METHOD FOR STABILIZING AN EARTH FORMATION

Information

  • Patent Application
  • 20180179709
  • Publication Number
    20180179709
  • Date Filed
    June 02, 2016
    8 years ago
  • Date Published
    June 28, 2018
    6 years ago
Abstract
In a method for stabilizing an earth formation exposed after removal of a track and ballast, in a first working pass in a work section following a rear crawler track with regard to a working direction, parallel to the removal of the ballast the earth formation is loosened up, aggregates are introduced, and grading takes place. In a second working pass, the earth formation to which aggregates have been added is mixed thoroughly by getting picked up by means of a clearing chain and transported onward to a discharge point located behind the rear crawler track and discharged again upon the exposed earth formation, after which, by grading and consolidating the discharged earth formation, a rehabilitation layer is formed.
Description

The invention relates to a method for stabilizing an earth formation of a track, wherein the earth formation, exposed after removal of the track and ballast, is mixed with aggregates and levelled and consolidated, thus forming a protection layer. The invention also relates to a machine for carrying out the method.


According to AT 513 248, a method for cleaning or renewing ballast of a track is known. The track maintenance machine used for this purpose is supported in the track-less construction site via two crawler tracks. The ballast picked up by a clearing device is cleaned in a screening installation, and a first partial quantity thereof is discharged forward of the front crawler track in the working direction for forming a ballast layer on which the two crawler tracks are riding, thus protecting the earth formation. The remaining ballast quantity is introduced and graded behind the second crawler track for producing an exact ballast formation.


EP 2 054 552 also describes a machine, mobile on crawler tracks, for renewing a ballast bed. First, a base of geotextile or geogrid is laid upon a formation exposed by ballast removal behind the front crawler track rolling on the old ballast bed, on which base a sand layer and on the latter a layer of new ballast is then placed and consolidated. The second crawler track of the machine runs on the new ballast bed thus produced.


It is the object of the present invention to provide a method and a machine of the type mentioned at the beginning with which improved subgrade rehabilitation is possible.


According to the invention, this object is achieved with a method and a machine of the specified kind by way of the features cited in the characterizing part of the main claim and claim 5, respectively.


A method of this type has the advantage that it is possible to create a rehabilitation layer without the need for a crawler track to travel on the same before its completion, which would lead to an uneven compaction. Thus, an optimal quality of the rehabilitation layer can be guaranteed with relatively little procedural effort.


A machine designed according to the features of claim 5 has the advantage that the structural expense required for rehabilitation of the earth formation is relatively small. Furthermore, machines already in service which are known from the cited prior art and provided for ballast cleaning, can be subsequently retrofitted in a simple manner for an additional application option (or also restored again easily).


Additional advantages of the invention become apparent from the remaining dependent claims and the drawing description.





The invention will be described in more detail below with reference to an embodiment represented in the drawing. FIGS. 1 and 2 each show a side view of a machine—depicted during two different working passes—for carrying out the method according to the invention.





A machine 1 shown in the drawing, serving for subgrade rehabilitation of a track, has a machine frame 2 which is equipped with two on-track undercarriages 3 arranged at the ends. Between these, a front crawler track 5 and a rear crawler track 6—with regard to a working direction 4—are connected for vertical adjustment via drives 7 to the machine frame 2, on which are additionally provided a clearing chain 8 for picking up ballast 9, a screening installation 10, a work cabin 11, and a motor 12.


At the rear end of the machine frame 2, a discharge device 22 in the shape of a bulk material store 13 having an outlet opening 14 is arranged which is followed, with regard to the working direction 4, by a grading- and consolidating device 15. Located in front of the bulk material store 13 is a scarifying device 17, vertically adjustable by drives 16, which has scarifying teeth 18 spaced from one another in a transverse direction of the machine.


The method, according to the invention, for stabilizing an earth formation 19 of the track commences—after the dismantling of rails and sleepers of the track has taken place—with the removal of the ballast 9 by means of the clearing chain 8 in a first working pass depicted in FIG. 1. During this, the machine 1 is moved continuously by means of the lowered crawler tracks 5 and 6 on the earth formation 19 exposed by the preceding clearing chain 8. The ballast cleaned in the screening installation 10 and the spoil accruing in the process are loaded via conveyor belts 23 for intermediate storage into material wagons (not shown) located on the adjacent track.


Parallel thereto, in a work section 20 adjoining the rear crawler track 6 with respect to the working direction 4, the earth formation 19 is loosened up by means of the scarifying teeth 18 and mixed with aggregates 30 (such as a lime-cement mixture, for example) which are introduced via the outlet opening 14 of the bulk material store 13. Immediately thereafter, the earth formation 19 is levelled by means of the grading- and consolidating device 15 and compacted, thus forming a protection layer 21.


In a second working pass depicted in FIG. 2, the earth formation 19 mixed with the aggregates 30 is now picked up by means of the clearing chain 8 and transported onward via the screening installation 10 to a discharge point 24 located behind the rear crawler track 6. In the process, an advantageous mixing effect takes place which is still enhanced by the vibrating screen of the screening installation 10 over which the material is guided with the aid of a cover plate. The formation material discharged upon the exposed earth formation 19 is graded and consolidated by means of a consolidating device 25, and thus a rehabilitation layer 26 is formed.


In further sequence, gravel 27 can be discharged upon this rehabilitation layer 26, said gravel having been separated out and intermediately stored during the ballast cleaning process as still-usable spoil, and which is now graded to form a protection layer 28, as can be seen in FIG. 2 all the way on the right. Likewise, the ballast 9 picked up by the clearing chain 8 and cleaned in the screening installation 10 can—after the intermediate storage—be discharged, as desired, upon the rehabilitation layer 26 for creating a ballast bed.


In addition, there is also the possibility to place a foil 29 on the rehabilitation layer 26 prior to the discharging of gravel 27.

Claims
  • 1. A method for stabilizing an earth formation of a track, wherein the earth formation, exposed after removal of the track and ballast, is mixed with aggregates and levelled and consolidated, thus forming a protection layer, comprising the following features: a) in a first working pass—in a work section adjoining a rear crawler track with regard to a working direction—parallel to the removal of the ballast the earth formation is loosened up, aggregates are introduced, and grading takes place,b) in a second working pass, the earth formation to which aggregates have been added is mixed thoroughly by getting picked up by means of a clearing chain and being transported onward to a discharge point located behind the rear crawler track and being discharged again upon the exposed earth formation, after which, by grading and consolidating the discharged earth formation, a rehabilitation layer is formed.
  • 2. The method according to claim 1, wherein the ballast picked up in the first working pass is cleaned and gravel, which has been separated out as spoil in the process, is intermediately stored, said gravel being discharged in the second working pass upon the rehabilitation layer and graded to form a protection layer.
  • 3. The method according to claim 2, wherein, prior to the discharging of gravel, a foil is placed upon the rehabilitation layer.
  • 4. The method according to claim 1, wherein the ballast picked up by the clearing chain is cleaned and, after intermediate storage, discharged upon the rehabilitation layer to form a ballast bed.
  • 5. A machine having crawler tracks, a clearing chain for picking up ballast, a screening installation, and a discharge device provided for introducing bulk material, for carrying out a method according to claim 1, comprising the following features: a) behind the rear crawler track—with regard to a working direction of the machine—a bulk material store having a discharge opening is arranged as a discharge device,b) arranged in front of the bulk material store are scarifying teeth, spaced from one another in a transverse direction of the machine and vertically adjustable by drives, for loosening up an earth formation,c) behind the bulk material store, with regard to the working direction, a grading- and consolidating device is provided.
Priority Claims (1)
Number Date Country Kind
A 420/2015 Jul 2015 AT national
PCT Information
Filing Document Filing Date Country Kind
PCT/EP2016/000906 6/2/2016 WO 00