DE2430857A1 - OPTICAL CONDUCTOR - Google Patents

Description

PATENTANWÄLTE D 59 Siegen

DIPL-ING. ERICH SCHUBERT Marburger Tor2 - PO Box

DIPL.-ING. ROLF PÜRCKHAUER ^{Telephone: (0271} > ⁵⁴⁰⁷⁰

Telegram address: Patschub, Siegen

74-055 Kü / G June 25, 1974

British Insulated Callender's Cables Limited, 21 Bloomsbury

Street, London-W. G. 1., England

For this application the priority is taken from the "British." Claimed patent application No. 30856/73 dated June 28, 1973.

Optical guide body

The invention relates to optical guides or Guide body for the transmission of the ultraviolet, visible and infrared areas of the electromagnetic spectrum, for the sake of simplicity, these areas are summarized below under the general term "light", and particularly, but not exclusively, relates to optical waveguides for use in communications, and although for the transmission of light with a wavelength in the range from 0.8 to 1.1 micrometers.

For the purpose of transmitting light in an optical transmission system, it has been proposed to use optical To use guide bodies that contain one or more optical fibers. Each optical fiber usually has one substantially round cross-section, but in some cases it can also be of non-circular cross-section.

409883/1089

Optical guide bodies to which the invention relates include guide bodies or guides that contain one or more optical fibers made of a glass or another transparent Contain material whose index of refraction is set up so that it increases over at least part of the radius of the fiber Distance from the fiber axis decreases, and further include Conductor, which is one or more optical fibers composed of Contain form, which have a core made of transparant material, which over the entire length with another transparent Material is coated with a lower refractive index, which by total internal reflection of the light which is transmitted along the fiber or fibers, at least one holds predominant part of the light within the core. A composite optical fiber is common, but not absolutely, made from two types of glass with different refractive indices, whereby the glass forming the core is one has a higher refractive index than the glass forming the cladding. In another embodiment of composite Optical fiber, the core can consist of a transparent liquid that has a higher refractive index than those of the sheath.

The invention is based on the object of creating an optical guide body which, due to its construction, the Stress that would otherwise affect the optical fibers of the guide body were imposed when the guide body is claimed in such a way would become that each or any of the optical fibers would tend to be subjected to a tensile force, at least significantly reduced.

According to the invention, an optical Leitkorper is therefore with one or more optical fibers, characterized in that a compressible material of the. optical fiber or the

409883/1089

optical fibers is assigned so that when the guide body is stressed in such a way that the optical fiber or one or more of the optical fibers is subjected to a tensile force, the optical fiber or fibers extending transversely to the guide body can move to compress the compressible material and thereby reducing the mechanical stress that would otherwise be placed on the fiber or fibers.

When the guide body contains a plurality of optical fibers, the compressible material can be in the form of at least a separate elongated component made of the material, which absorbs a transverse movement of the optical fibers, when the guide body is stressed in such a way that one or more optical fibers are subjected to a tensile force will or will. In 'a preferred embodiment of the optical guide body of this type, the optical fibers of the Guide body stranded around a central core component or around brought these around together in other ways, at least of that an outer peripheral layer is made of compressible material, such that when the optical fibers are subjected to a tensile force some or all of the optical fibers are subjected to crosswise move inward to remove the compressible material of the to compress the central component. In an alternative embodiment of the guide body of this type are a large number of optical fibers and a large number of elongated components composed of compressible material with the elongated components interspersed under the optical fibers are so that when the guide body is subjected to a tensile force is, some or all of the optical fibers extend in the transverse direction move to compress the elongated components interspersed between them.

: Rather than having the compressible material take the form of at least one separate elongate member of the material

40388 371069

has some or all of the optical fibers of the optical Guide embedded or partially embedded in a body of compressible material, such that a substantial relative longitudinal movement between embedded fibers is prevented. As a further alternative embodiment of a Optical guide can be any optical fiber or two or more optical fibers with a coating layer or a cladding made of compressible material.

One or more than one non-optical reinforcing fiber or other reinforcing elongate element may be the optical fibers are assigned.

The optical guide body can have the form of an optical cable, which contains at least two optical bundles, as explained below, further comprises a compressible material associated with the bundles and around the bundles and around the compressible Material around an outer protective jacket, the compressible material so associated with the optical bundles is that when the cable is stressed in such a way that one or more of the optical fibers is subjected to a tensile force the optical bundles can move across the cable to "compress the compressible material" and thereby reducing the mechanical stress that would otherwise be imposed on the optical fibers and the optical bundles.

Using the term "optical bundle" as used in this description is meant a group of optical fibers or a group of fibers comprising one or more optical fibers and one or more non-optical fibers or other reinforcing elongate elements.

In one embodiment of optical cable, the optical bundle stranded around a central elongate component or brought together in some other way, from the

409883/1069

At least one outer TJm catch layer made of compressible material Material. In another embodiment of optical Cables are the optical bundle and two or more elongated components made of compressible material, being brought together the elongated components are interspersed under the optical bundle. Alternatively or additionally, a cover layer can be made of compressible material can be provided between the optical bundles and the surrounding protective jacket.

The strands of some or all of the bundles can be embedded or partially embedded in a body of compressible material or each of some or all of the optical bundles of the cable may be at least one separate elongate one Contains component made of compressible material. Each of the bundles may be compressible from a cover sheet or jacket Be surrounded by material.

The optical cable can also be one or more than one contain separate elongated reinforcing component that are combined with the optical bundles and removed from the protective jacket are surrounded.

When the compressible material of an optical guide body in the form of at least one separate elongated component exists and it is desirable to have a limited relative Longitudinal movement between the optical fibers and the elongate component or components, or in the case of one To provide optical cable between the optical bundles and the elongated component (s), spaces of the Guide body or cable with a paste-like medium, e.g. Vaseline, essentially be filled.

The compressible material of the elongate body or bodies can be made of any material

4OSSS3 / 106 9

consist that is compressed when the optical fibers or optical bundles move across the optical guide body or cable, but preferably comprises foam plastic or foam rubber.

¥ ¥ if it is desired) a certain relative sliding movement To allow between the optical fibers and the compressible material, an appropriate lubricant can be incorporated into the compressible Material to be introduced, or the compressible Material can be impregnated or coated with a grease or other suitable material.

When an optical fiber, two or more optical fibers, or an optical bundle with an overcoat layer or a Sheath is made of compressible material or and the compressible material is a foamed polymeric material, then the coating layer can be applied to the fiber or group of fibers are applied by the method of making foamed polymeric material, which in the British Patent 1,315,661.

Embodiments of six optical guide bodies, each in the form of an optical cable, are now based on FIG Described schematic drawings showing cross sections through six cables on an enlarged scale.

The optical cable shown in Fig. 1 has an amplifying one Core 1 made of steel, which has a diameter of 1.0 mm, also a layer 2 made of foamed polyethylene with a radial thickness of 0.5 mm, which surrounds the core 1, furthermore a stranded layer of optical fibers 3 »each with a diameter of 0.14 mm, as well as an outer protective jacket · 5 extruded polyethylene. The cable has a total diameter of 4.5 mm.

409883/1069

■: ■■■ ν ■■■. "" "■ ■ '.' ■ ... ' - 7 -

The optical cable of Fig. 2 has a reinforcement core

11 made of steel with a diameter of 1.0 mm, one layer

12 made of foamed polyethylene with a radial thickness of 0.5 mm surrounding the core 11, a stranded layer with a Plurality of optical fibers 13 and a plurality of elongated Components14 · made of plastic, whereby the optical fibers each have a diameter of 0.14 mm and the elongated Components each have a diameter of 0.14 mm, as well as one outer protective sheath 15 made of extruded polyethylene. The cable has a total diameter of 4.5 mm.

Fig. 3 shows an optical cable in which optical fibers 23y each with a diameter of 0.14 mm, as well as one Sheath 24 ^ made of foamed polyethylene with a radial Thickness of 0.14 mm around a reinforcing core 21 made of steel with a diameter of 1.0 mm. The cable has one outer protective sheath 25 made of polyethylene, the total diameter if the cable is 4.8 mm.

With each of the optical cables according to FIGS. 1 to 3 can the spaces between the optical cables and, if any, the elongated components made of plastic with waterproof Vaseline must be filled along the entire length of the cable.

The fourth embodiment of optical cable shown in FIG 4, has a reinforcing core 31 Steel 1.0mm in diameter, a variety of optical fibers 33 each with a diameter of 0.14 mm, one outer protective jacket 35 made of extruded polyethylene and foamed polyethylene 34, which clears the spaces between the optical fibers, between them and the core and between the optical fibers and the cladding over the whole Length of cable fills. The cable has a total diameter of 3.8 mm.

'"■■' ■. 409883 / Ί063

In the case of the optical cable according to FIG. 5, there are optical bundles 46 each with a total diameter of 3) 3 mm and with a "multiplicity" of optical fibers 4-3 and non-optical reinforcement fibers 42 stranded around a core 41 made of foamed polyethylene. A layer 44 of foamed polyethylene surrounds the stranded layer of optical bundles 46 and is itself of one outer protective jacket 45 made of polyethylene. The cable has a total diameter of 14.0 mm.

Execution form
The sixth / of optical cable of FIG. 6 has a

Reinforcement core 51 made of steel with a diameter of 0.75 mm, a stranded layer of optical bundles 56 and an outer protective jacket 55 made of extruded polyethylene. Each optical bundle 56 comprises a plurality of optical fibers 53, each with a diameter of 0.14 mm, which are surrounded by a layer 54 of foamed polyethylene. The cable has a total diameter of 14.0 mm.

With each of the in FIGS. 5 and 6 shown optical Cables can use the spaces within the optical bundles and / or the spaces between the optical bundles water-impermeable petroleum jelly must be filled over the entire length of the cable. ·

The optical guide member according to the invention has the substantial advantage that when bending of the same during manufacture and installation ^s "of the guide body to such an extent that there is a tendency that each or any of the optical fibers are subjected to a tensile force, then the risk that breakage of the optical fibers can occur is substantially reduced.

The provision of compressible material in the optical guide body according to the invention has the additional advantage that it absorbs at least a certain part of the transverse forces,

409883/1089

which the guide body can be exposed, so that thereby a some degree of protection for the optical fibers against damage from this cause is given.

Patent claims

409883/1069

Claims (20)

74 055 Ku / G 25. JUN11974 patent claims 1. Optical guide body with one or more optical fibers (3.13 »23» 35.4-3.53), characterized in that compressible Material of the optical fiber or the optical fibers is assigned so that when the guide body is stressed in such that the optical fiber or one or more optical fibers are subjected to a tensile force, the optical Fiber or fibers can move across the guide body to compress the compressed material and thereby to reduce the mechanical stress that would otherwise be placed on the fiber or fibers. 2. Guide body according to claim 1 with a plurality of optical fibers (13), characterized in that the compressible Material is in the form of at least one separate elongate member (14) of compressible material. 3. Guide body according to claim 2, characterized in that a plurality of optical fibers (13) and a plurality of elongated components (14) made of compressible material are combined, the elongated components under the optical fibers are interspersed. 4. Guide body according to claim 1, characterized in that a plurality of optical fibers (3 »$ 3) around a central core component (1,11) are stranded or otherwise combined, of which at least one outer circumferential layer (2,12) of compressible Material. 409883/1069 5 · guide body according to one or more of claims 1 to 4, characterized in that the optical fiber or each optical Fiber with a coating layer (24) of compressible material is provided 6. Guide body according to claim 1, characterized in that some or all of the optical fibers in a body (34) of compressible material Material embedded or partially embedded such that there is substantial relative longitudinal movement between embedded pasers is prevented. 7. guide body according to one or more of claims 1 to 6, characterized in that one or more non-optical amplifying fibers or other reinforcing elongate elements (1,11,21,31) associated with the optical fiber or the optical fibers is or · are. 8. Guide body according to one or more of claims 1 to 5 » characterized in that the interstices of the guide body with a paste-like medium over the entire length of the guide body are essentially filled. 9. Guide body according to claim 1, characterized in that it has at least two optical bundles (46,56) of which each a group of fibers including at least one optical Fiber, compressible material (41,44,54) associated with the bundles, and one of the bundles and compressible material has surrounding outer protective jacket (45,55). 10. LeitkÖrper according to claim 9 »characterized in that the optical bundles are stranded or otherwise brought together around a central elongate component (41), of which at least one outer peripheral layer of compressible material consists. 11. Guide body according to claim 9 »characterized in that the optical bundles and two or more elongated components 4Q9383 / 10-6Ü made of compressible material, with the elongated components interspersed under the optical bundle are. 12. Guide body according to claim 10 or 11, characterized in that that a cover layer (44) of compressible material between the optical bundles and the surrounding protective jacket is provided. 13. Guide body according to one or more of claims 9 to 12, characterized in that each yon some or all of the optical Bundle contains or contain at least one separate elongate component of compressible material. 14. Guide body according to one or more of claims 9 to 13, characterized in that each of some or all the bundle is surrounded by a cover sheet (54) of compressible material. 15 · guide body according to one or more of claims 9 to 14, characterized in that one or more elongated reinforcement components are combined with the optical bundles and is or are surrounded by the protective jacket. l6. Guide body according to one or more of Claims 9 to 12, characterized in that the lines of some or all Bundles embedded or partially embedded in compressible material are embedded. 17 «guide body according to one or more of claims 9 to 15, characterized in that the spaces within some or all optical bundles and / or between the bundles with a paste-like medium over the entire length of the guide body are essentially filled 409883/106 » 18. Guide body according to one or more of claims 1 to 17 »characterized in that the compressible material consists of foamed plastic or foam rubber. 19 · Guide body according to one or more of Claims 1 to 18, characterized in that the compressible material contains a lubricant in an amount sufficient to maintain a allow some relative sliding movement between optical fibers and the compressible material}. 20. Guide body according to one or more of claims 1 to 18, characterized in that the compressible material is impregnated with a grease or other material or is coated, which has some relative sliding movement between allows optical fibers and the compressible material. 409883/1069