JP2021010706A - Simple multi-functional deodorizer - Google Patents

Abstract

To provide a simple multi-functional deodorizer whose compositions are generally easy to obtain and whose preparation method is simple, the obtained deodorizer offering odor eliminating effects against basic malodorous substances, acid malodorous substances and non-ionic malodorous substances.SOLUTION: DL-lactate whose blending amount is 5-25% relative to a total amount of all components, and a tea extract whose blending amount in a solid state is 2-5% and whose blending amount in a liquid state is 10-20% relative to the total amount of all the components, are individually immersed in cellulose grains being 50-60% relative to the total amount of all the components, and thereafter both are mixed together.SELECTED DRAWING: None

Description

The present invention provides a simple multifunctional deodorant whose ingredients are generally easily available, easy to prepare and easy to use.

Many of the conventional deodorants are limited to the malodor to be deodorized. Naturally derived deodorant components have problems with stability and price. Synthetic deodorant components have problems in the method of blending into the base material, price and safety. In general, there is a problem that the deodorizing speed is not fast in many cases.

As a multifunctional deodorant, there is one in which naturally-derived shell grains and carbon grains are coated on the outer periphery of the carrier with a binder (see, for example, Patent Document 1). There are two kinds of substances synthesized as deodorants mixed in various ratios (see, for example, Patent Document 2). Further, as the synthesized compound, there is a fatty acid salt of zinc (see, for example, Patent Document 3). Naturally-derived deodorant raw materials include Quercus salicina extract and thyme extract (see, for example, Patent Document 4). Further, as naturally derived substances, there are main components of Aojimo and Eucalyptus (see, for example, Patent Document 5).

Japanese Unexamined Patent Publication No. 2004-065889 Japanese Unexamined Patent Publication No. 2007-11457 Japanese Unexamined Patent Publication No. 2008-125810 Japanese Unexamined Patent Publication No. 2013-103905 JP-A-2017-113354

However, in Patent Document 1, although it can contribute to the recycling of shells, a technique of coating using a binder and a process requiring time are required. Patent Document 2 uses a chemically synthesized compound, and the deodorization and price of acidic malodorous substances are not particularly advantageous as compared with general ones. Although the technique of Patent Document 3 shows the effectiveness of the synthesized fatty acid salt of zinc, there is no example of application to a practical product, and the ease of processing remains. In the technique of Patent Document 4, the deodorizing effect of the naturally occurring extract on methyl mercaptan is not particularly high, and the deodorizing effect on malodorous acidic substances and basic substances is not shown. In the technique of Patent Document 5, sulfide and mercaptan have a deodorizing effect, but the deodorizing effect on acetic acid and ammonia is not high.
Therefore, it is easy to obtain as a component of deodorant, the preparation method such as the compounding process is easy, the usage method is a normal stationary type, and it is effective for deodorizing various malodorous substances as a deodorant target. An odorant was desired.

As a result of intensive studies to solve the above problems, the present inventors have found that the above problems can be solved by using DL-lactic acid, tea extract, water, propylene glycol and cellulose granules. , The present invention has been completed.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide an excellent deodorant capable of easily obtaining components, a simple preparation method, and deodorizing various malodors.

Hereinafter, the present invention will be described in detail.
The DL-lactic acid used in the present invention is odorless, suitable as a deodorant component, and is a liquid (melting point 17 ° C.) that facilitates product preparation.
The blending amount of DL-lactic acid used in the present invention is not particularly limited, but is preferably 5 to 25% based on the total amount of all the components. If the blending amount is less than this range, the deodorizing rate of the basic malodorous substance becomes slower, and if the blending amount is larger than this range, cellulose particles tend to adhere to the container.

The blending amount of propylene glycol used in the present invention is not limited, but is preferably 20 to 40% based on the total amount of all the components.

The tea extract used in the present invention is a food additive, and a solid or liquid one is used. As commercially available products, Sunfood 100 (solid, manufactured by Mitsubishi Chemical Foods Co., Ltd.), Sunfood water-based (liquid, manufactured by Mitsubishi Chemical Foods Co., Ltd.) and the like can be used. The blending amount of the tea extract used in the present invention is not particularly limited, but the solid one is preferably 2 to 5% with respect to the total amount of all the components, and the liquid one is preferably 10 to 20%. If the blending amount is less than this range, the deodorizing effect becomes low, and if the blending amount is larger than this range, cellulose particles tend to adhere to the container.

The water used in the present invention is preferably 15% or less based on the total amount of all the components.

The cellulose granules used in the present invention are preferably 50 to 60% based on the total amount of all the components. As a commercially available product, Viscopearl (manufactured by Rengo Co., Ltd.) or the like can be used. If the blending amount is less than this amount, the cellulose particles tend to adhere to the container.

In addition to the above-mentioned components, the simple multifunctional deodorant of the present invention includes organic acids, alcohols, various deodorant components, colorants, surfactants, antioxidants, and other agents. Can be blended within a range that does not impair.

Examples of the present invention will be shown below and the present invention will be described in detail, but the present invention is not limited to these examples. The blending amount and the like are indicated by mass unless otherwise specified.

25 g of cellulose granules (Viscopearl) are impregnated with 12.5 g of DL-lactic acid and 12.5 g of propylene glycol. 2.5 g of tea extract (Sunfood 100) is dissolved in 10 g of water and 12.5 g of propylene glycol, and 25 g of cellulose granules (Viscopearl) are impregnated. A simple multifunctional deodorant is prepared by mixing these two types of impregnated cellulose granules.
For simple multifunctional deodorants, the deodorizing effect on ammonia was tested by the deodorant efficacy test method (detector tube method) set by the Aroma Deodorant Deodorant Council. As a result, τ _0.1 was 1.7 hours. (Τ _0.1 indicates the time required for the initial concentration to reach 1/10 of the initial concentration)
On the other hand, τ _0.1 of a commercially available inorganic deodorant with respect to ammonia was 3.3 hours. Further, τ _0.1 of a commercially available organic deodorant with respect to ammonia was 8.5 hours.

The simple multifunctional deodorant prepared in Example 1 was tested for its deodorizing effect on acetic acid by the deodorant efficacy test method (detector tube method) set by the Aroma Deodorant Deodorant Council. As a result, τ _0.1 was 1.1 hours.
On the other hand, τ _0.1 of a commercially available inorganic deodorant with respect to acetic acid was 3.6 hours. Further, τ _0.1 of a commercially available organic deodorant with respect to acetic acid was 2.9 hours.

The simple multifunctional deodorant prepared in Example 1 was tested for its deodorizing effect on methyl mercaptan by the deodorant efficacy test method (detector tube method) set by the Aroma Deodorant Deodorant Council. As a result, τ _0.1 was 6.9 hours.
On the other hand, τ _0.1 for methyl mercaptan, a commercially available inorganic deodorant, exceeded 20 hours. Further, τ _0.1 for methyl mercaptan, a commercially available organic deodorant, was about 20 hours.

25 g of cellulose granules (Viscopearl) are impregnated with 15 g of DL-lactic acid and 10 g of propylene glycol. 4 g of tea extract (Sunfood 100) is dissolved in 12 g of water and 9 g of propylene glycol, and 25 g of cellulose granules (Viscopearl) are impregnated. A simple multifunctional deodorant is prepared by mixing these two types of impregnated cellulose granules.
For simple multifunctional deodorants, the deodorizing effect on ammonia was tested by the deodorant efficacy test method (detector tube method) set by the Aroma Deodorant Deodorant Council. As a result, τ _0.1 was 1.4 hours.
On the other hand, τ _0.1 of a commercially available inorganic deodorant with respect to ammonia was 3.3 hours. Further, τ _0.1 of a commercially available organic deodorant with respect to ammonia was 8.5 hours.

The simple multifunctional deodorant prepared in Example 4 was tested for its deodorizing effect on acetic acid by the deodorant efficacy test method (detector tube method) set by the Aroma Deodorant Deodorant Council. As a result, τ _0.1 was 1 hour.
On the other hand, τ _0.1 of a commercially available inorganic deodorant with respect to acetic acid was 3.6 hours. Further, τ _0.1 of a commercially available organic deodorant with respect to acetic acid was 2.9 hours.

The simple multifunctional deodorant prepared in Example 4 was tested for its deodorizing effect on methyl mercaptan by the deodorant efficacy test method (detector tube method) set by the Aroma Deodorant Deodorant Council. As a result, τ _0.1 was 6 hours.
On the other hand, τ _0.1 for methyl mercaptan, a commercially available inorganic deodorant, exceeded 20 hours. Further, τ _0.1 for methyl mercaptan, a commercially available organic deodorant, was about 20 hours.

25 g of cellulose granules (Viscopearl) are impregnated with 15 g of DL-lactic acid and 10 g of propylene glycol. Dissolve in 15 g of tea extract (water-based sun food) and 10 g of propylene glycol, and impregnate 25 g of cellulose granules (Viscopearl). These two types of impregnated cellulose granules are mixed to produce a simple multifunctional deodorant.
For simple multifunctional deodorants, the deodorizing effect on ammonia was tested by the deodorant efficacy test method (detector tube method) set by the Aroma Deodorant Deodorant Council. As a result, τ _0.1 was 1.4 hours.
On the other hand, τ _0.1 of a commercially available inorganic deodorant with respect to ammonia was 3.3 hours. Further, τ _0.1 of a commercially available organic deodorant with respect to ammonia was 8.5 hours.

The simple multifunctional deodorant prepared in Example 7 was tested for its deodorizing effect on acetic acid by the deodorant efficacy test method (detector tube method) set by the Aroma Deodorant Deodorant Council. As a result, τ _0.1 was 2.4 hours.
On the other hand, τ _0.1 of a commercially available inorganic deodorant with respect to acetic acid was 3.6 hours. Further, τ _0.1 of a commercially available organic deodorant with respect to acetic acid was 2.9 hours.

The simple multifunctional deodorant prepared in Example 7 was tested for its deodorizing effect on methyl mercaptan by the deodorant efficacy test method (detector tube method) set by the Aroma Deodorant Deodorant Council. As a result, τ _0.1 was 12 hours.
On the other hand, τ _0.1 for methyl mercaptan, a commercially available inorganic deodorant, exceeded 20 hours. Further, τ _0.1 for methyl mercaptan, a commercially available organic deodorant, was about 20 hours.

Claims (4)

A simple multifunctional deodorant containing DL-lactic acid, propylene glycol, cellulose granules, tea extract and water. The simple multifunctional deodorant according to claim 1, wherein propylene glycol is added to DL-lactic acid to impregnate the cellulose granules. The simple multifunctional deodorant according to claim 1, wherein water and propylene glycol are added to the tea extract to dissolve it, and the cellulose granules are impregnated. The simple multifunctional deodorant according to claim 1, wherein the ones according to claim 2 and 3 are used in combination with each other.