JPH037201A - Antifungal and deodorant agent - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an antibacterial/deodorizing agent that is particularly suitable for preventing the generation of bacteria in shoes caused by sweat, etc., and for preventing the generation of odor caused by bacteria.

(Prior Art) After using Wl products such as leather shoes, sports chaises, slippers, etc., bacteria often grow inside the footwear due to sweat etc., making it unclean, and the germs often generate unpleasant odors. Therefore, spray-type antibacterial/deodorizers using natural plant-based antibacterial agents, or socks and shoe dividers containing fine powder of metallic copper, etc., have been proposed, but none of these products have an antibacterial effect. It is small and has a short-lasting effect, making it unsatisfactory as an antibacterial and deodorizing agent for footwear.

(Problems to be Solved by the Invention) The present invention solves the above-mentioned conventional problems, maintains stable and strong antibacterial and deodorizing effects over a long period of time, and further improves its handling. It was completed to provide an antibacterial and deodorizing agent that is extremely easy to use.

(Means for Solving the Problem) The present invention provides 30% of meltable glass containing one or more metal ions selected from copper, zinc, and nickel.
It is characterized by being pulverized to 0 μm or less and having a dissolution rate of 0.001 to 10% by weight/Hr.

As described above, in the present invention, antibacterial and deodorizing effects are exerted by using soluble glass powder that can elute metal ions having antibacterial effects such as silver, copper, zinc, and nickel at a constant rate. .

This meltable glass is a general term for glasses whose composition has been adjusted in consideration of the physical and chemical properties of the glass so as to have a controlled dissolution rate, and which contains compounds such as silver, copper, zinc, and nickel. The meltable glass can elute the metal ions at a fixed, defined rate over any period of time from hours to years. The eluted metal ions, such as silver, are adsorbed to the cell walls of bacteria and microorganisms, or are concentrated within the cell membranes, inhibiting the growth of bacteria and microorganisms through the so-called oligocynamy effect, and exhibiting an antibacterial effect.

In the present invention, a soluble glass powder containing one or more metal ions selected from silver, copper, zinc, and nickel is used. The particle size of this powder is 300
μ or less, preferably in the range of 5 to 50 μ. If the particle size exceeds 300 μ, it may cause discomfort on the soles of the feet when dispersed into footwear, and it requires a large amount of glass powder to increase the density of powder dispersion, which is not economically desirable. This is because there is no On the other hand, the particle size is 5
This is because when the glass powder becomes finer than μ, it tends to re-aggregate during storage, making storage management difficult. Further, the melting rate of the meltable glass is in the range of 0.001 to 10% by weight/Hr. This is 0.001% by weight/H
In r-Ji, a, metal ions are not sufficiently eluted due to the slow dissolution rate of glass, and the possibility of soluble glass powder adhering to socks, etc. when wearing footwear and leaking out in small quantities is taken into consideration. This is because sufficient antibacterial and deodorizing effects cannot be obtained. On the other hand, if it exceeds 10% by weight/11r, the melting rate of the glass is too fast and there is a risk that it will become sticky inside the footwear during use, and storage management will also be difficult. Note that the above dissolution rate measurement was performed using distilled water 1
0.6g of glass powder is immersed in 00ml (20°C), and the amount of decrease in glass weight after 1 hour has passed is shown.

(Function) The antibacterial/deodorizing agent of the present invention is used by being sprayed directly into footwear, and is dissolved by sweat from the feet or a small amount of moisture contained in the footwear during use. The glass powder melts, and metal ions such as silver are gradually eluted over a certain period of time. As a result, the antibacterial action of metal ions such as silver prevents the growth of bacteria within the footwear, and also completely prevents the generation of odors due to the growth of bacteria. 3 (Example) SiOz 50 mol%, NatO 30 mol%, azo
i. A meltable glass containing 20 mol% of the metals shown in Table 1 (unit: double weight %) was prepared,
It was made into a powder with a predetermined particle size. 2 gr of this soluble glass powder was evenly applied to one pair of new safety shoes with a urethane resin partition, and then used to work at a glass bottle factory (for people wearing them for a week). After that, we took out the inner partition, cut out approximately IC- at the tip, and conducted a culture test on an agar medium.As a result, bacteria were generated in all cases without glass powder, but in cases with powder. No bacteria were observed in either case, confirming the antibacterial properties of the present invention.

In addition, similar glass powder was applied to the inside of one of the shoes of a person who had noticed an odor in the safety shoes they were using, and the odor inside the shoe was checked two days later. Although the odor was still felt, it was observed that the odor inside the shoe on the side into which the powder had been added had almost disappeared, confirming the deodorizing effect of the present invention.

Table 1 (Effects of the Invention) As is clear from the above description, the present invention gradually introduces one or more metal ions selected from silver, copper, zinc, and nickel having antibacterial properties over a long period of time. It can be eluted and exhibit excellent antibacterial and deodorizing effects, making it suitable as an antibacterial and deodorizing agent for footwear. In addition, the present invention is extremely easy to handle, convenient in use and storage, and dissolves soluble glass powder that adheres to socks, etc. during use, and exhibits an antibacterial effect when washed. It also has the secondary effect of As described above, the present invention greatly contributes to the development of industry as an antibacterial/deodorizing agent that eliminates the problems of conventional products.

Claims (1)

[Claims] Meltable glass containing one or more metal ions selected from silver, copper, zinc, and nickel is crushed to 300μ or less and has a dissolution rate of 0.001 to 10% by weight/Hr. An antibacterial and deodorizing agent featuring: