FR2481812A1 - Bifilar optical cable - has circular core with two optical fibres and two or four load bearing elements - Google Patents

Abstract

The cable comprises a core with circular cross-section (1) having on its periphery two grooves (2) forming the housing for the two optical fibres (3), two load bearing elements (4,5) symmetrically placed in relation to the axis which passes through the two grooves (2). A sheath or a taping (6) maintains the optical fibres (3) freely in their housing; the whole assembly is twisted around the axis of the cable. The fibres housings are in the shape of a rounded 'Vee' with the point coming close to the axis of the core. The cable can have two or four load bearing elements with circular cross-section or two with rectangular cross-section. The cable has a compact armoured support. The fibres can be assembled simultaneously.

Description

 The present invention relates to an optical cable: ix channels, in particular a cable comprising a circular section rod whose periphery comprises grooves forming housings, a reinforcement reinforcing the rod and optical fibers housed freely in the rod housings, as well as a sheath or tape surrounding the rod to keep the fibers in their housing without constraint.

 Various types of optical cables are already known.

 A first type of optical cables, the simplest, consists of an optical fiber freely housed in a plastic tube. The tube can itself be reinforced or protected to form a single-channel cable: it is also possible to combine several such tubes containing fibers to form a multi-channel cable.

 This type of unitary cable is suitable both as a single-channel cable and as cables intended to be combined and form a multiple cable.

To make such a cable, it suffices to use the known cable assembly machines. However, the drawback of such a multichannel cable is that each fiber is separated in a sheath, which requires assembly precautions, increases the manufacturing time and results in a very bulky cable.

 There are also cables with a grooved cylindrical structure which consist of a circular section rod provided at its periphery with several longitudinal grooves, possibly helical grooves which form housings each receiving an optical fiber. The optical fibers are free in the housing produced in the rod and the assembly is surrounded by a sheath or a tape, so as to keep the fibers in their housing.

 The operations for manufacturing such a cable are relatively conventional and it is possible to assemble several such elementary structures comprising a certain number of optical fibers to form a larger cable.

 In general, on the elementary cable, the number of fibers is between 3 and 10.

 To make a two-way optical cable, one could consider starting from the structure of a grooved cylindrical cable and using only two peripheral notches of the rod. Such a solution, although conceivable a priori, has the defect of using the support very badly and unnecessarily increasing the size and therefore the weight and the price of the cable.

 Finally, there are cables with a flat structure, as described in the FILECA patent n 78 17 683, but they are even more ill-suited to the problem, their field of application being well above 5G channels.

However, it is very often necessary to have a two-wire cable.

 The present invention proposes to create a two-way optical cable, which is of simple, balanced structure, which does not induce any mechanical stress in the optical fibers and which nevertheless is of a manufacturing cost related to the use of 'such a cable.

 To this end, the invention relates to an optical cable of the above type, characterized in that the rod comprises two housings and an armature constituted by at least two load-bearing elements situated on either side of the Y axis passing through the housings, in a cross section, the housings each receiving an optical fiber and the assembly being twisted around the axis "O" of the cable.

Thanks to the distribution of the armature in the form of at least two load-bearing elements which are no longer in the axis of the cable, it is on the one hand possible to produce relatively deep housings approaching the axis ctest ie neutral fiber of the cable without prejudice to the moment of inertia of the cable.

 As in such a cable, there is a certain symmetry or a balancing of the constituent elements at the level of the section and that, moreover, the whole is twisted it is possible to subject to such a cable the usual deformations of a cable without creating stress, tension or compression in the optical fibers.

According to an advantageous characteristic of the invention, the cable has a symmetrical section both with respect to an axis passing through the housings and through the center of the cable and through an axis perpendicular to the previous one and passing through the center of the cross section of the cable.

The supporting elements are. preferably two in number and have a circular or dry Toutbis; these load-bearing elements can also be of the number of X tre, each load-bearing element of preferably cylindrical section being located in 7 ′ of one of the quadrants formed by the two axes of symmetry.

Finally there is. conceivable ie making a cable with two load-bearing elements with rectangular rectangular section. at the plane of symmetry passing through the two notches
The present invention will be described in more detail using various embodiments shown schematically in the accompanying drawings, in which
FIG. 1 is a sectional view of a first embodiment of a two-way optical cable, according to the invention,
FIG. 2 is a sectional view of a first variant of the two-way optical cable according to the invention,
- Figure 3 shows a second variant of the two-way optical cable according to the invention.

 According to Figure 1, the cable of the invention consists of a rod (1) with circular section, axis "O" and having two longitudinal notches (2), V-shaped, the bottom is rounded. These notches (2) are intended to serve as housings, each for an optical fiber (3), placed freely in this notch. The cross-sectional area of each notch (2) is much greater than the cross-sectional area of each fiber (3) so that the optical fibers are each free to move in the housing (2).

 The rod (1) is provided with two load-bearing elements (4, 5) preferably arranged symmetrically with respect to the plane (y) of symmetry passing through the notches (2) and 11 "O" axis.

 This section also presents a second plane of symmetry (x) perpendicular to the previous one and passing through the "O" axis.

The central part of the cable constituted in particular by the rod (1) and the fibers (3) is surrounded by a ribbon sheath (6) closing the housings so as to trap the optical fibers (3) there.

 Finally, the assembly can be provided with an outer sheath (7).

 Although not shown, the assembly of the cable thus formed is twisted around its "O" axis to give it more flexibility in deformation, avoiding inducing pressure or tensile stresses as a result of an elongation. or excessive compression of the optical fibers (3).

According to Figure 2, the second embodiment of a two-way optical cable, according to the invention, differs from the first embodiment by the carrier elements (4, 4 ', 5, 5') which are among of four, these load-bearing elements being regularly distributed each in one of the quadrants delimited by the planes of stT ^ Etrin (X .. V passing through e eer. re t the rest, this cable is entiq13e to the previous one and its identical elements carry the same references.

 According to FIG. 3, the third embodiment of a two-way optical cable according to the invention differs from the first embodiment by the shape of the section of the carrying elements (4! '. 5 ") which each have a elongated rectangular section, the largest dimension of which is parallel to the plane of symmetry (y) The other elements of this embodiment being identical to those of the first embodiment, they bear the same references and their description will not be repeated.

 In general, the load-bearing elements have a section, a Young's modulus and a coefficient of linear expansion such that the coefficient of linear expansion of the rod is less than 25 times that of the silica constituting the optical fibers. The load-bearing elements can, for example, be produced in INVAR, SILICA or KEVLAR (registered trademark).

In conclusion, the present invention relates to two-way optical cables, having all the advantages of multi-way optical cables, namely
a) that the fibers are assembled simultaneously, which gives the minimum manufacturing cost,
b) that the density of fibers thus obtained is greater than those resulting from any solution resulting from the prior art,
c) that the support being compact in shape and being reinforced, the fibers are protected against external stresses and against thermal effects.

Claims (6)

RESELL ICAT T I O N S  10) Two-way optical cable, in particular compox-tz cable, a circular section rod whose periphery comprises grooves forming housings a reinforcement reinforcing the rod and optical fibers housed freely in the rod housings, as well as a sheath or a tape surrounding the rod to keep the fibers in their housing without constraint, characterized in that the rod (1) comprises two housings (2) and a frame (4, 5) constituted by at least two load-bearing elements (4. 5) located on either side of the spindle of the axis (Y) passing through the housings (2), in a straight section, the housings each receiving an optical fiber (3) and 1 set is twisted around the axis "O" of the cable .  20) Two-way optical cable according to claim 1, characterized in that the housings have a section in the shape of "V", rounded, deep, arriving in the vicinity of the axis 'tot' of the rod (1).  30) Optical cable according to claim 1, characterized in that its section is symmetrical with respect to an axis (Y) passing through the housings (2) and the section "O" axis (or a plane perpendicular to the preceding one) ).  40) Optical cable according to claim 1, characterized in that the carrier elements have a cylindrical section.  50) Optical cable according to claim 1, characterized in that it comprises four load-bearing elements (4, 5, 4 ', 5') each located in a quadrant of the section of the rod, quadrants delimited by the two axes of symmetry (Y, X). 60) Optical cable according to claim 1, characterized in that the two load-bearing elements have an elongated rectangular section (4 ", 5") whose major axis is parallel to the Y axis.