KR100996483B1 - Hybrid cable - Google Patents

Abstract

PURPOSE: A hybrid cable is provided to prevent the deterioration of transmitting an optical signal due to the bending and twist of an optical fiber. CONSTITUTION: A pair of power cables(140,150), a pair of optical cable, a pair of signal cable, and a pair of tension cables are arranged. The power cables are opposite to each other while having a central tension member(130) between them. The power cable connects power lines cores of a tinned linking wire to each other and has polyethylene coating on the outside of the power cable.

Description

Photoelectric composite cable {Hybrid cable}

The present invention relates to a photoelectric composite cable, and more particularly, to a photoelectric composite cable in which an optical cable for optical communication and a power cable for supplying power and control signals are incorporated together.

In general, optical cables are used to transmit optical signals over long distances. Recently, a single optoelectric hybrid cable has been introduced, in which a power line is added to simultaneously transmit not only an optical signal but also a power source.

However, such a photoelectric composite cable is configured to supply optical signals and power over a relatively long distance, but when the cable is twisted at a long distance, the internal fiber may be affected and the fiber may be broken. Occurs frequently.

In addition, although the power line has a relatively strong force due to the tensile force, in the case of the optical fiber, the tensile strength is very weak so that even if a small tensile force is easily broken, the failure rate of the optical cable is increased.

The present invention is to solve the conventional problems as described above, by placing a central tension line for generating a holding force against the tensile force in the center of the photoelectric composite cable, tension cable for generating tension against bending or twisting And it is an object of the present invention to provide a photoelectric composite cable that prevents a failure of an optical signal due to a breakage, warping or twisting of an optical fiber due to a tensile force by forming a metal braiding shield layer inside the outer shell of the outer side.

In order to achieve the above object, the photoelectric composite cable according to the present invention,
A center tension member disposed at the center of the cable and generating a compressive force against the tensile force to prevent breakage of the optical cable, a pair of power cables disposed around the center tension member, a pair of optical cables, A photoelectric composite cable composed of a cable, a binder tape wound around the outside to fix the cables, and a filling material and a sheath made of a cotton yarn covering an empty space between the cables fixed by the binder tape, silver
And a pair of tension cables which are formed to be smaller than the diameter of the center tensile member and are arranged to be opposed to each other with respect to the center tensile member at both sides and are formed by twisting a plurality of steel wires to generate tension against warping or twisting.

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According to the present invention configured as described above, the center tension member generates a compressive force even when a large tensile force is generated, thereby preventing the optical cable from being cut off, and the power cable is twisted to prevent a voltage drop in transmission over a long distance, There is an effect that can prevent the signal transmission error of the optical cable.

This invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of a photoelectric composite cable according to the present invention, in which a plurality of steel wires are twisted with each other, and a central tension member 130 is formed to generate a force against tensile force. ) Is made of stainless steel to resist corrosion and twisting, and the outer side is coated with nylon.

A pair of power cables 140 and 150, a pair of optical cables 160 and 170, a pair of signal cables 180 and 190, and a pair of tension cables 200 and 210 are disposed outside the center tensile member 130. The power cables 140 and 150 are positioned on both sides of the center tension member 130 facing each other, and each of the power cables 140 and 150 is twisted with a plurality of power line cores made of tin-plated copper wire without coating. And the outer side is coated with a polyethylene sheath to form one power cable.

Thus, the power cables 140 and 150 thus formed are positioned opposite the center tension member 130, which minimizes the voltage drop during long-distance transmission of the power supply.

The pair of optical cables 160 and 170 are also installed to face each other with respect to the center tensile member 130, and the optical cables 160 and 170 are formed of vinyl chloride on the outside of the optical fiber 161 as shown in FIG. Is covered with a coating 162 made of polypropylene.

A buffer layer 163 made of aramid fibers is formed on the outer side of the cover 162. Since the buffer layer 163 made of the aramid fiber layer is very excellent in the yielding force against the tensile force due to its nature, will be.

The outer coating layer 164 made of nylon is formed on the outside of the buffer layer 163 to have insulation of the optical fiber 161 as well as a holding force by tensile force.

Similarly, the pair of signal cables 180 and 190 are arranged to be opposite to both sides of the center tension member 130, and the signal cables 180 and 190 are coated with polyethylene or the like on the outside of the core.

On the other hand, since the central tension member 130 generates the support force due to the tensile force but lacks the support force due to bending or twisting, a pair of tension cables 200 and 210 are additionally disposed around the center tension member 130. .

The tensile cables 200 and 210 have the same structure as the center tension member 130 except that the diameter thereof is smaller than that of the center tension member 130 so that the tension cables 200 and 210 have a certain elasticity against bending or twisting, I have.

The binder tape 120 is wound and fixed to the outside where the respective cables are arranged. At this time, a filler 220 made of cotton yarn is inserted between the inside of the binder tape 120 and the empty space of each cable.

The outer side of the binder tape 120 is a braided braided shield layer 110 is configured to prevent the leakage of power and to protect the inner cables, the outside of the binder tape 120 so as not to be affected by the environment, such as temperature, humidity again A shell 100 made of a polymer material such as polyurethane is constituted.

In the photoelectric composite cable according to the present invention, for example, when using the camera, power is supplied through the power cables 140 and 150, and a control signal for controlling the operation of the camera is applied through the signal cables 180 and 190, and from the camera. The photographed video signal may be transmitted through the optical cables 160 and 170.

1 is a cross-sectional view of a photoelectric composite cable according to the present invention.

2 is a sectional view of an optical cable;

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

100: sheath 110: braided shield layer

120: Binder tape 130: Center tension member

140,150: Power cable 160,170: Optical cable

180,190: Signal cable 200,210: Tension cable

220: filler

Claims (3)

delete A center tension member disposed at the center of the cable and generating a force against tension to prevent breakage of the optical cable, and a pair of power cables and a pair of optical cables, a pair of signals disposed around the center tension member 10. A photoelectric composite cable comprising a cable, a filler tape wound on the outside for fixing each of the cables, and a filler and an outer sheath filling a void space between the cables fixed by the binder tape. silver And a pair of tension cables which are formed to be smaller than the diameter of the center tensile member and are arranged to be opposed to each other with respect to the center tensile member and formed by twisting a plurality of steel wires so as to generate tension against bending or twisting Photoelectric Composite Cable delete

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