KR20070001067U - Antibacterial Polyethylene pipe and accessories - Google Patents

Abstract

The present invention relates to polyethylene pipes and piping materials for water supply with antimicrobial function, more specifically, the area in contact with water by mixing a silver zeolite inorganic antimicrobial that is harmless to the human body when manufacturing the existing polyethylene piping and piping materials It relates to antimicrobial polyethylene pipes and piping materials imparted antimicrobial performance.

To this end, the present invention, using a conventional manufacturing equipment for the production of polypropylene pipes and polypropylene pipe materials, but in the M / B state or powder concentrated silver-based zeolite inorganic antimicrobial agent harmless to the human body to the polyethylene and polypropylene raw material is added Hygienic and expiration date is reduced by mixing and inputting in the form of a certain content in the form to suppress the growth of microorganisms breeding in the water and thus significantly reducing the scales generated in various diseases and pipes caused by water pollution. It is characterized by the desire to implement increased piping and piping materials.

Inorganic antibacterial agent, polyethylene, polypropylene, water pipe, water pipe, antibacterial water pipe, antibacterial pipe

Description

Antibacterial Polyethylene Pipe and Accessories

1 is a manufacturing process diagram of the antimicrobial polyethylene tubing and polypropylene tubing material

Figure 2 is a structural diagram of the antimicrobial polyethylene tubing produced by the present invention

Figure 3 is a structural diagram of the antimicrobial multi-composite pipe produced by the present invention.

<Description of the code | symbol about the principal part of drawing>

1: silver zeolite inorganic antibacterial agent

2: polymer for pipe and pipe material

3: M / B or compound mixed with 1 and 2

4: antimicrobial polyethylene tubing

5: antimicrobial polypropylene piping material

6: polyethylene layer with silver inorganic antimicrobial agent

7: UV protection and protective layer

8: Polyethylene foam layer for freeze protection and noise isolation

The present invention relates to a polyethylene pipe and a polypropylene pipe material provided with antimicrobial function, and more particularly, to contact with water by mixing silver-based zeolite inorganic antimicrobial agent which is harmless to human body when manufacturing existing polyethylene pipe and polypropylene pipe material. The present invention relates to an antimicrobial polyethylene pipe and a polypropylene pipe material which have given antimicrobial performance to a site.

Generally, pipes used as water pipes for residential buildings such as apartments or houses are copper (copper) pipes, stainless steel pipes, cast iron pipes, zinc pipes, and polyethylene pipes.

In case of copper pipe, the antimicrobial property of copper metal itself keeps the microorganisms, but fresh water phenomenon (copper rust and mixed with water) occurs when used for long time or hot water pipe, and welding during construction As it is necessary to connect the pipes, labor costs and time are required, and the copper raw material has a disadvantage that it is about 5 times of polyethylene.

In the case of stainless steel pipe, rust does not occur, but it is necessary to connect the pipe by welding at the time of construction, and the welded area has a high risk of rust or leakage from the welded site due to the loss of properties of stainless steel.

Cast iron pipes are not hygienic because of the difficulty of welding during construction and the rusting of the entire pipe to block the pipe or the scale generated.

In the case of polyethylene tube, it is cheap and simple in construction, which can reduce labor cost and time, and it does not generate rust.However, due to the nature of the polymer, it cannot suppress the growth of microorganisms, but rather provides an environment for microorganisms to grow. give. The scale caused by microbial propagation (aka, scale) can clog the pipes over time and pose a fatal hazard to humans.

Efforts have been made to secure antimicrobial performance by adding nano silver, charcoal, natural jade, and elvan to polyolefin, but in reality, they did not give antimicrobial performance. Due to the cost increase more than about twice the manufacturing cost has a disadvantage that is difficult to commercialize.

Looking at the previously registered patent, there is an antibacterial and anti-fungal water and sewage pipe (10-0384929) prepared by adding EDTA to an aqueous ferrous sulfate solution in polyolefin resin and using a ferric chelate compound stabilized with a calcium carbonate compound. , Ocher (10-0551724) for the production of functional water pipes containing. In addition, there is a description of polyethylene tube (20-0415252) which is selected from inorganic charcoal powder, bamboo charcoal powder and nano silver powder in polyethylene tube and mixed or added alone with bioclean extract, an organic polymer compound antimicrobial agent. .

Patents showing antibacterial function by adding nano silver, antistatic agent, various organic fungicides and zeolite inorganic antibacterial agent to vinyl chloride resin (Publication No. 10-2006-0024749, Publication No. 10-0232263, Publication No. 10-2006-0068616) Is open to the public.

The present invention by applying a silver zeolite-based inorganic antimicrobial agent harmless to the human body to the polyethylene tube that has been used in part in order to solve the above problems to manufacture an antimicrobial polyethylene tube that can suppress the growth of microorganisms and the generation of scale It is an object of the present invention to provide a method.

Polyethylene pipes are inexpensive and easy to install, reducing labor costs and working time, and have the advantage of not rusting. Therefore, while maintaining the advantages of the existing polyethylene tube, while trying to create a sanitary safe piping by inhibiting the growth of microorganisms that are disadvantages.

In order to achieve this purpose, silver-based zeolite inorganic antimicrobial, which is harmless to the human body, is ion-exchanged with 0.1 to 3 wt% of silver ions and 5 to 20 wt% of zinc ions in zeolite, which has high antibacterial properties and low discoloration performance. No heavy metals should be included. This is extruded using a M / B (Master Batch) Chip or 0.1 to 5 wt% of a compound mixed in the polyethylene resin to be used.

In addition, various joint pipes for connecting polyethylene pipes use polypropylene, and similarly, M / B (Master Batch) Chip concentrated in polypropylene resin or compound mixed with 0.1 to 5 wt% is used for these piping materials. By injection.

The constitution of the antimicrobial polyethylene tubing and the polypropylene tubing material of the present invention will now be described in detail with reference to the accompanying drawings.

1 is a manufacturing process chart of antimicrobial polyethylene tubing and polypropylene tubing material.

Figure 2 is the same as the structure of the existing water pipe for water. However, the silver-based inorganic antibacterial agent (1) and the polyethylene resin (2) are mixed with M / B or Compound (3) in the inner polyethylene layer (6), and the structure of the antimicrobial polyethylene pipe (4) manufactured by extruding them to be.

In addition, the silver inorganic antibacterial agent (1) and the polypropylene resin (2) is mixed with M / B or Compound (3), the same is the case of the antimicrobial polypropylene piping material (5) manufactured by injection.

FIG. 3 is a structural diagram of a multi-composite pipe containing a foam layer to protect against freezing and reducing noise in winter. In the inner polyethylene layer 6, the silver inorganic antimicrobial agent 1 and the polyethylene resin 2 are M / B or compound. It is mixed with (3), the structure of the antimicrobial polyethylene multi-composite pipe (4) produced by extrusion.

The inner polyethylene layer 6 and the polypropylene piping material are added with 0.1 to 5 wt% of inorganic antibacterial agent (silver zeolite), which ensures human safety. The application method is molded by using an M / B in which the inorganic antibacterial agent and the plastic resin are concentrated or a compound mixed with 0.1 to 5 wt%. Therefore, by providing antimicrobial performance to the part of the polymer that is in direct contact with water, it is possible to manufacture pipes and piping materials that are hygienic and safe and do not generate scale (scale) by inhibiting the growth of microorganisms.

As described above, the present invention provides the advantages of polyethylene pipe and polypropylene pipe material which are conventionally used for water supply by adding silver-based zeolite inorganic antimicrobial which is harmless to human body (low cost, convenient and quick construction, etc.) As they are kept intact, there is an effect that allows consumers to use sanitary safe water piping by solving disadvantages (scale generation and contamination by microbial propagation).

Claims (1)

Polyethylene tubing and polypropylene tubing material in direct contact with water; Antimicrobial polyethylene, characterized in that it is configured to maintain a sanitary safe state by preventing the generation and contamination of scale by the microbial propagation by adding a silver-based zeolite inorganic antimicrobial agent harmless to the human body to the portion (6) which is in direct contact with water Tubing and Polypropylene Tubing Materials

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