KR19990026095A - 8 type fiber optic cable - Google Patents

Abstract

The present invention relates to an optical fiber cable, and to provide an eight-fiber optical fiber cable capable of realizing multiplexing and high tensile force of an optical fiber. The eight-fiber optical fiber cable is located in the center of the cable and the center tension line for protecting the cable from the external tension force, and fixedly installed along the circumferential surface of the center tension line, at least one tube is inserted into which the optical fiber is mounted A jacket having one or more slots, a plurality of loose tubes positioned along the circumferential surface of the jacket and mounting the one or more optical fibers, and surrounding the outer circumferential surface of the plurality of loose tubes from the external environment. It consists of an outer covering to protect the loose tubes.

Description

8 type fiber optic cable.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical fiber cable, and more particularly, to an eight-fiber optical fiber cable capable of realizing multiplexing and high tensile force of an optical fiber mounted on an eight-fiber optical fiber cable.

Typically, the type of optical fiber cable is a loose tube cable, a ribbon cable, an optical fiber composite fiber wire and an eight-shaped optical fiber cable. Among them, the ribbon cable is used for the deepening of the optical fiber, and the eight-fiber optical fiber cable is applied to the cable that requires strong tensile force. In the case of these two types of processing cables, a loose tube type is mainly used.

Thus, as shown in FIG. 1, the eight-fiber optical fiber cable performing the above function is composed of an optical cable 18 for mounting at least one optical fiber and a support cable 10 for supporting and fixing the optical cable 18. In this case, the support cable 10 and the optical cable 18 are connected to each other by a web (Web) 16. The center of the optical cable 18 is provided with a central tension line 36 that serves as a center line to aggregate one or more optical fibers. The inner covering material 38 is wound around the circumferential surface of the central tension line 36. Around the inner cladding 38, a plurality of loose tubes 28 on which one or more optical fibers 32 are mounted are twisted and wound together. At this time, the inside of the loose tube 28 is filled with jelly 30 to prevent damage to the optical fiber 32 due to moisture penetration. In addition, the gap between the loose tube 28 and the space between the loose tube 28 and the central tension line 16 is filled with a filler 26 such as jelly to prevent moisture from penetrating from the outside. The waterproof tape 24 is wound around the peripheral surface of the loose tube 28, and the aluminum tape 22 is wound around the peripheral surface of the waterproof tape 24. Finally, an outer covering 20 is coated on the circumferential surface of the aluminum tape 22 to protect various components mounted in the cable.

The support cable 10 is composed of a plurality of steel wires 14 and an outer covering 12. In this case, the steel wire 14 is installed while being twisted with respect to the central axis in order to prevent the optical cable 18 is struck, the outer covering 12 is coated on the circumferential surface of the steel wire 14.

However, when the eight-fiber optical fiber cable configured as described above is equipped with a multi-core optical fiber, not only the outer diameter of the cable increases, but also the cost of the cable increases, and only 144 optical fibers are mounted on the cable. In the case of simply inserting the optical fiber along the circumferential surface of the center tensile line, the disconnection of the optical fiber is quite frequent along with the difficulty of fixation. In addition, when connecting the long distance when the cable is installed, multi-core is required, but in order to realize the multi-core, it is necessary to install a cable of several cores because of the problems described above, and the information network can be distributed to a remote station. There was no problem.

Accordingly, an object of the present invention is to provide an eight-fiber optical fiber cable that can mount a multi-core optical fiber inside the cable.

Another object of the present invention is to provide an eight-fiber optical fiber cable that can improve the tensile force of the cable.

Still another object of the present invention is to provide an eight-fiber optical fiber cable capable of mounting a multi-core optical fiber while maintaining a conventional cable outer diameter.

In order to achieve the above object, the eight-fiber optical fiber cable of the present invention is located at the center of the cable and is fixed along the circumferential surface of the center tension line and the center tension line for protecting the cable from external tension A jacket having at least one slot into which a tube on which at least one optical fiber is mounted is inserted, a plurality of loose tubes positioned along a circumferential surface of the jacket and mounting the at least one optical fiber, and the plurality of loose tubes And an outer sheath covering the outer circumferential surface of the field and protecting the loose tubes from the outside environment.

1 is a schematic diagram showing the configuration of an eight-fiber optical fiber cable according to the prior art;

Figure 2 is a schematic diagram showing the configuration of an eight-fiber optical fiber cable according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

50: optical cable 52: film

54: waterproof tape 56: jacket

58: slot 62: center tensile

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components, even if displayed on different drawings. In the following description of the present invention, detailed descriptions of related well-known functions or constructions may obscure the gist of the present invention.

Figure 2 is a schematic diagram showing the configuration of an eight-fiber optical fiber cable according to an embodiment of the present invention.

As shown in FIG. 2, the structure of an eight-fiber optical fiber cable according to an embodiment of the present invention includes an optical cable 50 for mounting one or more optical fibers and a support cable 10 for supporting and fixing the optical cable 50. In this case, the support cable 10 and the optical cable 50 are connected to each other by a web (Web) 16. In addition, the support cable 10 is composed of a plurality of steel wire 14 and the outer covering 12. Here, the steel wire 14 is installed while being twisted with respect to the central axis in order to prevent the optical cable 50 is struck, the outer covering 12 is coated on the peripheral surface of the steel wire 14.

In addition, a center tensile line 62 is inserted into the center of the optical cable 50. The central tensile force 62 serves as a center line to aggregate one or more optical fibers, and protects the optical cable 50 from external tension. A jacket 56 having a plurality of slots 58 is fixedly installed on the circumferential surface of the central tensile line 62. In other words, the tube 58 is inserted into the slot 58, the tube 60 is mounted with one or more optical fibers 32, is formed in four places symmetrically with respect to the center tension line 62. In addition, the jacket 56 is formed of polyethylene material and is coated and fixed along the circumferential surface of the central tensile line 62. At this time, the tube 60 is inserted and the remaining space of the slot 58 may be filled with jelly to prevent moisture penetration. The outer peripheral surface of the jacket 56 is wound with a waterproof tape 54 to prevent moisture from penetrating into the slot 58. Around the waterproof tape 54, a plurality of loose tubes 28 on which one or more optical fibers 32 are mounted are wound while being twisted with each other. At this time, the inside of the loose tube 28 is filled with jelly 30 to prevent damage to the optical fiber 32 due to moisture penetration. In addition, the gap between the loose tubes 28 is filled with a filler 26 such as jelly to prevent moisture from penetrating from the outside. And, the outer peripheral surface of the loose tube 28 is wound with a film 52 of polyester material for blocking the filler 26 from the outside. The waterproof tape 24 is wound around the peripheral surface of the film 52, and the aluminum tape 22 is wound around the peripheral surface of the waterproof tape 24. Finally, an outer covering 20 is coated on the circumferential surface of the aluminum tape 22 to protect various components mounted in the cable. In this case, the outer covering material 20 is coated by selecting a material suitable for the installation environment of the optical cable 50.

As described above, the eight-fiber optical fiber cable according to the embodiment of the present invention can coat the jacket having a plurality of slots on the center tensile line so that the outer diameter of the optical cable can be realized without increasing the optical fiber depth, and the optical cable The tensile force can be improved. That is, in the eight-fiber optical fiber cable, since the portion subjected to the tensile force is mainly on the support cable side, the central tensile line does not take much tensile force. For this reason, the simple reason for applying a thick inner covering to the central tension line is to uniformly wind the loose tube. Therefore, by manufacturing the inner coating material in the form of a jacket having a slot, and inserting a tube into the slot, it is possible to efficiently use the conventional wasted space. In addition, by utilizing this method, it is possible to efficiently reduce the diameter of the optical cable even in the case of small cores as well as multi-core fiber optics.

Claims (6)

In an optical fiber cable having one or more optical fibers, Located in the center of the cable, the center tension line for protecting the cable from external tension, A jacket fixedly installed along a circumferential surface of the central tension line and having at least one slot into which a tube on which the at least one optical fiber is mounted is inserted; Located along the circumferential surface of the jacket, a plurality of loose tubes for mounting the one or more optical fibers, And an outer sheath covering the outer circumference of the plurality of loose tubes and including an outer sheath to protect the loose tubes from an external environment. The eight-fiber optical fiber cable according to claim 1, wherein the cable is an eight-fiber optical fiber cable. 8. The eight-fiber optical fiber cable according to claim 1, wherein a waterproof tape is wound around the outer circumferential surface of the jacket to prevent moisture penetration into the slot. 8. The eight-fiber optical fiber cable according to claim 1, wherein the jacket is made of polyethylene. The method of claim 1, wherein a filler is filled between the plurality of loose tubes in order to prevent moisture from penetrating from the outside, and a film for blocking the filler from the outside is wound around the outer circumference of the loose tubes. 8-shaped fiber optic cable. 6. The eight-fiber optical fiber cable according to claim 5, wherein the film is made of polyester.