JP2007327192A - Mildewproof structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent the growth of mold or various germs not only on the front side of a layer containing titanium dioxide but also on the backside thereof, by forming the layer, containing titanium dioxide, on the inside surface of a ceiling etc. <P>SOLUTION: A mildewproof layer 1, a primer layer 6, and the layer 2 containing titanium dioxide are formed on the indoor-side surface 31 of the ceiling 3, and a mercury vapor lamp luminaire 5 is provided in the room. Ultrahydrophilic and photocatalytic effects by titanium dioxide prevent the production of water drops, the growth of mold, etc. on the front side of the layer 2. Additionally, since the mildewproof layer 1 prevents the contact of titanium dioxide, the growth of the mold etc. can be prevented even on the backside of the primer layer 6 on which the photocatalytic effect cannot be expected. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an antifungal structure in which, for example, an antifungal layer and a layer containing titanium dioxide are coated on the inner surface of a ceiling and irradiated with ultraviolet rays.

  Conventionally, in places with high humidity such as food factories and bathrooms, water droplets are likely to adhere to the ceiling or wall surface, which is cooler than room temperature, and moisture adhering to the surface, ceiling finishing materials, dust in the air, etc. And combined, causing mold and other germs to propagate. If left as it is, water droplets containing mold and germs will fall and become hygienic. Also, the growth of mold and other germs may cause discoloration and stains on the ceiling.

  In order to remove this moisture, there is a method of installing an air-conditioning ventilation system, but the equipment and operation are expensive, and the filter attached to the equipment and the periodic maintenance inspection are also required. In food factories, etc., it is difficult to use air-conditioning ventilation equipment because it imposes severe conditions such as preventing direct exposure to food and preventing dust from flying into the air. there were.

In view of this, means for preventing the occurrence of mold and bacteria and the drop of water droplets have been proposed. As shown in FIG. 3, this means forms a titanium oxide layer on the surface of a substrate made of a glass plate via a base film, and further forms a hydrophilic overcoat layer on the surface of the titanium oxide layer. (For example, refer to Patent Document 1).
JP 2000-239047 A (pages 1 to 4, FIG. 1)

  However, the structure described in Patent Document 1 described above has the following problems to be improved. That is, in this structure, since the overcoat layer formed on the surface of the titanium oxide layer is hydrophilic, water does not adhere to this overcoat layer. In addition, the photocatalytic effect is generated by irradiating the titanium oxide layer with ultraviolet rays, and generation of mold and germs can be prevented on the surface of the overcoat layer. However, it is difficult to use a base material made of a glass plate as it is as the inner material of the chamber in terms of strength and cost. Further, when a base material made of a glass plate is used by being attached to a ceiling or the like, a photocatalytic effect does not occur because a titanium oxide layer is not formed on the back surface of the base material. Therefore, generation of mold or the like cannot be prevented on the back surface of the base material due to moisture entering from the ceiling.

  Therefore, it is conceivable to omit the glass plate and paint the titanium oxide and the overcoat layer directly on the ceiling. However, when the inner material of the room such as the ceiling is made of organic wood, etc., if the titanium oxide layer is directly coated on the inner material of the room, the ceiling material itself is oxidatively decomposed due to the photocatalytic effect of ultraviolet rays. Resulting in. For this reason, it is necessary to coat the surface of the ceiling or the like with a base layer (hereinafter referred to as “primer”) made of an inorganic material such as water glass that does not have a photocatalytic effect, and the titanium oxide layer needs to be coated on the primer. . Therefore, also in this case, since the photocatalytic effect does not occur on the back surface of the primer, it is impossible to prevent the occurrence of mold and bacteria on the back surface of the primer.

  In other words, all of the conventional means utilizing the photocatalytic effect of the titanium oxide layer are intended to prevent the generation of mold and germs on the surface of the titanium oxide layer. It was not supposed to prevent the generation of various bacteria. However, the back surface that is not in direct contact with the titanium oxide layer is also prone to mold and germs due to moisture and moisture entering from the ceiling, etc.If mold or germs occur in this part, the paint may be peeled off, There was a problem that spots were raised.

  Therefore, an object of the present invention is to prevent not only the generation of water droplets and mold on the surface of the layer containing titanium dioxide, but also the generation of mold on the back surface of the layer containing titanium dioxide. It is to propose a mold structure.

  In order to solve the above problems, the mold prevention structure according to the present invention is characterized in that a mold prevention layer and a layer containing titanium dioxide are formed in this order on the inner surface of the chamber, and a light source containing ultraviolet rays is formed inside the chamber. It is in having. Moreover, it is desirable that the mold prevention layer has a color that reflects visible light. Further, the light source including the ultraviolet light is more preferably a mercury lamp.

  Here, the “mold prevention layer” means a layer formed by a paint containing a component for preventing mold generation. For example, as a component for preventing mold generation, thiabendazole, dehydroacetic acid, 5-chloro-2 -Methyl-4-isothiazol-3-one, parachlorometaxylenol, triclosan, etc. The “layer containing titanium dioxide” means a layer containing titanium dioxide that produces a photocatalytic effect when irradiated with ultraviolet rays.

  “Forming an antifungal layer and a layer containing titanium dioxide in this order on the inner surface of the chamber” is not limited to both the antifungal layer and the layer containing titanium dioxide. The case where other layers are provided on the outer portion, the middle portion, or the inner portion of is included. The “room” means one space surrounded by a ceiling, a side wall, etc., for example, a room, a factory, or a bathroom. The “light source containing ultraviolet light” means a light source having a short wavelength of about 1 to 380 nm, and examples thereof include a mercury lamp, a metal hydride lamp, a black light, and a germicidal lamp. The “color that reflects visible light” means a color that reflects visible light having a wavelength of about 380 to 770 nm, for example, white.

  The mold prevention structure according to the present invention is to first form a mold prevention layer on the surface of a room such as a ceiling and form a layer containing titanium dioxide on the surface. Therefore, by irradiating the surface of the layer containing titanium dioxide with a light source containing ultraviolet rays, generation of mold and the like due to the photocatalytic effect of titanium dioxide and generation of water droplets due to super hydrophilicity can be prevented. Moreover, the layer containing titanium dioxide cannot be directly formed on the surface of a chamber such as an organic ceiling, and needs to be provided with an inorganic primer layer. However, when the primer layer is formed, titanium dioxide does not contact the back surface and the surface portion of the chamber such as the ceiling. Therefore, the photocatalytic effect does not occur, and mold and the like are generated. Thus, by providing a mold prevention layer between the surface of the chamber such as the ceiling and the primer layer, it is possible to prevent mold and the like from being generated on the back surface of the primer layer due to moisture from the ceiling back. .

  In addition, light sources such as mercury lamps contain a large amount of visible light as well as ultraviolet rays. Therefore, if the mold prevention layer is made a color that reflects visible light such as white, for example, the ultraviolet rays contained in the light source cause the titanium dioxide to exhibit a catalytic effect, and the visible light is reflected by this white mold prevention layer. Therefore, it can be effectively used as auxiliary light for indoor lighting. In addition, since ultraviolet rays are consumed by the photocatalytic effect, they are not so much contained in reflected light. Therefore, when this reflected light is used as auxiliary light, the influence of ultraviolet rays on the human body, products, etc. is small.

  Next, the best embodiment of the mold prevention structure according to the present invention will be described with reference to FIGS. The mold prevention structure shown in FIG. 1 has a mold prevention layer 1 and a layer 2 containing titanium dioxide formed on a surface 31 of a ceiling 3 of a food factory, and a support frame 4 provided above the chamber has 4 Each mercury lamp 5 is attached facing upward.

  Next, the construction of the mold prevention layer 1 and the layer 2 containing titanium dioxide will be described with reference to FIG. First, as a pretreatment for forming the mold prevention layer 1 on the inner surface 31 of the ceiling 3 of the room, the mold is sterilized on the inner surface of the ceiling. Occurrence prevention processing is performed. Here, the mold sterilization treatment is performed by spraying a sterilizing agent such as a product “Kabibye Bye-R Agent” manufactured by Parca Co., Ltd. on the inner surface 31 of the ceiling 3. Also, the mold re-generation prevention treatment is applied using a product “mold-bye-B agent” manufactured by PARKA CORPORATION. And the white antifungal layer 1 is painted on the inner surface 31 of the ceiling 3 which has been subjected to the pretreatment. Next, a transparent water glass is applied to the surface to form a primer layer 6, and a solution containing titanium dioxide is applied to the surface and dried to form a layer 2 containing titanium dioxide.

  Here, the white antifungal layer 1 is formed by coating a product TI manufactured by Parca Co., Ltd. to a thickness of about 0.05 mm. The primer layer 6 is applied with a product xiv coat manufactured by SEC Co., Ltd. to a thickness of 0.04 mm. The provision of the primer layer 6 prevents titanium dioxide from oxidizing and decomposing the organic material of the ceiling material due to the photocatalytic effect. The solution containing titanium dioxide is, for example, coated with a product “Titanium Next 21” planned by KN Inc. to a thickness of about 0.2 mm.

  In place of the mercury lamp 5, a light source including ultraviolet light such as a metal hydride lamp may be used, and these light sources may be installed on the floor surface or attached to the side wall. Moreover, the anti-mold layer 1 and the layer 2 containing titanium dioxide according to the present invention can be applied not only to the ceiling 3 but also to the side wall 32 of the room.

  The mold prevention structure according to the present invention can prevent the occurrence of mold on the back side as well as the surface of the layer containing titanium dioxide, and thus can be widely used in industries related to architecture.

It is a schematic longitudinal cross-sectional view at the time of forming the anti-mold layer and the layer containing titanium dioxide inside the ceiling of the room. It is sectional drawing of a mold prevention layer and the layer containing titanium dioxide. It is sectional drawing of the conventional anti-mold means.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Mold prevention layer 2 Layer containing titanium dioxide 3 Ceiling 31 Ceiling surface 4 Support frame 5 Mercury lamp (light source)
6 Primer layer

Claims (3)

An antifungal layer and a layer containing titanium dioxide are formed in this order on the inner surface of the chamber,
A light source containing ultraviolet rays is provided inside the chamber.
Mold prevention structure characterized by that.       2. The mold prevention structure according to claim 1, wherein the mold prevention layer has a color that reflects visible light.       3. The mold prevention structure according to claim 1, wherein the light source containing ultraviolet rays is a mercury lamp.

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