CN218762143U - Connecting pipe rubber anticorrosive lining structure - Google Patents

Abstract

The utility model discloses a take over rubber corrosion resistant lining structure belongs to the anticorrosive technical field of take over, including body, first corrosion resistant lining layer and elasticity compressive layer, the inside of body is provided with first corrosion resistant lining layer, and the inner wall of first corrosion resistant lining layer is provided with elasticity compressive layer, the inner wall of elasticity compressive layer is provided with firm layer, and the inner wall of firm layer is provided with second corrosion resistant lining layer. The beneficial effects of the utility model are that the inside through elasticity compressive layer is transverse arrangement and installs elasticity rubber slab, and the inside of elasticity rubber slab is provided with the crushing ball, be convenient for make the compressive capacity of body better, thereby be convenient for make the life of body longer, the material through third anticorrosive material is high temperature resistant resin, make its corrosion resisting capability better, simultaneously through wear-resisting material be the superfine powder of stereoplasm, and add wear-resisting material through the inside of third anticorrosive material, make the heat-resisting ability and the wear-resisting capability of its second anticorrosive liner layer better.

Description

Connecting pipe rubber anticorrosive lining structure

Technical Field

The utility model relates to a take over anticorrosive field, specifically say a take over rubber anticorrosion lining structure.

Background

The adapter is a short pipe led out from the opening of the container. The device is mainly used for installing instruments for measuring temperature, pressure, liquid level and the like and safety discharge devices, or used as material inlets and outlets, manholes, hand holes and the like. The connecting pipe is connected with the outside through bolts (additionally welded with flanges) or threads. The short, thick and directly outwardly connected pipe is also called a flange. The central line of most of the connecting pipes is consistent with the normal direction of the surface of the shell and is called as a normal connecting pipe, when the connecting pipes are installed, an anti-corrosion lining is installed on the inner walls of the connecting pipes, and the anti-corrosion lining is an unvulcanized, pre-vulcanized or vulcanized rubber plate or sheet for preventing equipment from being corroded. The technology of forming a continuous and isolating covering layer on the working surface of metal or other materials by lining rubber plates is called lining rubber technology, so that a rubber anticorrosive lining structure for connecting pipes is needed to meet the use requirements of people:

(1) Most of connecting pipe rubber anticorrosive lining structures in the current market have poor anticorrosive capability when used for a long time, and easily cause the connecting pipe to be corroded and damaged when used for a long time;

(2) Most of take over rubber anticorrosive lining structures in the existing market, firm degree is relatively poor, causes anticorrosive lining easily when receiving pressure, takes place to break, does not have certain compressive capacity simultaneously to influence anticorrosive lining's life.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a take over anticorrosive lining structure of rubber to solve the problem that proposes in the above-mentioned background art.

The technical scheme of the utility model is that: the utility model provides a take over rubber anticorrosive lining structure, includes body, first anticorrosive lining layer and elasticity compressive resistance layer, the inside of body is provided with first anticorrosive lining layer, and the inner wall of first anticorrosive lining layer is provided with elasticity compressive resistance layer, the inner wall of elasticity compressive resistance layer is provided with firm layer, and the inner wall of firm layer is provided with second anticorrosive lining layer.

Further, the first anticorrosion lining layer comprises a polyester cord material, a first anticorrosion material and a second anticorrosion material, the polyester cord material is arranged inside the first anticorrosion lining layer, the first anticorrosion material is arranged at the top end of the polyester cord material, and the second anticorrosion material is arranged at the bottom end of the polyester cord material.

Furthermore, the elastic rubber plates are transversely arranged in the elastic pressure-resistant layer, and pressure-resistant balls are arranged in the elastic rubber plates.

Furthermore, the shape of the elastic rubber plate is semicircular arc shape, and the material of the elastic rubber plate is elastic rubber.

Furthermore, the inside of firm layer is horizontal mutual staggered arrangement and installs the strengthening rib, and the material of strengthening rib is glass fiber.

Furthermore, the second anticorrosive lining layer comprises a third anticorrosive material and an abrasion-resistant material, the third anticorrosive material and the abrasion-resistant material are arranged in the second anticorrosive lining layer, the third anticorrosive material is made of high-temperature-resistant resin, and the abrasion-resistant material is hard ultrafine powder.

The utility model discloses an improve and provide a take over anticorrosive lining structure of rubber here, compare with prior art, have following improvement and advantage:

one is as follows: the utility model discloses take over anticorrosive lining structure of rubber, through first anticorrosive lining layer, polyester cord material, first anticorrosive material, second anticorrosive material and anticorrosive lining layer of second, design through polyester cord material and first anticorrosive material, and pass through polyester cord material and first anticorrosive material all be the natural rubber composite material who is prepared from natural latex through the mixing technique of wet process, and the molecular structure of natural rubber has been kept, make its first anticorrosive lining layer's anticorrosive effect better, simultaneously through the design of third anticorrosive material and wear-resisting material, and be high temperature resistant resin through the material of third anticorrosive material, make its corrosion resisting capability better, simultaneously through wear-resisting material be the superfine powder of stereoplasm, and add wear-resisting material through the inside of third anticorrosive material, make its anticorrosive lining layer's of second heat-resisting ability and wear-resisting ability better;

the second step is as follows: the utility model discloses take over rubber anticorrosion lining structure, through elasticity compressive layer, elastic rubber board, anti-pressure ball, firm layer and strengthening rib, the inside through elasticity compressive layer is transverse arrangement and installs elastic rubber board, and elastic rubber board's inside is provided with anti-pressure ball, and the compressive capacity of being convenient for to make the body is better, and through the design of strengthening rib, it is better to be convenient for make the body make its fastness through the strengthening rib simultaneously to be convenient for make the life of body longer.

Drawings

The invention is further explained below with reference to the figures and examples:

fig. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the first anti-corrosive lining layer of the present invention;

FIG. 3 is a schematic view of the internal structure of the elastic pressure-resistant layer of the present invention;

FIG. 4 is a schematic view of the firm layer structure of the present invention;

FIG. 5 is a schematic view of a second anti-corrosion lining layer structure of the present invention;

description of reference numerals: 1. a pipe body; 2. a first corrosion resistant liner layer; 201. a polyester cord material; 202. a first corrosion resistant material; 203. a second corrosion resistant material; 3. an elastic pressure resistant layer; 4. an elastic rubber plate; 5. a compression ball; 6. a securing layer; 7. reinforcing ribs; 8. a second corrosion resistant liner layer; 801. a third corrosion-resistant material; 802. a wear resistant material.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a connecting pipe rubber anti-corrosion lining structure through improvement,

example 1, as shown in fig. 1 and 2, the pipe includes a pipe body 1, a first anticorrosion lining layer 2 and an elastic pressure-resistant layer 3, the first anticorrosion lining layer 2 is disposed inside the pipe body 1, the first anticorrosion lining layer 2 includes a polyester cord material 201, a first anticorrosion material 202 and a second anticorrosion material 203, the polyester cord material 201 is disposed inside the first anticorrosion lining layer 2, the top end of the polyester cord material 201 is provided with the first anticorrosion material 202, the bottom end of the polyester cord material 201 is provided with the second anticorrosion material 203, and the polyester cord material 201 and the first anticorrosion material 202 are both natural rubber composite materials prepared from natural rubber latex by a wet mixing technology, so that the anticorrosion effect of the first anticorrosion lining layer 2 is better;

embodiment 2, as shown in fig. 1, 3 and 4, the inner wall of the first anticorrosion liner layer 2 is provided with an elastic pressure-resistant layer 3, the inner wall of the elastic pressure-resistant layer 3 is provided with a firm layer 6, the elastic rubber plates 4 are transversely arranged inside the elastic pressure-resistant layer 3, pressure-resistant balls 5 are arranged inside the elastic rubber plates 4, the elastic rubber plates 4 are in a semi-circular arc shape, the elastic rubber plates 4 are made of elastic rubber, the firm layer 6 is transversely arranged inside the firm layer 7 in a mutually staggered manner, and the reinforcing ribs 7 are made of glass fiber, so that the pipe body 1 is made to have better firm performance through the reinforcing ribs 7 due to the design of the reinforcing ribs 7, and the service life of the pipe body 1 is longer;

in example 3, as shown in fig. 1 and 5, the inner wall of the firm layer 6 is provided with a second corrosion-resistant lining layer 8, the second corrosion-resistant lining layer 8 includes a third corrosion-resistant material 801 and a wear-resistant material 802, the third corrosion-resistant material 801 and the wear-resistant material 802 are arranged inside the second corrosion-resistant lining layer 8, the third corrosion-resistant material 801 is made of high-temperature-resistant resin, the wear-resistant material 802 is made of ultrafine hard powder, and the wear-resistant material 802 is added inside the third corrosion-resistant material 801, so that the heat resistance and the wear resistance of the second corrosion-resistant lining layer 8 are better.

The working principle is as follows: firstly, through the design of the polyester cord material 201 and the first anticorrosive material 202, the polyester cord material 201 and the first anticorrosive material 202 are both natural rubber composite materials prepared by natural rubber latex through a wet mixing technology, the molecular structure of the natural rubber is reserved, the anticorrosive effect of the first anticorrosive lining layer 2 is better, meanwhile, through the design of the third anticorrosive material 801 and the wear-resistant material 802, the third anticorrosive material 801 is made of high-temperature-resistant resin, the anticorrosive capability of the third anticorrosive material is better, meanwhile, the wear-resistant material 802 is made of hard ultrafine powder, and the wear-resistant material 802 is added into the third anticorrosive material 801, so that the heat resistance and the wear resistance of the second anticorrosive lining layer 8 are better;

simultaneously through the inside on elasticity compressive layer 3 be transverse arrangement and install elasticity rubber slab 4, and the inside of elasticity rubber slab 4 is provided with anti pressure ball 5, is convenient for make the compressive capacity of body 1 better, simultaneously through the design of strengthening rib 7, is convenient for make body 1 make its fastness better through strengthening rib 7 to be convenient for make the life of body 1 longer.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The utility model provides a take over anticorrosive lining structure of rubber which characterized in that: including body (1), first anticorrosive lining layer (2) and elasticity resist compression layer (3), the inside of body (1) is provided with first anticorrosive lining layer (2), and the inner wall of first anticorrosive lining layer (2) is provided with elasticity resist compression layer (3), the inner wall of elasticity resist compression layer (3) is provided with firm layer (6), and the inner wall of firm layer (6) is provided with second anticorrosive lining layer (8).

2. A rubber anticorrosive lining structure for connecting pipes according to claim 1, wherein; the first anticorrosion lining layer (2) comprises a polyester cord material (201), a first anticorrosion material (202) and a second anticorrosion material (203), the polyester cord material (201) is arranged inside the first anticorrosion lining layer (2), the top end of the polyester cord material (201) is provided with the first anticorrosion material (202), and the bottom end of the polyester cord material (201) is provided with the second anticorrosion material (203).

3. A connecting pipe rubber anticorrosive lining structure according to claim 1, characterized in that: the elastic pressure-resistant layer (3) is internally provided with elastic rubber plates (4) which are transversely arranged, and pressure-resistant balls (5) are arranged in the elastic rubber plates (4).

4. A connecting pipe rubber anticorrosive lining structure according to claim 3, characterized in that: the shape of the elastic rubber plate (4) is semicircular arc-shaped, and the material of the elastic rubber plate (4) is elastic rubber.

5. A connecting pipe rubber anticorrosive lining structure according to claim 4, characterized in that: the interior of the firm layer (6) is transversely provided with reinforcing ribs (7) which are arranged in a mutually staggered manner, and the reinforcing ribs (7) are made of glass fiber.

6. A connecting pipe rubber anticorrosive lining structure according to claim 1, characterized in that: the second anti-corrosion lining layer (8) comprises a third anti-corrosion material (801) and an abrasion-resistant material (802), the third anti-corrosion material (801) and the abrasion-resistant material (802) are arranged inside the second anti-corrosion lining layer (8), the third anti-corrosion material (801) is made of high-temperature-resistant resin, and the abrasion-resistant material (802) is made of hard ultrafine powder.

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