CN210566752U - Anticorrosive antibiotic reinforcing RTP pipe - Google Patents

Abstract

The utility model relates to the technical field of pipeline engineering, in particular to an antiseptic and antibacterial reinforced RTP pipe, which comprises a base layer and a protective layer sleeved outside the base layer; the base layer is made of ultra-high molecular polyethylene; the inner wall of the base layer is provided with an organic fluorine compound water conveying layer, a nano zinc fluoride antibacterial layer and a molybdenum disulfide wear-resistant layer; the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are spirally arranged on the inner wall of the base layer; the organic fluorine compound water delivery layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are sequentially spliced alternately along the axial direction of the pipeline; the protective layer is made of fluororubber resin. The utility model provides a RTP pipeline structure is ingenious, multiple functional, the application scope of the tubular product of expansion.

Description

Anticorrosive antibiotic reinforcing RTP pipe

Technical Field

The utility model relates to a pipeline engineering technical field especially relates to an anticorrosive antibiotic reinforcing RTP pipe.

Background

RTP pipeline is by the wide application in each field such as building, municipal administration, industry and agriculture, and RTP pipeline simple structure, function singleness on the present market can't satisfy the practical requirement of different environment simultaneously, are unfavorable for improving the commonality of product.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the technical problem to be solved in the utility model is to provide an enhanced RTP pipeline with the advantages of corrosion resistance and bacteria resistance.

In order to solve the technical problem, the utility model discloses a technical scheme be: an anti-corrosion antibacterial reinforced RTP pipe comprises a base layer and a protective layer sleeved outside the base layer;

the base layer is made of ultra-high molecular polyethylene;

the inner wall of the base layer is provided with an organic fluorine compound water conveying layer, a nano zinc fluoride antibacterial layer and a molybdenum disulfide wear-resistant layer;

the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are spirally arranged on the inner wall of the base layer;

the organic fluorine compound water delivery layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are sequentially spliced alternately along the axial direction of the pipeline;

the protective layer is made of fluororubber resin.

In an optional embodiment, the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are connected through hot melting.

In an optional embodiment, the helical angles of the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are the same, and the range of the helical angle of the organic fluorine compound water conveying layer is 25-35 °.

In an optional embodiment, the width ratio of the projection of the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer on the axis of the pipeline is 0.5: 1: 2 in sequence.

In an alternative embodiment, a silicone high temperature resistant layer is arranged between the base layer and the protective layer.

The beneficial effects of the utility model reside in that: the utility model provides an anticorrosive antibiotic reinforcing RTP pipe, establish including basic unit and cover protective layer outside the basic unit sets up the organic fluorine class compound water delivery layer, the antibiotic layer of nanometer zinc fluoride and the molybdenum disulfide wearing layer of concatenation in turn with spiral winding structure at the inner wall of basic unit, has improved the water conservancy diversion of pipeline inner wall, antibiotic, wear resistance, has strengthened the intensity and the ring rigidity of pipeline, and the basic unit that adopts the ultra high molecular polyethylene material and the protective layer of fluororubber resin have the advantage of reinforcing pipeline intensity, toughness and anticorrosive antioxidant ability.

Drawings

Fig. 1 is a schematic structural view of an anti-corrosion and anti-bacterial reinforced RTP tube according to an embodiment of the present invention;

fig. 2 is a cross-sectional view of an anti-corrosive and antibacterial reinforced RTP tube according to an embodiment of the present invention;

description of reference numerals:

1-a base layer; 11-organic fluorine compound water conveying layer; 12-nano zinc fluoride antibacterial layer; 13-molybdenum disulfide wear layer;

2-a protective layer;

3-organic silicon high temperature resistant layer.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 and fig. 2, the reinforced RTP tube of the present invention includes a base layer and a protective layer covering the base layer;

the base layer is made of ultra-high molecular polyethylene;

the inner wall of the base layer is provided with an organic fluorine compound water conveying layer, a nano zinc fluoride antibacterial layer and a molybdenum disulfide wear-resistant layer;

the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are spirally arranged on the inner wall of the base layer;

the organic fluorine compound water delivery layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are sequentially spliced alternately along the axial direction of the pipeline;

the protective layer is made of fluororubber resin.

From the above description, the beneficial effects of the present invention are: the utility model provides an anticorrosive antibiotic reinforcing RTP pipe, establish including basic unit and cover protective layer outside the basic unit sets up the organic fluorine class compound water delivery layer, the antibiotic layer of nanometer zinc fluoride and the molybdenum disulfide wearing layer of concatenation in turn with spiral winding structure at the inner wall of basic unit, has improved the water conservancy diversion of pipeline inner wall, antibiotic, wear resistance, has strengthened the intensity and the ring rigidity of pipeline, and the basic unit that adopts the ultra high molecular polyethylene material and the protective layer of fluororubber resin have the advantage of reinforcing pipeline intensity, toughness and anticorrosive antioxidant ability.

Furthermore, the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are connected through hot melting.

Further, the helical angles of the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are the same, and the range of the helical angle of the organic fluorine compound water conveying layer is 25-35 degrees.

From the above description, it can be seen that the performance of the pipe can be improved and certain cost can be saved within the helix angle range.

Furthermore, the width ratio of the projection of the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer on the axis of the pipeline is 0.5: 1: 2 in sequence.

Furthermore, an organic silicon high-temperature resistant layer is arranged between the base layer and the protective layer.

From the above description, the organosilicon high temperature resistant layer plays a role in enhancing the rigidity and improving the high temperature resistance of the pipe.

Referring to fig. 1 and fig. 2, a first embodiment of the present invention is: an anti-corrosion antibacterial reinforced RTP pipe comprises a base layer 1 and a protective layer 2 sleeved outside the base layer 1;

the base layer 1 is made of ultra-high molecular weight polyethylene;

the inner wall of the base layer 1 is provided with an organic fluorine compound water conveying layer 11, a nano zinc fluoride antibacterial layer 12 and a molybdenum disulfide wear-resistant layer 13;

the organic fluorine compound water conveying layer 11, the nano zinc fluoride antibacterial layer 12 and the molybdenum disulfide wear-resistant layer 13 are spirally arranged on the inner wall of the base layer 1;

the organic fluorine compound water delivery layer 11, the nano zinc fluoride antibacterial layer 12 and the molybdenum disulfide wear-resistant layer 13 are sequentially spliced alternately along the axial direction of the pipeline;

the material of the protective layer 2 is fluororubber resin.

Referring to fig. 1 and fig. 2, a second embodiment of the present invention is: an anti-corrosion antibacterial reinforced RTP pipe comprises a base layer 1 and a protective layer 2 sleeved outside the base layer 1;

the base layer 1 is made of ultra-high molecular weight polyethylene;

the inner wall of the base layer 1 is provided with an organic fluorine compound water conveying layer 11, a nano zinc fluoride antibacterial layer 12 and a molybdenum disulfide wear-resistant layer 13;

the organic fluorine compound water conveying layer 11, the nano zinc fluoride antibacterial layer 12 and the molybdenum disulfide wear-resistant layer 13 are spirally arranged on the inner wall of the base layer 1;

the organic fluorine compound water delivery layer 11, the nano zinc fluoride antibacterial layer 12 and the molybdenum disulfide wear-resistant layer 13 are sequentially spliced alternately along the axial direction of the pipeline;

the material of the protective layer 2 is fluororubber resin.

The organic fluorine compound water conveying layer 11, the nano zinc fluoride antibacterial layer 12 and the molybdenum disulfide wear-resistant layer 13 are connected through hot melting. The helical angles of the organic fluorine compound water conveying layer 11, the nano zinc fluoride antibacterial layer 12 and the molybdenum disulfide wear-resistant layer 13 are the same, and the range of the helical angle of the organic fluorine compound water conveying layer 11 is 25-35 degrees. The width ratio of the projections of the organic fluorine compound water conveying layer 11, the nano zinc fluoride antibacterial layer 12 and the molybdenum disulfide wear-resistant layer 13 on the axis of the pipeline is 0.5: 1: 2 in sequence. An organic silicon high temperature resistant layer 3 is arranged between the base layer 1 and the protective layer 2.

To sum up, the utility model provides an anticorrosive antibiotic reinforcing RTP pipe, establish including basic unit and cover the protective layer outside the basic unit sets up the organic fluorine class compound water delivery layer, the antibiotic layer of nanometer zinc fluoride and the molybdenum disulfide wearing layer of concatenation in turn with spiral winding structure at the inner wall of basic unit, has improved water conservancy diversion, antibiotic, the wear resistance of pipeline inner wall, has strengthened the intensity and the ring stiffness of pipeline, and the basic unit that adopts the ultra high molecular polyethylene material and the protective layer of fluororubber resin have the advantage of reinforcing pipeline intensity, toughness and anticorrosive antioxidant ability.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (5)

1. An anti-corrosion antibacterial reinforced RTP pipe is characterized by comprising a base layer and a protective layer sleeved outside the base layer;

the base layer is made of ultra-high molecular polyethylene;

the inner wall of the base layer is provided with an organic fluorine compound water conveying layer, a nano zinc fluoride antibacterial layer and a molybdenum disulfide wear-resistant layer;

the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are spirally arranged on the inner wall of the base layer;

the organic fluorine compound water delivery layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are sequentially spliced alternately along the axial direction of the pipeline;

the protective layer is made of fluororubber resin.

2. The anti-corrosion antibacterial reinforced RTP pipe as claimed in claim 1, wherein the organic fluorine compound water-transporting layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are connected by hot melting.

3. The anti-corrosion antibacterial reinforced RTP pipe as claimed in claim 1, wherein the helical angles of the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer are the same, and the helical angle of the organic fluorine compound water conveying layer ranges from 25 degrees to 35 degrees.

4. The anti-corrosion antibacterial reinforced RTP pipe as claimed in claim 1, wherein the width ratio of the projection of the organic fluorine compound water conveying layer, the nano zinc fluoride antibacterial layer and the molybdenum disulfide wear-resistant layer on the axis of the pipeline is 0.5: 1: 2 in sequence.

5. The corrosion-resistant, antimicrobial and reinforced RTP tube as recited in claim 1, wherein a silicone high temperature resistant layer is disposed between the base layer and the protective layer.

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