KR19990017500A - Light end cable processing structure - Google Patents

Abstract

The present invention relates to a light end cable in which an optical connector is attached to an end of an optical cable introduced from the eastern island to a telephone station, and more particularly, to a light end cable processing structure which prevents loss due to fusion splicing by using a contactless optical end cable. The cover 1 is provided with a filler for protecting single-core optical fibers, and a sealing tape 7 for fixing and supporting one end of the optical cable 9 is installed at one end of the cover 1. On the other end, the front end plate 2 is fixedly installed to which the optical fiber single-core protection cord 10 to which the connector 8 of the optical cable 9 is connected is inserted and fixed. It characterized in that it is configured to be fixed using the crimp terminal (3).

Description

Light end cable processing structure

The present invention relates to a light end cable in which an optical connector is attached to an end of an optical cable introduced from the eastern island to a telephone station, and more particularly, to a light end cable processing structure which prevents loss due to fusion splicing by using a contactless optical end cable. will be.

In general, an optical cable is an optical communication cable, also called an optical fiber cable, and is made of several hundred strands of thin thread made of quartz, etc. Because it has a wide range of applications.

On the other hand, optical cables usually connect and install optical amplifiers and enclosures at regular intervals.However, the connection method is conventionally relying on the manual work of a professional technician to use one-sided cords on both ends of the optical cable in the field using expensive precision equipment called Fusion Splicer. The method of fusion splicing was used.

As a result, connection time is long and continuous external power supply is required, and once made part cannot be reconnected, which has acted as the biggest obstacle in connecting the optical cable.

The present invention was conceived in view of the above circumstances, and since it uses a light end cable having an optical connector attached to the end of the optical cable, it is possible to prevent the loss of connection and at the same time improve the time and economic efficiency of construction. The purpose is to provide a treatment structure.

Specific means of the present invention for achieving the above object is provided with a cover containing a filler for protecting a single-core optical fiber, and at one end of the cover is provided with a sealing tape for fixing and supporting one end of the optical cable It is characterized in that the front end plate is fixed to the other end of the optical fiber single-core protection cord is connected to the connector of the optical cable is fixed, and the tension line of the optical cable is configured to be fixed to the front end plate using a crimp terminal.

1 is an optical cable processing structure according to an embodiment of the present invention.

Figure 2 is a front view of the shear face plate applied to the embodiment of the present invention.

3 is a cross-sectional view taken along the line A-A of FIG.

Figure 4 is an installation state of the rear end plate applied to the embodiment of the present invention.

Explanation of symbols for main parts of the drawings

DESCRIPTION OF SYMBOLS 1 Cover 2 Shear faceplate 3 Crimp terminal

7 Sealing Tape 9 Optical Cable 10 Single Protection Tube

70: rear face plate

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

As shown in the light-end cable structure of FIG. 1, a cylindrical cover 1 containing a filler for protecting a single-core optical fiber is provided, and one end of the optical cable 9 is fixed to one end of the cover 1, At the same time as the supporting tape (7) to support and at the other end of the front end plate (2) to which the optical fiber single-core protection tube (10) to which the connector (8) of the optical cable (9) is connected is fixedly installed. The tension line of the optical cable 9 is configured to be fixed to the face plate 2 using the crimp terminal 3.

The optical cable 9 is a jelly-filled loose optical cable, and has an optical connector 9 attached to the end thereof so that fusion splicing is unnecessary.

That is, the present invention consists of an optical cable 9, a star end portion filled with a filler in the optical cable 9, and a single core portion using the shear face plate 2 at this end portion.

The star end portion protects the optical core and each core wire is fixed to the shear face plate 2 through the single core protection tube 10, the shear face plate 2 is radially from the center as shown in Figs. A plurality of tube insertion holes 2a are formed, and the single-core protective tube 10 is inserted and fixed in the tube insertion holes 2a.

The single core protects the line of interest with the single core protective tube 10, and an optical connector 8 is mounted at the end without a fusion splicing point. The tension line of the optical cable 9 is fixed to the crimp terminal 3 and is supported by a nut 4 at the center of the front face plate 2.

On the other hand, the sealing tape (7) as shown in Figure 4 to support the optical cable (9) inserted into the inner circumferential surface of one small cylindrical portion 71 and the cover with the screw 74 as the other large cylindrical portion (72) fastening means Fixing installation in (1) can also be replaced using the rear end plate (70).

The operation of this embodiment configured as described above will be described.

As shown in FIG. 1, the short protective tube 10 is fixed to the tube insertion hole 2a of the shear face plate 2, and then the tension line and the end face plate 2 are fixed by the crimping terminal 3 and the nut 4. Let's do it. After inserting the single core optical fiber into the single core protection tube (10), the front face plate (2) is assembled in front of the cover (1) and the connector (8) is attached to the end of the single core cord.

The optical end cable 9 thus manufactured is equipped with an optical connector 8 at the end thereof so that it can be easily connected to all equipment or an enclosure in which the optical adapter is mounted, and to prevent the separation of the optical cable and the end and the warpage of the optical cable. do.

As described above, according to the present invention, there is no need for fusion operation by manual work as in the prior art, and connection loss is eliminated, and time loss can be greatly improved in the field construction and operation.

Claims (2)

A cover 1 containing a filler for protecting a single core optical fiber is provided, and a sealing tape 7 for fixing and supporting one end of the optical cable 9 is installed at one end of the cover 1, and the other end thereof. The front end plate 2 to which the optical fiber single-core protection cord 10 to which the connector 8 of the optical cable 9 is connected is inserted and fixed. The tension line of the optical cable 9 is crimped to the front end plate 2. Light end cable processing structure, characterized in that configured to be fixed by using the terminal (3). The light-end cable processing structure according to claim 1, wherein a rear end face plate (70) is provided in place of the sealing tape (7) to fix and support the optical cable (9).