KR101051080B1 - Optical cable installation method and wiring installation structure of communication device box - Google Patents

Abstract

The present invention can be installed in a very simple, efficient and neatly arranged structure of optical cable wiring in an optical communication equipment (optical distribution box for communication network, etc.), and can be installed in a smaller installation space, To a wiring structure of an optical communication cable and a method of installing the same.

That is, when wiring the optical cable 10 inside the communication device box, the strength reinforcement 4 and the secondary protective jacket 5 at the outermost one of the optical cables 10 are peeled off, Diameter cable 20 that is more than half that of the small-diameter cable 20; The small diameter optical fibers 20 are bundled into one bundle and then inserted into a cable installation tube 30 having a predetermined diameter and length. The plurality of small diameter optical cables 20 inserted into the optical cable installation tube 30 ) Are extracted to the outside of each step for each assigned number of strands at predetermined intervals; The thermally shrinkable protective tube 40 is inserted into each small-diameter cable 20 separated and extracted for each outer section of the cable installation tube 30 and is thermally compressed and fixed. 32).

Clad, primary protective sheath, secondary protective sheath, strength reinforcement, heat shrink protective tube, distributor

Description

TECHNICAL FIELD [0001] The present invention relates to an optical cable installation method and a wiring installation structure of a communication device box.

The present invention can be installed in a very simple, efficient and neatly arranged structure of optical cable wiring in an optical communication equipment (optical distribution box for communication network, etc.), and can be installed in a smaller installation space, To a wiring structure of an optical communication cable and a method of installing the same.

Conventional optical fiber cable is a next generation communication line that uses light to provide a wide bandwidth, a high transmission rate, and a high-precision and high-efficiency transmission quality.

2, a core, which is an optical fiber, is provided at the center of the optical fiber, and a clad for reflecting light passing through the core and not coming out from the core is provided on the outer side. The primary protective jacket, the strength stiffener, and the secondary protective jacket are generally formed in this order.

On the other hand, in the interior of an optical communication device box (optical distribution box for a communication network for constructing an FTTH network, etc.), a large number of optical cables are connected by wires in accordance with the quantity of the optical distributor installed in the equipment, ,

In this case, there has been no conventional wiring arrangement of optical cables or a special and highly efficient wiring installation structure, so that a large number of optical cables of a certain thickness introduced into the device are distributed and connected to multiple optical distributors arranged in a multi- .

That is, when the conventional optical cable wiring structure is divided and connected to a plurality of distributors having a predetermined thickness and introduced into the optical communication device box,

Since the wiring is guided as it is guided by the thickness of the cable, it requires a considerable installation space for wiring the numerous optical fibers of the number of strands introduced into the device compartment to each of the distributors, So that the size of the exterior of the communication device becomes unnecessarily large.

In addition, such a problem can cause optical communication failure such as entanglement and bending of cables between cables during wiring work for many strands of optical cables,

Also, when repairing or inspecting the fault in the future, it will not be able to find one strand properly,

This is a serious problem when the number of optical fibers is increased as the number of optical communication equipments such as a large-capacity optical communication equipment installed in a telephone station, a broadcasting station, etc., and it is urgently needed to improve.

Accordingly, it is an object of the present invention to provide a new wiring installation structure that is not only wired / installed in a minimum installation space, but also is neat and orderly aligned and has high efficiency, And it is completed as the technical problem.

It is possible to peel off the strength reinforcement member 4 and the secondary protective jacket 5 at the outermost one of the optical cables 10 in the wiring of the optical cable 10 in the communication device box, One formed by a small diameter cable 20 which is more than half very thin; The small diameter optical fibers 20 are bundled into one bundle and then inserted into a cable installation tube 30 having a predetermined diameter and length. The plurality of small diameter optical cables 20 inserted into the optical cable installation tube 30 ) Are extracted to the outside of each step for each assigned number of strands at predetermined intervals; The thermally shrinkable protective tube 40 is inserted into each small-diameter cable 20 separated and extracted for each outer section of the cable installation tube 30 and is thermally compressed and fixed. 32).

The optical fiber cable installation method and the wiring installation structure of the communication device of the present invention as described above can wire / install many optical fiber cables of various numbers of wires connected to each distributor in the optical communication device neatly and efficiently, It is a very useful invention because it is possible to install the wiring within a much smaller installation space than the existing one, and thus the utilization of the internal space of the communication device box is also excellent.

In order to accomplish the above object, the present invention will be described in more detail with reference to the accompanying drawings.

That is, as shown in FIG. 2, in the case where a large number of optical fibers 10 are wired in a communication device box (an optical distributor 100 for a communication network for building an FTTH network, etc.)

The core 1, the clad 2, the primary protective sheath 3, the strength reinforcement 4, and the secondary protective sheath 5, which are drawn into the interior of the communication device box 100, Among the large number of optical cables 10 constituted,

The core 1, the clad 2, and the primary shield 10 are peeled off from the outermost reinforcing material 4 and the secondary protective jacket 5, respectively, Formed of a small-diameter cable (20) composed only of a protective sheath (3);

The small diameter optical fibers 20 are bundled into one bundle and then inserted into a cable installation tube 30 having a predetermined diameter and length. The plurality of small diameter optical cables 20 inserted into the optical cable installation tube 30 ) Are extracted to the outside of each step for each assigned number of strands at predetermined intervals;

The thermally shrinkable protective tube 40 is inserted into each small-diameter cable 20 separated and extracted for each outer section of the cable installation tube 30 and is thermally compressed and fixed. (32) is filled and filled.

Hereinafter, the optical cable wiring installation method of the communication device box will be described in detail.

First, a plurality of strands of optical cables 10 connected to respective terminals of a plurality of optical communication distributors 110 installed at the other lower end of the inner lower end of a communication device box (an optical distributor for a communication network 100 for establishing an FTTH network) In wiring installation,

The plurality of optical fibers 10 connected to the respective terminals of the distributor 110 after being drawn into the communication device box 100 are connected to the outermost strength reinforcement 4 of the optical cable 10, A small-diameter optical cable forming step of forming a small-diameter optical cable 20 which is thinner than half the thickness of a conventional optical cable by removing the optical cable 5;

The small-diameter cables 20, which are thinner than the normal cable thickness through the small-diameter optical cable forming step, are inserted into the cable installation tube 30 of a certain diameter and then inserted into the cable installation tube 30, A tube input step;

The small-diameter optical cables 20, which are inserted into the optical cable installation tube 30 and bundled in a small thickness and then guided upward, are connected to a plurality of outlets 31 on one side of the installation tube 30, A distribution / withdrawal step of a small diameter cable 20 which sequentially transfers / withdraws through a plurality of cables 20; And the like.

The cables 20 drawn out through the outlets 31 of the cable installation pipe 30 are respectively connected to the respective terminals of the multi-distributor 110 arranged at a different position in the communication device box 100 , A plurality of small-diameter optical cables (20), each of which is divided and drawn out to the respective outlets (31) of the installation tube, are wrapped with a heat shrinkable protective tube (40) of a certain diameter in order to prevent disturbance of the small- It is desirable to apply a constant heat to the workpiece to fix the workpiece firmly and cleanly by shrinkage.

At this time, in order to minimize obstacles to smooth transmission of optical communication with each small-diameter cable (20) drawn out from the cable installation pipe (30) to each terminal of the distributor (110), bending or sudden bending So that it is possible to maintain a very gentle curvature.

The individual small diameter cables 20 connected to the terminals of the distributor 110 after being drawn out from the cable installation tube 30 may be provided with separate strengths and strengths for the purpose of protecting the small- The protective tube 21 can be further inserted to reinforce its strength and the opening 32 of the cable installation pipe 30 from which the small diameter cable 20 is pulled out is filled with silicone 32 .

As described above, the method of installing the optical cable wiring of the communication device box 100 of the present invention allocates tens or hundreds of optical cables to each of the plurality of distributors 110 arranged in the multi-stage inside the optical communication device box 100 In wiring / connecting each of the number of the strands,

The ordinary optical cables 10 made up of the core 1, the clad 2, the primary protective sheath 3, the stiffener 4 and the secondary protective sheath 5 and having a considerable thickness, Unlike the prior art, which requires a considerable amount of installation space as well as a simple and complicated wiring configuration due to simple connection to the terminals of each distributor 110 without any action,

A plurality of optical cables 10 connected to respective terminals of the multi-distributor 110 arranged in the multi-stage after being introduced into the communication device box 100, And the secondary protective jacket 5 are respectively removed to make a small diameter cable 20 which is more than half of the thickness of the existing optical cable 10 and then connected to each terminal of each distributor 110,

A large number of optical cables 10 connected to the terminals of each distributor 110 can be installed with sufficient wiring within a narrow installation space of two or more times the number of the same number of wires and the small diameter optical cable 20 can be installed in an optical cable installation pipe Since it is installed in a state where it is fixed / guided into the optical fiber cable 30, it is very easy to obtain a satisfactory ordered optical cable 20 in addition to a sufficient optical cable 20 to be protected.

1 is a cross-sectional view showing a conventional optical cable structure

Fig. 2 is a cross-sectional view of a small-diameter optical cable shown in the present invention

Fig. 3 is an internal structure diagram of a pipe communication device in a state of wiring / installation in accordance with the present invention

4 is a partially enlarged cross-sectional view of a portion of the present invention

5 is a partially enlarged cross-sectional view of another essential part of the present invention

6 is an enlarged cross-sectional view of another embodiment of the small-diameter optical cable of the present invention

Description of the Related Art [0002]

1: core 2: clad

3: primary protective sheath 4: strength stiffener

5: Secondary protective sheath 10: Optical cable

20: Small diameter cable 21: Protection tube

30: cable installation pipe 31: outlet

32: Silicone 40: Heat shrinkable protection tube

100: communication device box 110: distributor

Claims (4)

In wiring a plurality of optical cables 10 in a communication device box (optical distribution box 100 for a communication network for building an FTTH network, etc.) The core 1, the clad 2, the primary protective sheath 3, the strength reinforcement 4, and the secondary protective sheath 5, which are drawn into the interior of the communication device box 100, Among the plurality of optical cables 10 constituted, The core 1, the clad 2, and the primary shield 10 are peeled off from the outermost reinforcing material 4 and the secondary protective jacket 5, respectively, Formed of a small-diameter cable (20) composed only of a protective sheath (3); The small diameter optical cables 20 are bundled into a single bundle and then inserted into a cable installation tube 30 having a predetermined diameter and length. The multiple small diameter optical cables 20 inserted into the optical cable installation tube 30 Withdrawing each of the assigned number of strands outward at each step at each step; The heat pipe protection tube 40 is inserted into each of the small diameter cables 20 separated and extracted for each outer section of the cable installation pipe 30 and is thermally compressed and fixed. (32) is filled up to complete the optical cable wiring structure of the communication device. A plurality of optical cables 10 connected to respective terminals of a plurality of optical communication distribution devices installed at the other lower end of the inner lower end of the communication device box (optical distribution box 100 for a communication network for establishing an FTTH network) , A plurality of optical fibers 10 connected to each terminal of the distributor 110 after being drawn into the communication device box 100 are connected to an outer strength reinforcement 4 and a secondary protective jacket 5) are removed to form small-diameter optical cables 20 each of which is tapered by half or more of the thickness of the ordinary optical cable; The small-diameter cables 20, which are thinner than the normal cable thickness through the small-diameter optical cable forming step, are inserted into the cable installation tube 30 of a certain diameter and then inserted into the cable installation tube 30, A tube input step; The small-diameter optical cables 20, which are inserted into the optical cable installation tube 30 and bundled in a small thickness and then guided upward, are connected to a plurality of outlets 31 on one side of the installation tube 30, A distribution / withdrawal step of a small diameter cable 20 which sequentially transfers / withdraws through a plurality of cables 20; Wherein the optical cable is installed in the housing of the communication device. 3. The method of claim 2, The cables 20 drawn out through the outlets 31 of the cable installation pipe 30 are respectively connected to the respective terminals of the multi-distributor 110 arranged at a different position in the communication device box 100, The heat-shrinkable tube 40 is further wrapped around the small-diameter optical cable 20, which is divided into several outlets 31 each of which is drawn out to the outlet 31 of the installation tube 30, and then heat is applied to the tube, Wherein the optical cable is installed in the communication box. 3. The method of claim 2, A separate protective tube 21 is further inserted into each small-diameter cable 20 of each strand which is drawn out from the cable installation tube 30 and then connected to the terminals of the distributor 110, 20. A method of installing an optical cable wiring in a communication device box.

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