Reaction paper on airpurifying paint

The MSA program[28] allow to take into account hundreds of gases and their combinations. Same program was developed by Scott[31] and Dragerwerk. Wood developed a mathematical model and software which now allows one to calculate the service life of any cartridges with known properties.

Reaction paper on airpurifying paint

The present invention, as an application device, a mist generator and Bathroom dryer having the same, is to provide an antimicrobial filter and air cleaning device and a humidifier having the same. Moreover, even for uniform light irradiation difficult complex structures equipment, it can provide antimicrobial treatment method which can exhibit an antimicrobial effect.

Reaction paper on airpurifying paint

Antibacterial Reaction paper on airpurifying paint method of the present invention, at least a portion of the halogen with antimicrobial treatment liquid containing a titanium oxide containing a halogen chemically bonded to titanium oxide IV IV and solvent, or containing a halogen it is characterized in that an antibacterial treatment method used titanium oxide IV is supported on a substrate.

Further, by storing the antimicrobial treatment solution in a dark place, is brought into contact with the antimicrobial treatment liquid onto the antimicrobial treated, is characterized in that the expression of the antimicrobial action.

Further, a antibacterial treatment method using the antimicrobial treatment solution containing titanium IV oxide and a solvent containing a halogen, at least a portion of the halogen is chemically bound to the titanium oxide IVand at least the dark in is characterized in that the spraying onto the antimicrobial treated antimicrobial treatment liquid has antibacterial activity as droplets.

Further, a antibacterial Reaction paper on airpurifying paint method using the antimicrobial treatment solution containing titanium IV oxide and a solvent containing a halogen, at least a portion of the halogen is chemically bound to the titanium oxide IVand at least the dark in after antimicrobial treatment liquid has antibacterial activity are deposited onto the antimicrobial treated, it is characterized in that the solvent is volatilized.

According to the present invention, it is possible to provide an antimicrobial treatment method capable antimicrobial treatment without light irradiation.

Mist generating device of the present invention is a mist generator device including a water supply unit for supplying water into the apparatus, the spray part for spraying the supplied water, a portion in contact with water mist generating device comprising an antimicrobial portion made of a titanium oxide containing a halogen IV.

Antimicrobial portion, at least a portion of the halogen is chemically bound to the titanium oxide IVand, which treatment liquid antimicrobial part and water occurs in contact with the expression of antimicrobial activity at least dark, spray it is obtained by characterized by antimicrobial treatment of the surface of an object by spraying the treatment liquid by parts.

According to the present invention, is stable to agents such as light, radiation, chlorine, it is possible to provide a mist generator antimicrobial effect does not drop and bathroom dryer having the same. Therefore, the light, radiation, antibacterial effect is hardly reduced, such as by chlorine, stable and sustained mold and bacteria can be suppressed.

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As a result, it is possible to reduce the risk of mold and slime to maintain the bath in a clean condition. Antimicrobial filter of the present invention is a antimicrobial filter which titanium oxide IV supported on a substrate containing a halogen, and chemical bonding at least a portion of the halogen is between serial titanium oxide IVand at least the dark in which it characterized in that it comprises an antimicrobial activity.

Further, the air cleaning apparatus of the present invention and an antibacterial filter, a blower, and the air in the air cleaning apparatus for passing the antimicrobial filter by the blowing unit, which is characterized in that the antimicrobial filter is used at least dark it is.

The present invention can provide an air cleaning apparatus having an antimicrobial filter and antimicrobial filter having antimicrobial activity without light irradiation. Antimicrobial filter is stable to agents such as light, radiation, chlorine, antibacterial effect is not reduced.

Further, the antimicrobial filter can be a filter shape having a complicated structure such as a honeycomb, it can exert an antimicrobial effect. Humidifying device of the present invention, a humidifier, a blower, and a water supply unit, the water supply unit supplying water to the humidifier, the feed air to the humidification unit by the blower, the humidifier that performs humidification comprises titanium oxide containing a halogen within the humidifier IVat least a portion of the halogen is selected from the group consisting of titanium IV oxide and chemically bonded, and titanium oxide containing a halogen IV of at least the dark in which it characterized in that it comprises an antimicrobial activity.

According to the present invention, have antimicrobial activity without light irradiation, stable to agents such as light, radiation, chlorine, it is possible to provide a humidifier which antibacterial effect is not reduced.

Furthermore, an apparatus shape with uniform light irradiation difficult complicated structure, it is possible to provide a humidifying device which can exhibit an antimicrobial effect.

Figure 1 is a graph showing an example of antimicrobial efficacy of Examples according to the first embodiment of the present invention. Figure 2 is a graph showing an example of antimicrobial efficacy of Examples according to the embodiment.

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Figure 3 is a graph showing an example of antimicrobial efficacy of Examples according to the embodiment. Figure 4 is a graph showing an example of antimicrobial efficacy of Examples according to the embodiment. Figure 5 is a graph showing another example of antimicrobial efficacy of Examples according to the embodiment.

Figure 6 is a graph showing an example of antimicrobial efficacy of Examples according to the embodiment. Figure 7 is a graph showing an example of antimicrobial efficacy of Examples according to the embodiment.

Figure 8 is a graph showing an example of antimicrobial efficacy of Examples according to the embodiment. Figure 9 is a schematic sectional view showing a bathroom dryer having a mist generator device according to a second embodiment of the present invention.

Figure 10 is a schematic sectional view illustrating an air cleaning device according to the third embodiment in the third embodiment of the present invention. Figure 11 is a perspective view showing the air cleaning device according to the embodiment. Figure 12 is a front schematic sectional view showing a humidifier according to a fourth embodiment of the present invention.

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Figure 13 is a side schematic sectional view showing a humidifier according to the embodiment. Figure 14 is a schematic sectional view showing a humidifier according to a fifth embodiment of the present invention.

Figure 15 is a schematic sectional view showing a humidifier according to a sixth embodiment of the present invention. Figure 16 is a perspective view showing a conventional water sterilizing apparatus.

Figure 17 is a schematic sectional view showing a conventional bathroom automatic cleaning device. Figure 18 is a perspective view of a conventional deodorization device. Figure 19 is a schematic sectional view of a conventional humidifier.

Figure 20 is a schematic sectional view showing another conventional humidifier.

Reaction paper on airpurifying paint

It will be described below with reference to the drawings, embodiments of the present invention. Embodiment 1 Antibacterial treatment method of the present invention, the titanium oxide containing a halogen IV hereinafter, simply titanium oxide hereinafter method using an antibacterial treatment liquid including a solvent or, carrying the titanium oxide containing a halogen to a substrate, a method for, at least some of the halogen, titanium oxide and chemically bonded, and the antibacterial treatment solution comprises an antimicrobial activity at least dark, to express antibacterial effect.

The antibacterial treatment method of the present invention, because it contains a halogen-containing titanium oxide having antimicrobial activity in the dark in the antimicrobial treatment liquid, conventionally, silver is to exhibit antimicrobial activity even in a dark place, copper, zinc, etc.

The method of measuring the cell concentration can be carried out by the method shown in Examples described later.A respirator is a device designed to protect the wearer from inhaling particulate matter, including airborne microorganisms, fumes, vapours and pfmlures.com are two main categories: the air-purifying respirator which forces contaminated air through a filtering element, and the air-supplied respirator in which an alternate supply of fresh air is delivered.

Protective gear

A respirator is a device that protects you from inhaling dangerous substances, such as chemicals and infectious particles. Respirators are among the most important pieces of protective equipment for working in hazardous environments.

Selecting the right respirator requires an assessment of all the. Coatings, an international, peer-reviewed Open Access journal. The paper will examine a specific population of clients who have special needs; the population that will be examined is the homeless.

A personal perspective on how I, as an advocate, can assist with problems this client group has such as: food, clothing, shelter, . † Gray shall not be assigned as the main color for a canister designed to remove acids or vapors The orange color can be used for painting the entire cartridge housing, or as a strip.

But this color is not in the table, and to determine from what protects the cartridge with such color one should. Disclosed is an antibacterial treatment method using an antibacterial treatment solution comprising titanium oxide (IV) containing halogen atoms and a solvent, wherein at least some of the halogen atoms are bound to titanium oxide (IV) through chemical bonds and .