JP4048266B2 - Article surface coating method and article surface coating agent of photocatalyst composition - Google Patents

Description

【００５２】
この測定結果によれば、実施例１によって得た物品表面塗布剤Ａ１と、実施例２によって得た物品表面塗布剤Ａ２とによりガラスｂへ塗布した場合は、いずれも、１２０時間経過後には、ホルムアルデヒド濃度は０．００ｐｐｍとなり、学校衛生基準が規定する測定指定項目の中で、ホルムアルデヒドの基準０．０８ｐｐｍ（１００μｇ／ｍ³）を満たした。
【００５３】
しかし、比較例１によって得た塗布剤により塗布した場合は、１２０時間経過後であっても、ホルムアルデヒド濃度の値が０．２８ｐｐｍを示し、学校衛生基準が定める０．０７ｐｐｍを達成することができなかった。
【００５４】
次に、前記実施例１，２と比較例１とを以下の測定条件において測定した。
学校衛生基準での測定指定項目の中に記載されるトルエン・キシレンおよびパラジクロロベンゼンについて、５０ｃｍ³ のガラス張りで密封状態の試験箱の中に、トルエン・キシレンを４６８０μｇ／ｍ³ の初期濃度に、パラジクロロベンゼンを３０００μｇ／ｍ³ の初期濃度になるように入れた。
この試験箱に対して、１００μＷ／ｃｍ² の紫外線をブラックライトで照射した。
そして、試験箱内のホルムアルデヒド濃度の経時変化を、トルエン・キシレン検知管およびパラジクロロベンゼン検知管により計測し、その測定結果を下記の表２および表３にそれぞれ示す。
【００５５】
【表２】

【００５６】
【表３】

【００５７】
上記の測定結果、トルエン・キシレンでは、８０時間後には０μｇ／ｍ³ になった。また、パラジクロロベンゼンでは、７０時間後には１７０μｇ／ｍ³ となり、初期値の５．７％に減少した。
以上の結果から、本発明実施例により学校衛生基準での測定指定項目についての基準値（トルエン…２６０μｇ／ｍ³ 以下，キシレン…８７０μｇ／ｍ³ 以下，パラジクロロベンゼン…２４０μｇ／ｍ³ 以下）を満たすことができる。
【００５８】
一方、比較例１によって得た塗布剤により塗布した場合は、８０時間経過後であっても、トルエン濃度の値が４５０μｇ／ｍ³ を示し、学校衛生基準が定める２６０μｇ／ｍ³ の値を達成することができず、また、パラジクロロベンゼン濃度の測定にあっても、７０時間を経過した後でも、トルエン・キシレン濃度の値が３６０μｇ／ｍ³ を示し、学校衛生基準が定める２６０μｇ／ｍ³ の値を達成することができなかった。
【００５９】
【発明の効果】
本発明は前述のように、光触媒組成物と、バインダ剤と、油成分を含有するバインダ補助剤とを混合して液状の物品表面塗布剤を得て、この物品表面塗布剤を物品の表面へ塗布して薄く引き延ばした塗膜層を前記物品の表面に形成させ、この塗膜層の最外層に位置した表層部の前記バインダ剤とバインダ補助剤との層を拭き取りにより除去して、前記光触媒組成物を前記塗膜層の最外層表面に露出させることにより、該光触媒組成物の光触媒作用をできるだけ拡大させることができ、室内などの空気中に浮遊している健康に好ましくない有機物質をこの光触媒組成物に付着させて分解させる。
物品表面塗布剤を薄く塗布することができるため、光触媒組成物の表面露出がしやすくなる。
また、前記物品表面塗布剤へ研磨剤を混入させることにより、光触媒組成物の塗膜層の最外層表面に露出させる効果が増大し、一層の光触媒組成物の光触媒作用を促進させることができる。
【図面の簡単な説明】
【図１】 本発明に関する第一実施例の光触媒組成物の物品表面塗布方法により物品表面塗布剤の物品への塗布状態の一部を拡大して示す断面図で、（ａ）は塗布直後を、（ｂ）は拭き取り手段による拭き取り状態である。
【図２】 図１における物品表面塗布剤における光触媒組成物を示す断面図である。
【図３】 本発明に関する第二実施例の光触媒組成物の物品表面塗布方法により物品表面塗布剤の物品への塗布状態の一部を拡大して示す断面図で、（ａ）は塗布直後を、（ｂ）は拭き取り手段による拭き取り状態である。
【符号の説明】
Ａ１，Ａ２…物品表面塗布剤．ｂ…物品．１…光触媒組成物．２…バインダ剤．３…バインダ補助剤．４ａ，４ｂ…塗膜層．６…研磨剤．[0001]
[Industrial application fields]
The present invention provides an article surface of a photocatalyst composition that can be applied to an article surface such as a plastic plate or a glass plate to remove indoor malodors or harmful substances or dirt on the article surface with the photocatalyst composition. The present invention relates to a coating method and an article surface coating agent.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a technique for removing contaminants floating in air such as indoors by applying a photocatalyst to a glass surface of a building is known.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 9-173783
[0004]
This one contains a photocatalyst made of titanium dioxide or a mixture of titanium dioxide and activated carbon in the adhesive, or sprays the photocatalyst on the adhesive to expose the photocatalyst to the outside of the binder. Is a structure in which the binder is heated and dried with a heat source such as a heater, and the photocatalyst is applied to the main surface of the plate glass constituting the window, door, or moving body.
[0005]
However, since this prior art contains a photocatalyst in a binder such as an adhesive and is fixed by heat treatment, for example, in order to apply a photocatalyst to a window glass of an existing or newly built house, office, etc., a heater A large-scale facility such as a heat treatment apparatus such as the above is required, and anyone cannot easily perform it, and a sufficient photocatalytic effect cannot be obtained.
[0006]
[Problems to be solved by the invention]
The present invention was made to solve the above-described problems, and a liquid article surface coating agent was obtained by mixing a photocatalyst composition, a binder agent, and a binder auxiliary agent containing an oil component, An article surface coating agent is applied to the surface of the article to form a thinly stretched coating layer on the surface of the article, and the layer of the binder agent and binder auxiliary agent located on the outermost layer of the coating layer is wiped off By removing and exposing the photocatalyst composition to the outermost surface of the coating layer, the photocatalyst composition is applied to the surface of the article such as a plastic plate or a glass plate to prevent bad odors and harmful substances in the room or dirt on the surface of the article The object of the present invention is to provide an article surface coating method and article surface coating agent for a photocatalyst composition that can be removed by the photocatalytic effect of the product.
[0007]
[Means for Solving the Problems]
The means of the present invention for achieving the above-mentioned object is as follows:
A liquid article surface coating agent is obtained by mixing a photocatalyst composition, a binder agent, and a binder auxiliary agent containing an oil component,
Applying this article surface coating agent to the surface of the article to form a thinly stretched coating layer on the surface of the article,
By removing the layer of the binder agent and binder auxiliary agent located in the outermost layer of the coating layer by wiping,
The photocatalyst composition is applied to the surface of an article of the photocatalyst composition in which the photocatalyst composition is exposed on the outermost surface of the coating layer.
[0008]
Also,
A liquid article surface coating agent is obtained by mixing a photocatalyst composition, a binder agent, a binder auxiliary agent containing an oil component, and an abrasive,
Applying this article surface coating agent to the surface of the article to form a thinly stretched coating layer on the surface of the article,
The layer of the binder agent and binder auxiliary agent located in the outermost layer of this coating layer is removed by wiping together with the abrasive contained in the layer of the binder agent and binder auxiliary agent,
The photocatalyst composition is applied to the surface of an article of the photocatalyst composition in which the photocatalyst composition is exposed on the outermost surface of the coating layer.
[0009]
And
Contains photocatalyst composition, binder agent and oil componentRemoved after the surface of the article is appliedIn a liquid article surface coating agent prepared by mixing with a binder adjuvant,
The binder auxiliary agent is a wax derived from a natural plant, a mineral spirit solvent,Vegetable oilOr composed of surfactant,
Or natural plant wax, mineral spirit solvent, vegetable oilAt least one ofAnd surfactantIt is in the structure of the article | surface surface coating agent which consists of.
[0010]
Contains photocatalyst composition, binder agent and oil componentRemoved after the surface of the article is appliedIn a liquid article surface coating agent prepared by mixing a binder adjuvant and an abrasive,
The binder auxiliary agent is a wax derived from a natural plant, a mineral spirit solvent,Vegetable oilOr composed of surfactant,
Or natural plant wax, mineral spirit solvent, vegetable oilAt least one ofAnd surfactantFromBecomeIt is in the structure of the article surface coating agent.
[0011]
The pH of the photocatalyst composition is adjusted to 1-6 with the surfactant in the binder adjuvant.
[0012]
The particle size of the photocatalyst composition is 6 nm to 10 nm, and the photocatalyst composition is contained in the article surface coating agent in an amount of 0.1 wt% to 30 wt%.
[0013]
The size of the abrasive particles is 0.1 to 0.5 microns, and is contained in the article surface coating agent in an amount of 10 to 50% by weight.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Next, an example of implementation of the article surface coating method and article surface coating agent of the photocatalyst composition according to the present invention will be described with reference to the drawings.
In FIGS. 1 and 3, A1 and A2 are article surface coating agents, which are applied to articles b in appropriate places (where the place of use is not limited) such as windows for buildings and automobiles, plastic plates or solar parts, indoor walls, etc. Organic substances that are unfavorable for health floating in the air such as indoors by demonstrating the photocatalytic action of the photocatalyst composition contained inside by irradiation with sunlight or artificial ultraviolet rays (which may be visible light) For example, acetaldehyde, ammonia, nitrogen oxides, chlorine compounds, etc.) are oxidized, decomposed and removed. It also prevents the onset of allergies such as hay fever, atopy and sick house syndrome.
In addition, as a use wavelength of sunlight or a fluorescent lamp for exhibiting the photocatalytic action, for example, ultraviolet rays (near ultraviolet rays) of 280 nm to 420 nm are effective.
[0015]
And article surface coating agent A1 of this 1st Example consists of photocatalyst composition 1, binder agent 2, and binder adjuvant 3 containing an oil ingredient, and these photocatalyst composition 1, binder agent 2, and The binder adjuvant 3 is mixed with a predetermined composition to prepare a liquid.
[0016]
The photocatalyst composition 1 described above is formed into a fine powder, the particle diameter thereof is 6 nm to 10 nm, and 0.1 to 30% by weight is contained with respect to the total amount of the article surface coating agent A1. Is done.
If the particle size of the photocatalyst composition 1 is less than 6 nm, it is difficult to process and the cost increases, and if it is 10 nm or more, it is difficult to dissolve in the binder solution 2 described later and This causes a disadvantage that the surface of the subsequent article b becomes white turbid and the transparency is greatly reduced.
In addition, when the blending ratio of the photocatalyst composition 1 is less than 0.1% by weight, harmful substances (organic compounds) are not reduced and oxidized, and sufficient photocatalytic action cannot be exhibited. If the content is 30% by weight or more, the transparency of the surface of the article b cannot be obtained.
[0017]
The photocatalytic composition 1 includes titanium oxide, titanium dioxide, or a sol-like titanium compound, or zinc oxide, tin oxide, iron oxide, copper oxide, silver oxide, tungsten oxide, zirconium oxide, bismuth oxide, indium oxide. And metal oxides such as cadmium oxide, germanium oxide, nickel oxide, cobalt oxide, chromium oxide, manganese oxide, vanadium oxide, niobium oxide, antimony oxide, and strontium titanate.
The sol-like titanium compound is prepared in a predetermined solution form with ethanol (methyl alcohol) or water.
[0018]
Furthermore, as shown in FIG. 2, a metal or metal compound 1a can be added to the surface of the photocatalyst composition 1, and the metal or metal compound 1a can be, for example, gold, silver, copper, platinum, Examples include iron, cobalt, nickel, chromium, zinc, etc. Among these, platinum is most preferable.
And at least 1 type of the said metal or the metal compound 1a is fix | immobilized physically or chemically with respect to the particle | grain surface of this photocatalyst composition 1. FIG.
By supporting the metal 1a and the like on the particle surface of the photocatalyst composition 1, charge separation by the photocatalyst composition 1 is promoted, and the photocatalytic characteristics are further increased.
The amount of the metal 1a or the like to be immobilized is preferably 1% by weight to 50% by weight with respect to the total amount of the photocatalyst composition 1.
Moreover, examples of the method for immobilizing the metal 1a include an ion doping method and a photoreduction method, but the means is not particularly limited.
[0019]
In addition, this photocatalyst composition 1 adjusts its PH (unit which displays acidity or alkalinity) to the value of 1-6 by addition of a conventional surfactant, and maintains it by making it acidic or weakly acidic. It is difficult to oxidize, and quality deterioration of the oil component added to the binder auxiliary agent 3 described later can be avoided.
In this preparation, when the PH value is less than 1, the acid component is too strong and the oil component described later is altered, and when it is 6 or more, the quality of the oil component cannot be maintained.
[0020]
The binder agent 2 described above has a binder function for supporting the photocatalyst composition 1. For example, an appropriate composition such as a silicon resin, an acrylic resin, a fluorine resin, an epoxy resin, or natural glue is used. It is used and formed into a solution with a predetermined concentration that has good fluidity with an appropriate diluent such as water or ethyl alcohol (ethanol).
The blending ratio is, for example, 3.5% to 5% by weight with respect to the total amount of the article surface coating agent A1, and when diluted, the blending with the diluent: binder agent 2 is 0.5 wt% to 99.5 wt%: It is preferable that the blending amount is about 99.5 wt% to 0.5 wt%.
[0021]
The binder auxiliary agent 3 described above is for applying the photocatalyst composition 1 as thinly as possible to the surface (application object) of the article b.
This binder auxiliary agent 3 has an oil component, and the oil component is, for example, a wax derived from a natural plant, a mineral spirit solvent, vegetable oil, or the like, and a conventional surfactant, water, ethanol or the like. Composed. Also, it is prepared in the form of a solution.
As the oil component, among these, the wax derived from the natural plant includes, for example, carnauba wax, candelilla wax, rice bran wax, cucumber wax, sugar cane wax, jojoba wax, oilseed wax, molasses, urushi wax, beeswax, etc., at least from this group You can choose one type.
These oil components exhibit water repellency, gloss on the coated surface, and compatibility with the synthetic resin.
[0022]
In addition, it has good film properties, has alkali resistance, weather resistance, and quick drying properties, and has good workability in painting methods such as sprays, brushes, and rollers that are usually used for repairs, and is toxic. Mineral spirit solvent with less content is used as a component of the binder adjuvant 3.
[0023]
Examples of the mineral spirit in the binder auxiliary agent 3 described above include mineral terpenes, white spirits, mineral thinners, petroleum spirits, and the like, and at least one kind from this group may be selected.
[0024]
Furthermore, the vegetable oil in the binder auxiliary agent 3 described above is preferably a vegetable oil which has a property of non-drying oil and hardly undergoes oxidation / degeneration. That is, any material can be selected as long as it exhibits a thin and well-extending role, such as coconut oil, olive oil, sesame oil, soybean oil, safflower oil, rapeseed oil or evening primrose oil, and at least from this group You can choose one type.
[0025]
In addition, an antioxidant may be added to the article surface coating agent A1 as necessary for the purpose of preventing discoloration caused by oxidation of the above-described vegetable oil or wax. Hydroxytoluene, tocopherol, phytic acid and the like are used. In addition, phenolic substances, aromatic amines, phenothiazines, dithiophosphates, dithiocarbamates, sulfides, sulfurized olefins and the like can be used.
Furthermore, L-ascorbic acid fatty acid esters, L-ascorbic acid palmitic acid esters and / or L-ascorbic acid stearic acid esters are effective for preventing oxidation of vegetable oils.
In addition, as an antioxidant for food additives, L-ascorbic acid, sodium L-ascorbate (vitamin C), ethylenediaminetetraacetic acid CA 2Na, ethylenediaminetetraacetic acid 2Na, ersorbic acid, sodium ersorbate, guaiac fat, citrus Addition of food such as isopropyl acid, nordihydroguaiaretic acid, propyl gallate, dibutylhydroxytoluene (BHT), dl-α-tocopherol (vitamin E), butylhydroxyanisole (BHA), rosemary extract, ethoxyquin, etc. As preservatives, benzoic acid, sodium benzoate, sorbic acid, potassium sorbate, sodium devidroacetate, isobutyl paraoxybenzoate, isopropyl paraoxybenzoate, ethyl paraoxybenzoate, butyl paraoxybenzoate, paraoxy Propyl benzoate, propionic acid, sodium propionate, calcium propionate and the like may be used.
At least one of these antioxidants may be added.
[0026]
The photocatalyst composition 1, the binder agent 2, and the binder auxiliary agent 3 are added at once in an appropriate container, for example, and diluted to a predetermined concentration with a diluent such as ethyl alcohol or water to form a solution. Each blending ratio can be arbitrarily selected within the blending range shown in the above embodiment.
[0027]
The article surface coating method and article surface coating agent A1 of the photocatalyst composition of the first embodiment of the present invention configured as described above have the following actions.
One compounding example of article surface coating agent A1 (not limited to this compounding ratio)
・ Photocatalyst composition 1 15% by weight
・ Binder agent 2 ... 10% by weight
-Binder auxiliary agent 3 ... 75% by weight was added and mixed evenly to obtain a liquid article surface coating agent A1.
[0028]
For the article b such as a window glass in the room to be coated with the article surface coating agent A1, the dirt on the surface of the article b (application surface), in particular, the oil adhering to the surface is removed with a dirt removing agent ( For example, the component is sprayed with ethyl alcohol, a surfactant, tocopherol, ion-exchanged water, L ascorpin sun, citric acid or the like, and is sufficiently removed with a waste cloth.
[0029]
As shown in FIG. 1A, an appropriate amount (for example, 1 m) of the article surface coating agent A1 prepared in the above step is applied to the surface of the article b.²Apply it to the entire surface so that it is thinly stretched by an application means (not shown) such as a scraper (also called a squeegee, with hard rubber at the tip). The coating layer 4a is formed on the b surface.
At this time, the binder auxiliary agent 3 mixed in the article surface coating agent A1 functions to make the binder agent 2 itself in the coating film layer 4a into a thin layer and further to form the coating film layer 4a thin.
[0030]
Next, in a state where the coating layer 4a is not dried (when the wet state still remains), the coating layer 4a of the article surface coating agent A1 applied to the surface of the article b is applied. As shown in FIG. 1B, when the wiping means 5 is used to wipe, for example, a cloth cloth such as a bulky fiber, the surface layer portion of the coating layer 4a in the article surface coating agent A1 is virtually shown in FIG. As indicated by the line, the mixed layer of the binder agent 2 and the binder auxiliary agent 3 is removed.
[0031]
Furthermore, when the coating layer 4a in the article surface coating agent A1 from which the surface layer portion has been removed is wiped off by a first finishing means (not shown) such as a sponge, the oil component contained in the binder auxiliary agent 3 is also removed. Thus, the particulate photocatalyst composition 1 is exposed on the surface layer portion of the article surface coating agent A1.
If necessary, a slightly wet cloth or towel (preferably moistened with hot water at about 40 ° C, or water is applied to 1/3 length of the towel and the remaining 2/3 length Article surface coating in which the surface layer portion is removed by a second finishing means (not shown) such as sandwiching the wetted portion with a thirsty portion and making the thirsty portion a front surface on both sides) The coating layer 4a in the agent A1 is wiped off so as not to be left behind.
[0032]
The surface of the article b was in a clean and transparent state with no cloudy cloudiness.
The article surface coating agent A1 can be applied to the surface of the article b as much as possible by the binder auxiliary agent 3, whereby the photocatalyst composition 1 is separated from the layer to which the binder agent 2 is applied. Since the exposure is performed well as shown in FIG. 1B, the so-called exposed surface of the photocatalyst composition 1 to the outside air is increased and the photocatalytic action is sufficiently performed.
[0033]
By this step, since the photocatalyst composition 1 supported by the binder agent 2 appears directly on the surface of the article b, the photocatalytic action is exhibited when sunlight (for example, ultraviolet rays) hits the photocatalyst composition 1. For example, malodors and harmful components such as aldehyde, ammonia, amine, mercaptan, etc. floating in the air in the vicinity of the article b, and environmental pollutant components are adsorbed, decomposed and removed.
[0034]
Furthermore, although titanium dioxide used as the photocatalyst composition 1 is a white fine powder substance, according to the method of the embodiment of the present invention, the article surface coating agent A1 can be applied as thinly as possible to the surface of the article b such as glass. Therefore, the transparency of the coated surface is maintained.
In particular, the window glass as the article b is a condition that is indispensable for its use, and thus this embodiment is an extremely effective means.
[0035]
Next, a second embodiment of the article surface coating method and article surface coating agent of the photocatalyst composition according to the present invention will be described with reference to the drawings.
In this second embodiment, the photocatalyst composition 1, the binder agent 2, the binder auxiliary agent 3 containing the oil component, and the abrasive 6 are mixed to obtain a liquid article surface coating agent A2, and this article A coating layer 4b obtained by applying the surface coating agent A2 to the surface of the article b and thinly forming it is formed on the surface of the article b, and the binder agent 2 and the binder auxiliary agent 3 located on the outermost layer of the coating layer 4b. The layer is removed by wiping with the abrasive 6 contained in the layer of the binder agent 2 and the binder auxiliary agent 3 to expose the photocatalyst composition 1 to the outermost layer surface of the coating layer 4b.
[0036]
In this example, the article surface coating agent A2 was obtained by adding the abrasive 6 to the article surface coating agent A1 shown in the first embodiment, and the photocatalyst composition 1 and the binder agent 2 were obtained. The binder auxiliary agent 3 containing an oil component basically has the same configuration, and the same members 1, 2, and 3 are assigned the same reference numerals, and the detailed description thereof is as described above. Examples are incorporated and omitted.
[0037]
And the above-mentioned abrasive | polishing agent 6 is formed in 0.1 micron-0.5 micron particle | grains with raw materials, such as a silica and a ceramic, is added and mixed with article | item surface coating agent A1.
If the particles of the abrasive 6 are less than 0.1 micron, the photocatalyst composition 1 and the binder agent 2 are both wiped and removed when the coating layer 4b is wiped, and the particle size is 0.5 microns or more. If this is the case, there arises a disadvantage that the entire coating film layer 4 b is removed by the abrasive 6.
[0038]
In mixing this abrasive 6, it may be mixed after being added to binder agent 2, binder auxiliary agent 3, etc., and 10 wt% to 50 wt% is mixed and mixed in the mixing ratio. .
When the addition amount of the abrasive 6 is less than 10% by weight, solidification of the article surface coating agent A2 progresses before application to the surface of the article b, resulting in inconvenience in the coating process, and it is 50% by weight or more. It is so water-soluble that it is difficult to apply by an application means.
[0039]
The photocatalyst composition 1, the binder agent 2, the binder auxiliary agent 3, and the abrasive 6 are added at once in a suitable container, for example, and diluted to a predetermined concentration with a diluent such as ethyl alcohol or water. Each of the blending ratios can be arbitrarily selected within the blending ranges shown in the first embodiment and the present embodiment.
[0040]
The article surface coating method and article surface coating agent A2 of the photocatalyst composition of the second embodiment of the present invention configured as described above have the following actions.
One compounding example of article surface coating agent A2 (not limited to this compounding ratio)
-Photocatalyst composition 1 ... 5% by weight
・ Binder agent 2 ... 5% by weight
・ Binder auxiliary 3 ... 65% by weight
-Abrasive 6... 25% by weight was added and mixed evenly to obtain a liquid article surface coating agent A2.
[0041]
For the article b such as a window glass in the room to be coated with the article surface coating agent A2, the dirt on the surface of the article b (application surface), in particular, the oil on the glass surface, and a dirt removing agent (for example, The component is sprayed with ethyl alcohol, a surfactant, tocopherol, ion-exchanged water, L ascorpin sun, citric acid and the like, and is sufficiently removed with a waste cloth.
An appropriate amount (for example, 1 m) of the article surface coating agent A2 prepared in the above step is applied to the surface of the article b as shown in FIG.²The coating layer 4b is formed by uniformly applying to the entire surface so as to be thinly stretched by an application means (not shown) such as a scraper.
At this time, the binder auxiliary agent 3 mixed in the article surface coating agent A2 functions to make the binder agent 2 itself in the coating film layer 4b into a thin layer and further to form the coating film layer 4b into a thin layer.
[0042]
Next, when the coating layer 4b is not dried and still wet, the coating layer 4b of the article surface coating agent A2 applied to the surface of the article b As shown in FIG. 3B, when the wiping means 5 is used to wipe, for example, a cloth cloth such as a bulky fiber, the surface layer portion of the coating layer 4b in the article surface coating agent A2 is a virtual line in FIG. As shown, the mixed layer of the binder agent 2, the binder auxiliary agent 3, and the abrasive 6 is removed.
In particular, since the abrasive 6 is mixed in the article surface coating agent A2, when the surface layer portion is wiped off, the binder agent 2 and the binder auxiliary agent 3 located on the surface layer portion are scraped off by the abrasive 6. The surface layer portion is smoothly removed by acting.
[0043]
Furthermore, when the coating layer 4b in the article surface coating agent A2 from which the surface layer portion has been removed is wiped by a first finishing means (not shown) such as a sponge, the oil component contained in the binder auxiliary agent 3 is also removed. Thus, the particulate photocatalyst composition 1 is exposed on the surface layer portion of the article surface coating agent A2.
If necessary, a slightly wet cloth or towel (preferably moistened with hot water at about 40 ° C, or water is applied to 1/3 length of the towel and the remaining 2/3 length Article surface coating in which the surface layer portion is removed by a second finishing means (not shown) such as sandwiching the wetted portion with a thirsty portion and making the thirsty portion a front surface on both sides) The coating layer 4b in the agent A2 is wiped off so that there is no wiping.
[0044]
By this step, since the photocatalyst composition 1 supported by the binder agent 2 appears on the surface of the article b, the photocatalytic action is exhibited when sunlight (for example, ultraviolet rays) hits the photocatalyst composition 1. For example, malodors and harmful components such as aldehyde, ammonia, amines, mercaptans, etc. floating in the air in the vicinity of the article b are adsorbed and decomposed to remove them.
[0045]
Furthermore, although titanium dioxide used as the photocatalyst composition 1 is a white fine powder substance, according to the method of the embodiment of the present invention, the article surface coating agent A2 can be applied as thinly as possible to the surface of the article b such as glass. Therefore, the transparency of the coated surface is maintained.
In particular, the window glass as the article b is a condition that is indispensable for its use, and thus this embodiment is an extremely effective means.
[0046]
EXAMPLES Hereinafter, although an Example and a comparative example demonstrate this invention further in detail, the technical scope of this invention is not limited to these.
[0047]
Example 1
The article surface coating agent A1 prepared in the configuration according to the first embodiment is uniformly applied to one side surface of glass (article b) having a length of 175 mm × width of 465 mm × thickness of 5 mm by the method according to the first embodiment. Applied.
[0048]
(Example 2)
The article surface coating agent A2 prepared in the configuration according to the second embodiment is uniformly applied to one side surface of glass (article b) having a length of 175 mm × width of 465 mm × thickness of 5 mm by the method according to the second embodiment. Applied.
[0049]
(Comparative Example 1)
A solution of titanium dioxide supported on a silicon resin is applied to one surface of a glass of 175 mm long x 465 mm wide x 5 mm thick with a squeegee and wiped off with a waste cloth in a wet state. It was.
[0050]
These Examples 1 and 2 and Comparative Example 1 were measured under the following measurement conditions.
50cm^Three4.00 ppm of formaldehyde was placed in a glass-sealed and sealed test box.
500 μW / cm for this test box²Were irradiated with black light.
And the time-dependent change of the formaldehyde concentration in a test box was measured with the formaldehyde detector tube, and the measurement result is shown in Table 1 below.
[0051]
[Table 1]

[0052]
According to the measurement results, when the article surface coating agent A1 obtained according to Example 1 and the article surface coating agent A2 obtained according to Example 2 were applied to the glass b, both were after 120 hours passed, The formaldehyde concentration is 0.00ppm, and among the specified items specified by the school hygiene standards, the standard of formaldehyde is 0.08ppm (100μg / m^Three)
[0053]
However, when applied with the coating agent obtained in Comparative Example 1, the formaldehyde concentration value is 0.28 ppm even after 120 hours, and can achieve 0.07 ppm defined by the school hygiene standards. There wasn't.
[0054]
Next, Examples 1 and 2 and Comparative Example 1 were measured under the following measurement conditions.
50cm for toluene, xylene and paradichlorobenzene, which are listed in the measurement designated items under school hygiene standards^Three4680 μg / m2 of toluene / xylene in a glass-sealed and sealed test box^ThreeThe initial concentration of dichlorobenzene was 3000 μg / m^ThreeThe initial concentration of was added.
100 μW / cm for this test box²Were irradiated with black light.
And the time-dependent change of the formaldehyde density | concentration in a test box was measured with the toluene xylene detector tube and the paradichlorobenzene detector tube, and the measurement result is shown in the following Table 2 and Table 3, respectively.
[0055]
[Table 2]

[0056]
[Table 3]

[0057]
As a result of the above measurement, with toluene / xylene, 0 μg / m after 80 hours.^ThreeBecame. For paradichlorobenzene, 170 μg / m after 70 hours.^ThreeIt decreased to 5.7% of the initial value.
From the above results, according to the embodiment of the present invention, the standard value (toluene: 260 μg / m) for the measurement designated item in the school hygiene standard.^ThreeXylene: 870 μg / m^ThreeHereinafter, paradichlorobenzene: 240 μg / m^ThreeThe following):
[0058]
On the other hand, when applied with the coating agent obtained in Comparative Example 1, the value of toluene concentration is 450 μg / m even after 80 hours.^Three260 μg / m as determined by school hygiene standards^ThreeThe value of toluene / xylene concentration was 360 μg / m even after measuring 70 hours even in the measurement of paradichlorobenzene concentration.^Three260 μg / m as determined by school hygiene standards^ThreeThe value of could not be achieved.
[0059]
【The invention's effect】
In the present invention, as described above, a liquid article surface coating agent is obtained by mixing a photocatalyst composition, a binder agent, and a binder auxiliary agent containing an oil component, and this article surface coating agent is applied to the surface of the article. A coating layer that is applied and thinly stretched is formed on the surface of the article, and the layer of the binder agent and binder auxiliary agent on the outermost layer located on the outermost layer of the coating layer is removed by wiping, and the photocatalyst By exposing the composition to the surface of the outermost layer of the coating layer, the photocatalytic action of the photocatalyst composition can be expanded as much as possible. It adheres to the photocatalyst composition and decomposes.
Since the article surface coating agent can be applied thinly, the surface of the photocatalyst composition is easily exposed.
Moreover, by mixing an abrasive into the article surface coating agent, the effect of exposing the outermost layer surface of the coating layer of the photocatalytic composition is increased, and the photocatalytic action of a single photocatalytic composition can be promoted.
[Brief description of the drawings]
BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a cross-sectional view showing a part of an application state of an article surface coating agent on an article by the article surface application method of the photocatalyst composition of the first embodiment relating to the present invention. (B) is the state of wiping by the wiping means.
FIG. 2 is a cross-sectional view showing a photocatalyst composition in the article surface coating agent in FIG.
FIG. 3 is an enlarged cross-sectional view showing a part of an application state of an article surface coating agent to an article by the article surface application method of the photocatalyst composition of the second embodiment relating to the present invention, and (a) shows a state immediately after application. (B) is the state of wiping by the wiping means.
[Explanation of symbols]
A1, A2 ... Article surface coating agent. b. Goods. 1 ... Photocatalyst composition. 2 ... Binder agent. 3 ... Binder auxiliary agent. 4a, 4b ... coating layer. 6 ... Abrasive.

Claims (9)

A liquid article surface coating agent is obtained by mixing a photocatalyst composition, a binder agent, and a binder auxiliary agent containing an oil component,
Applying this article surface coating agent to the surface of the article to form a thinly stretched coating layer on the surface of the article,
The layer of the binder agent and the binder auxiliary agent in the surface layer portion located in the outermost layer of this coating layer is removed by wiping,
An article surface coating method of a photocatalyst composition, wherein the photocatalyst composition is exposed on the outermost layer surface of the coating layer. A liquid article surface coating agent is obtained by mixing a photocatalyst composition, a binder agent, a binder auxiliary agent containing an oil component, and an abrasive,
Applying this article surface coating agent to the surface of the article to form a thinly stretched coating layer on the surface of the article,
The layer of the binder agent and binder auxiliary agent located in the outermost layer of the coating layer is removed by wiping together with the abrasive contained in the layer of the binder agent and binder auxiliary agent,
An article surface coating method of a photocatalyst composition, wherein the photocatalyst composition is exposed on the outermost layer surface of the coating layer. 3. The article surface coating method of a photocatalyst composition according to claim 1, wherein the removal by wiping is performed in a state where the coating layer is not dried. In a liquid article surface coating agent prepared by mixing a photocatalyst composition, a binder agent, and a binder auxiliary agent containing an oil component and removed after the article surface coating,
The binder aids, a wax derived from a natural plant, a mineral spirit solvent, either composed of a vegetable oil, a surfactant,
Or the article | surface surface coating agent characterized by including at least 1 or more of the wax derived from a natural plant, a mineral spirit type | system | group solvent, and vegetable oil , and surfactant . In a liquid article surface coating agent prepared by mixing a photocatalyst composition, a binder agent, a binder auxiliary agent containing an oil component and removed after the article surface coating , and an abrasive,
The binder aids, a wax derived from a natural plant, a mineral spirit solvent, either composed of a vegetable oil, a surfactant,
Or the article | surface surface coating agent characterized by including at least 1 or more of the wax derived from a natural plant, a mineral spirit type | system | group solvent, and vegetable oil , and surfactant . The article surface coating agent according to claim 4 or 5, wherein platinum is supported on the particle surface of the photocatalyst composition. The article surface coating agent according to any one of claims 4 to 6, wherein the pH of the photocatalyst composition is adjusted to 1 to 6 with a surfactant in the binder auxiliary agent. The particle size of the photocatalyst composition is 6 nm to 10 nm,
The article surface coating agent according to any one of claims 4 to 7, wherein the photocatalyst composition is contained in the article surface coating agent in an amount of 0.1 wt% to 30 wt%. 6. The article surface coating agent according to claim 5, wherein the abrasive has a particle size of 0.1 to 0.5 microns and is contained in the article surface coating agent in an amount of 10 to 50% by weight.

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