CN214170117U - Durable firm signal transmission tower casing that corrosion resistance is strong - Google Patents

Abstract

The utility model relates to a signal transmitting tower shell with strong corrosion resistance, durability and firmness, which comprises a shell body, wherein a conductive anti-corrosion coating base layer and a conductive anti-aging anti-corrosion coating layer are sequentially arranged on the surface of the shell body from inside to outside; the surface of the shell body is provided with a boronizing layer, and the outer surface of the boronizing layer is provided with a plastic powder layer. This technical scheme is on the basis of using the metal material of current conventional use, behind boronizing and the plastic powder coating layer, the corrosion resisting property and the tightness on the surface of signal transmission tower casing have been improved, the reunion adopts and has electrically conductive anticorrosive paint basic unit and electrically conductive ageing-resistant anticorrosive paint layer, the corrosion resisting effect has been improved, and, even if two-layer anticorrosive coating of casing body surface loses the back, because the use on boronizing layer and plastic powder layer, also can guarantee the corrosion resisting property of signal transmission tower casing, and the use on plastic powder layer, can improve the degree of combination with electrically conductive anticorrosive paint basic unit, further improve corrosion resisting effect.

Description

Durable firm signal transmission tower casing that corrosion resistance is strong

Technical Field

The utility model relates to a signal transmission equipment technical field especially indicates a strong durable firm signal transmission tower casing of corrosion resistance.

Background

The existing signal transmitting tower or high-voltage transmission is made of metal towers, and the metal towers are subjected to larger corrosion in outdoor environment to influence the service life, so that a signal transmitting tower shell and the like are required to have higher corrosion resistance. In order to achieve the corrosion resistance of the signal transmitting tower shells, a corrosion-resistant metal plate or a metal alloy plate is generally selected for preparation, and the surface of the metal plate or the metal alloy plate is subjected to corrosion-resistant treatment.

However, the anticorrosion treatment of the currently used signal transmitting tower shell cannot realize complete anticorrosion, in order to prolong the service life of the signal transmitting tower and reduce the corrosion of the external environment, the surface anticorrosion maintenance of the signal transmitting tower shell is required to be carried out every few years, thus increasing the maintenance cost of the signal transmitting tower shell, and the anticorrosion maintenance is carried out at high altitude, so that the maintenance is inconvenient, the risk of maintenance personnel is high, and the corrosion possibility of the position cannot be maintained, but is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a strong durable firm signal transmission tower casing of corrosion resistance to solve the problem that the corrosion resistance and the tightness of the signal transmission tower casing that prior art used are not enough.

The utility model discloses a realize through following technical scheme:

a signal transmitting tower shell with strong corrosion resistance, durability and firmness comprises a shell body, wherein a conductive anti-corrosion coating base layer and a conductive anti-aging anti-corrosion coating layer are sequentially arranged on the surface of the shell body from inside to outside;

the surface of the shell body is provided with a boronizing layer, and the outer surface of the boronizing layer is provided with a plastic powder layer.

Preferably, the thickness of the boronizing layer is greater than that of the plastic powder layer.

Preferably, the thickness of the plastic powder layer is 30-200 nm.

Preferably, the thickness of the molding powder layer on the inner surface of the housing body is smaller than that of the molding powder layer on the outer surface of the housing body.

Preferably, the inner surface of the shell body is not provided with the plastic powder layer.

Preferably, the thickness of the conductive anticorrosion coating base layer is larger than that of the conductive anti-aging anticorrosion coating layer.

Preferably, the thickness of the conductive anticorrosion coating base layer of the inner surface of the shell body is the same as that of the conductive anticorrosion coating base layer of the outer surface of the shell body; the thickness of the conductive anti-aging anti-corrosion coating layer on the inner surface of the shell body is smaller than that of the conductive anti-aging anti-corrosion coating layer on the outer surface of the shell body.

The utility model has the advantages that:

this technical scheme is used for preparing the material of signal transmission tower casing on the basis of using german series aluminum alloy material, after boronizing and spraying the plastic powder layer, the corrosion resisting property and the tightness on the surface of signal transmission tower casing have been improved, the recombination adopts and has electrically conductive anticorrosive coating basic unit and electrically conductive ageing-resistant anticorrosive paint layer, the corrosion resisting effect has been improved, and, even if two-layer anticorrosive coating of casing body surface loses the back, because the use on boronizing layer and plastic powder layer, also can guarantee the corrosion resisting property of signal transmission tower casing, and the use of plastic powder layer, can improve the degree of combination with electrically conductive anticorrosive coating basic unit, further improve anticorrosive effect.

Drawings

Fig. 1 is a schematic cross-sectional view of any portion of the signal transmitting tower casing according to the present invention.

Description of the reference numerals

1. The shell comprises a shell body, 2 a boronizing layer, 3 a plastic powder layer on the outer surface of the shell body, 4 a conductive anticorrosive coating base layer on the outer surface of the shell body, 5 a conductive anti-aging anticorrosive coating layer on the outer surface of the shell body, 7 a plastic powder layer on the inner surface of the shell body, 8 a conductive anticorrosive coating base layer on the inner surface of the shell body, and 9 a conductive anti-aging anticorrosive coating layer on the outer surface of the shell body.

Detailed Description

The technical solutions of the present invention are described in detail below by way of examples, which are only exemplary and can be used only for explaining and explaining the technical solutions of the present invention, but should not be construed as limiting the technical solutions of the present invention.

As shown in fig. 1, the present application provides a signal transmitting tower shell with strong corrosion resistance, durability and firmness, which comprises a shell body 1, wherein a conductive anti-corrosion coating base layer and a conductive anti-aging anti-corrosion coating layer are sequentially arranged on the surface of the shell body from inside to outside.

In the technical solution of the present application, the material of the housing body is german aluminum alloy, and other metals or metal alloy materials may be selected according to needs in other embodiments of the present application, which will not be described in detail herein.

In the technical scheme of the application, the composition of the conductive anti-corrosion coating base layer and the composition of the conductive anti-aging anti-corrosion coating layer are conventional coatings which are used at present, only the conventional coating with the conductive performance is required to be selected, and the use of the conductive coating enables the shell of the signal transmitting tower to be conductive better, so that the local battery effect caused by poor conductive performance in a thunderstorm environment is prevented, and the overall anti-corrosion performance is damaged. In the technical solution of the present application, generally, the two layers of the coating are both the coating containing the graphene component, and of course, other coatings with conductive compositions are also applicable to the technical solution of the present application.

The surface of casing body is provided with boronizing layer 2, and in the technical scheme of this application, the preparation of boronizing layer adopts present conventional boronizing technique, does not explain here, and the adoption of boronizing layer is used for improving the intensity of signal transmission tower casing on the one hand among this technical scheme, and on the other hand also utilizes the boronizing layer to improve the corrosion resisting property of signal transmission tower casing.

The outer surface of the boronizing layer is sprayed with the plastic powder layer, in the technical scheme of the application, the plastic powder layer is made of conventional polymer plastics which can be used for corrosion prevention and can be purchased in the market, and the specific types of the polymer plastics can be selected according to different requirements, so that detailed description is omitted.

The thickness of the boronizing layer is larger than that of the plastic powder layer, and the thickness of the plastic powder layer is 30-200 nm.

In other embodiments of the present application, the thickness of the molding powder layer 7 of the inner surface of the housing body is smaller than the thickness of the molding powder layer 3 of the outer surface of the housing body. Since the inner surface of the case body is not directly in contact with the outside, the corrosion resistance is superior to the aging resistance, and the corrosion resistance is less than that of the outer surface of the case body, the above selection is made from the cost reduction analysis.

In other embodiments of the present application, the inner surface of the case body is not provided with a plastic powder layer.

The thickness of the conductive anti-corrosion coating base layer is larger than that of the conductive anti-aging anti-corrosion coating layer.

The thickness of the conductive anticorrosive paint base layer 8 on the inner surface of the shell body is the same as that of the conductive anticorrosive paint base layer 4 on the outer surface of the shell body; the thickness of the conductive anti-aging anti-corrosion coating layer 9 on the inner surface of the shell body is smaller than that of the conductive anti-aging anti-corrosion coating layer 5 on the outer surface of the shell body.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A signal transmitting tower shell with strong corrosion resistance, durability and firmness is characterized by comprising a shell body, wherein a conductive anti-corrosion coating base layer and a conductive anti-aging anti-corrosion coating layer are sequentially arranged on the surface of the shell body from inside to outside;

the surface of the shell body is provided with a boronizing layer, and the outer surface of the boronizing layer is provided with a plastic powder layer.

2. The robust, corrosion resistant signal transmission tower housing of claim 1, wherein said boronized layer has a thickness greater than a thickness of said plastic powder layer.

3. The robust and robust corrosion-resistant signal tower housing of claim 1, wherein said plastic powder layer has a thickness of 30-200 nm.

4. The tower housing of claim 1, wherein the plastic powder layer on the inner surface of the housing body has a thickness less than the plastic powder layer on the outer surface of the housing body.

5. The tower housing of claim 4, wherein the housing body is free of a plastic coating on the inner surface.

6. The robust, corrosion resistant signal tower housing of claim 1, wherein said conductive corrosion protection coating base layer has a thickness greater than a thickness of said conductive aging resistant corrosion protection coating layer.

7. The robust, corrosion resistant signal tower housing of claim 1, wherein the electrically conductive anticorrosion coating base layer of the interior surface of the housing body has a thickness that is the same as the thickness of the electrically conductive anticorrosion coating base layer of the exterior surface of the housing body; the thickness of the conductive anti-aging anti-corrosion coating layer on the inner surface of the shell body is smaller than that on the outer surface of the shell body.

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