KR20090041662A - Optical fiber composite overhead suspension wire - Google Patents

Abstract

An optical fiber composite overhead suspension wire is provided to reduce the damage of a core while being resistant to a fire and an impact by inserting an optical core into the suspension wire supporting a communication line and power line. An optical compound overhead suspension line(100) is composed of more than one steel wire(110) and an optical fiber(140). The steel wire is the metal alloy or zinc galvanized, and a part of steep wire is coated with a color. The optical fiber surrounds more than one an optic core(150) with a compound jelly(160).

Description

Optical fiber composite overhead suspension wire

The present invention relates to an optical composite processing support wire (OPSW) in which an optical fiber is inserted into a stranded wire added to a distribution column and a power system protection facility is installed without the addition of a physical structure.

Currently, the OPGW network using processing ground has been developed and constructed in transmission lines, and is currently being used for power communication, grid protection, and transmission and transmission automation (SCADA) networks.

In addition, the distribution automation network has also rented and used various communication methods due to the development of IT technology. However, there is no high speed broadband power communication network, which is a core infrastructure facility to properly implement it.

The OPGW network, which utilizes conventional grout wires, is made of a stranded wire made of a highly conductive metal that induces lightning because the main purpose is to prevent lightning, so it is processed in the event of a fire or impact. There is a problem that can cause the loss of the optical core inserted into the branch line.

In addition, when the construction of the optical composite processing line (OPGW), there is a problem that the power failure occurs during construction because the operation of the optical composite processing branch line (OPGW) to cut off the power to work in the truce state.

In order to solve the inconvenience of the prior art, it is possible to construct regardless of whether live or not, and to provide an optical composite processing support wire (OPSW) capable of stable communication without additional facility expansion.

In order to achieve the above object, in the optical composite processing support wire (OPSW) of the present invention, a plurality of optical cores are inserted into the support wire that is installed on the periphery to support a plurality of cables, that is, the coarse wire, and the outside is zinc. Plating with alloys or stainless steel alloys creates reliable and stable power protection lines.

The present invention relates to an optical composite support iron wire (OPSW) and includes an optical fiber therein, and preferably includes at least one steel wire plated with a metal alloy.

In the present invention, one or more of the steel wire is preferably coated with a color.

In the present invention, the metal alloy is preferably a zinc alloy or a stainless alloy.

In the present invention, the optical fiber preferably includes at least one optical core therein.

According to the present invention by inserting the optical core into the communication of the general non-metallic optical cable or the metal communication line and the support steel wire (bare wire) to support the power line, it is resistant to fire and impact, and has the effect of reducing the core damage due to torsion.

In addition, by using the optical core inside the communication instead of the cable that was indiscriminately installed on the support wire, there is an effect of improving the safety of the urban aesthetics and pedestrians.

In addition, since the construction can be performed regardless of whether the track is live or not, it is safe from the danger of an accident that may occur during construction, and there is no need for a separate bracket for a truce, thereby simplifying construction and reducing costs.

In addition, there is an effect of improving the convenience of the user can be installed anywhere without restriction of the distribution system protection.

The barge added to the current distribution line in the big city is very unmaintained. In addition, the responsibilities of the telecommunications carriers, which are the asset owners of Jo, are very vague. In the case of the current disturbance relocation, who first maintains the coarse line should be the subject of a minor dispute among telecommunications operators. do.

In addition, considering the current accidents of the distribution automation network, optical modem reception failures and pure line accidents reach about 80%, and signal instability of the modem receiver impedes the stable operation of the distribution automation network.

In addition, many civil complaints arise due to the indiscriminate establishment of cantilevered facilities, and there are cases in which distribution shares fail to overcome tension of many canned facilities.

This is because OPSW, which has been indiscriminately constructed due to various telecommunications carriers, can achieve two advantages such as power distribution automation network and cantilever maintenance if approached from the perspective of using the overhead line and maintenance of cantilever facilities. In addition, the urban aesthetics can be prevented due to the indiscriminate expansion and maintenance of the ferry line in the densely populated areas of urban areas.

Preferred embodiments of the present invention will be described with reference to the accompanying drawings. In adding reference numerals to components of the following drawings, it is determined that the same components have the same reference numerals as much as possible even if displayed on different drawings, and it is determined that they may unnecessarily obscure the subject matter of the present invention. Detailed descriptions of well-known functions and configurations will be omitted.

1 is a cross-sectional view of a composite cable network with a barbed wire according to an embodiment of the present invention.

Referring to FIG. 1, an optical composite processing support wire (OPSW) includes one or more steel wires 110 and an optical fiber 140.

The steel wire 110 is plated 120 with a metal alloy such as zinc alloy, and some of the steel wire may be colored 130 to distinguish it from a general support wire (barley). In this case, in addition to the method of distinguishing the coating 130 by color, a method such as coating a dead-end grip with color or attaching a nameplate may be used.

The optical fiber 140 is formed by wrapping one or more optical cores 150 with compound jelly 160 to prevent loss of the optical cores 150 during external impact.

The optical core 150 transmits signals such as power lines and communication lines, which have been indiscriminately constructed to the support wires (barleys), through the optical cores to clean the aesthetics of the city and by the load of the support wires (barleys) This can be done by preventing the distribution column from falling down.

According to the present invention, the durability of the existing leased line is weak, and in order to overcome the weak points to impact, fire and artificial cutting, the steel wire of the OPSW wire formed by the support wire and the optical fiber as a metal alloy By plating, it possesses impact, torsion, and fire resistance, so it can stably operate automated protection devices for constant power supply.

In fact, the durability was measured using 8 galvanized steel wires of OPSW, and the tensile strength was 4500KG at 38SQ and the 500KG load resistance, and the fire resistance was measured at 180 degrees for 10 minutes. Therefore, it can be seen that the durability of the optical composite processing support wire (OPSW) is very excellent.

In addition, when the supply of the communication line and the power line is not satisfied only by the optical fiber inside, another line may be provided on the optical composite processing support wire (OPSW) through the U-shaped hanger 300. (See FIG. 3) And, by using the U-shaped hanger, the cable fatigue can be largely overcome.

It can be seen that the optical composite processing support wire (OPSW) performs a role of supporting wire (bare wire) supporting an existing power line and performs various functions such as addition of a conduit facility such as a distribution network protection monitoring network and non-metallic light. have.

The optical composite processing support wire (OPSW) of the present invention is a power line supply support wire (barley) in the case of a mountainous area can be parallel to the communication facility can reduce forest damage and cost for communication cable facilities, high-speed power system It leads to increased power supply operation stability and accelerated device development by establishing an operation network.

In addition, since OPSW is easy to install and is only a support among existing cantilevering facilities, it is possible to suppress indiscriminate expansion of cantilever facilities because it is used as an OPSW as a cantilever management. As a result, the effect of urban aesthetics can be expected.

In addition, it is possible to operate a stable network even in the event of fire in the vicinity of the distribution pole, or impact by other structures.

2 is a view illustrating an optical complex processing support wire (OPSW) according to an embodiment of the present invention.

Referring to Figure 2, using the dead and grip 200 and the ring 210 is a cross-sectional view of the optical composite processing support wire (OPSW) installed in the general distribution line as well as the stool, 280MM used in the middle of the pole The band can be installed and installed without equipment.

As described above, it has been described with reference to a preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

1 is a cross-sectional view of an optical composite processing support wire (OPSW) according to an embodiment of the present invention.

Figure 2 is a view installed optical composite processing support wire (OPSW) according to an embodiment of the present invention.

Figure 3 is a photograph showing the appearance of a separate cable is installed on the optical composite processing support wire (OPSW) using a U-shaped hanger according to another embodiment of the present invention.

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

100: coaxial fiber-optic composite transmission network 110: steel wire

120: plated steel wire 130: colored steel wire

140: optical fiber 150: optical core

160: Compound Jelly 200: Dead and Grip

210: ring ball 300: U-shaped hanger

Claims (4)

An optical composite processing support wire (OPSW) including an optical fiber therein and including one or more steel wires plated with a metal alloy. The method of claim 1, One or more of the steel wire is an optical composite processing support wire (OPSW), characterized in that the coating is colored. The method of claim 1, The metal alloy is an optical composite processing support wire (OPSW), characterized in that the zinc alloy or stainless alloy. The method of claim 1, The optical fiber is an optical complex processing support wire (OPSW), characterized in that it comprises one or more optical cores therein.

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