JP3128126U - Sterilizer - Google Patents

Abstract

Disclosed is a sterilizing tool that can easily sterilize the contents in a container without using harmful sterilizing agents or complicated devices.
The surface of a granular material is coated with a coating material containing photocatalytic titanium oxide to form a sterilizing tool that operates under a light source such as ultraviolet rays. Further, the bulk specific gravity of the granular material is set to 0.7 to 1.3. Desirably, the coating material is a glaze having a melting point of 800 ° C. or lower, and the granular material is ceramic.
[Selection] Figure 1

Description

The present invention relates to a sterilizing tool for sterilizing beverages in containers and items contained in washing machines.

Since there are many opportunities for germs to get mixed into things directly related to human health such as drinking water, many sterilizing / disinfecting agents and antibacterial / sterilizing tools are already on the market to prevent this. As sterilizing / disinfecting agents, hypochlorous acid-based ones, cresols, and other various ones are generally known, but those having a strong sterilizing power are generally harmful to the human body. Antibacterial and sterilizing tools generally apply heating, ultraviolet rays, ozone, or photocatalysis, but these powerful ones have a complicated or large structure and have a limited range of use. .

Under such circumstances, it has been impossible for conventional means to sterilize the contents (clothes) in the glass or the washing machine more easily. An object of the present invention is to solve such problems.

The surface of the granular material 2 is coated with a coating material 1 containing photocatalytic titanium oxide to obtain a sterilization tool of the present invention.

The size and shape of the granule 2 are not particularly limited, but a typical example is a sphere having a diameter of about 1 cm. The surface is coated with a coating material 1 containing titanium oxide, which is said to have a so-called photocatalytic action (to the extent that the photocatalytic action is exerted) to an appropriate thickness. Alternatively, glazes having a melting point of 800 ° C. or lower, preferably about 600 ° C. may be used. In the latter case, it is possible to make a glaze without impairing the physical properties of the titanium oxide by blending a non-lead-type frit or the like. Ceramics). Since such a ceramic type is excellent in durability, the applicable range is widened accordingly.

In any case, when the bulk density of the granular material 2 is set to around 1, that is, 0.7 to 1.3, it is likely to float or sink significantly when it is immersed in water. Since it does not do, it becomes easy to contact the accommodation thing in a container uniformly, and comes to be able to fully exhibit an effect. In addition, as a means for making such a bulk specific gravity with a material having a high specific gravity, there are methods such as making a hollow body, foaming, mixing a lightweight aggregate, and attaching a “floating”.

In order to actually use the sterilizing tool of the present invention as described above and to exert its effect, it is necessary to be placed in an environment where ultraviolet light or blue light is irradiated. For example, if it is under sunlight or a bright fluorescent lamp, it may be left as it is, but if it is in a washing machine, for example, it is necessary to install an ultraviolet lamp 3 or the like there.

Since the present invention has such a configuration, by attaching an ultraviolet lamp under dark light as it is in daylight or bright light, the place in contact with this in water is strongly sterilized by photocatalysis, Does not require or leave harmful germicides. In addition, since the shape is a granular material (with a specific gravity close to 1), if it fits in the container, it can be drastically fluidly stirred in water to increase the chance of contact with the surface. Thus, there is an effect that the photocatalytic sterilization action can be sufficiently enhanced.

Kiln clay 30W%, feldspar 20W%, monazite 10W%, and other ceramic materials mixed with medicinal stones such as alumina, ferric oxide, cobalt oxide, germanium compounds, or Ioishi as needed. A pair is formed into a hollow body and fired, and a medicine mainly composed of titanium oxide and frit is applied to the surface thereof to a thickness of about 0.5 mm, and fired at about 600 ° C. The diameter of the hollow body obtained in this way is about 0.5-3 cm, although it depends on the application, and the dimensions of the hollow part are calculated and selected in light of the specific gravity of the raw material so that the bulk specific gravity is as close to 1 as possible. To do. On the other hand, those for the mudler are formed as non-hollow bodies.

In using the above-mentioned titanium oxide-coated hollow body as a sterilization tool, for example, an ultraviolet lamp is attached to the inner wall of the clothes-accommodating portion of the electric washing machine or the lower surface of the lid, and several sterilization tools are put therein. Then, titanium oxide becomes a catalyst to make oxygen in the water active oxygen by the energy of ultraviolet rays, and sterilize various germs remaining on clothes.

In addition, you may make it softer things, such as rubber | gum, a timber, and plastics, without making with the ceramics thing as mentioned above.

As described above, the sterilizing tool of the present invention can be sterilized without using any harmful sterilizing agents or complicated devices, and is easy to mass-produce and implement. Therefore, it can be said that there is sufficient industrial applicability.

Cross-sectional view of an example of the present invention (enlarged)

Explanation of symbols

1 ... Coating material 2 ... Granules

Claims (3)

A sterilizing tool obtained by coating the surface of a granular material with a coating material containing photocatalytic titanium oxide. The sterilizer according to claim 1, wherein the bulk material has a bulk specific gravity of 0.7 to 1.3. The sterilizing tool according to claim 1 or 2, wherein the coating material is a glaze having a melting point of 800 ° C or lower, and the granular material is ceramic.

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