KR102506880B1 - Antibiotic plastic - Google Patents

Abstract

An embodiment of the present invention may provide an antibacterial plastic including an antibacterial film layer containing antibacterial copper powder and zeolite, and a pad layer formed under the antibacterial film layer.

Description

Antibacterial plastic {ANTIBIOTIC PLASTIC}

The present invention relates to antibacterial plastics, and more particularly, to antibacterial plastics containing antibacterial copper powder and zeolite and having enhanced adhesion.

In general, when using products made of plastic materials, sterilization of specific bacteria harmful to the human body through plastic or a technology of mixing a certain amount of non-ferrous metal materials such as silver and copper that have antibacterial power to prevent the propagation of specific bacteria during plastic molding this is known

Prior literature: Korean Patent Registration No. 10-0152315

In prior literature, a 'method for producing antimicrobial resin' is known, which contains one of silver, copper, tin, and arsenic ions and uses an inorganic ceramic-based metal ion carrier containing zirconium and sodium as main components added to plastic. technology is disclosed. More specifically, the antibacterial material of the prior art has a zirconium and sodium ratio of 8: 2, and an inorganic material such as silver or copper or tin or arsenic ion is supported at 80 to 120 ppm based on the weight of the powder and fired at a high temperature is formed by In addition, in order to minimize the effect on dispersibility and transparency when applied to plastic, the powder particle size of the inorganic material is formed in the range of 0.5 to 1.0 μm, and the antibacterial material composed of the zirconium and sodium and inorganic material ion powder is 0.1 to 1.0% by weight, the content of which is selected and added is disclosed.

Handrails used in public facilities including buses and subways are contacted by many people, so they can be a medium of virus infection by hand contact. In particular, recently, when the corona virus hit the world, interest in quarantine and disinfection of public facilities is increasing, such as sterilization and disinfection of these public facilities using a disinfectant solution.

In order to solve the above problems, an object of the present invention is to provide an antibacterial plastic comprising an antibacterial copper powder and zeolite and having enhanced adhesion.

An embodiment of the present invention may provide an antibacterial plastic including an antibacterial film layer containing antibacterial copper powder and zeolite, and a pad layer formed under the antibacterial film layer.

The antibacterial copper powder may have a purity of 99% or more or a copper content of 60% or more.

The antibacterial copper powder may be a mixture of 70% by weight of spherical powder and 30% by weight of flake-shaped powder with respect to the total weight.

The antibacterial copper powder may include powder in the form of spherical particles having an average diameter of 15 μm to 75 μm and powder in the form of flake particles having a length of 10 to 75 μm, a width of 10 to 75 μm, and a thickness of 3 to 10 μm.

The zeolite may be formed of a zeolite layer having one surface exposed on the antibacterial film layer.

The zeolite layer may be formed in a pattern shape on the antibacterial film layer.

The zeolite may be formed in a pattern shape inside the antibacterial film layer.

The pad layer may be formed in a pattern shape exposing a portion of the lower surface of the antibacterial film layer.

According to the present invention, an antibacterial plastic containing an antibacterial copper powder and zeolite and having enhanced adhesion can be obtained.

1 is a configuration diagram of an antibacterial plastic according to an embodiment of the present invention.
2 is a configuration diagram of an antibacterial plastic according to another embodiment of the present invention.
3 is a configuration diagram of an antibacterial plastic according to another embodiment of the present invention.
4 is a configuration diagram of an antibacterial plastic according to another embodiment of the present invention.

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

1 is a configuration diagram of an antibacterial plastic according to an embodiment of the present invention.

Referring to FIG. 1 , the antimicrobial plastic 100 according to the present embodiment may include an antimicrobial film layer 110 and a pad layer 120.

The antibacterial film layer 110 may include antibacterial copper powder 111 and zeolite 112 . The main component constituting the film layer is a plastic material, among materials such as polyvinyl chloride resin, polyethylene resin, polystyrene resin, polypropylene resin, ABS resin, phenol resin, urea resin, melamine resin, urethane resin, silicone resin Either one may be used.

The antibacterial copper powder 111 is a non-ferrous metal having high antimicrobial activity, and when a film is formed by mixing the antimicrobial copper powder with plastic, the antibacterial function of the film layer 110 can be enhanced. The antibacterial copper powder may have a purity of 99% or more or a copper content of 60% or more. In addition, the antimicrobial copper powder may be a mixture of 70% by weight of spherical powder and 30% by weight of flake-shaped powder with respect to the total weight of the antimicrobial copper powder. The antibacterial copper powder may include powder in the form of spherical particles having an average diameter of 15 μm to 75 μm and powder in the form of flake particles having a length of 10 to 75 μm, a width of 10 to 75 μm, and a thickness of 3 to 10 μm.

As the zeolite 112, both natural zeolite and synthetic zeolite may be used. Zeolite is generally an aluminosilicate having a three-dimensional framework structure, and is represented by the general formula xM _2/n O·Al ₂ O ₃ ·ySiO ₂ ·zH ₂ O. Here, M represents an n-valent ion capable of ion exchange, but is usually an ion of a monovalent or divalent metal. x represents the number of moles of metal oxide, y represents the number of moles of silica, and z represents the number of moles of crystal water. Specific examples of the zeolite include A-type zeolite, X-type zeolite, Y-type zeolite, T-type zeolite, high silica zeolite, sodalite, mordenite, analzyme, clinoptirolite, and chabazite. , erionite, and the like. However, it is not limited thereto.

In this embodiment, the antibacterial copper powder 111 and the zeolite 112 may be mixed in the antibacterial film layer 110 . The antibacterial film layer 110 of this type may be formed through an injection process by mixing a plastic material, antibacterial copper powder, and zeolite powder in an appropriate ratio. In this form, the antibacterial copper powder 111 and the zeolite powder 112 are exposed on the upper surface of the antibacterial film layer 110, so that when the antibacterial film layer is touched, it not only acts as an antibacterial agent, but also handles the antibacterial film layer attached thereto. When gripping the back, the adhesive force with the hand can be increased.

The pad layer 120 may be formed under the antibacterial film layer 110 . The pad layer 120 may be made of a plastic material. The antibacterial plastic 100 according to the present embodiment is attached to a handle in public transportation that many people touch or hold with their hands, and can play a role in preventing virus infection through the handle. Therefore, in the antibacterial plastic 100 according to the present embodiment, the pad layer 120 can be used when attached to a handle of a bus or subway. The pad layer 120 according to the present embodiment can be easily attached to or detached from a handle made of plastic or metal and can be implemented with a material having adhesiveness when attached to plastic or metal.

As such, in the antibacterial plastic according to the present embodiment, the adhesive pad layer 120 is formed under the antibacterial film layer 110 containing the antibacterial copper powder and zeolite, and the antibacterial film layer is applied to the handle of a bus or subway. When attaching to the body, it is possible to save the trouble of attaching it by using a separate adhesive. In addition, since the antibacterial plastic according to the present embodiment includes zeolite in the antimicrobial film layer 110, when the antibacterial plastic is attached to the handle and then grasps the handle, grip with the hand can be increased.

2 is a configuration diagram of an antibacterial plastic according to another embodiment of the present invention.

Referring to FIG. 2 , the antimicrobial plastic 200 according to the present embodiment may include an antimicrobial film layer 210 and a pad layer 220 .

In this embodiment, the antibacterial film layer 210 may include antibacterial copper powder 211 . The main component constituting the film layer is a plastic material, among materials such as polyvinyl chloride resin, polyethylene resin, polystyrene resin, polypropylene resin, ABS resin, phenol resin, urea resin, melamine resin, urethane resin, silicone resin Either one may be used.

The antibacterial copper powder 211 is a non-ferrous metal having high antimicrobial activity, and when a film is formed by mixing the antimicrobial copper powder with plastic, the antibacterial function of the film layer 210 can be enhanced. The antibacterial copper powder may have a purity of 99% or more or a copper content of 60% or more. In addition, the antimicrobial copper powder may be a mixture of 70% by weight of spherical powder and 30% by weight of flake-shaped powder with respect to the total weight of the antimicrobial copper powder. The antibacterial copper powder may include powder in the form of spherical particles having an average diameter of 15 μm to 75 μm and powder in the form of flake particles having a length of 10 to 75 μm, a width of 10 to 75 μm, and a thickness of 3 to 10 μm.

In this embodiment, a zeolite layer 230 may be formed on the antibacterial film layer 210 . As the zeolite layer 230, both natural zeolite and synthetic zeolite may be used. Zeolite is generally an aluminosilicate having a three-dimensional framework structure, and is represented by the general formula xM _2/n O·Al ₂ O ₃ ·ySiO ₂ ·zH ₂ O. Here, M represents an n-valent ion capable of ion exchange, but is usually an ion of a monovalent or divalent metal. x represents the number of moles of metal oxide, y represents the number of moles of silica, and z represents the number of moles of crystal water. Specific examples of the zeolite include A-type zeolite, X-type zeolite, Y-type zeolite, T-type zeolite, high silica zeolite, sodalite, mordenite, analzyme, clinoptirolite, and chabazite. , erionite, and the like. However, it is not limited thereto.

In this embodiment, the antibacterial copper powder 211 may be formed on the antibacterial film layer 210, and the zeolite layer 230 may be formed on the antibacterial film layer 210. The zeolite layer 230 may have a pattern shape with an upper surface exposed. In this embodiment, the zeolite layer 230 is shown in a form placed on the upper surface of the antimicrobial film layer 210. However, the zeolite layer 230 may be implemented in a form in which a portion of the antibacterial film layer 210 is embedded. In this case, the upper surface of the zeolite layer may be formed to be exposed to the outside.

In this embodiment, as the antibacterial copper powder 211 is exposed on the upper surface of the antibacterial film, antibacterial action can be performed when the antibacterial film layer is touched, and the zeolite layer 230 is formed on the upper surface of the antibacterial film layer 210, thereby preventing the antibacterial action. When gripping a handle or the like to which the antibacterial film layer is attached, adhesion with the hand can be increased.

The pad layer 220 may be formed under the antibacterial film layer 210 . The pad layer 220 may be made of a plastic material. The antibacterial plastic 200 according to the present embodiment is attached to a handle in public transportation that many people touch or hold with their hands, and can play a role in preventing virus infection through the handle. Therefore, in the antibacterial plastic 200 according to the present embodiment, the pad layer 220 can be used when attached to a handle of a bus or subway. The pad layer 220 according to the present embodiment can be easily attached to or detached from a handle made of plastic or metal and can be implemented with a material having adhesiveness when attached to plastic or metal.

As described above, in the antibacterial plastic according to the present embodiment, the adhesive pad layer 220 is formed under the antibacterial film layer 210 containing the antibacterial copper powder and zeolite, and the antibacterial film layer is applied to the handle of a bus or subway. When attaching to the body, it is possible to save the trouble of attaching it by using a separate adhesive. In addition, the antibacterial plastic according to the present embodiment includes the zeolite layer 230 on the antibacterial film layer 210, so that gripping force with the hand can be increased when the antibacterial plastic is attached to the handle and then held by the handle.

3 is a configuration diagram of an antibacterial plastic according to another embodiment of the present invention.

Referring to FIG. 3 , the antimicrobial plastic 300 according to the present embodiment may include an antimicrobial film layer 310 and a pad layer 320 .

In this embodiment, the antibacterial film layer 310 may include antibacterial copper powder 311 . The main component constituting the film layer is a plastic material, among materials such as polyvinyl chloride resin, polyethylene resin, polystyrene resin, polypropylene resin, ABS resin, phenol resin, urea resin, melamine resin, urethane resin, silicone resin Either one may be used.

The antibacterial copper powder 311 is a non-ferrous metal having high antibacterial activity, and when a film is formed by mixing the antibacterial copper powder with plastic, the antibacterial function of the film layer 310 can be enhanced. The antibacterial copper powder may have a purity of 99% or more or a copper content of 60% or more. In addition, the antimicrobial copper powder may be a mixture of 70% by weight of spherical powder and 30% by weight of flake-shaped powder with respect to the total weight of the antimicrobial copper powder. The antibacterial copper powder may include powder in the form of spherical particles having an average diameter of 15 μm to 75 μm and powder in the form of flake particles having a length of 10 to 75 μm, a width of 10 to 75 μm, and a thickness of 3 to 10 μm.

In this embodiment, the zeolite layer 330 may be formed in a pattern form inside the antibacterial film layer 310 . As the zeolite layer 330, both natural zeolite and synthetic zeolite may be used. Zeolite is generally an aluminosilicate having a three-dimensional framework structure, and is represented by the general formula xM _2/n O·Al ₂ O ₃ ·ySiO ₂ ·zH ₂ O. Here, M represents an n-valent ion capable of ion exchange, but is usually an ion of a monovalent or divalent metal. x represents the number of moles of metal oxide, y represents the number of moles of silica, and z represents the number of moles of crystal water. Specific examples of the zeolite include A-type zeolite, X-type zeolite, Y-type zeolite, T-type zeolite, high silica zeolite, sodalite, mordenite, analzyme, clinoptirolite, and chabazite. , erionite, and the like. However, it is not limited thereto.

In this embodiment, the antibacterial copper powder 311 is formed on the antibacterial film layer 310, and the zeolite layer 330 having the same thickness as the antibacterial film layer 310 is formed inside the antibacterial film layer 310. It can be formed by being inserted into a pattern shape. The zeolite layer 330 may expose the same plane as the upper surface of the antimicrobial film layer 310 between the antimicrobial film layers 310 .

In this embodiment, the antibacterial copper powder 311 is exposed on the upper surface of the antibacterial film, so that when the antibacterial film layer is touched, antibacterial action can be performed, and the zeolite layer 330 has the same thickness as the antibacterial film layer 310. Since it is formed and exposed in the middle of the antibacterial film layer, when gripping a handle or the like to which the antibacterial film layer is attached, adhesion with the hand can be increased.

The pad layer 320 may be formed under the antibacterial film layer 310 . The pad layer 320 may be implemented with a plastic material. The antibacterial plastic 300 according to the present embodiment is attached to a handle in public transportation that many people touch or hold with their hands, and can play a role in preventing virus infection through the handle. Therefore, in the antibacterial plastic 300 according to the present embodiment, the pad layer 320 can be used when attached to a handle of a bus or subway. The pad layer 320 according to the present embodiment can be easily attached to or detached from a handle made of plastic or metal and can be implemented with a material having adhesiveness when attached to plastic or metal.

As described above, in the antibacterial plastic according to the present embodiment, the adhesive pad layer 320 is formed under the antibacterial film layer 310 containing the antibacterial copper powder and zeolite, and the antibacterial film layer is applied to the handle of a bus or subway. When attaching to the body, it is possible to save the trouble of attaching it by using a separate adhesive. In addition, since the antibacterial plastic according to the present embodiment includes the zeolite layer 330 in the middle of the antibacterial film layer 310, when the antibacterial plastic is attached to the handle and then gripped by the handle, grip with the hand can be increased.

4 is a configuration diagram of an antibacterial plastic according to an embodiment of the present invention.

Referring to FIG. 4 , the antimicrobial plastic 400 according to the present embodiment may include an antimicrobial film layer 410 and a pad layer 420.

The antibacterial film layer 410 may include antibacterial copper powder 411 and zeolite 412 . The main component constituting the film layer is a plastic material, among materials such as polyvinyl chloride resin, polyethylene resin, polystyrene resin, polypropylene resin, ABS resin, phenol resin, urea resin, melamine resin, urethane resin, silicone resin Either one may be used.

The antibacterial copper powder 411 is a non-ferrous metal having high antimicrobial activity, and when a film is formed by mixing the antimicrobial copper powder with plastic, the antibacterial function of the film layer 410 can be enhanced. The antibacterial copper powder may have a purity of 99% or more or a copper content of 60% or more. In addition, the antimicrobial copper powder may be a mixture of 70% by weight of spherical powder and 30% by weight of flake-shaped powder with respect to the total weight of the antimicrobial copper powder. The antibacterial copper powder may include powder in the form of spherical particles having an average diameter of 15 μm to 75 μm and powder in the form of flake particles having a length of 10 to 75 μm, a width of 10 to 75 μm, and a thickness of 3 to 10 μm.

As the zeolite 412, both natural zeolite and synthetic zeolite may be used. Zeolite is generally an aluminosilicate having a three-dimensional framework structure, and is represented by the general formula xM _2/n O·Al ₂ O ₃ ·ySiO ₂ ·zH ₂ O. Here, M represents an n-valent ion capable of ion exchange, but is usually an ion of a monovalent or divalent metal. x represents the number of moles of metal oxide, y represents the number of moles of silica, and z represents the number of moles of crystal water. Specific examples of the zeolite include A-type zeolite, X-type zeolite, Y-type zeolite, T-type zeolite, high silica zeolite, sodalite, mordenite, analzyme, clinoptirolite, and chabazite. , erionite, and the like. However, it is not limited thereto.

In this embodiment, the antibacterial copper powder 411 and the zeolite 412 may be mixed in the antibacterial film layer 410 . The antibacterial film layer 410 of this type may be formed through an injection process by mixing a plastic material, antibacterial copper powder, and zeolite powder in an appropriate ratio. In this form, the antibacterial copper powder 411 and the zeolite powder 412 are exposed on the upper surface of the antibacterial film layer 410, so that when the antibacterial film layer is touched, it not only acts as an antibacterial agent, but also handles to which the antibacterial film layer is attached. When gripping the back, the adhesive force with the hand can be increased.

A pad layer 420 may be formed under the antibacterial film layer 410 . The pad layer 420 may be made of a plastic material. The antibacterial plastic 400 according to the present embodiment is attached to a handle in public transportation that many people touch or hold with their hands, and can play a role in preventing virus infection through the handle. Therefore, in the antibacterial plastic 100 according to the present embodiment, the pad layer 420 can be used when attached to a handle of a bus or subway. The pad layer 420 according to the present embodiment can be easily attached to and detached from a handle made of plastic or metal and can be implemented with a material having adhesiveness when attached to plastic or metal.

In this embodiment, the pad layer 420 may be formed in a pattern shape to expose a portion of the lower surface of the antibacterial film layer 410 . When attaching the antibacterial plastic according to the present embodiment to a handle of a bus or subway, the antibacterial plastic is often adhered to surround a cylindrical handle having a predetermined thickness. As in the present embodiment, by forming the pad layer 420 in contact with the cylindrical handle in a pattern shape, trouble caused by the curvature of the handle between the pad layer 420 and the antibacterial film layer 410 can be reduced.

As described above, in the antibacterial plastic according to the present embodiment, the adhesive pad layer 420 is formed under the antibacterial film layer 410 containing the antibacterial copper powder and zeolite, and the antibacterial film layer is applied to the handle of a bus or subway. When attaching to the body, it is possible to save the trouble of attaching it by using a separate adhesive. In addition, since the antibacterial plastic according to the present embodiment includes zeolite in the antimicrobial film layer 410, when the antibacterial plastic is attached to the handle and then gripped by the handle, grip with the hand can be increased.

Although the above has been described with reference to the preferred embodiments and examples of the present invention, those skilled in the art will variously modify the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. And it will be understood that it can be changed. For example, modifications such as the position of the antibacterial film layer and the zeolite layer, the shape of the pad layer, etc. should not be individually understood from the technical spirit or perspective of the present invention.

110: antibacterial film layer 120: pad layer

Claims (8)

An antibacterial film layer containing antibacterial copper powder and zeolite;
Pad layer formed under the antibacterial film layer
Including,
The zeolite,
Antimicrobial plastic, characterized in that formed of a zeolite layer exposed on one surface of the antimicrobial film layer.
According to claim 1,
The antibacterial copper powder,
An antibacterial plastic characterized by a metallic copper of 99% or more purity or a copper content of 60% or more.
According to claim 2,
The antibacterial copper powder,
An antibacterial plastic characterized by mixing 70% by weight of spherical powder and 30% by weight of flake-shaped powder with respect to the total weight.
According to claim 3,
The antibacterial copper powder,
An antibacterial plastic comprising a powder in the form of spherical particles having an average diameter of 15 μm to 75 μm and a powder in the form of flake particles having a length of 10 to 75 μm, a width of 10 to 75 μm, and a thickness of 3 to 10 μm.
delete According to claim 1,
The zeolite layer,
Antimicrobial plastic, characterized in that formed in a pattern shape on the top of the antimicrobial film layer.
According to claim 1,
The zeolite layer,
Antimicrobial plastic, characterized in that formed in a pattern shape inside the antibacterial film layer and the surface is exposed.
According to claim 1,
The pad layer is an antibacterial plastic, characterized in that formed in the form of a pattern exposing a portion of the lower surface of the antibacterial film layer.

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