JP4604245B2 - Surface finishing structure of a building and method for forming a surface finishing layer - Google Patents

Description

  The present invention relates to a surface finishing structure of a building and a method of forming a surface finishing layer, and more specifically, a surface finishing structure applied to interior finishing of a building and a surface finishing layer constituting such a surface finishing structure. The method of forming.

As an interior finish structure for interior walls of buildings, the surface of the base material made of gypsum board, etc., is coated with a coating material containing an inorganic porous material with excellent humidity control, such as sandy shale. Techniques for building wet wall surfaces are known. There is also known a technique of using a humidity control tile, a humidity control board, a humidity control wallpaper, etc., in which a similar inorganic porous material is blended, for interior finishing.
The interior finish structure with such a humidity control function is excellent in the function of adjusting the humidity of the construction space to an appropriate range, and at the same time, fulfills the deodorizing function and VOC removal function by selecting the humidity control material. Can do. By using sandy shale, etc., colors and textures similar to natural soil and rock will be developed, and it will be possible to create a calm interior finish like a conventional earthen wall or painted wall.

For example, Patent Document 1 discloses a technique for manufacturing a humidity control tile by molding and baking a tile material in which a shale shale is blended as a humidity control material. A technique for producing a humidity control tile with a decorative layer by applying a mud containing pigment on the surface of the molded tile is also shown.
Patent Document 2 discloses a coating wall material containing an inorganic humidity conditioning material and an inorganic binder.
JP 2003-26464 A JP 2002-114557 A

In the interior finish structure having an excellent humidity control function as described above, there are problems that the surface is easily soiled and that the dirt is difficult to wipe off.
The inorganic porous material is exposed on the surface of the humidity control coating film and humidity control tile. The inorganic porous material can exhibit humidity control by having fine pores and irregularities on the surface. If dirt enters these fine pores and irregularities, the dirt cannot be wiped off even if the surface is wiped. For example, drinks such as coffee and liquid seasonings such as sauces are rapidly absorbed into the inside of the inorganic porous material having high water absorption. Since the inorganic porous material is a material that has excellent liquid absorbability and high adsorbability of various substances, the liquid and the solid component contained in the liquid are easily absorbed and adsorbed and retained. Moreover, since it is excellent in moisture absorption / release properties, only the water contained in the liquid evaporates, and the remaining coloring components and the like are easily trapped inside the pores of the inorganic porous material. Therefore, once attached or absorbed dirt is very difficult to remove.

It is conceivable that the surface of the humidity control coating film or humidity control tile is painted or coated with a protective film to make it difficult to get dirty and easily remove the dirt. However, by covering with a coating film or a coating film, the humidity control function is lost or significantly reduced, and the original performance cannot be exhibited. In addition, the surface color and texture peculiar to the humidity control material may be impaired by the artificial color and texture of the coating film and coating film.
The surface of the humidity control coating or the humidity control tile may be easily scratched or rubbed when it is rubbed. Fine powder of inorganic porous material is easily scraped off.
For this reason, the humidity control coating film and the humidity control tile may not withstand long-term use, or may need to be repainted or replaced at relatively short intervals.

  It is an object of the present invention to provide a surface finish structure having a humidity control function as described above, so that the surface is difficult to get dirty and the dirt is easy to remove without greatly impairing the humidity control function. Is to maintain a good appearance.

The surface finishing structure of a building according to the present invention is a surface finishing structure constituting the surface of the building,
A base material to be a base of the surface of the surface, and a surface finish layer disposed on the surface of the base material, the surface is moisture permeable and waterproof, and has a humidity control property ,
The surface finishing layer is disposed on the surface of the base material, a humidity control layer in which an inorganic porous granular material is blended, and a transparent coating provided on the surface of the humidity control layer and having moisture permeability and waterproofness. And having a layer
The humidity control layer is a powder of at least one inorganic porous material selected from the group consisting of diatomaceous mudstone, diatom shale, allophane, imogolite, sepiolite, zeolite and Oya stone, plaster as an inorganic binder, and a fiber material. Is a coating film of a humidity control coating material containing 5 to 80% by weight of an inorganic porous granular material composed of powder of the inorganic porous material and 20 to 95% by weight of a binder,
The transparent coating layer is composed of at least one selected from the group consisting of acrylic resin, silane-based acrylic resin, acrylic-styrene resin, and silane-based acrylic-styrene resin, and a synthetic resin having a glass transition point of 10 ° C. or lower is 30 to 30 ° C. It consists of a coating film of a transparent coating material in which fine inorganic particles having a particle size of 0.001 to 3.0 μm are blended in a proportion of 10 to 200 wt% of the solid content of the aqueous emulsion in 60 wt% of the aqueous emulsion, It is a transparent porous film having a permeation amount of 400 g / m ² · 24 h or more and a surface hardness of 3H to 3B (pencil hardness).
It is characterized by that.
[Building surface]
The front surface is a finished surface exposed on the surface of a building structure such as an indoor wall surface, a partition surface, a ceiling surface, a floor surface, or a column surface in various buildings such as ordinary houses. Usually, it is an interior finish surface inside a building, but it may be applied to an exterior finish surface.
[Base material]
It becomes the groundwork of the surface. It may be a structural member itself such as a building frame, a pillar, or a beam, or may be a panel-shaped base plate or a grid-shaped crosspiece covering the surface of the structural member.

As the material of the base material, the same material as a structural member or base material in a normal building can be used. Specific examples include concrete, steel, cement board, gypsum board, fiber accumulation board, particle board, and plywood.
As the base material, a material having air permeability and moisture absorption / release properties can also be used. By combining with the surface finish layer, air permeability can be given to the interior space of the building structure such as the inside of the wall surface, and moisture can enter and exit. For example, humidity control gypsum board etc. are mentioned. By using the humidity control base material, the humidity control function of the surface finish layer and the humidity control function of the humidity control base material are synergistically exhibited. A humidity control wall structure having a very high humidity control function, in particular, a moisture absorption / release amount and a moisture absorption / release rate can be formed.

[Surface finish layer]
It is arrange | positioned at the surface of the said base material, and the surface has moisture permeability while being moisture-permeable and waterproof. That is, moisture easily passes from the surface of the surface finish layer to the inside, but the surface is waterproof and does not swell or lose strength due to water absorption. Liquids such as water and fine granular solids cannot easily penetrate from the surface to the inside. And the moisture control function by the moisture absorption-and-release function which absorbs and holds the moisture which permeate | transmitted inside, or discharge | releases the absorbed and held moisture to the exterior is achieved.
The surface finish layer can be composed of a single layer having a moisture permeable and waterproof surface, and the entire moisture control property. It is also possible to form a multilayer structure with a transparent coating layer that is disposed on the surface of the humidity control layer and has moisture permeability and waterproofness.

[Humidity control layer]
It is arrange | positioned on the surface of a base material and an inorganic porous granular material is mix | blended. Basically, the technology of ordinary humidity control walls and humidity control building materials can be applied.
<Inorganic porous powder>
It is a material that performs the humidity control function in the surface finishing layer.
A normal humidity-controlling inorganic porous material used in the construction field or the like can be used. Specific examples include diatomaceous mudstone, diatom shale, allophane, imogolite, sepiolite, zeolite, and Otani stone. A plurality of materials can be combined. An inorganic porous material having an average pore diameter of 20 to 200 mm and a specific surface area of 20 to ²⁰⁰ m ² / g is preferable because it has a high humidity control capability and can also exhibit a deodorizing function, a VOC removing function, and the like.

The inorganic porous material may be produced as a natural mineral or may be fired. By baking, the humidity control function and the like can be improved and the characteristics can be stabilized.
The inorganic porous material is used in the form of powder. What is powder from the time of production can be used as it is, and it can be used after being crushed if it is a rock mass. The particle size of the inorganic porous powder can usually be set to 2 mm or less.
<Material composition of humidity control layer>
In order to give a sufficient humidity control function to the humidity control layer, it is desirable to blend the inorganic porous powder in the range of 5 to 80% by weight with respect to the entire humidity control layer. In order to enhance the humidity control function, it is preferable to blend 20% by weight or more.

Various materials mixed in a normal humidity control layer can be combined except that the inorganic porous granular material is essential.
The types and blending ratios of the blending materials differ depending on whether the humidity control layer is a molded product or fired product such as a humidity control tile and a coating material such as a humidity control coating film.
<Humidity-control coating material>
Basically, materials and blends that are common to normal architectural humidity control coating materials can be used.
As a blending of the humidity control coating material, 5 to 80% by weight of the inorganic porous powder and 20 to 95% of the binder can be included.

The binder achieves coatability and coating performance. Examples of the binder include hydraulic materials such as gypsum, plaster, and cement, other inorganic binders, and organic binders such as synthetic resins.
By blending a fiber material composed of natural fiber, synthetic fiber or inorganic fiber, the strength and durability of the coating film can be improved, or the surface texture can be changed.
In addition, the colorant, preservative, antifungal agent, antifoaming agent, dispersant, thickener, antproofing agent, etc. should be used in combination as appropriate for the ingredients of the humidity control coating material. Can do. By adding a trace amount of radiation mineral, it is possible to improve the humidity control function and the negative ion release function.

The humidity control coating material can be supplied to the construction site or the manufacturing site of the humidity control building material in the form of powder, paste or liquid. The powdery humidity-conditioning coating material is applied after adding water to make it ready for coating. However, when applying humidity control coating materials to the wall of a building with a trowel or roller at the construction site, applying with a spray gun, and stacking the humidity control coating material on the base material when building materials are manufactured The appropriate water content varies depending on the usage conditions.
<Humidity control tile>
The humidity control layer can be a humidity control tile.
Basically, normal humidity control tile manufacturing technology can be applied. A general humidity control tile is manufactured by forming a tile forming material including an inorganic porous granular material, which is a humidity control material, into a tile shape such as a plate and curing it by firing or non-firing.

In the case of a fired tile, a fired and hardened material such as clay, glass, or ceramic material is blended as necessary in addition to the inorganic porous granular material. In the case of non-fired tiles, in addition to the inorganic porous particles, a hardening material that cures without firing, such as a hydraulic material such as cement or gypsum, is blended as necessary. Various additives similar to the above-described humidity control coating material can also be blended.
For the shape and structure of the humidity control tile, the same technology as that of a normal humidity control tile can be applied. For example, in addition to the general tile shape of a rectangular plate shape, a circular or other irregular shape tile, a tile having a coupling joint structure on the side of the tile, a protrusion or a recess on the back side of the tile And those having an uneven pattern on the surface of the tile.

The surface finish tile which consists of a transparent coating layer and a humidity control layer is obtained by apply | coating the material of a transparent coating layer to the surface, and making it harden | cure after the manufacture stage of the above humidity control tiles, or manufacture.
Moreover, the humidity control tile which has the surface finish layer by laminating | stacking the said humidity control layer and a transparent coating layer sequentially on the surface of the base layer which consists of a normal tile material which does not have a humidity control function can also be used.
<Function of humidity control layer>
Humidity control, which is a function of the humidity control layer, can be evaluated by moisture absorption ability and moisture release ability. Specifically, it is desirable that the moisture absorption / release amount is 50 g / m ² · 24 h or more, which is evaluated by the smaller value of the moisture absorption amount and moisture release amount. Usually, since the correlation between moisture absorption and desorption amounts, if moisture absorption is sufficiently larger than 50g ^/ m 2 · 24h, it presumed that the moisture desorption amount exceeds 50g ^/ m 2 · 24h.

The moisture absorption / release amount of the humidity control layer varies depending on the thickness of the humidity control layer. The preferred thickness differs between the case where the humidity control layer is formed by coating and the case where the humidity control layer is molded and cured like a humidity control tile.
When the coating is formed, the film thickness after drying can be set in the range of 500 μm to 5 mm. It is desirable that the moisture absorption / release amount can be achieved within this thickness range.
In the case of molding and hardening, since the thickness is usually determined in consideration of mechanical strength, deformation resistance, etc., a sufficient thickness necessary for exhibiting moisture absorption / release properties can be secured. The thickness of the humidity control tile formed by molding and hardening can usually be set to 4 to 30 mm.
The thickness of the humidity control layer is also changed by the presence of the base material. When the base material has humidity control, the humidity control capability of the humidity control layer may be relatively small.

The humidity control layer can be provided with various functions for improving the air environment such as deodorization and VOC removal function in addition to humidity control.
(Transparent coating layer)
It is arranged on the surface of the humidity control layer and has moisture permeability and waterproofness.
Moisture permeability is also a property of allowing water vapor, that is, vapor, to pass through, which can be said to be water vapor permeable. The waterproof property is a property that can maintain the properties such as the original strength and durability without being melted, altered or swollen even when water contacts the surface. It is desirable that the liquid water is impermeable so that it does not easily pass through to the extent that the various functions of the humidity control layer are not impaired. It is a transparent layer with such characteristics.

The thickness of the transparent coating layer varies depending on the material used and required performance, but can usually be set to 5 to 100 μm. It is better to make it relatively thick in order to increase the protective function and waterproofness of the humidity control layer, and it is better to make it relatively thin in order to improve moisture permeability. If it is too thin, the surface of the humidity control layer having porous irregularities cannot be sufficiently covered, and functions such as contamination prevention are deteriorated. If it is too thick, the air permeability is hindered, so that the humidity control effect of the humidity control layer is impaired, and there is a drawback that cracks are likely to occur in the coating film.
The water vapor permeability for evaluating the moisture permeability of the transparent coating layer is preferably 400 g / m ² · 24 h or more. Those having a surface hardness of 3H to 3B (pencil hardness) are less likely to be scratched or worn on the surface of the surface finishing layer.

As the transparent coating layer, a porous resin coating can be used.
<Porous resin coating>
The porous resin film uses synthetic resin as a basic film-forming material, but is not a dense film like a normal synthetic resin film, and has a porous structure with innumerable fine pores.
With such a porous structure, the water vapor permeability is excellent, and at the same time, the water resistance is excellent, and the water-impermeable property can be exhibited. The properties of the porous resin coating vary depending on the pore size and distribution of the porous structure, the pore shape, and the like.
As a material for forming a porous resin film, fine inorganic particles having a particle size of 0.001 to 3.0 μm are 10 to 200% by weight of the solid content of the aqueous emulsion in an aqueous emulsion in which 30 to 60% by weight of a synthetic resin is blended. A water-based transparent coating material blended in proportions can be used. The presence of fine inorganic particles causes the shrinkage and hardening of the resin film partially isolated at the location of the fine inorganic particles during film formation, and a porous structure is formed without forming a uniform resin film. Will be.

  The synthetic resin is at least one synthetic resin selected from the group consisting of acrylic resins, silane-based acrylic resins, acrylic-styrene resins, and silane-based acrylic-styrene resins, and has a glass transition point Tg of 10 ° C. or lower. Material can be used. Since the glass transition point is low, the film formability during coating becomes good. A transparent coating material containing fine inorganic particles having no ability to form a coating film has a function of forming a film with a synthetic resin. When the glass transition point is too high, the film forming property of the transparent coating material is deteriorated. A transparent coating material that is coated and cured at room temperature must be able to exhibit sufficient film forming properties at about room temperature. In the case where the transparent coating material is cured by heating, it is sufficient that sufficient film forming properties can be exhibited at the heating temperature at that time.

The form of the synthetic resin is not particularly limited. For example, it can be supplied in the form of independent synthetic resin particles, but is usually produced in the form of an aqueous emulsion in which synthetic resin particles are dispersed in an aqueous medium, and in the form of this aqueous emulsion, Can be supplied to manufacture.
Examples of the fine inorganic particles include colloidal silica, titanium oxide sol, alumina sol, and iron oxide sol. Although depending on the particle size, a material having as high a transparency as possible can enhance the transparency of the transparent coating layer. A material excellent in dispersibility in a transparent coating material and adhesion to a synthetic resin is preferable. Among the materials, colloidal silica is easy to handle and has excellent performance.

When the particle diameter of the fine inorganic particles is too large, it is difficult to adsorb on the surface of the resin particles during film formation, and it is difficult to form pores with a desired size and amount in the resin film. When the particle size is too small, it is difficult to produce and it is difficult to uniformly disperse it in the transparent coating material. In the said particle size range, 0.002-1.0 micrometer is further preferable.
If the blending amount of the fine inorganic particles in the transparent coating material is too small, it is difficult to form the target porous structure, and the water vapor permeability of the transparent coating layer is deteriorated. When there are too many fine inorganic particles, the film-forming property of a transparent coating material will fall, and the waterproofness of a transparent coating layer will worsen. It is more preferable that the fine inorganic particles are 15 to 160% by weight of the aqueous emulsion solid content in the blending ratio range.

In addition to the above materials, the transparent coating material is blended with various additive materials blended into a normal coating material. Specifically, a thickener, an emulsifier, an antifoamer, etc. are mentioned.
As a technique for producing a transparent coating material for forming a porous resin film, the technique disclosed in Japanese Patent Publication No. 7-110906 can be used. The trade name “Movinyl 8000 series” available from Clariant Polymer Co., Ltd. can be used.
[Built-in waterproof and moisture conditioning layer]
The surface is a single layer that is moisture permeable and waterproof, and that is entirely moisture conditioned.
It can be configured by combining the material of the humidity control layer and the material of the transparent coating layer.

Specifically, the coating film formed by applying an aqueous coating material containing an inorganic porous granular material, a synthetic resin, and fine inorganic particles having a particle diameter of 0.001 to 3.0 μm is prepared as a whole. While having a moisture function, the surface can be moisture permeable and waterproof. As a matter of course, the moisture permeable waterproof / humidity adjusting layer is not transparent.
The materials and blends used are the same as those for the humidity control layer and the transparent coating layer. It is sufficient to mix the material of the humidity control layer and the material of the transparent coating layer. In accordance with the intended function, a case where each is formed as a separate layer and a part of the composition can be changed.
For example, by making the surface waterproof and moisture permeable sufficiently, even if the humidity control property is slightly lowered, it can be supplemented by another means. Specifically, if a base material having a humidity control function is disposed on the back surface of the surface finishing layer composed of a moisture permeable / waterproof / humidity control layer, humidity control can be improved. In order to improve the stain resistance, the blending amount of the inorganic porous granular material in the moisture permeable waterproof / humidity controlling layer is set to 60% by weight or less in the blending amount range in the humidity controlling layer described above. It is preferable. Since the same material can be used for the synthetic resin constituting the aqueous emulsion in the transparent coating layer and the synthetic resin constituting the organic binder in the humidity control layer, the organic binder in the humidity control layer is used in the moisture permeable waterproof / humidity control layer. Can be used together with the synthetic resin in the transparent coating layer.

[Surface finishing building materials]
Instead of the surface finish layer that is constructed on site at the construction site, the surface finish structure is constructed by producing in advance in a factory and carrying it to the construction site for construction.
Basic materials, structures, shapes, etc. can be applied with techniques common to humidity-controlled building materials used as ordinary building parts and members. For example, a humidity control tile, a humidity control board, a humidity control block, etc. are mentioned.
In addition to those having a base material and a surface finishing layer as a surface finishing building material, there are surface layer finishing building materials composed only of a surface finishing layer.

<Laminated structure of base material and surface finish layer>
It can be manufactured by sequentially applying and curing a humidity control layer and a transparent coating layer as a surface finish layer on the surface of a base material manufactured in advance. The base material may be one obtained by coating and curing a moisture permeable waterproof / humidity controlling layer as a surface finish layer. It is also possible to integrate the surface finishing layer manufactured in advance by bonding to the surface of the base material by fixing fastening means such as adhesion. The integration of the base material and the surface finish layer can be integrated with the surface finish layer after the base material is constructed at the construction site of the building. It is also possible to integrate the base material and the surface finish layer in the base material production factory. Of the surface finish layers, only the humidity control layer can be integrated with the base material, and a transparent coating layer can be formed on the surface of the humidity control layer in the final finishing stage of the building.

Building manufactured by pasting a base material with a surface finish layer on a steel frame, housing heat insulation in the steel frame, or pasting exterior materials on the opposite side of the steel frame Composite panels can be configured.
<Things consisting only of the surface finish layer>
Like the humidity control tile described above, there is a surface finish building material composed of only a surface finish layer composed of a humidity control layer and a transparent coating layer, and a plate-like body that can be attached to a base material. Humidity control boards such as humidity control gypsum board can also be used as the humidity control layer of such exterior finishing building materials. These humidity control boards have both the function of the humidity control layer and the function of the base material.

In the case of a surface-finished building material consisting only of a surface-finished layer, a reinforcing material can be embedded in order to give the humidity control layer mechanical strength and durability. It is also possible to provide an engagement structure or a mounting bracket for attaching to the base material.
[Method of forming the surface finishing layer]
Basically, the surface finishing technique for ordinary buildings is applied. There are a process performed at a construction site and a process performed in advance at a manufacturing plant different from the construction site.
Specifically, the following steps can be combined.
A step (a) of forming a humidity control layer in which an inorganic porous granular material is blended, which is disposed on the surface of the base material.

A step (b) of applying a transparent coating material, which becomes a transparent coating layer having moisture permeability and waterproofness, to the surface of the humidity control layer having a moisture content of 20% or less and drying and curing it;
In the step (a), there are a case where a humidity control layer is formed on the surface of the base material and a case where there is no base material and only the humidity control layer is formed alone.
In step (b), it is important to set the moisture content of the humidity control layer to 20% or less.
If the moisture content of the humidity control layer is too high, the moisture contained in the humidity control layer tends to cause a problem that the coating film of the transparent coating material coated thereon is devitrified. The water vapor permeability of the formed transparent coating layer is also lowered. If the moisture content is in a sufficiently low and dry state, the transparent coating material can be applied satisfactorily, and the performance of the formed transparent coating layer can be exhibited well.

  As a means for forming a transparent coating layer by applying a transparent coating material on the surface of the humidity control layer, a normal on-site coating technique or a manufacturing factory coating technique can be applied. Examples include brush coating, roll coating, spray coating, and flow coater coating.

The surface finishing structure according to the present invention has a surface that is moisture permeable and waterproof, and has a surface finishing layer having humidity control, so that when applied to interior finishing of an indoor wall of a house, the construction environment It is possible to adjust the humidity appropriately so that the humidity does not become excessively high or dry, and it is difficult for the surface to get dirty, and it is possible to easily remove such dirt by wiping it off.
As a result, excellent appearance and surface properties can be maintained well over a long period of time. The period required for repairing the finishing structure and repainting can be greatly extended, and the cost required for building maintenance can be reduced.

  Moreover, since the surface finishing layer has air permeability from the surface to the inside, it has excellent sound absorption characteristics.

The embodiment shown in FIG. 1 is a case where the cover finishing structure of the present invention is applied to the interior structure on the indoor wall surface of a general house. The left side of the figure is the interior space, and the right side is the internal structure of the wall.
The base material 10 is constructed on the indoor side surfaces such as wall frames, columns, and frame materials that are not shown. For example, gypsum boards are mounted side by side.
A surface finishing layer 20 is formed on the surface of the base material 10. The surface finish layer 20 includes a humidity control layer 24 adjacent to the foundation layer 10 and a transparent coating layer 22 disposed on the surface of the humidity control layer 24.
The humidity control layer 24 is formed by applying and drying and curing a coating wall material containing inorganic porous particles such as sandy shale with a coating wall technique such as trowel coating. The surface of the formed humidity control layer 24 expresses natural texture and color peculiar to the blended shale.

In the transparent coating layer 22, after the moisture conditioning layer 24 is formed, when the moisture content of the moisture conditioning layer 24 is sufficiently released and the moisture content becomes 20% or less, fine inorganic particles are formed in the aqueous emulsion containing the synthetic resin. It is formed by applying the blended transparent coating material by ordinary spray coating and drying and curing. Since the transparent coating layer 22 is transparent, the surface appearance of the cover finish layer 20 is a state in which the texture and color of the humidity control layer 24 are expressed as they are.
When the humidity is excessively high in the interior space where the surface finishing construction is performed, moisture passes through the transparent coating layer 22 having a high water vapor permeability in the surface finishing layer 20 and enters the humidity control layer 24. , And is absorbed and held in the inorganic porous granular material of the humidity control layer 24. The humidity of the indoor space is lowered, and the humidity becomes comfortable for residents. Thereafter, when the indoor space is too dry, the moisture absorbed and held in the humidity control layer 24 passes through the transparent coating layer 22 and is released into the indoor space. The indoor space returns to a state containing moderate moisture, and a comfortable environment for the occupants is obtained. In addition, the humidity control layer 24 blended with a pity shale has a function of adsorbing and removing odors and VOCs in the indoor space, a function of releasing negative ions, and the like, and can effectively improve the environment of the indoor space.

When water is used in an indoor space, or when cooking or eating or drinking is performed, water, seasonings, fruit juice, or the like may adhere to the surface of the surface finishing layer 20. A liquid such as water adhering to the surface of the transparent coating layer 22 cannot pass through the non-water-permeable transparent coating layer 22 and enter the humidity control layer 24. If the liquid is wiped off from the surface of the transparent coating layer 22, the surface of the cover finish layer 20 returns to its original clean state. Fine solids such as dust cannot pass through the transparent coating layer 22 and remain on the surface, so that they can be easily wiped off.
In addition, the humidity control layer 24 composed of smoky shale is likely to be scratched or chipped when it is hit or scratched, but if it is covered with the transparent coating layer 22, a slight external force or It is not easily damaged at the friction level.

As a result, the surface finishing layer 20 can maintain a good humidity control function and excellent appearance over a long period of time.
Furthermore, the exterior finishing layer 20 composed of the transparent coating layer 22 and the humidity control layer 24 has a fine porous space that leads from the surface to the inside due to its structure, and thus has good air permeability. The sound absorbing property for absorbing the sound is excellent.
[Built-in waterproof and moisture conditioning layer]
The embodiment shown in FIG. 2 includes a moisture permeable waterproof / humidity adjusting layer.
On the surface of the base material 10 similar to that of the above-described embodiment, a moisture permeable waterproof / humidity adjusting layer 26 is formed as a surface finishing layer 20.

It is formed by applying a coating material to be the moisture permeable waterproof / humidity adjusting layer 26 to the surface of the base material 10 by a coating means such as a trowel and drying and curing. The coating material is a mixture of the material of the transparent coating material and the material of the humidity control layer in the embodiment.
The moisture permeable waterproof / humidity controlling layer 26 is blended with an opaque inorganic porous granular material, and therefore is not transparent but opaque as a whole. However, the synthetic resin and fine inorganic particles which are the materials of the transparent coating material are substantially transparent. As a result, the moisture permeable waterproof / humidity controlling layer 26 in the formed state expresses the color and texture of the porphyry shale used for the inorganic porous granular material.
Also in this embodiment, excessive moisture in the indoor space is absorbed and retained by the moisture permeable waterproof / humidity controlling layer 26, or moisture is released from the moisture permeable waterproof / humidity controlling layer 26 to the indoor space. The humidity environment can be adjusted to a certain range suitable for living.

In addition, since the surface of the inorganic porous granular material is covered with a transparent film formed of synthetic resin and fine inorganic particles, water attached to the surface of the moisture permeable waterproof / humidity controlling layer 26, etc. The liquid does not penetrate into the moisture permeable waterproof / humidity controlling layer 26. By simply wiping off the surface of the moisture permeable waterproof / humidity controlling layer 26, the surface of the surface finishing layer 20 can be maintained in a beautiful state indefinitely. Similarly to the above-described embodiment, in this embodiment, the breathable moisture-permeable waterproof / humidity adjusting layer 26 exhibits good sound absorption characteristics.
[Humidity control tile]
In the embodiment shown in FIG. 3, the surface finish layer is composed of humidity control tiles 30.

The humidity control tile 30 has a plate shape such as a rectangle like the normal humidity control tile. The side edge of the humidity control tile 30 is provided with a splice joint which is an unevenness for meshing and connecting with each other.
The humidity control tile 30 is formed on the surface of the humidity control layer 34 obtained by molding and baking and curing a tile material containing an inorganic porous granular material that is a humidity control material. And a transparent coating layer 32 obtained by coating and drying and curing the same transparent coating material.
On the surface of the base material 10, the humidity control tiles 30 are laid side by side while being connected to each other by a joint joint. Similar to normal tile construction, the back surface of the humidity control tile 30 is bonded and fixed to the base material 10 by using a mortar or an adhesive or fastening with a screw nail.

In the construction state, the entire surface of the constructed humidity control tile 30 is covered with the transparent coating layer 32. The entire construction surface can be coated again with a transparent coating material to cover the entire surface uniformly or to fill the gaps between the humidity control tiles 30.
On the surface where the humidity control tile 30 has been constructed, as in the case of the normal humidity control tile 30, a humidity control function for adjusting the humidity of the indoor space is performed, and the presence of the transparent coating layer 22 allows the surface to be formed on the surface. It is possible to prevent the adhering liquid or the like from entering the inside of the humidity control tile 30. Simply wiping off the liquid on the surface can restore the original beauty. The performance excellent in the sound absorption characteristic can be demonstrated like the said embodiment.

The concrete example which actually constructed the cover finishing structure and the result of evaluating its performance are shown.
[Materials used]
<Humidity-control coating material>
Formulation: Slag shale (average pore size 20-200Å, specific surface area 20-200 m ² / g, pulverized to a particle size of 1 mm or less) 50% by weight, plaster 45.5% by weight, vinylon fiber 1% by weight, powdered acrylic resin 3 Wt%, thickener 0.5 wt%, water 50 wt%.
The above materials were sufficiently stirred and mixed by a conventional method to obtain a humidity control coating material.
<Humidity control tile>
Composition: 75% by weight of slag shale (same as humidity control coating material), 20% by weight of clay, and 5% by weight of glass powder.

The above materials were thoroughly mixed and pulverized by a conventional method, and then spray-dried to prepare a tile molding material. The tile molding material was molded with a mold and then baked to obtain a humidity control tile.
<Transparent coating material>
Resin emulsion: A general-purpose resin emulsion product consisting of an aqueous emulsion in which acrylic resin particles are dispersed in water and having a resin solid content of 50% by weight was used.
Fine inorganic particles: General-purpose colloidal silica or titanium oxide sol products were used.
A predetermined amount of resin emulsion and fine inorganic particles were mixed with 1% by weight of an acrylic thickener, and water was added to prepare a solid content concentration of 20%.

[Construction of surface finish structure]
<Painted wall finish>
A commercially available gypsum board was used as the base material. The humidity control coating material was applied to the surface of the gypsum board at a coating amount of 3 kg / m ² to form a humidity control layer. It was left to stand for 2 days and dried until the water content became 10% or less.
After spraying the transparent coating material on the surface of the humidity control layer, it was dried and cured at a predetermined drying temperature over 7 days to form a transparent coating layer. Table 1 shows the drying temperature and the film thickness of the obtained transparent coating layer.

<Tile finish>
A transparent coating layer was formed by applying a transparent coating material to the surface of the humidity control tile in the same manner as the painted wall finishing in the previous section. Also in this case, the moisture content of the humidity control tile was set to 10% or less.
[Performance evaluation test]
<Water vapor transmission rate>
According to JIS-K7129, the amount of water vapor permeation in the transparent coating layer alone was measured.
<Hygroscopicity>
The back and side surfaces of each test specimen were sealed with aluminum foil. After holding for 48 hours in an environment of 25 ° C. and 50% RH, the amount of increase in weight when holding at 25 ° C. and 90% RH for 24 hours was measured to calculate the amount of moisture absorption (g / m ² · 24 h).

<Contamination resistance>
On the surface of each specimen, 1 cc of a dirty liquid containing a substance that may adhere to the indoor wall surface in the life such as coffee, Japanese tea, soy sauce, sauce, etc. was dropped with a dropper. After 1 minute, it was washed with water, and the removal state of the dirty liquid was visually observed. The evaluation criteria are as follows.
○: Completely removed.
(Triangle | delta): Although it removed considerably, the adhesion trace is recognized clearly.
X: It could not be removed at all.
<Surface hardness>
The pencil hardness was measured according to a conventional method. The smaller the number before B, the harder it is, the harder H than F and F than B, and the larger the number before H, the harder it is.

〔Test results〕
The results of the above test are shown in Tables 1 and 2.

<Evaluation>
(1) Comparative Examples 1 and 2 are normal humidity control coating films and humidity control tiles that do not form a transparent coating layer. Although the amount of moisture absorption is large, the humidity control function can be exerted. However, if liquid dirt adheres, the liquid soaks in and cannot be removed, resulting in poor stain resistance.
(2) On the other hand, in Examples 1 to 4 provided with a transparent coating layer, the moisture absorption amount hardly changed, and liquid stains could be easily wiped off, and the stain resistance was excellent. In addition, the appearance of the surface finish structure was satisfactory because the color and texture of the humidity control coating film and humidity control tile were exposed through the transparent coating layer.

(3) In Example 3, the amount of moisture absorption is larger than that of Comparative Example 1 having no transparent coating layer. This can be presumed to be due to the fact that a certain amount of moisture absorption capability is also exhibited in the transparent coating layer itself.
(4) In addition to the above test results, if the Tg of the resin emulsion is too high, the coating film tends to crack, and if there are too many fine inorganic particles, the coating film tends to crack, It was also confirmed that when the particle size is too large, the amount of moisture absorption decreases.

  The present invention can be applied, for example, to an interior finishing structure of an indoor wall of a general house. In addition to being able to exhibit a function of adjusting humidity to a comfortable humidity range for living in an indoor space, the surface is difficult to get dirty, and the attached dirt Is easy to remove and can maintain good appearance quality over a long period of time. It also has excellent sound absorption characteristics.

Sectional drawing of the surface finishing structure showing the embodiment of the present invention Cross-sectional view of a cover finishing structure representing another embodiment Cross-sectional view of a cover finishing structure representing another embodiment

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Base material 20 Surface finish layer 22 Transparent coating layer 24 Humidity control layer 26 Moisture-permeable waterproof / humidity control layer 30 Surface finish tile 32 Transparent coating layer 34 Humidity control layer

Claims (4)

A surface finishing structure that constitutes the surface of the building,
A base material to be a base of the surface of the surface, and a surface finish layer disposed on the surface of the base material, the surface is moisture permeable and waterproof, and has a humidity control property ,
The surface finishing layer is disposed on the surface of the base material, a humidity control layer in which an inorganic porous granular material is blended, and a transparent coating provided on the surface of the humidity control layer and having moisture permeability and waterproofness. And having a layer
The humidity control layer is a powder of at least one inorganic porous material selected from the group consisting of diatomaceous mudstone, diatom shale, allophane, imogolite, sepiolite, zeolite and Oya stone, plaster as an inorganic binder, and a fiber material. Is a coating film of a humidity control coating material containing 5 to 80% by weight of an inorganic porous granular material composed of powder of the inorganic porous material and 20 to 95% by weight of a binder,
The transparent coating layer is composed of at least one selected from the group consisting of acrylic resin, silane-based acrylic resin, acrylic-styrene resin, and silane-based acrylic-styrene resin, and a synthetic resin having a glass transition point of 10 ° C. or lower is 30 to 30 ° C. It consists of a coating film of a transparent coating material in which fine inorganic particles having a particle size of 0.001 to 3.0 μm are blended in a proportion of 10 to 200 wt% of the solid content of the aqueous emulsion in 60 wt% of the aqueous emulsion, It is a transparent porous film having a permeation amount of 400 g / m ² · 24 h or more and a surface hardness of 3H to 3B (pencil hardness).
The finishing structure of the building. It is the surface finishing building material used for the surface finishing structure of Claim 1, Comprising: The surface finishing which is arrange | positioned on the surface of the said base material and the said base material, and the surface is moisture-permeable and waterproof, and has humidity control property and a layer, mounting finishing building material of the building. A mounting finishing building material for use in mounting the finish structure of claim 1, wherein the mounting consists finish layer, wherein a possible plate-like body attached to the base member, mounting finishing construction materials for buildings. A method for forming a surface finish layer according to claim 1 ,
A step (a) of forming a humidity control layer in which an inorganic porous granular material is mixed, which is disposed on the surface of the base material;
A step (b) of applying a transparent coating material that becomes a transparent coating layer having moisture permeability and waterproofing to the surface of the humidity control layer having a moisture content of 20% or less, and drying and curing ;
Including, a method of forming the upper mounted finish layer.

Images