JPH09183924A - Agent for removing adherent silicone coating film from surface of glass - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an agent for removing the adherent silicone coating film from the surface of glass uniformly, rapidly and simply without injuring the surface by mixing water with a specified acidic fluoride compound. SOLUTION: Water is mixed with 0.15-15wt.% acidic fluoride compound selected from acidic ammonium fluoride and acidic potassium fluoride, and optionally 0.05-20wt.% organic or inorganic powder having a particle diameter of 0.5-20μm, 1-2 pts.wt., per pts.wt. acidic fluoride compound, ammonium fluoride and 1-2 pts.wt., per pt.wt. acidic fluoride compound, alkali metal fluoride to obtain an agent for removing the adherent silicone coating film from the surface of glass. To remove the silicone coating film from the surface of glass, this agent is sprayed onto the surface to dissolve the film in the water, the liquid component is removed, and the powder is removed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glass film surface-removing silicone film removing agent and a method for removing a silicone film. More specifically, it is firmly adhered to the glass surface of vehicles such as automobiles, aircrafts, ships and trains. A glass surface-adhering silicone film removing agent that can remove a water-repellent silicone film quickly and easily and surely without unevenness, and a silicone film adhering to a glass surface without leaving a glass surface-adhering silicone film removing agent. The present invention relates to a method for removing a silicone coating which can be completely removed.

[0002]

2. Description of the Related Art In recent years, a large number of water repellents have been provided which can improve the water repellency of windshields of automobiles and aircraft. Among these water repellents, a silicone water repellent obtained by dissolving an alkylpolysiloxane in an alcohol containing an acid such as sulfuric acid forms a water repellent silicone film firmly and easily on a glass surface. be able to. This is because the silanol groups on the glass surface and the silanol groups generated in the alkylpolysiloxane undergo a dehydration reaction,
This is because the glass and the alkyl polysiloxane are strongly bonded by a siloxane bond. Therefore, the silicone water repellent is widely used.

However, even if the silicone water repellent is used, the water repellency of the glass surface deteriorates due to physical or chemical factors. Therefore, the silicone film formed on the glass surface is appropriately removed and a new silicone film is formed. It is necessary to form it on the glass surface. Further, when silicone stains adhere to the glass surface due to various factors, it is necessary to remove the stains.

Conventionally, in such a case, the silicone coating was removed from the glass surface as follows. That is, the silicone coating was physically scraped off from the glass surface by polishing the glass surface with water using a dispersion liquid containing fine particles such as silica as an abrasive.

However, the operation of removing such a silicone coating is complicated and requires a lot of labor and time. In addition, such a silicone coating removal operation has a problem that the silicone coating cannot be reliably and uniformly removed from the glass surface.

[0006]

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned conventional problems. Also,
The present invention provides a water-repellent silicone coating firmly adhered to a glass surface of a vehicle such as an automobile, an aircraft, a ship, a train, etc., quickly and easily, without scratching the glass surface, and evenly and reliably. An object of the present invention is to provide a glass surface-adhering silicone film removing agent that can be removed. The present invention is capable of preventing a glass surface from being adversely affected by residual acid fluoride compounds when removing a silicone coating adhered to the glass surface using a composition containing an acid fluoride compound. It is an object of the present invention to provide an adherent silicone film remover. The present invention provides a glass surface-adhering silicone film removing agent capable of removing a silicone film adhering to a glass surface and capable of easily detecting a residue of the glass surface-adhering silicone film removing agent on the glass surface. Is the task. The present invention provides a water-repellent silicone coating firmly adhered to a glass surface of a vehicle such as an automobile, an aircraft, a ship, a train, etc., quickly and easily, without scratching the glass surface, and evenly and reliably. It is an object of the present invention to provide a method for removing a glass surface-adhering silicone film, which can be removed and which can easily detect the remaining of the glass surface-adhering silicone film removing agent.

[0007]

Means of the present invention for solving the above-mentioned problems include (1) at least one kind selected from the group of acidic fluorinated compounds consisting of ammonium acid fluoride and potassium acid fluoride. A glass surface-adhering silicone film remover characterized by containing water and the content of the acidic fluorinated compound is 0.15 to 15% by weight based on the whole, (2) On the other hand, containing at least one kind selected from the group of acidic fluoride compounds consisting of ammonium acid fluoride and potassium acid fluoride, which is 0.15 to 15% by weight, powder, and water. A glass surface-adhering silicone film remover characterized by comprising (3) further containing ammonium fluoride in an amount 1 to 2 times the weight of the acidic fluorinated compound. The glass surface-adhering silicone film removing agent according to claim 1, further comprising (4) an alkali metal fluoride in an amount 1 to 2 times the weight of the acidic fluorinated compound. Item 1 or 2
A glass surface-adhering silicone film removing agent according to
(5) A silicone film, characterized in that the glass surface-adhering silicone film removing agent according to any one of claims 2 to 4 is supplied to a glass surface to remove a liquid component, and then powder adhering to the glass surface is removed. Is the removal method.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION

(Glass surface adhering silicone film removing agent) The glass surface adhering silicone film removing agent of the present invention contains water and a specific acidic fluorinated compound as essential components, and further contains a powder to effectively produce silicone. The film can be removed. Further, the glass surface-adhering silicone film removing agent of the present invention may further contain ammonium fluoride, alkali metal fluoride, and other components, if necessary.

--Water-- The water in the present invention is not particularly limited and may be appropriately selected according to the purpose. For example, tap water, ion exchange water, distilled water, ground water, spring water, Examples include filtered water.

--Acidic Fluorinated Compound-- The acidic fluorinated compound in the present invention is at least one selected from the group consisting of ammonium acid fluoride and potassium acid fluoride. As the acidic fluorinated compound, either one of ammonium acid fluoride and potassium acid fluoride may be used alone, or both may be used in combination.

The acidic ammonium fluoride is also called "acidic ammonium fluoride", "ammonium" or "ammonium bifluoride", and is a substance represented by the general formula: NH ₄ F.HF. The acidic ammonium fluoride is a colorless orthorhombic crystal or a monoclinic crystal.

The acidic ammonium fluoride used in the present invention may be one synthesized from an acidic solution of hydrogen fluoride and liquid ammonia, or may be a commercially available product. As the standard of the acidic ammonium fluoride, industrial chemicals JIS K 1407-78, reagent JIS K 8
817-79 and the like. In the present invention,
Flake-shaped acidic ammonium fluoride may be used as the acidic ammonium fluoride.

The acidic potassium fluoride is "potassium".
Also called "potassium bifluoride", the general formula, KF
-It is a substance represented by HF. The acidic potassium fluoride is a colorless tetragonal crystal, and the standard is Reagent J
There is IS K 8818-79.

The content of the acidic fluorinated compound in the glass surface-adhering silicone film removing agent is usually 0.15 to 1 with respect to the entire glass surface-adhering silicone film removing agent.
5% by weight, preferably 1.5 to 15% by weight, particularly preferably 5 to 12% by weight. When the content is 0.15 to 15% by weight, the object of the present invention can be effectively achieved, and the content is 1.5 to 1
When the content is 5% by weight, the silicone coating can be effectively removed from the glass surface, and when the content is 5 to 12% by weight, the removal effect is advantageous.

In the present invention, the content is 0.15% by weight, 1.5% by weight, 5% by weight, or the content (weight) of ammonium acid fluoride used in any of the examples described later. %) As the lower limit, and
A weight range of 15% by weight, or a range having the upper limit of the content (% by weight) of ammonium acid fluoride used in any of the examples described later may be adopted.

--Powder--Since the glass surface-adhering silicone coating film removing agent according to the present invention contains the specific acidic fluorinated compound and water contained in specific content ratios as essential components, the silicone coating film Although it exerts a strong removal ability of removing glass, it may have a side effect of attacking the glass surface in some cases.

For example, when the glass surface-adhering silicone film removing agent containing the two components is excessively adhered to the glass surface, or the glass surface-adhering silicone film removing agent containing the two components is applied to the glass surface. After that, in the process of evaporating the liquid component, when the acidic fluorinated compound is gradually concentrated on the glass surface, the acidic fluorinated compound may attack the glass surface.

Therefore, when a powder is further added to the glass surface-adhering silicone film removing agent containing the above two components,
The glass surface-adhering silicone film removing agent containing the above two components and this powder solves the above problems. The reason is considered to be as follows. That is, when the glass surface-adhering silicone film removing agent cast on the glass surface is dried, the acidic fluorinated compound is adsorbed and concentrated on the surface of the powder. When the acidic fluorinated compound is adsorbed and concentrated on the surface of the powder, as a result, the amount of the acidic fluorinated compound that will attack the glass surface does not exist, and the glass surface by the acidic fluorinated compound does not exist. The invasion of is extremely small. Therefore, the glass surface-adhering silicone coating film removing agent according to the present invention containing powder can remove the silicone coating film while making the glass surface invasion extremely small. In this respect, the powder according to the present invention is considered to have the action of preventing the invasion of the glass surface by the acidic fluorinated compound.

The advantages of including powder in the glass surface-adhering silicone film removing agent are not limited to the above.

When the glass surface-adhering silicone film removing agent applied to the glass surface is removed, if the glass surface-adhering silicone film removing agent remains on the glass surface, the liquid component is evaporated. Even if it is lost from the glass surface, the contained powder remains on the glass surface. Therefore, a person who operates the glass surface-adhering silicone film removing agent can easily find the unremoved portion of the glass surface-adhering silicone film removing agent by the fact that the powder remains. Then, the operator wipes off the powder remaining part on the glass surface to remove the remaining powder, and finally completely removes the glass surface-attached silicone film removing agent from the glass surface. You can do it. It is extremely important to remove this residual powder. This is because if the glass surface-adhering silicone film removing agent does not contain powder, and if there is a residue of the glass surface-adhering silicone film removing agent on the glass surface, the remaining part is usually transparent. The person remains unnoticed and remains for a long time. Then, since the acidic fluoride compound exists in a concentrated state in the remaining portion, the glass is significantly invaded and the glass surface is scratched. Thus, the powder contained in the glass surface-adhering silicone film removing agent has a function as an indicator to easily find a residue of the glass surface-adhering silicone film removing agent, and to concentrate the acidic fluorinated compound in the powder. And has a function of facilitating the removal of the residual acidic fluorinated compound.

Further, the glass surface-adhering silicone coating film removing agent according to the present invention containing powder has not completely removed the glass surface-adhering silicone coating film removing agent as long as the powder remains on the glass surface. If not, the operator can clearly understand that the powder remaining on the glass surface has a function of urging the operator to continue the removal operation of the glass surface-adhering silicone film removing agent.

As the powder, inorganic powder and / or organic powder can be used.

Examples of the inorganic powder include alumina, calcium carbonate, aluminum hydroxide, magnesium oxide, titanium oxide, zirconium oxide and zinc oxide. Of these, titanium oxide is preferable.

Examples of the organic powder include acrylic powder such as homopolymer powder of methyl methacrylate and copolymer powder of ethylene and methyl methacrylate, nylon powder, polyethylene powder, polyurethane powder, styrene powder, urea. Resin powder, melamine formaldehyde condensate powder, etc. can be mentioned. Among these, acrylic powders, particularly homopolymer powders of methyl methacrylate, are preferable.

The particle size of the powder is preferably such that it does not damage the glass surface and does not cause sedimentation and separation during storage of the glass surface-adhering silicone film removing agent. Is about 20 μm. Such a fine powder has an advantage that it has a color unique to the powder and the presence of the powder remaining on the glass surface can be easily discriminated by the color of the powder.

The content of the powder is preferably such that it does not settle out and separate, and is usually 0.05 to 20% by weight, preferably 0. It is 5 to 10% by weight. When the content is within the above range, the object of the present invention can be effectively achieved.

The glass surface-adhering silicone film removing agent according to the present invention is a chemical bond between silicon in the glass and silicon in the silicone film via oxygen, that is, a siloxane bond. It has a function of cutting off and removing the silicone film, and does not focus on removing the silicone film by scraping off the silicone film with an abrasive. Therefore, the glass surface-adhering silicone film removing agent of the present invention does not need to contain an abrasive.

--Ammonium Fluoride-- In the present invention, the ammonium fluoride can be contained in the glass surface-adhering silicone film removing agent as an auxiliary agent, if necessary. When the glass surface-adhering silicone film removing agent contains the ammonium fluoride as an auxiliary agent, it effectively prevents the acidic ammonium fluoride from decomposing to hydrogen fluoride, and prevents the hydrogen fluoride from volatilizing. Since it is prevented, the ability to remove the silicone coating can be kept high.

The ammonium fluoride is represented by the general formula: NH
It is a substance represented by ₄ F and is a hexagonal acicular crystal.
As the ammonium fluoride in the present invention, a synthesized product or a commercially available product may be used.

The content of ammonium fluoride in the glass surface-adhering silicone film removing agent is 1 to 2 times the content (wt%) of the acidic fluorinated compound in the glass surface-adhering silicone film removing agent. The content (% by weight) is preferable. In this case, it is advantageous in that the silicone coating can be effectively removed from the glass surface.

--Alkali Metal Fluoride-- In the present invention, the alkali metal fluoride can be contained as an auxiliary agent in the glass surface-adhering silicone film removing agent, if necessary. When the glass surface-adhering silicone film removing agent contains the alkali metal fluoride as an auxiliary agent, the alkali metal fluoride effectively prevents decomposition of the ammonium acid fluoride into hydrogen fluoride. Since hydrogen chloride is prevented from volatilizing, the ability to remove the silicone coating can be kept high.

Examples of the alkali metal fluoride include sodium fluoride and potassium fluoride.

The sodium fluoride is also called "sodium fluoride" and is a substance represented by the general formula, NaF. The sodium fluoride is a colorless equiaxed crystal. In the present invention, as the sodium fluoride, a synthesized product or a commercially available product may be used. As the standard of the sodium fluoride, industrial chemicals JIS K 1406-57, reagent JIS K
8821-79 and the like. In the present invention, pellet sodium fluoride may be used as the sodium fluoride.

When the sodium fluoride is used as an auxiliary agent, since the sodium fluoride has a low solubility in water, a part of it does not dissolve in water and becomes solid in the glass surface-adhering silicone film removing agent. However, since this dispersed solid can function as an abrasive, there is no practical problem.

The potassium fluoride is a substance represented by the general formula, KF. The potassium fluoride is a bulky fine powder. In the present invention, as the potassium fluoride, a synthesized product or a commercially available product may be used.

When potassium fluoride is used as an auxiliary agent, since the potassium fluoride has a high solubility in water, it does not become a solid in the glass surface-adhering silicone film removing agent and does not disperse. When the alkali metal fluoride is dissolved in water, it can prevent decomposition and volatilization of the acidic ammonium fluoride.

The content of the alkali metal fluoride in the glass surface-adhering silicone film removing agent is 1 to 2 times the content (wt%) of the acidic fluorinated compound in the glass surface-adhering silicone film removing agent. A certain content (wt%) is preferred. In this case, it is advantageous in that the silicone coating can be effectively removed from the glass surface.

--Other components-- Other components in the present invention are not particularly limited as long as the object of the present invention is not impaired, but various components such as alcohol, surfactants, preservatives, stabilizers and the like can be used. Additives can be mentioned. By adding the above-mentioned other components to the glass surface-adhering silicone film removing agent according to the purpose, the characteristics of the glass surface-adhering silicone film removing agent can be further enhanced, or new characteristics can be added to the original characteristics. You can

-Alcohol-Examples of the alcohol include monohydric alcohols and polyhydric alcohols.

Examples of the monohydric alcohols include methanol, ethanol, n-propanol and 2-
Propanol, n-butanol, 2-methylpropanol, 2-butanol, 2-methyl-2-propanol,
n-pentanol, 3-methylbutanol, 2-methyl-1-butanol, 2-methyl-2-butanol, 2,
2-dimethylbutanol, n-hexanol, n-octanol, 2-octanol, n-decanol, n-dodecanol, n-tetradecanol, n-hexadecanol, n-octadecanol and the like can be mentioned.

Examples of the polyhydric alcohols include 1,2-ethanediol, 1,2-propanediol, 1,3-propanediol, 1,4-butanediol, 2,3-dimethyl-butanediol, 1, 2, 3-
Propane triol etc. are mentioned.

The content of the alcohol in the glass surface-adhering silicone film removing agent is usually 10% by weight.
It is as follows.

-Surfactant- Examples of the surfactant include anionic surfactants, cationic surfactants, amphoteric surfactants and nonionic surfactants.

Examples of the anionic surfactant include organic acid salts such as carboxylate and sulfonate,
Examples thereof include sulfuric acid ester salts and phosphoric acid ester salts.

Examples of the carboxylate include sodium laurate, potassium laurate, sodium myristate, sodium palmitate, sodium stearate, sodium oleate, potassium oleate, ether carboxylate and the like.

Examples of the sulfonate include higher alkyl sulfonates, α-olefin sulfonates, higher fatty acid ester sulfonates, dialkyl sulfosuccinates, higher fatty acid amide sulfonates, and alkyl allyl sulfones. Examples thereof include acid salts such as alkylbenzene sulfonates, alkylnaphthalene sulfonates, and formalin condensates of alkylallyl sulfonates.

Examples of the sulfate ester salt include, for example:
Higher alcohol sulfate ester salt, secondary higher alcohol sulfate ester salt, alkyl ether sulfate ester salt, alkyl aryl ether sulfate ester, alkyl sulfate ester salt, sulfate ester salt of higher fatty acid ester, sulfate ester salt of higher fatty acid alkylolamide, sulfuric acid Examples include fossil oil.

Examples of the phosphoric acid ester salt include sodium didecyl phosphate, sodium polyoxyethylene lauryl ether phosphate, sodium polyoxyethylene cetyl ether phosphate, sodium polyoxyethylene oleyl ether phosphate, and polyoxyethylene alkylphenyl ether. Sodium phosphate etc. are mentioned.

Examples of the cationic surfactant include amine salts and quaternary ammonium salts.

Examples of the amine salt include alkylamine salts, polyamines, aminoalcohol fatty acid derivatives and the like.

Examples of the quaternary ammonium salt include alkyl quaternary ammonium salts, cyclic quaternary ammonium salts, quaternary ammonium salts having a hydroxyl group, quaternary ammonium salts having an ether bond, and quaternary ammonium salts having an amide bond. Examples include salt.

Examples of the amphoteric surfactant include, for example,
N-lauryl β-alanine, N-stearyl β-alanine, N, N, N-trimethylaminopropionic acid, N-
Hydroxyethyl N, N-dimethylaminopropionic acid, N-methyl N, N-dihydroxyethylaminopropionic acid, N, N, N-trihydroxyethylaminopropionic acid, N-lauryl N, N-dimethylaminopropionic acid, N -Myristyl N, N-dimethylaminopropionic acid, N-palmityl N, N-dimethylaminopropionic acid, N-stearyl N, N-dimethylaminopropionic acid, N-hexyl N, N-dimethylaminoacetic acid, N-octyl N, N-dimethylaminoacetic acid, N-decyl N, N-dimethylaminoacetic acid, N-
Undecyl N, N-dimethylaminoacetic acid, N-lauryl N, N-dimethylaminoacetic acid, N-myristyl
N, N-dimethylaminoacetic acid, N-palmityl N, N
-Dimethylaminoacetic acid, N-stearyl N, N-dimethylaminoacetic acid, 1-pyridinium betaine, 1-α-picolinium betaine and the like can be mentioned.

Examples of the nonionic surfactant include ether type nonionic surfactants, ether ester type nonionic surfactants, ester type nonionic surfactants, block polymer type nonionic surfactants, and nitrogen-containing compounds. Type nonionic surfactants and the like.

Examples of the ether type nonionic surfactants include single chain length polyoxyethylene ether type ether type nonionic surfactants; polyoxyethylene fatty alcohol ether, polyoxyethylene alkyl allyl ether, polyoxy. Examples thereof include polyoxyethylene alkyl or alkyl allyl ethers such as ethylene lanolin alcohol; and ethylene oxide derivatives of alkylphenol formalin condensates.

Examples of the ether ester type nonionic surfactant include ester bonds such as polyoxyethylene sorbitan fatty acid ester, polyoxyethylene glyceryl monofatty acid ester, polyoxyethylene propylene glycol fatty acid ester, and polyoxyethylene sorbitol fatty acid ester. And polyoxyethylene ethers containing natural oils and fats and polyoxyethylene derivatives of waxes.

Examples of the ester type nonionic surfactant include polyoxyethylene fatty acid ester and polyhydric alcohol ester.

Examples of the block polymer type nonionic surfactants include pluronic type nonionic surfactants, tetronic type nonionic surfactants, block polymers containing an alkyl group, and the like.

Examples of the nitrogen-containing nonionic surfactant include polyoxyethylene fatty acid amide, alkylolamide, polyoxyalkylamine and the like.

Among these surfactants, anionic surfactants are preferable, and organic acid salts, alkyl lactates,
N-acyl amino acid salts and alkyl ether carboxylates are preferred. The anionic surfactant is generally supplied as a sodium salt or an aqueous solution thereof.

The content of the surfactant in the glass film-adhering silicone film removing agent is preferably 5% by weight or less.

(Production of Glass Surface Adhering Silicone Film Removing Agent) The glass surface adhering silicone film removing agent of the present invention can be suitably produced, for example, as follows. First, a predetermined amount of the water is mixed with a predetermined amount of the crystalline powder of the specific acidic fluorinated compound and stirred to prepare a solution. Next, this solution is mixed with a predetermined amount of the powder, and further, if necessary, ammonium fluoride, the alkali metal fluoride, and the other components are mixed and stirred to obtain a desired glass surface-adhered silicone coating. A scavenger can be prepared. Further, which component is mixed in what order is not limited to the above-described procedure.

The mixing method and the stirring method are not particularly limited, and the methods known per se can be used.

(Method for Removing Silicone Film) The glass surface-adhering silicone film removing agent of the present invention can remove the silicone film adhered to the glass surface as follows.

The glass surface-adhering silicone film removing agent of the present invention is sprayed or applied on the glass surface. Preferably, the glass surface-adhering silicone film removing agent uniformly wets the entire glass surface. Then, the reaction of 4HF + SiO ₂ → SiF ₄ + 2H ₂ O proceeds, and the silicone coating having a siloxane bond on the glass surface is dissolved in water. If you leave the glass surface wet with the silicone film remover on the glass surface and leave it as it is,
Since the side glasses and the like are inclined or arranged almost vertically, the glass surface-adhering silicone film removing agent flows down. As it flows down, the silicone coating attached to the glass surface also flows down.

When the glass surface-adhering silicone film removing agent contains no powder, a large amount of water is sprinkled on the glass surface on which the glass surface-adhering silicone film removing agent has flowed down, and the glass surface is kept separated from it. It is good practice to wash off any residual silicone coating and any residual glass coating adherent on the glass surface.

When the glass surface-adhering silicone film removing agent contains powder, if the glass surface-adhering silicone film removing agent remains on the glass surface, the glass surface-adhering silicone film removing agent is removed. The powder remains attached to the residual site. That is, the powder in the glass surface-adhering silicone film removing agent has a function of detecting the remaining glass surface-adhering silicone film removing agent. Therefore, water is intensively flown down onto the glass surface to which the powder adheres. This completely removes the residual glass surface-adhering silicone coating remover from the glass surface.
Further, if there is a residual silicone coating on the glass surface, powder may be adsorbed to the silicone coating, so that the residual silicone coating can be easily found.

It is most preferable that the glass surface-adhering silicone film removing agent is added to the glass surface so as to form a uniform film, and then the glass surface is washed with a large amount of water as described above. However, there is also a usage mode in which a sponge or cloth is impregnated with a glass surface-adhering silicone film removing agent, and the glass surface is rubbed with the sponge or cloth to remove the silicone film on the glass surface.

[0068]

EXAMPLES Examples and comparative examples of the glass surface-adhering silicone film removing agent according to the present invention will be described below.
The present invention is not limited to the following embodiments.

(Examples 1 to 13 and Comparative Examples 1 to 4) Glass surface-adhering silicone film removing agents having the compositions shown in Table 1 were prepared. In the preparation, a predetermined amount of water shown in Table 1 is added with a predetermined amount of ammonium acid fluoride or potassium acid fluoride, ammonium fluoride, sodium fluoride or potassium fluoride, and mixed and stirred. I went by. The following evaluations were performed on the obtained glass surface-adhering silicone film removing agent.

<Evaluation> A glass plate (5 × 10 × 0.5 cm) coated with a water repellent (sold by: Taiho Kogyo Co., Ltd., “Rain Up Liquid”) was used as a test piece.
A silicone coating is formed on the surface of the glass plate by the water repellent.

Sponge made of expanded polyethylene (3 × 3 ×
0.5 g) of the sample, 5 g of the glass surface-adhering silicone film removing agent is applied to the surface of the test piece coated with the water repellent agent with a uniform force. After drying,
Tap water is poured onto the surface, and the water-repellent state of the surface is visually observed. This operation was repeated, and when the water repellency of the surface disappeared, Table 1 shows the number of times of application and the surface state of the surface visually.

In Table 1, x in the column of the number of times of rubbing means water-repellent state even after rubbing 20 times or more, and ○ in the column of surface state indicates no turbidity or cloudiness. , Means that it was in a clear state.

Comparative Examples 5 to 6 Evaluations were made in the same manner as in Example 1 except that the commercially available abrasive type oil film removing agents shown in Table 1 were used, and the results are shown in Table 1.

Comparative Examples 7 to 9 Evaluations were made in the same manner as in Example 1 except that the liquid type oil film removing agents shown in Table 1 were used, and the results are shown in Table 1.

[0075]

[Table 1]

(Examples 14 to 26) Glass surface-adhering silicone film removing agents having the compositions shown in Table 2 were prepared.
In the preparation, a predetermined amount of water shown in Table 1 is added with a predetermined amount of ammonium acid fluoride or potassium acid fluoride, powder, ammonium fluoride, sodium fluoride, potassium fluoride, and mixed. -It was performed by stirring. The following evaluations were performed on the obtained glass surface-adhering silicone film removing agent.

<Evaluation> A glass plate (5 × 10 × 0.5 cm) coated with a water repellent (sold by: Taiho Kogyo Co., Ltd., “Rain Up Liquid”) was used as a test piece.
A silicone coating is formed on the surface of the glass plate by the water repellent.

Sponge made of expanded polyethylene (3 × 3 ×
0.5 g) of the sample, 5 g of the glass surface-adhering silicone film removing agent is applied to the surface of the test piece coated with the water repellent agent with a uniform force. Next, tap water is poured onto the surface, and the water-repellent state of the surface is visually observed.
This operation was repeated, and when the water repellency of the surface disappeared, Table 1 shows the number of times of application and the surface state of the surface visually.

In Table 1, in the column of the number of times of rubbing, x means that the film was water-repellent even after rubbing 20 times or more, and in the column of the surface condition, ◯ indicates no turbidity or cloudiness. , Means that it was in a clear state.

[0080]

[Table 2]

Further, since it contained the powder, it was possible to easily find the silicone coating film-removing agent remaining on the glass surface and the silicone coating film adhering to the glass surface, and to remove them reliably.

[0082]

According to the present invention, the above-mentioned conventional problems can be solved. That is, the composition of the present invention is a water-repellent silicone coating firmly adhered to the glass surface of vehicles such as automobiles, aircraft, ships, trains, etc. quickly and easily, and without scratching the glass surface. It is possible to provide a glass surface-adhering silicone film removing agent that can be removed evenly and reliably. In particular, if powder is contained, even if there is a residue of the glass surface-adhering silicone film removing agent on the glass surface after treatment, the remaining part can be easily detected, and water flows down to the remaining part. By doing so, the remaining portion can be easily removed.

In the removing method of the present invention, the silicone coating adhered to the glass surface is removed using a composition containing an acidic fluorinated compound and powder. In the removal method of this invention,
Since the powder adsorbs the residual acidic fluorinated compound, it is possible to prevent the glass from being adversely affected by the residual acidic fluorinated compound after the removal treatment. Furthermore, by finding the remaining powder on the surface of the glass after the treatment, it is possible to easily detect the remaining part of the removing agent, and by washing away the remaining part of the powder with water, the remaining acidic fluorinated compound Can be easily removed. Therefore, according to the removing method of the present invention, it is possible to remove the silicone coating on the glass surface quickly and easily, and without scratching the glass surface, without unevenness.

Claims (5)

[Claims] 1. Containing at least one selected from the group of acidic fluorinated compounds consisting of acidic ammonium fluoride and potassium acidic fluoride, and water, and the content ratio of said acidic fluorinated compound is based on the whole. 0.1 to 15% by weight of the total amount is 0.1 to 15% by weight of the glass surface-adhering silicone film removing agent. 2. At least one selected from the group of acidic fluorinated compounds consisting of ammonium acid fluoride and potassium acid fluoride, which is 0.15 to 15% by weight based on the whole, and a powder. And a glass surface-adhering silicone film removing agent. 3. The weight ratio of the acidic fluorinated compound is 1.
The glass surface-adhering silicone film removing agent according to claim 1 or 2, further comprising ˜2 times the weight of ammonium fluoride. 4. 1 based on the weight of the acidic fluorinated compound
The glass surface-adhering silicone coating film removing agent according to any one of claims 1 to 3, further comprising a double weight of alkali metal fluoride. 5. The glass surface-adhering silicone film removing agent according to any one of claims 2 to 4 is supplied to the glass surface to remove the liquid component, and then the powder adhering to the glass surface is removed. Method for removing silicone coating.