JP2010270080A - Antibacterial composition - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an antibacterial composition being safe to humans and environment by the use in a washing machine, having a wide antibacterial spectrum against bacteria (cause of putrefaction) and fungi (cause of mold) and also lasting for a long period of time. <P>SOLUTION: This antibacterial composition is provided by containing (A) a heat-treated calcium component-containing substance and (B) a metallic ion-containing substance as essential components. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an antibacterial agent, and in particular, has a broad antibacterial spectrum for washing water, washing water, food processing water, water used in air conditioning coolers for bathtubs, water in water storage tanks, and the like. It is related to the technology which gives.

  Conventional methods for inhibiting the growth of bacteria include alcohol, phenol, aldehyde, carboxylic acid, ester, ether, nitrile, peroxide / epoxy, halogen, organometallic, strong acid water, etc. There has been known a method of antibacterial by adding to a liquid.

  However, these methods are difficult to handle, and may cause skin allergies, sick house syndrome, chemical sensitivity, etc. That is, there was a problem with the safety of the drug. Many of the existing antibacterial agents have the disadvantage that their medicinal properties are lost over time and become unusable because they prevent or prevent the growth of bacteria by releasing medicinal components by elution. Conventionally, a method using sodium hypochlorite, sodium chlorite, dichloroisocyanuric acid, trichloroisocyanuric acid, or the like as a chlorinated drug when antibacterial properties are imparted to water is known. These methods have no residual effect, and are weak against bacterial contamination after the treatment, and it is necessary to repeat the treatment. The method of using alcohol is volatile and flammable and dangerous because it is volatile. The method using phenolic drugs is toxic, has a strong irritating odor, and has a safety problem. In the method using a quaternary ammonium salt such as benzalkonium chloride, it reacts with an anionic surfactant which is a main component of a daily household detergent and expires. In the method using strongly acidic water, there remains room for improvement that the application range is limited.

Hereinafter, the microbial damage caused by continuing to use the washing machine will be specifically described, but the present invention is not limited to the application. Bacteria and mold propagate on the back of the washing tub and adhere to the laundry. Further, when the room is dried after washing, there is a problem that unpleasant odors (septic odor due to bacteria + nasty smell due to mold) are generated from the laundry. In particular, drastic measures against mold are desired.
In view of this situation, in the retail market, laundry detergents that have been marketed as a “room-drying odor countermeasure” made by adding a disinfectant to the laundry detergent have not been solved. It is. This is because the antibacterial agent blended in the laundry detergent does not sufficiently exert antibacterial action against dirt and fungi remaining in the washing tub. For this purpose, a powerful washing tub cleaner made of a chlorinated chemical is being marketed one after another. In order to use this agent, it was necessary to fill the washing tub with water and add the cleaner exclusively for the chlorine-based washing tub, stir and leave it for a long time, and then repeat washing and rinsing several times. According to this method, the time required for the antibacterial treatment is long, water and power consumption are large, and the wastewater contains chlorine-based harmful substances. Therefore, environmental problems occur in river discharge, and burdens on sewage treatment.

  As a countermeasure against the microbial contamination of the washing tub and laundry, there is a demand for an effective means that is safe, simple, and has a low environmental load in place of the washing tub cleaner.

  Therefore, a method disclosed in Japanese Patent Application Laid-Open No. 2001-233720 is known as an antibacterial method without using any of the above dangerous drugs. According to this report, an antibacterial agent obtained by simultaneously sintering shell calcined calcium and natural ore (inorganic matter) such as tourmaline stone and barley stone is contained in a water-permeable bag and used during washing operations. This is a method of sterilization. However, although the shell-calcined calcium has a bactericidal effect against bacteria (rots), it has not been effective in the mold which is the subject of the present invention. Furthermore, it is clear that the inorganic substance obtained by firing natural ore such as tourmaline stone does not contribute to the solution of the washing machine mold problem because no antibacterial action is observed in both bacteria (rot) fungi (mold). .

  Further, according to Japanese Patent Application Laid-Open No. 2007-007354, as a countermeasure against microbial contamination of a washing tub, a method of using a powder or granule of a mixture of calcined shell calcium and zeolite is proposed. However, since zeolite has no antibacterial and antifungal properties as in the above publication, it is clear that it does not contribute to the solution of the washing machine mold problem.

  By the way, if the antibacterial range of calcined shell calcium is exemplified by publications, the effect on bacteria is recognized as described above, but the effect on fungi is not recognized.

  From the above, the microbial measures in the washing tub, especially the mold problem, are solved by the washing tub cleaner (non-chlorine type) using calcinated shell shell calcium alone and other inorganic minerals (tourmaline, barley stone, zeolite, etc.). The current situation has not yet reached.

On the other hand, as described in Japanese Patent Application Laid-Open No. 2008-215618, silver ions have a feature that they have a broad antibacterial spectrum (strong antibacterial and antifungal functions), and are therefore resistant to almost all unicellular pathogens on the ground. It is known to sterilize on time. Although antibacterial and antifungal effects due to silver ions have not been investigated, it is thought to be based on the following theory.
1. It strongly binds to bacteria, mold -SH group, -COOH group, -OH group, etc. and destroys cell membrane of bacteria or reacts with main enzymes distributed in cell membrane to inhibit enzyme action and kill it.
2. Bactericidal action by active oxygen, that is, colloidal silver catalyzes and converts oxygen to active oxygen (O ₂ +; O _2- , O) and kills it.
Therefore, the present invention seeks to solve the problem of microbial contamination in a system involving water by applying silver ions having such an effect and a heat-treated calcium component-containing substance.

  Except for the case where silver ions are generated by electrolysis, usually, zeolite, which is a porous inorganic carrier, porous ceramic (apatite) montmorillonite, low molecular glass, carbon fiber, etc. are supported on silver zeolite, silver apatite, etc. Also known are silver-plated fibers and the like. For example, silver zeolite can be obtained by introducing zeolite into a silver nitrate solution adjusted to a predetermined concentration and causing an ion exchange reaction. Zeolite is a kind of crystalline aluminosilicate. Generally, it is composed of aluminum, silicon, alkali metal, alkaline earth metal and oxygen.

  However, there are no reports that these silver ion-containing materials have been used as a solution for the washing microbial problem. The reason for this is that the silver ion-containing substance is covered with washing dirt (sebum, protein, starch, mud (inorganic matter), etc.) in the practical process, that is, the washing process, and the elution of silver ions is blocked and the antibacterial function is not exhibited. It is done. Such a phenomenon is caused by the fact that the pH of the silver ion-containing substance is almost neutral, so that the self-cleaning function by an alkali material such as shell calcined calcium cannot be exhibited. This revocation phenomenon has been a serious problem in practical use of silver compounds.

JP 2001-233720 A JP 2007-007354 A JP 2008-215618 A

  Japanese Society of Food Chemistry Material (June 4, 1999) “Antimicrobial activity of calcined sea shells and removal effect of environmental hormones” Niigata Pharmaceutical University Associate Professor Oikawa

  The present invention was made in view of the problems of the antibacterial treatment of the washing tub, and is excellent in safety to humans and the environment, and has high antibacterial activity and sustainability against both bacteria (cause of spoilage) and fungi (cause of mold). It aims at providing the antibacterial agent composition which has power.

  Various methods and the like have been studied for the antibacterial treatment of the washing tub, but the technology that can suppress the growth of both bacteria and mold over the long term has not yet been reported. As a result of intensive studies to solve the above problems, the inventors of the present invention have made (A) a heat-treated calcium component-containing material and (B) an antibacterial agent composition containing a metal ion-containing material water-permeable ( The non-woven fabric) was stored in a bag and was subjected to normal washing operations, and it was found that the growth of both bacteria and mold was suppressed over a long period of time without requiring any complicated operation, and the present invention was completed. .

  The antibacterial composition composition according to claim 1 of the present invention includes a heat-treated calcium component-containing material having excellent antibacterial properties and alkaline detergency, and a metal ion-containing material having a wide antibacterial spectrum and particularly excellent antifungal properties. Is contained as an essential component.

  The antibacterial composition according to claim 1, wherein the heat-treated calcium component-containing substance is at least one of animal-derived or natural mineral-derived calcium carbonate-containing substances. 7. The structure according to claim 4, 5 or 6, wherein the substance is silver ion, and the weight ratio of the heat-treated calcium component-containing substance to the metal ion-containing substance is in the range of 95/5 to 20/80. This is a preferred embodiment.

  In order to solve the above-mentioned problems, claim 1 specifies that the heat-treated calcium component-containing substance and the metal ion-containing component are effective components. That is, the antibacterial agent according to the present invention shares the antibacterial function of bacteria such as Escherichia coli and Staphylococcus aureus by the heat-treated calcium component-containing substance, and the metal ion-containing component shares the antibacterial function of a wide range of fungi such as black mold. To do. The heat-treated calcium component-containing substance reacts with water to form calcium hydroxide and exhibits a strong “alkali cleaning function”. That is, a metal ion-containing substance in which metal ions are supported on a porous body in which pores are accumulated has a drawback that it is covered with laundry stains and cannot exhibit or sustain antibacterial properties. According to this invention, it has the novel characteristic that the stain | pollution | contamination of (B) component surface is alkali-washed by (A) component at every washing.

According to the second and third aspects of the invention, in the antibacterial composition, it is recognized that (A) the heat-treated calcium component-containing substance is a fired shell made of a natural material, it is safe for the human body. ing. (Food hygiene law, existing additive list, calcined calcium) Carbon dioxide gas escapes from calcium component-containing substances by heat treatment (CaCO ₃ → CaO + CO ₂ ^↑ ) and has a porous structure, so it has a wide contact area and antibacterial effect Is easily exhibited and has an alkali cleaning action, so that the pores are not blocked by laundry contaminants. Moreover, since the (A) component stays in the water-permeable bag during the effective period by making the particle diameter (1 to 6 mm) coarser than the size of the water-permeable bag such as a nonwoven fabric containing an antibacterial agent, no It can adsorb and deodorize fresh odors. As described above, since the discarded shell is effectively used, it contributes to resource saving and environmental conservation.

  According to the invention of claim 4, since the metal ion-containing substance contains ions of heavy metals such as silver, zinc, copper, etc., it exhibits a wide antibacterial spectrum, and in particular has a high antibacterial effect even against molds and has an antibacterial effect. Have long-lasting properties, resistance to resistant bacteria, and the like. As a kind of heavy metal ions, silver ions are particularly excellent in terms of safety, and therefore silver ions can be preferably used.

  According to the invention of claim 5, in the antibacterial composition, since silver ions are fibers plated with silver, the contact area is extremely large, and the contact efficiency with bacteria and mold is good. Higher antibacterial effect than silver ion antibacterial agent.

  According to the invention of claim 6, in the antibacterial composition, (A) the heat-treated calcium component-containing substance and (B) the antibacterial metal ion-containing substance are in a specific ratio. Is more advantageous.

  As described above, the composition of the present invention is characterized by using (A) a heat-treated calcium component-containing substance and (B) a metal ion-containing substance as active ingredients, and is excellent against bacteria and mold. Has antibacterial activity, especially antibacterial effect against mold.

  The heat-treated calcium component-containing substance is obtained by firing natural calcium carbonate derived from animals (shellfish etc.) or limestone derived from natural ore, and all the components are mainly calcium oxide. The former is suitable for sterilization washing of food, but when used in a washing tub, the latter may be selected from the viewpoint of economy and is not particularly limited.

These two types of calcium oxide are dissolved in water in an aqueous solution to form calcium hydroxide and exhibit strong alkalinity due to hydroxyl ions.
CaO + H ₂ O → Ca (OH) ₂ Ca (OH) ₂ → Ca + 2OH ⁻
The hydroxyl ions generated in this way enter the cell through the bacterial cell membrane, hydrolyze the protein that is a cell component, and exert a bactericidal action. Therefore, both show strong antibacterial action against bacteria. It has been confirmed by SEM (scanning electron micrograph) that both have a porous structure with CaCO ₃ → CaO + CO ₂ ^↑ innumerable voids as carbon dioxide escapes from calcium carbonate during firing. Therefore, (A) the heat-treated calcium component-containing substance has a feature that it has an extremely large surface area and a large contact area with bacteria, and thus exhibits an antibacterial action.

  The function of adsorbing and deodorizing unpleasant odors in the dehydration to drying process after washing with the porous structure. In other words, since the deodorization is completed in the laundry dehydration process, no unpleasant odor will occur even if clothes are dried in the room.

  Furthermore, the greatest merit obtained by using both components (A) and (B) is the component (B) due to the action of calcium hydroxide produced by the reaction of calcium oxide as the component (A) with water. That is, the antifungal effect of the metal (silver) ion-containing substance is maintained for a long period. Because, by simultaneously using the antibacterial agent composition formed by mixing the component (A) and the component (B), the surface of the component (B) covered with laundry dirt (oil such as sebum, fat, protein, etc.) (A) It can melt | dissolve in water and clean by the alkali washing | cleaning effect | action of a component. That is, since the porous pores of the component (B) are not covered with the pollutant by the component (A), a high level of antibacterial effect is sustained.

  Since calcined calcium and its elution components are harmless inorganic substances, there is no concern of causing harmful components in the wastewater unlike chlorine / oxygen-based disinfectant cleaners, and the burden on the environment and sewage treatment is reduced.

  Examples of animal-derived raw materials in the heat-treated calcium component-containing material of the present invention include scallops, oysters, turban shells, sea shells, clams, clams, swordfish, and other seashells, sea urchin shells, chicken egg shells, salmon, etc. Also mentioned. Shells, particularly oysters and scallop shells that are consumed in large quantities, are recommended as being particularly suitable because they can be obtained at low cost and contribute to resource conservation and environmental conservation as effective use of waste.

  Calcination of animal-derived (shells) or natural ore (limestone) -derived calcium is performed using an autoclave, an electric furnace, a rotary kiln, or the like, and may be heated at a heating temperature of about 600 to 1500 ° C. for about 20 minutes to 3 hours. The pulverization may be performed before or after firing, or may be coarsely pulverized and further pulverized after firing. As the particle size of the calcined calcium powder, it is preferable to combine a powder that is crushed or granulated to a maximum of 6 mm or less and a particle size that is finely pulverized to an average particle size of about 10 to 50 μm. When there are too many large particle size components, the contact area is reduced, and the antibacterial effect and alkali cleaning properties are reduced. When there are too many fine-grain components, there exists a possibility that the porous structure of particle | grains may be crushed and the physical adsorption effect may be reduced. Specific examples of the heat-treated calcium-containing substance include “shell-calcined calcium GCA-0; registered trademark; Obj-- Co., Ltd.”, and natural mineral-derived raw stone rock powder as “quick lime special name; registered trademark; Kawai lime industry, quick lime; "Registered trademark; Miyagi Lime Industry Co., Ltd." can be used preferably.

A method for producing silver-plated fibers and antibacterial materials are known as disclosed in JP-A-8-35173 and JP-A-10-72704. Specifically, "X-static" fiber manufactured by Soquart Industries (USA) in which silver is plated on a base material of nylon fiber can be suitably used. Specifically, this fiber has a ratio of 8.6: 91.4 of 7.6 denier nylon (diameter 0.0033 cm) to which silver is adhered by the electroless plating method and non-plated nylon. However, the mixing ratio of silver-plated fibers is preferably 5 to 30%. The diameter of the silver fibers constituting the antibacterial layer is preferably about 30 μm or less. That is, the larger the diameter of these metal fibers, the better in terms of production cost, but the antibacterial effect is proportional to the surface of the fiber, so that the use of thick fibers reduces the surface area and lowers the antibacterial effect.
The use ratio (weight ratio) between the heat-treated calcium component-containing substance and the silver fiber is preferably 99/1 to 30/70, particularly preferably 98/2 to 80/20. If the amount of the calcium component-containing material that has been heat-treated is small, the contamination of silver fibers is severe and antibacterial properties cannot be maintained. If there are few silver fibers, antifungal property will be inferior.

  This invention does not restrict | limit the usage method of silver fiber. A method of storing and using a heat-treated calcium material in an antibacterial nonwoven fabric containing silver fibers, and a method of storing and using a calcium-containing material and silver fibers heat-treated in a nonwoven fabric that does not use silver fibers are also preferably used. it can. Thus, any use method is not limited.

  The heat-treated calcium component-containing substance and the metal ion-containing component according to the present invention are mixed or separately housed in a nonwoven fabric. The heat-treated calcium component has a particle size distribution that takes into account the size of water-permeable bags such as non-woven fabrics, and is surely discharged with small particles during the expiration date (1 month = 30 washes). It is preferable to use large particles remaining in the catalyst. As a guide, a particle size distribution in which 40 to 60% of the antibacterial composition remains at the end of the expiration date is suitable. Since the heat-treated calcium component having a small particle diameter (10 to 50 μm) is discharged by rinsing, it does not adhere to the laundry and become rough. The maximum diameter of the coarsely pulverized particles is preferably 1 to 6 mm. The component (B) silver ion-containing material is expensive, so it is preferable to adjust the particle size distribution to 500 to 1000 μm so as to remain in the nonwoven fabric until the end. Or a granular material of 2-5 mm diameter may be sufficient. When used, it is preferable to enclose it in a water-permeable cloth or paper and store it in a water-permeable ball that is commercially available as a laundry net or a washing machine auxiliary container. . If the laundry net has a structure in which one side can be opened and closed by a chuck, the antibacterial agent composition can be easily taken in and out, which is convenient.

  The method for attaching the washing net is not particularly limited, and for example, a method of floating in the water of the washing tub, or attaching a hook to the washing net and suspending from the wall surface of the washing tub can be used. As for the time of attachment, it is sufficient to attach at the stage of rinsing, but it may be attached at the start of washing.

  As described above, by using the washing machine in the attached state, the water contained in the laundry after washing is imparted with a high degree of antibacterial bacteria action, and the water contained in the laundry during drying of the laundry. Can prevent corruption.

  The blending ratio of (A) the heat-treated calcium component and (B) the metal ion-containing component is preferably in a weight ratio range of 95/5 to 20/80, particularly preferably 90/10 to 50/50. If the heat-treated calcium component is small, the contamination of the metal ion-containing component accumulates and the antifungal power decreases. When there are few metal ion containing components, the antibacterial power with respect to mold will fall, and the economic appeal effect will fall, so that it increases.

Hereinafter, the present invention will be described in more detail with reference to examples thereof.
It describes below as Examples 1-5 and Comparative Examples 1-6.
The number of repetitions of washing, antibacterial and antifungal resistance tests shown in Table 3 below were applied in accordance with “Home Synthetic Detergent Test Method” (JIS K3362). In other words, 1000 ml of 30 ° C. tap water, 1.33 g of a detergent for determining cleaning power, and 0.5 g of an antibacterial agent composition on a nonwoven fabric (corresponding to one bag (30 g) of an antibacterial composition in 60 L of washing water for washing tub) The stored bag is fixed in the tank of the stirring tester, worn for 7 days using a JISL0803 single fiber cloth, and stirred for 10 minutes together with 15 pieces of the collar collar cloth (110 × 240 mm contaminated cloth). The number of rotations was 120 ± 5 / min. After washing, the collar cover was squeezed by hand so that the water content was 200% or less, and then rinsed in 1000 ml of 30 ° C water for 3 minutes using a stirrer. This operation was repeated 0 times, 15 times, and 30 times while updating the collar scarf, and subjected to antibacterial and antifungal tests.

The antibacterial test was applied in accordance with Japanese Industrial Standard JIS standard antibacterial test JISL1902.
Add 1 ml of the sample for each washing operation to 1000 ml of sterilized water and stir at room temperature for 30 minutes to inoculate 0.1 ml of Escherichia coli with about 10 ⁶ cfu / ml of bacterial solution. After leaving for 24 hours in an environment of 25 ° C. and a humidity of 90% or more, the number of viable bacteria was measured and evaluated as shown in Table 1.

The anti-fungal test was evaluated after culturing at 28 ° C. for 14 days in accordance with the halo test method based on the anti-fungal test for textile products in the Japanese Industrial Standard and the Mold Resistance Test (JIS Z 2911).
The sample for each washing operation was added to 1000 ml of sterilized water and stirred for 30 minutes at room temperature. The sterilized cloth was immersed in the sample solution for 1 hour and then compressed so that the water content was 200% or less. The mold used is a four-part mixture of myrothecium verrucaria, Chaetomium globosum, Penicillium citrinum, and Asperigillus niger. The results are shown in Table 2.

（注）Ａ−１ 貝殻焼成カルシウム「ＧＣＡ−Ｏ」登録商標；(有）オブジィー
Ａ−２ 石灰岩焼成カルシウム「生石灰特号」登録商標；河合石灰工業
Ｂ−１ 銀ゼオライト「ゼオミックＡＪ１０Ｄ」；シナネンゼオミック（株）
Ｂ−２ 銀アパタイト「アパサイダー」；登録商標；サンギ株式会社
Ｂ−３ 銀ガラス「ミリオンキラーＰＧ７０１」；興亜硝子（株）社製
Ｂ−４ 銀メッキ繊維「Ｘ−ｓｔａｔｉｃ」登録商標；ソークォート・インダストリーズ社 From the results of Table 3, the antibacterial agent compositions (Examples 1 to 5) of the present invention in which (A) the heat-treated calcium component-containing substance and (B) the metal ion-containing substance were blended at a specified ratio are: The antibacterial property was remarkably improved as compared with the single antibacterial agent composition (Comparative Examples 1 and 2) or (B) alone (Comparative Examples 3 to 6), and the mold resistance was particularly excellent. It was confirmed that the (A) component does not block the (B) silver ion component with the pollutant, so that a high antibacterial and antifungal effect is maintained for a long time without being lost even by repeated washing. That is, in the antibacterial agent composition obtained by mixing the component (A) and component (B) of the present invention at a specified ratio, water-insoluble clothing stains (oil, fat) adsorbed to the component (B) each time washing is performed. Highly antibacterial and antifungal effects are maintained based on the fact that (A) and the like are washed away in water by the alkali washing action of component (A).

(Note) A-1 Registered trademark of shell calcined calcium “GCA-O”; (O) A-2 Registered trademark of limestone calcined calcium “Quicklime”; Kawai Lime Industry B-1 Silver zeolite “Zeomic AJ10D”; Sinanen Zeomic (stock)
B-2 Silver apatite "Apasider"; registered trademark; Sangi Co., Ltd. B-3 Silver glass "Million Killer PG701"; Koa Glass Co., Ltd. B-4 Silver-plated fiber "X-static" registered trademark; Soquart Industries Company

  As described above, according to the antibacterial composition of the present invention, it has a novel feature of imparting antibacterial (rot) and antifungal (mold) properties to the laundry, and includes daily washing operations and a washing machine mechanism. Can be operated without making it complicated. Furthermore, shells that have been disposed of in large quantities can be used effectively, contributing to the reduction of waste. Thus, the above-described novel antibacterial agent composition can be provided at a low cost, and the effects excellent in practicality are exhibited.

  The use of the antibacterial agent of the present invention is not limited to a washing tub, but is a bacterium in the processed food manufacturing industry, the restaurant industry, and households. It can be advantageously used for prevention of mold contamination and sterilization, disinfection and sterilization in the medical industry and medical welfare industry. Is preferred.

Claims (6)

  Antibacterial composition characterized by mixing heat-treated calcium component-containing substance and metal ion-containing substance   2. The antibacterial composition according to claim 1, wherein the calcium component-containing substance is any one or more derived from animals or natural minerals.   3. The antibacterial composition according to claim 2, wherein the animal-derived calcium carbonate-containing substance is at least one selected from the group consisting of shells, eggshells, shellfish shells, bones, corals, and pearls, and is derived from natural minerals. 2. The antibacterial composition according to claim 1, wherein the calcium carbonate-containing substance is limestone.   2. The antibacterial composition according to claim 1, wherein the metal ion-containing substance is at least one metal ion selected from the group consisting of silver, copper and zinc, and is a porous inorganic carrier zeolite or ceramic ( 2. The antibacterial composition composition according to claim 1, wherein the composition is at least one selected from the group supported on apatite), montmorillonite, low molecular glass, and carbon fiber.   2. The antibacterial agent composition according to claim 1, wherein the metal ion-containing substance is a metal fiber obtained by plating one or more of silver and copper.   The antibacterial agent according to any one of claims 1, 2, 3, and 4, wherein a ratio (weight ratio) between the heat-treated calcium component-containing substance and the metal ion-containing substance is 95/5 to 20/80. 2. The antibacterial agent composition according to claim 1, wherein