JP5383323B2 - Liquid deodorant for tank toilet - Google Patents

Description

  The present invention relates to a liquid deodorant for tank toilets containing polyphenols and organic acids. Moreover, it is related with the deodorizing method of the tank type toilet using these liquid deodorants.

Conventionally, a toilet of a type that temporarily stores excrement in a waste tank is known. Such types of toilets can be appropriately changed in size, capacity, and the like of the filth tank, and are therefore provided in many places because they can be easily installed in narrow places. For example, tank-type toilets such as temporary toilets and portable toilets at various construction sites are frequently used because they can be transported and easily installed. In addition, tank-type toilets are installed in vehicles such as trains and long-distance buses, and tank-type toilets are installed in parks and stations.
The excrement after using these toilets is temporarily stored in the filth tank until it is collected using appropriate means. Alternatively, the waste in the filth tank is temporarily stored in the filth tank for a predetermined period until it is replaced with a new tank.
The excrement stored in the filth tank becomes a source of bad odor, particularly fecal odor, and the bad odor from the stored excrement may fill the filth tank and leak out of the filth tank. In particular, in a tank-type toilet, there is a possibility that bad odors may blow up directly from the filth tank, which makes it very uncomfortable.

Toilet users will suffer from bad odors. Therefore, it is necessary to take measures to prevent the smell of manure from being felt, such as measures to remove the manure odor from excreta stored in the waste tank. As one of countermeasures, for example, Patent Literature 1 and Patent Literature 2 report a technique for treating microorganisms in a waste tank and a heat treatment technique. The techniques described in these documents have problems such as requiring a large space, requiring a large-scale device, and inconvenience such as being unable to process indoors.
In this regard, for example, a technique for deodorizing using an antibacterial agent described in Patent Document 3 can solve the above-mentioned problems, but it is necessary to take measures against an odor that cannot be prevented by the antibacterial agent. In addition, for example, Patent Document 4 reports a technique that employs a specific polymer, and Patent Document 5 reports a technique that cuts off bad odors using hydrogen peroxide and an organic acid. There is anxiety about the deodorizing effect, and the latter has inconveniences such as the stability of the deodorizing effect being pointed out due to the instability of the drug, and further improvement measures are required.

Furthermore, for example, there are many tank-type toilet bodies such as temporary toilets, and in the current situation, if a technology that can deodorize by a simple method is developed at the installed location, only users of tank-type toilets However, it is also beneficial for tank-type toilet management and maintenance, so it is desirable for tank-type toilet management and maintenance to provide a simple means and method that does not feel the odor. It is.
In Patent Document 6 and Patent Document 7, a technique for masking malodor using a deodorant containing polyphenol has been reported. However, excrement that may cause a strong excrement of odor is constantly stored for a relatively long period of time. There is no idea to apply to the deodorization of special toilets such as the type to do.

JP 2002-10949 A JP 2002-186998 A Japanese Patent Laid-Open No. 10-137735 Japanese Patent Laid-Open No. 11-11040 JP 2003-10300 A JP 2004-167218 A JP 2007-252543 A

The inventors of the present invention tried to solve the above problems by a known masking method, but could not obtain satisfactory results. As the research continues, the ammonia odor of manure odor is not so strong at the time of excretion, but after a long time, fungi are involved in the excretion, and a stronger unpleasant odor will be emitted. I got the knowledge that there is. The reason why the inconvenience cannot be solved by a conventionally known masking method using a chemical substance such as a fragrance is that a large amount of excrement remains in the filth tank for a relatively long period of time. More effective under the assumption that the compounds in the excrement stored in the tank, or the compounds produced while the excrement is stored, have a subtle effect in the filth tank and have not yielded satisfactory results. We wanted to develop a deodorization technology for manure odor from waste tanks. Moreover, it was kept in mind that the deodorization technique is as simple as possible.
Therefore, an object of the present invention is to provide an effective deodorizing technique based on the above assumption, and to provide a technique capable of deodorizing manure odor from a filth tank of a tank-type toilet. In addition, it is an object of the present invention to provide a deodorizing technique that is simple in deodorizing and has an excellent deodorizing effect.
Furthermore, when a tank-type toilet is used in a cold region, a new technique is provided to prevent the washing water from freezing in the toilet water supply tank even in winter.

  During the intensive study to solve the above-mentioned problems, the present inventors prepared a liquid deodorant comprising a solubilizing solvent containing a polyphenol, an organic acid and a hydroxyl group-containing compound and having a high polyphenol content. The liquid deodorant was put in the washing water tank of the tank type toilet in advance, and the excrement was poured into the filth tank using the washing water in the washing water tank after using the toilet. It was found that the odor from the waste tank is satisfactorily deodorized. Further, the inventors have found that when a compound that is difficult to freeze such as ethanol is used as the hydroxyl group-containing compound of the liquid deodorant, the washing water is not easily frozen even in a sub-freezing environment and the deodorizing function can be achieved. Furthermore, when the diluted liquid of the liquid deodorant was put into the filth tank of the tank type toilet, it was found that the odor from the filth tank was deodorized to a satisfactory level. Based on these findings, the inventor conducted further research and finally completed the present invention.

The present invention is as follows.
The invention of claim 1 contains (1) polyphenol, (2) citric acid and (3) a hydroxyl group-containing compound or a hydroxyl group-containing compound and water, wherein the polyphenol and the hydroxyl group-containing compound are (1) polyphenol, (2) 4 to 20% by mass and 40 to 95% by mass of citric acid and (3) a hydroxyl group-containing compound or a total amount of hydroxyl group-containing compound and water, respectively. A tank-type toilet deodorizing method using an odorant, wherein the liquid deodorant is introduced into a washing water tank provided in the tank-type toilet.
The invention of claim 2 contains (1) polyphenol, (2) citric acid and (3) a hydroxyl group-containing compound or a hydroxyl group-containing compound and water, wherein the polyphenol and the hydroxyl group-containing compound are (1) polyphenol, (2) 4 to 20% by mass and 40 to 95% by mass of citric acid and (3) a hydroxyl group-containing compound or a total amount of hydroxyl group-containing compound and water, respectively. 2. A tank-type toilet deodorization method using a odorant, wherein the liquid deodorant is introduced into a waste tank provided in the tank-type toilet. It is.
The invention of claim 3 comprises (1) polyphenol, (2) citric acid and (3) a hydroxyl group-containing compound or a hydroxyl group-containing compound and water, wherein the polyphenol and the hydroxyl group-containing compound are (1) polyphenol, (2) 4 to 20% by mass and 40 to 95% by mass of citric acid and (3) a hydroxyl group-containing compound or a total amount of hydroxyl group-containing compound and water, respectively, and pH is 1.0 to 6.0. A tank type toilet liquid deodorant used in the tank type toilet deodorization method according to claim 1 or 2.
Invention of Claim 4 is the liquid deodorizer for tank type toilets of Claim 3 which mix | blended 0.1-10 mass% of fragrance | flavor with the liquid deodorant.
Invention of Claim 5 consists of the liquid deodorant for tank type toilets of Claim 3 or 4, and the hydroxyl-containing compound which is a component which comprises the said liquid deodorant is ethanol, methanol, isopropanol, butanol, ethylene glycol A liquid deodorant for tank type toilets used in cold districts, which is an antifreeze selected from propylene glycol, 1,3-butylene glycol, hexylene glycol, diethylene glycol, polyethylene glycol, and glycerin.

Hereinafter, the present invention will be described in detail.
The tank-type toilet in the present invention means a toilet that temporarily stores excrement and the like in a container such as a tank. The toilet bowl may be either Western or Japanese. It may be surrounded by walls or screens so that the inside cannot be seen from the outside, but they are not essential.
As long as the tank here can temporarily store waste containing waste, such as a coexistent of liquid and waste that shed waste or toilet waste, its shape and size The material is not particularly limited. Specifically, plastic containers, FRP containers, concrete containers, and the like can be exemplified as materials.
Typical simple toilets include temporary toilets at various construction sites, public toilets, toilets installed in trains / trains, ships, long-distance buses, etc. Examples include toilets provided, toilets used in the event of a disaster, and portable toilets for nursing care, but are not limited thereto.

In the present invention, the liquid deodorant for the toilet is composed of (1) a polyphenol, (2) an organic acid, and (3) a hydroxyl group-containing compound or a solvent that dissolves the polyphenol and the organic acid comprising the hydroxyl group-containing compound and water. One major feature is the use of liquid deodorants.
The polyphenol used in the present invention means a compound in which two or two or more hydroxyl groups are substituted with hydrogen atoms on the same benzene ring, and the glycoside thereof is also included as polyphenol. Among these, hydroquinone and polyphenol having an o-diphenol structure are preferable. The o-diphenol structure means a structure in which a hydroxyl group is directly substituted on the benzene ring and the hydroxyl group is adjacent. It is not particularly limited as long as it is a polyphenol that can achieve the intended purpose.

  Specific examples of polyphenols include, for example, apigenin, apigenin glycoside, acacetin, isorhamnetin, isorhamnetin glycoside, isoquercitrin, epicatechin, epicatechin gallate, epigallocatechin, epigallocatechin gallate, esculetin, ethyl protocate Cubic acid salt, ellagic acid, catechol, gamma acid, catechin, gardenine, gallocatechin, caffeic acid, caffeic acid ester, chlorogenic acid, kaempferol, kaempferol glycoside, quercetin, quercetin glycoside, quercetagenin, genisetin, genisetin Glycoside, gosipetin, gosipetin glycoside, gossypol, 4-dihydroxyanthraquinone, 1,4-dihydroxynaphthalene, cyanidin, cyanidin glycoside, sinensetin, diosmethine, diosmethine glycoside 3,4′-diphenyldiol, sinapinic acid, stearyl-β- (3,5-di-t-butyl-4-hydroxyphenyl) propionate, spinacetin, tangeretin, taxifolin, tannic acid, daphnetin, tyrosine, delphinidin, delphinidin Glycoside, theaflavin, theaflavin monogallate, theaflavin bisgallate, tricetinidine, dopa, dopamine, naringenin, naringin, nordihydroguaiaretic acid, noradrenaline, hydroquinone, vanillin, patchuletin, herbacetin, vanillyl alcohol, vanillop, vanillop propylene glycol Acetal, vanillic acid, bis (4-hydroxyphenyl) sulfonic acid, bisphenol A, pyrocatechol, vitexin, 4,4'-biphenyldio , 4-t-butylcatechol, 2-t-butylhydroquinone, protocatechuic acid, phloroglucinol, phenolic resin, procyanidin, prodelphinidin, phloretin, phloretin glycoside, fizetin, folin, fervacetin, flaxetine, phlorizin, peonidin, peonidin Glycosides, perorganidine, peraggonidine glycosides, petunidin, petunidin glycosides, hesperetin, hesperidin, gallic acid, gallic acid esters (lauryl gallate, propyl gallate, butyl gallate), mangiferin, malvidin, malvidin glycoside Body, myricetin, myricetin glycoside, 2,2′-methylenebis (4-methyl-6-tert-butylphenol), 2,2′-methylenebis (4-ethyl-6-tert-butylphenol), 2,2 ′ Methylene bis (4-methyl-6-tert-butylphenol), 2,2′-methylene bis (4-ethyl-6-tert-butylphenol), methyl atrate, 4-methyl catechol, 5-methyl catechol, 4-methoxy catechol, 5-methoxycatechol, methylcatechol-4-carboxylic acid, 2-methylresorcinol, 5-methylresorcinol, morin, lignin, limocitrin, limocitrin glycoside, limocitrol, luteolin, luteolin glycoside, luteolinidine, luteolinidine glycoside, Rutin, resorcin, resveratrol, resorcinol, leucocyanidine, leucodelphinidin and the like.

Among these polyphenols, flavonoids such as quercetin, epicatechin, and epigallocatechin and their glycosides, gallic acid, gallic acid ester, chlorogenic acid, caffeic acid, caffeic acid ester, tannic acid, pyrocatechol, Particularly preferred are polyphenols having an o-diphenol structure such as nordihydroguaialectic acid, L-dopa, 4-methylcatechol, 5-methylcatechol, 4-methoxycatechol, 5-methoxycatechol, and hydroquinone.
These polyphenols may be used alone or in combination of two or more.
Moreover, although the said polyphenol can be prepared by a well-known method, you may purchase a commercial item. Alternatively, it may be prepared by synthesis. Furthermore, a polyphenol fraction prepared from a plant can also be used.

  In the present invention, a polyphenol-containing plant extract can be used instead of polyphenol. As this plant extract, one prepared by a known method may be used, or a commercially available one may be used.

Examples of the plant extract include, for example, aloe, anise seed, elder, eleutherococcus, plantain, orange flower, allspice, oregano, valerian, camomil, capsicum pepper, cardamom, cassia, garlic, caraway seed, clove , Cumin seed, cola, coriander seed, quintuplet, saffron, salamander, juniper berry, cinnamon, ginger, star anise, st jones wort, celery seed, savory, sesame (sesame), dio, tarragon, turmeric, thistle, Dale Seed, Nutmeg, Nettle, Hibiscus, Hamelis, Birch, Basil, Bitter Orange, Fennel, Primrose, Fenugreek, Verbena, Bay Laurel, Hop, Bordeaux Horseradish, Poppy Seed, Curry, Marigold, Mallow, Marjoram, Mustard, Milfoil, Mintryves, Melissa, Mace, Linden, Rosehip, Rosehip, Rosemary, Mannenrou, Sunflower Seed, Grape Skin, Apple, Carrot Leaf, Banana, strawberry, apricot, peach, plum, pineapple, pear, oyster, cherry, papaya, mango, avocado, melon, loquat, fig, kiwi, prune, blueberry, blackberry, raspberry, cranberry, coffee bean, cacao bean, grape Seed, grapefruit seed, pecan nut, cashew nut, chestnut, coconut, peanut, walnut, green tea leaf, black tea leaf, oolong tea leaf, tobacco, perilla leaf, niwatime, sage, lavender, spearmint, Permint, Santori, Hyssop, Japanese cypress, marigold, dandelion, arch chalk, German chamomile, goldfish, licorice, anise, yarrow, eucalyptus, wormwood, balm, persimmon, fenugreek, pepper, fennel, capsicum, seed And plant extracts obtained by extraction treatment from fennel seeds, ginger, horseradish, mayorana, hazelnut, mustard, parsley, pepper, savory, tarragon, turmeric, wasabi, inond seed, citrus fruit and the like. These plant extracts may be used alone or in combination with a plurality of plant extracts.
In addition, you may use together a polyphenol compound and a polyphenol-containing plant extract. In particular, you may use together the polyphenol compound demonstrated by said 0011, and the said polyphenol containing plant extract.

Next, the organic acid which comprises the liquid deodorizer of this invention is demonstrated.
The organic acid used in the present invention is not particularly limited as long as it is an organic acid that can achieve the intended purpose.
Specific examples of the organic acid include, for example, glycolic acid, glyceric acid, tartaric acid, citric acid, ascorbic acid, malic acid, succinic acid, fumaric acid, adipic acid, acidic amino acid, potassium chloride-hydrochloric acid buffer, potassium hydrogen phthalate -1 type, or 2 or more types chosen from the group which consists of a sodium hydride buffer, sodium citrate-sodium hydroxide buffer, etc. can be mentioned. Examples of the acidic amino acid include aspartic acid and glutamic acid.

The hydroxyl group-containing compound constituting the liquid deodorant of the present invention will be described. The hydroxyl group-containing compound is preferably an organic compound having a hydroxyl group with a small molecular weight, and particularly preferably an organic compound having a hydroxyl group with a molecular weight of about 200 or less. When the hydroxyl group-containing compound is present in the liquid deodorant, the amount of the polyphenol dissolved can be increased, which is advantageous. Specifically, monoalcohols having 1 to 4 carbon layers such as ethanol, methanol, isopropanol, and butanol, and polyols such as ethylene glycol, propylene glycol, diethylene glycol, dipropylene glycol, hexylene glycol, and glycerin are preferable. Among these hydroxyl group-containing compounds, the use of a polyol is advantageous from the viewpoint of the Fire Service Law because the flash point of the liquid deodorant can be raised. Furthermore, the use of an edible hydroxyl group-containing compound is also preferable from the viewpoint of not sacrificing the global environment in terms of safety.
As the liquid deodorant of the present invention, a liquid deodorant containing a polyphenol, an organic acid and a solubilizing solvent for the polyphenol and the organic acid may be used. The polyphenols and organic acids here are as described above. The solubilizing solvent is not particularly limited as long as it is a solvent that can dissolve the polyphenol and the organic acid. Specific examples of the solubilizing solvent include the hydroxyl group-containing compound, acetone, the hydroxyl group-containing compound, water, and acetone. However, the present invention is not limited to these.

A representative example of the deodorizing method of the present invention is that a liquid deodorant is added to cleaning water in a cleaning water tank provided in a tank type toilet, and after using the tank type toilet, the liquid deodorant-containing cleaning water is used. Is characterized in that the waste of the toilet bowl is poured into the waste tank. The liquid deodorant used in this method is preferably a high-concentration liquid deodorant because it preferably has a higher polyphenol content. Further, since the liquid deodorant used in this method is diluted and used, it is also a concentrated liquid deodorant. Hereinafter, the high concentration liquid deodorant is described as the concentrated liquid deodorant.
In the present invention, as a deodorizing method different from the above, there is a method in which a diluted liquid of the liquid deodorant is introduced into a waste tank. The degree of diluting the liquid deodorant varies depending on the amount of waste in the filth tank, the composition of the liquid deodorant used, etc., and thus cannot be specified in general, but for example, it is diluted to about 50 to 500 times. It may be used. As a means for diluting the liquid deodorant, for example, the liquid deodorant can be diluted with water, but in the present invention, an optimal means method may be appropriately selected and used, It is not limited at all.

In the liquid deodorant of the present invention, the content of polyphenol depends on the polyphenol used, but is 10 ^{−7 to} 20% by mass, preferably 10 ⁻⁶ to 10% by mass, based on the total amount of the liquid deodorant, Furthermore, it is desirable to set it as 10 ^<-6 > -5 mass%. The content of the organic acid varies depending on the organic acid used, but is 0.001 to 20% by mass, preferably 0.01 to 10% by mass, based on the total amount of the liquid deodorant. . When the amount of polyphenol or organic acid is less than the above range, the deodorizing effect is not sufficient, and when the amount is more than the above range, it is not preferable in terms of handleability.
The content of the hydroxyl group-containing compound varies depending on the polyphenol, the organic acid, and the hydroxyl group-containing compound used, but is preferably 10 to 95% by mass, and preferably 60 to 95% by mass with respect to the total amount of the liquid deodorant. It is more preferable.

In the present invention, polyphenol, organic acid, hydroxyl group-containing compound and water are appropriately selected and used, and they can be combined into a liquid deodorant.
The acidity of the liquid deodorant varies depending on the polyphenol and organic acid used, but it is desirable to adjust the pH to 1.0 to 6.0, preferably pH 2.0 to 5.0. If it is in this range, the odor can be efficiently removed and polyphenols can be present stably.
In the concentrated liquid deodorant of the present invention, if the polyphenol content is high, it is advantageous because the dilution ratio of the liquid deodorant can be increased. For example, it is advantageous that the polyphenol content is 2% by mass or more in the liquid deodorant, but it is advantageous that the polyphenol content is further 3% by mass or more. The upper limit of the polyphenol content is not particularly limited because it increases as the technology advances. In the concentrated liquid deodorant of the present invention, the content of the organic acid only needs to be present such that the pH is acidic when the concentrated liquid deodorant is diluted. In the concentrated liquid deodorant of the present invention, the content of the hydroxyl group-containing compound is preferably such an amount that polyphenol in the liquid deodorant can stably exist.

The liquid deodorant of the present invention may contain a cleaning active ingredient. Since this liquid deodorant is also excellent in detergency, it is also a detergency liquid deodorant. As the cleaning active ingredient, a cleaning active ingredient frequently used in detergents may be adopted as appropriate, and various surfactants can be used, for example. The amount of these cleaning active ingredients varies depending on the components used in the liquid deodorant and cannot be defined unconditionally. An optimal amount may be selected.
The liquid deodorant of the present invention may contain a compounding agent as appropriate.

The liquid deodorant of the present invention is advantageous because it can be stored in a container and brought into a tank-type toilet where it is desired to be deodorized and deodorized. In particular, when the concentrated liquid deodorant is stored in a container, the liquid deodorant can be used efficiently, which is advantageous from the viewpoint of maintenance and cost.
The container is not particularly limited as long as it contains the liquid deodorant and can be taken out as necessary. The container material is not particularly limited as long as it is a stable material even if the liquid deodorant is held for a long time. Among these, a plastic container is preferable.

(Function)
A liquid deodorant containing a polyphenol, an organic acid and a hydroxyl group-containing compound or a hydroxyl group-containing compound and a water-soluble deodorant as defined in the present invention is poured into a waste tank, Improves unpleasant odor. Although the mechanism has not been elucidated, an acidic aqueous solution containing polyphenols and organic acids deodorizes ammonia generated from the decomposition of microorganisms from manure by neutralization reaction, and the polyphenols in the liquid deodorant are further removed. This is considered to be due to the fact that the malodor of mercaptan compounds such as methyl mercaptan can be effectively deodorized by conversion to polyphenolquinone radicals by ammonia newly generated in the toilet.

Hereinafter, the following experiment verified.
(Production of tank-type toilet odor model)
To a 300 mL flask containing 10 mL of ion-exchanged water, add 50 μL of 2.8% aqueous ammonia and 30 μL of 0.50% methyl mercaptan solution, cover with parafilm, and shake at 25 ° C. for 10 minutes. A tank-type toilet odor model was obtained in the headspace.
A tank-type toilet odor model in the headspace was taken into the detector tube and the malodor concentration was measured. The measurement results are shown in Table 1 below.
Table 1

(Preparation of liquid deodorant)
The compounds shown in Table 2 were added to the container so as to have an amount ratio shown in Table 2, and mixed to obtain liquid deodorants A and B.
Table 2
In the table, the polyphenol powder is polyphenol powder GTP90 (green tea extract, manufactured by Aiya Co., Ltd.).

(Liquid deodorant added)
To a 300 mL flask containing 10 mL of ion-exchanged water, 50 μL of 2.8% aqueous ammonia and 30 μL of 0.50% methyl mercaptan solution were added, and then 0.1 g of the liquid deodorant was added and then covered with parafilm. Shake for 10 minutes at 25 ° C.
Headspace gas was taken into the detector tube and the malodor concentration was measured. The measurement results were as shown in Table 3 below.
Table 3

(Ammonia generation after adding liquid deodorant)
To a 300 mL flask containing 10 mL of ion-exchanged water, 50 μL of 2.8% aqueous ammonia and 30 μL of 0.50% methyl mercaptan solution were added, and then 0.1 g of the liquid deodorant was added and then covered with parafilm. Shake for 10 minutes at 25 ° C. The shaking was stopped, and the mixture was further added to a 50 μL flask of 2.8% aqueous ammonia, again covered with parafilm, and shaken at 25 ° C. for 10 minutes.
Headspace gas was taken into the detector tube and the malodor concentration was measured. The measurement results are shown in Table 4 below.
The blank in Table 2 was used in place of the liquid deodorant, and the other operations were performed in the same manner as described above. The headspace gas was taken into the detector tube, and the malodor concentration was measured. The measurement results are shown in Table 4 below.
Table 4

(Ammonia is generated after liquid deodorant is added, and then liquid deodorant is added)
To a 300 mL flask containing 10 mL of ion-exchanged water, 50 μL of 2.8% aqueous ammonia and 30 μL of 0.50% methyl mercaptan solution were added, and then 0.1 g of the liquid deodorant was added and then covered with parafilm. Shake for 10 minutes at 25 ° C. Shake was stopped, added to a 50 μL flask of 2.8% aqueous ammonia, capped again with parafilm, and shaken at 25 ° C. for 10 minutes. Shaking was stopped, 0.1 g of the above liquid deodorant was added to the flask, capped again with parafilm, and shaken at 25 ° C. for 10 minutes.
Headspace gas was taken into the detector tube and the malodor concentration was measured. The measurement results are shown in Table 5 below.
Table 5

In the liquid deodorant for tank type toilets of the present invention, when a compound that is difficult to freeze, such as ethanol, is used as the hydroxyl group-containing compound, the liquid deodorant or the washing water containing the liquid becomes difficult to freeze, and the deodorizing function Is retained. Even in a tank-type toilet installed in a sub-freezing environment, the cleaning water containing the liquid deodorant is not frozen and can achieve a deodorizing function, which is extremely advantageous. Compounds that are difficult to freeze that can be used in the liquid deodorant are the following compounds known as antifreeze solutions: ethanol, methanol, isopropanol, butanol, ethylene glycol, propylene glycol, 1,3-butylene glycol, hexylene glycol, diethylene glycol, Hydroxyl-containing compounds such as polyethylene glycol and glycerin are preferred. It is preferable to mix | blend those compounds in a liquid deodorizer so that it may become 99.5-60 mass%, and it is more preferable to mix | blend so that it may become 95-60 mass%. Here, the cold region means a region where the minimum temperature is lower than 0 ° C.
In the present invention, the antifreeze-containing liquid deodorant and water can be mixed to provide washing water for a tank-type toilet. Although it is influenced by the content of the liquid deodorant, it has been found that the washing water does not freeze in a cold region and the deodorizing function is maintained. The content of the liquid deodorant mixture may be appropriately determined according to the area used for the washing water and the components used in the liquid deodorant, and cannot be generally defined. For example, a preferable result can be obtained when the content is 2% by weight or more.

  In this invention, you may mix | blend a fragrance | flavor with the said liquid deodorizer from points, such as the further improvement of deodorizing performance, stability, and aroma.

  In the present invention, the fragrance compounded in the liquid deodorant component is generally an organic compound that is volatilized in the atmosphere at room temperature, and is not particularly limited as long as it is an organic compound effective as a fragrance. It is preferable to use a fragrance that does not give off an unpleasant odor even when combined with stool odor.

The fragrance used in the present invention is a fragrance that is stable to polyphenols and organic acids, and is at least one selected from alcohol-based fragrances, ester-based fragrances, hydrocarbon-based fragrances, lactone-based fragrances, ether-based fragrances, and natural fragrances. It is preferable to blend the above. Among these fragrances, citrus and green fragrances that make you feel refreshed, soap-like and floral-like fragrances with a clean feeling, mint-like fragrances with a refreshing sensation, and a fruity scent with a pleasant and pleasant scent. A fragrance is preferred.
Specifically, for example, alcohols such as aliphatic alcohol, terpene alcohol, aromatic alcohol, aliphatic ester, furan carboxylic acid ester, aliphatic cyclic carboxylic acid ester, cyclohexyl carboxylic acid ester, terpene carboxylic acid Esters such as esters and aromatic carboxylic acid esters, aliphatic hydrocarbons, terpene hydrocarbons, hydrocarbons such as aromatic hydrocarbons, aliphatic lactones, macrocyclic lactones, terpene lactones, hydrogenated aromatic lactones, aromatic Lactones such as aliphatic lactones, ethers such as aliphatic ethers and aromatic ethers, and natural fragrances from animals or plants.
Below, the main fragrance | flavor names which can be used by this invention are shown.
For example, alcohols (isoamyl alcohol, pentanol, hexanol, cis-3-hexenol, 1-octen-3-ol, linalool, geraniol, citronellol, menthol, benzyl alcohol, terpineol, perilla alcohol, phenylethyl alcohol, cinnamyl alcohol , Nerolidol, farnesol, furfuryl alcohol, etc.); hydrocarbons (α-pinene, limonene, cedrene, etc.); esters (ethyl hexanoate, hexyl acetate, cis-3-hexenyl acetate, methylcinnamate, methyl jas) Monate, methyl dihydrojasmonate, linalyl acetate, geranyl acetate, terpinyl acetate, menthyl acetate, cinnamyl acetate, phenylethyl acetate Lactones (γ-hexalactone, γ-octalactone, γ-decalactone, δ-decalactone, cis-jasmine lactone, etc.); Ethers (cineole, linalool oxide, rose oxide, etc.); Natural flavors (Orange oil, mandarin oil, ylang-ylang oil, lavender oil, etc.).
Although the quantity which mix | blends these fragrance | flavors is not restrict | limited in particular, For example, it is preferable to set it as 0.001-50 mass% on the basis of a liquid deodorant, and it is more preferable to set it as 0.01-10 mass%.
By containing these fragrances in the liquid deodorant, a stable and harmonious scent can be maintained, and a comfortable and comfortable scent can be given to the user. The fragrance used in the present invention is a so-called blended fragrance, preferably a fragrance having a balanced fragrance and a comfortable scent that is comfortable for the user.

  In the present invention, the liquid deodorant is added to the washing water tank provided in the tank-type toilet, and the toilet user uses the washing water in the washing water tank to remove the waste from the toilet after using the toilet. It can be washed away in a filth tank. In this way, the excrement in the toilet bowl fits in the waste tank, and the unpleasant odor is improved by the liquid deodorant in the wash water, so the next toilet user can use the toilet without feeling any discomfort. can do. In addition, the tank-type toilet operator maintains a container containing the liquid deodorant of the present invention to a toilet where a temporary toilet is installed, and pours the liquid deodorant into the wash water tank, so that a temporary operation can be easily performed. It is also good news for those who maintain and maintain tank-type toilets because they can cut off unpleasant odors and other uncomfortable feelings.

  In the present invention, the liquid deodorant may be directly put into a filth tank provided in a tank-type toilet to deodorize excrement in the filth tank.

  According to the present invention, it is possible to remarkably reduce the bad odor emitted from the waste in the filth tank by a simple operation. In particular, urine-derived ammonia odor and fecal-derived mercaptan odor can be significantly reduced. The component which comprises the liquid deodorizer of this invention is a compound friendly to a global environment, and it can be said that this invention is excellent in the point. Further, the amount of the liquid deodorant used may be small, and a sufficient deodorizing effect can be achieved, which is advantageous from an economical point of view. Furthermore, the concentrated liquid deodorant of the present invention is accommodated in a container, and the container can be transported to a temporary toilet, diluted as necessary, and used, which is also advantageous in that respect. Conventionally, the use of tank-type toilets in cold regions has been limited, but the present invention can also solve the problem and is practical.

1 is a schematic external view of a tank type toilet used in Example 1. FIG. It is a schematic external view of the tank type toilet used in Example 2.

Hereinafter, the present invention will be described in detail based on examples. The present invention is not limited to these examples.
Example 1
(Preparation of liquid deodorant)
The compounds shown in Table 6 were added to the container so as to have the proportions shown in Table 6 and mixed to obtain an aqueous solution to obtain a liquid deodorant.

(Deodorization effect confirmation test of tank-type toilet)
A test for confirming the deodorizing effect on human excrement was conducted using three tank-type toilets shown in FIG. This toilet is a stationary pedal-type simple flush temporary toilet equipped with a waste water tank of about 400 L and a water supply tank of about 70 L.
350 mL of the liquid deodorant of Example 1 was added to the toilet cleaning water tank, and water was poured to fill the approximately 70 L cleaning water tank. By this operation, the liquid deodorant was diluted with water about 200 times. From the day when the liquid deodorant was put into the water tank for washing water, a total of 10 adult men and women used the toilet every day. The total number of uses was 20 times a day. After each use, about 250 mL of washing water flowed out to the toilet and flowed into the waste tank together with the waste. One day, three days, and seven days after the start of use, five panelists sniffed the smell in the toilet, and the sensory evaluation was performed according to the following criteria.
The evaluation results are shown in Table 6. In addition, the blank did not have a liquid deodorant, and used the thing except gallic acid as a control.

(Sensory evaluation criteria)
0 No odor at all
1 Almost no foul odor
2 Odor is faint
3 Stink is clearly felt
4 Strong odor is felt
5 Strong odor is felt

Table 6

(Examples 2 and 3)
(Preparation of liquid deodorant)
The compounds shown in Table 7 were added to the container so as to have the proportions shown in Table 7 and mixed to obtain a liquid deodorant as an aqueous solution.
(Deodorization effect confirmation test of tank-type toilet)
The confirmation test of the deodorizing effect with respect to urine odor was conducted using the tank type toilet shown in FIG.
350 mL of the liquid deodorant of Example 2 was put into a wash water supply tank containing about 70 L of water. By this operation, the liquid deodorant was diluted with water about 200 times. From the day the liquid deodorant was put into the water tank for washing water, a total of 10 adult men and women used the toilet daily for small water. The total number of uses was 20 times a day. After each use, about 250 mL of washing water flowed out to the toilet and flowed into the waste tank together with the waste. One day, three days, and seven days after the start of use, the odor in the toilet was sensorially evaluated by five panelists.
The evaluation criteria are the same as in Example 1. The evaluation results are shown in Table 9. In addition, the blank did not have a liquid deodorant, and used the thing except gallic acid as a control.
The liquid deodorant of Example 3 was similarly operated. The evaluation results are shown in Table 10.

Table 7
In the table, the fragrance is a rose-like floral fragrance, and the prescription is as shown in Table 8 below.
DPG is dipropylene glycol (hereinafter the same).

Table 8 Rose-like floral fragrance composition

Table 9 Evaluation results

Table 10 Evaluation results

(Examples 4 and 5)
After using the tank type toilet shown in FIG. 1 without a deodorant, the filth tank provided in the toilet was collected, and the deodorization effect was confirmed using the filth tank.
(Preparation of liquid deodorant)
The compounds shown in Table 11 were added to the container so as to have the proportions shown in Table 11, and diluted 100 times with water to obtain a liquid deodorant.
(Deodorization effect confirmation test for waste tank after collection of tank-type toilet)
Using the filth tank collected from the used tank-type toilet, a test for confirming the deodorizing effect on manure odor was conducted. This toilet is equipped with a filth tank of about 400 L, and stool and urine collected in the filth tank after being used for a certain period of time are sucked up by a vacuum and processed. The filth tank collected after sucking manure with this vacuum has a lot of filth attached and gives off a very strong odor. Further, since the collected waste tank is reused, cleaning work is performed at the collection destination, but it is said that it is quite difficult to completely remove the bad odor.
A filth tank having the same odor intensity is selected from the filth tank immediately after the collection, and 400 g of the liquid deodorant is poured into the tank. At this time, the liquid deodorant spread throughout the tank and left for 30 minutes. Thereafter, sensory evaluation of the odor in the tank was performed by five panelists.
The evaluation criteria are the same as in Example 1. The evaluation results are shown in Table 13. In addition, the blank did not have a liquid deodorant, and used the thing except gallic acid as a control.

Table 11
In the table, the fragrance is a grapefruit-like citrus fragrance, and the prescription is as shown in Table 12.

Table 12 Grapefruit-like citrus flavoring

Table 13 Evaluation results

(Example 6)
(Preparation of liquid deodorant)
The compound shown in Table 14 was added to the container so as to have the amount ratio shown in Table 14, and a liquid deodorant was obtained by the same operation as in Example 1.
(Deodorization effect confirmation test of tank-type toilet)
A public toilet that remarkably has an unpleasant odor in the toilet, particularly an odor due to an ammonia odor, was reproduced, and a deodorizing effect confirmation test was conducted. That is, there is no water washing facility, and the tank type toilet shown in FIG. 2 in which excrement is poured directly into a waste tank is used by an adult male 5 times a day. After the fifth use, the liquid of Example 6 is used. 200 g of deodorant 2 g diluted 100 times with water was put into a toilet bowl, and the odor in the toilet was sensorially evaluated by five panelists.
The evaluation results were as follows.
Compared to the blank, the ammonia odor was almost eliminated and the unpleasant toilet odor was not felt. A blank without a liquid deodorant was used.

Table 14

(Example 7)
(Preparation of antifreeze-containing liquid deodorant)
The compounds shown in Table 15 were added to the container so as to have the proportions in Table 15 and mixed to obtain an antifreeze-containing liquid deodorant having the composition shown in Table 15.
Table 15 Liquid deodorant containing antifreeze
In the table, the fragrance is a rose-like floral fragrance, and the prescription is as shown in Table 8 above.

(Freezing confirmation test of antifreeze-containing liquid deodorant)
70 L of washing water was prepared by adding water to the liquid deodorant containing the antifreeze liquid shown in Table 16. Each washing water was left in an atmosphere of −20 ° C., and the freezing temperature was measured. A low-temperature incubator LU-112T manufactured by Tabay Espec Co., Ltd. was used as a measuring instrument.
The measurement results are shown in Table 16.

Table 16
In the table,-indicates that the water has not been frozen, and "freezing" indicates that the washing water has been frozen when the temperature is lower than the corresponding temperature.

(Deodorization effect confirmation test of tank-type toilet)
The confirmation test of the deodorizing effect with respect to a human excrement was done using two tank type toilets shown in FIG. 6.9 L of the liquid deodorant of Example 7 was put into the toilet cleaning water tank, and water was poured to fill the approximately 70 L cleaning water tank. From the day when the liquid deodorant was put into the water tank for washing water, a total of 10 adult men and women used the toilet every day. The total number of uses was 20 times a day. After each use, about 250 mL of washing water flowed out to the toilet and flowed into the waste tank together with the waste. Seven days after the start of use, five panelists smelled the odor in the toilet, and the sensory evaluation was performed according to the criteria of Example 1.
The evaluation results are shown in Table 17. A blank without a liquid deodorant was used.

Table 17 Evaluation results

The present invention can be described as follows.
(1) A deodorizing method for a tank-type toilet, comprising using a liquid deodorant having a pH of 1.0 to 6.0 containing polyphenol, an organic acid, and a solubilizing solvent for the polyphenol and the organic acid.
(2) The deodorizing method for a tank-type toilet according to (1), wherein the solubilizing solvent for polyphenol and organic acid comprises a hydroxyl group-containing compound or a hydroxyl group-containing compound and water.
(3) The tank type toilet deodorization method according to (1) or (2), wherein the liquid deodorant further contains an antifreeze liquid.
(4) The tank type toilet deodorization method according to any one of (1) to (3), further including a cleaning component in the liquid deodorant.
(5) The deodorizing method for a tank type toilet according to claim 1, wherein the liquid deodorant according to any one of (1) to (4) is added to a washing water tank provided in the tank type toilet. .
(6) The tank-type toilet deodorization method according to claim 1, wherein the liquid deodorant according to any one of (1) to (4) is introduced into a waste tank provided in the tank-type toilet.

(7) A liquid deodorant for tank toilets having a pH of 1.0 to 6.0 containing polyphenol, organic acid, and a solubilizing solvent for polyphenol and organic acid.
(8) The tank type toilet liquid deodorant according to (7), wherein the solubilizing solvent for polyphenol and organic acid comprises a hydroxyl group-containing compound or a hydroxyl group-containing compound and water.
(9) The liquid deodorant for tank type toilets according to (7) or (8), further containing an antifreeze liquid.
(10) Tank type used in cold districts characterized by comprising 0.5 to 40% by mass of liquid deodorant for tank type toilets according to (9) and 99.5 to 60% by mass of antifreeze liquid Liquid deodorant for toilets.
(11) The liquid deodorant for tank type toilets according to any one of (7) to (10), further comprising an active cleaning ingredient.
(12) The liquid for tank type toilets according to any one of (7) to (10), wherein the polyphenol content is 0.05 to 1 part by mass with respect to 1 part by mass of water present in the liquid deodorant. Deodorants.
(13) The liquid deodorant cleaning agent for tank type toilets according to any one of (7) to (12), wherein 0.1 to 10% by mass of a fragrance is blended in a liquid deodorant.
(14) A plastic container containing the tank-type toilet liquid deodorant according to any one of (7) to (13).
(15) A tank-type toilet flushing water comprising the tank-type toilet liquid deodorant according to any one of (7) to (13) and water.
(16) For cold districts, characterized in that it is composed of 70 to 99% antifreeze and 1 to 30% water containing 0.5 to 10% by mass of the liquid deodorant for tank toilets described in (12) Tank type toilet wash water antifreeze.

Claims (5)

(1) polyphenol, (2) citric acid and (3) a hydroxyl group-containing compound or a hydroxyl group-containing compound and water, wherein the polyphenol and the hydroxyl group-containing compound are (1) polyphenol, (2) citric acid and (3) hydroxyl group Tank type toilet using a liquid deodorant having a pH of 1.0 to 6.0, which is contained in an amount of 4 to 20% by mass and 40 to 95% by mass, respectively, with respect to the total amount of the containing compound or the hydroxyl group-containing compound and water A deodorizing method for a tank type toilet, wherein the liquid deodorant is introduced into a washing water tank provided in the tank type toilet. (1) polyphenol, (2) citric acid and (3) a hydroxyl group-containing compound or a hydroxyl group-containing compound and water, wherein the polyphenol and the hydroxyl group-containing compound are (1) polyphenol, (2) citric acid and (3) hydroxyl group Tank type toilet using a liquid deodorant having a pH of 1.0 to 6.0, which is contained in an amount of 4 to 20% by mass and 40 to 95% by mass, respectively, with respect to the total amount of the containing compound or the hydroxyl group-containing compound and water A deodorizing method for a tank type toilet, wherein the liquid deodorant is put into a waste tank provided in the tank type toilet. (1) polyphenol, (2) citric acid and (3) a hydroxyl group-containing compound or a hydroxyl group-containing compound and water, wherein the polyphenol and the hydroxyl group-containing compound are (1) polyphenol, (2) citric acid and (3) hydroxyl group The content is 4 to 20% by mass and 40 to 95% by mass, respectively, with respect to the total amount of the containing compound or the hydroxyl group-containing compound and water, and the pH is 1.0 to 6.0. Or a tank-type toilet liquid deodorant used in the tank-type toilet deodorization method described in 2. The liquid deodorant for tank type toilets according to claim 3, wherein 0.1 to 10% by mass of a fragrance is blended in the liquid deodorant. 5. The liquid deodorant for tank type toilets according to claim 3 or 4, wherein the hydroxyl group-containing compound constituting the liquid deodorant is ethanol, methanol, isopropanol, butanol, ethylene glycol, propylene glycol, 1, 3 -Liquid deodorant for tank type toilets used in cold districts, characterized by being an antifreeze selected from butylene glycol, hexylene glycol, diethylene glycol, polyethylene glycol and glycerin.