JP7288646B2 - deodorant composition - Google Patents

Description

TECHNICAL FIELD The present invention relates to a deodorant composition against offensive odors such as aldehydes, ammonia and hydrogen sulfide, and more particularly to a deodorant composition exhibiting a high deodorant effect against aldehydes. Furthermore, the present invention relates to a non-woven fabric, wallpaper, flooring material, ceiling material, fiber or textile product, interior material for construction, and a method for processing wallpaper, which are processed with the deodorant composition.

In a residential environment, it is known that formaldehyde, VOCs, and the like generated in small amounts from building interior materials cause health hazards such as sick house syndrome. In addition to building interior materials, odors such as acetaldehyde, ammonia, hydrogen sulfide, and acetic acid may be generated due to tobacco odors, etc., polluting the indoor environment and causing discomfort, and sometimes causing health damage. It is also conceivable to Adsorbents such as activated charcoal and deodorants have been proposed to remove these odors containing aldehydes from indoor and vehicle environments, and wallpaper and flooring materials processed with deodorants have been proposed. Interior materials for construction such as are also proposed.

Of these methods, the method of adsorbing and removing using an adsorbent such as activated carbon has a problem that the deodorant performance is lowered when the adsorbent becomes saturated with the odor. Although deodorants related to aldehydes have been proposed (Patent Documents 1 to 3), there are no deodorants that exhibit high deodorant performance, and deodorants with higher deodorant performance are desired.

In the case of manufacturing an interior building material having deodorant performance by processing a deodorant into a building interior material such as wallpaper, flooring, and ceiling material, there is a step of heating at a high temperature exceeding 150°C. There is a problem that it is difficult to use a deodorant that may decompose or volatilize depending on the process.

Japanese Patent Application Laid-Open No. 2005-253500 JP 2012-19872 A JP 2015-74847 A

To provide a deodorant composition against bad odors such as aldehydes, ammonia and hydrogen sulfide, especially deodorant compositions for processing into building interior materials such as wallpaper, flooring and ceiling materials, especially aldehydes It is an object of the present invention to provide a deodorizing composition that exhibits high deodorizing performance against.

The present inventors have conducted intensive studies to solve such problems, and as a result, a composition containing at least one compound selected from diatomaceous earth, calcium silicate, basic silicon oxide, and activated clay, and an amino-modified silicone However, it has been found that it exhibits high deodorant performance, and that it exhibits high deodorant performance, especially against aldehydes, even when processed into building interior materials such as wallpaper, flooring, and ceiling materials. completed.

That is, the present invention
(1) A deodorant composition comprising at least one compound selected from diatomaceous earth, calcium silicate, basic silicon oxide, and activated clay, and an amino-modified silicone,
(2) The deodorant composition according to (1), wherein the amino-modified silicone content is in the range of 1 to 70% by weight;
(3) Non-woven fabrics, wallpapers, flooring materials, ceiling materials, fibers or textile products, and building interior materials obtained by processing the deodorant composition according to (1) or (2),
(4) The wallpaper processing method according to (3), wherein the deodorant composition according to claim 1 or 2 is mixed with a surface treatment agent, applied to the wallpaper, and then heated at 150° C. or higher. A wallpaper processing method including a step of

According to the present invention, it is possible to provide a deodorizing composition having high deodorizing performance. Further, by processing the deodorizing composition of the present invention into architectural interior materials such as wallpaper, flooring, and ceiling materials, In particular, it is possible to provide a building interior material having high deodorant performance against aldehydes.

The present invention will be described in more detail below.
The deodorant composition of the present invention is a composition containing at least one compound selected from diatomaceous earth, calcium silicate, basic silicon oxide and activated clay, and amino-modified silicone.

The amino-modified silicone used in the deodorant composition of the present invention is a compound into which an amino group is introduced by modifying silicone. Silicone refers to a polymerized compound linked by siloxane bonds, and is generally called linear polydimethylsiloxane. The amino group may be bonded to a side chain of the silicone molecular chain, which is the main chain, or may be bonded to both ends of the silicone molecular chain, which is the main chain.

Although the molecular weight of the amino-modified silicone is not particularly limited, it is preferably from 100 to 30,000, more preferably from 200 to 5,000. If the molecular weight of the amino-modified silicone is less than 100, the heat resistance is poor and the amino-modified silicone may volatilize when processed at high temperature. This makes it difficult to carry out formulation and processing operations. The amount of amino groups contained in the amino-modified silicone is 100 to 5000 g/mol as a functional group equivalent (g/mol), preferably 100 to 1000 g/mol, more preferably 100 to 500 g/mol. ~400 g/mol is more preferred. If the functional group equivalent of the amino group contained in the amino-modified silicone exceeds 5000 g/mol, the deodorant effect will not be sufficiently exhibited, and if it is less than 100 g/mol, the stability of the amino-modified silicone may not be sufficient. .

The deodorant composition of the present invention also contains at least one compound selected from diatomaceous earth, calcium silicate, basic silicon oxide and activated clay. Diatomaceous earth is a fossil of single-celled algae called diatoms deposited on the bottom of the sea or lake, and its main component is silicate, which is a porous mineral. An industrial product of diatomaceous earth is distributed, for example, Radiolite manufactured by Showa Kagaku Kogyo.

Calcium silicate is a kind of silicates, is a general term for compounds in which calcium oxide and silicon dioxide are combined in various proportions, and can be obtained from diatomaceous earth. Basic silicon oxide is silicon oxide in which the surface of the particles is alkaline and exhibits a value of greater than 7 when the pH of a 5% dispersion added to water is measured. Activated clay is a mineral obtained by thermal acid treatment of a mineral called montmorillonite, and has a porous structure. As for calcium silicate, basic silicon oxide, and activated clay, various industrial products are on the market, and any of them can be used.

The particle size of the compound used in the present invention is preferably 100 μm or less, more preferably 50 μm or less, as an average particle size. If the average particle size exceeds 100 μm, the smoothness of the surface may be lost when processed into wallpaper or the like.

The content of amino-modified silicone in the deodorant composition of the present invention is 1 to 70% by weight, preferably 10 to 60% by weight, more preferably 20 to 50% by weight. If it is less than 1% by weight, the deodorizing effect is not sufficiently exhibited, and if it exceeds 70% by weight, it becomes difficult to incorporate diatomaceous earth, calcium silicate, basic silicon oxide or activated clay into the amino-modified silicone.

The deodorant composition of the present invention is mixed with a surface treatment agent, a coating agent, a paint, etc., and applied to wallpaper using a resin such as vinyl chloride, ceiling materials, wooden materials such as plywood, and architectural interior materials such as flooring. It can be used by, for example, Especially when wallpaper is processed, after applying a mixture of a deodorant composition and a surface treatment agent for wallpaper to the outermost surface layer of the wallpaper, usually 150 ° C. or higher, in some cases heated at a high temperature exceeding 200 ° C. However, the deodorant composition of the present invention does not lose its deodorant performance even when heated at such high temperatures. For these reasons, the deodorant composition of the present invention can be suitably used for wallpaper.

A surface treatment agent is a resin emulsion for processing the outermost surface of wallpaper, and a water-based resin emulsion is often used. As the water-based surface treatment agent, commercially available products generally available for industrial use can be used. Such surface treatment agents are not particularly limited, but include starch, various modified starches such as enzyme-modified starch, water-soluble polymers such as polyvinyl alcohol, polyacrylamide, and carboxymethylcellulose, and acrylic resin emulsions. , vinyl acetate resin emulsion, acrylic-styrene resin emulsion, acrylic-vinyl acetate resin emulsion, vinyl chloride resin emulsion, vinyl chloride-acrylic resin emulsion, urethane resin emulsion and the like.

The deodorizing composition of the present invention may optionally contain a surfactant, an anti-mite agent, an antibacterial agent, a chelating agent, an antirust agent, a fragrance, an anti-scaling agent, an antifoaming agent, an antistatic agent, a resin binder, It is also possible to add thickeners, softening agents and the like.

The present invention will be described in more detail with reference to Examples and Test Examples, but the present invention is not limited to these. In addition, all % shown below are weight %.

(Example 1)
As diatomaceous earth, Radiolite (registered trademark) #900 (average particle size 29 μm, manufactured by Showa Chemical Industry Co., Ltd.) 58 g, side chain type amino-modified silicone oil KF-393 (manufactured by Shin-Etsu Chemical Co., Ltd.) having a functional group equivalent of 350 g / mol 42 g of was weighed. KF-393 was added dropwise while Radiolite #900 was mixed to obtain Example 1 of the deodorant composition.

(Example 2)
Example 2 of a deodorant composition was obtained by using Radiolite #200 (average particle size 13 μm, manufactured by Showa Kagaku Kogyo Co., Ltd.) as diatomaceous earth instead of Radiolite #900 of Example 1.

(Example 3)
Example 3 of deodorant composition was obtained by using amino-modified silicone oil KF-857 having a functional group equivalent of 790 g/mol instead of amino-modified silicone oil KF-393 of Example 1.

(Example 4)
Example 4 of deodorant composition was obtained by using amino-modified silicone oil KF-8010 having a functional group equivalent of 430 g/mol instead of amino-modified silicone oil KF-393 of Example 1.

(Example 5)
A deodorant composition of Example 5 was obtained using montmorillonite K10 (average particle size: 25 μm, manufactured by ALDRICH) as activated clay instead of diatomaceous earth Radiolite #900 of Example 1.

(Example 6)
A deodorant composition using Carplex (registered trademark) #1120 (5% dispersion pH 11, average particle size 12 μm, manufactured by Evonik) as basic silicon oxide instead of diatomaceous earth Radiolite #900 in Example 1. Example 6 of was obtained.

(Example 7)
As diatomaceous earth, 90 g of Radiolite #900 and 10 g of side chain amino-modified silicone oil KF-393 (manufactured by Shin-Etsu Chemical Co., Ltd.) were weighed, and the deodorizing composition of Example 7 was prepared in the same manner as in Example 1. Obtained.

(Comparative example 1)
Side chain type amino-modified silicone oil KF-393 was used as Comparative Example 1.

(Comparative example 2)
Side chain type amino-modified silicone oil KF-857 was used as Comparative Example 2.

(Comparative Example 3)
A double-ended amino-modified silicone oil KF-8010 was used as Comparative Example 3.

(Comparative Example 4)
Comparative Example 4 was a double-ended phenol-modified silicone oil KF-2201 having a functional group equivalent of 38 g/mol.

(Comparative Example 5)
58 g of silica powder (Carplex 80, 5% dispersion pH 5.9, average particle size 15 μm, manufactured by Evonik) and 42 g of side chain type amino-modified silicone oil KF-393 (manufactured by Shin-Etsu Chemical Co., Ltd.) were weighed. A deodorant composition of Comparative Example 5 was obtained in the same manner as in Example 1.

(Comparative Example 6)
Silica powder (Carplex 80, manufactured by Evonik Co., Ltd.) 58 g and side chain type phenol-modified silicone oil KF-2201 (manufactured by Shin-Etsu Chemical Co., Ltd.) 42 g were weighed, and a deodorant composition was prepared in the same manner as in Example 1. Comparative Example 6 was obtained.

(Comparative Example 7)
Diatomaceous Earth Radiolite #900 was used as Comparative Example 7.

(Comparative Example 8)
Diatomaceous Earth Radiolite #200 was used as Comparative Example 8.

[Preparation of vinyl chloride wallpaper]
As the vinyl chloride wallpaper surface layer liquid, 100 g of vinyl chloride powder with an average degree of polymerization of 700 (PQB83, manufactured by Shin-Daiichi Vinyl Co., Ltd.), 50 g of plasticizer diisononyl phthalate (DINP, manufactured by Taoka Chemical Co., Ltd.), Adekastab (registered trademark) as a stabilizer ) 3 g of FL23 (manufactured by ADEKA Corporation) and 7 g of isoparaffin (IP Solvent 2028, manufactured by Idemitsu Kosan Co., Ltd.) were mixed. The prepared surface layer liquid was applied to A4 size PPC paper (Type Fw) as a base material layer so as to be about 200 g / m2, placed in a dryer at 150 ° C. and heated for 1 minute to obtain a vinyl chloride wallpaper. .

[Preparation of deodorant evaluation sample]
As a surface treatment agent, the deodorizing compositions of Examples 1 to 7 and Comparative Examples 1 to 8 were added to a vinyl chloride resin emulsion (Vinyblan HD-057, manufactured by Shin-Etsu Chemical Co., Ltd.) at a predetermined concentration.・The mixture was mixed and applied to the vinyl chloride wallpaper of 12 cm x 10 cm prepared above at 7 g/m ² using a Conlarge stick.

[Test Example 1] Deodorant test against acetaldehyde Acetaldehyde was diluted with air to a concentration of 16 ppm on a volume basis to prepare an acetaldehyde-diluted gas. A deodorant evaluation sample was enclosed in a 3-liter Tedlar bag, 1 liter of acetaldehyde dilution gas was injected, the bag was stoppered, and the bag was allowed to stand at 25°C. After 2 hours and 24 hours, the acetaldehyde concentration in the Tedlar bag was measured using an acetaldehyde detection tube (manufactured by GASTEC CORPORATION). The deodorant rate was calculated by the following formula.

[Deodorant rate] = (initial concentration - measured concentration) / (initial concentration) x 100

Table 1 shows the deodorant rate results.

By using the deodorant composition of the present invention containing at least one selected from diatomaceous earth, calcium silicate, basic silicon oxide and activated clay, and amino-modified silicone, malodorous substances such as hydrogen sulfide and ammonia, especially It is possible to reduce the odor of aldehydes, and to provide building interior materials having a deodorizing function by processing the deodorant composition into building interior materials such as wallpaper, flooring, and ceiling materials. can.

Claims (4)

A deodorizing composition comprising at least one compound selected from diatomaceous earth, calcium silicate and basic silicon oxide, and an amino-modified silicone , wherein the amount of amino groups contained in the amino-modified silicone is 100 to 400 g/mol as a functional group equivalent (g/mol) . 2. The deodorant composition according to claim 1, wherein the content of amino-modified silicone is in the range of 1 to 70% by weight. Nonwoven fabrics, wallpapers, flooring materials, ceiling materials, fibers or textile products, and building interior materials processed with the deodorant composition according to claim 1 or 2. 3. The wallpaper processing method according to claim 3, wherein the deodorizing composition according to claim 1 or 2 is mixed with a surface treatment agent, applied to the wallpaper, and then heated at 150° C. or higher. A processing method for wallpaper having.