JPS6347458A - Method of executing interior sheathing finishing material - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention (Field of Industrial Application) The present invention relates to a method for applying interior and exterior finishing materials, and more specifically, the present invention relates to a method for applying interior and exterior finishing materials, and more specifically, the present invention relates to a method for applying interior and exterior finishing materials to which cement-based adhesives and cement-based joint materials do not adhere. The present invention relates to a method for easily adhering to a construction base using a material and a joint material, and for filling the joint portions.

(Prior Art and its Problems) Conventionally, glass, metal, synthetic resin, wood, paper, cloth, stone, ceramic tiles, etc. have been used as interior and exterior finishing materials for buildings. However, when performing interior and exterior construction by creating joints on walls, floors, ceilings, etc. using these finishing materials, it is necessary to use synthetic resin adhesives and joint materials with stronger adhesion. It won't happen. However, since these synthetic resin adhesives and joint materials have strong adhesive strength, they cannot be easily removed if they adhere to the surface of the finishing material.

Therefore, during actual construction, it is necessary to apply curing tape to the surface of the finishing material or around the joints, and to take measures to prevent the adhesive and joint material from directly touching the surface of the finishing material, which is time-consuming and complicated. There are other problems.

Therefore, the present invention has been made to solve the above-mentioned problems, and its purpose is to provide a cement-based adhesive and joint material that are commonly used as adhesives and joint materials for finishing materials and are easy to use. The cement-based adhesive such as glass, metal, synthetic resin, etc. and the finishing material to which the joint material does not adhere sufficiently can be easily and firmly adhered to the construction base using the material, and the joint area between the finishing materials can be easily and firmly adhered to the construction base surface. An object of the present invention is to provide a construction method that allows a joint material to be attached to a joint material.

(Means for solving problems) The present invention has the following configuration to solve the above problems.

That is, in interior and exterior finishing materials such as glass, metal, and synthetic resin, a conditioning agent is applied to at least one of the periphery and back surface of the interior and exterior finishing materials to firmly adhere the interior and exterior finishing materials and cement joint material. The method is characterized in that the interior and exterior finishing materials coated with this adjustment material are adhered to the construction base surface using an adhesive, and the joints are closed using a cement-based joint material to finish the construction surface.

(Embodiments) Hereinafter, preferred embodiments of the present invention will be described in detail based on the attached drawings.

The construction method according to the present invention is characterized in that a conditioning material is applied around or around the finishing material and on the back surface. this is,
Using cement-based adhesives and joint materials that are commonly used in the past, materials to which cement-based adhesives and joint materials do not adhere, such as glass, can be easily adhered to the construction base, and joints can be filled in between the finishing materials. This is what we do.

Figure 1 shows a cationic synthetic resin emulsion applied as a conditioning agent to the surroundings and back side of the glass finishing material, then bonded to the base using a cement adhesive and cement yarn joint material, and the joints are filled. FIG.

10 is glass, and 12 is a cationic synthetic resin emulsion coated around and on the back surface of the glass. The cationic synthetic resin emulsion 12 is applied in advance to the periphery and back surface of the glass 10, which is a finishing material, and is dried and hardened. After curing, a film of cationic synthetic resin is formed on the coated surface. Then, the glass 10 to which the cationic synthetic resin emulsion 12 is fixed is adhered to the base 16 using a cement adhesive 14 with joints opened, and then the joints are closed using a cement adhesive 18. Bye.

Next, the adhesion mechanism between the cationic synthetic resin emulsion and glass and cement joint material will be explained.

FIG. 2 is an explanatory diagram showing the state of adhesion between glass, cement joint filler, and cationic synthetic resin emulsion.

Looking at the adhesion between the glass 20 and the cationic synthetic resin emulsion 22, since the glass 20 is negatively charged, they electrically attract each other to the positively charged cationic synthetic resin emulsion 22, resulting in strong adhesion (Fig. 2). (a)). Next, looking at the adhesion between the cement-based adhesive and joint material 24 and the cationic synthetic resin film, when the cement-based adhesive and joint material 24 are mixed with water, sand and cement particles are negatively charged in water. Therefore, when coated on the film of the cationic synthetic resin emulsion 22, in addition to adhesive effects such as electrical attraction, mechanical anchoring effect, and hydrogen bonding, a large adhesive effect is obtained due to ionic bonding. Then, by drying and curing these, they are bonded even more firmly (FIG. 2(b)).

As a result of the above-mentioned effects, as shown in FIG. Adheres firmly to each other. As a result, the glass 10 can be firmly adhered to the base 16 surface.

The above cationic synthetic resin is a special type of acrylic resin.While ordinary acrylic resin is anionic and negatively charged, cationic acrylic resin is positively charged. There is. Cement particles and sand particles are negatively charged in water, and even if an anionic synthetic resin is added to them, the cement mortar and synthetic resin particles do not mix uniformly because of electrostatic repulsion. Further, since all the bases are negatively charged and the anionic synthetic resin particles repel each other with the base, the adhesive strength is not very strong.

Next, a case will be described in which cement mortar in which a cationic synthetic resin is mixed with cement, sand, etc. is used as a conditioning material. This cationic resin cement mortar conditioning material has outstanding adhesive strength compared to existing ones mixed with anionic synthetic resin emulsion.

FIGS. 3(a), (b), and (c) are explanatory diagrams of dispersion of cationic synthetic resin particles and anionic synthetic resin particles (cement particles are omitted). FIG. 3(a) shows the state of dispersion of the cationic synthetic resin 26 in cement mortar. Since the sand particles 30 are negatively (anionic) charged, they electrostatically attract the positively charged cationic synthetic resin 26, so that the cationic synthetic resin particles are uniformly dispersed without agglomeration. ing. In a state where the cement mortar is adhered to the finishing material surface 32 (Fig. 3(b)),
The sand particles 30 (negatively charged) and the cationic synthetic resin 26 attract each other, are uniformly distributed around the sand particles 30, harden, and are strongly adhered to the negatively charged finishing material surface 32.

After this cationic resin cement mortar conditioner is adhesively hardened, the surface of the finishing material to which this conditioner is attached becomes positively charged.

Cement adhesives and joint materials are negatively charged, so if they are applied to the surface of the finished material, they will attract electrically and have adhesive effects such as mechanical anchoring and hydrogen bonding. In addition, a large adhesion effect can be obtained due to ionic bonding.

In FIG. 3(c), instead of the cationic synthetic resin 26,
The distribution when a normal anionic synthetic resin 34 is mixed into cement mortar is shown (cement particles are omitted). In this case, since the sand particles 30 are negatively charged and the anionic synthetic resin 34 is negatively charged, they repel each other and cannot be mixed uniformly. In addition, since the anionic synthetic resin 34, sand particles 30, and finishing material surface 32 are negatively charged,
They repel each other and have low adhesive strength when the cement hardens.

Therefore, a cationic resin cement mortar conditioner mixed with a cationic synthetic resin can strongly adhere to finishing materials such as glass, metal, synthetic resin, etc., which have smooth surfaces and do not absorb water. Can be done. In addition, since cement mortar contains sand, after the adhesive hardens, the surface of the cement mortar is not smooth, but has irregularities that allow it to be caught properly, making it easy to obtain an anchoring effect, and the surface is positively charged. are doing.

Next, a method for bonding a mirror to a base will be described as a specific example of bonding using the above-mentioned cationic resin cement mortar conditioning material.

Mirrors are made by applying a special paint to the back of the glass, and both the glass body and the back of the mirror are smooth and non-absorbent, and cement-based adhesives and cement-based joint materials will not adhere to them in their original state. Therefore, for example, when bonding a mirror cut into tiles with the cationic resin cement mortar adjustment material 36, first apply this adjustment material around the mirror and the back surface,
This conditioning material is dried and hardened. After curing, an uneven film is formed around the mirror and on the back surface. The surface of this conditioning material is positively charged, so when cement-based adhesive and joint material are filled, the cement-based material penetrates and hardens, creating an anchoring effect and ionization between the mirror and the adhesive and between the mirror and joint material. Bonding creates a strong (adhesive) effect.

The method of adhering the mirror treated with these treatments to the construction base surface with joints is the same as the method of adhering using a normal cement-based adhesive and joint material, and may be performed as follows. Figure 4 shows a cross-sectional view after construction.

■ Apply the cement-based adhesive 14 to the surface of the base 16, or apply it to the back of the m40.

(2) Leave an appropriate gap between the mirrors 40 and attach the mirrors 40 to the surface of the cement-based adhesive 14 while pressing the mirrors 40 into the surface.

(2) Apply the cement-based joint material 18 to the entire surface of the crimped mirror 40, and press it so that the cement-based joint material 18 is filled in the joints.

■Remove the excess cement-based joint material 18 on the surface of the mirror 40 using a rubber trowel or the like, leaving only the cement-based joint material 18 stuck between the joints.

■ While watching the joint material dry, clean the dirt on the surface of the mirror 40 using a cloth and sponge.

When the mirror 40 is bonded to the base [6] by the method described above, the cement adhesive 14 and the cement joint material 1 are bonded together.
8 penetrates into the irregularities of the cationic resin cement mortar adjustment material 36 applied to the periphery and back surface of the mirror 40 and hardens, so it is firmly adhered due to the anchoring effect and does not easily peel off.

(Effects of the Invention) According to the present invention, as described above, even if a cement adhesive such as glass or a cement joint material does not easily adhere to a material, a cationic synthetic resin emulsion or a cationic synthetic resin By applying a cement mortar conditioning agent mixed in cement, aggregate, etc. to at least one side of the periphery and back side of the finishing material, it is possible to easily and firmly adhere it to the base using a cement-based adhesive. Moreover, it has the remarkable effect that joints can be easily formed using a cement-based joint material.

Furthermore, since cement-based joint fillers and materials to which cement-based joint fillers do not adhere can be used as finishing materials, a wide variety of completely new decorative materials can be used as finishing materials for construction.

This decorative material can be used alone or mixed with tiles, so it can be used in many fields as a new decorative material.

The present invention has been variously explained above using preferred embodiments, but the present invention is not limited to these embodiments.
Of course, many modifications can be made without departing from the spirit of the invention.

[Brief explanation of the drawing]

Figure 1 is a sectional view showing the state in which the interior and exterior finishing materials are adhered to the base, Figure 2 is an explanatory view showing the adhesion state, and Figure 3 is the dispersion state of cationic synthetic resin particles and anionic synthetic resin particles. The explanatory diagram shown in FIG. 4 is a sectional view showing a state in which the parts are bonded using a cationic resin cement mortar conditioning material. 10...Glass, 12...Cationic synthetic resin emulsion, 14...
・Cement adhesive, 16...base, 18...
Cement joint material, 20...Glass, 22...Cationic synthetic resin emulsion, 24...
・Cement-based joint material, 26...Cationic synthetic resin, 30...Sand particles, 32...Finishing material surface, 34...
・Anionic synthetic resin 36...Cationic resin cement mortar adjustment material 38・
...Paint, 40...Mirror drawing between Figure 1, Figure 2z, page 7, Figure 3

Claims (1)

[Claims] 1. In an interior/exterior finishing material made of glass, metal, synthetic resin, etc., the interior/exterior finishing material and cement joint material are firmly adhered to at least one of the periphery and back surface of the interior/exterior finishing material. We will apply a conditioning material to ensure that the interior and exterior finishing materials coated with this conditioning material are adhered to the construction base using an adhesive, and use a cement-based joint material to close the joints and finish the construction surface. Features construction methods for interior and exterior finishing materials. 2. The method for constructing interior and exterior finishing materials according to claim 1, wherein the conditioning material is a cationic synthetic resin emulsion. 3. The method for constructing interior and exterior finishing materials according to claim 1, wherein the conditioning material is made by mixing a cationic synthetic resin with cement, aggregate, etc.