JP2003253773A - Humidity-conditioning wall structure and its construction method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a humidity-conditioning wall structure having a high- humidity-conditioning function capable of easily constructing a wall structure excellent in the humidity-conditioning function. <P>SOLUTION: The wall structure constituting the wall surface of a building and having the humidity-conditioning function includes a humidity-conditioning board 30 containing a humidity-conditioning material, comb-like adhesion layers 20 painted on the surface of the board 30, provided with vapor permeability and alternately arranging thick membrane sections 22 in thickness and thin membrane sections 24 in thickness and humidity-conditioning tiles 10 with a plate-like tile containing the humidity-conditioning material, having a plurality of projections 12 projected to the rear side and arranged at regular intervals in the direction of the surface, arranged on the surface of the board 30 at a regular interval G between both of them and connected to the board 30 by abutting the projections 12 on the comb-like adhesion layers 20. <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 humidity control wall structure and a method of constructing the same, and more particularly, it is used for a wall surface of a house and the like, and when the humidity rises excessively in response to changes in the humidity of the construction environment, the humidity is reduced. The object is a wall structure that absorbs moisture and releases moisture when the humidity drops too much, and a method for constructing such a humidity control wall structure.

[0002]

2. Description of the Related Art A technique for adhering humidity control tiles to the interior wall surface of a house to perform the humidity control function in the interior space is already widely known and has many achievements. For the wall construction using humidity control tiles, apply an adhesive on the surface of the interior base material made of plywood or gypsum board, and place the humidity control tiles side by side on the coated adhesive layer. Go. Humidity control tiles that are pasted next to each other can be lined up without gaps,
Arrange them with a little space left between them. This gap has a structure called joint in normal tile construction, and has a function of making tile unevenness and shape error inconspicuous and allowing deformation and movement after construction. It is common to embed mortar and adhesive in the joints and close them.

[0003]

However, the conventional humidity control tile construction described above has a problem that the humidity control function of the humidity control tile cannot be sufficiently exhibited. The humidity control function of the humidity control tile is performed on the surface exposed to the indoor space and in contact with air. However, in the installed state of the humidity control tile, only the surface of the humidity control tile is exposed to the indoor space. Therefore, for example, if the surface of the humidity control tile absorbs moisture and becomes saturated, further moisture absorption becomes difficult. Of course, the moisture absorbed on the surface of the humidity control tile gradually diffuses toward the inside, but it takes time, so it is difficult to cope with a sudden change in humidity. Similarly,
Even when the moisture held by the humidity control tile is released when the indoor environment is dry, the moisture release from only the surface cannot provide sufficient water replenishment.

When the above-mentioned joint is provided, the side surface of the humidity control tile can be exposed, and the humidity control function can be exerted also on the side surface, but the air circulation is sufficient up to the depth of the joint which is narrow and dead. Since it is unnecessary, the improvement of the humidity control function by joints is not sufficient. In addition, humidity control tiles are relatively thin and small plate pieces that affect the appearance and design of interior wall surfaces, productivity, and ease of handling during construction. The moisture absorption of the entire tile is not very high. Therefore, in a high humidity environment such as the rainy season, it is difficult to maintain the indoor space in a comfortable humidity range by the humidity control function of only the humidity control tile.

An object of the present invention is to solve the above-mentioned problems of the conventional humidity control tile wall and further improve the humidity control function. Another object is to facilitate the construction of such a wall structure having an excellent humidity control function.

[0006]

A humidity control wall structure according to the present invention is a wall structure which constitutes a wall surface of a building and has a humidity control function, and a humidity control board containing a humidity control material, A comb-like adhesive layer, which is applied to the surface of the humidity control board and has moisture permeability and in which a thick film portion with a large thickness and a thin film portion with a small thickness are alternately arranged, and a plate piece containing a humidity control material Tiles of
It has a plurality of protrusions protruding to the back surface side and arranged at intervals in the surface direction, arranged side by side on the surface of the humidity control board with an interval between each other, and the protrusions are the comb-shaped adhesive layer. And a humidity control tile abutting on the humidity control board and joined to the humidity control board.

[Wall of Building] The present invention can be applied to a wall of various buildings such as a general house and an apartment house which requires a humidity control function. In addition to the normal side wall surface, the wall surface
It means the surface structure of a building, including the ceiling walls, floor walls, and pillar walls. As a wall surface of a building, it can be applied to an indoor wall surface as well as an outdoor wall surface. [Humidity control material] Humidity control boats and humidity control tiles are provided with a humidity control function. The humidity control materials normally used in the construction field can be used. Specific examples include siliceous shale, zeolite, sepiolite, silica gel and the like.

The shape of the humidity control material is, in the case of natural rock or the like, the state of being mined or the state of being crushed. In the case of the synthesized material, there are a powdery material, a fibrous shape, a pellet shape, and the like. [Humidity control board] A humidity control material is contained, and at least the surface has a humidity control function. It also functions as a support structure for humidity control tiles. It has a board or plate shape with a relatively large area. Generally, it is a flat rectangular plate, but depending on the construction site, a polygonal plate other than a rectangular plate or a curved plate may be used. Bending plates and curved plates are also used at the corners and corners of walls and columns.

As the material of the humidity control board, basically, the same material as a normal building board material is used, and a material having a humidity control function, that is, a humidity control material is contained therein. Examples of basic materials include plaster, cement, plaster, ceramics, wood materials, and fiber materials. A humidity control board can be manufactured by blending a humidity control material with these basic materials and undergoing the same manufacturing process as a normal building board. [Comb-like adhesive layer] It is applied to the surface of the humidity control board. Has moisture permeability. A thick film portion having a large thickness and a thin film portion having a small thickness are alternately arranged.

As an adhesive for forming the comb-shaped adhesive layer,
If you can join the humidity control tile to the humidity control board, from the various adhesives used for normal tile construction and building construction,
A material having moisture permeability can be used. Specifically, an acrylic adhesive or a vinyl acetate adhesive can be used. Moisture permeability of the comb-like adhesive layer is 500g / m ² · 2
It is preferably 4 Hr (0.2 mm thick) or more. The moisture permeability is measured by a conventional method. Especially, moisture permeability 900-1500g
/ M ² · 24 Hr (0.2 mm thickness) is preferable. The adhesive is applied over the entire surface of the humidity control board, and the humidity control tiles are arranged side by side at regular intervals to bond the humidity control tile to the humidity control board with a comb-shaped adhesive layer. Is fulfilled.

The thick film portion can be set to a thickness required to exert an adhesive force enough to firmly bond the protruding portion of the humidity control tile to the humidity control board. In addition, in order to adjust the unevenness and inclination of the humidity control tile, the position of the protruding portion is set so that it can be reliably joined even if it is separated from the surface of the humidity control board. However, the protrusions should be completely filled and not thick enough to adhere to the back surface of the humidity control tile. Specifically, the thickness can be set to 1-4 mm. The width of the thick film portion is also set so that the protruding portion of the humidity control tile can be firmly bonded to the humidity control board. If the width of the thick film portion is too thick, the humidity control function of the humidity control board is hindered. Specifically, the width can be set to 1-4 mm.

If the thin film portion is as thin as possible, the humidity control function of the humidity control board can be effectively exhibited. However, the thin film portion having a small thickness also has a function of joining the protruding portion of the humidity control tile to the humidity control board. Specifically, the thickness can be set to 0.1-2 mm. The wider the pitch interval between the thick film portion and the thin film portion, the more the proportion of the thin film portion relatively increases, which is effective for the humidity control function of the humidity control board to be exhibited. However, if the pitch interval of the thick film portion becomes too wide, the rate at which the protrusions of the humidity control tile abut the thick film portion decreases, and the humidity control tiles are not joined sufficiently. It is desirable that the pitch interval between the thick film portion and the thin film portion is set according to the pitch interval between the protrusions of the humidity control tile.
Specifically, the pitch interval between the thick film portion and the thin film portion is 1-4 mm.
Can be set to.

The arrangement pattern of the thick film portion and the thin film portion in the plane direction may be linear or may be curved such as a waveform. Concentric circles and radial patterns are also conceivable. It is also possible to combine different arrangement patterns. [Humidity control tile] A plate-shaped tile containing a humidity control material. The basic material, structure, and manufacturing method may be the same as those of the humidity control tiles used in ordinary building construction. The humidity-controlled tile includes a tile material which is obtained by molding, drying and curing the tile raw material, hydrated and cured.

The tile raw material includes ceramic raw material, ceramic material, glass material and the like. It also includes cement-based materials, plaster, and plaster. Colorants and the like are also added. The shape of the humidity control tile is generally a rectangular plate shape, but there are polygonal shapes other than the rectangular shape, and curved shapes such as a circular shape and an oval shape. The surface of the humidity control tile may be flat, or may be provided with an uneven pattern or a design figure. The humidity control tile may be made of the same material as a whole, or layers having different colors and characteristics may be laminated in the thickness direction. For example, a decorative layer excellent in color and texture can be arranged on the surface side.

The rear surface of the humidity control tile has a plurality of protrusions that project toward the rear surface and are arranged at intervals in the surface direction.
The protrusion ensures the bonding to the humidity control board by the comb-like adhesive layer and forms a space in which air flows between the humidity-adjusting tile and the comb-like adhesive layer. Shape and dimensions of the protrusion,
The arrangement interval and the like can be set within a range suitable for fulfilling the above functions. The shape of the protrusion is cylindrical, prismatic,
A spot shape such as a tapered column shape is preferable because it does not hinder the air flow in the front, rear, left and right directions, but it may be a convex wall shape extending in the surface direction. If you round the tip of the protrusion,
It can be smoothly pushed into the comb-shaped adhesive layer, and the outer peripheral surface of the protrusion can be easily covered with the adhesive. It is also possible to add fine irregularities to the surface such as the tip end surface to increase the bonding force with the comb-shaped adhesive layer.

The protrusions on the rear surface of the humidity control tile may be arranged in a grid pattern at equal intervals in the vertical and horizontal directions, or may be arranged in a staggered pattern, concentric circles, a radial pattern, or at irregular intervals. It can be placed only near the outer periphery of the humidity control tile, or the density can be changed depending on the location. The specific dimensions of the protrusion are a height of 0.5-3 mm and an outer diameter of 5
It can be set to -15 mm and a pitch interval of 10-30 mm. [Humidity control wall construction] Basically, the same technique as that for finishing construction of a wall surface in a normal building is applied.

[0017] As wall construction, there is a construction in which an interior material and an exterior material are applied to a wall skeleton made of concrete, steel frame, wood pillars or the like for finishing. There is also a panel construction method in which a building panel in which the constituent members of the wall surface are integrated is built in advance, and at the same time as the construction of the wall surface, the interior and exterior construction can be performed. In any case,
A base material is often applied to the surface of the wall surface for finishing. As the base material, plywood or particle board is used. In order to prevent the penetration of moisture into the inside of the wall, a moisture-proof base material can be used, or a moisture-proof sheet can be applied before the humidity control board is applied.

The humidity control board is fixedly attached to the surface of the base material as described above with nails or screw nails. You may fix a humidity control board to a pillar, a stud, or a cross. The humidity control board should be installed on the entire wall without any gaps. Next, the surface of the humidity control board is coated with an adhesive to form a comb-shaped adhesive layer in a comb shape. Basically, it can be performed in the same manner as the adhesive coating work in normal humidity control tile construction. To form the comb-like adhesive layer, an adhesive can be applied using a comb-like spatula having comb-like irregularities at its tip to efficiently form a uniform comb-like pattern.

Before the comb-like adhesive layer is cured, humidity control tiles are arranged on the surface of the comb-like adhesive layer with a space between each other. Make a space between the humidity control tiles. The size of the gap is determined in consideration of appearance design and air circulation to the gap. Specifically, the gap is set within the range of 0.5-3 mm. By pressing the protrusions of the humidity control tile against the comb-shaped adhesive layer, the protrusions are bonded to the humidity control board via the comb-shaped adhesive layer. At this time, if the thick film portion of the comb-shaped adhesive layer is pushed away by the protrusions so that the protrusions are embedded in the thick film portion, strong bonding can be achieved. The protrusion may be pressed until it penetrates the comb-like adhesive layer and comes into contact with the surface of the humidity control board, or the tip of the protrusion may stay in the middle of the comb-like adhesive layer.

When the comb-like adhesive layer is cured and the humidity control tile is firmly bonded to the humidity control board, the construction of the humidity control wall is completed. Furthermore, it is also possible to apply a moisture-permeable coating to the surface to protect it.

[0021]

BEST MODE FOR CARRYING OUT THE INVENTION The humidity control wall structure shown in FIGS. 1 and 2 is intended for indoor wall surfaces of general houses. As shown in FIG. 1, a humidity control board 30, a comb-shaped adhesive layer 20, and a humidity control tile 10 are applied to the surface of a wall surface base material 40 made of plywood or the like. [Humidity Control Board] The humidity control board 30 is a rectangular plate having a relatively large area, and is a humidity control gypsum board obtained by molding and curing a gypsum material containing a humidity control material such as siliceous shale. For example,
The dimensions are 260 cm length × 90 cm width × 1.2 cm thickness.

The humidity control board 30 is formed on the surface of the base material 40.
It is fixed by nailing. In the comb-shaped adhesive layer 20,
An acrylic adhesive (F124, manufactured by First Kako Co., Ltd.) having a moisture permeability of 600 g / m ² · 24 hr (0.2 mm thickness) is used. [Comb-Shaped Adhesive Layer] In the comb-shaped adhesive layer 20, relatively thick thick film portions 22 and relatively thin thin film portions 24 are alternately arranged. As shown in FIG. 2, the thick film portion 22 and the thin film portion 24 are arranged in parallel strips. The comb-shaped adhesive layer 20 is applied by applying the adhesive to the surface of the humidity control board 30 by using a comb-like spatula. The comb-like spatula has irregularities at regular intervals at its tip. By linearly moving the comb-shaped spatula, a comb-shaped pattern in which the thick film portions 22 and the thin film portions 24 are alternately arranged in parallel is formed. Therefore, the shapes and dimensions of the thick film portion 22 and the thin film portion 22 change depending on how the adhesive is applied. For example, the thick film portion 22 has a thickness of about 2 mm and a width of about 2 mm, the thin film portion 24 has a thickness of about 0.2 mm, and the pitch interval is about 2 mm.

[Humidity Control Tile] The humidity control tile 10 has a rectangular plate shape as a whole, and has a large number of protrusions 12 on the back surface thereof at intervals in the vertical and horizontal directions. The protrusion 12 has a substantially cylindrical shape, and its tip is rounded. The dimensions of the humidity control tile 10 are set to, for example, 300 mm length × 300 mm width × 8 mm thickness. It is possible to arrange a total of 435 protrusions 12 having an outer diameter of 10 mm and a height of 2 mm with a pitch interval of 20 mm. The humidity control tile 10 is manufactured by molding and firing a tile material containing a humidity control material similar to that of the humidity control board 30.

Construction of the humidity control tile 10 is carried out by comb-like adhesive layer 2
After 0 is applied, the humidity control tiles 10 are arranged vertically and horizontally with a gap G between them before the adhesive is hardened. The specific dimension of the gap G can be set to 2 mm, for example. The protrusion 12 of the humidity control tile 10 abuts on the thick film portion 22 or the thin film portion 24 of the comb-shaped adhesive layer 20. The protrusion 12 comes to crush the thick film portion 22. Protrusion 12
Of the moisture penetrates the comb-shaped adhesive layer 20 and the humidity control board 30
May be in contact with the contact surface, or may remain in the middle of the comb-shaped adhesive layer 20. By adjusting the strength with which the humidity control tiles 10 are pressed against the comb-shaped adhesive layer 20, the adjacent humidity control tiles 1
The height of 0 and the inclination of the surface can be adjusted.

In the installed state of the humidity control tile 10, the comb-shaped adhesive layer 20 is hardened, and the protrusions 12 of the humidity control tile 10 are bonded to the humidity control board 30 via the comb-shaped adhesive layer 20. Particularly, where the protrusion 12 is deformed so as to crush the thick film portion 22, a wide range of the outer peripheral surface of the protrusion 12 is bonded to the comb-shaped adhesive layer 20. Such a thick film portion 22
Since the portion of the humidity control tile 10 is disposed on the entire humidity control tile 10, the joint of the humidity control tile 10 can exhibit sufficient strength. As shown in FIG. 1, the comb-shaped adhesive layer 20
The upper end of the thick film portion 22 is disposed below the back surface of the humidity control tile 10. Therefore, the entire back surface of the humidity control tile 10 is exposed.

Since there is a gap G between the humidity control tiles 10, the air in the indoor space existing on the front surface side of the humidity control tiles 10 flows from the gap G to the back surface side of the humidity control tiles 10. it can. On the back surface side of the humidity control tile 10, there is a gap between the back surface of the humidity control tile 10 and the front surface of the comb-shaped adhesive layer 20, so that air blows the entire back surface of the humidity control tile 10 from one side. It can flow freely between the protrusions 12 to the other side. [Humidity Control Function] The humidity control function of the above humidity control wall structure will be described.

The indoor air is brought into contact with the surface of the humidity control tile 10 to be subjected to the humidity control action, as in the conventional humidity control tile wall. The indoor air passes through the side surface of the humidity control tile 10 from the gap G between the humidity control tiles 10 and enters the back side. The room air can smoothly flow from the gap G adjacent to one side of the humidity control tile 10 to the gap G adjacent to the opposite side by passing through the back surface of the humidity control tile 10. As a result, the indoor air comes into contact with the side surface and the back surface of the humidity control tile 10 and is subjected to the humidity control action. The entire peripheral surface of the humidity control tile 10 exhibits the humidity control function well.

Further, the room air that has entered the gap G of the humidity control tile 10 can also be subjected to the humidity control action of the humidity control board 30 via the comb-like adhesive layer 20 having moisture permeability. In particular, even if it is difficult for the thick film portion 22 of the comb-shaped adhesive layer 20 to pass air or moisture, the thin film portion 24 easily passes air or moisture, so that the humidity control board 30 and Since they can come into contact with each other, the humidity control function of the humidity control board 30 is sufficiently exerted. As a result, the humidity control function is remarkably superior to that of the humidity control wall structure that performs the humidity control function only on the surface of the humidity control tile 10. Maintaining a comfortable indoor environment by extremely effectively exerting the dehumidifying effect in the rainy season when a large amount of humidity is generated in the indoor air and the moisturizing effect in the cold season when it tends to become excessively dry due to heating, etc. You can

[Moisture Absorption Performance] The moisture absorption performance of the humidity control wall structure of the above embodiment was evaluated. In addition, the moisture absorption amount of the example and the following comparative example were measured. Example: The structure shown in FIGS. 1 and 2 (dimensions and materials are as described above). Comparative Example 1: In Example 1, instead of the comb-shaped adhesive layer 20,
An adhesive layer having a uniform thickness was formed. Comparative Example 2: In Example 1, the humidity control tile 10 having no protrusion 12 was used, and an adhesive layer having a uniform thickness was formed instead of the comb-shaped adhesive layer 20.

The amount of moisture absorption was measured by a conventional method. <Test Results> Example = 410g / m ² Comparative Example 1 = 315 g / m ² Comparative Example ² = 385g / m 2 Thus, in the embodiment combining the projection 12 and the brick-like adhesive layer 20, Comparative Example 1, It can be seen that the moisture absorption amount is clearly increased as compared with 2. It can be inferred that the excellent hygroscopic ability also has the same excellent release ability.

[0031]

According to the humidity control wall structure of the present invention, the humidity control tiles having protrusions on the back surface are bonded to the humidity control board via the comb-shaped adhesive layer with a space between them. By doing so, the air in the construction environment can freely flow not only on the surface of the humidity control tile but also from the side surface to the back surface of the humidity control tile, and exerts a good humidity control function on the entire circumferential surface of the humidity control tile. can do. In addition, the comb-like adhesive layer can firmly bond the protrusions of the humidity control tile with the thick film portion, and make it possible for air or moisture to flow in and out of the surface of the humidity control board with the thin film portion. Therefore, the humidity control function of the humidity control board can be exhibited well.

As a result, the humidity control function can be remarkably enhanced as compared with the conventional humidity control wall structure.

[Brief description of drawings]

FIG. 1 is a sectional view of a humidity control wall structure showing an embodiment of the present invention.

[Figure 2] Plan view

[Explanation of symbols]

10 humidity control tiles 12 protrusion 20 Comb-shaped adhesive layer 22 Thick film part 24 Thin film part 30 humidity control board 40 base material G gap

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Hiroshi Sato             1-4-1, Shinsenri Nishimachi, Toyonaka City, Osaka Prefecture             National Housing Industry Co., Ltd. (72) Inventor Midori Ishihara             1-4-1, Shinsenri Nishimachi, Toyonaka City, Osaka Prefecture             National Housing Industry Co., Ltd. F-term (reference) 2E001 DB03 FA02 FA03 FA04 FA06                       FA11 FA14 HA00 HA01 HA03                       HA14 HC01 HC02 HC04 HC11                       LA04                 2E110 AA14 AA16 AB04 AB22 BC12                       CA03 CA21 DA12 DC21 GA33Y                       GA34W

Claims (4)

[Claims] 1. A wall structure that constitutes a wall surface of a building and has a humidity control function, wherein the humidity control board contains a humidity control material, and the surface of the humidity control board is coated with moisture permeability. However, it is a plate-shaped tile that contains a comb-like adhesive layer in which thick and thick thin film portions are alternately arranged and a humidity control material, and the tiles protrude toward the back surface and are spaced in the surface direction. Having a plurality of protrusions arranged with a gap between them, the spacers are arranged side by side on the surface of the humidity control board with a space between each other, and the protrusions abut on the comb-shaped adhesive layer to control the humidity control board. A humidity control wall structure including a humidity control tile joined to the. 2. The comb-shaped adhesive layer has a moisture permeability of 500 g / m.
And a ² · 24Hr (0.2 mm thick) above, wherein the thick portion has a thickness 1-4 mm, a width 1-4 mm, the thin film portion is a thickness 0.1-2Mm, thick portion and a thin film The humidity control wall structure according to claim 1, wherein the pitch interval with the portion is 1-4 mm. 3. The humidity control wall structure according to claim 1, wherein the protrusion has a height of 0.5-3 mm, an outer diameter of 5-15 mm, and a pitch interval of 10-30 mm. 4. The method for constructing the humidity control wall structure according to claim 1, wherein the step (a) of applying the humidity control board comprises: Step (b) of applying an adhesive to be a comb-like adhesive layer in a comb-like shape, and arranging the humidity control tiles on the surface of the comb-like adhesive layer with an interval between each other, A method for constructing a humidity control wall structure, which comprises a step (c) of pressing the protrusion against the comb-shaped adhesive layer.