JP3877587B2 - Cleaning method for textile products - Google Patents

Description

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【表２】

【００４７】
【表３】

【００４８】
【図面の簡単な説明】
【図１】 洗浄試験前のマルチ試験布及び油試験布の原布を示す図
【図２】 実施例１の洗浄試験結果を示す図
【図３】 実施例２の洗浄試験結果を示す図
【図４】 実施例３の洗浄試験結果を示す図
【図５】 実施例４の洗浄試験結果を示す図
【図６】 実施例５の洗浄試験結果を示す図
【図７】 実施例６の洗浄試験結果を示す図
【図８】 実施例７の洗浄試験結果を示す図
【図９】 実施例８の洗浄試験結果を示す図
【図１０】 比較例１の洗浄試験結果を示す図
【図１１】 比較例２の洗浄試験結果を示す図
【図１２】 比較例３の洗浄試験結果を示す図
【図１３】 比較例４の洗浄試験結果を示す図
【図１４】 比較例５の洗浄試験結果を示す図
【図１５】 比較例６の洗浄試験結果を示す図
【図１６】 比較例７の洗浄試験結果を示す図
【図１７】 比較例８の洗浄試験結果を示す図
【図１８】 比較例９の洗浄試験結果を示す図
【図１９】 比較例１０の洗浄試験結果を示す図
【図２０】 比較例１１の洗浄試験結果を示す図[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for cleaning a textile product that removes contaminants adhering to clothing without any distinction between water-soluble and oil-soluble without requiring mechanical force or other physical force in the washing and rinsing process.
[0002]
[Prior art]
Conventional methods for washing clothes and the like include dry cleaning using a solvent not containing water and laundry using water.
[0003]
Dry cleaning is a method of cleaning using an organic solvent. Dry cleaning is usually performed using an organic solvent that removes oil-soluble dirt and a cleaning agent for dry cleaning generally called dry soap. This dry soap contains various surfactants in order to remove water-soluble dirt and solid dirt. Conventionally, many prior arts such as JP-A-11-92784 are known for the dry soap.
[0004]
On the other hand, laundry is a method of washing using water in which a detergent is dissolved. Regarding these detergents, for example, Japanese Patent No. 3124684, JP-A-9-157695, JP-A-2000-8082, JP-A-10-280000, JP-A-11-29790, Many prior arts are known, such as JP-A-10-88195, JP-A-4-57962, and JP-A-6-313193. These conventional detergents also contain various surfactants, and among the surfactants, nonionic surfactants with a relatively large number of added moles of alkylene oxide of about 7 to 9 are known. It has been.
[0005]
[Problems to be solved by the invention]
However, conventionally, dry cleaning and laundry have the following problems.
For example, in dry cleaning using a water-soluble volatile organic solvent such as a petroleum solvent, the cleaning power against oil-soluble dirt is relatively excellent. However, since the cleaning power of dry soap against water-soluble dirt is insufficient and the problem of re-contamination is not solved, the cleaning power against water-soluble dirt required as the original cleaning performance is still not sufficient.
[0006]
In addition, halogenated hydrocarbons, which are organic solvents used for dry cleaning, have problems in terms of environmental pollution and safety, and petroleum solvents may cause explosions and fires. When using a high-boiling solvent, these risks are reduced, but disadvantages such as an increase in the drying cost after washing and residual dirt on the laundry arise.
As described above, dry cleaning is not optimal as a method for washing clothes and fabrics, and there is a current situation that the appearance of other preferable alternatives is awaited.
[0007]
On the other hand, since the above problems in dry cleaning have been raised, various researches have been conducted on water-based cleaning agents and cleaning methods using these water-based cleaning agents in place of dry cleaning. A considerable number of patents have been filed, and many cleaning agents are commercially available. However, even when various cleaning tests were performed using the cleaning agents disclosed in patent specifications and commercially available cleaning agents, it was impossible to remove oil-soluble soils satisfactorily.
[0008]
In a conventional cleaning method using an aqueous detergent, mechanical power and physical power are used in combination to compensate for the lack of cleaning power. That is, it is common to perform cleaning by moving both the cleaning liquid and the cleaning object or moving only one of them. However, when a silk product or a wool product is washed by such a method, the fibers are tangled or the like, resulting in loss of shape or large shrinkage.
[0009]
Generally, in order to prevent shrinkage, the fiber material is subjected to chlorination treatment, other oxy compound treatment, and further resin coating. However, when the conventional washing method for moving clothes or the like is used, for example, when the wool composition ratio is 50% or more, it is impossible to prevent shrinkage.
When silicones are added to the cleaning agent, a certain degree of shrinkage prevention effect is observed. However, as the amount of silicone added increases, the original detergency declines, causing problems such as yellowing of the fibers and deterioration of antistatic properties and recontamination properties.
[0010]
Among water-based cleaning agents, for example, there are those referred to as pickling cleaning agents and stain removal cleaning agents as disclosed in JP-A-4-57962 and JP-A-6-313193. . There are also oil-soluble stain removers that remove oil-soluble stains using a solvent.
[0011]
However, even when these cleaning agents are used, it is impossible to solubilize and disperse dirt in still water. At the rinsing stage, at least one of the water and the object to be cleaned is moved, and sometimes rubbed and tapped. It is necessary to apply a physical force such as cleaning. Moreover, most of the cleaning agents cannot simply remove the contaminants from the fabric simply by diffusing the dirt, and it is impossible to completely prevent the shrinkage of the fibers. For example, even if the stock solution of the cleaning agent for soaking was applied directly to the pollutant, a special effect could not be obtained.
[0012]
As described above, the conventional water-based cleaning agent used for laundry lacks the cleaning performance against oily dirt, and the present situation is that a technique for cleaning without moving laundry and / or cleaning liquid has not been established.
[0013]
Furthermore, alkylbenzene sulfonates and nonylphenol ethylene oxide adducts have been blended in many conventional aqueous detergents. These surfactants are adversely affected by the environment and safety issues have been pointed out, and have been subject to regulations and monitoring by laws and regulations.
[0014]
Therefore, the present invention effectively removes water-soluble soils and oil-soluble soils without applying any mechanical force or other physical force, and minimizes shrinkage even when washing silk or wool products. And it aims at providing the washing | cleaning method of the textiles which can remove a stain | pollution | contamination efficiently with little influence on an environment.
[0015]
[Means for Solving the Problems]
(Characteristics)
The textile product cleaning method according to the present invention is a textile product cleaning method using a direct adhesion cleaning composition containing a nonionic surfactant having the following general chemical formula, a co-solvent and water as shown in claim 1. A method,
The nonionic surfactant is (a) the number of added moles n of alkylene oxide is n ≦ 6, and
(B) an alkylene oxide having an added mole number n of 7 ≦ n ≦ 8,
(C) the number of moles of added alkylene oxide n is 9 ≦ n,
Each as at least one main component,
The (a) component amount [a], the (b) component amount [b], and the (c) component amount [c] are each 10 wt% or more based on the total amount of the cleaning composition , and The sum [a] + [b] of the component amount [a] (a) and the component amount [b] (b) is 1 ≦ ([a] with respect to the component amount [c] (c). + [B]) / [c] ≦ 4,
The co-solvent is contained such that the ratio [B] / [A] of the amount [B] of the co-solvent to the amount [A] of the nonionic surfactant is 1/3 to 2,
A composition for directly adhering cleaning, wherein the water content is 20 wt% or less,
It is characterized in that it is adhered to the object to be cleaned without being diluted, held for 5 to 10 minutes, and then immersed in still water for 5 to 10 minutes.
Here, the chemical formula is R-O (AO) n-H.
R is an alkyl group having 10 to 18 carbon atoms, AO is an alkylene oxide having 2 to 3 carbon atoms, and n is an integer of 2 or more.
[0016]
Of the directly attached cleaning composition used in this means, the surfactant has an effect of solubilizing oil-soluble and water-soluble soil and an effect of solubilizing the soil in still water. That is, among the nonionic surfactants used in the present means, those having a low molar number where the number of added moles n of alkylene oxide is n ≦ 6 have high oil solubility, and in particular, excellent affinity for heavy oil stains and the like. Yes. A medium molar compound having 7 ≦ n ≦ 8 has high water solubility and excellent affinity for light oil stains. Those having a high molarity of 9 ≦ n are solubilized with the above low and medium molar surfactants, or are excellent in the effect of emulsifying and solubilizing the soil diffused on the dough.
In the detergent composition used in this means, these three kinds of surfactants are each 10 wt% or more with respect to the total amount of the detergent composition, and the component amount [a] and the component (b) The sum [a] + [b] with the amount [b] is such that 1 ≦ ([a] + [b]) / [c] ≦ 4 with respect to the component amount [c] (c). Contains. Thereby, a good cleaning effect can be exhibited.
[0017]
To the detergent composition used in the present invention, this surfactant and a cosolvent are added in order to enhance the effect. The co-solvent lowers the viscosity of the cleaning composition in order to facilitate application or spraying of the cleaning composition, and also has an effect of facilitating solubilization of dirt in water. As the co-solvent, it is necessary to select a solvent that does not harm the environment, such as one having less odor and toxicity . For example, those applicable to the present invention can be selected from glycol ethers, paraffinic hydrocarbons, citrus oils and alcohols.
As for the addition amount of the cosolvent, [B] / [A] is preferably 1/3 to 2 as described above. When the amount [B] of the co-solvent is 1/3 or less, it becomes insufficient to solubilize the surfactant containing the dirt in still water, and the cleaning effect is lowered. On the other hand, when the amount [B] of the co-solvent exceeds twice the amount of the surfactant, the concentration of the surfactant is lowered, and the detergency against water-soluble dirt is lowered, which is not preferable.
[0018]
Moreover, the cleaning composition used for this invention makes the content rate of water 20 wt% or less, and makes it adhere to a washing | cleaning target object, without diluting. Thereby, heavy oil stains can be easily removed.
[0019]
When the cleaning composition according to the present invention is used, the time for adhering the cleaning agent to the object to be cleaned and the time for immersing the object to be cleaned in still water are both 5 minutes to 10 minutes. Therefore, cleaning can be performed in an extremely short time. Moreover, when the object to be cleaned with the cleaning agent attached is immersed in water, it is not necessary to move the water at all, so even silk products and wool products are cleaned without causing fiber shrinkage. be able to.
In addition, the ripple effect is great because it is possible to save labor in the washing process, simplify the washing machine, and reduce the amount of water used.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
(Overview)
The aqueous cleaning composition for fibers of the present invention was obtained as an effective removal of oil-soluble soil, which could not be removed by the conventional aqueous cleaning composition for fibers. Moreover, the cleaning composition of the present invention does not need to apply mechanical force or other physical force to the object to be cleaned or washing water, and even when silk or wool products are washed, while minimizing shrinkage, Various kinds of dirt can be effectively removed in a short time.
The detergent composition according to the present invention contains a surfactant in the same manner as the conventional detergent composition, and among them, a so-called low molar addition surfactant having an alkylene oxide addition number of 6 or less is included. It is characterized in that it contains a large amount.
In addition to this, the cleaning composition of the present invention comprises various surfactants and cosolvents, and the details thereof will be described below with reference to tables and the like.
[0021]
(Representative composition)
The cleaning composition according to the present invention includes a surfactant represented by the following general formula.
R-O (AO) n-H
Here, R is an alkyl group having 10 to 18 carbon atoms, AO is an alkylene oxide having 2 to 3 carbon atoms, and n is an added mole number of alkylene oxide and is an integer of 2 or more.
[0022]
The cleaning composition of the present invention comprises the following three types of nonionic surfactants. That is,
(A) the number of moles of addition n of alkylene oxide is n ≦ 6, and
(B) an alkylene oxide having an added mole number n of 7 ≦ n ≦ 8,
(C) The number n of added moles of alkylene oxide is 9 ≦ n.
Hereinafter, for these surfactants, (a) is referred to as a low molar surfactant, (b) is referred to as a medium molar surfactant, and (c) is referred to as a high molar surfactant.
[0023]
Examples of the low mole surfactant (a) in which the number of moles n is n ≦ 6 include C ₁₀ H ₂₁ O (EO) ₃ H, C ₁₂ -C ₁₅ mixed alcohol ether (EO) ₃ , C _12. -C ₁₅ mixed alcohol ether _{(EO) 5, C 14 H} 29 O (EO) 6 H, or the like can be used.
These exhibit a detergency against heavy oil stains.
[0024]
Examples of the intermediate molar surfactant (b) in which the number of moles n is 7 ≦ n ≦ 8 include C ₁₂ H ₂₅ O (EO) _7.5 H, C _{12 to} C ₁₅ mixed alcohol ether (EO) ₇ , C ₁₆ H ₃₃ O (EO) ₈ H, and the like.
These exhibit a detergency against light oil stains.
[0025]
Furthermore, examples of the high-molar surfactant (c) in which the number of moles is 9 ≦ n include, for example, C _{12 to} C ₁₅ mixed alcohol ether (EO) ₉ , C ₁₃ H ₂₇ O (EO) ₅ / (PO ) ₃ (EO) ₆ H, C ₁₂ H ₂₅ O (EO) ₁₅ H, C ₁₃ H ₂₇ O (PO) ₆ (EO) ₆ H, and the like can be selected.
These exhibit the effect of facilitating solubilization or emulsification / dispersion of the soil solubilized by the low and medium molar surfactants.
[0026]
In addition, in the cleaning composition of the present invention, in addition to the surfactant that actually removes dirt, a cosolvent for facilitating adhesion of the surfactant to the object to be cleaned is required.
[0027]
Examples of the cosolvent include diethylene glycol monomethyl ether, diethylene glycol monobutyl ether, propylene glycol, phenyl glycol, hexylene glycol, diethylene glycol mono-2-ethylhexyl ether, 1-methyl-3-methoxybutanol, ethanol, limonene, liquid paraffin, One or more kinds of dimethyl imidazolidinone, N-methyl-2-pyrrolidone and the like can be contained. As a result, the fluidity of the aqueous cleaning composition for fibers of the present invention increases, it becomes easy to spray-apply on the object to be cleaned, and the cleaning composition can reliably adhere to dirt. .
[0028]
(Mixing ratio)
In order to remove all dirt effectively, it is necessary to mix the above-mentioned various surfactants and co-solvents in an appropriate ratio.
In determining such a blending ratio, as shown below, cleaning compositions having various blending ratios were prepared, and the actual oil-soluble dirt and the cloth to which water-soluble dirt was adhered were washed. The cleaning effect was evaluated.
[0029]
(Evaluation method)
As the cleaning composition according to the present invention, those shown in Table 1 were prepared.
As the test cloth, as shown in FIG. 1, a multi-test cloth and an oil test cloth made of wool jersey knit were used. The multi test cloth is used for observing the cleaning effect against general dirt, and the oil test cloth is used for observing the cleaning effect against oil dirt.
[0030]
The cleaning test was conducted as follows.
Multi test cloth, commercially available soy sauce, sauce, coffee, tea, grilled meat sauce, drop of salad oil, oily magic (red, black), oily ballpoint (red, black), waterborne magic (red, black), waterborne ballpoint pen Dirt due to the marking of (red, black) was attached, and air-dried for one day to prepare a test piece with a multi-test cloth.
A drop of a 20% hexane solution of salad oil was dropped on the oil test cloth, and then air-dried for 1 day to prepare a test piece using the oil test cloth.
[0031]
The following stains were used.
As soy sauce stain, 10 ml of Kikkoman soy sauce was mixed with 5 ml of isopropanol and 5 ml of water to prepare.
As source soil, 10 ml of Kagome Star sauce was mixed with 5 ml of isopropanol and 5 ml of water to prepare.
As coffee stains, 2 g of Nescafe Gold Blend was mixed with 20 ml of hot water and 10 ml of isopropanol.
As tea stain, 4 ml of isopropanol was mixed with 50 ml of a solution obtained by heating and extracting 2 bags of Lipton tea bags with hot water for 10 minutes.
As a grilled meat sauce, 11 ml of Ebara golden sauce was mixed with 2 ml of isopropanol.
As the salad oil stain, a rape rapeseed salad oil colored with neozapon red355 was used.
In addition, oil-based magic (red, black) stains made by Magic Ink, oil ballpoint pens (red, black) made by PILOT, and water-based magic (red, black) stains by Pentel A product made by PILOT was used as a stain for water-based ballpoint pens (red, black).
[0032]
Washing was performed according to the following procedure.
First, for the multi-test cloth,
(1) An aqueous detergent composition for fibers is attached and allowed to stand for 10 minutes,
(2) After being immersed in still water consisting of tap water and allowed to stand for 5 minutes,
(3) Take this out and dehydrate for 1 minute with a washing dehydrator.
About one oil test cloth, it dye | stained by the waxoline red test another method after the process of said (1)-(3), and air-dried.
[0033]
As a determination method for comparing the cleaning effect, a method of measuring the reflectance of a specific artificially contaminated cloth has been conventionally used. However, with this method, it is difficult to evaluate the degree of dirt removal, and even though the measurement value indicating the cleaning effect itself is improved, there is often no remarkable effect in visual evaluation. Therefore, in the present embodiment, a method for visual evaluation is used.
[0034]
In the judgment, a case where the dirt has fallen to such an extent that the outline cannot be confirmed is indicated as ◯, a case where the outline can be confirmed although the dirt is removed, and a case where the dirt is clearly left is indicated as ×.
[0035]
The specifications of the cleaning composition according to the present invention are shown in Table 1, and the results of cleaning using these are shown in FIGS. FIG. 1 shows a state where various kinds of dirt are adhered.
In addition, the specifications of conventional general cleaning compositions are shown in Tables 2 and 3, and the results of comparison using these cleaning compositions are shown in FIGS.
As a result, as shown in Tables 2 and 3, when the conventional aqueous cleaning composition for fibers was used, most of the cleaning compositions were judged as Δ or ×. On the other hand, as shown in Table 1, those using the cleaning composition according to the present invention were judged as ◯ or △ and were not judged as x, and had high cleaning ability against various kinds of dirt. I found out that
[0036]
As a result of the above test, the blending ratio of each surfactant is, for example, the amount [a] of the component (a), the amount [b] of the component (b), and the amount [c] of the component (c). ] Is preferably contained in an amount of 10 wt% or more based on the total amount of the cleaning composition.
That is, by blending the above three types of surfactants in a well-balanced manner, oil-soluble and water-soluble soils can be easily solubilized, and the surfactant can be added by the self-emulsifying power of the selected surfactant. It is thought that the dirt contained is removed from the fibers and solubilized, emulsified and dispersed in water to enhance the cleaning effect.
[0037]
In the cleaning composition of the present invention, the cosolvent plays an important role. If there is too little cosolvent, it will be insufficient to solubilize the surfactant in still water and the cleaning effect will be reduced. On the other hand, when the amount of the co-solvent is excessive, the concentration of the surfactant is lowered, and the detergency against water-soluble dirt is lowered.
That is, it is considered that there is a certain appropriate range in the ratio of the cosolvent to the surfactant, but in view of the results in Table 1, the amount of cosolvent relative to the amount of nonionic surfactant [A] [ When the ratio [B] / [A] of B] is 1/3 to 2, it can be determined that a good cleaning effect is exhibited.
[0038]
(effect)
If the cleaning composition having the above-described configuration is used, the first step of attaching the cleaning composition to the cleaning object and holding it for 5 to 10 minutes is performed, and then the cleaning object is placed in still water. Various stains can be removed only by performing the second step of dipping for 5 to 10 minutes.
As described above, by using the cleaning composition of the present invention, water-soluble dirt and oil-soluble dirt can be effectively obtained in a short time without applying mechanical force or other physical force to the object to be cleaned or washing water. Can be removed. For this reason, even when washing silk or wool products, shrinkage can be minimized.
In addition, since it does not contain nonylphenol, alkylbenzene sulfonate, etc. that were included in conventional cleaning compositions, there is little impact on the environment, and the amount of waste water can be greatly reduced and dirt can be removed efficiently, etc. It was possible to provide an extremely excellent textile cleaning method .
[0039]
(Other formulation standards)
The aqueous detergent composition of the present invention effectively removes oil-soluble soils by blending the low-molar surfactant and effectively removes water-soluble soils by the above-molar surfactant. However, in particular, by specifying the amounts of these components, it is possible to exert an effective detergency against both stains.
[0040]
That is, as the combination of the nonionic surfactant, the component amount [a], the component amount [b], the component amount [b], and the component amount [c] It can mix in a predetermined ratio with respect to surfactant amount [A].
That is, from the results in Table 1, when each of [a] / [A], [b] / [A], and [c] / [A] is 20 wt% or more, a good cleaning effect can be exhibited. Recognize.
This is considered to be because the components (a), (b), and (c) are blended in a well-balanced manner, so that even if it is oil-soluble or water-soluble, it exhibits a detergency evenly. .
[0041]
Furthermore, Table 1 shows the component ratios of the eight types of aqueous detergent compositions. From these, the amount [a] of the low molar component (a) and the intermediate molar component (b) are shown. If the sum [a] + [b] of the amount [b] is 50 wt% or more based on the total amount [A] of the nonionic surfactant, oil test cloth and multi-test cloth It can be seen that none of the test results according to the above shows that the test results show good cleaning power.
[0042]
In the cleaning composition of the present invention, the surfactants of the component (a) and the component (b) mainly have a function of solubilizing dirt, and the surfactant of the component (c) It has the function of solubilizing dirt in water. Therefore, it is also possible to prescribe | regulate the mixture ratio of (a) component and (b) component which differ in these functions, and (c) component.
That is, as apparent from Table 1, the sum [a] + [b] of the amount [a] of the component (a) and the amount [b] of the component (b) is the amount [c] of the component (c). Against
It can be seen that if 1 ≦ ([a] + [b]) / [c] ≦ 4, a good cleaning effect is exhibited.
[0043]
Since the water-based cleaning composition for fibers according to the present invention is attached to a cleaning object and immersed in water, dirt is solubilized in water. It is not necessary to contain water in particular. However, if it is a predetermined amount, water can also be included in the cleaning composition from the beginning.
For example, according to the results in Table 1, it can be seen that if the moisture content is 35 wt% or less, good detergency is exhibited.
However, if the amount of water is excessive, heavy oil stains are less likely to be removed. Therefore, the amount is preferably adjusted to 20 wt% or less.
[0044]
In addition, it cannot be overemphasized that the cleaning composition of this invention can contain a fragrance | flavor, a preservative, etc. suitably in addition to the said component.
[0045]
[Table 1]

[0046]
[Table 2]

[0047]
[Table 3]

[0048]
[Brief description of the drawings]
FIG. 1 is a diagram showing a base fabric of a multi test cloth and an oil test cloth before a cleaning test. FIG. 2 is a diagram showing a cleaning test result of Example 1. FIG. 3 is a diagram showing a cleaning test result of Example 2. 4 is a diagram showing the cleaning test results of Example 3. FIG. 5 is a diagram showing the cleaning test results of Example 4. FIG. 6 is a diagram showing the cleaning test results of Example 5. FIG. 7 is the cleaning of Example 6. FIG. 8 is a diagram showing a cleaning test result of Example 7. FIG. 9 is a diagram showing a cleaning test result of Example 8. FIG. 10 is a diagram showing a cleaning test result of Comparative Example 1. FIG. FIG. 12 shows the cleaning test result of Comparative Example 2. FIG. 12 shows the cleaning test result of Comparative Example 3. FIG. 13 shows the cleaning test result of Comparative Example 4. FIG. 14 shows the cleaning test result of Comparative Example 5. FIG. 15 is a diagram showing a cleaning test result of Comparative Example 6. FIG. 16 is a diagram showing a cleaning test result of Comparative Example 7. FIG. FIG. 18 is a diagram showing the cleaning test results of Example 8. FIG. 19 is a diagram showing the cleaning test results of Comparative Example 9. FIG. 19 is a diagram showing the cleaning test results of Comparative Example 10. FIG. Figure

Claims (1)

A method for cleaning a textile product using a composition for direct adhesion cleaning containing the nonionic surfactant described in Chemical Formula 1, a cosolvent and water ,
The nonionic surfactant is (a) the number of added moles n of alkylene oxide is n ≦ 6, and
(B) an alkylene oxide having an added mole number n of 7 ≦ n ≦ 8,
(C) the number of moles of addition n of alkylene oxide is 9 ≦ n,
Each as at least one main component,
The (a) component amount [a], the (b) component amount [b], and the (c) component amount [c] are each 10 wt% or more based on the total amount of the cleaning composition , and The sum [a] + [b] of the component amount [a] (a) and the component amount [b] (b) is 1 ≦ ([a] with respect to the component amount [c] (c). + [B]) / [c] ≦ 4,
The co-solvent is contained such that the ratio [B] / [A] of the amount [B] of the co-solvent to the amount [A] of the nonionic surfactant is 1/3 to 2,
A composition for directly adhering cleaning, wherein the water content is 20 wt% or less,
A method for cleaning a textile product, which is attached to an object to be cleaned without being diluted, held for 5 to 10 minutes, and then immersed in still water for 5 to 10 minutes.
[Chemical 1]
R-O (AO) n-H
R: an alkyl group having 10 to 18 carbon atoms AO: an alkylene oxide having 2 to 3 carbon atoms n: an integer of 2 or more

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