CN117267479B

CN117267479B - Anti-aging antibacterial PE (polyethylene) pipe

Info

Publication number: CN117267479B
Application number: CN202311223121.8A
Authority: CN
Inventors: 侯文东
Original assignee: Shandong Baishitong Plastic Products Co ltd
Current assignee: Shandong Baishitong Plastic Products Co ltd
Priority date: 2023-09-21
Filing date: 2023-09-21
Publication date: 2024-04-16
Anticipated expiration: 2043-09-21
Also published as: CN117267479A

Abstract

The invention discloses an anti-aging and antibacterial PE pipe, which relates to the technical field of PE pipes and comprises a pipe body joint, wherein a PVC transparent pipe is integrally formed on the side edge of the pipe body joint, a polyethylene outer sheath layer is integrally formed on the side end of the PVC transparent pipe, a metal wire mesh is arranged on the inner wall of the polyethylene outer sheath layer, a graphene ion membrane is arranged on the inner side of the metal wire mesh, an anti-aging section layer assembly is arranged on the side edge of the inner side of the graphene ion membrane, and the anti-aging section layer assembly, a guide end and a nano modified bamboo charcoal waist-shaped pipe are matched with each other through a magnetic guide filter tank, magnetic nano particles, a guide opening, the anti-aging section layer assembly and the guide end.

Description

Anti-aging antibacterial PE (polyethylene) pipe

Technical Field

The invention relates to the technical field of PE pipes, in particular to an anti-aging and antibacterial PE pipe.

Background

PE pipe material refers to polyethylene pipe material, and the PE pipe material is a thermoplastic resin with high crystallinity and non-polarity. The original HDPE has milky white appearance and semitransparent shape with a certain degree in a micro-thin section, and PE has excellent characteristics of resisting most chemicals for life and industry, and is widely applied to building water supply, building water drainage, buried drain pipes, building heating, gas transmission and distribution, gas transmission pipes, electrician and telecommunication protective sleeves, industrial pipes, agricultural pipes and the like.

However, in the prior art, when water flows for a long time, bacteria are generated in the PE pipe by water flow in the use process of the PE pipe, so that the bacteria are attached to the inner wall of the pipe and gradually bred, more bacteria enter the water flow to influence the water safety, meanwhile, the PE pipe is easy to age and cause damage when facing the influence of external climate environment, and therefore, a new anti-aging antibacterial PE pipe needs to be provided.

Disclosure of Invention

The invention aims to provide an anti-aging and antibacterial PE pipe, which aims to solve the problems that in the prior art, when water flows for a long time, bacteria are generated in the PE pipe by water flow, so that the bacteria cling to the inner wall of the pipe and grow gradually, more bacteria enter the water flow to influence the water safety, and meanwhile, the PE pipe is easy to age and damage when facing the influence of external climate and environment.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an anti-aging antibacterial PE tubular product, includes the body joint, the side integrated into one piece of body joint has PVC transparent tube, the side integrated into one piece of PVC transparent tube has the polyethylene oversheath layer, be provided with wire mesh on the inner wall of polyethylene oversheath layer, wire mesh's inboard is provided with the graphite alkene ionic membrane, the inboard side of graphite alkene ionic membrane is provided with anti-aging festival layer subassembly, just the inboard one end of polyethylene oversheath layer is provided with the body, the inside of body is by the front and back equicomponent is provided with multiunit honeycomb lumbar vertebra sleeve structure, multiunit the middle terminal of honeycomb lumbar vertebra sleeve structure is provided with nanometer modified bamboo charcoal waist type pipe, and multiunit the inside of honeycomb lumbar vertebra sleeve structure is provided with antibacterial filter membrane, multiunit the avris filler terminal is equispaced to be provided with in the inner wall of polyolefin PERT layer, multiunit the inside of filler terminal is provided with nanometer silver antibacterial plastic particle, just the outside of nanometer modified bamboo charcoal waist type pipe is provided with the guide slot opening, the guide slot is arranged to the side of leading to the inside of thermal weld, the guide slot is arranged to the inside of thermal weld, and the guide slot is arranged to the inside the thermal weld, and the thermal weld is set up to the tip is in the face of the tip is in contact with the inside of the guide slot, and the thermal weld slot is arranged to the inside the guide slot is the end, and a 5mm gap exists between the guiding end and the inner side of the nano modified bamboo charcoal waist-shaped tube.

Preferably, a silver ion membrane is arranged on the inner side of the nano modified bamboo charcoal waist-shaped tube, a distance of 15mm exists between the silver ion membrane and the side of the guiding end, and the silver ion membrane is attached to the inner side surfaces of the nano modified bamboo charcoal waist-shaped tube and the plurality of groups of bee lumbar jackets.

Preferably, heavy metal ion adsorption membranes are arranged on the upper side and the lower side of the nano modified bamboo charcoal waist-shaped tube, annular grooves are formed in the surfaces of the inner walls of the heavy metal ion adsorption membranes, placing grooves are formed in the side sides of the annular grooves, ultraviolet filters are mounted in the placing grooves in a fitting mode, the ultraviolet filters and the annular grooves are arranged in the inner sides of the heavy metal ion adsorption membranes in an equal division mode, and elastic protection layers are arranged at the upper ends and the lower ends of the side sides of the bee lumbar sleeve structure in a multiple group mode.

Preferably, the anti-aging layer-saving assembly comprises an anti-corrosion and wear-resistant layer, wherein the inner side of the anti-corrosion and wear-resistant layer is provided with a heat-insulating layer, and the heat-insulating layer is of a double-layer film structure.

Preferably, an elastic fiber protection layer is arranged on the inner side of the heat preservation layer, air filter membranes are arranged on two sides of the outer wall of the elastic fiber protection layer, a PE impact-resistant isolation membrane is arranged between the air filter membranes and the heat preservation layer, and a chlorine membrane is filled in the PE impact-resistant isolation membrane.

Preferably, the inner side of the air filter membrane is provided with an anti-corrosion inner layer, the outer side of the anti-corrosion inner layer is provided with a buffer interval, and a super absorbent resin melt adhesive layer exists at the outer wall of the anti-corrosion inner layer and the air filter membrane.

Preferably, a biomass film is arranged on the inner side of the anti-corrosion inner layer, and the biomass film is arranged on the inner side of the heavy metal ion adsorption film.

Preferably, a soft resin rubber sleeve is arranged at the bottom side of the pipe body joint, and a notch is formed in the surface of the soft resin rubber sleeve in a penetrating manner.

Preferably, a heat collecting gap is arranged on the inner side of the PVC transparent tube, and a single-layer light collecting thermal film is arranged on the side of the heat collecting gap.

Preferably, a hot melt adhesive layer is arranged on the inner side of the single-layer concentrating hot film, an inner groove is integrally formed on the side of the hot melt adhesive layer, a hot melt edge is arranged on the side of the inner groove, and a butt joint port is arranged on the side of the hot melt edge.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the graphene ions generated by contact of the arranged graphene ion membrane and water are magnetically modified under the coordination of the magnetic guide filter tank, the magnetic nano particles, the guide opening, the guide end and the nano modified bamboo charcoal waist-shaped tube, so that the modified graphene ions are guided and attracted conveniently, bacteria, organic matters and heavy metal ions in water are adsorbed conveniently, a guide linear flowing track is formed, heavy metal ions in water flow are adsorbed conveniently under the coordination of the heavy metal ion adsorption membrane, the corrosion of heavy metal ions contained in water on the inner wall of a PE pipe is reduced, the service life of the PE pipe is influenced, and the chlorine film is arranged in the PE impact-resistant isolation membrane, so that the chlorine particles react with water conveniently under the coordination of the chlorine film to generate hydrochloric acid, the water is disinfected, the purification performance of the water is guaranteed, the problem that the aging rate of PE pipe is increased due to trace elements contained in the water flow is reduced, the light-heat concentration of a single-layer light-concentration thermal film is utilized, the chlorine particles generated by the chlorine film are decomposed conveniently, the heavy metal ions in the water flow are harmful to the subsequent water, the whole structure is reduced, the water flow is prevented from being polluted when the chlorine particles adhere to the water flow, and the PE pipe is more harmful to the inner wall of the water flow, and the water flow is more harmful to the water flow, and the bacteria flow in the PE pipe is more harmful to the water flow, and the water is more harmful to the water flow and the inner wall is more and the water is more polluted.

2. According to the PE pipe, the anti-corrosion wear-resistant layer and the heat-insulating layer are arranged on the inner wall of the PE pipe in the matching mode of the anti-aging layer-saving assembly, so that the overall use strength of the PE pipe is improved, the use compression resistance of the PE pipe is guaranteed, the compression resistance and the impact resistance of the PE pipe are further improved in the matching mode of the elastic fiber protection layer and the PE impact-resistant isolating film, meanwhile, the super absorbent resin melt layer is arranged on the outer side of the air filter membrane, the super absorbent resin melt layer is enabled to utilize the self super absorbent property, damage to the inner wall structure of the PE pipe caused by residual water is avoided, and the overall structure further improves the ageing resistance of the PE pipe.

3. According to the invention, the PE pipe is conveniently formed into an internal electric heat fusion connection structure by matching the hot melt adhesive layer, the hot fusion connection edge and the butt joint port, so that the problem that the PE pipe is damaged and cannot be used due to abrasion of the external joint port in the long-time use process of the PE pipe when the PE pipe is externally connected is solved.

Drawings

FIG. 1 is a schematic structural view of a cross-sectional plane of a polyethylene outer sheath layer in an anti-aging and antibacterial PE pipe;

FIG. 2 is a schematic diagram of the structure of the anti-aging and antibacterial PE pipe in front view;

FIG. 3 is a schematic view of the structure of the inside of a polyethylene outer sheath layer in an anti-aging and antibacterial PE pipe;

FIG. 4 is a schematic diagram showing the internal structure of a pipe body joint in an anti-aging and antibacterial PE pipe in side view;

FIG. 5 is a schematic structural view of an installation position of an anti-aging joint layer assembly in an anti-aging and antibacterial PE pipe;

FIG. 6 is a schematic view of the structure of the plane of an anti-aging and antibacterial PE pipe material in the plane of an anti-aging and antibacterial layer-saving assembly;

FIG. 7 is an enlarged schematic view of the structure of the anti-aging and antibacterial PE pipe material shown in FIG. 1A;

fig. 8 is an enlarged schematic view of the structure of the anti-aging and antibacterial PE pipe of the present invention at B in fig. 1.

In the figure: 1. a pipe body joint; 2. a soft resin rubber sleeve; 3. a notch; 4. a PVC transparent tube; 5. a polyethylene outer sheath layer; 6. a docking port; 7. an anti-aging layer-saving assembly; 71. an anti-corrosion wear-resistant layer; 72. a heat preservation layer; 73. a high water absorption resin melt layer; 74. an anti-corrosion inner layer; 75. an elastic fiber protective layer; 76. PE impact-resistant isolation film; 77. buffer spacing; 78. an air filter membrane; 79. a biomass membrane; 8. a graphene ion membrane; 9. a wire mesh; 10. a hot melt adhesive layer; 11. a heat collecting gap; 12. a single layer concentrating thermal film; 13. hot melt edge; 14. heavy metal ion adsorption membranes; 15. a bee lumbar vertebra sleeve structure; 16. nano modified bamboo charcoal waist-shaped tube; 17. an antibacterial filter membrane; 18. an elastic protective layer; 19. an annular groove; 20. an ultraviolet filter; 21. a tube body; 22. a polyolefin PERT layer; 23. a filler end; 24. nano silver antibacterial plastic particles; 25. a heat welding notch; 26. an inverted cone ion chamber; 27. magnetic nanoparticles; 28. a guide opening; 29. a magnetic guide filter tank; 30. a leading end; 31. silver ion membrane.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, there is shown: an anti-aging antibacterial PE pipe comprises a pipe body joint 1, wherein a PVC transparent pipe 4 is integrally formed on the side edge of the pipe body joint 1, a polyethylene outer sheath layer 5 is integrally formed on the side end of the PVC transparent pipe 4, a metal wire mesh 9 is arranged on the inner wall of the polyethylene outer sheath layer 5, a graphene ion membrane 8 is arranged on the inner side of the metal wire mesh 9, an anti-aging joint layer assembly 7 is arranged on the inner side of the graphene ion membrane 8, a pipe body 21 is arranged at one end of the inner side of the polyethylene outer sheath layer 5, a plurality of groups of honeycomb lumbar vertebra sheath structures 15 are uniformly distributed in the pipe body 21 from front to back, a nano modified bamboo charcoal waist-shaped pipe 16 is arranged at the middle end of each group of honeycomb lumbar vertebra sheath structures 15, an antibacterial filter membrane 17 is arranged on the inner wall surface of each group of honeycomb lumbar vertebra sheath structures 15, a polyolefin PERT layer 22 is arranged in each group of honeycomb PERT layer 22, a plurality of filler ends 23 are uniformly distributed on the side of each polyolefin PERT layer 22, the inside of the multi-group filler end 23 is filled with nano silver antibacterial plastic particles 24, the outer side end of the nano modified bamboo charcoal waist-shaped tube 16 is provided with a guiding space 21, the side of the guiding space 21 is provided with a thermal welding notch 25, the side end of the thermal welding notch 25 is opposite to but not contacted with the inner wall of the polyethylene outer sheath layer 5, the inside of the thermal welding notch 25 is welded with an inverted cone-shaped ion chamber 26, the inside of the inverted cone-shaped ion chamber 26 is filled with magnetic nano particles 27, the outer side surface of the inverted cone-shaped ion chamber 26 is provided with a guiding opening 28, the side end of the guiding opening 28 is communicated with a magnetic guiding filter groove 29, the side end of the magnetic guiding filter groove 29 is communicated with a guiding end 30, the guiding end 30 penetrates through the nano modified bamboo charcoal waist-shaped tube 16 to form a separation end, wherein the guiding end 30 and the nano modified bamboo charcoal waist-shaped tube 16 are communicated with each other as the center, and a 5mm gap exists between the leading end 30 and the inner side of the nano-modified bamboo charcoal waist tube 16.

According to the illustration in fig. 8, the silver ion film 31 is disposed on the inner side of the nano modified bamboo charcoal waist tube 16, and a 15mm distance exists between the silver ion film 31 and the side of the guiding end 30, the silver ion film 31 is attached to the inner side surfaces of the nano modified bamboo charcoal waist tube 16 and the plurality of groups of bee lumbar jackets 15, and by the disposed silver ion film 31, after water flows through the plurality of groups of bee lumbar jackets 15 to the nano modified bamboo charcoal waist tube 16, a small amount of silver ions are released in water after the silver ion film 31 contacts with water, so that the generated silver ions are convenient for inhibiting the cytoenzymatic activity of bacteria and the reproduction reproducibility of bacteria, and the bacteria are prevented from breeding on the inner wall of the PE tube, thereby affecting the subsequent water.

According to the illustration in fig. 1 and 8, the heavy metal ion adsorption membrane 14 is arranged on the upper and lower sides of the nano modified bamboo charcoal waist tube 16, the annular groove 19 is arranged on the inner wall surface of the heavy metal ion adsorption membrane 14, the side of the annular groove 19 is provided with a placing groove, the inside of the placing groove is attached with the ultraviolet filter 20, the ultraviolet filter 20 and the annular groove 19 are arranged at the inner side of the heavy metal ion adsorption membrane 14 in an equal division manner, and the upper and lower ends of the side of the multi-group honeycomb lumbar vertebra sleeve structure 15 are provided with the elastic protection layers 18.

According to the figures 3, 5 and 6, the anti-aging layer-saving assembly 7 comprises an anti-corrosion and wear-resistant layer 71, a heat-insulating layer 72 is arranged on the inner side of the anti-corrosion and wear-resistant layer 71, the heat-insulating layer 72 is of a double-layer film structure, and the use compression resistance of the PE pipe is guaranteed through the integral use strength of the PE pipe under the cooperation of the anti-corrosion and wear-resistant layer 71 and the heat-insulating layer 72 (the heat-insulating layer is made of polyisocyanurate foam).

According to the illustration shown in fig. 3, fig. 5 and fig. 6, the inside of the heat preservation layer 72 is provided with an elastic fiber protection layer 75, and both sides of the outer wall of the elastic fiber protection layer 75 are provided with air filter membranes 78, a PE impact-resistant isolating membrane 76 is arranged between the air filter membranes 78 and the heat preservation layer 72, and the inside of the PE impact-resistant isolating membrane 76 is filled with a chlorine membrane, so that the compression resistance and the impact resistance of the PE pipe are further improved under the cooperation of the elastic fiber protection layer 75 (the elastic fiber protection layer is made of functional polyamide) and the PE impact-resistant isolating membrane 76, and the chlorine particles and water react to generate hydrochloric acid under the cooperation of the chlorine membrane, so that the water is disinfected, the purification performance of the water is guaranteed, and the problem that the aging rate of the PE pipe is increased due to trace elements contained in the water flow is reduced.

According to the illustration in fig. 3, fig. 5 and fig. 6, the inside of the air filter membrane 78 is provided with an anti-corrosion inner layer 74, the outside of the anti-corrosion inner layer 74 is provided with a buffer space 77, and the positions of the anti-corrosion inner layer 74 and the outer wall of the air filter membrane 78 are provided with a super absorbent resin melt adhesive layer 73, under the cooperation of the anti-corrosion inner layer 74, the anti-corrosion inner layer 74 and the anti-corrosion wear layer 71 further form a double-layer protection structure, the service life of the PE pipe is guaranteed, and the super absorbent resin melt adhesive layer 73 is arranged on the outside of the air filter membrane 78, so that the super absorbent resin melt adhesive layer 73 utilizes the self super absorbent property, and the damage of some residual water to the inner wall structure of the PE pipe is avoided.

According to fig. 1-6, the biomass film 79 is disposed on the inner side of the anti-corrosion inner layer 74, and the biomass film 79 is disposed on the inner side of the heavy metal ion adsorption film 14, so that trace elements such as nitrogen and phosphorus contained in the water flow are taken in when the PE pipe is used by the biomass film 79, and the water flow is further purified.

According to the illustration of fig. 2, fig. 4 and fig. 5, the bottom side of the pipe body joint 1 is provided with a soft resin rubber sleeve 2, a notch 3 is formed in the surface of the soft resin rubber sleeve 2 in a penetrating way, and the PE pipe is convenient to butt-joint, support and fix occupation under the cooperation of the soft resin rubber sleeve 2 and the notch 3, so that when the external ground is stuck, the outer wall of the PE pipe is prevented from being damaged due to uneven cold and hot environments, and the use of the whole PE pipe is influenced.

According to fig. 4, a heat collecting gap 11 is provided inside a PVC transparent tube 4, a single-layer heat collecting film 12 is provided on the side of the heat collecting gap 11, the PVC transparent tube 4 is heat welded to one side of a tube body joint 1, then the single-layer heat collecting film 12 is provided in the heat collecting gap 11, and the heat collecting property of the single-layer heat collecting film 12 is utilized to photo-thermally decompose chlorine particles generated by a chlorine film, so that the harm to human health when excessive chlorine particles are used for subsequent water is avoided.

According to the illustration in fig. 4, the inner side of the single-layer condensation hot film 12 is provided with a hot melt adhesive layer 10, and the side of the hot melt adhesive layer 10 is integrally formed with an inner groove, the side of the inner groove is provided with a hot melt adhesive side 13, the side of the hot melt adhesive side 13 is provided with a butt joint port 6, under the cooperation of the hot melt adhesive layer 10, the hot melt adhesive side 13 and the butt joint port 6, the PE pipe is convenient to form an inner electric heat fusion joint structure, and the problem that the PE pipe cannot be used due to the abrasion of the external joint port in the long-time use process of the PE pipe is solved.

The materials of the PVC transparent tube 4, the polyethylene outer sheath layer 5, the anti-corrosion and wear-resistant layer 71, the heat preservation layer 72, the super absorbent resin melt adhesive layer 73, the anti-corrosion inner layer 74, the elastic fiber protective layer 75, the PE impact-resistant isolation film 76, the air filter film 78, the biomass film 79, the graphene ion film 8, the monolayer spotlight thermal film 12, the macromolecule anti-aging 14, the antibacterial filter film 17, the ultraviolet filter 20, the polyolefin PERT layer 224, the nano silver antibacterial plastic particles 24, the magnetic nano particles 27 and the silver ion film 31 are all known in the art, and the material composition is a known technology, and the model is selected to be proper according to the actual use, so that the detailed arrangement of the PVC transparent tube 4, the polyethylene outer sheath layer 5, the anti-corrosion and wear-resistant layer 71, the heat preservation layer 72, the super absorbent resin melt adhesive layer 73, the anti-corrosion inner layer 74, the elastic fiber protective layer 75, the PE impact-resistant isolation film 76, the air filter film 78, the biomass film 79, the graphene ion film 8, the spotlight thermal film 12, the macromolecule anti-aging 14, the antibacterial filter film 17, the ultraviolet filter 20, the polyolefin antibacterial film 224, the polyolefin PERT layer 24, the nano silver antibacterial plastic particles 24 and the nano silver antibacterial plastic particles 27 are not explained in detail and the wiring mode of the nano silver ion plastic particles 31.

The application method and the working principle of the device are as follows: when the PE pipe is used, a proper number of PE pipes are selected according to the length of the using distance, then under the cooperation of the hot melt adhesive layer 10, the hot melt adhesive edge 13 and the butt joint port 6, the PE pipe is convenient to form an internal electric heat fusion connection structure, when the external connection is reduced, the problem that the PE pipe is easy to damage and cannot be used due to abrasion of the external joint port in the long-time PE pipe using process is solved, the PVC transparent pipe 4 is hot-welded on one side of the pipe joint 1, then the single-layer light-gathering hot film 12 is arranged in the heat-gathering gap 11, the light-gathering heat of the single-layer light-gathering hot film 12 is utilized to carry out photo-thermal decomposition on chlorine particles generated by the chlorine film, the harm to human health is avoided when the chlorine particles are used for follow-up water, and simultaneously, a drilling machine is utilized to facilitate the drilling operation on the inner wall of the PE pipe to form the heat fusion notch 25, then the back taper ion chamber 26 and the magnetic nano particles 27 are arranged, so that the magnetic nano particles 27 magnetically modify graphene ions generated by the contact of the arranged graphene ion membrane 8 and water under the matching of the guide opening 28, the magnetic guide filter tank 29 and the guide end 30, the modified graphene ions are guided and attracted conveniently, bacteria, organic matters and heavy metal ions in water are adsorbed conveniently, a guide linear flow track is formed, heavy metal ions in water are adsorbed conveniently under the matching of the heavy metal ion adsorption membrane 14, the corrosion of heavy metal ions contained in water on the inner wall of the PE pipe is reduced, the service life of the PE pipe is influenced, then the anti-corrosion wear-resistant layer 71 and the heat preservation layer 72 are arranged on the inner wall of the PE pipe, the overall use strength of the PE pipe is improved, the use compression resistance of the PE pipe is ensured, and under the setting cooperation of elastic fiber protective layer 75 and PE shock-resistant barrier film 76, be convenient for further improve PE tubular product's resistance to compression dashing, afterwards with chlorine membrane setting in PE shock-resistant barrier film 76's inside, be convenient for under the cooperation of chlorine membrane, be convenient for chlorine particle and water reaction generate hydrochloric acid, and then disinfect the operation to water, ensure the purification nature of water, reduce the microelement that water flow inside contained and cause PE tubular product ageing rate to increase problem, and utilize above-mentioned individual layer spotlight thermal film 12's spotlight heat, reduce chlorine element excessive and cause the damage to the human body, then install nano modified bamboo charcoal waist type pipe 16 and multiunit bee lumbar vertebrae cover structure 15 in PE tubular product, make silver ion membrane 31 and water contact the back, release a small amount of silver ion in water, be convenient for make the silver ion that produces inhibit bacterial cellular enzyme activity and bacterial reproduction reproducibility, avoid the bacterium to grow on PE tubular product inner wall, then with ultraviolet filter 20 and ring channel 19 at heavy metal ion adsorption film 14's inboard etc. separate the setting, make, then utilize modified bamboo charcoal waist type pipe 16, be convenient for when carrying out the water flow and carrying out the modification work when the water flow and carrying out the absorption of heavy metal ion absorption in PE tubular product inner wall, the absorption of heavy metal ion, the quality of heavy metal ion is further carried out the absorption in the tubular product and heavy metal ion absorption is carried out in the PE tubular product inner wall, the absorption is carried out the heavy metal ion absorption has the absorption effect on the heavy metal ion, and heavy metal ion absorption is further reduced in the inside heavy metal ion absorption is absorbed in the inner wall, and has the heavy metal ion absorption.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims

1. An anti-aging and antibacterial PE pipe is characterized in that: including body joint (1), the side integrated into one piece of body joint (1) has PVC transparent tube (4), the side integrated into one piece of PVC transparent tube (4) has polyethylene oversheath layer (5), be provided with wire mesh (9) on the inner wall of polyethylene oversheath layer (5), the inboard of wire mesh (9) is provided with graphene ion membrane (8), the inboard avris of graphene ion membrane (8) is provided with ageing resistance festival layer subassembly (7), just the inboard one end of polyethylene oversheath layer (5) is provided with the body, the inside of body is provided with multiunit bee lumbar vertebra cover structure (15) by the front-to-back equivalent, multiunit bee lumbar vertebra cover structure (15)'s middle extreme is provided with nanometer modified bamboo charcoal waist shape pipe (16), and multiunit bee lumbar vertebra cover structure (15) inner wall surface is provided with antibiotic filter membrane (17), multiunit bee lumbar vertebra cover structure (15) inside is provided with polyolefin T layer (22), the avris side of polyolefin PERT layer (22) is provided with ageing resistance festival layer subassembly (7), the inside of leading groove mouth (23) is provided with multiunit bamboo charcoal waist shape pipe (24) is provided with, multiunit leading edge (24) is provided with the nanometer and fills the inside space (25) of leading to take shape, multiunit leading edge (24) is provided with nanometer fungus (25), and the side of heat welding notch (25) with the inner wall of polyethylene oversheath layer (5) is relative but contactless, the inside butt fusion of heat welding notch (25) has back taper type ion chamber (26), the inside packing of back taper type ion chamber (26) is provided with magnetic nanoparticle (27), just guiding mouth (28) have been seted up on the outside surface of back taper type ion chamber (26), the side intercommunication of guiding mouth (28) has magnetic guide filter tank (29), the side intercommunication of magnetic guide filter tank (29) is provided with guide end (30), just guide end (30) link up nanometer modified bamboo charcoal waist type pipe (16) are the separating end, wherein, guide end (30) with nanometer modified bamboo charcoal waist type pipe (16) link up the setting for the center, and guide end (30) with there is 5mm clearance in the inside limit side of nanometer modified bamboo charcoal waist type pipe (16).

2. The anti-aging and antibacterial PE pipe according to claim 1, characterized in that: silver ion membranes (31) are arranged on the inner sides of the nano-modified bamboo charcoal waist-shaped tubes (16), 15mm intervals exist on the sides of the silver ion membranes (31) and the guiding ends (30), and the silver ion membranes (31) are attached to the inner side surfaces of the nano-modified bamboo charcoal waist-shaped tubes (16) and the inner side surfaces of the bee lumbar sleeve structures (15).

3. The anti-aging and antibacterial PE pipe according to claim 1, characterized in that: the utility model discloses a honeycomb lumbar vertebra structure, including nanometer modified bamboo charcoal waist formula pipe (16), including metal ion adsorption membrane (14), recess (19) are provided with on the inner wall surface of metal ion adsorption membrane (14), the standing groove has been seted up to the avris of recess (19), ultraviolet light filter (20) are installed in the laminating of the inside of standing groove, just ultraviolet light filter (20) with recess (19) are in the inboard bisection setting of metal ion adsorption membrane (14), and multiunit both ends are provided with elastic protection layer (18) about the avris of honeycomb lumbar vertebra structure (15).

4. The anti-aging and antibacterial PE pipe according to claim 1, characterized in that: the anti-aging joint layer assembly (7) comprises an anti-corrosion and wear-resistant layer (71), an insulating layer (72) is arranged on the inner side of the anti-corrosion and wear-resistant layer (71), and the insulating layer (72) is of a double-layer film structure.

5. The anti-aging and antibacterial PE pipe according to claim 4, characterized in that: the inside of heat preservation (72) is provided with elastic fiber protective layer (75), just the outer wall both sides of elastic fiber protective layer (75) are provided with air filter membrane (78), air filter membrane (78) with exist between heat preservation (72) and be provided with PE shock-resistant barrier film (76), just the inside of PE shock-resistant barrier film (76) is filled with chlorine membrane.

6. The anti-aging and antibacterial PE pipe according to claim 5, characterized in that: the inner side of the air filter membrane (78) is provided with an anti-corrosion inner layer (74), the outer side of the anti-corrosion inner layer (74) is provided with a buffer space (77), and a super absorbent resin melt adhesive layer (73) is arranged at the outer wall of the anti-corrosion inner layer (74) and the air filter membrane (78).

7. The anti-aging and antibacterial PE pipe according to claim 6, characterized in that: the inner side of the anti-corrosion inner layer (74) is provided with a biomass protective film (79), and the biomass protective film (79) is arranged on the inner side of the heavy metal ion adsorption film (14).

8. The anti-aging and antibacterial PE pipe according to claim 1, characterized in that: the soft resin rubber sleeve (2) is arranged at the bottom side of the pipe body joint (1), and a notch (3) is formed in the surface of the soft resin rubber sleeve (2) in a penetrating mode.

9. The anti-aging and antibacterial PE pipe according to claim 1, characterized in that: the inner side of the PVC transparent tube (4) is provided with a heat collecting gap (11), and the side of the heat collecting gap (11) is provided with a single-layer light collecting heat film (12).

10. The anti-aging and antibacterial PE pipe according to claim 9, characterized in that: the inner side of the single-layer concentrating hot film (12) is provided with a hot melt adhesive layer (10), an inner groove is integrally formed on the side of the hot melt adhesive layer (10), a hot welding edge (13) is arranged on the side of the inner groove, and a butt joint port (6) is formed on the side of the hot welding edge (13).