FR2660790A1 - Profiled cable for installation in a long duct - Google Patents

Abstract

Profiled cable for installation in a long duct, especially of the telecommunications-cable type, comprising an outer jacket and inside the latter an assembly of conductor elements. According to the invention, this cable is characterised in that it includes, projecting with respect to the external surface of its outer jacket (10), at least one fin (12), preferably a helical and radial fin, which extends towards the inner wall of the duct (2), with a height less than or equal, to within a tolerance, to the distance separating the external surface of the jacket and the inner wall.

Description

 The present invention relates to a profiled cable, in particular for telecommunications, intended to be put in place in a very long pipe, buried or whose access to the interior is only possible at its ends.

 It is known that for cables the use of which is more especially intended in the field of telecommunications, in particular of the fiber optic cable type, it is necessary to arrange these in very long external protective conduits, in particular if extending over several hundred meters, accessible only from their ends, the cable being introduced by one of these and having to be pushed or pulled towards the other, unwinding regularly from a reel or a drum on which it was previously wound and stored.

 To carry out such a fitting of a cable of this kind, a pneumatic blowing technique is frequently used, which consists in advancing the cable in the pipe by pulling it therein by means of a ferret, assembled at the end of the cable and on which is exerted the pressure of an air flow introduced into the pipe through the end through which the cable enters, so as to move it towards the other end, the pipe being provided in the first of a waterproof sleeve, crossed by the cable as it advances and comprising means for connecting this pipe to a source of compressed air, of the compressor or other type.

 The pulling effect exerted on the cable by the ferret is opposed to the weight of the cable and to the friction of the latter in the pipe. Therefore, this solution is quickly limited by the maximum value of the available pressure admitted into the pipe, by air leaks at the level of the ferret, between the latter and the internal surface of the pipe and by the mechanical resistance. of the latter. Although limited by the use of lubricating products, the friction between the cable and the pipe quickly penalizes the pulling of the cable which, moreover, cannot withstand at its extremity linked to the ferret too high forces, risking deteriorate it.

 The present invention aims to overcome these drawbacks, by avoiding traction on the cable located at its end, as well as the use of a ferret whose sealing is difficult to provide over the entire length of the pipe, it does not which may not be in any point of any rigorously constant section. The ferret must therefore have an outside diameter corresponding at most to the minimum diameter of the pipe, so leave a clearance which is often too large and causes prohibitive leaks. In addition, even with an adequate ferret diameter, the risks of blockage cannot be excluded.

 To this end, the invention relates to a profiled cable which itself ensures its progressive transport along the length of the pipe under the effect of a pressure of compressed air, introduced by one end of the latter.

 For this purpose, the cable considered is characterized in that it comprises, projecting from the external surface of its external sheath, at least one fin, preferably helical and radial, which extends towards the wall internal of the pipe to a height less than or equal, apart from play, to the distance separating the external surface of the sheath and the internal wall.

 According to a preferred embodiment of the invention, the helical fin has come from manufacture with the sheath of the cable. Preferably, the sheath and the fin are produced together during a coextrusion operation.

 Depending on the case, the cable comprises a single and continuous fin or, to increase the bearing surface of the cable, several parallel fins.

 The fins formed in the outer surface of the outer sheath of the cable achieve, depending on the number and the relative dimensions of these fins, a distribution of the pressure of the compressed air introduced into the pipe by one end of the latter, maintaining the target in lift in the air flow injected into this pipe and limiting the effects due to friction against the internal wall of the latter.

 The pitch of the propeller formed by each fin can be constant or variable and depends in particular on parameters related to the cable itself, such as its stiffness, its weight or its diameter.

 Preferably, the coextrusion of the fins is carried out continuously with the sheath surrounding the cabal core, the size and the shape of these fins being compatible with the structure of the sleeve or gun for injecting compressed air into the pipe, having a central passage adapted to the profile and the section of the cable.

 The cable can have any appropriate section, in particular cylindrical or flat and includes, if necessary, undulations.

Other characteristics of a profiled cable for laying in a pipe of great length will become more apparent from the following description of several exemplary embodiments, given by way of non-limiting example, with reference to the appended drawings in which
- Figure 1 is a schematic view illustrating the establishment of a cable inside a pipe according to the conventional method where the target is pulled by means of a ferret, moving under compressed air pressure .

 - Figure 2 is a sectional view on a larger scale of a pipe portion in which is placed a profiled target according to the invention.

 - Figure 3 is a cross-sectional view of the target and the pipe according to Figure 2.

 - Figure 4 is a view on a smaller scale of the installation for the establishment of the target according to Figures 2 and 3.

 - Figures 5 to 8 illustrate in cross section the target section made in accordance with other alternative embodiments.

 - Figure 9 represents the adaptation of the installation necessary for the installation of the cable according to the variant of Figure 8.

 In Figure 1, the reference 1 designates a portion of soil in which is buried a pipe 2 extending longitudinally below the surface and in which must be set up a target 3, in particular of the telecommunications target type.

 To this end and in itself conventional, the end of the target is joined to a ferret 4 whose transverse dimension corresponds substantially to the internal diameter of the pipe 2. The latter opens at its end through which the cable is introduced. and the ferret, in an access cavity 5, this end being provided with a sleeve or injection gun 6, joined by a connecting tube 7 to a source of compressed air 8, for example a site compressor. The cable 3 is unwound from a reel 9 and penetrates in a substantially sealed manner into the sleeve 6, so that the air pressure created behind the ferret 4 causes a pushing force on the latter, driving the cable 3 along the length of the pipe 2, to the other end of the latter.

 To avoid the drawbacks already mentioned of the drive ferret solution briefly recalled above, provision is made, in accordance with the invention, for making the cable 3 by placing on the outer surface of the sheath 10 of this cabal, surrounding the conductive elements it comprises, at least one fin 12, preferably helical and which extends continuously over all or part of the length of the cable. The fin 12 preferably extends radially from the external surface of the sheath 10 and has a height such that, added to the radius of the cable, it corresponds to the clearance still necessary for its movement inside the pipe. 2, substantially at the internal diameter thereof in order to limit as much as possible the space between this fin and the internal wall of the pipe to ensure, if necessary and in the best way, the seal between these elements.

 The installation of the cable can then be carried out as shown diagrammatically in FIG. 4 with a sleeve or injection gun 6, provided with a passage forming cable guide, the profile of which corresponds to that of the fin 12, the target unwound from the drum 9 then entering the pipe 2. This cable guide (not shown) is suitably profiled and mounted on the injection gun 6 while being free to rotate in order to follow, as the cable penetrates in the pipe, the helical position of the fin 12, while the compressed air pressure created by the compressor 8 exerts on this fin a continuous thrust which causes as it enters the pipe its movement in the desired meaning.

 In the example illustrated in FIGS. 2 and 3, the sheath 10 of the cable comprises a single helical and radial fin 12. In the variants illustrated in FIGS. 5, 6 and 7, the sheath 10 comprises respectively two fins 12a and 12b, three fins 12a, 12b and 12c or even four fins 12a, 12b, 12c and 12d, regularly distributed around the periphery of the sheath 10 and parallel to each other by winding on the latter.

 In another variant, shown in Figure 8, the sheath 10 is a flat sheath1 the conductive elements 11 being parallel to each other and regularly spaced from each other in the sheath. Again, the flexibility of the sheath 10 promotes the undulation, or even the spontaneous setting of the cable in a helical position, in the air flow, the sleeve 6 having a transverse slot for the passage of the sheath and the fin . In this variant, the end of the cable can be joined to a driving head 13, advantageously provided with pads or guide members 14, bearing against the surface of the pipe 22.

 Whatever the variant of embodiment adopted, the fin (s) 12 are preferably produced with the sheath 10, by being coextruded with the latter around the conductive elements 11. The pressure of compressed air therefore makes it possible to exert on these fins a tensile force, the cable moving in the pipe being carried by the air flow, the pressure created is distributed uniformly over the entire length of the cable which is gradually put in place as and when of his advance.

 Of course, and as follows from the foregoing, it goes without saying that the invention is not limited to the examples of embodiment more particularly described and represented above; on the contrary, it embraces all its variants.

Claims (6)

 1 - Profiled cable for installation in a very long pipe, in particular of the target type for telecommunications, comprising an external sheath and inside thereof, a set of conductive elements, characterized in that it comprises , projecting from the outer surface of its outer sheath (10), at least one fin (12), preferably helical and radial, which extends towards the inner wall of the pipe (2) on a height less than or equal, to the nearest clearance, to the distance separating the external surface of the sheath and the internal wall.  2 - Cable according to claim 1, characterized in that the helical fin (12) came from manufacture with the sheath (10) of the cable.  3 - Cable according to claim 2, characterized in that the sheath (10) and the fin (12) are produced together during a coextrusion operation.  4 - Cable according to any one of claims 1 to 3, characterized in that it comprises a single and continuous fin (12) or, to increase the bearing surface of the cable, several parallel fins (12a, 12b, 12c and 12d ).  5 - Target according to claim 4, characterized in that the pitch of the propeller formed by each fin (12) is constant or variable.  6 - Cable according to any one of claims 1 to 5, characterized in that it has any suitable section, in particular cylindrical or flat and comprises, where appropriate, corrugations.