KR200273482Y1 - Unified cable - Google Patents

Abstract

The present invention relates to a cable in which a power cable and an optical communication cable are integrally integrated. More specifically, a plurality of power lines and an optical communication cable coated with an insulating layer on a conductor having a constant thickness and a glass tape having good thermal insulation and elasticity on the outer surface of the optical communication cable Forming a layer prevents heat generated from the power cable from conducting to the optical communication cable, and at the same time, it can act as a buffer when an external force is applied, and inserts a filler into the internal space to maintain the circular shape of the cable. It relates to an optical power composite cable that can prevent the flow of the optical cable line.

A plurality of power lines coated with an insulating layer 2 on a conductor 1 of a constant thickness and an optical cable wound with a ribbon optical unit 4 with a glass tape 5 so as to have a triangular shape, and the neighboring conductor power lines And a filler 3 having a circular shape in close contact with the contact portion of the optical cable, and then wound with an outer winding tape 6, and then coated on the outer circumferential surface thereof with a coating layer 7 again. to be.

Description

Optical Power Composite Cables {UNIFIED CABLE}

The present invention relates to a cable in which a power cable and an optical communication cable are integrally integrated. More specifically, a plurality of power lines and an optical communication cable coated with an insulating layer on a conductor having a constant thickness and a glass tape having good thermal insulation and elasticity on the outer surface of the optical communication cable To prevent the heat generated from the power cable from conducting to the optical communication cable and to prevent the buffer and the flow of power lines and optical cables by inserting a filler into the internal space for buffering when external force is applied. The present invention relates to an optical power composite cable.

Since optical and power composite cables used in the past are used as general fillers to prevent the flow of cables in the internal space, heat is conducted to the optical communication cables due to the continuous use temperature (90 ° C) of the power cables, so that the sheath of the optical communication cable This deformation caused the micro bending to the fiber, which caused the transmission loss to increase, and the crack on the core caused a shortening of the service life.In addition, when the external force was applied from the outside during laying, the pressure was applied to the core. This caused the transmission loss of the optical communication cable to further increase.

In addition, since the general type (String type) has been used when the power cable and the optical communication cable are combined, the process is very complicated, and when the filler is not filled evenly, the appearance of the composite cable is poor.

In addition, the number of optical fibers constituting the optical communication cable is limited, such that the complex configuration of a large-capacity optical communication cable is inconvenient.

The present invention has been made to solve such a conventional problem, by forming a glass tape having good heat shielding and elasticity on the outer surface of a plurality of power lines and ribbon optical communication cable coated with an insulating layer on a conductor of a constant thickness from the power cable The purpose of this is to prevent the heat generated from conducting to the optical communication cable and to prevent the flow of the buffer and power line and the optical cable by inserting a filler into the internal space for buffering when external force is applied. .

In order to achieve the above object, a plurality of power lines coated with an insulating layer on a conductor having a constant thickness and an optical cable wound with a glass unit with a glass tape are formed to have a triangular shape, and a circular portion is formed in contact with the neighboring power line and the optical cable. It is designed to reduce the cost of installation and to install cables in subway or building by supplying power supply line and optical cable at the same time by providing that the filler which has the shape of is in close contact with the outer winding tape and then covered with the coating layer on the outer circumferential surface. The reduction in pipeline occupancy has the effect of reducing pipeline utilization efficiency and pipeline occupancy fees.

1 is a longitudinal cross-sectional view of the present invention composite cable

Figure 2 is a longitudinal sectional view of another embodiment of the present invention composite cable

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

(1): conductor (2): insulation layer

(3): filler (4): ribbon optical unit

(5): glass tape (6): outer ring tape

(7): coating layer

Referring to the configuration and operation of the present invention in detail with reference to the accompanying drawings as follows.

1 is a longitudinal sectional view of the present invention composite cable,

Figure 2 shows a longitudinal sectional view of yet another embodiment of the composite cable of the present invention.

A plurality of power lines coated with a conductor 1 of constant thickness with the insulating layer 2 and a ribbon optical cable wound with a ribbon optical unit 4 with a glass tape 5 are formed to have a triangular shape, and the neighboring conductor chain The filler 3 having a circular shape is brought into close contact with the contact portion between the power line and the optical cable, and then wound with the outer circumferential tape 6 and then covered with the coating layer 7 on the outer circumferential surface thereof.

The operation of the present invention is as follows.

The conductor 1 of constant thickness is coated with the insulating layer 2 so as to have a constant thickness to form a power line.

The conductor 1 is a 600V power line as a ground line and a power line.

In addition, after the ribbon optical unit 4 is wound with the glass tape 5, the optical cable is brought into contact with the power line to form a triangular shape.

The filler 3 having a circular shape is brought into close contact with the contact portion of the adjacent power line and the optical cable, and then wound with the outer peripheral tape 6 and then covered with the coating layer 7 on the outer circumferential surface thereof.

The power composite cable having the above structure prevents heat generated from the power cable, which is the conductor 1, from being conducted to the optical communication cable by the glass tape 5, which is a heat-resistant protective material, so that deformation and transmission loss due to heating can be achieved. Since the filler 3 is fully buffered after being laid out, no external force is applied to the optical communication composite cable, thereby preventing transmission loss due to side pressure.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Therefore, the present invention forms a glass tape having good heat shielding and elasticity on the outer surface of a plurality of power lines and ribbon optical communication cables coated with an insulating layer on a conductor having a constant thickness to prevent the heat generated from the power cable from being conducted to the optical communication cable. When the external force is applied at the same time as the zoom, the filler can be inserted into the internal space to prevent the buffer and the flow of the power line and the optical cable, as well as supplying the power supply line and the large-capacity ribbon optical cable at the same time. Reduction and reduction of pipeline share in the subway or building have the effect of reducing pipeline utilization efficiency and pipeline occupancy fee.

Claims (2)

A plurality of power lines coated with a conductor 1 of constant thickness with the insulating layer 2 and a ribbon optical cable wound with a ribbon optical unit 4 with a glass tape 5 are formed to have a triangular shape, and the neighboring conductor chain The optical power composite, characterized in that the filler (3) having a circular shape in close contact with the contact portion of the power line and the optical cable, and then wound around the outer peripheral tape (6) and then coated on the outer peripheral surface again with a coating layer (7) cable. The method of claim 1, Conductor (1) is an optical power composite cable, characterized in that the ground wire and power line 600V power line.