JPH0359035B2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a mortar composition for coating the walls of buildings, and more particularly, the present invention relates to a mortar composition for coating the walls of buildings. The present invention relates to a mortar composition for coating walls of buildings, which can easily form a smooth coating layer simply by applying pressure.

Tiles can be attached to the coating layer having a smooth surface formed by the wall coating mortar composition of the present invention without applying a conventional intermediate coating layer.

[Technical background and conventional technology]

When constructing a concrete building, for example a building, the concrete foundation structure that is first poured is called the concrete base or frame, but this concrete base is coated with mortar on the surface for surface protection and aesthetics. It is often worn to create a beautiful finish on both interior and exterior walls.
However, if you suddenly apply mortar to a concrete base, most of the water mixed into the mortar will be absorbed by the dry concrete base, causing the moisture balance in the mortar to collapse.
There is a drawback that the mortar layer does not adhere well to the concrete base and the mortar layer peels off. Therefore, when applying mortar, sprinkle enough water on the concrete base, and then apply a thin layer of cement mixed with water (usually 1 part cement to 0.5 parts water) on top of it. The construction method used was to apply mortar before the slag dried. However, this construction method has time constraints, as it requires applying slag immediately after pouring water onto the concrete base, and then applying mortar before the slag dries to form a mortar layer. For this reason, construction of large structures such as buildings is extremely difficult. Furthermore, when applying mortar to an exterior wall, there is an additional constraint in that in winter, the moisture contained in the water or slag applied to the concrete base freezes, making it extremely difficult to apply mortar in practice. In order to improve the construction method of undercoating for concrete foundation structures, which is difficult, an admixture was devised that can be used to create an undercoat for buildings that can be applied using a simple construction method. (Special Publication No. 52-29331). This admixture consists of expanded polystyrene granules, a binder, and a powder that has caking and water-retaining properties. This admixture is mixed with cement and water is added to create a base coat. When applied to a concrete base, the moisture in the undercoat material is absorbed by the concrete base, thereby solidifying the undercoat layer and strongly adhering to the concrete base. The surface of the coating material is rough due to the styrofoam particles, and even if an intermediate coat layer or top coat layer is applied on top of this, the intermediate coat layer or top coat layer will not adhere strongly to the undercoat layer. Due to the presence of moisture stored in the crushed grooves of the styrofoam particles, the interlayer or top coat layer and the undercoat layer are gradually bonded, and eventually a strong bond can be achieved.
However, since the surface of the undercoat layer coated with this undercoat material is rough, it cannot be used as the surface of a building, and ceramic tiles cannot be directly adhered thereon.

The present inventors strongly adhered the coating layer applied to the concrete base to the concrete base, and when applying a top coat on top of this or pasting tiles on this, there was no need to apply an intermediate coat. In view of this, the present invention was developed with the aim of making it possible to easily form a coating layer with a smooth surface by simply applying post-pressing.

[Object of the invention and summary of the invention]

The object of the present invention is to provide a mortar composition for wall coating that, when applied to a concrete base, can firmly adhere to the concrete base, have a smooth surface, and form a coating layer that does not cause cracks. Specifically, when applied to a concrete base, it adheres strongly to the concrete base, does not cause cracks, has a smooth surface, and does not require an intermediate coating layer. The object of the present invention is to provide a mortar composition for wall coating that can form a coating layer to which tiles can be directly attached, and more specifically, to improve work efficiency when coating on a concrete base. When applied to a concrete base, it adheres strongly to the concrete base, does not cause cracks, has a smooth surface, and can be directly attached to tiles without the need for an intermediate coat. An object of the present invention is to provide a mortar composition for wall coating that can form a coating layer.

The present invention provides crushed closed-cell synthetic resin foam particles,
A mortar for wall coating of buildings, characterized by comprising foamed glass particles, a polymer substance that is water-soluble and has viscosity in a dissolved state, an adhesive resin composition, an aggregate admixture made of fibers, cement, and water. It is a composition.

In the mortar composition for coating walls of buildings of the present invention, the synthetic resin foam in the crushed closed-cell synthetic resin foam particles may be foamed polystyrene and/or foamed polyvinyl chloride,
Methyl cellulose and/or polyvinyl alcohol can be used as the polymer substance that is water-soluble and has viscosity in a dissolved state, and the fibers are one or two selected from the group consisting of natural fibers, synthetic fibers, and mineral fibers. In addition, the adhesive resin composition can use a modified vinyl acetate resin and/or a polyacrylate resin.

[Specific description of the invention]

The building wall coating admixture of the present invention is mixed with cement and water to form a mortar mixture, and this mortar mixture is applied to a concrete base,
As a result, a coating layer is formed on the concrete base. In this coating layer, crushed closed-cell synthetic resin foam particles and foamed glass particles become aggregates, and this aggregate consists of cement, water, a water-soluble polymer substance that has viscosity in a dissolved state, and an adhesive resin composition. It is firmly adhered by an adhesive layer formed by the material.

The synthetic resin foam in the closed-cell synthetic resin foam crushed particles in the building wall coating admixture of the present invention may be of any type as long as it has closed cells, including foamed polystyrene or foamed polyester foam. Preferably, vinyl chloride is used. These crushed synthetic resin foam particles are made by fracturing closed-cell synthetic resin foam into appropriate sizes (approximately 2 to 3 mm in diameter), so the surface of the crushed closed-cell synthetic resin foam particles is , it is in an oven cell.
For this purpose, when the wall coating admixture is mixed with cement and water to form a mortar mixture, some of the water is contained in these open cells. When this mortar mixture forms an adhesive layer on the concrete base, even if the moisture contained in the adhesive layer is absorbed by the dry concrete base, the crushed closed-cell synthetic resin foam particles The moisture contained in the open cells on the surface of the adhesive layer is released as the moisture necessary for the hydration reaction of the adhesive layer to proceed, and the hydration reaction of the adhesive layer proceeds smoothly due to the moisture, and the cement of the adhesive layer is completely bonded. It hardens to form a coating layer with sufficient overall strength and no cracks, and this coating layer firmly adheres to the concrete base.

The amount of crushed closed-cell synthetic resin foam particles used in the wall coating admixture for buildings of the present invention is appropriately changed depending on the ^density of the crushed particles. If crushed closed-cell synthetic resin foam granules are used, 90 to 520 g (preferably 110 to 340 g) per 1 kg of the total amount of admixture.
mixed in at a ratio of

The polymeric substance that is water-soluble and has viscosity in a dissolved state in the building wall coating admixture of the present invention is as follows:
Any polymeric substance can be used as long as it is water-soluble and exhibits viscosity or stickiness when dissolved in water, but methylcellulose and polyvinyl alcohol are preferred. is preferable. Both may be used alone or in a mixture.

Methylcellulose is a wall coating admixture that is mixed with cement and water to form a mortar mixture, and when this mortar mixture is applied to a concrete base to form a coating layer, it is used to improve the closed-cell nature of the aggregate in the coating layer. It is possible to improve the caking property of the cement in the adhesive layer of the crushed synthetic resin foam particles and the foamed glass particles, and also to improve the water retention property. In the case of methylcellulose, it can be mixed in at a rate of 1 to 60g per 1kg of the total amount of wall coating admixture.
It is preferable to mix it in a proportion of 2 to 20 g.

Polyvinyl alcohol improves the caking and water retention properties of methylcellulose cement when a wall coating admixture is mixed with cement and water to form a mortar mixture, and this mortar mixture is applied to a concrete base to form a coating layer. The effect of improving can be made more effective. In the case of polyvinyl alcohol, it can be mixed in at a rate of 5 to 100 g per 1 kg of the total wall coating admixture.
It is preferable to mix in the proportion of 20 to 40 g.

As the adhesive resin composition in the building wall coating admixture of the present invention, modified vinyl acetate resin, polyacrylate resin, epoxy resin, etc. can be used. For example, ethylene-vinyl acetate copolymer resin, sodium polyacrylate,
Preference is given to using ammonium polyacrylate, potassium polyacrylate or polyacrylic acid amide. These adhesive resin compositions are
When a wall coating admixture is mixed with cement and water to form a mortar mixture, and this mortar mixture is applied to a concrete base to form a coating layer, the above-mentioned polymer substances such as polyvinyl alcohol and methylcellulose cause The effect of improving the cement's caking properties and water retention properties can be made more effective, and at the same time, the coating layer can be more strongly adhered to the concrete base.
The adhesive resin composition can be mixed in at a rate of 15 to 120 g per 1 kg of the total amount of wall coating admixture.
It is preferable to mix in the proportion of 20 to 90 g.

Foamed glass granules are made by mixing a foaming agent into glass powder, heating and melting the mixture, foaming it, and then molding it (approximately 1.5 to 3.5mm in diameter).These foamed glass granules are closed cell type and weigh 0.3g. / ^cm3 , and when a wall coating admixture is mixed with cement and water to form a mortar mixture, and this mortar mixture is applied to a concrete base to form a coating layer, this In the coating layer, the foamed glass particles form an aggregate together with the closed-cell synthetic resin foam crushed particles, and these aggregates are combined with cement, a water-soluble polymer substance that is viscous in a dissolved state, and an adhesive. They are bonded to each other by an adhesive layer made of a resin composition to form a strong coating layer. By using these foamed glass granules, the surface of the coating layer can be maintained even though highly elastic aggregates such as the crushed closed-cell synthetic resin foam granules described above are used. Not only can it be made smoother, but the coating layer itself can be made even stronger. The amount of foamed glass particles to be used can be changed as appropriate depending on its density, but when using foamed glass particles with a density of 0.25 g/cm ² , the amount of foamed glass particles used is 200 to 200 g per 1 kg of the total amount of wall coating admixture.
It is mixed in at a rate of 1000g (preferably 500-900g).

The fibers include those that have been used as "susa" or binding materials in wall painting construction, such as fiber waste, such as hemp fiber waste, silk fiber waste, cotton fiber waste, or cellulose fiber waste. In addition to natural fibers, glass fibers or mineral fibers such as asbestos, synthetic fibers such as polyester, nylon, vinylon, acetate or polypropylene can be used. These fibers are used when a wall coating admixture is mixed with cement and water to form a mortar mixture, and this mortar mixture is applied to a concrete base to form a coating layer. This is effective in keeping the mixture in one clump so that it does not fall apart, but it is also effective in making the formed coating layer stronger. The amount of these fibers to be used can be changed depending on the type of fiber, but it is mixed in at a rate of 2 to 85 g (preferably 5 to 30 g) per 1 kg of the total wall coating admixture.

〔Effect of the invention〕

When the mortar composition for wall coating of the present invention is applied to a concrete base, it can be firmly adhered to the concrete base, and a smooth surface can be formed by simply pressing it down. The coating layer does not cause cracks and allows a towel to be directly attached without applying an intermediate coating layer.

When a portion of the wall coating mortar composition of the present invention is taken up with a trowel, it does not break into pieces and forms a lump, making the application process easy.

An example will be described below in which a coating layer of a mortar mixture is applied to a concrete base using the wall coating admixture of the present invention.

Example 1 Styrofoam crushed styrofoam particles with a diameter of 2 to 3 mm (specific gravity: 0.02 g/cm ³ ) 720
g, 25 g of methyl cellulose, 70 g of polyvinyl alcohol, 150 g of modified vinyl acetate resin adhesive, 1.4 kg of foamed glass particles (apparent specific gravity: 0.25 g/cm ³ ), and nylon fiber (100 denier, length: 40 mm) 25
A wall coating admixture consisting of 1.5 g was mixed with 40 kg of ordinary Portland cement, 20 kg of water was added to the mixture, and the mixture was thoroughly kneaded to obtain a wall coating material.

This wall coating material was applied to a sufficiently cured concrete wall at a rate of 42 kg/m ² to form a coating layer. This coating layer was pressed down with a trowel before it was sufficiently dry to form a smooth surface, which could be used as a decorative surface. (10.8cm
x 6.0cm) using a general-purpose adhesive. This tile surface did not peel off even nine months after installation. Furthermore, the adhesive strength between the concrete base and the paint layer was 8.8 Kg/cm ² .

Example 2 From 790 g of crushed styrofoam granules as in Example 1, 32 g of methyl cellulose, 95 g of polyvinyl alcohol as in Example 1, 220 g of modified vinyl acetate resin adhesive as in Example 1, 3.2 kg of expanded glass particles as in Example 1, and 25 g of manila hemp fiber waste. Mix the wall coating admixture with 40 kg of ordinary Portland cement, and add water to this.
20kg was added and kneaded well to make wall coating material.

This wall coating material was applied to a sufficiently cured concrete wall (base) at a rate of 3.5 kg/m ² to form a coating layer. This coating layer could be pressed down with a trowel to form a smooth surface, and could also be used as a decorative surface as it is.
In addition, the smooth surface is covered with ceramic tiles (19.0 cm
×9.0cm) could be attached using a general-purpose adhesive. This tile surface did not peel off even four months after installation. Furthermore, the adhesive strength between the concrete base and this coating layer is 11.3Kg/cm ²
It was hot.

Example 3 1020 g of crushed styrofoam particles as in Example 1, 15 g of methyl cellulose, 170 g of polyvinyl alcohol as in Example 1, 200 g of polyacrylate resin adhesive,
A wall coating admixture consisting of 5.8 kg of the same foamed glass particles as in Example 1 and 25 g of the same nylon fiber as in Example 1 was thoroughly mixed with ordinary Portland cement, and mixed with 20 kg of water.
Kg was added and kneaded well to make it into a wall coating material.

This wall coating material was applied to a sufficiently cured concrete wall (base) at a rate of 3.5 kg/m ² to form a coating layer. This coating layer was also pressed down with a trowel again to form a smooth surface, and the coating layer with this smooth surface could have been finished with a finishing layer of only a few mm. The same tile as in Example 2 could be attached to the surface in the same manner as in Example 2. This tile surface did not peel off even after 5 months of installation. Furthermore, the adhesive strength between the concrete base and the paint layer is 9.1Kg/cm ²
It was hot.

Example 4 1110 g of crushed styrofoam granules as in Example 1, 22 g of methylcellulose, 115 g of polyvinyl alcohol as in Example 1, 230 g of polyacrylate resin adhesive as in Example 3, 7.3 kg of expanded glass granules as in Example 1, and Manila hemp fiber waste as in Example 2 Mix well the wall coating admixture consisting of with 40 kg of ordinary Portland cement,
Add 20kg of water to this and mix well to make a wall coating material.

This wall coating material was applied at a rate of 3.4 kg/m ² to a concrete wall (substrate) that had been sufficiently cured to form a coating layer. This coating layer was also finished with a smooth surface by applying the iron again. After that, only a finishing layer of a few mm was required, and the same tiles as in Example 2 could be attached to the smooth surface in the same manner as in Example 2. This tile surface will be
It did not peel off even after many months. Furthermore, the adhesive strength between the concrete base and the paint layer is 11.8
It was Kg/ ^cm2 .

Example 5 Wall made of 980 g of crushed styrofoam particles as in Example 1, 12 g of methylcellulose, 100 g of polyvinyl alcohol as in Example 1, 180 g of modified vinyl acetate resin adhesive as in Example 1, 6.4 kg of expanded glass particles as in Example 1, and 25 g of polyester fiber. The paint admixture was thoroughly mixed with 40 kg of ordinary Portland cement, and 20 kg of water was added to the mixture and thoroughly kneaded to form a wall coating material.

A layer of this wall coating material was formed at a rate of 3.5 kg/m ² on a concrete wall (substrate) that had been sufficiently cured. This coating layer was also finished with a smooth surface by applying the iron again. After that, only a finishing layer of a few mm was required, and the same tile as in Example 1 could be attached to the smooth surface in the same manner as in Example 1. This tile surface did not peel off even 10 months after it was installed. Furthermore, the adhesive strength between the concrete base and the paint layer was 12.5 kg/cm ² .

Claims (1)

[Scope of Claims] 1. A crushed closed-cell synthetic resin foam granule, a foamed glass granule, a water-soluble polymer substance having viscosity in a dissolved state, an adhesive resin composition, and an aggregate admixture consisting of fibers, and cement. and water. 2. The mortar composition for wall coating according to claim 1, wherein the crushed closed-cell synthetic resin foam particles are crushed polystyrene foam particles and/or crushed polyvinyl chloride foam particles. 3. The mortar composition for wall coating according to claim 1 or 2, wherein the water-soluble and viscous polymeric substance is methylcellulose and/or polyvinyl alcohol. thing. 4. Claims 1 to 3, characterized in that the fibers are one or more selected from the group consisting of natural fibers, synthetic fibers, mineral fibers, and mixtures thereof. A mortar composition for wall coating according to any one of the above. 5. The mortar composition for wall coating according to any one of claims 1 to 4, wherein the adhesive resin composition is a modified vinyl acetate resin and/or a polyacrylate resin.