KR101269276B1 - Optical fiber protector of optical fiber joint box for optical fiber composite power cable - Google Patents

Abstract

PURPOSE: An optical fiber protector of an optical fiber joint box for an optical fiber composite power cable is provided to protect and keep the optical fiber for a long time by protecting the optical fiber from a facet of a stainless tube cut during optical connection. CONSTITUTION: A tube fixing bolt(31) includes an inlet fixing part(31a), a fixing nut fixing part(31c), and a boundary layer(31b) formed between the inlet fixing part and the fixing nut fixing part. The inlet fixing part is tap-connected into an inlet of an optical joint box. The fixing nut fixing part is supported by an elastic rubber(32) inserted inside, and is tap-connected to a tube fixing nut(33). The elastic rubber has a conical shape, and is inserted with a stainless tube where an optical fiber is inserted. The tube fixing nut is tab-connected to the fixing nut fixing part of the tube fixing bolt. The elastic rubber is shrunk by an external pressure according to the connection of the tube fixing bolt and the tube fixing nut, and thus fixes the stainless tube.

Description

Optical fiber protection device for optical junction box for optical composite power cable {OPTICAL FIBER PROTECTOR OF OPTICAL FIBER JOINT BOX FOR OPTICAL FIBER COMPOSITE POWER CABLE}

The present invention relates to an optical connection box for an optical composite power cable with an optical fiber protection device, and more particularly, to an optical connection structure for fixing an optical fiber protection device to an optical junction box and an optical connection for fixing an optical fiber in the protection device. The present invention relates to a fiber optic protection device.

An optical composite power cable is constructed by winding an optical cable in a spiral shape with a constant pitch on the outer diameter of a power cable, and covering the outer diameter of a cable sheath, an insulator, a cable jacket, and the like.

This optical cable is used to measure the distribution temperature in the longitudinal direction by using the optical distribution temperature measuring device for the monitoring diagnosis of the installed power cable.

In general, the power cable is connected by connecting at intervals of several hundred m to several km, and at this time, the optical cable is also made by optically connecting the optical fiber at the same time at the connection point of the power cable.

The optical junction box may be located outside or inside the power cable junction box.

Conventional optical junction box is to protect the optical fiber by using a stainless steel tube when the optical fiber is drawn into the optical junction in consideration of the mechanical strength of the optical fiber used in the optical composite power cable.

That is, the stainless steel tube including the optical fiber is inserted into the optical splice entrance, and then the stainless tube is fixed to the inlet of the optical splice using the heat shrink tube, and the stainless steel tube is cut near the entrance for the optical fiber connection. And the optical fiber is wound several times at regular intervals through the optical fiber guide in the optical junction box to secure the head.

However, the optical fiber protection device of the optical junction box for the conventional optical composite power cable is a heat shrink tube, so the force of fixing the stainless steel tube at the entrance of the optical junction box is not so large that the stainless steel tube and the optical fiber may be damaged by periodic fatigue or stress. There is.

In addition, since the cut surface of the stainless steel tube to be cut at the time of optical fiber connection is sharp, there is a problem of damaging the optical fiber.

An object of the present invention for solving the above problems is to provide an optical fiber protection device that can easily secure the protective device for protecting the optical fiber to the optical connection box, and can protect the optical fiber from the cut surface of the stainless tube is cut during optical connection To provide.

In addition, it is possible to protect and maintain the optical fiber in the long term by providing such an optical fiber protection device to prevent the replacement of the optical composite power cable due to the optical fiber problem to ensure long-term reliability of the optical composite power cable.

The optical fiber protection device of the optical junction box for an optical composite power cable according to the present invention for solving the above problems, the inlet fixing portion is tab fastened into the inlet of the optical junction box, and the other end is elastic A tube fixing bolt including one end of rubber and a fixing nut fixing part fastened to the tube fixing nut and a tab fastening, and a boundary membrane formed between the inlet fixing part and the fixing nut fixing part; An elastic rubber made of an elastic material, having a conical shape, and having a stainless steel tube into which an optical fiber is inserted; A tube fixing nut that is tab-coupled to the fixing nut fixing part of the tube fixing bolt, wherein the elastic rubber contracts by external pressure to fix the stainless tube by fastening the tube fixing bolt and the tube fixing nut. It is made by features.

Here, the optical fiber is inserted into the stainless tube inside the silicone gel to protect the optical fiber from the cut surface of the stainless tube, to prevent the movement of the optical fiber to receive less external pressure stress of the optical fiber.

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According to the configuration of the present invention described above, it is possible to easily secure the protective device for protecting the optical fiber to the optical junction box, to protect the optical fiber from the cut surface of the stainless tube to be cut at the time of optical connection, and optical composite power due to the optical fiber problem This prevents the cable from being replaced, thereby ensuring the reliability of the optical hybrid power cable.

1 illustrates a connection state between an optical junction box and a power cable junction box of the present invention.
2 is a structural diagram of an optical junction box of the present invention.
3 is a cross-sectional view of the optical fiber protection device of the optical junction box for the optical composite power cable according to the present invention.
Figure 4 is an exploded perspective view of the optical fiber protection device of the optical junction box for the optical composite power cable according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described the structure and effect of the optical fiber protection device of the optical junction box for the optical composite power cable according to the present invention.

1 is a sectional view showing a quarter of the connection state of the optical junction box and the power cable junction box of the present invention.

As shown in FIG. 1, the junction box for an optical composite power cable according to the present invention connects the conductors 11 exposed at both ends of the power cable with a conductor sleeve made of the same material, and the conductor connecting bracket is connected to the upper end of the conductor sleeve. 16 is connected, and various insulators 15a and 15b are connected thereon. Such insulators 15a and 15b may be made of epoxy molding and silicone rubber.

When the coupling of the above-described connection member is completed, the outer case (17a, 17b) made of the same type copper tube used as a protective electrode and the ground electrode of the connection material is coupled to the outermost layer by the flange 18.

One end of the outer case 17a is perforated with the metal sheath 13 of the left power cable and the other end is joined by one end of the outer case 17b and the flange 18.

The optical junction box 19 is a connection device to which the left optical fiber 14a drawn from the left optical hybrid power cable and the right optical fiber 14b drawn from the right optical hybrid power cable are connected. The optical junction box 19 is a power cable. Is fixed on the side of the outside (12).

2 is a structural diagram of an optical junction box of the present invention.

As shown in FIG. 2, the optical junction box 19 includes an enclosure 21, inlets 22a and 22b, an optical fiber protection device 30, an optical fiber guide 23 and an optical fiber auxiliary guide 24. Can be.

The optical junction box 19 is made of a synthetic resin material, and at least one inlet port 22a and 22b through which an optical fiber can be introduced may be formed at both sides.

The optical fiber protection device 30 is fastened to the inlets 22a and 22b through which the optical fibers 14a and 14b are introduced.

The optical fibers 14a and 14b are introduced into the enclosure 21 through the inlets 22a and 22b through a stainless tube fixed inside the optical fiber protection device 30, and the optical fibers 14a and 14b are introduced into the optical fiber guide 23. And the optical fiber auxiliary guide 24 is wound around the optical fiber connection point 26.

The optical fiber splicing point 26 is an arbitrary position and is wound several times by the optical fiber guide 23 and the optical fiber auxiliary guide 24 to form the optical fiber splice 25.

3 is a cross-sectional view of the optical fiber protection device of the optical junction box for the optical composite power cable according to the present invention, Figure 4 is an exploded perspective view of the optical fiber protection device of the optical junction box for the optical composite power cable according to the present invention.

The optical fiber protection device 30 fixes the stainless tube 34 into which the optical fiber is inserted in a bolt and nut manner, and fixes the stainless tube 34 to the inlets 22a and 22b of the optical junction box 19.

Since the optical fiber has a weak mechanical strength, the stainless tube 34 is inserted into the inlets 22a and 22b of the optical junction box 19 to compensate for this.

The optical fiber protection device 30 includes a tube fixing bolt 31, an elastic rubber 32, and a tube fixing nut 33.

The tube fixing bolt 31 has a bolt-shaped inlet fixing portion 31a and a tube fixing nut 33 and a tab coupling so that one end thereof can be tab-coupled to the inlets 22a and 22b. The fixing nut coupling part 31c and the inlet fixing part 31a and the fixing nut coupling part 31c which serve to apply pressure in the direction serve as a boundary, and the inlet fixing part 31a is the inlet 22a and 22b. It consists of a boundary membrane 31b to be in close contact with the side of the inlet (22a, 22b) when fastened to the.

The elastic rubber 32 is made of rubber of an elastic material, is formed in a conical shape and a through-hole in which a stainless tube 34 can be inserted.

The smaller outer diameter of the elastic rubber 32 has an outer diameter that can be inserted into the tube fixing bolt 31, the larger outer diameter is formed smaller than the inner diameter of the tube fixing nut (33).

The tube fixing nut 33 has a nut shape and is tab-coupled with the fixing nut coupling portion 31c of the tube fixing bolt 31.

The tube fixing bolt 31 and the tube fixing nut 33 may be made of metal and may be made of synthetic resin.

The stainless tube 34 is a tube in which an optical fiber is introduced to protect it, and a silicone gel 35 in a gel form is introduced therein.

Hereinafter, the connection process of the optical cable and the fixing process of the stainless steel tube for protecting the optical cable will be described, and the order of the fixing process may be changed back and forth.

Position the tube fixing bolt 31, the elastic rubber 32 and the tube fixing nut 33 in the order, and inserts the stainless tube 34 into the elastic rubber (32).

In this state, when the tube fixing bolt 31 and the tube fixing nut 33 are coupled by the tab, the elastic rubber 32 is fixed to the tube fixing nut 33 and the tube with one end fitted to the tube fixing bolt 31. As the bolt 31 is fastened, pressure is applied in the vertical direction.

When pressure is applied in the up and down direction, the stainless tube 34 inserted therein is fixed in the elastic rubber 32 while being pressed by the elastic rubber 32.

Inlet fixing part of the tube fixing bolt 31 in a state where the stainless tube 34 is fixed by the elastic pressure in the elastic rubber 32 and the tube fixing bolt 31 and the tube fixing nut 33 are tapped. Engage with the tab inside the inlet (22a, 22b) through (31a).

As such, the stainless tube 34 is fixed by the tube fixing bolt 31, the elastic rubber 32 and the tube fixing nut 33, the fixed optical fiber protection device 30 is the inlet (19) of the optical junction box (19) 22a, 22b).

At this time, when the optical fiber protection device 30 is inserted into the optical junction box 19 through the stainless tube 34 in a state where the optical fiber protection device 30 is fixed to the optical junction box 19, the optical cable inserted in the stainless tube 34 14a and 14b may be fluid.

To prevent this, the fluidity of the optical cable can be prevented and fixed in the following way.

In practice, the inner diameter of the stainless tube 34 itself is so small that it is difficult to insert a solid into the stainless tube 34 to fix the optical cable within the stainless tube 34.

Therefore, in the present invention, the silicone gel 35 is introduced into the stainless tube 34, and the optical cable is introduced into the interior of the optical connection box 19 through the silicone gel 35.

The silicone gel 35 will harden over time, and after hardening, the optical fiber inserted into the stainless tube 34 will remain incapable of being fixed.

When the optical cable is connected, the one end of the stainless tube 34 is cut to an appropriate length for adjusting the length while the optical cable is inserted into the stainless tube 34. At this time, the cutting surface is sharply cut so that the optical cable contacts the cutting surface. If the optical cable itself is damaged, it is possible to prevent the damage of the optical cable by injecting the silicone gel 35 and allowing the optical cable to penetrate and hardening the silicone. Can be.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, As will be understood by those skilled in the art. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

11 conductor 12 insulator
13: metal sheath 14a, 14b: optical cable
15a, 15b: Insulator 16: Conductor connection bracket
17a, 17b: outer case 18: flange
19: optical junction box 20: optical fiber protection device
21: enclosure 22a, 22b: inlet
23: optical fiber guide 24: optical fiber auxiliary guide
25: optical fiber splicing layer 26: optical fiber splicing point
31: tube fixing bolt 31a: inlet fixing part
31b: boundary membrane 31c: fixing nut coupling portion
32: elastic rubber 33: tube fixing nut
34: stainless tube 35: silicon

Claims (3)

A through hole is formed in the inside, and an inlet fixing part tab-fastened into the inlet of the optical connection box, and an end of an elastic rubber is inserted and mounted at the other end thereof, and a fixing nut fixing part to which the tube fixing nut and the tab fastening are externally mounted. A tube fixing bolt including a boundary membrane formed between the inlet fixing portion and the fixing nut fixing portion;
An elastic rubber made of an elastic material, having a conical shape, and having a stainless steel tube into which an optical fiber is inserted;
And a tube fixing nut that is tab-coupled to the fixing nut fixing part of the tube fixing bolt.
Elastic rubber is contracted by the external pressure in accordance with the fastening of the tube fixing bolt and the tube fixing nut to fix the stainless tube, the optical fiber protection device of the optical junction box for optical power cable.
delete The method of claim 1,
The optical fiber protection device of the optical junction box for the optical composite power cable, the optical fiber is inserted in the state in which the silicone gel is inserted into the stainless tube.

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