KR100327517B1 - Optical drop wire - Google Patents

Abstract

The present invention relates to a lead wire for an optical cable.

According to the present invention, a concave groove 11 is formed at one side along the longitudinal direction, and at the center thereof, a cable housing 10 having one or more optical core wires 12 embedded therein, and an outer peripheral surface of the cable housing 10. Is enclosed in the sheath 20 to protect it from the external environment and the concave groove 11 of the cable housing 10 to seal the concave groove 11 from the outside and to separate the center of the optical core 12 from the outside. It is characterized by consisting of a cover 30 to prevent.

Such an optical wire according to the present invention has a smaller volume and lighter weight than conventional optical cables and is easy to handle, and can effectively supply two or more optical fibers to a subscriber's home. In addition, the optical fiber can be effectively protected from external pressure or impact, and can be easily installed by utilizing existing home wiring.

Description

Lead wire for optical cable {OPTICAL DROP WIRE}

The present invention relates to an optical cable lead wire for an optical communication network, and more particularly, to an optical lead wire for supplying an optical cable to a subscriber's home.

At present, with the advancement of the information communication network all over the world, the optical fiber network for establishing the high-speed information communication base is gradually spreading. Accordingly, the necessity of supplying an optical cable for providing broadband service to subscribers has been raised.

In order to supply the optical cable to the subscriber's premises, it must be supplied from the junction point in the basement or the electric pole near the subscriber. The optical cable is made of several strands of optical fiber and its outer diameter is large and heavy so it is economically inefficient to supply it directly. Therefore, by adopting a lighter and thinner diameter incoming wire, economical and convenient construction is possible by utilizing existing wiring in the subscriber's home.

FIG. 1 shows the structure of a light lead wire currently used in part, and the existing light lead wire 1 is provided to supply a single optical fiber 3 to a subscriber. The optical fiber 3 is surrounded by the sheath 4 and is thereby protected by being located between two strands of iron cores 2 arranged in parallel.

That is, one strand of the optical fiber 3 is able to be bent in any direction 360 °, because the optical fiber 3 has a characteristic that is vulnerable to stretching, it is easily broken when sudden bending occurs in any direction. However, by arranging the iron cores 2 on both sides of the optical fiber 3 as described above, the bending direction can be limited to the upper or lower direction. At this time, the arrangement of the iron core wires (2) in both up and down excessively increases the volume and weight of the light incoming wire (1) and is not preferable in terms of handleability.

However, even in this case, the possibility of abrupt bending in the upward or downward direction still remains, and thus, the optical lead wire 1 is wound around its outer circumference by using a support line having a constant diameter (not shown). This prevents damage to the optical fiber 3.

In addition, in the case of the optical lead wire 1, the optical fiber 3 is tightly enclosed by the sheath 4, so that it is not easy to pull out the optical fiber 3.

The present invention is to solve the conventional problems as described above, the present invention is small volume and light, but can safely protect the optical fiber from the external environment, such as damage caused by rapid bending, easy handling and easy installation and construction The purpose is to provide a light incoming line.

The present invention for achieving the above object, a concave groove is formed in one side along the longitudinal direction, the center of the cable housing and one or more optical core wires are embedded, and the outer peripheral surface of the cable housing is covered with this It is characterized by consisting of a sheath to protect from the environment, and a cover which is assembled to the recessed groove of the cable housing to seal the recessed groove from the outside and at the same time to prevent the center of the optical fiber is separated.

1 is a cross-sectional perspective view showing a conventional light lead-in line,

Figure 2 is a sectional perspective view showing a light lead line according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: Cable housing 11: Concave groove

12: optical fiber 20: sheath

30: cover 40: water expansion index

Such a characteristic configuration of the present invention and its effects will be more apparent through the detailed description of the embodiments with reference to the accompanying drawings.

As shown in FIG. 2, the optical lead wire according to the present invention includes a cable housing 10 in which a concave groove 11 is formed along a length direction and an optical core line 12 is embedded therein, and the cable housing 10. The cover 20 surrounds the outer circumferential surface of the crankcase and the cover 30 which is assembled to the concave groove 11 of the cable housing 10 and seals the inside thereof.

It is preferable that the optical lead wire has a high elasticity to prevent the embedded optical core 12 from being damaged by sharp bending, and for this purpose, the cable housing 10 is formed of a metal material having a high elastic modulus or In addition, the cable housing 10 may be formed of a resin material, but may be formed together with aramid fibers to maintain longitudinal rigidity. In addition, the cable housing 10 may be applied to a variety of methods, such as made of a material such as glass fiber reinforced plastics (Fiberglass Reinforced Plastics).

The concave groove 11 is formed from one side of the cable housing 10 toward the center, and one or more optical core wires 12 are embedded in the center thereof. At this time, the optical fiber 12 has a length slightly longer than the length of the cable housing 10 so as not to be affected by the length change due to the shrinkage or expansion of the cable housing 10 due to the change in the ambient temperature of the cable, such as seasonal changes. It is desirable to.

The concave groove 11 is sealed from the outside by a cover 30 fitted into the assembly, and prevents the cover 30 from being pushed into the concave groove 11 by the bending of the cable housing 10. An inclined surface is formed in the inlet portion of the concave groove 11 so as to form fixing blades 31 corresponding to the inclined surface on both sides of the outer surface of the cover 30. This prevents the cover 30 from being pushed into the inside of the concave groove 11 so as to be located on the outer side in the bending direction to press the optical core line 12. On the other hand, as a method of preventing the cover 30 from being pushed into the concave groove 11 can be applied in various structures in addition to the above.

The cover 30 protects the optical core 12 by blocking the recess 11 from the outside, and the optical core 12 is separated from the center of the recess 11 by bending of the cable housing 10. Will be prevented. Accordingly, the cover 30 and the concave groove 11 form an uneven portion on the contact surface or are firmly fixed using an adhesive or the like. In some cases, it may be possible to attach the water-expandable index 40 to the inner circumferential surface of the cover 30 so as to protect the optical fiber 12 from the penetration of moisture.

The sheath 20 is responsible for the general function of protecting the cable housing 10 from the external environment.

On the other hand, as another feature of the present invention, the cover 30 is divided into the sheath 20 or the cable housing 10 by the outer shape, withdraw the optical core 12 embedded in the concave groove 11 during the cable operation The point which facilitated this is mentioned.

This can be distinguished by sight or touch by treating the outer surface of the cover 30 to a flat surface as shown, and the color of the cover 20 and the color of the outer surface of the cover 30 are not shown. It is also possible to apply a method that makes identification easier by differently.

As described above, the optical lead wire according to the present invention has a smaller volume and lighter weight than conventional optical cables, and is easy to handle, and can effectively supply two or more optical fibers to a subscriber's home. In addition, it is possible to effectively protect the optical fiber from external pressure or impact by increasing the elastic modulus by constructing the material of the cable housing with metal, resin containing aramid fiber, etc. It can be easily installed by utilizing existing home wiring without using.

Claims (6)

As a lead wire for supplying optical cable to subscriber's premises, It is made of a high elastic material, the concave groove 11 is formed so as to include a central portion from one side in a straight line along the longitudinal direction, the cable housing in which one or more optical core wires 12 are embedded in the central portion ( 10); A sheath (20) coated on an outer circumferential surface of the cable housing (10) to protect the cable housing (10) from an external environment; The cover 30 is assembled to the concave groove 11 of the cable housing 10 to seal the concave groove 11 from the outside and at the same time prevent the departure of the central portion of the optical core line 12; Lead wire for optical cable. delete The cable wire according to claim 1, wherein the bottom surface of the cover (30) is flattened so as to be distinguished from the sheath (20) or the cable housing (10) in appearance. The cable wire according to claim 1, wherein a fixing blade (31) is formed on an outer circumference of the cover (30) to prevent the cover (30) from being pushed into the concave groove (11). delete 2. The cable according to claim 1, wherein a water expansion index member (40) is attached to the inner circumferential surface of the cover (30) to prevent the penetration of water.