KR101071267B1 - Protective device for optical fiber in case of connecting of ribbon optical cable - Google Patents

Abstract

The present invention relates to an optical fiber protection device when connecting a ribbon optical cable to securely wrap and protect the ribbon optical fiber bundles in a gripping state by using a grip type protection tube during the connection operation of the ribbon optical cable.
The present invention allows the grip type protection tube fitted to the outside of the ribbon fiber core bundle to grip the ribbon fiber bundle without flow, and the protection grip portion for holding the ribbon fiber bundle is secured from external force It is a feature of the invention to make it possible to prevent damage to the ribbon fiber cores.

Description

Protective device for optical fiber in case of connecting of ribbon optical cable

The present invention relates to a technique for protecting the ribbon optical fiber bundles in a gripping state by using a grip protection tube during the connection operation of the ribbon optical cable.

In general, a ribbon optical cable refers to a type of optical cable in which a transmission medium for an optical signal is a ribbon optical core, and a ribbon optical core refers to a collection of multiple cores in a row (ribbon type). The ribbon optical core may be fabricated by coating a multi-core optical fiber core (hereinafter referred to as an optical core) in a line with an ultraviolet curable resin and curing the ultraviolet curable resin with ultraviolet rays.

In addition, a plurality of ribbon optical cores may be stacked to form a ribbon optical core having a matrix structure. This ribbon fiber has the advantage of high density of optical fiber in a limited space because it densifies multiple cores, and the reason that such a high density ribbon optical cable is attracting attention is that existing pipelines are already laid out as a set of optical cables and new installation spaces in the pipeline This is because this lacking phenomenon occurs.

This conventional ribbon optical cable 1 comprises a center tension line 2, a plurality of loose tubes 3, a tension line 4 and an outer sheath 5, as shown in Figs. .

The central tensile line 2 provides the tension to the ribbon optical cable 1 and is located at the center thereof, and the loose tube 3 mounts the ribbon optical fiber bundle 6 and the ribbon optical fiber bundle 6 Has a matrix structure in which a plurality of ribbon optical cores each of which four or more optical fibers arranged in a line are coated with an ultraviolet curable resin are laminated.

The tension line 4 wraps around the plurality of loose tubes 3 to improve the tension of the ribbon optical cable 1, and the outer sheath 5 protects the interior from the external environment. To the outermost position of the ribbon optical cable is formed by an extrusion process.

In addition, the empty space of the loose tube (3) protects the ribbon optical fiber bundle (6) from external impact, minimizes the twisting of the ribbon optical fiber bundles (6) in the loose tube due to the handling of the optical cable, ribbon light A jelly compound 7 is filled in which core wires absorb the moisture penetrated into the loose tube 3.

The protective tube 8 is used as a method for protecting the exposed ribbon optical fiber bundle 6 when the ribbon optical cable 1 having the above configuration is connected. In the related art, the outer sheath 5 and the tension wire are conventionally used. The ribbon fiber bundle (6) is removed when the ribbon fiber bundle (6) is pulled out from the loose tube (3) and the ribbon fiber bundle (6) is placed on a separate connection tray for connection. 6) In order to protect the protective tube (8) is used by inserting the outer ribbon bundle 6 of ribbons.

However, the conventional protective tube 8 has a large inner diameter and has no jelly compound therein, so that the bundle of ribbon optical fiber bundles 6 positioned therein freely flows, particularly in the process of installing the protective tube 8 on the connection tray. Due to the bending or twisting of the tube, the position of the ribbon cores in the ribbon bundle 6 in the protective tube is deviated or twisted, and severe stress is applied to the optical cores located at both outer sides of the ribbon optical core to damage the optical fiber. Problems that cause or inhibit the loss characteristics of the optical fiber is caused.

In addition, in the process of binding the protective tube 8 using a cable tie on the connection tray, the thickness of the protective tube 8 is so thin that the ribbon optical cores are crushed and damaged more frequently.

The present invention is to actively solve all the problems caused when connecting the ribbon optical cable according to the prior art, the grip type protection tube which is fitted to the outside of the ribbon optical fiber bundle can grip the ribbon optical fiber bundle without flow. To prevent the damage of the ribbon optical core wires from the external force by securing a thick thickness, the protective grip portion for holding the ribbon optical fiber bundles as a problem of the present invention.

The present invention provides a technique for forming a protective grip portion on the outside of the ribbon grip hole while forming a ribbon tube hole on one side, and a ribbon grip hole on the other side as a means for solving the above problems. .

In addition, the grip-type protective tube of another embodiment of the present invention forms a small-size diameter portion of the crown tube insertion portion on one side, the ribbon holding hole is formed on the other side, the technology to install a protective sleeve on the outside of the small diameter portion Take a look.

According to the present invention, the ribbon-shaped optical fiber bundles exposed to the outside during the connection operation of the ribbon optical cable to the grip-type protection tube is securely wrapped and protected without flow in the grip state to prevent damage to the optical core wires as well as to ensure excellent reliability of the optical core wires. To provide the effect.

In addition, the protective grip portion for holding the ribbon optical fiber bundle bundle is formed to a thickness thicker than other portions to provide an effect of effectively preventing the optical core wire from being damaged during the binding operation using a cable tie.

Figure 1 is a longitudinal cross-sectional view of the state of use of the optical fiber protection device to which the present invention is applied
Figure 2 is an enlarged cross-sectional view of the installation state of the grip protection tube according to an embodiment of the present invention
Figure 3 is a longitudinal sectional view of the grip protection tube according to an embodiment of the present invention
4 is a cross-sectional view taken along line AA of the present invention Figure 3,
(A) Ribbon grip hole of square shape, (b) Ribbon grip hole of circular shape
5 is an assembled longitudinal cross-sectional view of a grip protection tube according to another embodiment of the present invention;
Figure 6 is a longitudinal cross-sectional view of the detached grip tube and protective sleeve according to another embodiment of the present invention
Figure 7 is a longitudinal cross-sectional view of the grip type protective cap and the protective tube of the present invention
Figure 8 is a longitudinal cross-sectional view of the detached grip protection cap and protective tube of the present invention
9 is a front sectional view showing the internal structure of a conventional ribbon optical cable;
10 is a longitudinal sectional view of a state in which a protection tube is installed on a conventional ribbon optical cable;

Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.

Looking at the overall technical configuration according to the accompanying drawings in accordance with a preferred embodiment of the present invention, a loose tube insert 11 is formed on one side, the ribbon grip hole communicating with the loose tube insert 11 on the other side 12 is formed, it can be seen that the outer side of the ribbon grip hole 12 is provided by the grip type protection tube 10 having a configuration in which the protective grip portion 13 is formed.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

First, the grip type protective tube 10 of the present invention is for safely protecting the ribbon optical fiber bundle 6 drawn out from the loose tube 3 in the conventional ribbon optical cable 1 as shown in FIG. A loose tube inserting portion 11 having a diameter equal to the outer diameter of the loose tube 3 is formed to facilitate the insertion of the loose tube 3, and a ribbon communicating with the loose tube inserting portion 11 on the other side thereof. The grip hole 12 is formed.

At this time, the ribbon grip hole 12 is formed in a circular shape smaller than the diameter of the loose tube insert portion 11 or in the form of a small square so as to surround the outside of the ribbon optical fiber bundle bundle 6 stably. By being formed, the ribbon grip hole 12 prevents the flow of the ribbon fiber core bundle 6 to provide a special effect of preventing the optical fiber from being damaged while twisting the ribbon fiber core.

In addition, when the binding operation is performed using a cable tie on a separate connection tray by forming a protective grip 13 having a thickness thicker than the thickness of the loose tube insert 11 at the outside of the ribbon grip hole 12. When the protective grip 13 is bound, the optical fiber is damaged during the binding operation of the ribbon optical cable 1 by attenuating that the bundle of the optical fiber cores 6 located inside the protective grip 13 is pressed or subjected to an external force. Can be prevented at the source.

In addition, between the loose tube inserting portion 11 and the ribbon grip hole 12, the insertion guide surface 15 of the reducer shape, which gradually decreases in diameter, is further connected and installed toward the ribbon grip hole 12. Thus, the ribbon optical fiber bundle 6 which is gripped while being inserted into the ribbon grip hole 12 after passing through the loose tube inserting portion 11 is guided to be inserted more smoothly into the ribbon grip hole 12. do.

Meanwhile, the grip type protection tube 20 according to another embodiment of the present invention is assembled with a separate protective sleeve 26 fitted in a small diameter portion 23 in which a ribbon grip hole 22 is formed as shown in FIGS. 5 to 6. It is characterized by consisting of a type.

A grip protection tube 20 according to another embodiment has a loose tube insert 21 formed on one side thereof, and a ribbon grip hole connected to the loose tube insert 21 and the insertion guide 25 on the other side thereof. Small diameter portion 23 is formed in communication with each other 22 is formed, the outer side of the small diameter portion 23, the protective sleeve 26 to prevent damage to the optical fiber during the binding operation of the ribbon optical cable (1) integrally The fitting is installed.

In this case, by separately manufacturing the protective sleeve 26 using a material more rigid than the grip type protective tube 20, the external force applied to the ribbon optical fiber bundle 6 is more effectively blocked, thereby further preventing the damage of the optical fiber. It can be maximized.

In addition, the present invention is to damage the optical fiber by additionally installing a separate grip type protection cap 30 on the outside of the protective tube 8 while utilizing the existing protective tube 8 as it is shown in Figure 7 to 8. It can also prevent.

The grip-type protective cap 30 for this purpose is formed on one side of the protection tube inserting portion 31 to which the existing protection tube 8 fitted to the outside of the loose tube (3) is exclusively formed, the ribbon grip hole on the other side (12) is formed, the outer side of the ribbon grip hole 12 is formed with a configuration in which a protective grip 33 having a thickness thicker than the thickness of the protective tube inserting portion 31 side is formed using a cable tie When the protective grip 33 is bound during operation, damage to the ribbon optical fiber bundle 6 can be effectively prevented.

In this case, by using the existing protective tube 8 as it is, the grip type protective cap 30 is organically grafted to achieve the desired purpose.

1: ribbon optical cable 3: loose tube
6: bundle of ribbon fiber 7: jelly compound
8: Protective tube 10, 20: Grip protective tube
11, 21: loose tube insert 12, 22, 32: ribbon grip hole
13, 33: protective grip 15, 25: insertion guide surface
23: small diameter portion 26: protective sleeve
30: grip protection cap 31: protective tube insert

Claims (6)

A loose tube inserting portion 21 is formed at one side, and a small diameter portion 23 having a ribbon grip hole 22 communicating with the loose tube inserting portion 21 is formed at the other side, and the small diameter portion 23 A protective sleeve 26 is fitted at an outer side thereof, and a reduction guide insertion surface of which a diameter decreases while going toward the ribbon grip hole 22 between the loose tube insert 21 and the ribbon grip hole 22. (25) comprises a gripped protective tube (20) having a connected installation configuration;
The protective sleeve 26 is an optical fiber protection device when connecting a ribbon optical cable, characterized in that the separate production using a rigid material than the grip type protection tube (20). delete delete delete delete delete

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