KR100478943B1 - Corrosion resistant coatings guys for electric pole - Google Patents

Abstract

A corrosion resistance branch line for an electric pole is provided to manufacture portions of an inner insulated conductor and outer stranded wires with hard-drawn copper wires, while fabricating portions of the outer stranded wires with ACSR(Aluminum Conductors Steel Reinforced) wires, thereby improving conductivity and sufficiently supporting a tensile force. An inner insulated conductor(110) is made of hard-drawn copper wires(121) having excellent conductivity, while outer stranded wires(120) dispose aluminum steel reinforced wires(123) having excellent tensile forces and the hard-drawn copper wires(121) in turns. The aluminum steel reinforced wires(123) are formed with synthetic resin coating layers(125) on an external surface thereof, and cut off chemical reactions and corrosion transitions between members by the synthetic resin coating layers(125).

Description

Jeonju Corrosion Resistance Branch Wire {CORROSION RESISTANT COATINGS GUYS FOR ELECTRIC POLE}

The present invention relates to a pole for branch wire, in particular, a part of the inner core wire and the outer stranded wire is made of hard copper wire, and the other part of the outer stranded wire made of galvanized steel wire, the galvanized steel wire is a synthetic resin (PCC, PE By coating, the present invention relates to a corrosion resistant branch wire for electric poles, which is intended to block the transfer of chemical reactions between members and external corrosion.

FIG. 1 is a schematic view showing a general branch branch installation structure, and as shown in the drawing, various cables 50 such as ground processing branch lines, special high voltage lines, neutral lines, low voltage lines, communication lines, etc. Branch line 30 installation work to maintain the balance in the connected state is made.

To this end, a separate fastening band 20 is coupled to the uppermost lower side of the electric pole 10 to which the various cables 50 are connected, and the branch wire 30 connected to the fastening band 20 is piled in a state in which tension is supported. It is fixed to the ground using 40).

This branch line 30 is a common galvanized aluminum conductor (ACSR: Aluminum Conductors Steel Reinforced) is used.

Figures 2a to 2b is a schematic view showing a structure of a general galvanized steel core strand, Figure 2a is a stranded core 31 consisting of seven wires and twisted into one or two or three layers depending on the type of wires to the outside The structure of the galvanized steel core strand which has a form of the composite stranded wire which consists of aluminum stranded wire 35 is shown.

FIG. 2B shows the cross-sectional area of the galvanized steel core wire, and by forming the zinc plating layer 32 on the surface of the steel core wire 31, the steel core wire is combined with the oxygen of the atmosphere to prevent corrosion from rusting.

The branch line 30 of the prior art has a structure in which three metals of iron (Fe), zinc (Zn), and aluminum (Al) are in contact with each other. In the case of electric poles or transmission lines installed near the coastline, When pollutants such as sulfurous acid gas in the industrial area are attached to the branch line 30 and rain enters, moisture penetrates and causes the same action as electrolyte on the contact surface where the three metals are in contact. Is formed.

As a result, the generated corrosion is transferred in the order of aluminum, zinc and iron.

As a result, electrolytic corrosion occurs due to the ionization phenomenon, and the aluminum element wire 33 is weakened as a conductor, and the core wire 31 is weak in mechanical strength, which may cause disconnection.

In addition, this corrosion state is more difficult to identify with the naked eye because the transition is more serious from the inside than from the dry outside, when the worker climbs the pole without knowing the state that the branch wire 30 is corroded, There is a risk of personal injury that falls due to the overturning of 10).

An object of the present invention for solving the above problems is to manufacture a portion of the inner core wire and the outer twisted wire as a hard copper wire, to improve the conductivity to strengthen the role of the ground wire for flowing lightning or fault current to the ground.

Another object of the present invention is to produce a portion of the outer stranded wire with a galvanized steel wire, so that the tensile force of the branch wire is sufficiently supported.

Still another object of the present invention is to prevent galvanized steel wire constituting the outer stranded wire by synthetic resin (PCC, PE) coating, thereby preventing the chemical reaction between the members or the external factors and the corrosion caused by this.

The pole pole corrosion resistance branch wire according to the present invention for achieving the above object is a pole pole wire to wrap the inner core wire and the outer periphery of the inner core wire in the outer strands of several strands, the inner core wire is excellent in conductivity The outer stranded wire is made of a galvanized steel wire having excellent tensile strength and a plurality of hard copper wires having excellent conductivity, and the galvanized steel wire forms a synthetic resin coating layer on its outer surface and is formed by the synthetic resin coating layer. It is characterized in that the chemical reaction and corrosion transition between the members is blocked.

Here, the inner core is characterized in that it is formed of a plurality of strands of copper.

Here, the synthetic resin coating layer is characterized in that made of polyethylene ceramics and ceramics (PCC) material.

Here, the synthetic resin coating layer is characterized in that made of polyethylene (PE) material.

Here, the synthetic resin coating layer is characterized in that formed by the polymer thermal spray coating method.

Here, the copper wire is characterized in that it is manufactured to have a conductivity of 96% or more.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in detail.

Figure 3 is a perspective view showing the structure of the branch line for installation according to the present invention, Figure 4 is a cross-sectional view showing the structure of the branch line according to the present invention.

The corrosion resistant branch line 100 for electric poles according to the present invention as shown in the drawing, the outer strands of several strands to be wrapped around the inner core wire 110 and the outer periphery of the inner core wire 110 largely ( 120).

The inner core wire 110 is made of a hard copper wire excellent in conductivity and corrosion resistance.

At this time, the standard for the copper wire is as defined in KS (Korean Industrial Standard) C3102, when describing the rough physical properties, various thicknesses of wire thickness 0.4mm ~ 12.0mm is used, has a high conductivity of more than 96% , Density of 8.89 g per cm 3.

As described above, the copper copper wire has excellent corrosion resistance and excellent electrical conductivity, and thus serves as a grounding wire that sends an electric current to the ground when an abnormal current flows into the pole.

3 to 4, but the inner core 110 is formed in one strand, it may also form a twisted strand bundle twisted with a plurality of strands.

The outer strand 120 is composed of a configuration in which the galvanized steel wire 123 having excellent tensile strength and the hard copper wire 121 having excellent conductivity are alternately arranged and wound.

At this time, the galvanized steel wire 123 serves to reinforce the strength of the branch line 100, to form a synthetic resin coating layer 125 on the surface.

The synthetic resin coating layer 125 uses a synthetic resin of polyethylene ceramics and ceramics (PCC) or polyethylene (PE) material, thereby obtaining a stronger tensile strength than using only the galvanized steel wire 123.

In addition, the synthetic resin (PE, PCC) coating layer 125 prevents the salts, etc. attached to the surface of the branch line 100 to penetrate the galvanized steel wire 123, thereby causing a chemical reaction and corrosion transition between members. Can be blocked.

At this time, the synthetic resin coating layer 125 is formed by a polymer thermal spray coating method.

Polymeric thermal spray coating is a powder or rod-like coating material having specific properties required for the surface by melting and semi-melting using various heat sources such as plasma in the air or vacuum atmosphere, and then sprayed at high speed to overlay coating ( overlay coating).

In this thermal spray coating operation, the high-speed molten particles collide with the surface of the base material and undergo rapid solidification at the same time as the plastic deformation, and the process is repeated to form a laminated structure macroscopically.

The synthetic resin coating layer 125 formed by using the polymer thermal spray coating method can easily obtain a coating film of the necessary thick film by one coating. (General coating is 100㎛ thick, but thermal spraying can be severalmm thick)

In addition, it has excellent adhesive strength, does not easily peel off the coating film, has high impact strength and flexural strength, has flexibility and high elongation, and has high anticorrosive performance such as chemical resistance, water resistance, and chemical resistance.

Through the technical contents of the present invention having the above configuration, those skilled in the art can recognize that various changes and modifications can be made without departing from the technical spirit of the present invention.

Therefore, the true technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

The present invention has the following effects.

First, the present invention has the effect of strengthening the role of the ground wire for flowing the lightning or fault current to the ground by improving the conductivity by manufacturing a portion of the inner core wire and the outer stranded wire as a hard copper wire.

Secondly, the present invention has an effect of sufficiently supporting the tensile force of the branch wire by manufacturing a part of the outer stranded wire with a galvanized steel wire.

Third, the present invention has the effect of blocking the transmission of the chemical reaction and the resulting corrosion caused by the intermetallic or the galvanized steel wire constituting the outer strand wire synthetic resin (PE, PCC) coating.

1 is a schematic view showing a general branch for installing structure.

Figure 2a to 2b is a schematic view showing the structure of a typical galvanized steel core strand.

Figure 3 is a perspective view showing the branch structure for installing the struts according to the present invention.

Figure 4 is a cross-sectional view showing the structure of the branch line according to the present invention.

Explanation of symbols on the main parts of the drawings

100: branch line 110: inner core line

120: external twisted pair 121: hard copper wire

123: galvanized steel wire 125: synthetic resin coating layer

Claims (6)

In the pole pole wire to wrap the inner core and the outer periphery of the inner core with a plurality of strands of the outer strand, The inner core wire is composed of a hard copper wire having excellent conductivity, and the outer strand is alternately arranged a plurality of galvanized steel wire having excellent tensile strength and a high conductive copper wire, and the galvanized steel wire has a synthetic resin coating layer formed on its outer surface. And corrosion resistance between the members by the synthetic resin coating layer. The method of claim 1, Corrosion resistant branch wire for electric poles, characterized in that for forming the inner core wires in a plurality of strands. The method of claim 1, The synthetic resin coating layer is a corrosion resistant branch line for electric poles, characterized in that made of polyethylene ceramics and ceramics (PCC) material. The method of claim 1, The synthetic resin coating layer is a corrosion resistant branch line for electric poles, characterized in that made of polyethylene (PE) material. The method of claim 1, The synthetic resin coating layer is a corrosion resistant branch line for electric poles, characterized in that formed by a polymer thermal spray coating method. The method of claim 1, The copper wire is a corrosion resistant branch line for electric poles, characterized in that to have a conductivity of more than 96%.