JP2015127382A - Remover for floor polish, and removal method of floor polish - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a remover for floor polish which creates a state where benzyl alcohol and water do not separate and insoluble substance is not generated when the remover is diluted by water.SOLUTION: There is provided a remover for floor polish containing benzyl alcohol and alkali agent, in which the remover for floor polish further contains unsaturated fatty acid which makes the benzyl alcohol soluble to water, and when the remover for floor polish is diluted to a predetermined ratio by water, the benzyl alcohol and the water do not separate, and an insoluble substance is not generated in the diluted remover for floor polish.

Description

The present invention relates to a floor polish release agent and a floor polish release method.

In commercial facilities and company buildings, polymer type floor polish may be applied to protect the floor surface of the floor and to give the floor surface a gloss. If the floor surface is just after the floor polish is applied, the surface of the floor polish film is free from scratches and dirt, so that the floor surface has a glossy appearance.
However, as time passes, the floor polish is worn away due to wear caused by walking or the like, and the gloss is lost. For this reason, it is necessary to periodically clean the surface of the floor polish film and overcoat the floor polish thereon. When the floor polish is repeatedly overcoated in this way, dirt is accumulated, and the gloss is not maintained by cleaning the surface of the floor polish film and by overcoating the floor polish. In such a case, it is necessary to completely peel and remove the floor polish and then apply the floor polish again to form a floor polish film.

The floor polish is removed with a special release agent. The component of the release agent is mainly an alkaline agent such as benzyl alcohol, monoethanolamine or isopropanolamine.
Benzyl alcohol functions as a solvent. When benzyl alcohol penetrates into the floor polish, the floor polish is softened and expanded, and the floor polish is easily peeled off.
The alkaline agent is used to make the release agent alkaline. Since the floor polish is made of a polymer, the polymer is partially decomposed or dissolved by the contact of the alkaline release agent, and as a result, the floor polish is easily peeled off.

The above floor polish release agent is usually used after diluting with water to a predetermined magnification. However, benzyl alcohol has low solubility in water. Therefore, in the diluted floor polish remover, benzyl alcohol and water may be separated. When benzyl alcohol and water are separated, when the floor polish is peeled, a region where the benzyl alcohol contacts and a region where the benzyl alcohol does not contact are formed on the floor polish film. There was a problem that the floor polish could not be peeled off well in the area where benzyl alcohol did not contact. That is, the wettability and the permeability to the floor polish film were not sufficient. In order to solve such a problem, a floor polish remover to which a fatty acid has been added has been proposed. Since the fatty acid has a surface-active action, the wettability and the permeability to the floor polish film could be improved.

As such a floor polish release agent, Patent Document 1 discloses (A) diethylene glycol monomethyl ether, diethylene glycol monoethyl ether, triethylene glycol monomethyl ether, dipropylene glycol monomethyl ether, and 3-methyl-3-methoxy-1-. 20 to 40% by mass of at least one non-amine water-soluble solvent selected from butanol, (B) 10 to 20% by mass of amine-based water-soluble solvent, (C) 20 to 35% by mass of benzyl alcohol, and (D) A floor polish release agent comprising 0.7 to 2% by mass of at least one fatty acid selected from fatty acids and salts thereof is disclosed.
Patent Document 2 includes (A) a surfactant composed of the following (a) to (c): (a) 0.8 to 8% by mass of a side chain fatty acid amine salt, and (b) polyoxyethylene alkylamine. 1 to 7% by mass of a surfactant, (c) 0.02 to 0.5% by mass of a fluorosurfactant, (B) 30 to 60% by mass of benzyl alcohol, and (C) an amine compound 19 to 50% by mass % And (D) water polish release agent containing water is disclosed.

JP 2005-2173 A JP 2008-291178 A

The floor polish remover disclosed in Patent Documents 1 and 2 is diluted with water and used. As described above, these floor polish release agents contain fatty acids in order to improve wettability and permeability to the floor polish film. Saturated fatty acids are used as the fatty acids. When these floor polish removers are diluted with water, benzyl alcohol is dispersed in water in the form of oil droplets and is not sufficiently dissolved, which may cause insoluble matter.
When floor polish is peeled off using a diluted floor polish release agent in which benzyl alcohol is dispersed in oil droplets, there will be parts that come into contact with benzyl alcohol and parts that do not come into contact with the floor polish film. become. Furthermore, due to the surface tension of benzyl alcohol and water, the range of the portion that contacts the benzyl alcohol and the portion that does not contact the benzyl alcohol are locally gathered, resulting in spots. When such spots occur, there is a problem that peeling of the floor polish is insufficient at the portion where benzyl alcohol does not contact. That is, the leveling property and wettability of the release agent for diluted floor polish was not sufficient. In this specification, leveling property means the performance which shows whether release agents, such as benzyl alcohol and an alkali agent apply | coated to the surface of a floor polish film, are uniform thickness. That is, high leveling means a state in which a release agent such as benzyl alcohol or an alkaline agent is applied with a uniform thickness, and the concentration of the release agent is not biased. Low leveling means that the thickness of the applied release agent such as benzyl alcohol or alkaline agent is uneven. When the leveling property is low, a part with a small amount of the release agent such as benzyl alcohol or an alkaline agent and a part with a little separation effect and a part with a large amount of liquid and a part with a large separation effect may occur, or peeling. This means that the concentration of the agent is biased, and the degree of peeling is uneven.
In the present specification, the wettability means the familiarity between benzyl alcohol and the surface of the floor polish film. If the wettability is excellent, benzyl alcohol is not repelled from the surface of the floor polish film by surface tension.

The present invention has been made in view of the above problems, and an object of the present invention is for floor polish in which when diluted with water, benzyl alcohol and water are not separated and insoluble matter is not generated. It is an object of the present invention to provide a floor polish release method using a release agent and a floor polish release agent.

In order to solve the above-mentioned problems, the inventors have conducted intensive studies. The present invention has been completed.

That is, the floor polish release agent of the present invention is a floor polish release agent containing benzyl alcohol and an alkali agent, and the floor polish release agent further dissolves the benzyl alcohol in water. When the floor polish release agent is diluted with water to a predetermined magnification, the benzyl alcohol and the water are not separated, and insoluble matter is generated in the diluted floor polish release agent. It is characterized by not.
Hereinafter, the floor polish release agent diluted with water is also referred to as “diluted floor polish release agent”.

The floor polish remover of the present invention contains an unsaturated fatty acid that solubilizes benzyl alcohol in water.
Therefore, when the floor polish release agent is diluted with water to a predetermined magnification, benzyl alcohol and water are not separated, and no insoluble matter is generated in the diluted floor polish release agent.
Accordingly, when the floor polish is peeled off using the diluted floor polish release agent, the benzyl alcohol comes into contact with the floor polish film uniformly. That is, leveling property and wettability are excellent. Therefore, spots do not occur at the place where benzyl alcohol contacts, and the floor polish can be suitably peeled off.
The floor polish remover of the present invention contains an alkali agent. Therefore, when the floor polish remover of the present invention and the floor polish come into contact with each other, the polymer forming the floor polish is easily decomposed. As a result, the floor polish is easily peeled off.

In the floor polish remover of the present invention, the weight ratio of the benzyl alcohol to the unsaturated fatty acid is preferably benzyl alcohol: unsaturated fatty acid = 3: 1 to 90: 1, and 9: 1 to 60. 1 is more desirable.
When the weight of unsaturated fatty acid is less than 1/90 of the weight of benzyl alcohol, it becomes difficult to sufficiently obtain the effect of solubilizing benzyl alcohol in water, and oil droplets of benzyl alcohol are likely to be generated in the release agent for diluted floor polish. Become. When an attempt is made to peel off the floor polish using such a floor polish release agent, spots are likely to occur at the portion where the floor polish comes into contact with benzyl alcohol. That is, the leveling property and wettability are not easily obtained. Therefore, it becomes difficult to peel off the floor polish suitably.
When the weight of the unsaturated fatty acid exceeds 1/3 of the weight of benzyl alcohol, the effect of solubilizing the benzyl alcohol is difficult to improve. This is disadvantageous in terms of cost. Moreover, the balance with other components will be impaired.

In the floor polish remover of the present invention, the unsaturated fatty acid is preferably liquid at room temperature.
When the unsaturated fatty acid is liquid at room temperature, it can be easily mixed when producing the floor polish remover of the present invention. In addition, the unsaturated fatty acid neutralizes with an alkali agent to form a salt. However, when the unsaturated fatty acid is liquid at room temperature, this neutralization reaction proceeds easily. Therefore, the floor polish remover can be efficiently produced.

In the floor polish remover of the present invention, the unsaturated fatty acid is preferably oleic acid and / or linoleic acid.
When the unsaturated fatty acid is of these types, the effect of solubilizing the benzyl alcohol can be obtained more suitably.

In the floor polish release agent of the present invention, the alkaline agent is preferably at least one selected from the group consisting of monoethanolamine, isopropanolamine, sodium hydroxide, and potassium hydroxide.
When the alkaline agent is of these types, the pH of the release agent for floor polish and the release agent for diluted floor polish can be easily adjusted to a suitable value.

It is desirable that the floor polish remover of the present invention further contains a glycol solvent.
When the glycol-based solvent is contained in the floor polish release agent, the permeability of the floor polish release agent to the floor polish is improved.

It is desirable that the floor polish remover of the present invention further contains a fluorosurfactant.
When the fluorine-based surfactant is contained in the floor polish release agent, the effect of peeling the floor polish is improved.

It is desirable that the floor polish release agent of the present invention further contains an antifoaming agent.
When foam is generated when the floor polish is peeled off, an air layer is formed, the contact efficiency between the floor polish stripping agent and the floor polish is deteriorated, and the effect of stripping the floor polish is not sufficiently exhibited. Normally, when removing floor polish, a floor polish remover is applied to the floor surface, and after a certain period of time, the floor polish is physically performed using a mop, brush, polisher, automatic floor washer, etc. Remove the polish. For example, the polisher has a rotating brush attached to the bottom, and the polisher may cause foaming agent for floor polish to foam. When bubbles are generated, the operation of collecting the waste liquid becomes inefficient. For example, when the liquid is collected by wet vacuum, bubbles may accumulate in the tank and the bubbles may overflow from the tank.
When the antifoaming agent is contained in the floor polish release agent, the generation of bubbles can be suppressed, and the floor polish can be suitably released.

The floor polish release method of the present invention is a floor polish release method using the floor polish release agent of the present invention, wherein the floor polish release agent is diluted with water to a predetermined magnification, and the benzyl A stripping agent for diluted floor polish, which is a solution in which alcohol and water are not separated and insoluble matter is not generated, is obtained, and the floor polish is stripped by using the diluted floor polish stripping agent.

In the floor polish release method of the present invention, the floor polish release agent of the present invention is used. Therefore, the effects described in the description of the floor polish remover of the present invention are achieved.

The floor polish remover of the present invention contains an unsaturated fatty acid that solubilizes benzyl alcohol in water. Therefore, when the floor polish release agent is diluted with water to a predetermined magnification, benzyl alcohol and water are not separated, and no insoluble matter is generated in the diluted floor polish release agent.
Accordingly, when the floor polish is peeled off using the diluted floor polish release agent, the benzyl alcohol comes into contact with the floor polish film uniformly. That is, leveling property and wettability are excellent. Therefore, spots do not occur at the place where benzyl alcohol contacts, and the floor polish can be suitably peeled off.

FIG. 1 is a photograph showing a state where the floor polish release agent according to Example 1 was diluted 10 times with water. FIG. 2 is a photograph showing a state where the floor polish release agent according to Example 2 was diluted 10 times with water. FIG. 3 is a photograph showing a state in which the floor polish release agent according to Example 25 was diluted 10 times with water. FIG. 4 is a photograph showing a state where the floor polish release agent according to Comparative Example 1 is diluted 10 times with water. FIG. 5 is a photograph showing a state where the floor polish release agent according to Comparative Example 7 was diluted 10 times with water. FIG. 6 is a photograph showing a state where the floor polish release agent according to Comparative Example 8 was diluted 10 times with water. FIG. 7 is a photograph showing the foaming state after the foaming release agent according to Example 1 was diluted 10 times with water and subjected to a foaming performance test. FIG. 8 is a photograph showing a foaming state after the foaming release agent according to Example 26 was diluted 10 times with water and subjected to a foaming performance test.

Hereinafter, the floor polish release agent and the floor polish release method of the present invention will be specifically described. However, the present invention is not limited to the following embodiments, and can be applied with appropriate modifications without departing from the scope of the present invention.

The floor polish release agent of the present invention is a floor polish release agent containing benzyl alcohol and an alkaline agent, and further contains an unsaturated fatty acid that solubilizes benzyl alcohol in water.

The floor polish remover of the present invention is usually used after diluted with water.
Since the solubility of benzyl alcohol in water is low, if the floor polish does not contain unsaturated fatty acids, the benzyl alcohol is separated or the benzyl alcohol is dispersed in water in the form of oil droplets and not dissolved. May cause insoluble matter.
When the floor polish is peeled using the diluted floor polish release agent in such a state, a portion that comes into contact with benzyl alcohol and a portion that does not come into contact with benzyl alcohol are generated in the floor polish film. That is, the spots of the part which benzyl alcohol contacts are produced. When such spots occur, peeling of the floor polish becomes insufficient at the portion where benzyl alcohol does not contact.
On the other hand, the floor polish remover of the present invention contains an unsaturated fatty acid. Thereby, benzyl alcohol is solubilized, benzyl alcohol and water are not separated, and an insoluble matter is not generated in the release agent for diluted floor polish. When the floor polish is peeled off using the diluted floor polish release agent, the benzyl alcohol comes into contact with the floor polish film uniformly. That is, since the spots where benzyl alcohol comes into contact are not spotted, the floor polish can be suitably peeled off.

It is surmised that unsaturated fatty acids have a higher ability to solubilize benzyl alcohol than saturated fatty acids for the following reasons.
That is, the unsaturated fatty acid has a double bond in the molecule. It is assumed that benzyl alcohol is easily solubilized because of the high affinity between this double bond and the aromatic ring in benzyl alcohol.
In addition, it is desirable that the floor polish remover of the present invention does not contain saturated fatty acids.

Although it does not specifically limit as a ratio of the benzyl alcohol contained in the peeling agent for floor polishes of this invention, It is desirable that it is 20 to 70 weight%, and it is more desirable that it is 30 to 60 weight%.
When the proportion of benzyl alcohol is less than 20% by weight, it is difficult to obtain the floor polish peeling effect by benzyl alcohol.
When the proportion of benzyl alcohol exceeds 70% by weight, benzyl alcohol is difficult to solubilize in water, and insoluble matter is likely to be generated in the release agent for diluted floor polish.
In addition, the balance with other components is impaired, and the desired performance cannot be obtained.

The ratio of the unsaturated fatty acid contained in the floor polish remover of the present invention is not particularly limited, but is preferably 0.1 to 8% by weight, more preferably 0.5 to 5% by weight. .
When the ratio of unsaturated fatty acid is less than 0.1% by weight, it is difficult to obtain the effect of solubilizing benzyl alcohol.
When the ratio of unsaturated fatty acid exceeds 8% by weight, the effect of solubilizing benzyl alcohol is difficult to improve. This is disadvantageous in terms of cost. Moreover, the balance with other components will be impaired.

In the floor polish remover of the present invention, the weight ratio of benzyl alcohol to unsaturated fatty acid is preferably benzyl alcohol: unsaturated fatty acid = 3: 1 to 90: 1, and 9: 1 to 60: 1. It is more desirable that the ratio is 18: 1 to 40: 1.
When the weight of unsaturated fatty acid is less than 1/90 of the weight of benzyl alcohol, it becomes difficult to sufficiently obtain the effect of solubilizing benzyl alcohol in water, and oil droplets of benzyl alcohol are likely to be generated in the release agent for diluted floor polish. Become. When an attempt is made to peel off the floor polish using such a floor polish release agent, spots easily occur on the portion where the floor polish comes into contact with benzyl alcohol, and the floor polish is preferably difficult to peel off.
When the weight of unsaturated fatty acid exceeds 1/3 of the weight of benzyl alcohol, the effect of solubilizing benzyl alcohol is difficult to improve. This is disadvantageous in terms of cost. Moreover, the balance with other components will be impaired.

Although carbon number of the unsaturated fatty acid contained in the release agent for floor polishes of the present invention is not particularly limited, it is preferably 14-22 and more preferably 16-18.
When the number of carbon atoms of the unsaturated fatty acid is in the above range, benzyl alcohol can be suitably solubilized.

Although it does not specifically limit as an unsaturated fatty acid contained in the release agent for floor polishes of this invention, It is desirable that it is a liquid at normal temperature.
Further, when the unsaturated fatty acid is liquid at room temperature, it can be easily mixed during production. In addition, the unsaturated fatty acid neutralizes with an alkali agent to form a salt. However, when the unsaturated fatty acid is liquid at room temperature, this neutralization reaction proceeds easily. Therefore, the floor polish remover can be efficiently produced.
Examples of unsaturated fatty acids that are liquid at room temperature include oleic acid, linoleic acid, ricinoleic acid, and the like. Among these, oleic acid and / or linoleic acid is desirable.
When these types of unsaturated fatty acids are used, the effect of solubilizing benzyl alcohol can be more suitably obtained.
These types of unsaturated fatty acids may be used alone or in combination of two or more.

The proportion of the alkaline agent contained in the floor polish release agent of the present invention is not particularly limited, but is preferably 10 to 70% by weight, more preferably 15 to 65% by weight, and more preferably 20 to 60% by weight. % Is more desirable, and it is even more desirable that it is 20 to 55% by weight.
When the proportion of the alkaline agent is less than 10% by weight, it becomes difficult to sufficiently decompose the polymer that forms the floor polish.
If the proportion of the alkali agent exceeds 70% by weight, it is difficult to improve the effect of decomposing the polymer that sufficiently forms the floor polish. This is disadvantageous in terms of cost. Moreover, the balance with other components will be impaired.

Although it does not specifically limit as a kind of alkaline agent, It is desirable that it is at least 1 sort (s) chosen from the group which consists of monoethanolamine, isopropanolamine, sodium hydroxide, and potassium hydroxide.
When the alkaline agent is of these types, the pH of the floor polish release agent and the pH of the diluted floor polish release agent can be easily adjusted to suitable values.
The pH of the release agent for floor polish of the present invention is preferably 8 to 14, and more preferably 10 to 13.5.
The above types of alkaline agents may be used alone or in combination of two or more.

The floor polish remover of the present invention may further contain a glycol solvent.
When the glycol-based solvent is contained in the floor polish release agent, the permeability of the floor polish release agent to the floor polish is improved. Therefore, the floor polish is easily peeled off.

Although it does not specifically limit as a ratio of the glycol-type solvent contained in the release agent for floor polishes of this invention, It is desirable that it is 2-20 weight%, and it is more desirable that it is 5-15 weight%.
When the proportion of the glycol solvent is less than 2% by weight, it is difficult to obtain the effect of penetration of the floor polish remover.
When the proportion of the glycol solvent exceeds 20% by weight, it is difficult to obtain the effect of improving the permeability of the floor polish release agent. Furthermore, it becomes difficult to solubilize the diluted solution. Moreover, it becomes disadvantageous in cost. Moreover, the balance with other components will be impaired.

The type of glycol solvent is not particularly limited, but ethylene glycol monotertiary butyl ether, diethylene glycol monomethyl ether, diethylene glycol monoethyl ether, diethylene glycol monobutyl ether, triethylene glycol monomethyl ether, dipropylene glycol monomethyl ether, and 3-methyl -3-Methoxy-1-butanol and the like.
These types of glycol solvents may be used alone or in combination of two or more.

It is desirable that the floor polish remover of the present invention further contains a fluorosurfactant.
When the fluorine-based surfactant is contained in the floor polish release agent, the effect of peeling the floor polish is improved.

Although it does not specifically limit as a ratio of the fluorosurfactant contained in the release agent for floor polishes of this invention, It is desirable that it is 0.01 to 1.0 weight%, 0.1 to 0.6 weight% More desirable.
When the ratio of the fluorosurfactant is less than 0.01% by weight, it becomes difficult to obtain the effect of peeling the floor polish.
If the ratio of the fluorosurfactant exceeds 1.0% by weight, it is difficult to improve the effect of peeling the floor polish. The balance with other ingredients will be impaired. In general, the fluorosurfactant is expensive and disadvantageous in terms of cost.

The type of fluorosurfactant is not particularly limited, but perfluoroalkylcarboxylate (anionic), perfluorotrialkylammonium salt (cationic), perfluoroalkyl compound (amphoteric), perfluoroalkylamine oxide. (Nonionic), perfluoroalkylethylene oxide adduct (nonionic), and perfluoroalkyl-containing polymer (nonionic) are desirable. Moreover, it is desirable that the perfluoroalkyl group in these surfactants has a low carbon number.
These types of fluorosurfactants may be used alone or in combination of two or more.

It is desirable that the floor polish release agent of the present invention further contains an antifoaming agent.
When foam is generated when the floor polish is peeled off, an air layer is formed, the contact efficiency between the floor polish stripping agent and the floor polish is deteriorated, and the effect of stripping the floor polish is not sufficiently exhibited. Normally, when removing floor polish, a floor polish remover is applied to the floor surface, and after a certain period of time, the floor polish is physically performed using a mop, brush, polisher, automatic floor washer, etc. Remove the polish. For example, the polisher has a rotating brush attached to the bottom, and the polisher may cause foaming agent for floor polish to foam. When bubbles are generated, the operation of collecting the waste liquid becomes inefficient. For example, when the liquid is collected by wet vacuum, bubbles may accumulate in the tank and the bubbles may overflow from the tank.
When the antifoaming agent is contained in the floor polish release agent, the generation of bubbles can be suppressed, and the floor polish can be suitably released.

Although it does not specifically limit as a ratio of the antifoamer contained in the release agent for floor polishes of this invention, It is desirable that it is 0.01 to 5.0 weight%, and it is 0.1 to 3.0 weight%. It is more desirable.
When the ratio of the antifoaming agent is less than 0.01% by weight, it is difficult to obtain the effect of suppressing the generation of bubbles. As a result, when the floor polish is peeled off, bubbles are generated, and the effect of peeling off the floor polish of the floor polish remover is hardly exhibited.
When the proportion of the antifoaming agent exceeds 5.0% by weight, the effect of suppressing the generation of bubbles is difficult to improve, which is disadvantageous in terms of cost.

Although it does not specifically limit as a kind of antifoamer, It is desirable that they are a nonionic surfactant, a silicone type antifoamer, and mineral oil. Of these, nonionic surfactants and silicone antifoaming agents are desirable.
Examples of the nonionic surfactant include polyoxyethylene alkylene ether. Examples of the silicone-based antifoaming agent include fluorine-modified silicone.

It is desirable that the floor polish release agent of the present invention further contains a chelating agent.
The floor polish remover of the present invention contains an unsaturated fatty acid. When the floor polish remover of the present invention is diluted to a predetermined concentration with tap water or the like that is normally used, hardness components such as calcium and magnesium contained in tap water and unsaturated fatty acids react to produce metal soap. There is. Even if such a metal soap is produced, the release performance of the release agent for floor polish hardly changes. However, when metal soap is produced, the diluted floor polish remover becomes cloudy, so when an operator looks at such a floor polish remover with the naked eye, is insoluble matter of benzyl alcohol occurring? It is difficult to determine whether metal soap has occurred. In other words, the appearance of the diluted floor polish release agent is not good. In addition, it is difficult to determine not only the appearance problem but also whether the floor polish release agent is appropriately diluted.

When a chelating agent is contained in the floor polish release agent, the chelating agent captures hardness components such as calcium and magnesium contained in tap water and the like, so that metal soap is not generated. Therefore, the above problem can be solved.

Although it does not specifically limit as a ratio of the chelating agent contained in the release agent for floor polishes of this invention, It is desirable that it is 0.01 to 1.0 weight%, and it is 0.1 to 0.5 weight% Is more desirable.
When the ratio of the chelating agent is less than 0.01% by weight, it is difficult to obtain the effect of capturing the hardness component. As a result, metal soap tends to be generated in the diluted floor polish release agent.
When the ratio of the chelating agent exceeds 1.0% by weight, it becomes difficult to improve the effect of capturing the hardness component. Moreover, it becomes disadvantageous in cost.

The type of chelating agent is not particularly limited, and examples thereof include aminocarboxylic acid chelating agents, phosphonic acid chelating agents, and organic acids. Among these, aminocarboxylic acid chelating agents are desirable.
Specific examples of the chelating agent include ethylenediaminetetraacetic acid, disodium ethylenediaminetetraacetic acid, tetrasodium ethylenediaminetetraacetic acid, nitrilotriacetic acid, trisodium nitrilotriacetic acid, methylenephosphonic acid, phosnobutanetricarboxylic acid, gluconic acid, etc. Can be given. Of these, ethylenediaminetetraacetic acid is desirable.

The floor polish remover of the present invention contains, in addition to the above components, dyes, fragrances, preservatives, bleaching agents, corrosion inhibitors, anionic surfactants, amphoteric surfactants, etc. You may include in the range which does not impair an effect.

The floor polish release agent of the present invention is diluted with water and used as a diluted floor polish release agent.
Although the dilution rate in this case is not particularly limited, it is preferably 10 to 30 times.
The type of water used for dilution is not particularly limited, but tap water, soft water, ion exchange water, pure water, purified water, and the like can be used.

In the release agent for diluted floor polish, the proportions of benzyl alcohol, alkali agent, unsaturated fatty acid and water are not particularly limited, but are desirably the following proportions.
Benzyl alcohol: 1.00 to 6.00% by weight
Alkaline agent: 0.67 to 5.50% by weight
Unsaturated fatty acid: 0.02-0.50% by weight
Water: 88.00 to 98.31% by weight
A floor polish can be suitably peeled as it is the said ratio.

In particular, in the above-described release agent for diluted floor polish, the weight ratio of benzyl alcohol to water is preferably benzyl alcohol: water = 1: 15 to 1:98.
When the weight of benzyl alcohol is less than 1/98 of the weight of water, it is difficult to obtain the floor polish peeling effect by benzyl alcohol.
When the weight of benzyl alcohol exceeds 1/15 of the weight of water, the benzyl alcohol is not easily solubilized in water. Further, since the concentration of benzyl alcohol is high, it is dangerous when the release agent for diluted floor polish adheres to the skin or the like.

The pH of the diluted floor polish release agent is not particularly limited, but is preferably pH = 10 to 13.5.
When the pH of the diluted floor polish release agent is less than 10, it is difficult to obtain an effect of decomposing the polymer forming the floor polish.
When the pH of the release agent for diluted floor polish exceeds 13.5, it is dangerous when the release agent for diluted floor polish adheres to the skin or the like.

A method for producing the floor polish remover of the present invention will be described.
The release agent for floor polish of the present invention essentially comprises benzyl alcohol, an alkaline agent and an unsaturated fatty acid, and can be obtained by arbitrarily mixing the other components described above.
When each component is a liquid, it can be produced by mixing and stirring the above components. When each component contains a solid, it can be produced by first dissolving the solid component in water, then adding the other components and stirring and mixing. The order of addition of each component, the order of dissolution, heating, cooling, etc. performed as necessary are not particularly limited, and ordinary methods can be used.

Next, a floor polish peeling method using the floor polish remover of the present invention will be described.

The floor polish release method using the floor polish release agent of the present invention is a floor polish release method using the floor polish release agent of the present invention described above, and the floor polish release agent is used with water at a predetermined magnification. Diluted to obtain a release agent for diluted floor polish, which is a solution in which benzyl alcohol and water are not separated and insoluble matter is not generated, and the floor polish is peeled off using the diluted floor polish remover. is there.
In the following description, the relationship between benzyl alcohol, water, and floor polish will be described in order to facilitate understanding of the effect of the floor polish peeling method of the present invention. However, the alkaline agent contained in the floor polish release agent used in the floor polish release method of the present invention also has an effect of releasing the floor polish.

(A) Dilution of floor polish release agent First, the floor polish release agent is diluted with water.
The dilution factor is not particularly limited, but is preferably 10 to 30 times. Since the type of water for dilution has already been described, description thereof is omitted here.
The floor polish release agent diluted with water becomes a diluted floor polish release agent which is a solution in which benzyl alcohol and water are not separated and insoluble matter is not generated by stirring with a mop or the like.

(B) Peeling of floor polish Next, the release agent for diluted floor polish obtained through the above steps is applied to the floor surface covered with the floor polish.
It does not specifically limit as a coating method, You may use a mop, a brush, a washing machine for automatic floors, etc.
After applying the diluted floor polish remover, the floor polish may be peeled off manually using a mop, brush, or the like, or the floor polish may be peeled off mechanically using a polisher or an automatic floor washer.

Through the above steps, the floor polish can be peeled off.
In the floor polish release method using the floor polish release agent of the present invention, the diluted floor polish release agent does not separate benzyl alcohol and water, and no insoluble matter is generated in the diluted floor polish release agent. It has become. Therefore, benzyl alcohol can be uniformly applied to the floor polish film. That is, benzyl alcohol comes into uniform contact with the floor polish film. Accordingly, no spots are generated at the portion where the benzyl alcohol comes into contact, so that the floor polish can be suitably peeled off.

After the floor polish is peeled by the above process, the following process may be performed as necessary.

(C) Waste liquid recovery After the above step, the waste liquid containing the release agent for diluted floor polish, the peeled floor polish, and other waste is recovered. It is desirable to use a wet vacuum or a floor squeegee for the recovery.

(D) Rinse and dry process After the said process, the floor surface from which floor polish was peeled is rinsed using water, such as a tap water. The rinsing waste liquid is desirably recovered using a wet vacuum, a floor squeegee, or the like, similar to the above-described waste liquid recovery. The floor after rinsing is polished and then dried.

(E) Application of floor polish After the above step, the floor polish is applied to the dried floor surface using a mop or the like so as to have an application amount of 10 to 30 mL / m ² and dried. As the floor polish, a conventional one can be used. By repeating this process 2 to 6 times and recoating the floor polish film, the floor surface becomes glossy.

Examples for more specifically explaining the present invention are shown below, but the present invention is not limited to these examples.

(Floor polish remover)
(Example 1) to (Example 29)
In the formulation shown in Table 1, benzyl alcohol (manufacturer: Likeces), alkaline agent {monoethanolamine (manufacturer: Dow Chemical Company), monoisopropanolamine (manufacturer: Dow Chemical Company), or potassium hydroxide (manufacturer: Asahi Glass) )}, Unsaturated fatty acid, fluorosurfactant (trade name: Surflon S241, manufacturer: AGC Seimi Chemical Co., Ltd.), glycol solvent {diethylene glycol monobutyl ether (trade name: butyl diglycol, manufacturer: Japan) Emulsifier (Ltd.) or ethylene glycol monotertiary butyl ether (manufacturer: Maruzen Petrochemical Co., Ltd.)}, chelating agent {ethylenediaminetetraacetic acid (manufacturer: Akzo Nobel Corp.)}, antifoaming agent {nonionic surface activity Agent (trade name: Adecanol LG-126, manufacturer: ( ) ADEKA) or silicone anti-foaming agent (trade name: Flowlen AO-108, Manufacturer: Kyoeisha Chemical Co.)} to prepare a floor polish stripping agent is mixed with water.
In addition, the numerical value of each component in Table 1 means “% by weight”.

(Comparative Example 1) to (Comparative Example 11)
In the formulation shown in Table 2, benzyl alcohol, monoethanolamine, saturated fatty acid, fluorine-based surfactant (trade name: Surflon S241, manufacturer: AGC Seimi Chemical Co., Ltd.), glycol solvent {diethylene glycol monobutyl ether (trade name: Butyl diglycol, manufacturer: Nippon Emulsifier Co., Ltd.)} and water were mixed to prepare a floor polish release agent.
In addition, since saturated fatty acids other than caprylic acid are solid at normal temperature, each component was mixed after neutralizing the fatty acid with alkali in the system.
In addition, the numerical value of each component in Table 2 means “% by weight”.

The performance of the floor polish remover of each Example and each Comparative Example was evaluated by the following test.

(Stability test of release agent for diluted floor polish)
The floor polish release agents of Examples 1 to 25 and Comparative Examples 1 to 11 were diluted 10 times with tap water, and the state of the diluted floor polish release agent was observed visually after 5 minutes from immediately after dilution. The evaluation criteria are as follows. The results are shown in Table 3.
(Double-circle): It is transparent and the insoluble matter is not produced.
○: Translucent and no insoluble matter is generated.
X: Translucent or cloudy, insoluble matter is generated.

Moreover, the case where Example 1, 2, and 25 and Comparative Examples 1, 7, and 8 are used as a representative example of the external appearance of the diluted floor polish release agent in the stability test of the diluted floor polish release agent is shown in FIGS. It is shown in FIG.
FIG. 1 is a photograph showing a state where the floor polish release agent according to Example 1 was diluted 10 times with water.
FIG. 2 is a photograph showing a state where the floor polish release agent according to Example 2 was diluted 10 times with water.
FIG. 3 is a photograph showing a state in which the floor polish release agent according to Example 25 was diluted 10 times with water.
FIG. 4 is a photograph showing a state where the floor polish release agent according to Comparative Example 1 is diluted 10 times with water.
FIG. 5 is a photograph showing a state where the floor polish release agent according to Comparative Example 7 was diluted 10 times with water.
FIG. 6 is a photograph showing a state where the floor polish release agent according to Comparative Example 8 was diluted 10 times with water.

As shown in FIG. 1, in Example 1 using linoleic acid as an unsaturated fatty acid, the floor polish release agent was transparent, separation of benzyl alcohol and water did not occur, and insoluble matter was generated. There wasn't. That is, benzyl alcohol was solubilized. In Example 1, it is considered that linoleic acid reacts with hardness components such as calcium and magnesium contained in water to produce metal soap. Generally, unsaturated fatty acid metal soaps are insoluble in water, but linoleic acid metal soaps are soluble in water, so it is considered that the floor polish release agent became transparent.
As shown in FIG. 2, in Example 2 using oleic acid as the unsaturated fatty acid, the floor polish release agent is translucent, but separation of benzyl alcohol and water does not occur, and insoluble matter is not present. It did not occur. That is, benzyl alcohol was solubilized. Moreover, it is considered that the reason for being translucent is that oleic acid and a hardness component such as calcium or magnesium contained in water reacted to produce a metal soap of oleic acid.
As shown in FIG. 3, in Example 25 using oleic acid as an unsaturated fatty acid and further using a chelating agent, the floor polish remover was transparent and separation of benzyl alcohol and water did not occur. Insoluble matter was not generated. That is, benzyl alcohol was solubilized. Further, since hardness components such as calcium and magnesium contained in water were captured by the chelating agent, the metal soap of oleic acid was not generated as in Example 2, and the floor polish release agent was considered to be transparent.

On the other hand, as shown in FIGS. 4 to 6, floor polish peeling was performed in Comparative Example 1, Comparative Example 7 and Comparative Example 8 using caprylic acid, stearic acid or isostearic acid which are saturated fatty acids instead of unsaturated fatty acids. The agent was opaque and insoluble matter was generated although separation of benzyl alcohol and water did not occur.

(Wettability test)
(1) Floor polish (trade name: Suisho Grace, manufacturer: Suisho Co., Ltd.) was applied once at 15 ± 2 mL / m ^{2 on a} test panel preparation tile (manufacturer: Tajima Co., Ltd.). A test panel was formed by coating a total of 17 times with a gap of 2 to 3 hours or more.
(2) Wettability test The floor polish release agent of Examples 1 to 25 and Comparative Examples 1 to 11 was diluted 10 times with tap water to obtain a diluted floor polish release agent. Each diluted floor polish release agent was applied to the test panel at a rate of about 200 mL / m ² and allowed to stand at room temperature for 5 minutes. Then, it was confirmed by visual observation that benzyl alcohol was separated on the test panel, and the liquid was agglomerated to show a twist.
(3) Evaluation method Evaluation criteria for wettability are as follows. The results are shown in Table 3.
◯: No oil droplet-like insoluble matter was observed, and the liquid was spread evenly.
(Triangle | delta): The oil-drop-like insoluble matter arises in part, a small crater arises on the surface, and repellency is confirmed.
X: A considerable oil-drop-like insoluble matter was recognized and aggregated, twisted, and the liquid was uneven.

(Peeling performance test)
(1) Preparation of test panel A test panel was prepared in the same manner as the test panel in the wettability test.
(2) Peeling performance test The floor polish release agent of Examples 1 to 25 and Comparative Examples 1 to 11 was diluted 10 times with tap water to obtain a diluted floor polish release agent. Each diluted floor polish remover was applied to the test panel at a rate of 200 mL / m ² and allowed to stand at room temperature for 5 minutes. Thereafter, the surface of the test panel was uniformly rubbed with a scraper with a certain force. Thereafter, the cleaned surface was rinsed with tap water and dried, and the test panel was visually observed.
(3) Evaluation method The evaluation method of the peel performance test is as follows. The results are shown in Table 3.
○: The floor polish was completely peeled off.
Δ: Some floor polish was not peeled off and remained on the test panel.
X: A considerable amount of floor polish was not peeled off and remained on the test panel.

(Bubbling performance test)
(1) The floor polish release agents of Examples 1 to 4 and Examples 26 to 29 were diluted 10 times with tap water to obtain diluted floor polish release agents. 40 mL of each diluted floor polish remover was gently poured into a 200 mL graduated cylinder with a stopcock and stoppered. Thereafter, the measuring cylinder was shaken up and down 10 times in the vertical direction within a range of 30 cm ± 10 cm at a speed of 1 reciprocation per second. Thereafter, the stopper was removed and the mixture was allowed to stand, and after 30 seconds, the volume of the foam was measured from the scale.
(2) Evaluation method The evaluation method of the foaming performance test is as follows. The results are shown in Table 4.
A: The volume of the foam is less than 20 mL. O: The volume of the foam is 20 mL or more to less than 40 mL. Δ: The volume of the foam is 40 mL or more. As a representative example of the appearance of the release agent for diluted floor polish in the foaming performance test, Example 1 and The photograph which shows the state of foaming after conducting the foaming performance test of Example 26 is shown in FIG.7 and FIG.8, respectively.
FIG. 7 is a photograph showing the foaming state after the foaming release agent according to Example 1 was diluted 10 times with water and subjected to a foaming performance test.
FIG. 8 is a photograph showing a foaming state after the foaming release agent according to Example 26 was diluted 10 times with water and subjected to a foaming performance test.

As shown in Table 3, the floor polish release agents of Examples 1 to 25 were all good in the stability test, the wettability test, and the release performance test of the diluted solution. In particular, Examples 1, 3, 5, 7, 9, 11, 13, 15, 17, 19, 21, and 23 using linoleic acid as the unsaturated fatty acid, and oleic acid as the unsaturated fatty acid, and further chelating In Example 25 using the agent, the stability test of the diluted solution was very excellent.
Further, as shown in Table 4, the floor polish release agents of Examples 26 to 29 using an antifoaming agent were very excellent in the foaming performance test.
On the other hand, the floor polish release agents of Comparative Examples 1 to 10 were not good in the dilution liquid stability test, wettability test, and release performance test. In addition, the floor polish release agent of Comparative Example 11 did not contain benzyl alcohol, so it was good in the stability test of the diluted solution, but not good in the wettability test and remarkably inferior in the peel performance test. It was.

Claims (9)

A floor polish remover containing benzyl alcohol and an alkali agent,
The floor polish remover further includes an unsaturated fatty acid that solubilizes the benzyl alcohol in water,
When the floor polish release agent is diluted with water to a predetermined magnification, the benzyl alcohol and the water are not separated, and no insoluble matter is generated in the diluted floor polish release agent. Floor polish remover. 2. The floor polish stripping agent according to claim 1, wherein a weight ratio of the benzyl alcohol to the unsaturated fatty acid is benzyl alcohol: unsaturated fatty acid = 3: 1 to 90: 1. The floor polish remover according to claim 1 or 2, wherein the unsaturated fatty acid is liquid at room temperature. The floor polish remover according to claim 3, wherein the unsaturated fatty acid is oleic acid and / or linoleic acid. The floor polish stripping agent according to any one of claims 1 to 4, wherein the alkaline agent is at least one selected from the group consisting of monoethanolamine, isopropanolamine, sodium hydroxide, and potassium hydroxide. Furthermore, the release agent for floor polishes in any one of Claims 1-5 containing a glycol-type solvent. Furthermore, the floor polish release agent according to any one of claims 1 to 6, further comprising a fluorine-based surfactant. Furthermore, the release agent for floor polishes in any one of Claims 1-7 containing an antifoamer. A floor polish peeling method using the floor polish remover according to any one of claims 1 to 8,
The floor polish release agent is diluted with water to a predetermined magnification to obtain a diluted floor polish release agent that is a solution in which the benzyl alcohol and water are not separated and insoluble matter is not generated,
A method for peeling floor polish, wherein the floor polish is peeled off using the diluted floor polish remover.