JP2010126879A - Humidity conditioning panel mounting structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mounting structure of a humidity conditioning panel having an excellent humidity conditioning function and usable for an interior building material such as a wall surface material or a ceiling material in an indoor living space. <P>SOLUTION: This humidity conditioning panel mounting structure A for mounting the humidity conditioning panel for use in the indoor living space is constituted such that recessed groove parts 3 opened toward a mounting surface and opened at the ends are formed at a rear face 11 of a humidity conditioning panel body 1 containing a humidity conditioning material 2 and that the rear face 11 of the humidity conditioning panel body 1 is bonded to the mounting surface with an adhesive while allowing indoor air to flow through the recessed grooves 3. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a humidity control panel mounting structure, and more particularly to a humidity control panel mounting structure that has humidity control and is used for interior building materials such as wall materials and ceiling materials in indoor living spaces.

  In recent years, as the heat insulation and airtightness of houses have progressed, the air in the room tends to become excessively humid, and the number of allergic patients due to dew condensation in winter or mold, mites, etc. that grow in high humidity Such phenomena are manifested and cause various problems. Then, the building material for interiors containing the humidity control material which has a function which adjusts indoor environments, such as a zeolite and diatomaceous earth, in a fixed humidity range is proposed.

  For example, Japanese Patent Application Laid-Open No. 2005-256440 discloses a humidity control interior panel mainly composed of a humidity control substrate formed by blending a moisture-absorbing and releasing additive such as silica gel or diatomaceous earth with a volcanic glass fiber multilayer board and its attachment. A structure is disclosed.

  That is, by integrally fixing a plurality of crosspieces to the back surface of the humidity control substrate of the humidity control interior panel, an air flow path is formed between adjacent crosspieces, and A through-hole communicating with the flow path is provided so that moisture absorption and desorption from the back surface of the humidity control substrate facing the flow path can be performed satisfactorily. An attachment structure that is fixed by, for example, is disclosed. In addition, a structure is also disclosed in which a gap is provided between the opposite mouth end surfaces of the humidity control base material of the adjacent interior panel, and moisture absorption and moisture release from the mouth end surface are favorably performed in the gap.

And even if the said humidity control interior panel is provided with the decorative layer which consists of a makeup sheet with low moisture permeability on the surface, it can fully exhibit humidity control performance by air flowing through the air flow passage on the back surface. In addition, the effect is described as being easy to install, excellent in workability, and inexpensive to manufacture.
JP 2005-256440 A

  However, in the technique described in Patent Document 1, since a plurality of crosspieces are integrally fixed to the back surface of the humidity control substrate, a step of fixing a separately prepared crosspiece with an adhesive or the like is required. . Furthermore, there is a problem that a step of engraving through holes is required in the crosspiece, and the manufacturing cost increases.

  The present invention has been made in view of the above-mentioned background art, and its purpose is to be used for interior building materials such as wall materials and ceiling materials in indoor living spaces, and absorbs moisture when the humidity in the indoor environment increases. It is intended to provide a humidity control panel mounting structure that has an excellent humidity control function that increases moisture by releasing moisture absorbed into the environment when the indoor environment is dried.

  In order to solve the above-mentioned problems, the humidity control panel mounting structure according to the first aspect of the present invention is a structure for mounting a humidity control panel used in an indoor living space, and is a control in which a humidity control material is internally added. On the back surface of the humidity panel body, a concave groove is formed that opens toward the attachment surface and has an open end at the side end of the humidity control panel body. It is characterized in that the indoor air is made to circulate through the concave groove portion while being bonded with an adhesive.

  The humidity control material used in the humidity control panel body includes charcoal such as charcoal, bamboo charcoal, activated carbon, etc., clay minerals such as talc, zeolite, diatomaceous earth, silica gel, montmorillonite, sepiolite, zonotolite, bentonite, and porous materials such as alumina and silica. Quality minerals.

  The humidity control panel main body is configured by fixing the humidity control materials to each other with a fixing material such as a cellulose derivative or sodium alginate. The cellulose derivative or sodium alginate fixing material is encapsulated with charcoal such as charcoal, clay minerals such as zeolite, or porous inorganic materials such as alumina and silica, and is relatively breathable and moisture permeable even when fixed. It is preferably used to keep At this time, a reinforcing material such as cement or dolomite plaster may be added and molded by a method such as heat press within a range that does not impair the humidity control property of the humidity control material.

  In addition, the moisture conditioning material is heat-pressed by holding it with a woven fabric or nonwoven fabric made of polyester fiber, polyamide fiber, aramid fiber, acrylic fiber, polyethylene fiber, polypropylene fiber, vinylidene fiber, vinylon, rayon, acetate, etc. The humidity control panel body may be used. Since the synthetic fiber melts under heating, it acts as a binder, and the humidity control materials are firmly fixed and formed into a panel shape.

  At this time, wood fibers (wood fibers) obtained by decomposing wood at high temperature and high pressure may be added to the synthetic fibers. Alternatively, a fine-grain chip obtained by pulverizing wood chips such as conifers with a pulverizer may be added to the synthetic fiber to form a panel shape, thereby forming a humidity control panel body.

  The invention according to claim 2 of the present application is characterized in that, in the humidity control panel mounting structure according to claim 1, the humidity control panel main body is bonded to the attachment surface via a breathable mat. Examples of the breathable mat include open cell resin foams made of polyethylene, polyurethane, and the like, and thick nonwoven fabrics.

  In the humidity control panel mounting structure according to the first aspect of the present invention, the back surface of the humidity control panel body is bonded to the attachment surface with an adhesive, and the back surface opens toward the attachment surface. In addition, since the recessed groove portion having an open end is engraved at the side end of the humidity control panel body, the groove portion is less likely to be filled with an adhesive, and the ventilation groove through which air containing moisture flows Function.

  And the air in the vicinity of the adhesion part between the back surface and the wall surface of the humidity control panel body flows through the groove and contacts the inner surface, so that the humidity control material internally added to the humidity control panel body exhibits its humidity control function. In addition, excessive humidity in the indoor environment can be absorbed to reduce the humidity. In addition, when the weather changes and the indoor environment dries, the moisture absorbed through the concave groove is released into the environment and the humidity is increased. Therefore, it exhibits an excellent humidity control function and keeps the indoor environment good. be able to.

  In the humidity control panel mounting structure according to the second aspect of the present invention, since the humidity control panel body is bonded to the attachment surface via the breathable mat, the breathable mat functions as a back surface ventilation layer. The room air containing moisture flows through the upper end surface, the lower end surface, and the left and right side end surfaces of the breathable mat into the concave groove portion and contacts the inner surface. And since it contacts with the humidity control material internally added to the humidity control panel main body, the humidity control function can be efficiently and sufficiently exhibited.

  Further, in addition to the air-permeable mat functioning as a back-surface air-permeable layer, the above-described recessed groove portion functions as a gas-permeable groove, and the surface of the humidity control panel body is in contact with room air as the maximum exposed portion, and the surface layer portion The humidity control material added to the inside demonstrates excellent humidity control function. Thus, the humidity control panel body according to the present invention absorbs excessive moisture in the indoor environment, and when the indoor environment dries, it releases moisture that has been absorbed into the environment to increase the humidity. The function is demonstrated and the indoor environment can be kept good. Moreover, when the said air permeable mat | matte has cushioning properties, the effect that it functions also as a buffer layer which adjusts the unevenness | corrugation of a mounting surface can also be acquired.

  Hereinafter, a first embodiment of a humidity control panel mounting structure according to the present invention will be described in detail with reference to the drawings. FIG. 1 is a partial perspective view schematically showing a first embodiment A of the humidity control panel mounting structure of the present invention in which the humidity control panel body 1 is attached to a wall material made of plywood or the like.

  As shown in FIG. 1, a humidity control panel body 1 constituting the main body of the present invention has a humidity control material 2 made of a charcoal such as charcoal, a clay mineral such as zeolite, or an inorganic material such as alumina or silica. And a concave groove 3 having a square cross section is formed in the lateral direction on the back surface 11 of the humidity control panel body 1.

  The back surface 11 of the humidity control panel body 1 is adhered to the wall surface W of the wall material such as the plywood with an adhesive, and the back surface 11 of the humidity control panel body 1 opens toward the wall surface W, and the lateral end is open. The recessed groove portion 3 is provided. The concave groove portion 3 needs to have a sufficient depth so that it is not buried (not filled) with an adhesive when it is bonded, and a plurality of the groove portions 3 are preferably formed at a depth of 2 mm or more.

  As a method of engraving the groove 3 on the back surface 11 of the humidity control panel body 1, as described above, the humidity control material 2 is formed in the presence of a fixing agent such as cellulose derivative or sodium alginate. There is a method in which a convex portion is provided on the mold so that the concave groove portion 3 is engraved on the back surface 11 and then the heat treatment is performed. Or you may provide the ditch | groove part 3 by the method of post-processing, such as a saw groove process.

  Here, as shown in FIG. 1, a non-breathable adhesive layer 5 is formed at the bonding portion between the back surface 11 of the humidity control panel body 1 and the wall surface W, and air circulation is blocked. For this reason, in the humidity control panel mounting structure of the present invention, the recessed groove portion 3 is provided as a ventilation groove so that air containing moisture in the vicinity of the bonded portion circulates.

  On the other hand, the surface 12 of the humidity control panel body 1 is in contact with room air containing moisture as the largest exposed surface. That is, as shown by the white arrow in FIG. 1, when the humidity in the room is excessive, the excessive moisture absorbs moisture from the surface 12 to the humidity control material 2 internally added to the surface layer portion of the humidity control panel body 1. Is done. When the room is dried due to changes in weather, room temperature, and the like, the absorbed moisture is released from the surface 12 of the humidity control panel body 1 into the indoor environment, and the humidity is increased and humidity control is performed.

  The top, bottom, left, and right sides of the humidity control panel body 1 also come into contact with room air to absorb and release moisture. However, in the present invention, as described above, in order to further increase the contact area with the humidity control material 2, A concave groove 3 having a square cross section is provided in the lateral direction on the back surface of the wet panel body 1. That is, using the concave groove 3 as an air flow passage, the humidity control material 2 existing in the vicinity of the adhesive layer 5 is contacted with the air containing moisture, and the functions of the humidity control material 2 are fully exhibited. Have been to.

  Specifically, as indicated by arrows in FIG. 1, room air flows into the recessed groove portion 3 and comes into contact with the ceiling surface 31 and the side surface 32 that are the inner surfaces thereof, and excess moisture is absorbed and the room is dried. When it comes, the absorbed moisture is released into the indoor environment through the groove 3. As described above, the concave groove portion 3 also exhibits the function of the humidity control material 2 existing in the vicinity of the adhesive layer 5 as a ventilation groove through which air flows, and absorbs moisture in cooperation with the surface 12 of the humidity control panel body 1. Since the moisture is released, the humidity control action of the indoor environment can be performed more efficiently.

  FIG. 2 is a partial perspective view schematically showing a modification of the first embodiment of the humidity control panel mounting structure A of the present invention in which the concave groove portion 4 is formed in a U-shaped groove shape. As shown in FIG. 2, the inner surface 41 of the U-shaped groove-shaped concave groove portion 4 functions as an air flow path and cooperates with the surface 12 of the humidity control panel body 1 in the same manner as shown in FIG. 2. Since moisture is absorbed and released, the humidity control action of the indoor environment can be performed more efficiently.

  FIG. 3 is a partial perspective view schematically showing a second embodiment B of the humidity control panel mounting structure of the present invention. As shown in FIG. 3, in the second embodiment B, the humidity control panel body 1 is bonded to a wall surface W that is an attachment surface via a breathable mat 6. At this time, the air-permeable mat 6 circulates indoor air containing moisture as a back surface air-permeable layer.

  That is, room air flows through the groove portion 4 through the upper end surface 61, the lower end surface 62, and the left and right side end surfaces 63 of the breathable mat 6, and moisture in the air contacts the humidity control material 2 on the inner surface 41 of the groove portion 4. In addition to moisture absorption, the absorbed moisture is released into the indoor environment as the room dries.

  At this time, as indicated by an arrow in FIG. 3, in addition to the indoor air flowing from the open end of the groove 4 itself, the groove portion also from the breathable mat 6 through the upper end surface 61, the lower end surface 62, and the left and right side end surfaces 63. Since air circulates through the lower part of 4, the indoor air can be more efficiently conditioned. Further, as the breathable mat 6, for example, as a cushioning material that absorbs unevenness of the wall surface W by using a cushioning material such as an open-cell resin foam made of polyethylene, polyurethane, or the like, or a thick nonwoven fabric. This function can also be given.

  In addition, although the said embodiment described the example which provided the several groove part 4 in the horizontal direction of the humidity control panel main body 1, you may cut the groove part 4 in the vertical direction. Further, a plurality of concave groove portions 4 may be provided in the vertical direction so as to cross the horizontal direction, and the amount of indoor air flowing through the concave groove portions 4 may be further increased.

  In the said 1st, 2nd embodiment, although the wall surface W is illustrated as an attachment surface of the humidity control panel main body 1, you may use not only for the wall surface W but for a ceiling material. Moreover, you may use for the fitting material etc. of the storage room which stores not only a general house but cultural assets. As described above, the design of the humidity control panel mounting structure according to the present invention can be changed in various ways according to the desired application, and both cases belong to the technical scope of the present invention unless departing from the scope of the claims.

The partial perspective view which shows typically 1st Embodiment of the attachment structure of the humidity control panel of this invention. The fragmentary perspective view which shows the modification of 1st Embodiment of the attachment structure of the humidity control panel of this invention. The partial perspective view which shows typically 2nd Embodiment of the attachment structure of the humidity control panel of this invention.

Explanation of symbols

A Humidity control panel mounting structure B according to the first embodiment of the present invention B Humidity control panel mounting structure W according to the second embodiment of the present invention W Wall surface 1 Humidity control panel body 11 Back surface 12 Surface 2 Humidity control material 3 Recessed groove portion 31 that is a square Ceiling surface 32 Side surface 4 U-shaped grooved recessed groove portion 41 Inner surface 5 Adhesive layer 6 Breathable mat 61 Upper end surface 62 Lower end surface 63 Left right end surface

Claims (2)

  A humidity control panel used in indoor living spaces is attached, and the back surface of the humidity control panel main body, in which the humidity control material is internally added, opens toward the attachment surface, and the side end of the humidity control panel main body The humidity control panel is attached to the bottom surface of the humidity control panel, the back surface of the humidity control panel body is adhered to the attachment surface with an adhesive, and indoor air is allowed to flow through the concave groove portion. Construction.   The humidity control panel mounting structure according to claim 1, wherein the humidity control panel body is bonded to an attachment surface via a breathable mat.

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