JPH069657Y2 - Material with pile fungus - Google Patents

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to materials used for packaging materials, labels, building materials, and other daily life materials, particularly for objects and places where mold easily occurs. A material having antibacterial properties suitable for use.

<Prior Art> Conventionally, as a method for imparting mildew-proof property to a mold-prone substance such as wallpaper, shampoo bottle, kitchen detergent bottle, or label thereof, a method of mixing or applying an organic antibacterial agent is used. Was common. In recent years, an antibacterial zeolite prepared by substituting a metal of zeolite with a specific metal has been developed, and its action and effect as an inorganic antibacterial agent is expected.

<Problems to be Solved by the Invention> By the way, generally, an organic antibacterial agent has a duration of about 1 to 2 months. For this reason, for example, if labels such as labels to which organic antibacterial agents have been applied are stored for a long period of time, or if labels such as shampoo bottles for refills that are used for a long period of time are used, molds etc. must expire before the end of the period of use. Sometimes occurred. To prevent this, a large amount of antibacterial agent may be applied, but this organic antibacterial agent is not harmful to the human body and cannot be used in an excessive amount.

On the other hand, although the antibacterial zeolite has extremely low toxicity to the human body, according to the studies by the present inventors, the antibacterial effect against fungi and the like is poor immediately, and sufficient antibacterial properties are obtained when used as it is. Turned out not.

Therefore, the present invention provides a material having an antibacterial property, which exhibits sufficient antibacterial property even when it is stored or used for a long period of time and does not cause mold.

<Means for Solving the Problems> That is, the present invention relates to a material having an antibacterial layer formed by mixing an organic antibacterial agent and an inorganic antibacterial agent in an adhesive binder on the surface of the material, The antibacterial agent is an antibacterial zeolite obtained by substituting a part of the ion-exchangeable metal of zeolite with at least one metal selected from silver, copper and zinc, and is a material having antibacterial properties.

<Operation> In the present invention, the adhesive binder having an antibacterial layer is
The purpose is to mix and disperse an organic antibacterial agent and an inorganic antibacterial agent and fix them to a substrate. Then, both antibacterial agents of this antibacterial layer act on fungi such as mold, and by their interaction, extremely long-term antibacterial properties are exhibited.

<Example> Next, the present invention will be described with reference to the drawings.

FIG. 1 is a sectional view showing an embodiment of the present invention.

First, as the base material (1) used in the present invention, paper, synthetic paper, plastic film, non-woven fabric, metal foil, or a laminated product of these, or a plastic molded product can be arbitrarily used.

An antibacterial layer (2) is provided on the surface of the base material (1). Antibacterial layer (2)
Is an organic antibacterial agent (3) in an adhesive binder (5) whose main component is olefin-based, styrene-based, acrylic resin, etc.
And an inorganic antibacterial agent (4) are mixed in a predetermined amount.

The organic antibacterial agent (3) referred to in the present invention is a preservative, antifungal agent, anti-substance, etc.

The inorganic antibacterial agent (4) is obtained by substituting a part of the ion-exchangeable metal of zeolite with at least one metal selected from silver, copper and zinc.
The materials disclosed in JP-A-60-181002 and JP-A-60-100504 can be used.

The amount of the organic antibacterial agent (3) mixed in the adhesive binder (5) varies depending on the type of base material (1) and antibacterial agent used, but when the base material (1) is paper, etc., Base material is organic antibacterial agent (3)
Since it may be permeated into (1), 0.2 to 0.5% by weight is appropriate with respect to the weight of the substrate (1). Also,
The amount of the inorganic antibacterial agent (4) mixed is based on the surface area of the base material (1).
It may be about 0.1 to 0.2 g / m ² .

The method for forming the antibacterial layer (2) is that the organic binder antibacterial agent (3) and the inorganic antibacterial agent (4) are added to the adhesive binder (5) containing a suitable solvent.
It is possible by spray coating, printing or the like after mixing and stirring a predetermined amount of the above.

Next, the results of the antifungal test of the present invention will be shown.

Using cast-coated paper (Mirror Coat, manufactured by Kanzaki Paper Co., Ltd., 84.9 g / m ² ) as the base material, a combination of a benzimidazole compound and a nitrogen-containing sulfur compound as an organic antibacterial agent (Coatside 55D, Takeda Pharmaceutical Co., Ltd., silver-based antibacterial zeolite as an inorganic antibacterial agent (Zeomic Co., Ltd.)
Shinagawa Fuel Co., Ltd., and an ink (PS Epo OP Varnish, manufactured by Toyo Ink Mfg. Co., Ltd.) containing a nitrocellulose resin as an adhesive binder were used. Organic and inorganic antibacterial agents in 1 kg of adhesive binder
40g, 20g mixed, plate depth 35μ, gravure printing method, organic antibacterial agent 0.2% by weight relative to the weight of the substrate, inorganic antibacterial agent surface area ratio of about 0.1g / m ² To obtain a material having antibacterial properties (Example) according to the present invention. As comparative examples, the same materials as those in the above-mentioned examples were used, those containing no antibacterial agent (comparative example 1), those containing only organic antibacterial agents (comparative example 2), those containing only inorganic antibacterial agents (comparative example). 3) was prepared (see Table 1).

The above test sample was tested according to the method specified in ASTM-G21 (29 ° C., 85% RH).

The bacterial species used are black mold (Aspergillus niger IAM 2020) and blue mold (Penicillium citrinum IAM 7316).
The test was conducted by changing the storage period (inside the room) after preparing the test sample. The results are shown in Tables 2 and 3.

As can be seen from the above results, in the case of mixing only the organic antibacterial agent, the one having a storage period of 4 months or more was found to have mold growth within one week of the culturing period, and the inorganic antibacterial agent only
Regardless of the storage period, mold development was observed for the black mold from the third week of the culture period and for the blue mold from the second week of the culture period. On the other hand, no mold was found in any of the present invention.

<Effects of the Invention> The antibacterial material according to the present invention, when used in combination with the organic antibacterial agent and the inorganic antibacterial agent as described above, exhibits a remarkably long-term antibacterial property as compared with the case of using them alone. Therefore, it can be suitably used for things to be stored or used for a long time.

[Brief description of drawings]

 FIG. 1 is a sectional view showing an embodiment of the present invention. (1) …… Base material, (2) …… Antibacterial layer, (3) …… Organic antibacterial agent, (4) …… Inorganic antibacterial agent (5) …… Adhesive binder

Claims (1)

[Scope of utility model registration request] 1. A material having an antibacterial layer formed by mixing an organic antibacterial agent and an inorganic antibacterial agent in an adhesive binder on the surface of a base material, wherein the inorganic antibacterial agent is zeolite ion exchange. A material having antibacterial properties, which is an antibacterial zeolite obtained by substituting a part of possible metals with at least one metal selected from silver, copper and zinc.