The present invention relates to a drilling tool able to drill a passage around a cable or any other buried longilinear element, being guided by said cable or buried longilinear element, said tool pulling a tube behind it.
For more than a hundred years many power or telecommunication cables or other piping have been laid in the ground. Many of them are now entirely outdated from a technological standpoint or are of insufficient capacity; they should thus be replaced. Furthermore, it may be of interest to retrieve a cable which has become useless, for recuperating the copper of the conductors as well as for leaving space in the more and more encumbered subsoil.
The simplest recuperation method would consist in digging a trench over the cable to be removed. This method, expensive in itself due to civil engineering costs is highly inappropriate for work in urban areas or when the buried cable is laid next to other cables or pipes or when it crosses a pavement or a railway track.
In order to make it possible to remove a cable in such areas, various tools have been proposed. Patent No. FR 2.851.317 describes a system whereby a hoist pulls on the cable to be replaced, the end of which is connected to the new cable which is thus pulled in replacement of the old cable. Such a device requires a high power hoist the method being difficult to apply when the diameter of the replacement cable is more important than that of the cable to replace. Patent No. FR 2.492.178 describes a tool able to move along a buried cable being activated by hydraulic means, said tool providing a space around the buried cable such as to be able to remove it easily later. A new cable may then be laid in the fitted space. Document FR 2.523.170 describes an impact head able to pull a new cable.
None of the cited documents mentions a tool able to move along a cable laid in the ground and to pull a tube behind it, such as to then be able to easily remove the existent cable then lay the new cable.
To this end, the invention proposes a drilling tool for laying a tube around a buried elongated element, comprising a drilling head guided by the buried element, moving under the action of a pressurized fluid, from a first free end of the buried element towards a second end of the buried element, and pulling the tube, characterized in that the drilling tool comprises pressurization means attached to the first end of the buried element, able to slide into the tube pulled by the drilling head and able to create a pushing force on the drilling head by the pressurization with said pressurized fluid of a pressure chamber arranged between the drilling head and the pressurization means. Alternative embodiments are described in the dependent claims. The invention improves the laying of the tube around the elongated element by the creation of an additional pushing force with the pressurization of the pressure chamber.
Advantageously, the drilling head is directly fed with pressurized fluid by the pressure chamber. The present invention provides an economic tool, as the drilling head is directly fed with pressurized fluid by the pressure chamber: there are no feeding pipes which follow the drilling head during the widening of the ground around the buried cable or duct. The efficiency of the tool is also increased as there is no friction of such feeding pipes between the installed tube and the buried element.
A particular embodiment of a drilling tool according to the invention is more precisely stated in the following description, which is to be considered in connection with the accompanying drawing comprising the figures wherein:
When the pressure chamber 42 is supplied with pressurized air by the piping 40 and through the cap 4, the latter being sealed, the air pressure rapidly increases within the chamber 42. The latter may be separated into two chambers 420 and 421 by a safety disk 5, not entirely sealed, the pressure in the two chambers 420 and 421 being equal in normal operating regime.
When the chamber 421 is put under pressure, a pushing force is exerted to the front against the rear side 20 of the drilling head. This pushing force being equal to the pressure in the chamber 421 multiplied by the section of the crown whereof the external diameter corresponds to the internal diameter of the tube 3 whereas its internal diameter corresponds to the external diameter of the cable 1. This continuous pushing force may reach values of several hundreds of daN, facilitating the progression of the drilling head 2 along the cable 1.
The drilling head 2 represented on
The new characteristic of this drilling head 2 is found at the rear of it, where the end of the tube 3 can be seen fixed firmly to a fixing portion 220 of the body 22. This fixing portion comprises a notching or any other means making it possible to ensure a firm hold of the tube 3. A pipe clamp 221 comes to tightly encircle the end of the tube 3 by the outside in order to ensure its hold against the fixing portion 220. A seal, for example an O-ring seal 222 comes to ensure the tightness between the tube 3 and the body 22, thus creating the pressurizing chamber 421, thus enabling a continuous additional push such as described previously coming to be added to the penetration force by percussion described above.
When the drilling head 2 has advanced by a few dozen meters along the cable 1, the pressurized air in the chamber represents a very high power. In the case where the attachment means 43, 15 break between the cable 1 and the cap 4, the latter would thus be hurled along the rear end of the tube 3 such a cannonball. The staff at work in the excavation 12 may thus be subjected to severe harm.
In case of rupture of the attachment means 43, 15 between the cap 4 and the cable 1, the cylindrical portion 430 is not retained anymore by the cable 1, the air pressure in the chamber 42 may thus push to the right of the fig., via apertures 431, a tapered cone crown 432 fixed to said cylindrical portion 430. By this axial movement, two brake linings 433, able to be moved radially, are pushed outwards by their tapered contact surfaces and come to brake then block the cap 4 against the internal surface of the tube 3. Simultaneously, the pressurized air supply apertures 402 of the chamber 42 close up by sliding the tubular portion 430, thus cutting the pressurized air supply of this chamber.
The cap 4 thus substantially serves to create the pressure chamber 42, this cap 4 being provided with safety means described to prevent any accidents if its attachment means happen to break.
An additional means may still be provided in order to prevent the consequences of a malfunctioning of the device. This means is constituted of a safety disk, represented in 5 on
The device may be completed with a fixing disk represented in 6 on
The above mentioned specification describes a preferred embodiment of a drilling tool according to the invention; it is obvious that various constructive alternatives of one or the other of the described elements may be considered.
Particularly, the tool has been described to operate with pressurized air, an equivalent tool may also operate with a liquid, for example pressurized water, the skilled person being able to adapt the described elements to such functioning.
The tool according to the invention has been described as adaptable to the retraction of a cable 1; it is obvious that it may easily adapt itself to the retraction of a piping or any other longilinear or elongated element of circular section.
Number | Date | Country | Kind |
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01289/11 | Aug 2011 | CH | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2012/064869 | 7/30/2012 | WO | 00 | 4/29/2014 |