KR101261505B1 - Antibacterial water pipe composition and the manufacturing method - Google Patents

Abstract

The present invention relates to an antimicrobial water pipe composition and a method of manufacturing the same, and more particularly, to provide a composition for forming an antimicrobial water pipe made of an antimicrobial ceramic material that is harmless to the human body in order to prevent bacterial growth in tap water. It relates to an antimicrobial water pipe composition characterized in that to be able to purify and a method for producing the same.
The present invention is a powder made of a mixed powder obtained by mixing 1: 1 of the aluminosilicate-based raw material and cordierite-based raw material with respect to 100 parts by weight of polyethylene resin, and powder of any one of silica, clay and feldspar It is characterized in that it is mixed with 5 to 35 parts by weight of the antimicrobial ceramic material obtained by mixing 1: 1.

Description

Antibacterial water pipe composition and its manufacturing method

The present invention relates to an antimicrobial water pipe composition and a method of manufacturing the same, and more particularly, to provide a composition for forming an antimicrobial water pipe made of an antimicrobial ceramic material that is harmless to the human body in order to prevent bacterial growth in tap water. It relates to an antimicrobial water pipe composition characterized in that to be able to purify and a method for producing the same.

In general, the water pipe uses a pipe made of metal such as a cast iron pipe or a zinc pipe, but since the inner wall is easily corroded by tap water flowing inside the pipe for a long time, a pipe using PE, PP, or PVC is provided. .

The water pipe of the metal material causes water leakage due to leakage and scale generation due to corrosion after installation, and causes contamination of tap water such as water and white water, and is highly workable due to heavy weight during installation work and transportation. Although it has a low disadvantage, it has the advantage of being resistant to external temperature changes and shocks.

The synthetic resin water pipe is light in weight, easy to handle and transport, and has an advantage of easy adhesion and repair through adhesive or socket connection and butt fusion method, but it is not easily damaged due to external pressure due to the low impact strength. There is a disadvantage.

The synthetic resin water pipe is piped to each home and a place where tap water is needed so that drinking water can be received as it is, but it is not used as drinking water as it is.

The reason why the tap water is not used as drinking water is because there is a problem with the water quality, which is caused by the pollution of the water supply source, and the quality of the raw water itself is bad, and when the tap water is supplied through the water pipe connecting from the water purification plant to each household, This can be multiplied and it is difficult to completely remove the harmful heavy metal even if the water treatment.

As this approach reaches the limit, it is possible to completely process and supply the raw water, which is getting more polluted, to prevent secondary pollution from the water pipe connected to each household from the water purification plant, and harmful heavy metals and bacteria contained in the tap water It is time to improve water quality that can be removed in the process.

Far-infrared radiation is an electromagnetic wave, a kind of energy wave, which refers to light having a wavelength range of 0.76 to 1,000 microns.The wavelength is 0.76 to 1.5 microns, and near infrared and 1.5 to 5.6 microns are called mid-infrared and 5.6 to 1,000 microns. The band is called far infrared. Among them, far infrared rays of 6 ~ 1 micron wavelength are known to be the most beneficial for our life.

Far infrared rays are transmitted by radiation, and have a characteristic of being activated by resonance / resonance with the wavelength of a material ball. Therefore, far infrared rays are directly and instantaneously transmitted to the object without heating the intermediate medium, and unlike visible or near infrared rays, the far infrared rays penetrate deeply into the body as well as the surface of the human body or material. Far-infrared radiation causes self-heating at the deep part of the material to uniformly heat the inside and outside of the material, thus enabling efficient heating of paints, foods, and the human body. Therefore, when the far infrared rays are irradiated to the human body or an object, heating can be performed within a short time without heat loss, so the energy saving effect is excellent. In addition, the far-infrared rays of the long wavelength due to low-temperature radiation not only gives a soft heating sense to the human body, but also enables comfortable heating without generating noise and odor, and there is no risk of fire.

The effects of far-infrared rays on the human body include temperature increase of subcutaneous depth, expansion of microvessels, promotion of blood circulation, enhancement of metabolism, increase of tissue regeneration ability, and excellent effects on gynecological diseases, nervous system diseases, and senile diseases. have. In addition, far-infrared rays have the function of activating water molecules and controlling humidity, which suppresses the activity of fungi or bacteria and removes odors caused by the propagation of microorganisms. There was a drawback that could not be applied.

Conventionally, the water pipe having such a function is a water pipe made of ganban stone containing synthetic resin, such as Utility Model Registration No.0209202 (registered on October 23, 2000), and Invention Patent No. 0793930 (registered on January 04, 2008). Various functional water pipes have been provided, such as the same antibacterial water pipe composition, a method for producing the same, and an antibacterial water pipe made from the composition.

However, the conventional water pipe has a drawback that it is difficult to manufacture due to the difficulty of manufacturing, and the disadvantage of being limited to the safety and antibacterial performance of PVC has been a variety of drawbacks.

Document 1. Utility Model Registration No.0209202 (Registered on October 23, 2000) Document 2. Invention Patent No. 0793930 (registered on Jan. 04, 2008) Document 3. Invention Patent No. 0551724 (registered Feb. 06, 2006) Document 4. Invention Patent No. 0797189 (registered on Jan. 16, 2008)

Therefore, the problem of the present invention devised to solve the conventional drawback, in the water pipe made of polyethylene (PE) and polypropylene (PP) in order to purify the tap water through the antimicrobial ceramic material made of ceramic in the inner diameter coating layer. And, it is to enable the molding of the water pipe with excellent adhesion to the inner diameter coating layer and the core layer or outer diameter layer.

Another problem of the present invention is that the antimicrobial ceramic material includes aluminosilicate (aluminosilicate) based on kaolin, clay, and silica, or cordierite, dichromite, based on kaolin, clay, and talc. It is to provide various functional enhancements provided by far infrared rays by mixing a powder mixed with a powder of iolite) and a powder made of silica, clay, or feldspar.

Another problem of the present invention is to suppress the propagation of harmful bacteria (bacteria) and to provide antibacterial and deodorizing functions.

The present invention is a powder made of a mixed powder obtained by mixing 1: 1 of the aluminosilicate-based raw material and cordierite-based raw material with respect to 100 parts by weight of polyethylene resin, and a raw material of any one of silica, clay and feldspar. In the antimicrobial water pipe composition formed by mixing with 5 to 35 parts by weight of the antimicrobial ceramic material obtained by mixing to 1:
The antimicrobial ceramic material is an aluminosilicate-based material using a mixture of kaolin, clay, and silica in the same ratio is molded into a powder having a diameter of 150 to 300 mesh, and kaolin, clay, talc The cordierite-based raw material obtained by mixing in the same ratio is a mixed powder obtained by molding into a powder having a size of 150-300 mesh in diameter and then mixing 1: 1 with aluminosilicate-based and cordierite-based powders;
It is characterized in that it is obtained by mixing a powder formed of any one of the raw material of silica, clay, feldspar, and the powder formed to have a size of 150 ~ 300 mesh 1: 1 with the mixed powder.

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The present invention, in the water pipe made of polyethylene (PE) and polypropylene (PP) through the antimicrobial ceramic material made of ceramic in the inner diameter coating layer to fight the bacteria in the tap water and to purify by inhibiting the proliferative force of the bacteria, antibacterial material By mixing the inner diameter coating layer and the core layer or the outer diameter layer is to enable the molding of the water pipe with excellent adhesion.

The present invention is aluminosilicate (aluminosilicate) -based powders of kaolin, clay and silica as the main raw materials in the manufacture of water pipes, and cordierite containing kaolin, clay and talc as the main raw materials. It is intended to improve various functionalities by providing an antimicrobial ceramic material in which a powder composed of cordierite, dichroic stone and iolite) powder is mixed with a powder made of silica, clay, or feldspar.

The present invention is to extend the period of use by inhibiting the growth of harmful bacteria (bacteria) in the inner diameter of the water pipe, to provide a variety of functions such as antibacterial function, deodorizing function.

1 is a partial cross-sectional perspective view of a water pipe showing an embodiment of the present invention
2 is a partial cross-sectional perspective view of a water pipe showing another embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a partial cross-sectional perspective view of a water pipe showing an embodiment of the present invention, the water pipe 100 is an inner diameter of the inner diameter of the direct contact with the tap water coating layer 110, and the inner diameter of the inner diameter coating layer 110 is extruded integrally. The outer diameter layer 130 is formed.

2 is a partial cross-sectional perspective view of a water pipe showing another embodiment of the present invention, the water pipe 100 is an inner diameter of the inner diameter of the direct contact with the tap water coating layer 110 and the inner diameter of the inner diameter coating layer 110 is extruded integrally The core layer 120 is molded into an outer diameter of the coater layer 120 is extruded to the outer diameter layer 130 is formed integrally molded.

The inner diameter coating layer 110 is preferably mixed 5 to 35 parts by weight of the antimicrobial ceramic material with respect to 100 parts by weight of polyethylene (PE) resin containing a small amount of auxiliary.

The antimicrobial ceramic material is made of aluminosilicate powder made of a mixture of kaolin, clay and silica in the same proportion, and cordierite, dichroic, made by mixing kaolin, clay and talc in the same proportion. It is composed of an antimicrobial ceramic material obtained by mixing a powder made of any one of raw materials of silica, clay, feldspar, and 1: 1.

The raw material of aluminosilicate (aluminosilicate) system made by mixing kaolin, clay, and silica in the same ratio is to form a powder having a size of 150 to 300 mesh, and to make kaolin, clay, and talc the same. Cordierite (dichromatic, iolite) -based raw materials, which are mixed at a ratio, are molded into powder having a diameter of 150 to 300 mesh, and then aluminosilicate and cordierite-based raw materials are 1: The mixed powder obtained by mixing 1 has the property of adsorbing and decomposing and removing substances harmful to human body such as various heavy metals and bacteria, and has the property of causing ecological change by raising the concentration of dissolved oxygen by emitting far infrared rays.

Powder consisting of raw material of any one of silica, clay, feldspar, is formed to have a diameter of 150 ~ 300 mesh, and has the property of adsorbing and decomposing and removing substances harmful to human body such as various heavy metals and bacteria. By releasing it, the concentration of dissolved oxygen is raised to cause ecological change.

The antimicrobial ceramic material is obtained by mixing the mixed powder and powder in a 1: 1 ratio, and when it is less than 5 parts by weight, it is difficult to expect the functionality and antimicrobial properties of emitting far infrared rays, and when it exceeds 35 parts by weight, the brittleness becomes high and the water inside the pipe It is preferable to maintain the content of 5 to 35 parts by weight with respect to 100 parts by weight of polyethylene resin because it will cause a decrease in impact and flexibility.

The antimicrobial ceramic material is used by molding in the form of a chip to mix 5 to 35 parts by weight with respect to 100 parts by weight of polyethylene (PE) resin containing a small amount of auxiliary agent, or coating the antimicrobial ceramic material when molding the polyethylene resin into chips. It is preferable to mold by.

The polyethylene resin mixed with the antimicrobial ceramic material is melted at a temperature of 120 to 230 ° C. in the first extruder to extrude the inner diameter coating layer 110 in the front mold, and the antimicrobial ceramic material is formed as the outer diameter of the inner diameter coating layer 110. The unmixed polyethylene resin is melted at a temperature of 120 to 230 ° C. in the second extruder, and the outer diameter layer 130 is integrally formed with the inner diameter coating layer 110 in the mold to extrude the water pipe 100 having a dual structure.

The water pipe 100 preferably has a thickness ratio of the inner diameter coating layer 110 and the outer diameter coating layer 130 to 20:80 to 50:50.

In addition, the polyethylene resin mixed with the antimicrobial ceramic material is melted to a temperature of 120 ~ 230 ℃ in the first extruder to extrusion molding the inner diameter coating layer 110 in the front mold, the antimicrobial ceramic to the outer diameter of the inner diameter coating layer 110 The melted polyethylene resin is melted at a temperature of 120 to 230 ° C. in a second extruder to form a core layer 120 integrally with the inner diameter coating layer 110 in a mold, and antibacterial to the outer diameter of the core layer 120. Extrusion of the triple pipe structure water pipe 100 by melting the polyethylene resin, the ceramic material is not mixed in the third extruder at a temperature of 120 ~ 230 ℃ by molding the outer diameter layer 130 and the core layer 120 integrally in the mold It is.

The water pipe 100 preferably has a thickness ratio of the inner diameter coating layer 110, the core layer 120, and the outer diameter coating layer 130 to 10:70:20 to 20:40:40.

The inner diameter coating layer 110 formed by mixing the antimicrobial ceramic material with polyethylene resin is a part in contact with the tap water, which destroys the outer shell of bacteria and viruses, collapses the shape, and damages the gene, thereby providing sterilization.

Therefore, by coating with antimicrobial ceramic material, it destroys the outer walls of bacteria and viruses that cause various diseases in a short time and causes fatal damage to genes to perform functions of eradicating bacteria and viruses. It is to provide an antibacterial function.

Next, the process of manufacturing a water pipe using the said water pipe composition is demonstrated in detail.

end. Preparation of Powder Raw Material

Raw materials of aluminosilicate (aluminosilicate) -based raw materials using kaolin, clay, and silica mixed in the same ratio are molded into powder having a diameter of 150 to 300 mesh, and kaolin, clay, Raw materials of cordierite (dichroic, iolite) type obtained by mixing talc in the same ratio are molded into powder having a size of 150 to 300 mesh and then raw material of aluminosilicate and cordierite type. Mixed powder obtained by mixing 1: 1.

I. Powder manufacturing

Powder made of any one of silica, clay, feldspar, is to be molded to have a diameter of 150 ~ 300 mesh.

All. Preparation of Antimicrobial Ceramic Materials

A. powder of the above item B. comprising the powder of a) and the material of any one of silica, clay and feldspar obtained by mixing 1: 1 raw material of aluminosilicate system and raw material of cordierite system. Mixing produces an antimicrobial ceramic material.

la. Mixing of compositions

Each component of the composition consisting of 5 to 35 parts by weight of the antimicrobial ceramic material is mixed with respect to 100 parts by weight of a conventional polyethylene (PE) resin, followed by mixing using a cooling mixer.

hemp. Manufacture of water pipe

The composition of the above clause D is supplied to the first extruder to melt at a temperature of 120 to 230 ° C. to extrude the inner diameter coating layer 110 in a mold in front, and the antimicrobial ceramic material is mixed into the outer diameter of the inner diameter coating layer 110. Unmelted polyethylene resin is melted at a temperature of 120 to 230 ° C. in a second extruder to form a core layer 120 integrally with the inner diameter coating layer 110 in a mold to form a water pipe 100 having a dual structure, or the core layer The outer diameter of 120 is melted at a temperature of 120 to 230 ° C. in the third extruder, in which the antimicrobial ceramic material is not mixed, and the outer diameter layer 130 is integrally formed with the core layer 120 in the mold. The water pipe 100 is extrusion molded.

Therefore, the antimicrobial ceramic material containing the aluminosilicate system and cordierite as the main raw materials of the present invention may emit a sufficient amount of far infrared rays beneficial to the human body, and the water supplied from the coating layer 110 of the water pipe 100 contacts In addition to purifying function, to provide antibacterial function, deodorizing function and the like.

As described above, the present invention has been described with reference to the preferred embodiments, but those skilled in the art can variously change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. It is to be understood that modifications and changes can be made.

The present invention provides a very useful invention having a very useful antibacterial function by supplying an antimicrobial ceramic material to the polyethylene resin or polypropylene resin to provide an inner diameter coating layer of the water pipe to destroy bacteria and viruses and prevent bacterial growth.

100: water pipe 110: inner diameter coating layer
120: core layer 130: outer diameter layer

Claims (3)

delete 100 parts by weight of the polyethylene resin and the mixture powder obtained by mixing the raw material of the aluminosilicate-based material and cordierite-based 1: 1, powder of any one of the raw material of silica, clay, feldspar 1: 1 In the antimicrobial water pipe composition formed by mixing with 5 to 35 parts by weight of the antimicrobial ceramic material obtained by mixing,
The antimicrobial ceramic material is an aluminosilicate-based material using a mixture of kaolin, clay, and silica in the same ratio is molded into a powder having a diameter of 150 to 300 mesh, and kaolin, clay, talc The cordierite-based raw material obtained by mixing in the same ratio is a mixed powder obtained by molding into a powder having a size of 150-300 mesh in diameter and then mixing 1: 1 with aluminosilicate-based and cordierite-based powders;
Antimicrobial water pipe composition, characterized in that obtained by mixing a powder formed of a raw material of any one of silica, clay, feldspar, and a powder formed to have a size of 150 ~ 300 mesh and 1: 1 with the mixed powder.
In the manufacturing method of the water pipe which consists of extrusion by a double or triple structure with polyethylene resin,
The raw material of the aluminosilicate system, which uses a mixture of kaolin, clay, and silica in the same ratio as the inner diameter of the water pipe, is molded into a powder having a diameter of 150 to 300 mesh, and kaolin, clay, and talc are the same. Raw materials of cordierite-based materials obtained by mixing at a ratio are formed into a powder having a diameter of 150 to 300 mesh, and then a powder is prepared by mixing aluminosilicate and cordierite-based powders in a 1: 1 ratio. ;
Preparing powder to be made of silica, clay, feldspar, any one of raw materials and having a diameter of 150 to 300 mesh;
Preparing an antimicrobial ceramic material by mixing the mixed powder and powder in a 1: 1 ratio;
Molding the inner diameter coating layer 110 in an extruder by mixing 5 to 35 parts by weight of the antimicrobial ceramic material with respect to 100 parts by weight of polyethylene resin; And
Method for producing an antimicrobial water pipe, characterized in that the polyethylene resin is not mixed with the antimicrobial ceramic material extruded in the extruder to the outer diameter of the molten inner diameter coating layer (110) by integrally extruding the inner diameter coating layer (110).

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