JP5092130B2 - Water and oil repellent antifouling glass plate, method for producing the same and automobile using the same - Google Patents

Description

The present invention relates to a glass plate having a highly durable water / oil repellent / antifouling coating formed on the surface thereof. Specifically, the present invention relates to a glass plate for windows of automobiles and buildings that require water and oil repellent and antifouling functions. Further, the present invention relates to an automobile using the same.

It is already well known that a chemisorbed liquid consisting of a fluorocarbon group-containing chlorosilane-based adsorbent and a non-aqueous organic solvent can be used for chemical adsorption in the liquid phase to form a monomolecular water-repellent chemisorbed film. (For example, refer to Patent Document 1).

The principle of production of a chemisorbed monolayer in such a solution is to form a monolayer using a dehydrochlorination reaction between active hydrogen such as hydroxyl groups on the substrate surface and chlorosilyl groups of chlorosilane-based adsorbents. It is in.
Japanese Patent Laid-Open No. 02-258032

However, since the conventional chemical adsorption film uses only a chemical bond between the adsorbent and the substrate surface, there is a problem that the wear resistance is poor. Further, in the method using a chlorosilane-based surfactant, hydrochloric acid is generated during film formation, and thus there is a problem that the production must be performed in an isolated place equipped with a special dehydrochlorination facility.

The present invention is a glass plate for automobiles and buildings where water and oil repellent and antifouling functions are required, and has durability such as abrasion resistance and weather resistance, water-drop-off property (also referred to as water slidability), and antifouling properties. The purpose is to improve. In addition, when forming a water / oil / oil repellent antifouling film on a glass plate, it does not generate hydrochloric acid (or generates only a small amount of hydrochloric acid), durability such as abrasion resistance and weather resistance, and water droplet separation water. An object is to form a film having excellent antifouling properties (also referred to as water slidability).

A first invention provided as a means for solving the above-mentioned problems is a glass plate in which a highly durable water-repellent / oil-repellent antifouling film is formed on a glass surface , wherein the film is a fluorinated film . A first substance containing a carbon group, a hydrocarbon group and a silyl group (hereinafter referred to as a long chain substance mainly composed of a fluorocarbon group and a hydrocarbon group ) , a fluorocarbon group, a hydrocarbon group and a silyl group. A second substance different from the first substance (hereinafter referred to as a short chain substance mainly composed of a fluorocarbon group, a hydrocarbon group, and a silyl group ) and a third substance (hereinafter referred to as a siloxane group ). , A substance having a siloxane group as a main component ) is formed, and the molecular length of the second substance is shorter than the molecular length of the first substance. It is a water / oil repellent antifouling glass plate.

According to a second invention, in the first invention, the molecular length of a long-chain substance mainly composed of a fluorocarbon group and a hydrocarbon group is composed mainly of a fluorocarbon group, a hydrocarbon group and a silyl group. It is a water- and oil-repellent and antifouling glass plate characterized by being at least twice the molecular length of a short-chain substance.

According to a third invention, in the first and second inventions, the long chain substance mainly composed of a fluorocarbon group and a hydrocarbon group has a side chain containing the fluorocarbon group and the hydrocarbon group. It is a water- and oil-repellent antifouling glass plate.

According to a fourth aspect of the present invention, in the first to third aspects of the present invention, a short-chain material mainly composed of a fluorocarbon group and a hydrocarbon group, a short chain composed mainly of a fluorocarbon group, a hydrocarbon group, and a silyl group. A water- and oil-repellent and antifouling agent characterized in that a chain substance is bonded and fixed to the silica film and / or the glass plate surface via the silyl group in a silica film composed of a siloxane group as a main component. Glass plate.

According to a fifth aspect of the present invention, in the first to fourth aspects of the present invention, a long chain substance mainly composed of a fluorocarbon group and a hydrocarbon group, a short chain composed mainly of a fluorocarbon group, a hydrocarbon group, and a silyl group. A water- and oil-repellent and antifouling glass plate, wherein a chain substance and a substance mainly composed of a siloxane group are bonded to each other or individually on the glass plate surface via a silyl group and a siloxane group, respectively. is there.

According to a sixth invention, in the first to fifth inventions, a long-chain material mainly comprising a fluorocarbon group and a hydrocarbon group, a fluorocarbon group, and a carbonization contained in the water / oil repellent / antifouling coating. The molecular composition ratio of the short chain substance mainly composed of hydrogen group and silyl group and the substance mainly composed of siloxane group is 1:10:10 to 1: 0.1: 0.1 The water- and oil-repellent antifouling glass plate described in 1.

A seventh invention is the glass plate according to any one of the first to sixth inventions, wherein a water repellent and oil repellent antifouling coating is formed on the surface, wherein the coating contains at least a fluorocarbon group and a hydrocarbon group. A water and oil repellent and antifouling glass plate comprising a long chain substance as a main component and having a critical surface energy of 5 to 20 mN / m controlled.

According to an eighth invention, in the first to seventh inventions, the long chain substance mainly composed of a fluorocarbon group and a hydrocarbon group is composed mainly of an organic fluorine-containing ether group or an organic fluorine-containing polyether group. A water- and oil-repellent antifouling glass plate characterized by being a long-chain substance.

According to a ninth invention, in the first to eighth inventions, the organic fluorine-containing ether group or the organic fluorine-containing polyether group is a functional group represented by the following formula (Chemical Formula 1 or Chemical Formula 2): It is a water and oil repellent antifouling glass plate.

A tenth invention is the water- and oil-repellent antifouling glass plate according to any one of the first to ninth inventions, wherein the water- and oil-repellent antifouling coating is formed through an alkali barrier film. is there.

An eleventh invention is the water / oil repellent antifouling glass plate according to any one of the first to tenth inventions, wherein the composite film further contains a methylsilyl group.

In a twelfth aspect of the invention, a fourth substance containing a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group (hereinafter referred to as a main component containing a fluorocarbon group and a hydrocarbon group and containing an alkoxysilyl group) on at least the glass surface. that long chain materials.) (1) and the fifth material different from and said fourth material comprises a fluorocarbon group and a hydrocarbon group and an alkoxysilyl group (hereinafter, fluorocarbon group and a hydrocarbon group and alkoxy that short-chain material mainly composed of silyl group.) (2) and _{(AO) 3 Si (OSi (} OA) 2) p OA (p is 0 or an integer, a is an alkyl group, OA is may be Cl or NCO )) (Hereinafter referred to as a substance having an alkoxysilyl group as a main component ) (3) Contact with and react with a composite film-forming solution obtained by diluting a silanol condensation catalyst with an organic solvent to make the water repellent Oil-repellent antifouling composite film Look including the step of forming, in the fifth material (2) molecular length the fourth method for manufacturing a water-repellent, oil-repellent antifouling glass plate, wherein the shorter than the molecular length of materials (1) is there.

The thirteenth invention is mainly composed of a long-chain substance (1) mainly comprising a fluorocarbon group and a hydrocarbon group and containing an alkoxysilyl group, a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group on at least the glass surface. A water-repellent, oil-repellent, and antifouling property is obtained by contacting and reacting a short-chain substance (2) as a component, a substance (3) containing an alkoxysilyl group as a main component, and a complex film-forming solution in which a silanol condensation catalyst is diluted with an organic solvent. forming a composite film, said saw including a step of washing off or wiping removed with excess solution of organic solvent of the glass surface, wherein the molecular length of the long chain substances short chain materials (2) (1 This is a method for producing a water- and oil-repellent and antifouling glass plate characterized by being shorter than the molecular length .

A fourteenth invention is the twelfth and thirteenth invention according to the twelfth and thirteenth inventions, a long-chain substance (1) comprising a fluorocarbon group and a hydrocarbon group as main components and an alkoxysilyl group, a fluorocarbon group and a hydrocarbon group, and The molecular mixing ratio of the short chain substance (2) mainly composed of an alkoxysilyl group and the substance (3) mainly composed of an alkoxysilyl group is set to 1:10:10 to 1: 0.1: 0.1 A method for producing a water- and oil-repellent and antifouling glass plate characterized by comprising:

The underlined portion in the correction indicates a corrected portion.

According to a fifteenth aspect, in the twelfth to fourteenth aspects, the organic fluorine-containing ether group or the organic group-containing substance is used as the long chain substance (1) comprising at least a fluorocarbon group and a hydrocarbon group as main components and an alkoxysilyl group. A method for producing a water- and oil-repellent and antifouling glass plate, comprising using a long-chain material containing a fluorine polyether group and an alkoxysilyl group.

According to a sixteenth aspect, in the fifteenth aspect, a substance represented by the following formula (Chemical Formula 3 or Chemical Formula 4) is used as a long chain substance containing an organic fluorinated ether group or an organic fluorinated polyether group and an alkoxysilyl group. Use

CF ₃ — (CF ₂ ) _o — (CH ₂ ) ₂ —Si (OA) ₃ (subscript o is a short chain substance (2) mainly composed of a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group. (AO) ₃ Si (OSi (OA) ₂ ) _p OA (p is an integer, A is an alkyl group, and OA may be Cl or NCO.) 0 or an integer, A may be an alkyl group, and OA may be Cl or NCO.) A method for producing a water- and oil-repellent and antifouling glass plate.

According to a seventeenth aspect, in the fifteenth aspect, a substance represented by the following formula (Chemical Formula 5) is used as a long chain substance containing an organic fluorine-containing ether group or an organic fluorine-containing polyether group and an alkoxysilyl group.

CF ₃ — (CF ₂ ) _o — (CH ₂ ) ₂ —Si (OA) ₃ (subscript o is a short chain substance (2) mainly composed of a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group. (AO) ₃ Si (OSi (OA) ₂ ) _p OA (P is 0 or an integer, A is an alkyl group) .) Is used for producing a water- and oil-repellent and antifouling glass plate.

An eighteenth invention is the twelfth to seventeenth invention, in which instead of the silanol condensation catalyst, a ketimine compound, or an organic acid, an aldimine compound, an enamine compound, an oxazolidine compound, an aminoalkylalkoxysilane compound, or TiO ₂ is used. A method for producing a water- and oil-repellent and antifouling glass plate characterized by using a metal oxide.

According to a nineteenth aspect, in the twelfth to seventeenth aspects, the silanol condensation catalyst includes a ketimine compound, or a metal oxide such as an organic acid, an aldimine compound, an enamine compound, an oxazolidine compound, an aminoalkylalkoxysilane compound and / or TiO _2. A method for producing a water- and oil-repellent and antifouling glass plate characterized by using a mixture of materials.

A twentieth invention is a method for producing a water- and oil-repellent and antifouling glass plate according to the twelfth to nineteenth inventions, wherein a fluorocarbon organic solvent is used as the organic solvent.

A twenty-first invention is the water- and oil-repellent and antifouling glass according to any one of the twelfth to twentieth inventions, wherein a silica film is formed in advance on the glass plate surface as an alkali barrier film before the composite film is formed. It is a manufacturing method of a board.

A twenty-second invention is a method for producing a water- and oil-repellent and antifouling glass plate according to the twelfth to twenty-first invention, wherein the composite film is heated at 250 to 450 ° C.

According to a twenty-third aspect of the invention, in the twelfth to twenty-first aspect of the invention, there is provided a water / oil / oil / repellency antifouling glass plate characterized in that after the formation of the composite film, the film is further treated with a solution in which a substance containing methylsilyl groups is dissolved It is a manufacturing method.

According to a twenty-fourth aspect of the invention, there is provided an automobile equipped with a glass plate on which a highly durable water / oil repellent / antifouling coating is formed as a window glass, wherein the water / oil repellent / antifouling coating is at least a fluorocarbon. A composite film containing a long-chain substance mainly composed of a group and a hydrocarbon group, a short-chain substance mainly composed of a fluorocarbon group, a hydrocarbon group and a silyl group, and a substance mainly composed of a siloxane group. It is a characteristic car.

A twenty-fifth invention is the automobile according to the twenty-fourth invention, wherein the composite film is formed through an alkali barrier film.

A twenty-sixth invention is the automobile according to the twenty-fourth and twenty-fifth inventions, wherein the composite film further contains a methylsilyl group.

More specifically, the present invention mainly comprises a long-chain substance (1) mainly comprising at least a fluorocarbon group and a hydrocarbon group and containing an alkoxysilyl group, a fluorocarbon group, a hydrocarbon group, and an alkoxysilyl group. The glass plate surface is brought into contact with and reacted with a composite film forming solution obtained by diluting a short chain substance (2) as a component, a substance (3) having an alkoxysilyl group as a main component, and a silanol condensation catalyst with an organic solvent, to make the water and water repellent. Or a long-chain substance (1) mainly comprising at least a fluorocarbon group and a hydrocarbon group and containing an alkoxysilyl group, and a fluorocarbon group and a hydrocarbon group; A short-chain substance (2) mainly comprising an alkoxysilyl group, a substance (3) mainly comprising an alkoxysilyl group, and a silanol condensation catalyst are diluted with an organic solvent. The surface of the glass plate is brought into contact with each other to form a film, and the surface of the glass plate surface is washed and removed using an organic solvent. A glass plate on which an antifouling coating is formed, wherein the coating comprises a long chain substance mainly composed of a fluorocarbon group and a hydrocarbon group, a fluorocarbon group, a hydrocarbon group, and a silyl group as a main component. The present invention is to manufacture and provide a water- and oil-repellent and antifouling glass plate, which is a composite film containing a short-chain substance and a substance mainly composed of a siloxane group.

Here, the molecular length of a long-chain substance mainly composed of a fluorocarbon group and a hydrocarbon group is more than twice the molecular length of a short-chain substance mainly composed of a fluorocarbon group, a hydrocarbon group and a silyl group. In this case, it is advantageous that the durability of the composite membrane and the water repellency (also referred to as water slidability) can be improved simultaneously.

In addition, if a long-chain material mainly composed of a fluorocarbon group and a hydrocarbon group has a side chain containing a fluorocarbon group and a hydrocarbon group, the durability of the composite membrane and water separation performance can be further improved. It is convenient to improve.

Further, a long chain substance mainly composed of a fluorocarbon group and a hydrocarbon group and a short chain substance mainly composed of a fluorocarbon group, a hydrocarbon group and a silyl group are composed of a substance mainly composed of a siloxane group. Bonding and fixing to the silica film and / or the glass plate surface via the silyl group in the silica film is advantageous in improving weather resistance.

Furthermore, a long chain substance mainly composed of a fluorocarbon group and a hydrocarbon group, a short chain substance mainly composed of a fluorocarbon group, a hydrocarbon group, and a silyl group, and a substance mainly composed of a siloxane group, It is convenient to improve weather resistance when they are bonded to each other or individually on the surface of the glass plate via silyl groups and siloxane groups, respectively.

In addition, a long chain material mainly composed of a fluorocarbon group and a hydrocarbon group, and a short chain material mainly composed of a fluorocarbon group, a hydrocarbon group, and a silyl group, contained in the water / oil repellent and antifouling film, When the molecular composition ratio of the substance having a siloxane group as a main component is 1:10:10 to 1: 0: 0, it is possible to control the sliding property of water droplets adhering to the water / oil repellent / antifouling glass plate. Convenient.

Further, a glass plate having a surface on which a water / oil repellent / antifouling coating is formed, wherein the coating contains a long chain substance mainly composed of at least a fluorocarbon group and a hydrocarbon group. When the energy is controlled to 5 to 20 mN / m, it is convenient to control the sliding property of water droplets attached to the glass plate.

In addition, a long chain substance mainly composed of a fluorocarbon group and a hydrocarbon group is a long chain substance mainly composed of an organic fluorine-containing ether group or an organic fluorine-containing polyether group having a fluorocarbon group and a hydrocarbon group in the side chain. A chain substance is advantageous in improving the durability of the coating.

Furthermore, when the organic fluorine-containing ether group or the organic fluorine-containing polyether group is a functional group represented by the following formula (Chemical Formula 1 or Chemical Formula 2), durability can be improved, which is convenient.

Moreover, when the water / oil repellent / antifouling coating is formed via an alkali barrier film, it is advantageous in that the weather resistance can be further improved.
Further, when the composite film further contains a methylsilyl group, it is advantageous because the sliding property of water droplets attached to the glass plate can be reduced.

At this time, a long-chain material (1) mainly containing a fluorocarbon group and a hydrocarbon group and containing an alkoxysilyl group and a short-chain material containing a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group as main components ( When the molecular mixing ratio of 2) and the substance (3) having an alkoxysilyl group as a main component is set to 1:10:10 to 1: 0: 0, water droplets attached to the water and oil repellent and antifouling glass plate This is advantageous in controlling the sliding property of

Further, as a long-chain substance (1) mainly comprising at least a fluorocarbon group and a hydrocarbon group and containing an alkoxysilyl group, a long-chain substance containing an organic fluorine-containing ether group or an organic fluorine-containing polyether group and an alkoxysilyl group When used, it is advantageous in that the wear resistance of the coating can be improved.

Further, as a long chain substance containing an organic fluorine-containing ether group or organic fluorine-containing polyether group and an alkoxysilyl group, a substance represented by the following formula (Chemical Formula 3 or Chemical Formula 4) is used,

CF ₃ — (CF ₂ ) _o — (CH ₂ ) ₂ —Si (OA) ₃ (subscript o is a short chain substance (2) mainly composed of a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group. (AO) ₃ Si (OSi (OA) ₂ ) _p OA (p is an integer, A is an alkyl group, and OA may be Cl or NCO.) Use of 0 or an integer, A may be an alkyl group, and OA may be Cl or NCO. This is advantageous because the water droplet falling angle and wear resistance can be controlled simultaneously.

In addition, as a long chain substance containing an organic fluorine-containing ether group or an organic fluorine-containing polyether group and an alkoxysilyl group, a substance represented by the following formula (Formula 5) is used.

CF ₃ — (CF ₂ ) _o — (CH ₂ ) ₂ —Si (OA) ₃ (subscript o is a short chain substance (2) mainly composed of a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group. (AO) ₃ Si (OSi (OA) ₂ ) _p OA (P is 0 or an integer, A is an alkyl group) )) Is advantageous because it can simultaneously control the water drop falling angle and wear resistance.

Furthermore, when a ketimine compound, or an organic acid, an aldimine compound, an enamine compound, an oxazolidine compound, an aminoalkylalkoxysilane compound, or a metal oxide such as TiO ₂ is used instead of the silanol condensation catalyst, the treatment time can be shortened. convenient.

In addition, when a ketimine compound, or organic acid, aldimine compound, enamine compound, oxazolidine compound, aminoalkylalkoxysilane compound and / or TiO ₂ or other metal oxide is used in combination with the silanol condensation catalyst, the treatment time can be further shortened. Convenient.

Furthermore, using a fluorinated carbon-based organic solvent or a chlorine-containing fluorinated carbon-based organic solvent as the organic solvent is advantageous for uniformly dissolving the substance represented by the above formulas (Chemical Formulas 2 and 3).

Further, if a silica film is formed as an alkali barrier film on the surface of the glass plate in advance before forming the composite film, it is convenient because the film density and water resistance can be improved at the same time. In addition, heating at 250 to 450 ° C. after the formation of the composite film is advantageous because it can improve the weather resistance of the coating.

Further, after the formation of the composite film, it is convenient to further reduce the water drop falling angle by treating with a solution in which a substance containing a methylsilyl group is dissolved.

An automobile equipped with a glass plate on which a highly durable water / oil repellent / antifouling coating is formed as a window glass, wherein the water / oil repellent / antifouling coating comprises at least a fluorocarbon group and a hydrocarbon. A composite film containing a long-chain substance mainly composed of a group, a short-chain substance mainly composed of a fluorocarbon group, a hydrocarbon group and a silyl group, and a substance mainly composed of a siloxane group is visible outside the vehicle in the rain. This is preferable in terms of safe driving.

Moreover, when the composite film is formed via an alkali barrier film, weather resistance can be improved, which is convenient.
Furthermore, when the composite membrane further contains a methylsilyl group, it is advantageous because the water drop sliding property can be improved.

As described above, in the water / oil / oil repellent and antifouling glass plate of the present invention and the method for producing the same, a long chain substance mainly comprising at least an organic fluorine-containing ether group or an organic fluorine-containing polyether group on the glass plate surface. By forming a water- and oil-repellent antifouling film containing water, it is possible to provide a glass plate that satisfies both high abrasion resistance, water drop sliding resistance and weather resistance at the same time. This improves the safety, so that it can be used safely even in rainy weather.

The present invention relates to a long-chain substance (1) mainly comprising at least a fluorocarbon group and a hydrocarbon group and containing an alkoxysilyl group, and a short-chain substance mainly comprising a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group. (2) Water repellent / oil repellent antifouling composite film by reacting glass plate surface with a composite film forming solution obtained by diluting an alkoxysilyl group-containing substance (3) and a silanol condensation catalyst with an organic solvent. Or a long-chain substance (1) containing at least a fluorocarbon group and a hydrocarbon group as main components and containing an alkoxysilyl group and a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group as main components. The glass plate surface is brought into contact with a composite film forming solution obtained by diluting a short chain substance (2), a substance (3) containing an alkoxysilyl group as a main component, and a silanol condensation catalyst with an organic solvent. A highly durable water / oil repellent / antifouling coating was formed on the surface by the step of forming the coating and the step of cleaning or removing the excess solution on the surface of the glass plate using an organic solvent. It is a glass plate, and the coating comprises a long chain substance mainly composed of a fluorocarbon group and a hydrocarbon group, a short chain substance mainly composed of a fluorocarbon group, a hydrocarbon group, and a silyl group, and a siloxane group. The present invention manufactures and provides a water- and oil-repellent and antifouling glass plate, which is a composite film containing a substance as a main component.

If the water and oil repellent and antifouling glass plate is attached to an automobile, visibility outside the vehicle in rainy weather can be improved and an automobile capable of safe driving even in rainy weather can be provided. Although not mentioned above, the present invention can be applied to a glass plate for a top plate of an electromagnetic cooker, and if used, an electromagnetic cooker having excellent antifouling properties can be provided.

Hereinafter, the details of the glass plate (water / oil / oil repellent / antifouling glass plate) excellent in water / oil repellent / antifouling property of the present invention will be described with reference to examples.
In the following examples, the molecular composition ratio means a molar ratio unless otherwise specified. Further, “%” not specifically mentioned means “% by weight”. In addition, this invention is not limited at all by these Examples.

First, a glass plate 1 for an automobile was prepared, washed thoroughly and dried. On the other hand, as a long chain substance (1) having at least a fluorocarbon group and a hydrocarbon group as main components and an alkoxysilyl group, a fluorocarbon group and a hydrocarbon group are present on the side chain represented by the following formula (Chemical Formula 6). Using a long-chain substance containing an organic fluorine-containing ether group or organic fluorine-containing polyether group and alkoxysilyl group,

CF ₃ — (CF ₂ ) ₇ — (CH ₂ ) ₂ —Si (OCH ₃ ) ₃ is used as the short chain substance (2) mainly composed of a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group, and alkoxysilyl is used. Si (OCH ₃ ) ₄ is used as the substance (3) mainly containing a key group, dibutyltin oxide is used as the silanol condensation catalyst, and 0.01, 0.01, 0.003, and 0.00005 M / L, respectively. Thus, a composite film forming solution was prepared by dissolving in a pentafluorobutane solvent (chlorine-containing fluorocarbon organic solvent) containing 30% dichloropentafluoropropane.

The glass plate 1 was immersed in this composite film-forming solution in normal air (relative humidity 53%, 65% in another experiment was satisfactory), reacted for 1 hour, and immediately taken out from the solution. When the excess composite film-forming solution on the surface is removed by washing with chloroform and taken out into the air, the long-chain substance 2 and the fluorine containing the organic fluorine-containing ether group or organic fluorine-containing polyether group as the main components as shown in FIG. The composition ratio of the short-chain substance 3 mainly composed of carbonized hydrocarbon group, hydrocarbon group and silyl group and substance 4 mainly composed of siloxane group is about 1: 1: 0.3, and between the fluorocarbon groups A composite film 5 having a network thickness of about 3 nm with siloxane written in a mesh shape could be formed on the surface of the glass plate 1.

Here, since the surface of the glass plate contains a large number of adsorbed water and hydroxyl groups of natural oxide, the glass plate surface and the long-chain substance containing the organic fluorine-containing ether group or organic fluorine-containing polyether group and alkoxysilyl group are fluorinated. The ≡Si (OCH ₃ ) group of the short chain substance (2) mainly composed of carbonized hydrocarbon group, hydrocarbon group and alkoxysilyl group and substance (3) mainly composed of alkoxysilyl group is An organic fluorine-containing ether group or organic fluorine-containing group chemically reacted with each other or the surface of the glass plate through reaction of the alcohol and the adsorbed water in the presence of a silanol condensation catalyst (in this case, de-CH ₃ OH). A long chain substance mainly composed of a polyether group, a short chain substance mainly composed of a fluorocarbon group, a hydrocarbon group and a silyl group, and a siloxane group as a main component. A composite film containing the material to be formed was formed on the glass plate surface.

Since the film thickness of the composite film at this time was about nanometer, the transparency of the glass plate was not impaired at all. In addition, the water droplet contact angle on the glass plate surface is approximately 113 degrees (critical surface energy is about 7 mN / m) regardless of the presence or absence of the cleaning process, and the water and oil repellency and antifouling properties are higher than those of Teflon (registered trademark) coats. Could be granted. Moreover, the fall angle | corner at the time of dripping a 50 microliter water drop was 12 degree | times.

Since this composite film is covalently bonded to the glass plate surface via a siloxane bond, as shown in FIG. 2, in the abrasion test, even after rubbing 6000 times under a load of 600 g / cm ² , The water droplet contact angle could be maintained at 109 degrees or more. This condition corresponds to the condition of wiping the surface hundreds of thousands of times with fabric.

The reason why the wear resistance of the composite film is greatly improved is considered to be that long-chain substances mainly composed of organic fluorine-containing ether groups or organic fluorine-containing polyether groups protrude from the surface of the composite film. It was. Therefore, in order to satisfy this condition, the molecular length of a long-chain substance mainly composed of a fluorocarbon group and a hydrocarbon group is shorter than that of a short-chain substance mainly composed of a fluorocarbon group, a hydrocarbon group and a silyl group. It was concluded that more than twice the molecular length is desirable.
In this process, hydrochloric acid was not generated because only the alkoxysilane-based chemical was used as the film forming material.

(Comparative Example 1)
As a reference, in Example 1, an organic fluorine-containing ether group or organic fluorine-containing polyether group and alkoxy which are long-chain substances (1) mainly composed of a fluorocarbon group and a hydrocarbon group and containing an alkoxysilyl group A short chain substance (2) mainly comprising a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group is excluded from a long chain substance containing a silyl group, and CF ₃ — (CF ₂ ) ₇ — (CH ₂ ) ₂ — Si (OCH ₃ ) ₃ and the substance (3) mainly composed of an alkoxysilyl group is Si (OCH ₃ ) ₄ , and a short substance mainly composed of a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group. When the concentration of the chain substance (2) and the substance (3) mainly composed of alkoxysilyl groups is 0.01 and 0.003 M / L, respectively, and other conditions are made under the same conditions as in Example 1, Initial water droplet contact angle is 109 It became. Moreover, the result of the water droplet contact angle change in the abrasion resistance test is shown in comparison with FIG.

(Comparative Example 2)
Further, in Example 1, an organic fluorine-containing ether group or organic fluorine-containing polyether group and alkoxysilyl which are long-chain substances (1) mainly composed of a fluorocarbon group and a hydrocarbon group and containing an alkoxysilyl group. without including material (3) composed mainly of long chain materials and alkoxysilyl key group containing a group, short-chain material mainly containing hydrocarbon group and an alkoxysilyl group and fluorocarbon group (2) is CF _{3 - (CF 2) 7 - (} CH 2) 2 -Si (OCH 3) _3, and other conditions when the prototype in all same condition as in example 1, the initial contact angle of water droplet became 112 degrees. Moreover, the result of the water droplet contact angle change in the abrasion resistance test of the coating is shown in comparison with FIG.

  As is apparent from FIG. 2, the organic fluorine-containing ether group or organic fluorine-containing polyether group and alkoxysilyl group, which are long-chain substances (1) containing a fluorocarbon group and a hydrocarbon group as main components and an alkoxysilyl group. Except for long-chain materials containing, the initial water droplet contact angle is at a practical level, but it can be seen that the wear resistance is considerably deteriorated.

And a long-chain material containing an organic fluorine-containing ether group or an organic fluorine-containing polyether group and an alkoxysilyl group, which is a long-chain material (1) comprising a fluorocarbon group and a hydrocarbon group as main components and an alkoxysilyl group. Even when both of the substances (3) containing the alkoxysilyl group as a main component are excluded, the initial water droplet contact angle is at a practical level, but it can be seen that the wear resistance is greatly deteriorated.

On the other hand, when the composite film forming solution is removed from the composite film forming solution and wiped with a waste cloth containing ethanol, the film thickness is about 15 nm and the initial water droplet contact angle is about 110 degrees (the critical surface energy is about 8 mN / m). ) Could be formed. In addition, the wear resistance at this time was not significantly different from the case of cleaning.

In this example, the method of immersing in the composite film forming solution was used, but there is no problem with any of brush coating, roll coating, spray coating, and the glass and the composite film forming solution are substantially kept for a certain period of time. A coating with similar performance was obtained if contacted.
Further, an ethoxy group instead of a methoxy group, or a Cl or NCO group, although the reaction was different, could be formed almost similarly.

When the respective concentrations were 0.01, 0.01, 0.01, 0.00005 M / L and other conditions were the same, the composition ratio was approximately 1: 1: 1, and the film thickness was A composite film excellent in abrasion resistance having an initial water droplet contact angle of about 102 degrees (critical surface energy of about 20 mN / m) was formed at about 5 nm.

Here, the surface energy of the glass plate on which the water / oil / oil repellent / anti-fouling composite film is formed is an organic-containing material which is a long chain substance (1) containing fluorocarbon groups and hydrocarbon groups as main components and alkoxysilyl groups. Long-chain substances containing fluorine ether groups or organic fluorine-containing polyether groups and alkoxysilyl groups; short-chain substances mainly containing fluorocarbon groups, hydrocarbon groups and alkoxysilyl groups (2); and alkoxysilyl groups as main ingredients The surface energy can be controlled to about 20 to 5 mN / m by changing the charged composition in the range of 1:10:10 to 1: 0: 0, and the water droplet contact angle Could be adjusted. Furthermore, if the preparation composition was changed in the range of 1:10:10 to 1: 0.1: 0.1, the wear resistance could be secured at the same time while controlling the water droplet contact angle.

Further, a composite form was formed through an alkali barrier film (hereinafter referred to as silica film 6) formed with a composition of 0: 0: 1 in order to prevent alkali eluted from the glass substrate in advance (FIG. 3). In this case, the density of the fluorocarbon group of the composite film can be improved as compared with the case where there is no silica film, and the wear resistance is further improved 2 to 3 times.

Here, after the composite film was formed, the weather resistance could be further improved by heating at 250 to 450 ° C. for about 30 minutes. If the heating temperature was 250 to 300 ° C., there was no problem even if heating was performed in normal air, but if it was 320 to 450 ° C., in an atmosphere substantially free of oxygen in order to prevent oxidation of the film. It was necessary to do in.

Further, after the formation of the composite film, for example, trimethylmethoxysilane ((H ₃ C) ₃ SiOCH ₃ ) is used as a substance further containing a methylsilyl group, and dibutyltin oxide is used as a silanol condensation catalyst. When the same treatment is performed with a solution dissolved in nonane so as to be 00005 M / L, since the hydroxyl group is partially contained in the composite film, the hydroxyl group and trimethylmethoxysilane undergo a dealcoholization reaction, and FIG. As shown in FIG. 2, a water / oil repellent / antifouling film 8 containing methylsilyl groups 7 could be formed. In addition, in the film produced in this way, the falling angle could be reduced by 8 to 3 degrees with 50 μL of water droplets compared to the composite film before being treated with the treatment liquid containing methylsilyl groups.

In Example 1, after the immersion reaction, the non-aqueous organic solvent is evaporated without being removed from the solution and washed (in this case, heating the glass plate at 60 to 100 ° C. can accelerate the evaporation of the solvent). And the evaporation time can be shortened.), A long chain substance mainly composed of an organic fluorine-containing ether group or an organic fluorine-containing polyether group, a fluorocarbon group, a hydrocarbon group, and a silyl group. A composite film having a composition ratio of the short chain substance and the substance mainly composed of a siloxane group of about 1: 1: 0.3 and a film thickness of about 30 nm could be formed on the surface of the glass plate.

Here, in the composite film forming solution, the glass plate surface contains a large number of hydroxyl groups of adsorbed water and natural oxide, so that the main component is the fluorocarbon group and hydrocarbon group, and alkoxysilyl. The main chain is a long chain substance containing an organic fluorine-containing ether group or organic fluorine-containing polyether group and an alkoxysilyl group, and a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group. The ≡Si (OCH ₃ ) group of the short chain substance (2) and the substance (3) mainly composed of an alkoxysilyl group is de-alcoholized in the presence of a silanol condensation catalyst in the presence of a silanol condensation catalyst. If de-CH 3 _OH) react with the glass plate whole surface over each other or the surface and chemically bonded to the organic fluorine-containing ether group or an organic fluorine polyether A composite film containing a long chain material mainly composed of a ruthenium group, a short chain material mainly composed of a fluorocarbon group, a hydrocarbon group and a silyl group, and a material mainly composed of a siloxane group is formed on the surface of the glass plate. did.

Further, when the solvent is removed in the air and the solvent is evaporated, the long chain substance containing the organic fluorine-containing ether group or the organic fluorine-containing polyether group and the alkoxysilyl group remaining on the glass plate surface, the fluorocarbon group, the hydrocarbon group, and the alkoxy The short-chain substance (2) mainly composed of silyl groups and the substance (3) mainly composed of alkoxysilyl groups are hydrolyzed with moisture in the air to form an organic fluorine-containing material formed on the glass plate surface. A composite film containing a long-chain material mainly composed of an ether group or an organic fluorine-containing polyether group, a short-chain material mainly composed of a fluorocarbon group, a hydrocarbon group and a silyl group, and a material mainly composed of a siloxane group In combination with a long-chain substance mainly composed of an organic fluorine-containing ether group or an organic fluorine-containing polyether group, a fluorocarbon group, a hydrocarbon group, and a silyl group. Polymeric composite film comprising a material mainly composed of chain material and siloxane groups are formed on the glass plate surface.

Although the film thickness of the composite film obtained at this time is on the order of several tens of nanometers, it was not at a level that impairs the transparency of the glass plate. In addition, the water droplet contact angle on the glass plate surface is about 105 degrees (critical surface energy is about 15 mN / m) regardless of the presence or absence of the cleaning process, and the water and oil repellency and antifouling property of Teflon (registered trademark) or higher Could be granted.
Moreover, the abrasion test result was further improved about 10 times compared with Example 1.

In Example 1, a coating film was produced in the same manner except for the short chain substance (2) mainly composed of a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group.
In this case, naturally, a composite film having a film thickness of about 5 nm is formed on the surface of the glass plate, including a long-chain substance mainly composed of an organic fluorine-containing ether group or an organic fluorine-containing polyether group and a substance mainly composed of a siloxane group. did it.

At this time, since the film thickness of the composite film was about nanometer, the transparency of the glass plate was not impaired at all. In addition, the water droplet contact angle on the glass plate surface is approximately 110 degrees (critical surface energy is about 10 mN / m) regardless of the presence or absence of the cleaning process, and the water and oil repellency and antifouling property of Teflon (registered trademark) or higher. Could be granted.
Further, in the wear test, almost the same result as in Example 1 was obtained.

In Example 1, a film was produced in the same manner except for the substance (3) having an alkoxysilyl group as a main component.
In this case, of course, the film thickness including a long chain material mainly composed of an organic fluorine-containing ether group or an organic fluorine-containing polyether group and a short chain material mainly composed of a fluorocarbon group, a hydrocarbon group, and a silyl group is substantially reduced. A 4 nm composite film could be formed on the glass plate surface.

At this time, since the film thickness of the composite film was about nanometer, the transparency of the glass plate was not impaired at all. In addition, the water droplet contact angle on the glass plate surface is approximately 114 degrees (critical surface energy is about 6 mN / m) regardless of the presence or absence of the cleaning process, and water repellent that is much superior to Teflon (registered trademark) Co. Oil repellency and antifouling properties could be imparted.
In the wear test, the deterioration was somewhat faster than in Example 1, but almost the same result was obtained.

In Example 1, the coating film was formed in the same manner except for the short chain substance (2) mainly composed of fluorocarbon group, hydrocarbon group and alkoxysilyl group and the substance (3) mainly composed of alkoxysilyl group. Manufactured.
In this case, naturally, a coating having a film thickness of about 3 nm was formed on the surface of the glass plate with the long-chain long-chain substance (1) mainly composed of the organic fluorine-containing ether group or the organic fluorine-containing polyether group.

At this time, since the film thickness of the composite film was about nanometer, the transparency of the glass plate was not impaired at all. In addition, the water droplet contact angle on the glass plate surface is approximately 116 degrees (critical surface energy is about 5 mN / m) regardless of the presence or absence of the cleaning process, and water repellency that is remarkably superior to Teflon (registered trademark) Co. Oil repellency and antifouling properties could be imparted.

In the abrasion test, although the deterioration was somewhat faster than that in Example 1, it was a coating that could be used at a practical level.

Furthermore, in Example 1, a ketimine compound or a metal oxide such as TiO ₂ , an organic acid, an aldimine compound, an enamine compound, an oxazolidine compound, or an aminoalkylalkoxysilane compound could be used in place of the above silanol condensation catalyst. .

For example, in place of the silanol condensation catalyst described in Example 1, the ketimine compound (H3 from Japan Epoxy Resin and Silaace S340 from Chisso was used, but the performance was almost the same). When used in concentration, the reaction time could be shortened to 30 minutes.

Furthermore, in Example 1, the above-mentioned silanol condensation catalyst and ketimine compound, or metal oxide such as TiO ₂ , organic acid, aldimine compound, enamine compound, oxazolidine compound, aminoalkylalkoxysilane compound are used at 1: 9 to 9: When mixed with 1 and used, the reaction time could be further shortened.
Specifically, when the above-mentioned silanol condensation catalyst concentration is halved in Example 1 and the above-mentioned ketimine compound (eg, S340) is equimolarly mixed (1: 1), the reaction time is shortened to 20 minutes. did it.

In all the examples described above, as the silanol condensation catalyst, a carboxylic acid metal salt, a carboxylic acid ester metal salt, a carboxylic acid metal salt polymer, a carboxylic acid metal salt chelate, a titanate ester, and a titanate ester chelate are used. Is available. More specifically, stannous acetate, dibutyltin dilaurate, dibutyltin dioctate, dibutyltin diacetate, dioctyltin dilaurate, dioctyltin dioctate, dioctyltin diacetate, stannous dioctanoate, lead naphthenate, cobalt naphthenate , Iron 2-ethylhexenoate, dioctyltin bisoctylthioglycolate, dioctyltin maleate, dibutyltin maleate polymer, dimethyltin mercaptopropionate polymer, dibutyltin bisacetylacetate, dioctyltin bisacetyl Laurate, tetrabutyl titanate, tetranonyl titanate, and bis (acetylacetonyl) dipropyl titanate can be used.

Further, the ketimine compound that can be used is not particularly limited. For example, 2,5,8-triaza-1,8-nonadiene, 3,11-dimethyl-4,7,10-triaza-3,10- Tridecadiene, 2,10-dimethyl-3,6,9-triaza-2,9-undecadiene, 2,4,12,14-tetramethyl-5,8,11-triaza-4,11-pentadecadiene, 2, , 4,15,17-tetramethyl-5,8,11,14-tetraaza-4,14-octadecadiene, 2,4,20,22-tetramethyl-5,12,19-triaza-4,19 -There is trieicosadiene.

Further, the organic acid that can be used is not particularly limited, but there are, for example, formic acid, acetic acid, propionic acid, lactic acid, malonic acid, and the like, which have almost the same effects.

When forming a film by evaporating the solvent of the composite film forming solution, the lower the boiling point of the non-aqueous solvent used in the composite film forming solution is, the more convenient it is because it can be removed by evaporation earlier. About 50-150 degreeC was good.

On the other hand, when post-cleaning is performed, the higher the boiling point of the fluorocarbon organic solvent used in the composite film forming solution is, the more stable it is.

The fluorocarbon-based organic solvent includes a chlorofluorocarbon-based solvent, Fluorinert (product of 3M), Afludo (product of Asahi Glass), etc., and these may be used alone or mixed well. If it is a thing, you may combine 2 or more types. Further, it is also possible to add a chlorine-containing fluorinated carbon-based organic solvent as it is or an organic chlorine-based solvent such as chloroform. Furthermore, as an adsorbing solvent, water and alcohol (the composition ratio of water and alcohol is 2: 1 to 10: 1 by volume, and the type of alcohol is ethanol, but propanol, butanol, and ethylene glycol are also used. In the case of using a mixed solvent of 1), a silanol condensation catalyst or a co-catalyst such as ketimine cannot be used. A film could be formed.

Furthermore, as the organic solvent for washing, it is possible to use a hydrocarbon solvent that does not contain water, or a fluorocarbon solvent or a silicone solvent, and those having a boiling point of 50 to 300 ° C. are particularly suitable for use. It was suitable.

Specific examples include petroleum naphtha, solvent naphtha, petroleum ether, petroleum benzine, isoparaffin, normal paraffin, decalin, industrial gasoline, kerosene, dimethyl silicone, phenyl silicone, alkyl-modified silicone, polyether silicone, etc. Can do.

Furthermore, the long-chain substance containing an organic fluorine-containing ether group or organic fluorine-containing polyether group and an alkoxysilyl group, which is a long-chain substance (1) containing a fluorocarbon group and a hydrocarbon group as main components and containing an alkoxysilyl group The following formula (Chemical Formula 3 or Chemical Formula 4) could be used. Further, although the light resistance was somewhat worse, substances represented by the following formula (Chemical Formula 5) could be used, but those having an average molecular weight of about 1000 to 5000 were easy to use.

More specifically, substances represented by the following formula (Chemical Formula 7) and Formula (Chemical Formula 8) can be used.

Furthermore, (AO) ₃ Si (OSi (OA) ₂ ) _p OA (P is 0 to 10, A is an alkyl group of a methyl group or a til group, OA as the substance (3) having an alkoxysilyl group as a main component May be Cl or NCO), but the following substances (1) to (14) are easy to use.

(1) Si (OCH ₃ ) ₄
(2) SiH (OCH ₃ ) ₃
(3) SiH ₂ (OCH ₃ ) ₂
(4) (CH ₃ O) ₃ Si (OSi (OCH ₃ ) ₂ ) _m OCH ₃
(5) Si (OC ₂ H ₅ ) ₃
(6) SiH (OC ₂ H ₅ ) ₃
(7) SiH ₂ (OC ₂ H ₅ ) ₂
(8) (H ₅ C ₂ O) ₃ Si (OSi (OC ₂ H ₅ ) ₂ ) _m OC ₂ H ₅
Here, m represents an integer of 1 to 6.

The water and oil repellent and antifouling glass plate prepared under the same conditions as the glass plate prepared in Example 1 was used for a passenger car front window glass (also referred to as a windshield, an inclination angle of about 45 degrees), and side window glass (an inclination angle of about 70 degrees). ), Was installed as a rear window glass (tilt angle of about 30 degrees), and a rainy run experiment was attempted.

First, the state of adhesion of rain water droplets while stopped was confirmed, but there was almost no adhesion of water droplets having a diameter of about 5 mm or more.

Next, a running experiment was attempted. First, when the speed was 45 km / hour, the adhesion of raindrops was confirmed. There was almost no adhesion of water droplets having a diameter of about 5 mm or more on the side window glass and the rear window glass. Also, on the windshield, a large amount of raindrops adhered continuously during running, but water droplets with a diameter of about 5 mm or more moved slowly upward and backward, and did not remain so as to scatter and obstruct visibility. . When the speed was further increased to 60 km / hour, water droplets having a diameter of about 5 mm or more moved instantaneously in the upward and backward directions and were almost completely removed.

In the running experiment, the rear view was confirmed through a side window glass plate using a door mirror, but there was almost no visual distortion or visibility deterioration due to raindrops.

In addition, the visibility due to the presence / absence of a coating film was compared in clear weather, and the transparency of the coating film was 98% or more with respect to light having a wavelength of 400 to 700 nm. I couldn't feel it at all.

From the above experiments, it was confirmed that the automobile of the present invention exerts a special effect on safe driving in rainy weather.

In addition, when the experiment was carried out by mounting a glass plate on which a plurality of coating films produced in Example 2 were formed, the same evaluation results were obtained except that the water drop sliding property (water separation property) was lowered.

The water / oil / oil repellent antifouling glass plate produced as a prototype in Comparative Example 1 was remounted on the automobile used in Example 9 (wearing the glass prepared in Example 1), and a similar running experiment was performed.

First, we confirmed and compared the situation of rainwater droplets while stopped, but there was almost no adhesion of waterdrops with a diameter of about 5 mm or more on the side window glass, but many remained on the front window glass and rear window glass. . That is, the water separation performance was slightly inferior to Example 9.

Next, a running experiment was attempted. First, the adhesion of raindrops was confirmed when the speed was 45 km / hour. Water droplets with a diameter of about 5 mm or more did not adhere to both the side window glass and the rear window glass, but with the front window glass, a lot of raindrops adhered continuously during driving, and driving was not possible without running the wiper. Visibility was poor. That is, the water separation performance was inferior compared with Example 9.

When the speed was further increased to 60 km / hour, water droplets with a diameter of about 5 mm or more moved slowly and scattered in the upward and backward direction, and it was at a level where operation was possible without running a wiper. The performance was inferior.

In addition, while using the door mirror during the running experiment, the rear view situation was confirmed through the side window glass plate, but the distortion of visibility and the deterioration of visibility due to rain water droplets were hardly felt, and almost the same as in Example 9. It was a result.

In addition, the visibility due to the presence / absence of a coating film was compared in clear weather, and the transparency of the coating film was 98% or more with respect to light having a wavelength of 400 to 700 nm. It was not felt at all and was almost equivalent to Example 9.

Further, the window glass of an automobile equipped with the water / oil repellent / antifouling glass plate produced in Comparative Example 2 is more water-soluble than the window glass of an automobile equipped with the water / oil repellent / antifouling glass plate produced in Comparative Example 1. Although the initial contact angle with respect to was as high as 110 degrees, it was confirmed that the wear resistance and weather resistance were inferior.

Therefore, the water / oil repellent / antifouling glass plate produced in Comparative Example 1 is not practical, but the overall performance is found to be somewhat inferior to that of the water / oil repellent / antifouling glass plate produced in Example 1. did.

The water / oil repellent and antifouling glass plate produced in Example 5 was remounted on the automobile used in Example 9, and the same running experiment was conducted.

First, the state of attachment of rain water droplets while stopped was confirmed, but the adhesion of water droplets with a diameter of about 5 mm or more was somewhat recognized in the rear glass, but there was almost no other than that.

Next, a running experiment was attempted. First, when the speed was 45 km / hour, the adhesion of raindrops was confirmed. There was almost no adhesion of water droplets having a diameter of about 5 mm or more on the side window glass and the rear window glass. Also, on the windshield, a small amount of raindrops adhered continuously during traveling, but water droplets with a diameter of about 5 mm or more moved fairly fast in the up-and-rear direction, and did not remain so as to scatter and obstruct the field of view. . When the speed was further increased to 60 km / hour, water droplets having a diameter of about 5 mm or more moved instantaneously in the upward and backward directions and were almost completely removed.

In the running experiment, the rear view was confirmed through a side window glass plate using a door mirror, but there was almost no visual distortion or visibility deterioration due to raindrops.

In addition, the visibility due to the presence / absence of the coating film was compared in clear weather, but the transparency of the coating film was 97% or more with respect to light having a wavelength of 400 to 700 nm, and thus the degradation of visibility compared with the automobile without the coating film. I couldn't feel it at all.

In addition, the window glass of the automobile of Example 9 (manufactured in Example 1) has substantially the same water separation performance as that of the window glass of the automobile of Example 11 (produced in Example 5), but wear resistance. Has been confirmed to be superior to 1.5 times or more. Furthermore, if a glass plate in which a silica film (a transparent inorganic film that can be formed by a sol-gel method, such as an alumina film) is formed on the glass plate surface in advance as a base substrate and further used as an alkali barrier film, outdoor durability ( The weather resistance was improved.

Thus, in the automobile of the present invention, wind is directly received during traveling in rainy weather and raindrops are almost scattered, so that safe driving can be performed.
Further, the water / oil repellent / antifouling glass of the present invention has very high wear resistance, and therefore can be applied as a windshield glass plate rubbed with a wiper blade.

Although not mentioned above, the present invention can also be applied to a glass plate for a top plate of an electromagnetic cooker, and can provide an electromagnetic cooker with excellent antifouling properties. In addition, when applied to the side rearview mirror of an automobile, the rear visibility in rainy weather could be greatly improved.

It is the conceptual diagram which expanded the glass plate cross section in which the composite film of water repellent / oil repellent antifouling property was formed in Example 1 to the molecular level.

The results of the abrasion resistance test of the water / oil repellent / antifouling glass plate obtained in Example 1 of the present invention and the water / oil repellent / antifouling glass plate obtained in Comparative Examples 1 and 2 are shown in FIG. FIG.

In Example 2, the conceptual diagram which expanded the glass plate cross section in which the water-oil-oil repellent antifouling composite film was formed through the silica film to the molecular level.

In Example 2, the conceptual diagram which expanded the glass plate cross section after processing with the substance containing a methylsilyl group to the molecular level after composite film formation.

Explanation of symbols

1 Glass plate 2 Long chain substance mainly composed of organic fluorine-containing ether group or organic fluorine-containing polyether group 3 Short chain substance mainly composed of fluorocarbon group, hydrocarbon group and silyl group 4 Mainly composed of siloxane group Substance to be
5 water / oil repellent antifouling composite film
6 Silica 7 Methylsilyl group

Claims (26)

A glass plate having a highly durable water / oil repellent / antifouling coating formed on a surface thereof, the coating comprising a fluorocarbon group and a hydrocarbon group containing an organic fluorine-containing ether group or an organic fluorine-containing polyether group And a first substance containing a silyl group, a second substance containing a fluorocarbon group, a hydrocarbon group, and a silyl group and different from the first substance, and a third substance containing only a siloxane group A water- and oil-repellent and antifouling glass plate, wherein the molecular length of the second substance is shorter than the molecular length of the first substance. 2. The water / oil repellent / antifouling glass plate according to claim 1, wherein the molecular length of the first substance is at least twice the molecular length of the second substance. The water / oil repellent / antifouling glass plate according to claim 1 or 2, wherein the first substance has a side chain containing a fluorocarbon group and a hydrocarbon group. The first substance and the second substance are bonded and fixed to the silica film and / or the glass plate surface via the silyl group in a silica film made of the third substance containing only a siloxane group. The water / oil repellent and antifouling glass plate according to any one of claims 1 to 3. The first substance, the second substance, and the third substance containing only a siloxane group are bonded to each other or individually on the glass plate surface via a silyl group and a siloxane group, respectively. The water / oil repellent antifouling glass plate according to any one of claims 1 to 3. The molecular composition ratio of the first substance, the second substance, and the third substance including only a siloxane group is 1:10:10 to 1: 0.1: 0.1. The water / oil repellent antifouling glass plate according to any one of claims 1 to 5. The critical surface energy of the composite film containing the first substance, the second substance, and the third substance containing only the siloxane group is controlled to 5 to 20 mN / m. The water / oil repellent antifouling glass plate according to any one of 6. The water- and oil-repellent and antifouling glass plate according to any one of claims 1 to 7, wherein the first substance contains an organic fluorine-containing ether group. The water-repellent / repellent property according to any one of claims 1 to 8, wherein the organic fluorine-containing ether group or the organic fluorine-containing polyether group is a functional group represented by the following formula (Chemical Formula 1 or Chemical Formula 2). Oil-resistant antifouling glass plate.






The water- and oil-repellent and antifouling glass plate according to any one of claims 1 to 9, wherein the composite film is formed through an alkali barrier film. The water / oil repellent / antifouling glass plate according to any one of claims 1 to 10, wherein the composite film further contains a methylsilyl group. A fourth substance (1) containing at least an organic fluorine-containing ether group or an organic fluorine-containing polyether group, a hydrocarbon group and an alkoxysilyl group, a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group; A fifth substance (2) and (AO) ₃ Si (OSi (OA) ₂ ) _p OA (p is 0 or an integer, A is an alkyl group, and OA is Cl or NCO. A water-repellent / oil-repellent / anti-fouling composite membrane is prepared by bringing the glass plate surface into contact with a composite membrane-forming solution diluted with an organic solvent and the sixth substance (3) represented by formula (3) and a silanol condensation catalyst. A method for producing a water- and oil-repellent and antifouling glass plate, comprising a step of forming, wherein the molecular length of the fifth substance is shorter than the molecular length of the fourth substance. A fourth substance (1) containing at least an organic fluorine-containing ether group or an organic fluorine-containing polyether group, a hydrocarbon group and an alkoxysilyl group, a fluorocarbon group, a hydrocarbon group and an alkoxysilyl group; A fifth substance (2) and (AO) ₃ Si (OSi (OA) ₂ ) _p OA (p is 0 or an integer, A is an alkyl group, and OA is Cl or NCO. A step of bringing the glass plate surface into contact with a composite film forming solution obtained by diluting the silanol condensation catalyst with a sixth substance (3) represented by the formula (3) and a reaction to form a film; And a step of washing or wiping off the excess solution of the fifth substance with an organic solvent, wherein the molecular length of the fifth substance is shorter than the molecular length of the fourth substance. Dirty glass The method of production. The molecular mixing ratio of the fourth substance (1), the fifth substance (2), and the sixth substance (3) is set to 1:10:10 to 1: 0.1: 0.1. The method for producing a water- and oil-repellent antifouling glass plate according to claim 12 or 13. At least a substance containing an organic fluorine-containing ether group and an alkoxysilyl group is used as the fourth substance (1), and CF ₃ — (CF ₂ ) _o — (CH ₂ ) ₂ —Si is used as the fifth substance (2). The method for producing a water- and oil-repellent and antifouling glass plate according to any one of claims 12 to 14, wherein (OA) ₃ (the subscript o is an integer and A is an alkyl group) is used. . The water- and oil-repellent and antifouling agent according to claim 15, wherein the fourth substance (1) containing an organic fluorine-containing ether group and an alkoxysilyl group is a substance represented by the following formula (Formula 3 or 4): For producing a porous glass plate.



The water- and oil-repellent and antifouling agent according to claim 15, wherein a substance represented by the following formula (Chemical Formula 5) is used as the fourth substance (1) containing an organic fluorine-containing ether group and an alkoxysilyl group. For producing a porous glass plate.






18. A ketimine compound or an organic acid, an aldimine compound, an enamine compound, an oxazolidine compound, an aminoalkylalkoxysilane compound, or a metal oxide such as TiO ₂ is used in place of the silanol condensation catalyst. The method for producing a water- and oil-repellent and antifouling glass plate according to any one of the above. 18. A ketimine compound or a mixed metal oxide such as an organic acid, an aldimine compound, an enamine compound, an oxazolidine compound, an aminoalkylalkoxysilane compound and / or TiO ₂ is used as the silanol condensation catalyst. The method for producing a water- and oil-repellent antifouling glass plate according to any one of the above. The method for producing a water / oil repellent / antifouling glass plate according to any one of claims 12 to 19, wherein a fluorocarbon organic solvent is used as the organic solvent. 21. The production of a water / oil repellent / antifouling glass plate according to any one of claims 12 to 20, wherein a silica film is formed in advance on the glass plate surface as an alkali barrier film before forming the composite film. Method. The method for producing a water- and oil-repellent and antifouling glass plate according to any one of claims 12 to 21, wherein the composite film is heated at 250 to 450 ° C. The method for producing a water- and oil-repellent and antifouling glass plate according to any one of claims 12 to 21, wherein after the formation of the composite film, treatment is further performed with a solution in which a substance containing a methylsilyl group is dissolved. A vehicle equipped with a glass plate on which a highly durable water / oil repellent / antifouling film is formed as a window glass, wherein the water / oil repellent / antifouling film is at least the organic fluorine-containing ether group Alternatively, a first substance containing a fluorocarbon group, a hydrocarbon group, and a silyl group containing an organic fluorine-containing polyether group, a first substance containing a fluorocarbon group, a hydrocarbon group, and a silyl group, and different from the first substance. An automobile comprising a composite film comprising a mixture of a second substance and a third substance containing only a siloxane group, wherein the molecular length of the second substance is shorter than the molecular length of the first substance. The automobile according to claim 24, wherein the composite film is formed through an alkali barrier film. The automobile according to claim 24 or 25, wherein the composite film further contains a methylsilyl group.