JPS62229212A - Strip transmission line having light waveguiding body - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a ribbon transmission line in which at least two light waveguides are arranged to extend parallel to each other and are held together by fixing means. (See German Patent Application No. 28 15 514) Light waveguides are frequently used, especially in communications technology, instead of conventional metal conductors.

These light wave conductors, like metal conductors made into transmission lines or cables, are combined into so-called light wave conductor cables.

The light waveguide can then be present as a solid core or as a hollow core. These can be processed here or in bundles. It is also known to combine light waveguides into a unit before further processing in the form of a ribbon transmission line.

In the known strip-shaped transmission line according to German Patent Application No. 2815'514, the light waveguides are bonded at a relatively large distance to one another with at least one strip-shaped carrier, which carrier Extends the entire length of the body. Lightwave conductor devices should be produced in this way that can be further processed in lightwave conductor cables without any difficulties. Although the band-shaped carrier certainly ensures a firm bond of the light waveguide, a structure is created which is hardly bendable transversely to the band direction. When such a ribbon transmission line is to be installed in a light waveguide cable, additional measures must be taken to ensure that no bending stresses of the ribbon transmission line occur in the transverse direction. This is achieved in the case of the cable according to the above publication by means of a molded body, in which there is a longitudinal cutout for receiving the strip-shaped transmission line with the light waveguide. It is pointed out in German Patent Application No. 281 551 how the light waveguides of these strip-shaped transmission lines can be further coupled.
I can't read it from issue 4.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a strip-shaped transmission line containing a light waveguide which is well bendable in all directions and which allows a simple coupling of the light waveguides.

According to the invention, this problem is solved in a strip transmission line of the type mentioned at the outset by simultaneously coupling all light waveguides of the strip transmission line using a splicing device or a coupling member. This problem is solved by fixing the light waveguides over the entire width of the belt-shaped transmission line with the set screen at mutually separated points that follow each other in the longitudinal direction of the belt-shaped transmission line.

In such a ribbon-shaped transmission line, the light waveguides are coupled to each other in an arbitrary manner but in a limited arrangement only at locations spaced apart in the longitudinal direction of the ribbon-shaped transmission line. Such a strip-shaped transmission line can therefore be easily bent in all directions, since the light waveguides are not coupled side by side to one another in the areas between fixing points, but can be bent individually.

Band-shaped transmission lines can nevertheless be further processed in light waveguide cables, since the light waveguides are located completely side by side in the extension of the band-shaped transmission lines.

It is sometimes not necessary to protect the bends inside the lightwave conductor cable. Despite the good flexibility of the ribbon transmission line, however, at the same time a simple possibility for coupling the light waveguides of the ribbon transmission line is ensured. This is because the light waveguide is located side by side with the screen set at a fixed location. These light waveguides can thereby be simultaneously and automatically combined with light waveguides of other identically constructed ribbon transmission lines in a splicing device. However, it is also possible at the same time to connect to all light waveguides, for example, coupling elements which further bend the device.

Another advantage of this strip-shaped transmission line is that because of the optional material for fixing the light waveguide, different temperature coefficients for the glass fibers of the light waveguide have little effect on its attenuation state.

Next, the present invention will be explained in detail based on the drawings.

FIG. 1 shows a part of a belt-shaped transmission line 1, in which a large number of optical waveguides 2 are arranged so as to extend parallel to each other. In the illustrated embodiment, eight light waveguides 2 are provided. The light waveguide 2 is not fixed over its entire length at the joints of the belt-shaped transmission line l, but only at relatively short points 3.

The axial length of this point 3 is in the ratio approximately 1=10 to the distance denoted A between two such points 3.

The manner in which these light waveguides 2 are fixed at the locations 3 is arbitrary. These may be pasted or welded together. However, these light waveguides can also be glued or welded independently of one another onto a common carrier. Particularly in the last-mentioned embodiment, it is particularly advantageous to use ultrasound for the welding. The common carrier can have a width corresponding to the width of the fixing point 3.

However, in principle it is also possible to use a strip-shaped carrier which extends over the entire length of the strip-shaped transmission line l, on which the light waveguide 2 is fixed, however, only at the point 3.

FIG. 2 shows a cross section through a ribbon transmission line 1, in which light waveguides 2 are firmly connected to one another via their casings. This girdle is provided at each point 3 of the strip-shaped transmission line 1 over its entire width, the light waveguides 2 being located side by side in a fixed, defined screen. The center distance M between each two light waveguides 2 is particularly preferably the same over the entire width of the ribbon transmission line l, so that in the case of eight light waveguides the center distance M of the two outer light waveguides 2 The distance is 7X from each other
It is M. Basically, especially when the number of light waveguides 2 is large, two light waveguides [[
The distance of 11 can be increased. Therefore, the light waveguide 2
are divided into two groups.

When the ribbon transmission line is cut in the area of the fixing point 3, it is ensured in both cases that all light waveguides 2 of the ribbon transmission line 1 are connected in a fixed manner, for example in a splicing device.

However, it is also possible for provided coupling elements to be connected to all light waveguides 2 at the same time.

The same aspects apply to the variants of the strip-shaped transmission line l according to FIGS. 3 to 5. According to FIG. 3, the light waveguides 2 are fixed on a common carrier 4. In FIG. In these embodiments, the light waveguides 2 are not attached to each other, but only to the carrier.

This carrier 4 can be made of a strip 5 made of a suitable plastic according to the description in FIG. However, other materials can also be used for the stripes 5. The stripe 5 extends transversely to the longitudinal direction of the light waveguide 2 over the entire width of the strip-shaped transmission line 1 . For simplicity, only three light waveguides 2 are shown in FIG.

The carrier 4 can be formed as a strip 6 extending over the entire length of the strip transmission line l. Corresponding to FIG. 7, the light waveguides 2, here again only three of which are shown, are once again firmly connected to the strip 6 at points 3, whereas the light waveguides 2 are again firmly connected to the strip 6 at points 3; light waveguide 2 in the range
There is no adhesion between the belt 6 and the belt 6.

According to FIG. 4, the light waveguide 2 can also be fixed at the point 3 by a surrounding band 7, which is pasted or welded to the light waveguide 2. light waveguide 2
Another possibility for fixing is, as can be seen in FIG. 5, that a coating 8 is sprayed onto the location 3 with a special tool.

As already mentioned, the described belt-shaped transmission line 1 covers all the light waveguides 2 within the range where the light waveguides 2 are fixed within the screen.
It has the advantage that both can be combined at the same time. Due to the above-described structure, the ribbon transmission line I remains entirely but also well flexible, so that the ribbon transmission line I can be processed into a light waveguide cable without any problems. The ribbon transmission line can in particular be bent in all directions. This also applies to the embodiment according to FIG. 7, where the strip 6 can be considered merely as an additional protection of the light waveguide 2 against mechanical damage. In particular, it is desirable that such a band 6 be formed to be strong against tension.
They don't even pay attention to the tensile stress. In this embodiment, there is a possibility that the belt-shaped transmission line l is wound up and processed into a light waveguide cable. By "winding" is meant in this case the process of winding the ribbon transmission line l around the longitudinal axis with long strokes.

[Brief explanation of drawings]

FIG. 1 schematically shows a plan view of a strip-shaped transmission line according to the invention, and FIGS. 2 to 5 show enlarged versions of various embodiments for fixing light waveguides, 6th
7 and 7 show two different embodiments of the strip-shaped transmission line, also enlarged with respect to FIG. 1. Reference numbers in the figure 1... Band-shaped transmission line, 2... Light wave guide, 3... Pasting or welding location, 4... Carrier, 5... Stripe, 6.7... Band 8... Covering,

Claims (6)

[Claims] (1) In a band-shaped transmission line in which at least two light waveguides are arranged to extend parallel to each other and are held together by fixing means, the band-shaped transmission line (1) is Any light waveguide (2)
In order to simultaneously couple the light waveguides (2
) are fixed at mutually separated locations (3) successively following each other in the longitudinal direction of the belt-shaped transmission line (1). (2) A belt-shaped transmission line according to claim 1, characterized in that the light waveguides (2) are directly coupled to each other via their coverings. (3) Band-shaped transmission according to claim 1, characterized in that the light waveguides (2) are each rigidly connected to a band-shaped strip (5) extending transversely to its longitudinal direction. line. (4) The light waveguides (2) are rigidly coupled to strips (6) spaced apart from one another and extending over the entire length of the strip transmission line (1). The band-shaped transmission line described in Section. (5) The light waveguide (2) is fixed by surrounding bands (7), and these bands (7) are the light waveguide (2).
The belt-shaped transmission line according to claim 1, wherein the belt-shaped transmission line is pasted or welded to. (6) A belt-shaped transmission line according to claim 1, characterized in that the light waveguide (2) is fixed by a sprayed coating (8).