CN209604688U - A kind of antistatic anti-corrosion RTP tube road - Google Patents
A kind of antistatic anti-corrosion RTP tube road Download PDFInfo
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- CN209604688U CN209604688U CN201920041893.2U CN201920041893U CN209604688U CN 209604688 U CN209604688 U CN 209604688U CN 201920041893 U CN201920041893 U CN 201920041893U CN 209604688 U CN209604688 U CN 209604688U
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Abstract
The utility model relates to pipe technology field more particularly to a kind of antistatic anti-corrosion RTP tube roads, including pipeline shell;The material of the pipeline shell is RTP plastics;Parallel with conduit axis respectively the first dope layer and the second dope layer are arranged at intervals on the inner wall of the pipeline shell;First dope layer is graphite ene coatings;Second dope layer is organic fluoride class compound hydrophobic layer;The ratio range of the width of the width and organic fluoride class compound hydrophobic layer of the graphite ene coatings is 1~2.The utility model structure is simple, is easily achieved, and improves transport performance and the safety in RTP tube road.
Description
Technical field
The utility model relates to pipe technology field more particularly to a kind of antistatic anti-corrosion RTP tube roads.
Background technique
Anti-corrosion pipeline is widely used in the fields such as chemical industry, metallurgy, product transportation, and major function is for conveying corruption
The liquid medium of corrosion, existing anti-corrosion pipeline do not have anti-static function generally, and increasing antistatic structure not only will increase into
This, also will affect the performance of pipeline, generate additional maintenance expense, and have some potential safety problems.
Utility model content
In order to overcome the defects of the prior art described above, the technical problem to be solved by the utility model is to provide a kind of structures
Simply, it is easily achieved, the antistatic anti-corrosion RTP tube road having a safety feature.
In order to solve the above-mentioned technical problem, a kind of the technical solution adopted in the utility model are as follows: antistatic anti-corrosion RTP tube
Road, including pipeline shell;
The material of the pipeline shell is RTP plastics;
The first dope layer and second parallel with conduit axis respectively is arranged at intervals on the inner wall of the pipeline shell to apply
The bed of material;
First dope layer is graphite ene coatings;
Second dope layer is organic fluoride class compound hydrophobic layer;
The ratio range of the width of the width and organic fluoride class compound hydrophobic layer of the graphite ene coatings is 1~2.
In an alternative embodiment, the graphite ene coatings are polytetrafluoroethylene (PTFE) graphite linings.
In an alternative embodiment, the antistatic anti-corrosion RTP tube road further includes being arranged on the inner wall of pipeline shell and position
Nano zine oxide antibiotic layer between the first dope layer and the second dope layer.
In an alternative embodiment, organosilicon high-temperature-resistant layer is set on the outer wall of the pipeline shell.
In an alternative embodiment, the ratio of the width of the width and the second dope layer of first dope layer is 1.5.
The utility model has the beneficial effects that: a kind of antistatic anti-corrosion RTP tube road, including pipeline shell are provided, in pipe
Parallel with conduit axis respectively graphite ene coatings and organic fluoride class compound hydrophobic layer are arranged in interval on the inner wall of road shell, and
The ratio range of the width of graphite ene coatings and the width of organic fluoride class compound hydrophobic layer is designed as 1~2, utilizes graphene
The electric conductivity of coating realizes the conveying of non-conductive liquid medium, and the electrostatic effect generated due to friction is avoided to lead to flammable liquid
Explosion accident occurs for body, and the turnover rate of liquid in pipeline is improved using organic fluoride class compound hydrophobic layer, reduces liquid medium
Friction between pipeline improves the safety in RTP tube road.The antibacterial that nano zine oxide antibiotic layer improves RTP tube road is anti-
Rotten ability extends the service life of pipeline, ensure that the safety of conevying efficiency and transport.Organosilicon fire-resistant layer can have
The high temperature resistance of the raising pipeline of effect, further improves the safety of pipeline.The width of first dope layer and second are applied
When the ratio of the width of the bed of material is designed as 1.5, protecting effect is best and cost is minimum.The utility model structure is simple, it is real to be easy to
It is existing, improve transport performance and the safety in RTP tube road.
Detailed description of the invention
Fig. 1 show the structural schematic diagram in the antistatic anti-corrosion RTP tube road of the utility model embodiment;
Label declaration:
1- pipeline shell;2- graphite ene coatings;3- organic fluoride class compound hydrophobic layer;4- nano zine oxide antibiotic layer;5-
Organosilicon fire-resistant layer.
Specific embodiment
For technology contents, the objects and the effects that the utility model is described in detail, below in conjunction with embodiment and match
Attached drawing is closed to be explained.
The design of the utility model most critical is: using the electric conductivity of graphite ene coatings, realizing that non-conductive liquid is situated between
The conveying of matter is avoided the electrostatic effect generated due to friction from causing flammable liquid that explosion accident occurs, utilizes organic fluoride class chemical combination
Object hydrophobic layer improves the turnover rate of liquid in pipeline, reduces the friction between liquid medium and pipeline, improves RTP tube road
Safety.
It please refers to shown in Fig. 1, a kind of antistatic anti-corrosion RTP tube road of the utility model, including pipeline shell;
The material of the pipeline shell is RTP plastics;
The first dope layer and second parallel with conduit axis respectively is arranged at intervals on the inner wall of the pipeline shell to apply
The bed of material;
First dope layer is graphite ene coatings;
Second dope layer is organic fluoride class compound hydrophobic layer;
The ratio range of the width of the width and organic fluoride class compound hydrophobic layer of the graphite ene coatings is 1~2.
As can be seen from the above description, the utility model has the beneficial effects that: the interval setting point on the inner wall of pipeline shell
Graphite ene coatings and organic fluoride class compound hydrophobic layer not parallel with conduit axis, and by the width of graphite ene coatings with it is organic
The ratio range of the width of fluoride compound hydrophobic layer is designed as 1~2, and using the electric conductivity of graphite ene coatings, realization is not led
The conveying of electric liquid medium, avoids the electrostatic effect generated due to friction from causing flammable liquid that explosion accident occurs, and utilization is organic
Fluoride compound hydrophobic layer improves the turnover rate of liquid in pipeline, reduces the friction between liquid medium and pipeline, improves
The safety in RTP tube road.The material of the pipeline shell is HDPE, PA, PERT, PEX, PVDF or PPS, according to fluid temperature (F.T.) and
Gas permeability is selected.
Further, the graphite ene coatings are polytetrafluoroethylene (PTFE) graphite linings.
As can be seen from the above description, using polytetrafluoroethylene (PTFE) graphite linings, cost is relatively low, antistatic effect is good.
Further, the antistatic anti-corrosion RTP tube road further includes being arranged on the inner wall of pipeline shell and being located at first
Nano zine oxide antibiotic layer between dope layer and the second dope layer.
As can be seen from the above description, nano zine oxide antibiotic layer improves the Antimicrobial preservative ability in RTP tube road, pipeline is extended
Service life, ensure that the safety of conevying efficiency and transport.
Further, organosilicon high-temperature-resistant layer is set on the outer wall of the pipeline shell.
As can be seen from the above description, organosilicon fire-resistant layer can effectively improve the high temperature resistance of pipeline, further mention
The high safety of pipeline.
Further, the ratio of the width of the width and the second dope layer of first dope layer is 1.5.
As can be seen from the above description, when the ratio of the width of the first dope layer and the width of the second dope layer is designed as 1.5,
Protecting effect is best and cost is minimum.
It please refers to shown in Fig. 1, the embodiments of the present invention one are as follows: a kind of antistatic anti-corrosion RTP tube road, including pipeline shell
Body 1;
The material of the pipeline shell 1 is RTP plastics;
The first dope layer and second parallel with conduit axis respectively is arranged at intervals on the inner wall of the pipeline shell 1 to apply
The bed of material;
First dope layer is graphite ene coatings 2;
Second dope layer is organic fluoride class compound hydrophobic layer 3;
The ratio range of the width of the width and organic fluoride class compound hydrophobic layer 3 of the graphite ene coatings 2 is 1~2.
It please refers to shown in Fig. 1, the embodiments of the present invention two are as follows: a kind of antistatic anti-corrosion RTP tube road, including pipeline shell
Body 1;
The material of the pipeline shell 1 is RTP plastics;
The first dope layer and second parallel with conduit axis respectively is arranged at intervals on the inner wall of the pipeline shell 1 to apply
The bed of material;
First dope layer is graphite ene coatings 2;
Second dope layer is organic fluoride class compound hydrophobic layer 3.
The graphite ene coatings 2 are polytetrafluoroethylene (PTFE) graphite linings.The antistatic anti-corrosion RTP tube road further includes being arranged in pipe
Nano zine oxide antibiotic layer 4 on the inner wall of road shell 1 and between the first dope layer and the second dope layer.The pipeline shell
Organosilicon high-temperature-resistant layer 5 is set on the outer wall of body 1.The ratio of the width and the width of the second dope layer of first dope layer is
1.5。
In conclusion the utility model provides a kind of antistatic anti-corrosion RTP tube road, including pipeline shell, in pipeline shell
Inner wall on interval setting graphite ene coatings and organic fluoride class compound hydrophobic layer parallel with conduit axis respectively, and by graphite
The ratio range of the width of the width and organic fluoride class compound hydrophobic layer of ene coatings is designed as 1~2, utilizes graphite ene coatings
Electric conductivity realizes the conveying of non-conductive liquid medium, and the electrostatic effect generated due to friction is avoided to lead to flammable liquid
Explosion accident improves the turnover rate of liquid in pipeline using organic fluoride class compound hydrophobic layer, reduces liquid medium and pipeline
Between friction, improve the safety in RTP tube road.Nano zine oxide antibiotic layer improves the Antimicrobial preservative ability in RTP tube road,
The service life for extending pipeline ensure that the safety of conevying efficiency and transport.Organosilicon fire-resistant layer can be mentioned effectively
The high temperature resistance of high pipeline further improves the safety of pipeline.By the width of the first dope layer and the second dope layer
When the ratio of width is designed as 1.5, protecting effect is best and cost is minimum.The utility model structure is simple, is easily achieved, and improves
The transport performance in RTP tube road and safety.
The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all
Equivalents made based on the specification and figures of the utility model are applied directly or indirectly in relevant technology neck
Domain is also included in the patent protection scope of the utility model.
Claims (5)
1. a kind of antistatic anti-corrosion RTP tube road, which is characterized in that including pipeline shell;
The material of the pipeline shell is RTP plastics;
Parallel with conduit axis respectively the first dope layer and the second dope layer are arranged at intervals on the inner wall of the pipeline shell;
First dope layer is graphite ene coatings;
Second dope layer is organic fluoride class compound hydrophobic layer;
The ratio range of the width of the width and organic fluoride class compound hydrophobic layer of the graphite ene coatings is 1~2.
2. antistatic anti-corrosion RTP tube road according to claim 1, which is characterized in that the graphite ene coatings are polytetrafluoro
Ethylene graphite linings.
3. antistatic anti-corrosion RTP tube road according to claim 1, which is characterized in that the antistatic anti-corrosion RTP tube road is also
Including the nano zine oxide antibiotic layer on the inner wall of pipeline shell and between the first dope layer and the second dope layer is arranged in.
4. antistatic anti-corrosion RTP tube road according to claim 1, which is characterized in that set on the outer wall of the pipeline shell
Organosilicon fire-resistant layer.
5. antistatic anti-corrosion RTP tube road according to claim 1, which is characterized in that the width of first dope layer with
The ratio of the width of second dope layer is 1.5.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920041893.2U CN209604688U (en) | 2019-01-10 | 2019-01-10 | A kind of antistatic anti-corrosion RTP tube road |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920041893.2U CN209604688U (en) | 2019-01-10 | 2019-01-10 | A kind of antistatic anti-corrosion RTP tube road |
Publications (1)
Publication Number | Publication Date |
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CN209604688U true CN209604688U (en) | 2019-11-08 |
Family
ID=68400354
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CN201920041893.2U Active CN209604688U (en) | 2019-01-10 | 2019-01-10 | A kind of antistatic anti-corrosion RTP tube road |
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2019
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