FR2931217A1 - DEVICE FOR MAINTAINING A LONGILINE BODY AGAINST THE WALL OF A PIPE - Google Patents

Abstract

The invention relates to a device and a method of maintaining against the wall of a pipe (40) of a flexible elongate body (30) not requiring the implementation of a vehicle within the pipe (40). The method comprises attaching to the elongate body (30) at regular intervals a plurality of annular holding members (10, 70) of dimensions between pi / 2 times the diameter of the pipe (40) and pi times the diameter of the pipe (40) made from an elastic material, the fixing being carried out at two diametrically opposite points (F1, F2) of the holding element (10, 70) by means of two fastening elements (20, 20 ', 71, 71') preventing translation of the holding member (10, 70) along the elongate body (30) and allowing rotation of the holding member (10, 70) relative to elongate body (30). The method comprises introducing the elongated body (30) thus equipped into the pipe (40) by forcing, at each arrival of a holding unit at the inlet of the pipe (40), the holding element (10). , 70) to push it within the pipe (40) to maintain the constraint by simply pressing against the walls of the pipe (40).

Description

Title of the invention Device for maintaining an elongate body against the wall of a pipe.

BACKGROUND OF THE INVENTION The present invention relates to the general field of devices for maintaining a long body against the wall of a pipe. Such devices are conventionally used for the installation of cables in existing pipes installed for uses other than the routing of such cables. These are, for example, wastewater drainage pipes. There are numerous systems for placing holding devices employing a vehicle circulating in the pipe to install holding elements, usually at regular intervals. Such a system is described for example in the patent application FR 2 902 484. The known devices can therefore be installed in all pipes, visitable or not, in which it is possible to circulate a vehicle. There are also various types of holding elements to be placed by an operator or robot in pipes to maintain a cable already installed or being installed. The document EP 1 298 373 proposes the introduction of rings connected together by a membrane in a sheath which will then be cut at the level of a weakening of the mechanical properties of this sheath. The use of the sheath makes it possible to pre-constrain the holding elements in order to facilitate their introduction into the pipe. However, the manufacture of all the holding elements connected by the membrane is not easy and the resulting device is expensive. However, it is not known to date systems for ensuring, with simplicity and reduced cost, the placement of holding elements in a pipe in which it is impossible or difficult to move a vehicle.

OBJECT AND SUMMARY OF THE INVENTION The main purpose of the present invention is thus to make it possible to install in a simple and inexpensive manner a plurality of elements for maintaining an elongate body in a pipe in which it is not possible to circulate a vehicle because of the diameter of the pipe, the presence of changes in the direction of the pipe, changes in diameters, or the presence of fluid.

The invention proposes for this purpose a holding device, against the wall of a pipe of a previously known diameter, of at least one flexible elongate body whose installation is done without introducing a vehicle into the pipe, the device comprising a plurality of holding units adapted to be fixed to the elongate body prior to the introduction of the elongate body into the pipe, each unit comprising: - an annular wire retention element of free diameter between 2 times the diameter of the pipe and rt times the diameter of the pipe in which the device is intended to be installed, the holding element being made from an elastic material, the elasticity of the holding element wired and the continuity of its mechanical properties ensuring that this element marries under the constraint of the pipe, the shape of the inner cavity of the said channel ion and, - two fixing elements adapted to ensure the attachment of the holding member at two diametrically opposite points of the holding member on the elongate body, this fixing preventing the translation of the holding member along the body slender and allowing rotation of the holding member relative to the elongate body. With such a device, a plurality of holding units are attached to the elongated body before it is introduced into the pipe. As these holding units are fixed so that the translation of the unit on the elongated body is blocked while it is rotatable on the elongate body, it is sufficient to pull the elongate body in the pipe. In fact, the locking in translation prevents the holding elements from moving along the elongate body when they rub along the walls of the pipe. The possibility of rotation of the elongate body relative to the holding elements allows absorption of possible torsional stresses in the elongate body and thus ensures proper positioning of the support. The dimensions provided for the holding element with respect to the pipe, as well as its geometrical and mechanical characteristics, allow it to be placed naturally against the walls of the pipeline without the need to apply any force on the pipe. the holding element or on the elongated body. The annular shape of the wire holding element, maintained by two diametrically opposite points on the elongate body, provides an elastic effect distributed optimally around the perimeter of the pipe. The fixing in two diametrically opposite points allows a very good maintenance of the elongated body in these two points with a single holding element. Note that the holding device according to the invention may be used with one or more elongate body, as soon as the fastening elements are adapted. Advantageously, the free diameter of the wire holding element is between n / 2 times the diameter of the pipe and 27t / 3 times the diameter of the pipe. This feature allows to leave the bottom of the pipe free as long as the elongated body is placed on the top of the pipe. This preserves the flow to which the pipe is intended. According to an advantageous characteristic of the invention, the fastening elements are fixing nuts embedding the holding element against the elongate body, these fixing nuts comprising means for blocking the translation of the fixing nut and the element. maintaining the elongate body and allow rotation of the holding member relative to the fixing nut and the elongate body. This embodiment fixing the fixing nut to the elongate body and allowing the rotational movement only of the holding member allows a particularly simple installation of the holding units according to the invention. In addition, the annular holding elements can then have a very simple shape. Advantageously, each fixing nut comprises means for making at least one impression in the elongate body to prevent the translation and rotation of the holding unit relative to the elongate body. Preferably, the means for making the impression comprise at least one projecting part intended to be turned towards the elongate body during the installation of the holding unit and to be driven into the elongated body during this installation.

In one embodiment, the means for making the impression comprise a plurality of pins.

The creation of a footprint in the elongate body allows to mechanically fix the fixing nut to the elongate body so that any movement relative to the elongated body is prohibited. It is found that, according to this embodiment, the rotation of the holding element in the fixing nut will necessarily be partial. Indeed, the nut, immobile with respect to the elongate body, can not allow a complete rotation of the holding member around this body. In a preferred embodiment, the fixing nut comprises notches allowing the rotational movement of the holding member relative to the fixing nut. This characteristic amounts to giving a particular shape to the fixing nut allowing the holding elements to rotate around the elongated body while remaining attached thereto. The indentations enlarge the amplitude of the allowed partial rotation.

According to another embodiment, the fastening elements are fixing nuts embedding the holding element against the elongate body, these fixing nuts comprising means for blocking the translation of the fixing nut and the holding element along the elongate body and allow the rotation of the fixing nut and the holding member around the elongate body.

This embodiment amounts to providing rotational mobility of the entire holding unit, and not only the holding member, as was the case in the first embodiment. Advantageously, each fixing nut comprises means for producing at least one groove in the elongate body for preventing the translation of the holding unit while allowing rotation of the elongate body in the fastening elements. This characteristic makes it possible locally to modify the elongate body on its circumference in such a way that the authorized movements for the holding element on the elongate body are those required by the invention.

According to an advantageous embodiment, the means for making the groove comprise at least one so-called protruding portion of tip-shaped primer or blade intended to be turned towards the elongate body during the installation of the holding unit, to be pressed into the elongated body during this installation and, by pivoting around the elongate body, to dig a groove on the periphery of the elongate body.

Once the means to achieve the groove driven into the elongated body, they are pivoted in force around the elongate body so as to dig a groove on the circumference of the elongate body. Such an implementation is simple to implement since one and the same part, in fixing mode, is used both for digging a groove, ensuring locking in translation and mobility in rotation, and for holding the holding element . The projecting part remaining in the groove after having dug it, it also assumes the role of guiding the movement by sliding in the groove during the rotational movements and by blocking the translation by contact with the lateral sides of the groove. Nevertheless, it is found that this embodiment requires, with respect to the first embodiment, an additional step of pivoting the fastener nut in force around the elongate body. According to an advantageous embodiment, each fixing nut comprises a pair of rilsan collars intended to be placed on either side of the holding element. The use of Rilsan collars allows easy placement of the fastener nut in a non-removable manner unless destroying the nut. Rilsan necklaces allowing reversibility may also be used as needed. There are of course various other alternative means to the solution presented here to ensure the tightening of the fixing nut on the elongated body. According to one embodiment, the fixing nut makes it possible to hold the holding element between the wall of the pipe and the longitudinal body. According to another embodiment, the fixing nut makes it possible to hold the holding element under the longitudinal body with respect to the wall of the pipe. These last two embodiments are two variants for maintaining the holding element, either above or below the elongated body. In the case where the holding element is held between the elongate body and the wall of the pipe, the fixing nut and the holding element must have dimensions provided so that the elongated body is not excessively remote. the wall of the pipeline. Indeed, the presence of the holding element between the elongated body and the wall of the pipe could cause the elongate body to be detached excessively from this wall. This would of course be detrimental to the compatibility of the elongated body installation with the functions of the pipeline. In particular, in the case of pipelines dedicated to the transport of fluid loaded with materials such as wastewater for example, the gap between the elongate body and the wall of the pipe could behave as a trap for said materials. Also, preferably, the holding member will be maintained under the longitudinal body. In all cases the characteristics of the fixing nuts can be modified to be able to fix a plurality of elongate bodies on each holding element. According to a particular characteristic of the invention, the fastening elements are integrated in the holding element. In an advantageous embodiment, the fastening elements consist of gripping means carried by the holding element, these gripping means comprising a crimped element on a wire constituting the holding element and carrying at least one protruding part called primer shaped tip or blade to be turned towards the elongate body during the installation of the holding unit, to be driven into the elongated body during this installation and, by pivoting around the elongated body, to dig a groove on the outskirts of the elongated body. This feature ensures that each holding member can be placed on the elongate body in the absence of any independent fixing nut. In one embodiment of the invention, the holding element consists of a wire closed on itself in a ring and crimped in a deformed metal tube, the crimping point, making a baffle, being placed at the level of the fixation with the elongated body. This particularly simple embodiment makes it possible to obtain a very good continuity of the mechanical properties of the annular holding element since it is monobloc, while allowing a particularly simple embodiment of the invention.

Preferably, the baffle is oriented relative to the plane of the holding element so that the twisting of the wire during the installation of the holding unit in the pipe allows this baffle to be pivoted to bring it into the plane. section of the elongate body and allow its rotation around it on an angular sector of the order of 180 °.

This partial rotational freedom arranged between the holding unit and the elongated body prohibits the transmission to the holding unit, parasitic forces originating from the torsion of the elongate body on itself, during installation in the pipe. This ensures, therefore, the optimal plating of the holding element against the wall of the pipe and the establishment along a long axis of the assembly in the pipe.

Also, advantageously, the baffle is formed in a plane tangential to the circle formed by the holding element and making an angle between 75 ° and 90 ° with the plane of the holding element. This feature allows an optimal plating of each holding member in the pipe for satisfactory dimensions of the annular holding member with respect to the diameter of the pipe. Also, the fasteners for holding the holding member under the longitudinal body, the dimensions of the baffle ensure that the wire holding member is nevertheless substantially pressed against the wall of the pipe once installed.

This feature ensures, thanks to the presence of the baffle, a correct plating of the holding member against the wall of the pipe. Here, advantageously, the baffle will be such that it has a depth equal to or substantially equal to the diameter of the elongate body. Note also here that the dimension of the chicane in which is placed the elongated body can be adapted to accommodate several elongated bodies. Advantageously, the wire holding element is deformed so as to make a baffle of similar dimensions to the crimping baffle at the other fixing point diametrically opposite to the closing point of the wire on itself. This characteristic ensures a symmetry of the wire holding element which then has two diametrically opposed baffles, these baffles being intended to be placed at the level of the fastening elements. When the fixing nut is made according to the first embodiment shown, its shape is adapted to allow the rotation of the baffle of the holding element in the fixing nut. In particular, the indentations are then adapted to these baffles. In a simple embodiment of the invention, the wire holding element consists of two lateral wires crimped together at two points, these two points constituting the attachment points on the elongate body.

This embodiment allows a realization of the invention particularly simple and completely symmetrical with respect to the elongated body. The annular support element obtained by virtue of the two lateral wires, crimped together at two points, allows easy manufacture of each holding element. Crimping is advantageously carried out so that the ring obtained has two symmetrical baffles diametrically opposed. These baffles may have each feature previously mentioned in the case where a single wire is used. In particular, these baffles may be adapted to the fixing nuts so as to be able to pivot in the fixing nut around the elongated body. According to a particular characteristic of the invention, the holding element has received, prior to its attachment to the elongate body, an orientation of the wire in the desired direction of its deformation. This makes it possible to prevent a deformation of the holding element contrary to that desired and, in the case where only the traction of the elongate body ensures the deformation of the holding element, a deformation which would press the elongate body onto the bottom of the the pipe instead of flattening it on top of it. Finally, the invention also relates to a method of maintaining against the wall of a pipe of a previously known diameter of a flexible elongate body not requiring the implementation of a vehicle within the pipeline, the method comprising the following steps: - take a survey of the geometry of the pipeline to locate and size changes in section and direction of the pipeline, the survey step is advantageously performed by a television inspection. - Fix at determined intervals according to a laying plane, which takes into account the singularities of the pipe identified during the inspection, a plurality of annular holding elements of dimensions between n / 2 times the diameter of the pipe and rt the diameter of the pipe made from an elastic material at two diametrically opposite points on the elongate body by means of two fastening elements adapted to ensure the fixing of the holding element at two diametrically opposite points of each retaining element on the elongate body, this fixing preventing the translation of the holding element along the elongate body and allowing a rotation of the elongate body in the fastening elements, the assembly formed by the holding element and the elements fastening device constituting a holding unit, - introducing the elongate body carrying the holding units in the pipe, - when e the introduction step, at each arrival of a holding unit at the inlet of the pipe, application of a contraction force on the holding element, the holding element then marrying, under duress of the pipeline, the shape of the inner cavity of the said pipe. This method, particularly simple to implement and excluding the use of a vehicle flowing in the pipe, allows the installation of particularly strong holding elements in any pipeline. In particular, the invention will make it possible to install elongate bodies comprising or intended to include optical fibers between a public pipe network and a domestic pipe network, regardless of the size of the domestic pipes and their geometry, in particular the presence of section reductions or changes of direction of the pipeline. In particular, the process will then comprise, at the level of a section reduction of the pipe, a step of exploiting the tensile force on the elongate body to deform the holding unit and give it naturally, thanks to its elastic properties, the shape of the pipe in which it is introduced. In this particular case, to avoid that the deformation of the holding unit is in the opposite direction to that which must bring the elongate body in the upper part of the pipe, advantageously, the holding unit has previously received a wire orientation on either side of the fixing points, generally baffles, in the desired direction of its deformation. With the invention, the rainwater or sewage pipes could be used to route the optical fibers to the residential buildings without the need for major civil engineering works or to interrupt the hydraulic use of the pipeline during laying operations. It may optionally be provided without modification of the invention to provide an outer sheath in which the holding elements may be constrained before introduction into the pipe. This outer sheath will prevent blockages at the level of subchanging protruding inside the wall of the pipe, any shifts in the joints and any other obstacles that may hinder the movement of the holding elements along the walls of the pipe. pipe. This sheath is then removed by being slid along the elongate body and holding elements which are released successively during the displacement of the sheath.

BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the present invention will emerge from the description given below, with reference to the accompanying drawings which illustrate an embodiment having no limiting character. In the figures: - Figure 1 shows a holding member according to the invention; FIG. 2 represents a particular embodiment of the invention; - Figure 3 shows a holding member installed on an elongate body; - Figures 4A to 4C show two embodiments of a fixing nut according to the invention; - Figure 5 shows a holding element installed in a pipe; - Figure 6 shows the installation of a holding member as shown in Figure 5 in a pipe; FIG. 7 represents another embodiment of a holding element according to the invention; - Figures 8A to 8C show a possible sequence for the installation of an elongate body in a pipe using a holding device according to the invention.

DETAILED DESCRIPTION OF AN EMBODIMENT FIG. 1 represents a holding element 10 according to a preferred embodiment of the invention. The holding member 10 is wire and consists of a single wire folded on itself so as to form a ring, the two ends of the wire being joined in a metal tube 11 crimped. This crimping makes it possible to hold the two ends of the wire together. These ends being indeed deformed during crimping of the tube 11, the wire can not be extracted from the tube 11.

The crimping point, denoted F1, constitutes a first point at which the holding element 10 will be fixed to the longitudinal body which will be held against the wall of a pipe. At the diametrically opposite point denoted F2, the annular wire element 10 is advantageously deformed into another baffle denoted 12 of dimensions similar to the deformation experienced at the point F1 by the wire element 10 and the tube 11. In one embodiment advantageously, on either side of the baffles 11 and 12, the wire is oriented in a plane forming with the plane tangential to the upper generatrix of the pipe an angle of a few degrees to the desired direction of the deformation of the unit of maintenance to ensure a final positioning of the elongate body on the upper generator of the pipe. This is illustrated in dashed lines in FIG. 1. It is also noted that it is possible to slide another tube 11 'of crimping along the wire 10 to the middle of the wire element 10 and to crimp this tube 11'. around the wire in the same manner as for the tube 11. Figure 2 illustrates this further embodiment of a wire holding member according to the invention. FIGS. 2A and 2B clearly show that each of the diametrically opposite points F1 and F2 have a crimped tube 11 and 11 'with a diameter of the order of 4 mm, for example. In FIG. 2A, it can be seen that the crimping is such that each baffle makes an angle of 15 ° with the plane tangential to the ring formed by the wire element 10 and perpendicular to the plane tangential to the upper generatrix of the pipe. Each baffle is thus made in a plane making an angle of 75 ° with the plane tangent to the upper generatrix of the pipe. In the embodiment proposed in FIG. 2, it should be noted that the ring could, in fact, be made from two half-rings, ie two wires of identical lengths and properties, the ends of which would be connected in the tubes 11 and 11 '.

Figure 3 shows a holding member 10 as shown in Figure 2 installed on an elongated body 30 with two fixing nuts 20 and 20 'according to a first embodiment of these fixing nuts. The holding member is not preformed. It will therefore be necessary for the operator to bend in the direction of the arrows to ensure that the elongated body 30 is held on top of the pipe.

Figures 4A and 4B show a first embodiment of a fixing nut 20 according to the invention in top view and in section. The nut 20 comprises a bridge 21, made between two indentations 26 and 26 '. The bridge 21 is the element which makes it possible to press the holding element 10 against the elongate body 30 while allowing a partial rotation of the holding element 10 around the elongated body 30. The notches 26 and 26 'allow the movement in rotation of the holding member 10 in the fixing nut 20. In fact, the positions of the baffles of the holding element 10 in the fixing nuts 20 and 20 'as shown in FIG. the holding element 10 in both directions of rotation. These rotations are allowed until one of the side arches constituting the wire holding member comes into abutment with at least one of the bridges 21 of one of the fixing nuts.

The fixing nut 20 is advantageously symmetrical on both sides of the bridge 21 and comprises two Rilsan collars 22a and 22b. Once the holding member 10 placed in contact with the longitudinal body 30, these collars are closed on the longitudinal body 30 by sliding each of the collars 22a and 22b in, respectively, a passage 27 arranged in the thickness of the nut 20 which comprises the locking device rilsans collars and whose outlets consist of orifices 23a and 24a, and 23b and 24b. The rilsan collars 22a and 22b allow a strong tightening of the fixing nut 20 around the elongate body 30. In the case where several elongate bodies must be maintained by means of a device according to the invention, it will be useful to provide Rilsan collars of adapted length. It will be useful if the width of the bridge between the indentations 26 and 26 'is increased. The strong clamping permitted by the Rilsan collars allows protruding portions 25a and 25b to sink into the elongate body 30. Only one protruding portion could be sufficient to dig an impression. Nevertheless, it is useful that at least two projecting parts are provided for multiplying the footprints that are so many points of attachment of the fastener on the elongated body. This allows a better secured fixation according to the principles of the invention of the holding member 10 on the elongate body 30.

In this first embodiment, the projections 25a and 25b are advantageously in the form of pins. The hardness of the projecting parts is adapted to allow to dig the fingerprint (s). When the rilsan collars are tightened so as to press the holding member 10 against the longitudinal body 30, the pins 25a and 25b sink into the longitudinal body. They then ensure a locking in rotation and in translation of the nut 20 on the longitudinal body resistant in particular to the longitudinal forces transmitted on the nut 20 by the friction of the holding unit 10 on the wall of the pipe.

Figure 4C shows a second embodiment of a fixing nut 200 according to the invention. This fixing nut 200 does not have indentations. On the other hand, the protruding parts are blades 250a and 250b whose director is intended to be directed perpendicular to the longitudinal body 30. The nut 200 comprises rilsan collars 220a and 220b which, when they are slid in the orifices 230 and 240 , come flatten the blades against the elongated body in which a bleed appears. The nut 200 is then pivoted around the elongate body to make a groove on the circumference of the elongate body. Once this groove is performed, the fixing nut 200 is rotatable but not in translation. In the absence of notch, the holding member is fixed to it relative to the fixing nut 200. Nevertheless, the relative movements allowed with respect to the elongated body are those provided according to the invention, namely a possibility of rotation around the elongate body and a locking in translation. Figure 5 shows an installation of a holding member 10 as shown in Figure 2 in a pipe. The inclination of the plane of the baffle with respect to the plane of the ring constituted by the wire element 10 allows the plane of the baffle to then, after installation, an angle of 90 ° with the direction of the pipe and that of the longitudinal body when the holding member 10 is stressed and placed in the pipe 40. This is particularly advantageous because it ensures a very good plating of the holding element 10 against the wall of the pipe 40 and allows at the same time the rotation of the assembly integrally formed of the elongate body 30 and the nut 20 in the baffles 11 and 11 'or 11 and 12. This optimum plating is very clearly seen in FIG. 6 where the fixing nut is not shown . The ideal is therefore to obtain an integral veneer of the elongate body 30 on the wall of the pipe 40. In reality, the thickness of the rilsan collars of the fixing nut 20 will be interposed between the pipe 40 and the longitudinal body 30. It is noted here that the dimensions provided according to the invention for the wire holding element, ie dimensions of between 7t / 2 times the diameter of the pipe and 27t / 3 times the diameter of the pipe, allow to leave free the flow in the pipe 40 on its lower part. This characteristic is particularly favorable in the case of rainwater or sewage discharge pipes to the evacuation of the materials produced by the decantation of the effluents. Advantageously, in the simplest case where the holding element is circular, the diameter of the holding element used will be a function of the pipe and will therefore be between n / 2 times the diameter of the pipe and 27t / 3 times the diameter of the pipeline. In the case of an elliptical ring, oval or other, it will be ensured that the dimension between the two points furthest away from the elongated body is between n / 2 times the diameter of the pipe and 27t / 3 times the diameter of the pipe . The dimensions provided according to the invention make it possible to have a very good plating of the holding element 10 and to ensure a very effective maintenance of the elongated body 30 against the wall of the pipe 40 because it is made at two distinct points for each element Figure 7 illustrates another embodiment of a holding member 70 according to the invention. This holding element 70, which may also consist of a single wire element or two half rings assembled together, has two baffles at the points F1 and F2 whose closure is more pronounced than the baffles shown in the embodiments. precedents. The accentuation of the closure of these baffles allows the tubes 71 and 71 'used to perform the crimping of the wire have an elasticity so that the longitudinal element is clamped in each of the tubes 71 and 71'. Advantageously, the tubes 71 and 71 'will be such that they comprise a protruding part in the hollow of each baffle to make an impression in the longitudinal body on which the holding element will be installed. Figure 8 illustrates the installation of an elongate body 30 in a pipe 40, located between two views 50 and 51 and in a pipe 41 located between the eye 51 and a residential building or office 52.

FIG. 8A illustrates a step prior to the installation of the longitudinal body 30 in the pipes 40 and 41. This preliminary step consists of a television inspection of the pipes with a small camera pushed from the street where the gaze 50 is located. Such a remote inspection makes it possible to measure the distances, to note possible irregularities of connection and to draw, in return, a rope from the eye 51. The longitudinal body 30, which may be a cable or a sheath in which will then be placed a cable or optical fibers, is then brought close to the eye 50 as shown in Figure 8B, for example in the form of a coil 31. The holding elements 10 are then gradually installed and fixed to the longitudinal body 30 Then, the body 30 is introduced and pulled into the pipe 40 by means of the rope previously drawn from the eye 51. The holding elements are contra each in turn at the entrance to the pipe 40. This constraint is, most simply, achieved by the simple forcing of the holding unit 10 in the pipe 40 under the tensile force exerted from the eye 51 or preferably manually if the mouth of the pipe 40 is accessible. As represented in FIG. 8B, the assembly constituted by the body 30 and the holding elements 10 is then slid by shifting the holding units 10 along the pipe 40. Then, or simultaneously, a drilling 43 visible on FIG. 8C is made in the pipe 41 at the level of the building 52. The pipe 41 is then also inspected with the help of a small camera as already shown in FIG. 8A and with an element allowing to hang a rope. at the orifice 43. This rope is then pulled from the orifice 43 to the eye 51 in the pipe 41.

The longitudinal body 30 previously equipped with holding units 10 adapted to the section of the pipe 41 can then be brought to the orifice 43 through the rope. This orifice is then obstructed to restore the pipe integrity. It is noted that the remote inspection can highlight brutal section reductions without transition on one of the pipes 40 or 41. It is noted incidentally that such reductions in the direction of the installation of cables or ducts in the pipes are in fact, enlargements in the direction of the evacuation of effluents by these pipes. For example, certain section reductions are made with a pipe of smaller section than a first pipe, this pipe of smaller section being fitted into this first pipe. In such reductions, the space between the two pipes is filled with a simple stuffing using for example concrete to make the connection between the two. In this case, diameter holding units adapted to each portion of pipe will be used according to the invention.

Since the invention requires that the holding elements be fixed to the elongate body before introduction into the pipe, the smaller holding units corresponding to the smaller section pipe will be either slightly stressed or not at all constrained, according to the ratio of diameters of the two pipes, in their crossings of the pipe of larger section. Since there is no manual intervention possible to constrain the small holding unit when it arrives in front of the pipe of reduced section, it must therefore deform itself by the effort of traction. This presents the risk that the holding element deforms in such a way that the elongate body is plated on the bottom of the pipe. This is of course very embarrassing and should, as much as possible be avoided. For this, at least the holding elements intended for installation in the pipe of smaller section, are slightly preformed according to a pre-orientation of the wire in the desired direction of deformation thus avoiding a reversal and a plating of the elongated body towards the low. Finally, to ensure the operation of the installation, the cable or (or) optical fiber (s) constituting the longitudinal body 30 or conveyed in the longitudinal body 30 is then connected to a housing 61 at the bottom of the column in the building 52.

At the manhole 50, the cable or the fiber 30 is connected to a distribution box 60 placed in the eye 50. The building 52 is then connected to another longitudinal distribution body 62, placed in the street, by the intermediate housing 60. Advantageously, protectors in the form of reinforced bends 31 are placed along the longitudinal body 30 to protect it at the corner returns. These elbows 31 may be, for example, made with a flexible metal sheath of stainless steel. The function of these elbows 31 is to prevent the longitudinal body from being injured in the angular passages of the pipes. The longitudinal body 30 is then moored and possibly stretched on each of the sections according to the known installation techniques. Finally, it should be noted that various implementations can be made according to the principles of the invention.

Claims (25)

REVENDICATIONS1. Device for holding, against the wall of a pipe (40) of a previously known diameter, at least one flexible elongated body (30), the installation of which is done without introducing a vehicle into the pipe (40). ), the device comprising a plurality of holding units adapted to be fixed to the elongate body (30) prior to the introduction of the elongate body (30) in the pipe (40), each unit comprising: - a wired holding element annulus (10,70) in free diameter between 7t / 2 times the diameter of the pipe (40) and rt times the diameter of the pipe (40) in which the device is intended to be installed, the holding element (10, 70) being made from an elastic material, the elasticity of the wire holding member (10, 70) and the continuity of its mechanical properties ensuring that this element (10, 70) marries under the constraint of the pipe (40), the form e of the internal cavity of said pipe (40) and, - two fixing elements (20, 20 ', 71, 71') able to fix the holding element (10, 70) at two points ( F1, F2) diametrically opposite the holding member (10, 70) on the elongated body (30), this fixing preventing the translation of the holding element (10, 70) along the elongated body (30) and allowing rotation of the holding member (10, 70) relative to the elongated body (30). 2. Holding device according to claim 1, characterized in that the free diameter of the wire holding element (10, 70) is between n / 2 times the diameter of the pipe (40) and 27t / 3 times the diameter of the pipe (40). 3. Holding device according to one of claims 1 and 2, characterized in that the fastening elements are fixing nuts (20) embedding the holding member (10) against the elongated body (30), these nuts fixing device (20) comprising means for blocking the translation of the fixing nut (20) and the holding element (10) along the elongate body (30) and allowing rotation of the holding element (10); ) relative to the fixing nut (20) and the elongated body (30). 4. Holder device according to claim 3, characterized in that each fixing nut (20) comprises means for making at least one impression in the elongate body (30) for preventing the translation and rotation of the nut. fixing (20) relative to the elongated body (30). 5. Holding device according to claim 4, characterized in that the means for making the impression comprise at least one projecting part intended to be turned towards the elongate body (30) during the installation of the holding unit and to be inserted into the elongated body (30) during this installation. 6. Holder device according to claim 4, characterized in that the means for making the impression comprise a plurality of pins (25a, 25b). 7. Holding device according to one of claims 3 to 6, characterized in that the fixing nut (20) comprises notches (26, 26 ') allowing the rotational movement of the holding element (10) by relative to the fixing nut (20). 20 8. Holder device according to one of claims 1 and 2, characterized in that the fastening elements are fixing nuts (200) embedding the holding member (10) against the elongate body (30), these nuts fastening device (200) comprising means for blocking the translation of the fastener nut (20) and the holding member (10) along the elongate body (30) and permitting rotation of the fastener (20). ) and the holding member (10) around the elongate body (30). 9. Holding device according to claim 8, characterized in that each fixing nut (200) comprises means for producing at least one groove in the elongated body (30) for preventing the translation of the holding unit. while permitting rotation of the elongated body (30) relative to the holding unit. 35 10. Holder device according to claim 9, characterized in that the means for making the groove comprise at least one protruding part called tip or blade-shaped primer (250a, 250b) intended to be turned towards the elongated body ( 30) during the installation of the holding unit, to be driven into the elongate body (30) during this installation and, by pivoting around the elongate body (30), to dig a groove on the periphery of the elongate body (30). 11. Holding device according to one of claims 3 to 10, characterized in that each fixing nut (20, 200) comprises a pair of rilsan collars (22, 220) intended to be placed on either side of the holding member (10). 12. Holding device according to one of claims 3 to 11, characterized in that the fixing nut (20, 200) keeps the holding element (10) between the wall of the pipe (40) and the longitudinal body (30). 13. Holding device according to one of claims 3 to 11, characterized in that the fixing nut (20, 200) keeps the holding member (10) under the longitudinal body (30) relative to the wall of the pipeline (40). 14. Holding device according to claim 1, characterized in that the fastening elements are integrated with the holding element (10). 15. Holding device according to claim 14, characterized in that the fastening elements are constituted by clamping means (71, 71 ') carried by the holding element (70), these clamping means (71, 71 ') comprising a crimped element on a wire constituting the holding element (70) and carrying at least one so-called tip-shaped or blade-shaped primer portion intended to be turned towards the elongate body (30) during installing the holding unit (70), to be driven into the elongated body (30) during this installation and, by pivoting about the elongate body (30), to dig a groove on the periphery of the elongate body (30). ). 16. Holding device according to one of the preceding claims, characterized in that the holding element (10) consists of a wire closed on itself in a ring and crimped in a deformed metal tube (11), the crimping point, making a baffle, being placed at the level of the attachment with the elongate body (30). 17. Holding device according to claim 16, characterized in that the baffle is oriented relative to the plane of the holding element (10) such that the twist of the wire during the installation of the holding unit in the pipe makes it possible to rotate this baffle to bring it into the section plane of the elongate body (30) and to allow its rotation around it on an angular sector of the order of 180 °. 18. Holding device according to one of claims 16 and 17, characterized in that the baffle is formed in a plane tangent to the circle formed by the holding member (10) and making an angle between 75 ° and 90 ° with the plane of the holding member (10). 19. Holding device according to one of claims 16 to 18, characterized in that the wire holding member (10) is deformed (12) so as to make a baffle of dimensions similar to the crimping baffle at the level of the other fixing point diametrically opposite the closing point of the wire on itself. 20. Holding device according to claims 7 and 19, characterized in that the notches (26, 26 ') are adapted to the baffles (11,12) of the holding elements. 21. Holding device according to claims 13 and 19, characterized in that, the fastening elements for holding the holding member (10) under the longitudinal body (30), the dimensions of the baffles at the attachment points (F1 , F2) ensure that the wire holding member (10) is nevertheless substantially pressed against the wall of the pipe (40) once installed. 22. Holding device according to one of claims 1 to 15, characterized in that the wire holding member (10) consists of two lateral son crimped together at two points, these two points constituting the attachment points (F1 , F2) on the elongate body (30). 23. Holding device according to one of the preceding claims, characterized in that the holding member (10) has received, prior to its attachment to the elongate body (30), an orientation of the wire in the desired direction of its deformation. 24. A method of maintaining against the wall of a pipe (40) of a previously known diameter of a flexible elongate body (30) not requiring the implementation of a vehicle within the pipe (40), the method comprising the following steps: - a survey of the geometry of the pipe (40) for locating and dimensioning the changes in section and direction of the pipe (40), - fix on the elongate body (30) , at intervals determined according to a laying plane, which takes into account the singularities of the pipe (40) noted during the inspection, a plurality of annular holding elements (10,70) of dimensions between n / 2 times the diameter of the pipe (40) and rt times the diameter of the pipe (40) made from an elastic material by means of two fastening elements (20, 20 ', 71, 71') able to ensure fixing the holding element (10, 70) at two points (F1, F2) diametrically opposite each holding member (10, 70) on the elongate body (30), this fixing preventing the translation of the holding member (10, 70) along the elongate body (30) and allowing a rotation the elongate body (30) with respect to the holding element (10, 70), the assembly formed by the holding element (10, 70) and the fastening elements (20, 20 ', 71, 71'). ) constituting a holding unit, - introducing the elongate body (30) carrying the holding units in the pipe (40), - during the introduction step, at each arrival of a holding unit at the entrance of the pipe (40), applying a contraction force on the holding element (10, 70), the holding element (10, 70) then conforming, under the constraint of the pipe (40), the shape of the inner cavity of said channel (40). 25. The method of claim 24, characterized in that it comprises, at a reduction of section of the pipe (40), a stepappageexploitation of the tensile force on the elongate body (30) for deforming the holding unit and give it naturally, thanks to its elastic properties, the shape of the pipe (40) in which it is introduced.