non-manual positioning and squaring of sleepers, once the rail has been placed. Also the subject of this invention is the self-propelled machine to which this device can be coupled.
During laying of railway tracks, the following operations are carried out:
According to the above, before fixing the fastenings securing the rail to the sleepers, the sleepers need to be in the correct position, equidistant from each other at a specific distance, as well as positioning them perpendicular to the track axis and centring them on it, all within the tolerances demanded by the corresponding regulations. This activity is known as sleeper squaring.
This process is currently performed manually by several workers equipped with metal bars which they use as levers to drag and move the sleeper into its correct final position. Similarly, a square is used for manual checking of the perpendicularity of each of the sleepers with respect to the rails and its correct distance from the neighbouring sleeper.
This manual process is both slow and imprecise. Currently and due to the advanced state of the art, the outputs for the various types of work listed above are high. As an example, the following outputs for laying single track are included:
As can be seen from the outputs above, the sleeper squaring operation represents a bottleneck for the unloading, squaring and fixing operations, hence the clear need to improve squaring outputs is seen.
Also known in the state of the art is application number ES2326403, which describes a machine for positioning and squaring sleepers. This machine is constituted of a wagon which can be moved over the rails, which has metal profiles arranged at its side longitudinally at the level of the track sleepers that have a series of equally spaced wedges that are the parts responsible for coming into contact with and positioning the sleepers, such that the wedges are located between them, pushing them laterally and longitudinally until they leave them in the correct position, i.e. centred, perpendicular to the axis, aligned and separated from each other by a specific distance.
However, the above mentioned positioning machine has the disadvantage that, on performing positioning using wedges, these compress the sleepers on their longitudinal axis and this compression can be excessive, such that some sleepers can break during the squaring task.
The present invention resolves the aforementioned disadvantages by means of a squaring device.
The railway track sleeper squaring device, the purpose of the invention, comprises the following elements:
Therefore, the positioning elements are located between consecutive sleeper and are shorter than the separation between these sleepers when correctly positioned, which enables them to be inserted between pairs of consecutive sleepers. They can be designed to be located in an arrangement centred with respect to these sleepers. Once inserted between the sleepers, the positioning element can be extended according to the track direction, such that it extends at one or both ends to a pre-set length corresponding to the separation that needs to exist between consecutive sleepers. When the positioning element extends it pushes the side of that sleeper located at less than the pre-set distance and moves it to this pre-set position.
One advantage of the invention is that the device allows itself to be adapted to different regulation distances between sleepers, as this distance can vary depending on national legislation. The adaptation of the device consists of simply varying the extension capacity of the positioners.
The first and second stops are intended to hold the group of sleepers to be positioned, specifically to hold the sleepers located at the outsides on their outer face, where outer face is understood to be the face which is not located facing any sleeper in the group being positioned. Each stop has its two elements arranged facing the positioning elements. At least one of the two stops can be extended, hence the other can be fixed and is positioned in contact with one of the end sleepers, while the stop that can be extended would have the capacity to move the sleeper on the opposite side by extending simultaneously with the positioning elements.
The device can comprise a first and a second positioning element, with which the sleepers would then be positioned two by two, or can comprise several pairs of positioning elements with which they would be able to position several sleepers in a single operation. The positioning elements act simultaneously, enabling the sleepers, which may initially be rotated with respect to the longitudinal axis of the track, to be located in their final position.
Based on that indicated above and taking into account that outputs of 4,000 linear meters of single track/day can be achieved with the device developed with several positioning elements, which can be considered to be an increase in daily production of 130%, resulting in a cost reduction per linear meter of single track of the order of 17%, considering the cost of acquisition, depreciation, workers and appropriate supporting equipment, as well as the extra cost in the traditional method due to low output of the fastening team.
Another of the advantages of this device is that there is no means which, to position the sleepers, applies pressure at both ends of each sleeper relative to its longitudinal axis, which could cause it to break and cause imperfections in the sleeper, but rather the positioners are introduced between the sleepers in a retracted position and subsequently extended so that the sleepers are squared by means of pressure transverse to their longitudinal axis, so avoiding breakages.
Finally, the purpose of this invention is also the self-propelled machine that comprises:
The self-propelled machine has wheels that enable it to move around the vicinity of the track, such that it is not necessary for the device to be carried by a machine with the capability to move along the railway tracks. This simplifies the operations to be carried out on the track.
To complete the description and in order to provide a better understanding of the invention, a set of drawings is provided. These drawings form an integral part of the description and illustrate embodiment examples of the invention.
The figures represent an example embodiment that has a first and a second set of positioning elements (1); the first set of positioning elements (1) has five positioning elements (1) located at the ends of six beams (2) which are arranged aligned and equidistant and the second set has another five positioning elements (1) arranged at the opposite ends of these beams (2). In this way, six sleepers (2) can be squared in a single operation.
The positioning elements (1) are located parallel to the direction of the railway track (3), i.e. perpendicular to the sleepers (2) and can be extended in that direction. More specifically, the positioning elements (1) included in the example embodiment comprise hydraulic cylinders.
The frame (4) shown in the figures can be raised such that the positioning elements (1) are inserted between the sleepers (2) by raising and lowering it. Other configurations would be possible, for example, that the positioning elements (1) are inserted in the direction parallel to the longitudinal axis of the sleepers (2) by means of articulated arms.
More specifically, in the example embodiment shown in the figures, the device comprises a first frame (4) to which the positioning elements (1) are joined and a second frame (5) which comprises means for support on the rails (3) and which is arranged connected to the first frame (4) such that the first frame (4) can be raised relative to the second frame (5) as the second frame (5) comprises guides (13) for raising and lowering the first frame (4). In the example embodiment shown, the means for supporting the second frame (5) on the tracks (3) are wheels (12), which enables the device to be moved along the track (3).
Also represented in the figures are the first (6) and second stops (7) joined to the first frame (4). Each stop (6, 7) comprises a first part (8) and a second part (9) arranged facing the first and second set of positioning elements (1). The stops (6, 7) are located on the outside face of the end sleepers (20, 21).
In the squaring operation, one of the stops (6) is located in contact with the first sleeper (20). To do this, this first sleeper (20) must be aligned manually, as it is the reference for locating the device which is the purpose of the invention. The other stop (7) can be extended and in the example embodiment comprises a hydraulic cylinder. The manual alignment of the first sleeper (20) is performed solely with the first group of six sleepers (2), as in subsequent phases the last sleeper (21) will be the first sleeper (20) in the following phase.
The positioning elements (1) are arranged joined to the first frame (4) by means of two extensions (10) joined at their top ends to that frame (4) and at their bottom ends to the ends of the positioning elements (1), such that in the extended position of these positioning elements (1), this bottom end is located between the positioning elements (1) and the sleepers (2).
In order to cause the minimum possible damage to the sleepers (2), the extensions (10) comprise a shock absorbing element (11) on their face facing the sleepers (2), which can also be made available on the internal face of the stops (6, 7).
Also represented in the figures attached is the hydraulic facility (14) that enables the extension and retraction of the hydraulic cylinders.
The device also has an additional support element (15) which provides the assembly with stability.
The example embodiment is also characterised in that the second frame (5) comprises means for coupling (30) it to a self-propelled machine that also has a hydraulic or pneumatic system that supplies the hydraulic (14) or pneumatic system referred to above. The self-propelled machine can be any machine capable of moving in the vicinity of the track (3) and, therefore, there is no need for a device which necessarily needs to move along the track (3), which makes squaring operations more difficult and causes delays in them.
Number | Date | Country | Kind |
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201430240 | Feb 2014 | ES | national |
Filing Document | Filing Date | Country | Kind |
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PCT/ES2015/070114 | 2/19/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2015/124821 | 8/27/2015 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
766851 | Ten Eyck | Aug 1904 | A |
3260218 | Pyke | Jul 1966 | A |
3451349 | Yard | Jun 1969 | A |
4903608 | Theurer | Feb 1990 | A |
8074575 | Aguirre Fernandez | Dec 2011 | B2 |
20170030023 | Lopez Bueno | Feb 2017 | A1 |
20170130403 | Bartolome Asensio | May 2017 | A1 |
Number | Date | Country |
---|---|---|
2233638 | Sep 2010 | EP |
2253874 | Jul 1975 | FR |
2159560 | Dec 1985 | GB |
751880 | Jul 1980 | SU |
Entry |
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International Search Report and Written Opinion for Application No. PCT/ES2015/070114, dated Jun. 3, 2015. |
Number | Date | Country | |
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20170130403 A1 | May 2017 | US |