DE3243296A1 - LIGHT GUIDE - Google Patents

Description

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The invention relates to fiber optic cables for the transmission of ultraviolet (UV), visible and infrared (IR) light from the electromagnetic spectrum, the general term "light" being used for this in the following. the Light guide cables according to the invention can in particular in the Communication technology for the transmission of light in the wave range from 0.8 to 1.9 pn can be used.

The term "light guide bundle" used in the claims and in the description refers to a plurality of optical fibers or several fibers with at least one optical fiber and at least one non-optical amplifying fiber or other elongated reinforcing elements understood.

The winding opposite direction of the hole is reversed in certain Distances along the longitudinal direction of the elongated body in each case so that the optical fiber or each optical fiber and / or the light guide bundle that is in the

extending helically around the longitudinal axis of the body 25th

Bore are included, follow a helical thread, the direction of the winding at certain intervals reverses in the longitudinal direction of the body; at the same time there is a limited relative movement between the optical fiber or each optical fiber and / or the optical fiber bundle and

the elongated body possible when the cable is bent.

Preferably, each screw section is between adjacent reversal points of the winding direction of each bore 35

smaller than half a screw turn. In a preferred embodiment, each screw section is from

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0.42 to 0.5 of a screw turn, the range of 0.47 to 0.5 of a screw turn is particularly preferred.

In other embodiments, one or more screw sections one or more screw turns in each case between adjacent reversal points of the winding direction of each bore be. In this case, each such screw portion is preferably from one to three Watch convolutions.

The parts of each hole that do not have optical fiber and / or do not contain a light guide bundle, can be at least partially filled with a water-impermeable, greasy substance for example a substance that contains petroleum jelly as its main component. In at least one of the holes at least one elongated electrical conductor can be loosely inserted, which can either be uninsulated or may have a coating of insulating material. If two or more electrical conductors get loose are located in the same hole, each conductor preferably has a coating or sheathing made of insulating material.

In the extruded, elongated body made of rubber, rubber or plastic, a central, flexible reinforcing member be embedded that is made of metal, a metal alloy or non-metallic! Material can. In the former case, several wires twisted together or a single wire can be used, and im the latter case can be a bundle of carbon fibers or Fibers made of another non-metallic reinforcement material, e.g. non_optical glass fibers or Fibers made from an aromatic polyamide, which is roughly below the

Trade name "Kevlar" is marketed. 35

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In the method according to the invention for producing such Fiber optic cable ensures that the holes in the elongated body are arranged helically * whereby the screw directions are at certain intervals reverse in the longitudinal direction of the elongated body.

During the manufacture of the fiber optic cable, a water-impermeable, fatty substance are introduced into at least the bores of the elongated body, the at least an optical fiber and / or an optical fiber bundle loosely accommodate to at least partially the parts of the bores to fill that are not occupied by the optical fibers and / or light guide bundles.

The invention will be described below with reference to the drawings explained in more detail. Show it:

1 shows a cross section of an optical fiber cable according to the invention,

2 shows a schematic representation of an embodiment of the method according to the invention for producing the light guide cable according to FIGS. 1 and

J5 shows a schematic representation of a second embodiment of the method according to the invention for the production of light guide cables according to FIG. 1.

According to FIG. 1, the preferred fiber optic cable has an ex ~ truded, elongated body 1 made of plastic material with a central, flexible reinforcing wire 2 which extends along the body axis. The body

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per 1 also has separate bores J5, which extend in the longitudinal direction of the body 1 and are arranged in a substantially circumferential layer around the longitudinal axis of the body, ie this "layer" containing the bores 3 is coaxial with the body 1. In each hole 3 there are loosely two separate ones

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Optical fibers 4. Each J5 hole follows a helix around the longitudinal axis of the body 1, the winding direction of each bore at certain intervals along the The longitudinal direction of the body is reversed, with each screw section between adjacent reversal points of the winding direction in the range of 0.47 Ms 0.5 of a screw turn lies.

In the manufacturing method shown schematically in FIG becomes a reinforcement wire 2 from a supply spool

twelve
withdrawn, and optical fibers 4 are fed from supply spools 12 (only a small number of which are shown) through an extrusion plate 14 to an extruder 15. The extruder 15 extrudes an elongated body 1 made of plastic around the reinforcement wire and the optical fibers

six
with bores J which extend in the longitudinal direction of the body 1 and are arranged in a layer of the body which extends substantially in the circumferential direction around the longitudinal axis of the body. The reinforcement wire extends along the body axis and two optical fibers are loosely located in each of the bores. At the outlet of the extruder 15, the elongated body 1 passes through an extrusion die l6 which oscillates about the longitudinal axis of the elongated body in such a way that each bore j5

follows a helical line around the longitudinal axis of the body, the helical direction of each hole in a certain direction Reverses distances in the longitudinal direction of the body. After the extruder 15, the fiber optic cable thus formed runs through a cooling bath (not shown) and xvird to a recording

spool 17 wound up.

In a second preferred manufacturing method according to FIG. 3, a reinforcing wire 2 is taken from a supply reel 21 and optical fibers 4 are taken from ^two supply reels 22 (of which

only a small number are shown) drawn through an extrusion plate 24 and fed to an extruder 25.

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-δι This extruder 25 extrudes around the reinforcement wire and

the optical fibers form an elongated body 1 made of artificial hexagon
material with bores 3 * which extend essentially parallel to the longitudinal axis of the elongated body 1 and are arranged in a layer arranged essentially in the circumferential direction around the longitudinal axis of the body. The reinforcement wire extends along the axis of the body and there are two optical fibers loosely in each bore. After the outlet of the intruder 25, the elongated body 1 passes through a cooling bath (not shown) so that at least a radially outer part of the plastic of the body becomes substantially solid. After the cooling bath, the elongated body runs between rollers 26 which oscillate in such a way that the elongated body is alternately rotated first in one helical direction and then rotated in the opposite helical direction, so that the bores 3 within the body follow helical lines whose winding directions are spaced apart reverse along the length of the elongated body. After exiting the oscillating rollers 26, the elongated body 1 is wound onto a take-up reel 27.

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Claims (1)

vossius vossius Tftjj.c? Hrsfcp: p * weunemann rauh PATENT LAWYERS SlEBEfRTSTRASSE Λ ■ 8OO O MUNICH 86 ■ PHONE: (O89) 474O7S CABLE: BENZOLPATENT MÖNCHEN ■ TELEX 6-29 463 VOPAT D UZ: S 181+ HGM (He / ko)
Case: RG / 8135357 / GER BICC Public Limited Company November 23, 1982 London, UK
10 "Fiber optic cable" Claims 1 fiber optic cable with an extruded elongate body (1) of rubber, rubber or plastic, and a plurality of separate holes (3)> which extend in the longitudinal direction of the body and arranged in at least one substantially extending in the circumferential direction layer around the longitudinal axis of the body are, with at least one individual optical fiber (4) and / or at least one light guide bundle lo in at least one of the bores. ^r ; e is included, characterized in that each bore (3) is helically wound around the longitudinal axis of the elongated body (1), the winding direction of each bore reversing at certain intervals along the length of the body (1). 2. Cable according to claim 1, characterized in that each winding section between adjacent reversal points of the Winding direction of each hole is less than half a L J BATH - 2 turns of a screw. 3 Cable according to Claim 1 or 2, characterized in that that each winding section between adjacent reversal points of the winding of each bore is between 0.42 and 0.5 a screw thread. 4. Cable according to one of claims 1 to 3, characterized in that that at least one winding section between adjacent reversal points of each bore turn is greater than . is a screw turn. 5 «cable according to claim 4, characterized in that at least a screw section between adjacent reversal points of each bore turn of one to three screw turns amounts to. 6. Method for producing a fiber optic cable, in.dem a) at least one optical fiber (4) and / or at least a light guide bundle are passed in their longitudinal direction through an extruder (15,25) and by b) around the optical fiber or the Pasern and / or the Light guide bundle or the bundle an elongated body (1) made of rubber, rubber or plastic extruded which has a plurality of bores (3) which extend in the longitudinal direction of the body (1) and in at least a substantially circumferentially extending layer arranged around the longitudinal axis of the body are so that each optical fiber and / or each light guide bundle loosely enclosed in one of the bores (3) is characterized by c) that each bore (3) of the body helically around the The longitudinal axis of the body (1) is wound and d) that the winding direction of each bore is reversed at certain intervals in the longitudinal direction of the body (1). L j 324329S γ π _ 3 - 7. Method according to claim β, characterized in that the body (1) with several extends in the longitudinal direction of the body in this extending bores is extruded through an extrusion mold (16) which is about the longitudinal axis of the body (1) swings. 8. The method according to claim 6 or 7, characterized in that the body (1) extruded with a plurality of bores which extend substantially parallel to the longitudinal axis of the body (1) and that at a point (26) after the nozzle of the extruder, where at least one radially outer Section of the body (1) is relatively rigid, the body (1). periodically rotated initially in a screwing device and is then turned in the opposite screw direction. L J BATH ORIGINAL