JPH0282479A - Post for reducing grounding resistance and reduction of grounding resistance - Google Patents

Abstract

PURPOSE:To reduce the surge-impedance of the earthing conductor of a lightning arrestor with grounding resistance reduced by composing a hollow post body with an optional insulation post material, and providing a conductive material on the inner wall surface of the hollow post body. CONSTITUTION:A hollow post body 2 is composed of an optional insulation post material, and a conductive material 1 is provided on the inner wall surface of the body 2. This causes the outer wall surface to be insulated with an insula tion material, a hollow post body made to low surge-impedance to be obtainable, consequently electric current is unflowing on the surface, the hollow post body as an overhead wire supporting body is safe for a human organism, and the surge-impedance of the earthing conductor of a lightning arrestor can be re duced.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a grounding resistance reducing column and a grounding resistance reducing method thereof, and more specifically, to a column made of any insulating material such as concrete, plastic, etc. The present invention relates to a grounding resistance reduction column of a hollow column body, which aims to reduce the surge impedance of a lightning arrester grounding wire by reducing the grounding resistance of the hollow column body.

[Conventional technology and its problems]

Conventionally, centrifugal reinforced concrete columns (hereinafter abbreviated as concrete columns) have been used in large quantities to support overhead electric wires. It is known that the so-called utility poles used to support overhead power lines are not only required to have an insulating function, but also to have appropriate grounding resistance to reduce the effects of lightning strikes, switching surges, etc. .

In order to achieve these requirements, current efforts are being made to reduce surge impedance by adopting a conductive structure using copper as the material, for example. This is done by running vinyl insulating tape electric wires (0.15 mm thick x 40 mm wide) perpendicularly to the external surface of the concrete column.

However, with this method, the surge impedance was still insufficient for the frequency of steep waves.

With the development of new conductive materials, there has been a demand for even lower surge impedance.

For reference, the magazine "Denki Hyoron: 1985゜8 Lightning Protection Construction, pp. 32-39" is cited as a document based on quantitative experiments on low surge impedance.

[Means for Solving the Problems] In order to solve the above-mentioned problems of the prior art, the ground resistance reducing pillar according to claim (1) of the present invention has the following features: They constructed a hollow columnar body and attached a conductive material to the inner wall surface of this hollow columnar body.

As described in claim (2), the conductive material may be a conductive polymer film, a powder, and/or a liquid, and the conductive material may be a metallic film, a conductive column, etc. , or a conductive plate.

Further, it is preferable that the insulating column material is concrete containing Portland cement as a main material and 10 to 20% by weight of silica fume mixed therein.

In order to solve the problems of the prior art described above, the grounding resistance reduction method according to the present invention, in claim (5), comprises the steps of: forming a hollow column from any insulating column material; The solution was to apply a conductive material to the inner wall surface to reduce impedance.

Further, as described in claim (6), as a method for applying the conductive material more simply and uniformly in thickness, the conductive material is a carbon fiber-based conductive liquefied polymer, and the electrolytic liquefied polymer is applied using a small sprayer. It is preferable to use a method of inserting this small sprayer along the inner wall surface of the hollow column and spraying.

Furthermore, as described in claim (7), in order to ensure that the carbon fiber-based conductive liquefied polymer is sufficiently applied and exhibits the most conductive function, the spraying of the liquefied polymer by the small sprayer is substantially effective. 0. 5mm is done, then
It is preferable to dry cure at 70 to 85°C.

As mentioned above, concrete columns are usually made into cylindrical hollow columns to save material and increase bending strength. In the present invention, conductive polymers, metal sheets, metal layers, etc. are installed using the inner wall surface of the hollow column to achieve low surge impedance.

As the above-mentioned conductive material, it is possible to use conventionally well-known metal conductors such as iron, aluminum, copper, etc., as well as recently developed insulating polymers and conductive fillers such as aluminum fibers and steel. Composites of fibers, carbon fibers, graphite, etc. that give conductivity, or polymer structures that exhibit extremely high conductivity (unit symbol: Scm-') even though they are organic substances, and are actually conjugated There are systems in which the main chain of the polymer has double bonds and single bonds repeating alternately. In addition, appropriate impurities called "dopants" may be actively added to increase electrical conductivity.

In addition, as the principle of conductive polymer and its examples, "Katsumi Yoshino:
Journal of the Institute of Electrical Engineers of Japan 1985. I will refer to IIJ as a reference.

The material for the hollow column of the present invention is not limited to concrete and plastic, but any existing material may be used as long as it can form an insulating structure.

[For production]

With the above configuration, we have adopted a simple structural improvement and method that utilizes the existing inner wall surface of this type of column, which is originally hollow for reasons such as saving materials, and simply attaches a conductive material to this inner wall surface. By simply doing this, the grounding resistance of the column can be reduced.

In addition, the weight ratio is 10 using Portland cement as the main material.
When the column is made of concrete mixed with ~20% silica fume, the hollow inner wall surface can be formed smoothly, making it easy to attach the conductive material.

[Example] Hereinafter, an example of the grounding resistance reducing pillar and its grounding resistance reduction according to the present invention will be described based on the drawings.

As shown in Figs. 1 and 2, small concrete columns were created as ground resistance reduction columns.

This concrete column 2 is mainly made of Portland cement with a weight ratio of 15% in order to have a smooth inner wall surface.
Silica fume (silica gas generated when manufacturing ferrosilicon is collected, SiO□ is 93-9
8%, specific surface area approximately 200,000 cm2/g; cigarette smoke is 10
It was manufactured using a device that applied centrifugal force using fresh concrete mixed with 10,000 cm2/g). As a result, a smoother finish was obtained on the inner wall surface of a conventional concrete hollow body.

In this molding, the concrete contained in the formwork was steam-cured until it reached demolding strength, and then the formwork was removed.

As a result of experiments, the silica fume has a content of about 10 to 20%.
It has been found that a weight ratio of 100 to 100% is sufficient to achieve the above-mentioned purpose of smoothing.

A plurality of reinforcing bars 3 are arranged in the circumferential direction so as to extend along the axial direction of the concrete column 2 in order to increase the strength. The reinforcing bar 3 is PC in this embodiment.
A cage-like structure of steel wire is used. A capacitor is coupled to this reinforcing bar 2 so that it can be used for the synergistic effect of lowering surge impedance.

(2) is a conductive material and is provided on the inner wall surface of the concrete column 2. In this embodiment, the conductive material 1 is made of a conductive polymer, and a carbon fiber-based conductive liquefied polymer is put into a small sprayer, and the small sprayer is inserted along the inner wall surface of the concrete column 2. It was evenly sprayed from the tip of the nozzle and applied to a thickness of about 0.5 mm.Then, both ends of the concrete column 2 were covered and dried and cured at 70 to 85°C for about 1 hour. Thus, the solidified sheet-like conductive material 1 was attached to the inner wall surface. The conductivity of this conductive polymer sheet is about 10''Scm-' (unit symbol Scm-').

In addition, the above-mentioned conductive material 1 and hollow column (concrete column 2)
The equivalent of the insulating pillar material is as follows.

■ A doped polypyrrole film with a thickness of 500 μm is attached directly to the inner wall surface of the concrete column 2.

This polypyrrole film 1 was produced by an electrolytic polymerization method. (For example, see Metal, Yoshino; Functional Materials) (2) A polyphenylene vinylene film is pasted as a conductive material on the inner wall surface of the concrete column 2. This polyphenylene vinylene film is obtained by preparing a film of a polymer precursor in advance and then heat-treating the film. (For example, Moto Murase, Toshihiro Onishi, Kiminobu Noguchi, Masaaki Hirooka Institute of Electrical Engineers of Japan Insulating Materials Research Materials 1985. No. 7
1-83, pp. 9-16) That is, by applying a polymer precursor film with a thickness of about 1 mm to the hollow inner wall surface of a concrete column, and then heat-treating it at about 200°C for 2 hours, the inner wall surface of the hollow concrete column was coated. A polyphenylene vinylene film was formed. Then, this was further heat-treated at about 900'C for about 1 hour to obtain a film having an electrical conductivity of about 1033 cm-'.

It should be noted that similar conductivity could be obtained by exposing to SO3 gas or doping with SO3 without performing the second heat treatment.

In addition, by preparing a polyphenylene vinylene film in advance and pasting it on the inner wall surface of the concrete column, it was possible to reduce the surge impedance of the concrete column.

Specifically, it is a 400 μm thick film doped with arsenic pentafluoride (AsF), with a conductivity of about 10'S on the inner wall surface.
cm-'.

■ A 2mm thick steel plate was attached to the inner wall of concrete column 2. As a result, the surge impedance inside the concrete column was approximately 96 ohms (Ω) on average.

■ Here, a polyvinyl chloride pipe was created as a hollow column instead of concrete column 2.

Ferric chloride (F) is applied to the inner wall of this PVC pipe.
After applying a solution of eC13) dissolved in chloroform, virol was contacted in gaseous form. In this case, ferric chloride acted as a catalyst, and a polypyrrole layer was formed on the inner wall surface of the polyvinyl chloride pipe. For the synthesis method using ferric chloride as a catalyst, see "Yoshino et al.; European Journal of the Japan Society of Applied Physics, Jpn, J., Appl, Phys."

As a result, the conductivity of the inner wall surface of the polyvinyl chloride pipe was approximately 1023 cm-'.

It goes without saying that other than the above-mentioned materials, existing equivalent materials may be used.

〔Effect of the invention〕

According to the grounding resistance reduction pillar according to claim (1) of the present invention, the outer wall surface is insulated by the insulating material, and the ground resistance is reduced by a low surge.
It is possible to obtain an impedanced hollow column, and there is an advantage that current does not flow through the surface, making it safe for humans as an overhead wire support, and reducing the surge impedance of the lightning arrester grounding wire.

By using the conductive material according to claim (2), simple means such as adhesion or spraying can be used, and manufacturing costs can be reduced.

Furthermore, by using the conductive material according to claim (3),
Similarly, there is an advantage that it can be installed by simply attaching means such as adhesion without requiring any equipment for spraying.

In addition, as described in claim (4), by using special concrete as the insulating pillar material, the smoothness of the inner wall surface is increased, and the conductive material can be automatically attached to the inner wall surface by gluing or spraying. It can be easily equalized.

According to the grounding resistance reduction method according to claim (5) of the present invention, the above-mentioned grounding resistance reducing pillar can be obtained by a simple method of applying a conductive material to the inner wall surface of the hollow pillar. It can be done.

Moreover, according to the method described in claim (6), it is possible to apply the conductive material more easily and uniformly in thickness.

Furthermore, according to the method described in claim (7), the carbon fiber-based electrically conductive liquefied polymer can be sufficiently applied and can exhibit the most electrically conductive function.

[Brief explanation of the drawing]

The drawings show a hollow columnar body according to an embodiment of the grounding resistance reducing column according to the present invention, FIG. 1 is a joint cross-sectional side view of the main part of the hollow columnar body, and FIG. It is a sectional view taken along the line A.

Claims (7)

[Claims] (1) A grounding resistance reducing column, characterized in that a hollow column is formed of any insulating column material, and a conductive material is attached to the inner wall surface of the hollow column. (2) The conductive material is a conductive polymer film, powder,
The grounding resistance reducing pillar according to claim 1, characterized in that it is a liquid and/or a liquid. (3) The ground resistance reducing pillar according to claim (1), wherein the conductive material is a metallic film, a conductive pillar, or a conductive plate. (4) The insulating column material is concrete made of Portland cement as the main material and 10 to 20% by weight of silica fume mixed therein.
1) The grounding resistance reducing pillar according to any one of claims (3). (5) A method for reducing ground resistance, which comprises forming a hollow column using any insulating column material, and applying a conductive material to the inner wall surface of the hollow column to make the impedance low. (6) The conductive material is a carbon fiber-based conductive liquefied polymer, and the liquefied polymer is placed in a small sprayer, and the small sprayer is inserted and sprayed along the inner wall surface of the hollow column. The grounding resistance reduction method described in (5). (7) The method for reducing ground resistance according to claim 6, characterized in that the liquefied polymer is sprayed to a depth of substantially 0.5 mm using the small sprayer, and then dried and cured at 70 to 85°C.