KR20120025163A - Structure of blocking the moisture for air blown fiber optic cable - Google Patents

Abstract

PURPOSE: A waterproof structure of an optical cable installed with air pressure is provided to solve various problems due to a jelly compound while measuring or connecting of a loose tube by mounting a waterproofing compound. CONSTITUTION: A central tensile line(10) provides anti-tensile force by being located in the central part of an optical cable. A plurality of loose tubes(20) mounts a plurality of optical fibers(21) within the tube(23) while being arranged on the circumferential surface of the central tensile line. A waterproof tape(30) blocks moisture by covering the circumferential surface of the loose tubes. An outer cover(50) blocks external environment by covering the boundary surface of the waterproof tape. The internal spaces of the waterproof tape and the loose tubes are filled with a waterproofing compound(40) in order to protect the central tensile line and the loose tubes.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waterproof structure for an air-

The present invention relates to an optical cable for pneumatic laying by inflating an air pressure in a loose tube, and more particularly, to a method of mounting an optical fiber to a fiber optic cable so as to reduce the occurrence of environmental pollution sources To a waterproof structure of an optical cable for pneumatic laying.

Generally, an optical fiber is a jacket with a diameter of 0.1 mm or less that can be used for communication, and this optical cable has broadband capability to accommodate a transmission rate of more than gigabits per second and is not connected to an amplifier The data can be sent over a long distance from the copper line.

Here, in the construction of a communication network in which the above-mentioned optical cable is installed in the underground, a module including a tube is attached to various sewage pipes buried in the underground of the relevant section without the related civil works, And the technique of installing the optical cable is applied.

The pneumatic laying method described above has advantages in that at least a new piping structure or civil works for laying the new piping are unnecessary compared with a conventional method of laying in an existing underground. Due to the cost reduction and easiness of construction, It is regarded as a breakthrough technology for network construction.

For example, as shown in FIG. 1, a plurality of loose tubes 240 are gathered in the SZ system at regular intervals on the circumferential surface of the center line 210 as an optical cable for installation of air pressure (registration number: 10-464365) A configuration in which the peripheral surface of the loose tube 240 is sealed with a waterproof tape 250 and a shell 260 has been proposed.

Accordingly, the optical cable is protected from an external impact through the jelly compound mounted on the loose tube 240 to prevent the penetration of foreign matter, and moisture is blocked through the waterproof tape 250 and the outer skin 260, It is possible to perform the communication function even if it is buried underground.

Since the optical cable has a structure in which the jelly compound is mounted on the loose tube 240, the jelly compound needs to be wiped off at the time of connection or measurement of the optical cable. Thus, unnecessary equipment or equipment for reprocessing and removing the jelly compound Not only manpower is consumed but also work time and working load are increased, thereby increasing the cost of the unit and causing environmental pollution sources.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an optical cable for installation of pneumatic cables, which can reduce the generation of environmental pollution sources, The object of the present invention is to provide a waterproof structure.

According to another aspect of the present invention, A center tension line positioned at the center of the optical cable to provide a tension force; A plurality of loose tubes assembled on the circumferential surface of the center tension line and having a plurality of optical fibers mounted in the tube; A waterproof tape bound to the circumferential surface of the loose tube to block moisture; And a sheath enclosing the circumference of the waterproof tape to block the external environment; And a waterproofing material filled in the inner space of the loose tube and the waterproof tape to waterproof the center tension line and the loose tube.

As described above, the present invention has the following effects.

First, various problems due to jelly are solved in the connection or measurement of the loose tube by mounting a radiator in place of the jelly compound in the optical cable.

Second, since the optical fiber is mounted on the optical cable in place of the jelly compound, the outer diameter and weight of the optical cable can be reduced, thereby making it possible to achieve weight reduction and miniaturization.

1 is a schematic cross-sectional view of an optical cable according to the prior art,
2 is a schematic cross-sectional view of an optical cable according to the present invention.

Hereinafter, an embodiment according to the present invention will be described.

2 is a schematic cross-sectional view of an optical cable according to the present invention.

As shown in FIG. 2, the present invention provides an optical cable for pneumatic laying, comprising: a core 10 positioned at the center of the optical cable to provide a tensile force; A plurality of loose tubes 20 assembled on the circumferential surface of the central core 10 and having a plurality of optical fibers 21 mounted in the tubes 23; A waterproof tape (30) bound to the circumferential surface of the loose tube (20) to block moisture; And a sheath (50) wrapped around the circumference of the waterproof tape (30) to block the external environment; And a waterproof yarn (40) filled in the inner space of the loose tube (20) and the inner space of the waterproof tape (30) to protect the center core (10) and the loose tube (20) .

The optical cable 1 according to the present invention has a structure in which the loose tube 20, the waterproof tape 30 and the outer skin 50 are gathered or sealed on the circumferential surface of the center line 10 , It is added that the outer diameter and weight of the optical cable (1) are minimized by mounting the airflow preventing member (40) in the inner space of the roof tube (20) or the outer shell (50) .

The core wire 10 is disposed at the center of the optical cable 1 to provide a tensile force, and FRP is preferably used as the material.

The loop tube 20 collects in the SZ manner on the circumferential surface of the center line 10 and performs a communication function. The tube 23 constitutes the outer appearance of the loose tube, A plurality of strands of optical fibers 21 mounted on the tube 23, and a room 40 to be filled in the inner space of the tube 23. [

At this time, the diameter of the loose tube 20 ranges from 1.4 to 1.8 mm. In particular, the optical fiber 21 is preferably twelve cores.

It is preferable that the loose tube 20 has a communication function by arranging about 2? 18 around the center line 10.

In addition, the waterproof rope 40 protects the optical fiber 21 from an external impact and prevents moisture from being infiltrated while being mounted on the tube 23.

The waterproof tape 30 covers the periphery of the loose tube 20 to prevent penetration of moisture and foreign matter and also improves the tensile strength of the optical cable 1. The material of the waterproof tape 30 is, A waterproof material such as aramid yarn, which is known to have a very low shrinkage due to abrasion, is preferred.

At this time, it is preferable that the waterproof tape 30 is bound to prevent loosening of the loose tube 20 coupled around the center line 10.

Also, it is preferable that the thickness of the waterproof tape 30 is set to 5000 Tex (TEX) or less to minimize the volume.

The outer cover 50 is coated on the circumference of the optical cable 1 to block the penetration of external environment such as moisture or foreign matter. Examples of the material include polyethylene (PE), polyvinyl chloride (PVC), Hytrel hytrel, polypropylene, and nylon are preferable.

Further, it is preferable to provide a rib cord on the inner wall of the outer shell 50 to improve the convenience in the peeling process.

The roving tube 40 is filled in the loose tube 20 and the waterproof tape 30 to waterproof the core 10 and the loose tube 20, (21) from an external impact and absorbs moisture penetrating into the waterproof tape (30).

Description of the Related Art [0002]
10: Center line 21: Optical fiber
23: tube 30: waterproof tape
40: room 50: envelope

Claims (3)

As an optical cable for pneumatic laying,
A core 10 positioned at the center of the optical cable to provide a tension force;
A plurality of loose tubes 20 assembled on the circumferential surface of the central core 10 and having a plurality of optical fibers 21 mounted in the tubes 23;
A waterproof tape (30) bound to the circumferential surface of the loose tube (20) to block moisture;
A sheath (50) wrapped around the waterproof tape (30) to block the external environment;
;
(40) filled in the inner space of the loose tube (20) and the inner space of the waterproof tape (30) to protect the center core (10) and the loose tube (20);
And a waterproof structure of the optical cable for pneumatic laying.
2. The apparatus of claim 1, wherein the loose tube (20)
Characterized in that the diameter is in the range of 1.4 to 1.8 mm.
The waterproof tape (30) according to claim 1, wherein the waterproof tape (30)
Wherein the waterproof structure of the optical cable for pneumatic laying is characterized by being an aramid yarn.

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