JP3779850B2 - Underfloor ant structure - Google Patents

Description

上記試験の結果、防蟻剤含有シートを用いた各実施例では、長期間にわたって確実な防蟻機能を発揮できることが実証された。防蟻剤含有シートを用いていない比較例では、短期間で白蟻の這い上がりが生じ、木材に対する食害が発生している。
【００８８】
〔蟻道構築試験〕
各種の合成樹脂シートを構造部材の立ち上がり面に配置したときに、どの程度の幅があれば、白蟻が蟻道を構築するのが困難になるのかを評価した。
【００８９】
具体的には、合成樹脂シートを垂直状態でセメント構造体に貼り付けた。セメント構造体の上部に木材等の餌を置き、セメント構造体の下端に白蟻が接近できるようにした。なお、合成樹脂シートには防蟻剤は含有させず、接着剤にも防蟻剤は配合していない。
【００９０】
【表２】

上記試験の結果、セメント構造だけでは、白蟻は直ぐに蟻道を構築して、経時的に益々高い位置まで蟻道を構築していく。しかし、特定の合成樹脂からなる表面の場合、白蟻は接触行動を起こして蟻道を構築しようとするが、一定の高さ以上には蟻道を構築できないことが判る。
【００９１】
その理由は詳細には不明であるが、滑り易い合成樹脂の表面では、白蟻が蟻道を構築しようとしても、白蟻が滑ってしまうことや、土を練り固めて構築される蟻道は、合成樹脂の表面では水分が吸収されないために固定されないことなどが推測できる。
【００９２】
なお、合成樹脂シートに防蟻剤が含有されていない場合には、白蟻の侵入阻止は完全ではない。これは、蟻道の構築は困難でも、白蟻の通過は可能な場合がある。また、合成樹脂シートの表面が経時的に汚れたりして滑り難くなると、白蟻の通過および蟻道の構築を阻止できない場合がある。したがって、前記した防蟻剤含有シートが有効となる。
【００９３】
また、上記試験の結果から、防蟻剤含有シートの高さ方向の幅Ｗを１０cm以上に設定しておけば、より確実に蟻道の構築および白蟻の侵入を防げることが実証された。
【００９４】
【発明の効果】
本発明の床下防蟻構造は、床下空間に設置される構造部材の立ち上がり面を、所定幅の防蟻剤含有シートで覆い、防蟻接着剤層で接合しているので、立ち上がり面に沿って白蟻が侵入してくるのを効果的に阻止することができる。
【００９５】
立ち上がり面に設けられた防蟻剤含有シートや防蟻接着剤層は、地盤の土壌汚染を引き起こすこともない。防蟻剤成分が土壌に溶けだして効果が少なくなることもない。地盤全体に防蟻剤を散布したり、地盤全体を防蟻シートで覆ったりするのに比べて、防蟻剤の使用量も少なくて済むので、環境汚染の可能性も格段に少なくなる。
【図面の簡単な説明】
【図１】 本発明の実施形態を表す床下防蟻構造の断面図
【図２】 別の実施形態を表す床下防蟻構造の断面図
【図３】 別の実施形態を表す床下防蟻構造の断面図
【図４】 別の実施形態を表す床下防蟻構造の断面図
【符号の説明】
１０ 地盤
１２ 布基礎
２０ 防蟻剤含有シート
２２ 防蟻接着剤層
３２ 束石
３４ 束柱
３６ ブロック[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an underfloor ant structure, and more particularly, to an underfloor ant structure that prevents white ants from entering a building foundation, bundle, underfloor piping, etc., and causing damage to the building. Yes.
[0002]
[Prior art]
Conventionally, as an ant-proof structure of a building, an ant-proof sheet impregnated or coated with an ant-proofing agent has been applied to the floor surface of the building by spraying an ant-proofing agent that kills white ants or repels them. Something is done.
[0003]
As the termite-proofing agent, a chemical containing an organic compound such as organic phosphorus or pyrethroid is used.
Since the termite-proofing agent may lose its effectiveness over time due to dissolution into the ground, etc., even if the termite-proofing treatment is performed at the time of new construction of the building, additional spraying of the termite-proofing agent will be performed periodically thereafter. Often done.
[0004]
[Problems to be solved by the invention]
Among conventional ant-repellent treatment technologies, the spraying of ant-repellent agents on the floor surface is caused by soil-contaminated ant-repellent components that cause soil contamination, or the ant-repellent components that are scattered in the under-floor space can cause environmental contamination. There was a problem to do.
[0005]
In the case of an ant-proof sheet, the pollution of the environment is reduced compared with spraying the ant-proofing agent as it is, but since it is in contact with the ground over a large area, the penetration of the ant-proofing agent component into the ground over time And soil contamination problems arise.
[0006]
Moreover, when the ant-proof sheet is laid on the entire floor base surface, the under-floor space and the ground are completely blocked by the ant-proof sheet. Since the moisture in the underfloor space is not absorbed by the ground, the underfloor space is likely to be highly humid, which promotes the occurrence and progression of corrosion and rust on the pillars and flooring. Moisture and moisture in the ground may accumulate on the back of the ant-proof sheet, and spiders and germs may grow on the back of the ant-proof sheet. As a result, the underfloor space becomes odorous or offensive odor.
[0007]
Furthermore, since the ant-proof sheet is not joined to the floor ground surface, the white ants move through the gap between the ground and the ant-proof sheet, and the white ants enter the space under the floor from the end of the ant-proof sheet. Also happens.
[0008]
Therefore, an object of the present invention is to solve the problems of the conventional ant protection treatment described above, to enable high safety, easy processing work, and exhibit an excellent ant protection function in the long term. is there.
[0009]
[Means for Solving the Problems]
The underfloor ant structure according to the present invention is an ant structure in an underfloor space of a building, 0.01-1% of solid weight It consists of a synthetic resin containing an anti-anticide, The thickness is 100-200 μm, An antifungal agent-containing sheet that covers a rising surface of the structural member installed in the underfloor space in a vertical direction with a width of 10 cm or more; 0.01-1% of adhesive solid weight Contains anti-anticide Ants with a viscosity of 4000-8000 poise and thixotropic 4.0-10.0 adhesive On the structural member And an ant-preventive adhesive layer that joins the ant-preventive agent-containing sheet to the structural member.
[0010]
[Underfloor space in buildings]
As a building, it can be applied to wooden ordinary houses, apartment houses and other buildings. It is also useful for buildings that are made of steel or concrete and use wooden materials as part of the structural members.
[0011]
The underfloor space is provided between the foundation, joists, floor beams, etc. that support the upper structure such as the ceiling, walls, and floor that make up the living space of the building, and the ground is spaced from the living space. And has a function of ensuring heat insulation and breathability. Usually, it is surrounded by a foundation structure such as a cloth foundation.
[0012]
The fabric foundation is constructed of reinforced concrete and has a wall frame shape according to the outer periphery and layout of the building. The base portion of the fabric foundation is embedded in the ground, and supports the foundation and the entire building at the top. An underfloor space is constructed for each area partitioned by cloth foundation. Wooden materials are often used for the floor structures such as foundations and joists placed above the fabric foundation.
[0013]
A bundle structure that supports the floor is provided in the space under the floor surrounded by the fabric foundation. The bundle structure can include a bundle pillar that supports the floor and a bundle stone that is disposed between the ground and the bundle pillar and supports the bundle pillar. Usually, many wooden materials are used for the bundle pillars.
[0014]
[Structural members]
The white ants usually invade the floor space of the building from the ground and damage the wooden parts contained in the structural members of the building. Therefore, the ant-proof structure is provided in a structural member arranged in the middle of the path from the ground to the wooden structure portion of the building.
[0015]
Even if a ant-proof structure is added to the outer surface of the wooden part of the building, the effect of the ant-proof structure cannot be exhibited if white ants enter the wooden part of the interior. Therefore, it is preferable to provide the ant-proof structure on a structural member made of concrete, metal, or the like that is not easily damaged by white ants.
[0016]
Specific examples include building foundations such as cloth foundations, bundle pillars, and stones. The pipes and other equipment members such as water pipes, gas pipes, and drain pipes extending from the ground toward the top of the building are also included. Support members, such as a hollow concrete block used when installing household equipment, such as a bathtub, an air conditioner, and a water heater, are also mentioned.
[0017]
[Anti-anticide]
Usual chemicals for ant protection can be used. A material that is easily contained in a synthetic resin or an adhesive is preferable.
[0018]
The following materials are mentioned as specific examples of the termite-proofing agent.
Organophosphorus compounds: Chlorpyrifos (Nippon Kayaku Co., Ltd.), Hoxime (Bayer Co., Ltd.), Propetanfos (Nippon Kayaku Co., Ltd.), Pyridafenthion (Mitsui Chemicals Co., Ltd.), Tetrachlorbinphos (US, FMC Co., Ltd.), Fenitrothion (Sumitomo Chemical Co., Ltd.), Dichlorofenthione (Nippon Kayaku Co., Ltd.)
Carbamate compounds: Propoxl (Sankyo), Bassa (Sumitomo Chemical), Carbaryl (Sumitomo Chemical)
Pyrethroid compounds: Allethrin (manufactured by Sumitomo Chemical Co., Ltd.), Permesulin (manufactured by Sumitomo Chemical Co., Ltd.), Cyber Mesli (manufactured by Sumitomo Chemical Co., Ltd.), Fenvalate (manufactured by Sumitomo Chemical Co., Ltd.), Phthasulin (manufactured by Sumitomo Chemical Co., Ltd.), Restmesrin (Sumitomo Chemical Co., Ltd.) ), Ferrotrin (Hoechst), traromesrin (Sumitomo Chemical), bifenthrin (FMC, USA)
Pyrethroid-like compound: etofenprox (Mitsui Chemicals)
Other compounds: pyrethrin (manufactured by Dainippon Insect Chrysanthemum Co., Ltd.), tripropyl isocyanate (manufactured by Dainippon Insect Chrysanthemum Co., Ltd.), silafluorene (manufactured by Hoechst), octachlorodipropyl ether (manufactured by Sankyo Co., Ltd.)
These anti-anticides can be used alone or in combination.
[0019]
Preferred anti-anticides for use in the present invention include permethrin and bifenthrin.
[Anticide-containing sheet]
Basically, the same material and structure as a normal ant protection sheet can be adopted.
[0020]
Any synthetic resin may be used as long as it can exhibit a good ant-proofing action when it contains an ant-proofing agent and can be molded into a sheet.
It is preferable that the synthetic resin itself has a function of preventing the passage of white ants and the formation of ant roads. A material that has a small coefficient of friction on the surface and is easy to slide is preferred. A material with a slippery surface makes it difficult for white ants to climb and makes it difficult to make ant trails.
[0021]
Specific examples of the synthetic resin include polyethylene, vinyl acetate, vinyl chloride, polypropylene, polycarbonate, vinylidene chloride, biphenyl chloride, and Teflon. A plurality of synthetic resins can be blended or a laminated structure can be formed.
[0022]
The termite-protecting agent-containing sheet can be produced by blending the above-mentioned termite-preventing agent with the synthetic resin material as described above and using a normal sheet forming means.
The amount of the termite-preventing agent to be added to the termite-preventing-containing sheet varies depending on the type of the synthetic resin and the termite-preventing agent and the required performance. .001 to 5% of range. Preferably, the range of 0.01 to 1% is adopted. If the content of the ant preventive agent is too small, a sufficient ant preventive effect cannot be achieved, and if the content of the ant preventive agent is too large, the strength of the ant preventive agent-containing sheet becomes inferior.
[0023]
The thickness of the ant-preventing agent-containing sheet varies depending on the type of the synthetic resin, the usage form of the ant-preventing agent-containing sheet, and the like, but usually 500 μm or less is used, and preferably about 100 to 200 μm. . If the termite-preventing agent-containing sheet becomes too thick, it becomes inferior in flexibility, and it becomes difficult to place it in close contact with the surface of a cloth foundation or the like. If the ant-protecting agent-containing sheet is too thin, it becomes weak in strength.
[0024]
[Anti-proofing adhesive layer]
Any material having the same material and composition as various adhesives may be used as long as it has a function of joining the anti-anticide-containing sheet to the structural member in the underfloor space.
[0025]
In addition to those that perform bonding by means of narrow adhesion, ordinary adhesives include those that perform bonding by adhesion, and those that perform bonding by both adhesion and adhesion. In this invention, you may join by any of adhesion | attachment and adhesion. When the structural member is made of concrete or the like, an adhesive that performs adhesive bonding is preferable.
[0026]
Specific examples of the adhesive include resorcinol resin, aqueous polymer isocyanate, epoxy resin, urethane resin, α-olefin maleic anhydride, silicone resin, polysulfide resin, acrylic resin, synthetic rubber, butyl rubber, cyanoacrylate, hot Examples thereof include an adhesive such as a melt type.
[0027]
When a termite-proofing sheet comprising a synthetic resin is bonded to a structural member such as a fabric foundation, the viscosity and thixotropic properties of the adhesive affect the bonding workability and the termite-proofing effect. If the viscosity and thixotropy are not appropriate, the adhesive may flow down or may not be uniformly applied when the adhesive is applied to a fabric foundation or the like. Adhesion failure and uneven adhesion occur. The termite-proofing effect is reduced because the termite-proofing agent is not uniformly dispersed in the adhesive layer.
[0028]
In order to solve such a problem, the viscosity of the adhesive is preferably 4000 poise or more, and more preferably 4000 to 8000 poise. Thixotropy is set to 4.0 to 10.0, more preferably 5.0 to 7.0.
[0029]
An ant-proof adhesive can be obtained by blending the above-mentioned ant-proof agent in the adhesive. The amount of the termite preventive compounded in the adhesive can be set in the range of 0.001 to 5%, preferably 0.01 to 1%, based on the solid weight of the adhesive. If the compounding amount of the termite-preventing agent is too small, the effect is not obtained, and if it is too much, the function as an adhesive such as adhesive force is adversely affected.
[0030]
[Construction of anti-anticide-containing sheet]
The anti-anticide-containing sheet covers the rising surface of the structural member installed in the underfloor space with a width of 10 cm or more in the vertical direction.
[0031]
The rising surface of the structural member may be a vertical surface or an inclined surface close to vertical. The surface close to vertical is preferable because the white ants are less likely to move on the ant-protecting agent-containing sheet.
[0032]
The ant-proofing adhesive layer may be applied in advance to the surface of the ant-proofing agent-containing sheet, or when the ant-proofing agent-containing sheet is applied, the ant-proofing agent-containing sheet is applied after being applied to the construction surface. It may be.
[0033]
When the surface of the ant-preventive agent-containing sheet is previously coated on the surface of the ant-preventive agent-containing sheet, the surface of the ant-preventive adhesive layer can be protected with a release paper or the like in order to facilitate transportation and storage. .
[0034]
The ant-proofing adhesive can be applied to the surface of the structural member or the surface of the ant-proofing agent-containing sheet by ordinary coating means such as brush coating, roller coating, or spray coating.
The anti-anticide-containing sheet can be applied by cutting a sheet having a certain area into a required size. If the sheet | seat wound in the tape form or the reel form is used as a termite-proof agent containing sheet | seat, it can construct, rewinding a wound thing. It is also possible to shape the ant-proofing agent-containing sheet into a three-dimensional shape such as a cap shape.
[0035]
If the width in the height direction covering the structural member with the ant-preventive agent-containing sheet is 10 cm or more, it is difficult for the white ants to climb over. Preferably, it can set to the range of 10-30 cm.
[0036]
The ant-proofing agent-containing sheet is bonded to the structural member by the ant-proofing adhesive layer, but can also be bonded using nails, screws, metal fittings, or the like. It is also possible to close the ends and seams of the termite-containing sheet with an adhesive tape.
[0037]
[Application to fabric foundation]
When the structural member is a fabric foundation, an anti-anticide-containing sheet can be disposed on the side surface of the fabric foundation. The side surface of the fabric foundation may be an indoor side surface or an outdoor side surface.
[0038]
With respect to the fabric foundation, the sheet from the rising surface on one side to the rising surface on the opposite surface through the top surface of the fabric foundation can be covered with an anti-anticide-containing sheet. If the top surface of the fabric foundation is covered with the anti-anticide-containing sheet from both sides, even if white ants climb the gap between the anti-anticide-containing sheet and the fabric foundation, The agent-containing sheet can prevent upward intrusion.
[0039]
The termite-proofing agent-containing sheet can be disposed at any location from the upper end to the lower end of the fabric foundation. If the ant-proofing agent-containing sheet and the ant-proofing adhesive layer are arranged at positions sufficiently away from the surface of the ground, it is possible to prevent the components of the ant-proofing agent from coming into contact with the moisture of the ground and starting to melt.
[0040]
A part of the ant-proofing agent-containing sheet or the ant-proofing adhesive layer may be disposed on the fabric foundation below the ground surface. In this case, white ants can be prevented from entering the inside of the fabric foundation inside the ground.
[0041]
[Application to bundle structure]
When the structural member has a bundle structure including a bundle column and a bundle stone, it is preferable that the anti-anticide-containing sheet is disposed on the surface of the bundle stone. This is because the bunch pillars are often made of a wooden material, and bunch stones made of natural stone or concrete can surely achieve the ant-proof effect. When the bundle pillar is made of concrete or steel mold, it is also effective to cover the periphery of the bundle pillar with an anti-anticide-containing sheet.
[0042]
The boulders have a relatively flat rectangular parallelepiped shape or cylindrical shape. Some have a cone shape with the upper end narrower than the lower end, and some have a step.
The anti-anticide-containing sheet needs to be arranged on the side surface at least over the entire circumference of the boulder stone. If the anti-anticide-containing sheet is also arranged on the top surface of the boulders, white ants can be prevented from entering upward through the gap between the anti-anticide-containing sheet and the surface of the boulders. Even when there is a space that penetrates the boulder up and down, if the entire top surface of the boulder is covered with an anti-anticide-containing sheet, white ants can be prevented from entering upward through the through space. .
[0043]
It is also possible to cover the entire surface of the boulders with an anti-anticide containing sheet. In this case, white ants cannot enter the gap between the ant-preventing agent-containing sheet and the boulders.
The work of covering the boulder with the sheet containing the termite-proofing agent may be carried out in advance in the production factory or processing factory of the boulder stone, or the ant-proof adhesive layer and the ant-proofing layer on the surface of the boulder stone constructed at the construction site. An agent-containing sheet can also be arranged.
[0044]
[Oscillation bottom end]
In order to prevent white ants from entering the gap between the ant-preventing agent-containing sheet and the structural member, it is preferable to join the entire surface of the ant-preventing agent-containing sheet to the structural member with an ant-preventive adhesive layer.
[0045]
However, it is possible to leave a part of the ant-preventive agent-containing sheet without joining it to the structural member.
Of the termite-protecting agent-containing sheet disposed on the rising surface of the structural member, the partial width of the lower end edge can be made swingable without being joined to the structural member.
[0046]
White ants have the habit of avoiding entering unstable surfaces such as swaying and avoiding the creation of ant paths, so that the invasion of white ants can be prevented at the lower end of the swing, that is, the lower end of the swing. The width of the lower end of the swing is set to such an extent that the white ants are difficult to get over. Specifically, it can be set to about 10 to 30 cm.
[0047]
In the case where the lower end of the swing is provided, it is preferable that the anti-anticide-containing sheet is made of a relatively soft material or a thin one so as to be easily deformed.
[Application to support block]
When the support block for installing the above-mentioned housing equipment is used as the structural member, the technology common to the case of the above-mentioned boulders can be applied to the arrangement structure and construction method of the termite-proofing agent-containing sheet.
[0048]
The entire surface of the support block may be covered with a termite-preventing agent-containing sheet, or the entire periphery of the side surface of the support block may be covered with a termite-preventing agent-containing sheet having a predetermined width. The top surface and the side surface of the support block can be covered with a termite-protecting agent-containing sheet.
[0049]
When the support block has a space that penetrates up and down in the construction state, such as a hollow concrete block, the through hole may be closed with mortar or the like, and the opening of the through hole is closed with a sheet containing an anti-tarnish agent. It can also be left in.
[0050]
[Ground under the floor]
There is no need to install ant-proof sheets on the ground in the underfloor space. This is because even if white ants are present on the ground surface, entry into the superstructure of the building is reliably prevented by the ant-proof structure of the present invention.
[0051]
If the ground in the underfloor space is not covered with an ant-proof sheet, moisture and moisture are circulated between the ground and the underfloor space, resulting in excessively high humidity in the underfloor space and excessive drying. There is nothing. The surface of the ground becomes highly humid and no moths or germs grow.
[0052]
In addition, the humidity control sheet | seat can be arrange | positioned on the ground surface of underfloor space. As the humidity control sheet, a material in which a humidity control material such as hygroscopic charcoal or diatomaceous earth is blended with a synthetic resin or a nonwoven fabric is used. By laying such a humidity control sheet, the humidity environment in the underfloor space can be maintained in a good state. Moreover, the humidity control bag which accommodates the humidity control material as mentioned above in a bag can also be arrange | positioned along with the ground surface of underfloor space.
[0053]
DETAILED DESCRIPTION OF THE INVENTION
[Underfloor structure]
The embodiment shown in FIG. 1 represents an ant proof structure applied to a general residential underfloor structure.
[0054]
The underfloor structure is a frame wall-shaped cloth foundation 12 that is constructed by being partially embedded in the ground 10 and supports a building, a wall 18 that is constructed on the cloth foundation 12 via a base 14, It has a structure such as a floor surface 16 constructed through joists. The space surrounded by the fabric foundation 12, the bottom surface is the ground 10, and the upper surface is the floor surface 16 is an underfloor space S. In the underfloor space S, apart from the fabric foundation 12, a bundle structure including a bundle pillar 34 and a bundle stone 32 that support the floor surface 16 is also provided.
[0055]
[Anti-ant structure of fabric foundation]
In such an underfloor structure of a building, the cloth foundation 12 is provided with an ant-proof structure using the ant-proof agent-containing sheet 20.
[0056]
The ant-proof agent-containing sheet 20 is formed from a polyethylene resin containing an ant-proof agent. On one side of the ant-preventing agent-containing sheet 20, an ant-preventing adhesive layer 22 made of an adhesive containing an ant-preventing agent is provided.
[0057]
With respect to the fabric foundation 12 that constitutes the outer peripheral wall of the building, such an anti-anticide-containing sheet 20 is formed on the indoor side rising surface from the top of the rising surface on the outdoor side through the top surface of the fabric foundation 12. It is pasted over the top. An ant-proofing adhesive layer 22 tightly bonds the ant-proofing agent-containing sheet 20 to the cloth foundation 12 made of concrete.
[0058]
The termite-protecting agent-containing sheet 20 is arranged over the entire length of the illustrated fabric foundation 12 and the same composition is also provided for all the fabric foundations 12 constituting the building. Is done. In each under-floor space S partitioned by the cloth foundation 12, the anti-anticide-containing sheet 20 is arranged on the upper part of the rising surface of the entire cloth foundation 12 surrounding the under-floor space S.
[0059]
The construction of the anti-anticide-containing sheet 20 is performed after the construction of the fabric foundation 12 is completed and before the foundation 14 and the floor 16 are constructed.
For both the outdoor side and the indoor side of the fabric foundation 12, the width W in the height direction of the termite-protecting agent-containing sheet 20 that covers the fabric foundation 12 from the upper end is set to be equal to or greater than a predetermined width through which white ants cannot pass. Specifically, the width W of the ant-proofing agent-containing sheet 20 on the outdoor side is set to 10 cm, and the width W of the ant-proofing agent-containing sheet 20 on the indoor side is set to 20 cm.
[0060]
In the above embodiment, even if a white ant climbs the rising surface of the cloth foundation 12 or makes an ant road on the surface of the cloth foundation 12, when it reaches the position of the anti-anticide-containing sheet 20 and the ant-proof adhesive layer 22, Due to the action of the ant agent, it is not possible to climb further upward or make an ant road. As a result, the building structural member constructed on the upper part of the fabric foundation 12 is prevented from being damaged by white ants.
[0061]
In addition, it is difficult for white ants to make an ant path on the surface of the polyethylene resin constituting the ant-preventing agent-containing sheet 20. An ant road cannot be made to the upper part beyond the ant agent-containing sheet 20.
[0062]
Further, even if white ants try to climb upward through the gap between the ant-preventing agent-containing sheet 20 and the fabric foundation 12, the ant-proofing adhesive layer 22 is present, so that the ant-preventing agent-containing sheet 20 and the fabric foundation 12 are present. You can't get into the gap.
[0063]
Moreover, since the ant-proofing agent-containing sheet 20 covers the top surface of the fabric foundation 12, even if white ants can enter the gap between the ant-proofing agent-containing sheet 20 and the fabric foundation 12, the ant-proofing agent-containing sheet 20 Cannot reach above.
[0064]
[Anti-ant structure of bundle part]
In FIG. 1, the ant proof structure is provided also in the bundle part.
The bundle pillar 34 made of a wood material is supported by a rectangular parallelepiped bunch stone 32 installed on the ground 10.
[0065]
The ant-proofing agent-containing sheet 20 is stuck on the entire outer periphery of the boulder stone 32 by the ant-proofing adhesive layer 22. The height of the boulders 32, that is, the width W in the height direction of the ant-preventing agent-containing sheet 20 is set to be equal to or greater than a predetermined width.
[0066]
By using the boulders 32 covered with such an ant-protecting agent-containing sheet 20, white ants cannot climb the boulders 32 from the ground 10 to reach the bunch pillars 34. It is possible to prevent the white ants from being damaged by the bundle pillars 34 and the floor surface 16 at the upper part thereof.
[0067]
In the above-described embodiment, the entire periphery of the boulder stone 32 is covered with the termite-proofing agent-containing sheet 20 so that the ant-proofing effect can be surely achieved. The ant-proof function can also be achieved by covering with the sheet 20. Moreover, you may just cover the upper surface and side surface of the bunch stone 32 with the anti-anticide containing sheet | seat 20. FIG.
[0068]
[Cloth foundation of existing houses]
The embodiment shown in FIG. 2 is an ant proof structure for the fabric foundation 12, but the structure is different from that of the embodiment. This is a suitable method for constructing an ant-proof structure on a fabric foundation of an already built house.
[0069]
The ant-proof agent-containing sheet 20 having the ant-proof adhesive layer 22 is disposed only in the middle of the height direction with respect to the outdoor rising surface of the fabric foundation 12. The lower part and upper part of the fabric foundation 12 are exposed. Also in this case, if the width W in the height direction of the termite-protecting agent-containing sheet 20 is sufficient, white ants cannot reach the upper side of the fabric foundation 12 beyond the termite-protecting agent-containing sheet 20.
[0070]
Part of the termite-protecting agent-containing sheet 20 covering the indoor-side rising surface of the fabric foundation 12 is disposed at a position lower than the ground 10. The white ants can also be prevented from moving upward from the bottom of the ground 10 through the gaps in the fabric foundation 12 and the like. In this case, the width W from the surface of the ground 10 to the upper end of the ant-protecting agent-containing sheet 20 is set to a width sufficient to prevent the passage of white ants.
[0071]
In the embodiment of FIG. 1, since the anti-anticide-containing sheet 20 is disposed between the fabric foundation 12 and the base 14, it is difficult to construct the existing building. However, in the embodiment of FIG. It is easy to construct in homes.
[0072]
[Application to support block]
The embodiment shown in FIG. 3 is an ant proof structure in the case where various housing facilities are installed in the underfloor space S or the soil. Housing equipment includes water heaters, air conditioners, bathtubs, sanitary equipment, and the like.
[0073]
The installation surface 35 may be the ground 10 or a surface in which mortar or the like is applied to the ground 10.
On the installation surface 35, the support block 36 which consists of a hollow concrete block is piled up in two steps, and the housing equipment 38 is installed on it.
[0074]
On the upper part of the support block 36, the anti-anticide-containing sheet 20 is disposed so as to cover the top surface of the support block 36 and the entire circumference of the upper side surface. The width W in the height direction of the ant-protecting agent-containing sheet 20 covering the upper side surface of the support block 36 is set to a width necessary for blocking the passage of white ants.
[0075]
The support block 36 made of a hollow concrete block has a rectangular parallelepiped outer shape, and has a through hole 37 such as an oval penetrating vertically. The white ants may climb upward along the inner surface of the through hole 37. However, if the ant-repellent-containing sheet 20 covers the top surface of the support block 36, white ants that have climbed up the through-hole 37 are prevented from rising further by the ant-repellent-containing sheet 20 on the top surface. The
[0076]
(Adoption of swinging lower end)
In the embodiment shown in FIG. 4, a part of the anti-anticide containing sheet 20 swings.
[0077]
An anti-anticide-containing sheet 20 is disposed on the rising surface of the fabric foundation 12. From the upper end to the middle of the ant-protecting agent-containing sheet 20, the ant-proofing adhesive layer 22 is joined to the surface of the fabric base 12, but at a certain width near the lower end edge of the ant-protecting agent-containing sheet 20, The ant adhesive layer 22 is not provided. Therefore, the lower end edge portion 20a of the termite-protecting agent-containing sheet 20 is in a state of being isolated from the fabric foundation 12. Since the ant preventive agent-containing sheet 20 is easily deformable, the lower end edge portion 20a of the ant preventive agent containing sheet 20 is a swinging lower end 20a that easily swings even when a slight force is applied.
[0078]
If such a swinging lower end 20a is provided, it is difficult for the white ants that have risen up the rising surface of the fabric foundation 12 to climb over the swinging lower end 20a and onto the anti-anticide-containing sheet 20. As a behavior of white ants, avoid passing through places that are unstable and easy to move. In addition, it is not possible to make an ant path from the surface of the fabric foundation 12 to the surface of the ant-preventing agent-containing sheet 20 via the swinging lower end 20 a that moves in an unstable manner. The white ants that have risen along the surface of the fabric base 12 do not come out on the front side of the ant-preventing agent-containing sheet 20 unless the back surface of the swinging lower end 20a is moved from the top to the bottom. Never move.
[0079]
[Evaluation of anti-ant performance]
Specifically, the ant-proof agent-containing sheet and the ant-proof adhesive were produced, ant-proof construction was performed, and the performance was evaluated.
[0080]
<Anticide-containing sheet>
Permethrin, which is an antifungal agent, was blended with the polyethylene pellets to produce an antifungal pellet serving as a master batch.
[0081]
A polyethylene pellet and a predetermined additive were added to the ant-proof pellet to form a molding raw material, and a 200 μm-thick ant-proof agent-containing sheet was produced by ordinary sheet molding.
[0082]
By adjusting the addition amount of the termite-preventing agent blended in the termite-preventing pellets, the amount of the termite-preventing agent contained in the finally produced terminator-containing sheet was varied.
<Anti-proofing adhesive>
Viscosity 6000 poise (measured with BS viscometer, rotor No. 7), thixotropic 6.0 (20 ° C.), specific gravity 1.23 in acrylic emulsion with 0.05% permethrin (based on solid weight of adhesive) To prepare an ant-preventive adhesive comprising an acrylic emulsion water-soluble adhesive.
[0083]
<Performance evaluation test>
The test which evaluates an ant preventive performance was done with respect to the several ant preventive agent containing sheet | seat from which content of an ant preventive agent differs.
[0084]
Test method: Conforms to Japan Wood Preservation Association Standard No. 17 “Testing method and performance standards for indoor ant protection for non-wood products treated with ant control agents”.
Specifically, an application amount of 200 g / m of an ant-proof adhesive is applied to a concrete test support. ² The test article which consists of the said anti-anticide containing sheet | seat was affixed, and the test body was produced.
[0085]
The test piece was subjected to a test for preventing creeping-up of termites under predetermined test conditions. The test results are shown in the table below. Of the evaluation performance, the scooping height indicates the height of the white ants scooping up from the lower end of the specimen, and when the scooping height is the entire surface, the white ants scooped up to the top of the specimen. Means. The weight reduction rate of wood indicates a rate at which the weight of wood is reduced by white ants eating damage.
[0086]
In addition, a comparative example is a case where a test was done with the concrete test support body which does not affix an anti-anticide containing sheet | seat.
<Test results>
[0087]
[Table 1]

As a result of the above test, it was proved that each of the examples using the termite-protecting agent-containing sheet can exhibit a reliable termite-proof function over a long period of time. In the comparative example that does not use the ant-protecting agent-containing sheet, white ants creep up in a short period of time, causing damage to the wood.
[0088]
[Ant road construction test]
When various synthetic resin sheets were arranged on the rising surface of the structural member, it was evaluated how much width would make it difficult for white ants to construct an ant road.
[0089]
Specifically, the synthetic resin sheet was attached to the cement structure in a vertical state. A bait such as wood was placed on the upper part of the cement structure so that white ants could approach the lower end of the cement structure. The synthetic resin sheet does not contain an anti-anticide and the adhesive does not contain an anti-ant.
[0090]
[Table 2]

As a result of the above test, with the cement structure alone, the white ants immediately build the ant path, and build the ant path to a higher position over time. However, in the case of a surface made of a specific synthetic resin, white ants try to construct an ant path by causing contact behavior, but it is understood that an ant path cannot be constructed beyond a certain height.
[0091]
The reason is unknown in detail, but on the surface of the synthetic resin that is slippery, even if the white ants try to build the ant road, the white ants will slide or the ant road built by kneading the soil will be synthesized. It can be assumed that the surface of the resin is not fixed because moisture is not absorbed.
[0092]
In addition, when the synthetic resin sheet does not contain an anti-anticide, white ant intrusion prevention is not complete. Even if it is difficult to construct an ant road, it may be possible to pass white ants. Further, if the surface of the synthetic resin sheet becomes dirty with time and becomes difficult to slide, it may be impossible to prevent the passage of white ants and the construction of ant roads. Therefore, the above-described anti-anticide-containing sheet is effective.
[0093]
Further, from the results of the above test, it was proved that if the width W in the height direction of the ant-preventing agent-containing sheet is set to 10 cm or more, the construction of ant roads and the invasion of white ants can be more reliably prevented.
[0094]
【The invention's effect】
In the underfloor ant structure of the present invention, the rising surface of the structural member installed in the underfloor space is covered with the ant-proofing agent-containing sheet having a predetermined width and joined with the ant-proofing adhesive layer. White ants can be effectively prevented from entering.
[0095]
The termite-protecting agent-containing sheet or the termite-proofing adhesive layer provided on the rising surface does not cause soil contamination of the ground. The anti-anticide component does not dissolve in the soil and the effect is not reduced. Compared to spraying an ant-proofing agent on the entire ground or covering the entire ground with an ant-proofing sheet, the amount of the ant-proofing agent used is small, and the possibility of environmental pollution is greatly reduced.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of an underfloor ant structure that represents an embodiment of the present invention.
FIG. 2 is a cross-sectional view of an underfloor ant structure that represents another embodiment.
FIG. 3 is a cross-sectional view of an underfloor ant structure that represents another embodiment.
FIG. 4 is a cross-sectional view of an underfloor ant structure that represents another embodiment.
[Explanation of symbols]
10 ground
12 Fabric foundation
20 Anticide-containing sheet
22 Ant-proof adhesive layer
32 Sekiishi
34 Bunch pillars
36 blocks

Claims (4)

An ant-proof structure in the underfloor space of a building,
It consists of a synthetic resin containing 0.01 to 1% of an anti-bacterial agent with respect to the solid weight , has a thickness of 100 to 200 μm, and the rising surface of the structural member installed in the underfloor space is 10 cm or more in the vertical direction. An anti-anticide-containing sheet that covers the width,
The above-mentioned structural member is coated with an ant-proofing agent containing 0.01 to 1% of an ant- proofing agent based on the solid weight of the adhesive and having a viscosity of 4000 to 8000 poise and a thixotropic property of 4.0 to 10.0. An under-ant ant structure comprising an ant-preventive adhesive layer that joins the ant-preventing agent-containing sheet to the structural member. The structural member includes a fabric foundation;
The underfloor ant structure according to claim 1, wherein the ant-preventive agent-containing sheet covers from the rising surface on one side of the cloth foundation to the rising surface on the opposite side through the top surface of the cloth foundation. The structural member includes a boulder;
The underfloor ant structure according to claim 1 or 2, wherein the ant-preventive agent-containing sheet covers at least the rising surface of the entire circumference of the boulder stone. The underfloor ant structure according to any one of claims 1 to 3, wherein the ant preventive agent-containing sheet has a lower end edge that is not joined to the structural member and can swing.

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