JP2870694B2 - Antibacterial paper - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to paper having excellent antibacterial properties and a stock used for producing the paper.

[Problems to be solved by conventional technology and invention]

2. Description of the Related Art Conventionally, paper has been used for various purposes as a packaging material for food and drink or a medical material such as a surgical tape.

When used as a packaging material, paper merely plays a role of packaging. In addition, when used as a surgical tape, it merely serves as a base material for applying an adhesive, and when used as other medical materials, for example, it simply serves as an absorbing material such as blood. It only fulfills.

According to the present invention, a specific substance is contained in paper, and by the action of the substance, rot of the packaged food or drink is prevented, or bacteria adhered to the paper are sterilized to make the paper unsanitary. It is to try to prevent.

[Means and Actions for Solving the Problems]

That is, the present invention relates to an antibacterial paper obtained by mixing a ceramic powder obtained by firing a mixture of a radioactive mineral powder, a silver mineral powder, and an inorganic oxide powder, and a stock for producing the paper. Things.

In the present invention, as the radioactive mineral, for example, fergusonite, brown stone, monazite and the like are used. These are naturally occurring, such as the Namigata region of Ehime prefecture, the Iizaka region of Fukushima prefecture, the Yamaguchi region of Nagano prefecture, the Oro region of Kyoto prefecture, the Abu sumi region of Fukushima prefecture, the Ishikawa region of Fukushima prefecture, the Naegi region of Gifu prefecture, and Fukuoka. It is produced in the Kotoge region of the prefecture, Australia, India, and Malaysia. The composition of these radioactive minerals is radium oxide, thorium oxide, niobium oxide, tantalum oxide, yttrium oxide, cerium oxide, silicic acid, iron oxide,
Aluminum oxide, titanium oxide, calcium oxide,
It is composed of manganese oxide, magnesium oxide, manganese oxide, erbium oxide and the like. Radiation is irradiated from thorium oxide or the like in this composition. Therefore, it is particularly preferable to use a radioactive mineral containing 0.05 to 2.0% by weight of thorium oxide. 2.0% by weight of thorium oxide
When it exceeds, the amount of irradiated radiation increases, and the working environment of the paper or stock production site of the present invention tends to deteriorate. On the other hand, when the content of sodium oxide is less than 0.05% by weight, the amount of irradiated radiation becomes too small, and the antibacterial property tends to decrease. The finer the particle size of the radioactive mineral powder, the better. Generally, it is preferably about 0.5 to 3 μm.

In the present invention, as the silver mineral, for example, kiggin ore, kacgin ore, sylvanianite, miazilite, pez ore, anguine ore, haligin ore, norkoguin ore, tankougin ore, and polybas ore are used. Further, even those having a lower silver content than the above minerals can be used. That is, if the silver content of the silver mineral is 0.005% by weight or more, it can be suitably used in the present invention. It is known that by bringing silver into contact with another substance, an antibacterial effect can be obtained on the substance. However, when the silver content of the silver mineral is less than 0.005% by weight, the antibacterial effect of silver is reduced. Is reduced. The finer the particle size of the silver mineral powder is, the more preferable it is, generally, about 0.5 μm to 3 μm.

As the inorganic oxide powder, silicon dioxide, aluminum oxide, iron (III) oxide, calcium oxide, magnesium oxide, sodium oxide, potassium oxide, titanium oxide (I
V), and powders such as diboron trioxide. Further, zinc oxide may be used as the inorganic oxide powder. The finer the particle size of the inorganic oxide powder is, the more preferable it is.

In the present invention, an antibacterial paper is obtained by mixing a ceramic powder obtained by firing a mixture of a radioactive mineral powder, a silver mineral powder, and an inorganic oxide powder.

When the ceramic powder is obtained, the mixing ratio of the radioactive mineral powder, the silver mineral powder, and the inorganic oxide powder is preferably as follows. That is, the inorganic oxide powder 10
The radioactive mineral powder is preferably about 5 to 100 parts by weight, and the silver mineral powder is preferably about 5 to 100 parts by weight with respect to 0 parts by weight. When the amount of the radioactive mineral powder or the like is less than 5 parts by weight, the antibacterial effect tends to decrease due to a decrease in the amount of irradiated radiation. If the amount of the radioactive mineral powder or the like exceeds 100 parts by weight, the amount of the inorganic oxide powder as the linking agent is relatively reduced, and a tendency is likely to be difficult to obtain a ceramic powder.

The antibacterial paper according to the present invention is obtained by mixing such ceramic powder. The mixing ratio of the ceramic powder is preferably about 1 to 50% by weight based on the total weight of the antibacterial paper. 1% by weight of ceramic powder
If the amount is less than the above range, the amount of the irradiated radiation tends to decrease. On the other hand, if the mixing ratio of the ceramic powder exceeds 50% by weight, the mechanical properties such as the tensile strength of the antibacterial paper tend to decrease.

Blending is generally performed with pulp powder. That is,
Create a dispersion liquid in which the pulse powder is dispersed in a size liquid, etc.
Add the above ceramic powder into it to get paper stock,
The antibacterial paper according to the present invention can be obtained by using this stock to make paper with a round screen machine or a fourdrinier machine. Also,
Instead of pulp powder or together with pulp powder, fiber length 0.
A dispersion of about 5 to 1.5 cm of rayon staple fiber or polyamide staple fiber or the like in water is added to the above-mentioned ceramic powder to obtain a paper stock, which is then subjected to papermaking to thereby produce the antibacterial agent according to the present invention. It is also possible to obtain functional paper.

When mixing the above ceramic powders, starch, carboxymethylcellulose, polyacrylic acid,
If a binder such as arabic gum, tragacanth rubber, meskit rubber, gatch gum, pullulan acetate (an ester obtained by reacting pullulan with acetic acid or the like) is added, an antibacterial paper with high strength can be obtained. In addition, the binder can be sprayed after mixing to improve the strength of the antibacterial paper.

The mixing ratio of the stock according to the present invention is about 3 to 15 parts by weight of a fiber component such as pulp powder and about 1 to 7 parts by weight of a ceramic powder which is an antibacterial component, based on 1,000 parts by weight of water. The amount of the binder component is preferably about 0.01 to 0.1 part by weight.

〔Example〕

Example 1 First, a composition having the following composition and composition was prepared.

Inorganic oxide (particle size: 2μ) 100 parts by weight Brown stone (particle size: 5μ) 40 parts by weight Haliginite (particle size: 5μ) 20 parts by weight The above-mentioned inorganic oxide is composed of silicon dioxide (silica) and aluminum oxide (alumina). ).

This composition was baked at about 1000 ° C. for 2 days to obtain a ceramic, which was pulverized to obtain a ceramic powder having a particle size of 12 μm.

Using this ceramic powder, a stock having the following composition and composition was obtained.

Water 1000 parts by weight Pulp powder 10 parts by weight Ceramic powder (particle size 12 μ) 1 part by weight Using this stock, papermaking was carried out with a fourdrinier and dried to obtain an antibacterial paper.

The antibacterial paper was spread on a ceramic dish, and a tuna cut was further placed thereon. Then, it was left at room temperature. After three hours, the fillets showed little change.

For comparison, the tuna cuts were placed directly on a ceramic dish on which no antibacterial paper was laid, and left at room temperature. After 3 hours, the fillet had discolored almost entirely.

Example 2 First, a composition having the following composition and composition was prepared.

Inorganic oxide (particle size 2μ) 100 parts by weight Brown stone (particle size 5μ) 40 parts by weight Haliginite (particle size 5μ) 20 parts by weight The above inorganic oxides are silicon dioxide (silica), aluminum oxide (alumina) ) And zinc oxide (zinc white).

This composition was baked at about 1000 ° C. for 2 days to obtain a ceramic, which was pulverized to obtain a ceramic powder having a particle size of 2 μm.

Using this ceramic powder, a stock having the following composition and composition was obtained.

Water 1000 parts by weight Pulp powder 10 parts by weight Ceramic powder (particle size 2μ) 4 parts by weight Using this stock, paper was made with a fourdrinier and dried to obtain an antibacterial paper.

When a test similar to that of Example 1 was performed using this antibacterial paper, it was found that the antibacterial effect was exhibited.

〔The invention's effect〕

As described above, in the antibacterial paper according to the present invention,
Since there is a ceramic powder obtained from a mixture of a radioactive mineral powder, a silver mineral powder and an inorganic oxide powder, radiation is irradiated from the radioactive mineral or the silver mineral comes into contact with the outside air. Therefore, when this antibacterial paper is used as a packaging material, for example, in contact with food or drink, the food or drink is irradiated with radiation or the food or drink comes into contact with the silver mineral. Accordingly, the growth of bacteria in the food or drink is suppressed or the bacteria are sterilized, so that there is an effect that rot of the food or drink can be prevented.

Further, the antibacterial paper according to the present invention can kill attached bacteria, and is always sanitary. Therefore, when this antibacterial paper is used as a medical material, it is possible to prevent bacteria from entering through a wound or the like of a patient and to protect a patient from unexpected infection.

Claims (4)

(57) [Claims] An antibacterial paper comprising a ceramic powder obtained by firing a mixture of a radioactive mineral powder, a silver mineral powder and an inorganic oxide powder. (2) Thorium oxide is used as a powder of the radioactive mineral.
The antibacterial paper according to claim 1, wherein the antibacterial paper is used in an amount of from 0.05 to 2.0% by weight. 3. A paper stock containing ceramic powder obtained by firing a mixture of a radioactive mineral powder, a silver mineral powder, and an inorganic oxide powder. 4. A radioactive mineral powder comprising thorium oxide,
The paper stock according to claim 3, which is used in an amount of from 0.05 to 2.0% by weight.