JP2003225176A - Method of recovering surface of bathtub and bathtub with reinforced surface - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method of recovering the deteriorated surface of an FRP or enameled bathtub while increasing the strength, and a surface-reinforced FRP or enameled bathtub with reinforced surface. <P>SOLUTION: The bathtub 1 is recovered by the method comprising a polishing process for forming a polished surface 2 by polishing the surface of the bathtub 1, an under-coating process for forming an under-coat layer 3 by coating the polished surface 2 with epoxy acrylate resin 11, a reinforcing process for forming a reinforced layer 4 by pasting a carbon cloth 8 to the under-coat layer 3, and an over-coating process for forming a protection layer 5 by coating the reinforced layer 4 with epoxy acrylate resin 11. The bathtub, whose surface is reinforced by using the above method, is formed. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for repairing the surface of a bathtub made of FRP (fiber reinforced plastic), enamel, stainless steel, or artificial marble, and a bath having a strengthened surface.

[0002]

2. Description of the Related Art Conventionally, as a method of repairing a deteriorated surface of a bathtub (including a bathtub with a washing room) made of FRP, enamel, stainless steel, or artificial marble, a so-called putty is filled in a crack portion with an epoxy bond. Later, there is one that paints a bathtub developed by a paint maker on the surface of the bathtub.

[0003]

However, although such a conventional repairing method can make the appearance of the bathtub almost new, it cannot increase the strength of the surface. Therefore, there is a problem that the durability after repair is short.

Therefore, an object of the present invention is to provide a method for repairing a deteriorated surface of a bathtub made of FRP or enamel while increasing its strength. Further, an object of the invention described in claims 6 and 7 is to provide a bath made of FRP and enamel whose surface is reinforced.

[0005]

In order to achieve the above object, a bathtub surface restoration method according to claim 1 of the present invention is a bathtub made of FRP, enamel, stainless steel, or artificial marble ( 1) A method of repairing a deteriorated surface, which comprises at least a polishing step of polishing a surface of a bath (1) to form a polishing surface (2), and an epoxy acrylate resin (11) on the polishing surface (2). ) Is applied to form an underlayer (3), a strengthening step of forming a reinforcing layer (4) by applying a carbon cloth (8) to the underlayer (3), and the reinforcing layer (4). And an epoxy acrylate resin (11) is applied to the top to form a protective layer (5). The carbon cloth (8) is a cloth woven from high elastic modulus carbon fibers 8a (see FIG. 3).

Further, in the method for repairing the surface of a bath according to claim 2, in the strengthening step, instead of the carbon cloth (8) forming the reinforcing layer (4), a Kevlar cloth (9) is used.
It is characterized by being attached. Kevlar cloth (9)
Is a cloth woven from aromatic polyamide fibers (9a) (see FIG. 4).

Further, in the bath surface repairing method according to a third aspect of the present invention, in the strengthening step, a carbon Kevlar cloth (10) is attached instead of the carbon cloth (8) forming the reinforcing layer (4). It is characterized by Carbon Kevlar cloth (10) is a high modulus carbon fiber (8a)
And an aromatic polyamide fiber (9a) are woven (see FIG. 5).

Further, the method for repairing the surface of a bath according to claim 4 is characterized in that, in the undercoating step, the epoxy acrylate resin (11) forming the underlayer (3) is mixed with titanium powder. .

Further, the method for repairing the surface of a bath according to claim 5 is characterized in that, in the top coating step, the epoxy acrylate resin (11) forming the protective layer (5) is mixed with a fluorescent pigment. To do.

The surface-reinforced bathtub according to claim 6 of the present invention is a bathtub (1) made of FRP, enamel, stainless steel, or artificial marble, and the surface thereof is at least polished by a polishing step. Polished surface (2)
A base layer (3) formed by coating the polishing surface (2) with an epoxy acrylate resin (11) by an undercoating step, and a carbon cloth (8) on the base layer (3) by a strengthening step. A reinforcing layer (4) formed by applying a Kevlar cloth (9) or a carbon Kevlar cloth (10), and a protective layer (4) formed by coating the reinforcing layer (4) with an epoxy acrylate resin (11) by a top coating process ( 5) and a multi-layered structure (T) are formed.

The surface strengthening bath according to claim 7 is
The epoxy acrylate resin (11) forming the protective layer (5) is mixed with a fluorescent pigment.

Symbols in parentheses indicate corresponding elements or corresponding matters described in the drawings and embodiments of the invention described later.

According to the method of repairing the surface of the bath according to the first aspect of the present invention, since the carbon cloth is adhered to form the reinforcing layer in the strengthening step, the strength of the surface of the bath can be increased. Carbon cloth has chemical resistance, corrosion resistance,
It has excellent features such as excellent wear resistance and heat resistance, and is strong against bending. Therefore, it is possible to cope with the force applied to the surface of the bathtub from all directions, and the durability of the bathtub can be improved.

Further, according to the second aspect of the present invention, in the strengthening step, since the Kevlar cloth is attached instead of the carbon cloth to form the reinforcing layer, similarly, the strength of the bath surface can be increased. it can. Kevlar cloth is particularly characterized by being excellent in impact resistance as well as electric insulation and self-extinguishing property. Therefore, it is possible to cope with the impact applied to the bathtub surface.

Further, according to the invention of claim 3,
Instead of carbon cloth, carbon Kevlar cloth is attached to form the reinforcing layer, so that the strength of the bath surface can be further increased. Carbon Kevlar cloth has the advantages of both carbon cloth and Kevlar cloth. Therefore, it is strong against both bending and impact, and can cope with a force and a large impact applied to the surface of the bathtub from all directions.

Further, according to the invention of claim 4, in the undercoating step, the titanium acrylate powder is mixed with the titanium powder to form the underlayer, so that the strength of the bath surface is further enhanced by the action of titanium having high hardness. Can be increased.

Further, according to the invention described in claim 5, since the protective layer is formed by mixing the fluorescent pigment with the epoxy acrylate resin in the overcoating step, the effects of the invention described in claims 1 to 4 In addition to the above, the fluorescent color emitted by the fluorescent pigment can make the bathtub decorative and fashionable.

According to the surface-reinforced bathtub of claim 6 of the present invention, since carbon cloth, Kevlar cloth, or carbon Kevlar cloth is attached to the surface of the bathtub to form a reinforcing layer, the surface of the bathtub Strength can be increased.

According to the invention of claim 7, in addition to the effect of the invention of claim 6, since the fluorescent pigment is mixed with the epoxy acrylate resin forming the protective layer, The fluorescent color emitted by the pigment can add decorativeness and fashion to the bathtub.

[0020]

BEST MODE FOR CARRYING OUT THE INVENTION With reference to FIGS. 1 and 2, a method of repairing a surface of a bathtub according to an embodiment of the present invention and a surface-reinforced bathtub constructed by using the method will be described.
1 is a cross-sectional view showing the surface-strengthening bath, and FIG. 2 is an enlarged cross-sectional view showing a portion A in FIG.

A bath surface repairing method according to an embodiment of the present invention is a method for repairing a deteriorated surface of a FRP bathtub 1 having a washing space, which comprises (1) a polishing step and (2) a first drying step. , (3) undercoating step, (4) strengthening step, (5) topcoating step, (6) second drying step, (7) decoration step,
(8) Topcoat process, (9) Smoothing process, and (1
0) Comprising a finishing process. The FRP bathtub may be replaced by a enamel, stainless steel, or artificial marble bathtub.

(1) In the polishing step, the surface of the deteriorated bathtub 1 is polished with sandpaper to scrape off surface cracks and aging FRP to form a polishing surface 2. Polished surface 2
By forming the, the adhesiveness of the resin in the undercoating step can be enhanced.

(2) In the first drying step, the polished surface 2 after being washed with water is forcibly dried with a heater gun.

(3) In the undercoating step, in order to regenerate the deteriorated FRP and increase its strength, the polishing surface 2 is coated with the epoxy acrylate resin 11 mixed with titanium powder to form the base layer 3. This painting is done with a brush, roller or Zolacoat gun. The epoxy acrylate resin 11 has high tensile strength and impact strength, and is excellent in adhesiveness, chemical resistance, and acid resistance, and is therefore an optimum material for forming the underlayer 3.

(4) In the strengthening step, the carbon Kevlar cloth 10 as shown in FIG.
To form. The carbon Kevlar cloth 10 is lightweight (172 g / m ² ) and thin (thickness 0.27 mm). By this strengthening process, the strength of the surface of the bath 1 is dramatically improved. Instead of the carbon Kevlar cloth 10, as shown in FIG.
Alternatively, as shown in FIG. 4, a Kevlar cloth 9 may be attached to form the reinforcing layer.

(5) In the overcoating step, the reinforcing layer 4 is coated with the epoxy acrylate resin 11 to form the protective layer 5. With this protective layer 5, carbon Kevlar cloth 10
And the uneven surface formed by the carbon Kevlar cloth 10 is made flat. In this embodiment,
The epoxy acrylate resin 11 is mixed with titanium powder to further increase the strength of the protective layer 5.

A color pigment and a fluorescent pigment are added to the epoxy acrylate resin 11 forming the protective layer 5 to prepare a bath 1.
Can be decorated and fashionable,
In the present embodiment, they are performed in the decoration process.

(6) In the second drying step, the temperature is 20.degree.
The epoxy acrylate resin 11 is naturally dried by keeping it at 25 ° C. The gelation of the epoxy acrylate resin 11 begins, and the surface is cured by about 90% (to the extent that fingerprints are formed by finger touch), and then the next decoration step is performed.

(7) In the decoration step, the color pigments may be used to form the decoration layer 6 by the paste color method, or the epoxy acrylate resin 11 may be mixed with the color pigments and the fluorescent pigments. The decorative layer 6 can also be formed by coating on the epoxy acrylate resin 11 coated in the top coating process. By performing this decorating step, the bathtub 1 can be provided with decorativeness and fashionability.

(8) In the top coat process, the epoxy acrylate resin 11 (high heat resistance) is applied to the brush, roller,
Using Zoracoat gun, etc., paint by so-called cross coating or cross spraying that intersects in the vertical and horizontal directions,
The top coat layer 7 is formed. The top coat layer 7 further protects the surface of the bath 1 to improve its strength.

(9) In the smoothing step, after the top coat layer 7 is completely cured, the surface is gradually changed to a fine sand paper from a coarse sand paper to finish the surface smoothly. By doing so, it is possible to obtain a beautiful smooth surface with no scratches on the surface.

(10) In the finishing step, the smooth surface of the top coat layer 7 is washed with water and dried, then polished with a compound and further polished with an electric polisher to obtain a more beautiful smooth surface.

Through these steps, the bathtub 1 can be made to have high strength, excellent decorativeness and fashionability, and beautiful and glossy.

In this embodiment, the method for repairing the surface of the bathtub has been described. However, a new bathtub 1 having a strengthened layer formed by adhering carbon cloth 8, Kevlar cloth 9 or carbon Kevlar cloth 10 on the surface thereof is used as a new product. Can also be provided as. The applicable bathtub 1 is made of FRP,
These are made of enamel, stainless steel, or artificial marble.

[0035]

According to the method for repairing the surface of the bath according to the first aspect of the present invention, since the carbon cloth is adhered to form the reinforcing layer in the strengthening step, the strength of the surface of the bath can be increased. (In particular, strength against bending). Therefore,
The durability of the bathtub can be increased.

According to the second aspect of the present invention, since the reinforcing layer is formed by attaching Kevlar cloth instead of carbon cloth, the strength of the bath surface can be similarly increased (particularly impact). Strength).

Further, according to the invention described in claim 3,
Instead of carbon cloth, carbon Kevlar cloth is attached to form the reinforcing layer, so that the strength of the bath surface can be further increased (strength against bending and impact). Thereby, the durability of the bathtub can be greatly improved.

Further, according to the invention of claim 4, in the undercoating step, since the titanium acrylate powder is mixed with the titanium powder to form the underlayer, the strength of the bath surface is further enhanced by the function of titanium having high hardness. Can be increased.

Further, according to the invention of claim 5, in the overcoating step, since the fluorescent pigment is mixed with the epoxy acrylate resin to form the protective layer, the effect of the invention of claims 1 to 4 is obtained. In addition to the above, the fluorescent color emitted by the fluorescent pigment can make the bathtub decorative and fashionable.

According to the surface-reinforced bathtub of claim 6 of the present invention, carbon cloth, Kevlar cloth, or carbon Kevlar cloth is attached to the surface of the bathtub to form a reinforcing layer, so that the strength of the surface of the bathtub is improved. Can be increased. Thereby, the durability of the bathtub can be improved.

According to the invention described in claim 7, in addition to the effect of the invention described in claim 6, since the fluorescent pigment is mixed with the epoxy acrylate resin forming the protective layer, The fluorescent color emitted by the pigment can add decorativeness and fashion to the bathtub.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a surface strengthening bath according to an embodiment of the present invention.

FIG. 2 is an enlarged cross-sectional view showing a portion A in FIG.

FIG. 3 is a partial plan view showing a carbon cloth.

FIG. 4 is a partial plan view showing a Kevlar cloth.

FIG. 5 is a partial plan view showing a carbon Kevlar cloth.

[Explanation of symbols]

1 bathtub 2 Polished surface 3 Underlayer 4 Reinforcement layer 5 protective layer 6 decorative layers 7 Top coat layer 8 carbon cloth 8a carbon fiber 9 Kevlar cloth 9a Polyamide fiber 10 carbon Kevlar cloth 11 Epoxy acrylate resin T multi-layer structure

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Claims (7)

[Claims] 1. A method for repairing a deteriorated surface of a bath made of FRP, enamel, stainless steel, or artificial marble, which comprises at least a polishing step of polishing the surface of the bath to form a polished surface, An undercoating step of applying an epoxy acrylate resin to the polishing surface to form a base layer, a strengthening step of applying a carbon cloth to the base layer to form a reinforcing layer, and an epoxy acrylate resin being applied to the reinforcing layer for protection. A method of repairing a surface of a bathtub, which comprises a topcoating step of forming a layer. 2. The method for repairing a surface of a bathtub according to claim 1, wherein in the strengthening step, a Kevlar cloth is attached instead of the carbon cloth forming the reinforcing layer. 3. The method for repairing the surface of a bathtub according to claim 1, wherein in the strengthening step, a carbon Kevlar cloth is attached instead of the carbon cloth forming the reinforcing layer. 4. The method for repairing the surface of a bath according to claim 1, wherein in the undercoating step, a titanium powder is mixed with an epoxy acrylate resin forming an underlayer. 5. The method for repairing the surface of a bath according to claim 1, wherein the epoxy acrylate resin forming the protective layer is mixed with a fluorescent pigment in the top coating step. 6. A bath made of FRP, enamel, stainless steel, or artificial marble, the surface of which is at least a polishing surface formed by polishing in a polishing step, and the polishing surface formed by an undercoating step. A base layer formed by coating an epoxy acrylate resin on the base layer, and a reinforcing layer formed by pasting carbon cloth, Kevlar cloth, or carbon Kevlar cloth on the base layer by a strengthening step, and an epoxy layer on the reinforcing layer by a top coating step. A surface-reinforced bathtub having a multilayer structure formed by laminating a protective layer formed by coating an acrylate resin. 7. The surface-reinforcing bath according to claim 6, wherein a fluorescent pigment is mixed with the epoxy acrylate resin forming the protective layer.