JP2001169713A - Method for producing termite-proof material, termite- proofing method, and termite-proof structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for producing a termite-proof material with sustainable termite-proof effect, to provide a termite-proofing method using the same, and to provide a termite-proof structure using the termite-proof material. SOLUTION: This termite-proof material is obtained by treating a plastic- based bulky material with a termite-proofing chemical, wherein such a bulky material to be used is obtained, for example, by processing, so as to be bulky, a plastic film or tape containing a plastic layer with a metal oxide-based inorganic matter such as a magnetic metal oxide adhered to the surface.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a method for producing termite-control materials,
The present invention relates to a termite control method and a termite structure.

[0002]

2. Description of the Related Art Since ancient times, it has been important to protect wooden houses from termite damage by raising the floor to prevent moisture under the floor. However, recently, there are many low-floor type wooden houses to be newly built due to market demands for lowering construction costs and design. At the same time, due to the spread of highly airtight and highly insulated houses and air-conditioning equipment, there is generally an environment where termites can easily live. As described above, it is important to improve the ventilation under the floor to reduce moisture and create an environment where termites are difficult to live, which is important for termite control measures. Meeting that requirement is a challenge for today's wooden houses.

[0003] At present, the termite damage to wooden structures such as wooden houses, wooden structures, houses, and the like is extremely large. Many methods for termite control have been developed, such as a method of treating with a termiticide and a method of making the structure under the floor less accessible to termites.

[0004] As a typical termite control method, wood to be used is immersed in a large chemical tank filled with a termite-control chemical solution before use, impregnated with the chemical solution for several hours to about one day, and then taken out. The method of using after drying is the most effective method for termite control. This ant-control method is costly and does not have any effect on the inhabitation of ants in the ground, because only the wooden structure under the floor is actually used. There was a drawback that it was not effective in protecting against ant harm.

[0005] As another termite control method, there is a soil disinfection method in which the soil on which the target structure building is built is disinfected with a termiticide (soil treatment agent) solution. In this termite control method, a termiticide is sprayed or sprayed on the soil to impregnate the soil particles with the drug, thereby eliminating termites that are going to live. However, this method has a problem whether or not the soil particles have an ability to retain a termiticide, and at the same time, the drug is not acted on by other types of microorganisms living in the soil in the natural world or enzymes coexisting with them. It is very difficult to maintain its drug effect for more than 5 years. In other words, it has been pointed out that the effect of termite control agents so far is an early decrease in the effect due to runoff, scattering, and decomposition in the soil. On the other hand, for example, there has been a method in which a termiticide is not directly sprayed on the soil, but a substance once adsorbed on a porous carrier is used. However, even in this case, there has been a lack of a means for positively preventing an early decrease in termite control agents.

[0006] As another termite control method, a method of applying a termiticide solution having impregnating properties to wood to an assembled wooden frame to exterminate termites to live in has been widely practiced. I have. This coating method is usually performed as a method for maintaining an existing building, but many parts cannot be applied to an assembled structure, and a complete effect cannot be expected.

[0007] In conjunction with this application method, the soil disinfection method described above is carried out simultaneously with this application method. However, in many cases, existing buildings have already been damaged by termites. In such cases,
It is common for termites to nest in the upper timber itself, and it is almost impossible to eliminate them entirely. In other words, it is common knowledge that a chemical treatment for preventing termites does not produce good results unless it is performed before building a building.

[0008]

SUMMARY OF THE INVENTION The present invention is intended to solve the above-mentioned problems. The present invention uses a material that has ventilation and dries easily to create an environment where termites themselves cannot live easily. In addition, a method for manufacturing a termite-control material, in which a drug that is strong and harmless to the human body is permanently retained in termites and is prevented from being eluted and decomposed to maintain the termite-control effect on the material that is easy to dry. It is an object of the present invention to provide a termite control method and a termite structure using a termite material.

[0009]

Means for Solving the Problems In order to achieve the above object, a method for producing a termite-controlling material according to the present invention comprises treating a bulky material based on plastic with a termite-controlling agent. In another embodiment, the present invention provides a bulky material based on plastic, to which an adhesive is added to form a plate, and the resulting formed plate is treated with a treatment liquid containing a termiticide. To obtain a plate-shaped termite-control material. The bulky material based on plastic is a material obtained by bulking a plastic film or a tape, and includes a material obtained by processing a cut tape into a curl shape, a cylindrical bead shape, and the like. It is. Further, the treatment liquid to which the termite-controlling agent is added generally contains a binder. In another embodiment of the method for manufacturing a termite-control material according to the present invention, a bulky material based on plastic is treated with a termite-controlling agent, and the bulky material is further cut or cut. To further increase the bulk. Further, as a method for producing a termite-controlling material according to the present invention, as another form, a plastic containing a termite-controlling agent in advance is used as a base material, and the plastic substrate is processed to be bulky, And forming the plastic substrate into a plate-like shape by adding an adhesive to the obtained bulky material.

[0010] When the term "treatment" is used in the present specification, for example, when a liquid substance is applied to an object to be processed or immersed in the liquid substance, other incidents such as drying are performed. When a process is necessary, such a process is also included. In another embodiment, the method for producing a termite-controlling material according to the present invention uses an inorganic material containing a metal oxide such as a magnetic metal oxide, a metal carbonate, or a silicate compound as a main component. A plastic film or tape containing a plastic layer treated so as to adhere to the surface is processed, and a binder (hereinafter, also referred to as a second component) is formed on the surface of the constituent material of the obtained bulky material (hereinafter, also referred to as a first component). ) And a termite-controlling agent (hereinafter also referred to as a third component) to obtain a termite-controlling material. Further, in a method for producing a termite-controlling material according to the present invention, in another embodiment, an adhesive is added to the first component to form a plate, and the obtained molded plate is formed by combining the second component and the third component. Treated with a processing solution containing
Thus, the mixture of the second component and the third component is fixed to obtain a plate-shaped termite-control material.

Further, in another embodiment, the method for producing a termite-controlling material of the present invention is a method for preventing termite-controlling materials together with an inorganic substance mainly composed of a metal oxide such as a magnetic oxide, a metal carbonate, or a silicate compound, and a binder. Treating the ant agent on the surface of the plastic film and processing the plastic film to be bulky. The present invention also encompasses forming a plate-like shape by adding an adhesive to the bulky plastic film obtained by processing as described above. The present invention is, as another aspect, a termite control method or structure, in which the termite material obtained by the manufacturing method according to the present invention is an object of termite control. It is to be laid or scattered under the floor of the building and / or around the building.

The termite-controlling material obtained by the production method according to the present invention has a ventilation drying ability due to its bulky characteristics. When the metal oxide in the first component is contained, the metal oxide serves as a carrier to hold the third component via the second component, thereby forming a fixed adhesion layer on the surface of the termite-control material. In this fixed adhesion layer, the third component is held between the adhesive molecules having a strong polymer composition, elution thereof is prevented, and the termite-control effect of the third component is maintained. When a magnetic metal oxide is used as the metal oxide in the first component, the magnetic metal oxide itself has an anti-termitizing effect. Therefore, by arranging such a termite-controlling material on the surface of the soil and implementing the termite-controlling method or the termite-controlling structure according to the present invention, a strong termite-controlling effect can be maintained. It should be noted that the termite control method according to the present invention does not require a process such as spraying a drug on site, is very efficient to lay at a target location, and does not cause a problem such as uneven drug concentration. The third component is toxic to termites when eaten by the termites. The present invention takes advantage of the phagocytic nature of termites, the property of eating and taking up everything in the body.

In this specification, the term "building" includes the concept of a building, a building, a structure, and refers to a wooden building, a wooden structure, a building using a wooden structure, a wooden house, and the like. Include widely. The “plate shape” includes a shape that can be spread on a plane such as a futon shape, a floor plate shape (flooring shape), and a carpet shape.

[0014]

Embodiments of the present invention will be described below. FIG. 1 is a flowchart illustrating an embodiment of a method for manufacturing a termite-controlling material according to the present invention. In this embodiment mode, first, a plastic film or tape including a plastic layer having a surface coated with an inorganic substance containing a metal oxide such as a magnetic metal oxide as a main component is processed to be bulky and a bulky material is formed. (Step 101) is obtained.
The inorganic substance is formed in the form of a film or by impregnation on the surface of a plastic film. Examples of the plastic that is one of the raw materials of the first component include polyethylene terephthalate polyester, polyamide plastic, polycarbonate plastic, polyethylene, polypropylene, and polyvinyl acetate plastic. These are commercially available and have no problem in cost. Of these, polyethylene terephthalate-based polyester, which is used in large amounts in audio tapes or video tapes, is particularly preferred. This tape has high strength and is suitable for the purpose of the present invention.

In the present embodiment, at least one surface of such a plastic film or tape is coated with an inorganic substance mainly (main component) of a powder or granules of a metal oxide such as a magnetic metal oxide by an appropriate fixing agent. Apply and adhere. Metal oxides, such as alumina (aluminum oxide), ferrite (iron oxide), barium oxide, and zinc oxide (zinc oxide), are harmless to the human body under normal conditions, and are stable in the air, soil, and other environments. Can be mentioned. Examples of the magnetic metal oxide include iron oxide, manganese oxide, cobalt oxide, nickel oxide, barium ferrite, manganese ferrite, nickel ferrite, and strontium ferrite. Generally, it is preferable to use an inorganic composition in which a silicate compound derived from a mineral such as diatomaceous earth, talc, vermiculite, sepiolite, and attapulgite is mixed with a metal oxide. As the fixing agent (binder), a thermosetting polyurethane resin, a thermoplastic polyurethane resin,
It is preferable to use a thermosetting epoxy resin.

As a plastic film or tape (hereinafter, also referred to as a magnetic tape or the like) formed on the surface of an inorganic substance mainly composed of a metal oxide such as a magnetic metal oxide, a magnetic tape such as an audio tape or a video tape Can be suitably used. In particular, it is preferable to use a magnetic tape waste material which is difficult to treat in terms of environmental considerations. Such a magnetic tape is generally applied, for example, by coating a magnetic layer made of a ferrite compound such as barium ferrite strontium ferrite and a polyurethane resin on a base layer made of a polyethylene terephthalate-based polyester. Available on the market as magnetic tape. Therefore, the cost is reasonable, the quality is stable, and the object of the present invention is met.

In the present embodiment, the first component is obtained in step 101 by processing the magnetic tape or the like so as to be bulky.
For example, the above-mentioned magnetic tape or the like is used as a cut piece, which is heated to be formed into a bulky state such as a roll shape, a spiral ribbon shape, and a key shape. In addition, bulky means that the bulk specific gravity is 0.01 to
0.2.

A magnetic tape or the like becomes a roll or a spiral when heat-treated due to a difference in the coefficient of thermal expansion between the magnetic layer having the surface coated with the inorganic substance and the plastic base layer, and the plastic is partially melted. Plastically deforms and easily curls. Thereby, a bulky material can be obtained. Note that a bulky material can be obtained by other processes such as a heating bending process and a heating winding process.

In the case of obtaining the first component in the form of a roll, first, 2 mm to 30 mm, preferably about 10 mm to 20 mm
Cut a magnetic tape or the like to a length of about mm. And when it is fluidized in hot air above the softening point of the plastic, the plastic softens, shrinks and has a diameter of 2 mm to 10 m.
m roll. In the case of a polyester film, the temperature of the hot air is preferably from 140 to 200C, and in the case of a polypropylene film, the temperature is preferably from 60 to 80C. For example, in the case of a commercially available video tape in which a magnetic layer is coated with the above-mentioned polyethylene terephthalate-based polyester film and barium ferrite, a roll having a diameter of 2 to 8 mm can be obtained simply by holding the film in hot air at about 200 ° C. for several seconds. Its bulk specific gravity is 0.1 to 0.2.

In order to obtain the first component in the form of a spiral ribbon, for example, the above-mentioned magnetic tape formed into a slit having a width of 2 to 10 mm is heated to near the softening point of the plastic used for the magnetic tape. Cut at the point where it is wound several times on top (corresponding to a length of 2 to 30 mm). As a result, the ribbon has a shape (spiral ribbon shape) similar to that obtained when the ribbon is wound and separated, and is extremely bulky. That is, for example, when a magnetic tape such as a video tape is slit to a width of about 10 mm, a Teflon-coated iron pipe having a diameter of 6φ is heated to a temperature close to the softening point of the tape and cut at a point where the tape is wound several times. The shape becomes similar to the shape when the ribbon is wound and separated (spiral ribbon shape), which is extremely bulky. The reason why the bulk is increased is to improve the air permeability and the heat insulation.

In order to obtain a key-shaped first component, a magnetic tape or the like is folded in two vertically, passed between heated rolls, and then continuously cut into a length of 5 to 10 mm. , And a bulky material can be obtained.

In the present embodiment, following the step 101, the bulky material obtained in the step 101 is treated with a treatment liquid in which the third component is added to and dissolved in the second component to process the termite-controlling material ( Step 102). The binder of the second component can be well dispersed in water in the form of an emulsion and adheres particularly well to the solid surface of the magnetic layer made of the inorganic material, and at the same time, the solid surface becomes hydrophilic or lipophilic. Those having characteristics that can be modified so as to improve adhesion to a substance are preferable. Such binders include hydrophilic binders and lipophilic binders. In the case of a hydrophilic binder, the energy cost for drying increases. Also,
When a lipophilic binder is used, the cost for drying is reduced, but a drying facility having a function of recovering the organic solvent and the like is required. However, from the viewpoint of environmental measures, it is preferable to use a hydrophilic binder and formulate an aqueous one as the third component.

When a hydrophilic binder is used A hydrophilic binder is suitable when a water-soluble or water-dispersible termiticide (third component) is used. The mixing ratio of the hydrophilic binder to the termite-controlling agent is generally such that the active ingredient in the termite-controlling agent is 0.02 to 100 per solid binder component.
The range of 5% by weight is preferable, but from the balance between the drug effect and the economic efficiency, 0.1 to 2.0% by weight (0.01 to 0.1%).
% Is more preferably used. Examples of water-soluble or water-dispersible termiticides include pyrethroid-based drugs, cyfluthrin, cyhalothrin, cycloprothrin, cypermethrin, and the like, which are formulated by adding a surfactant, carbowax, and the like. In particular, the pyrethroid-based drugs described above are effective against ants, especially ants that cause significant damage to woody structures such as "yes" and "yamasato", while having endurance, Suitable for low toxicity to

As the hydrophilic binder, those which disperse very well in water in an emulsion state, and which act as an adhesive between organic polymers and between an organic polymer and an inorganic compound are preferred. And what has the property to maintain the stable adhesive force over a long period after hardening is preferable. Second
The component embraces a third component such as a pyrethroid-based drug, and is physically attached to an inorganic material component (an inorganic material mainly composed of a magnetic metal oxide) at the same time as an organic material (plastic film) component surface of the first component. Demonstrates the property of firmly adhering to
Exhibits termite-control performance for a long time. Specific examples of the hydrophilic binder include styrene-butadiene acrylate copolymer emulsion, acrylonitrile-styrene-butadiene methacrylate copolymer emulsion,
Examples thereof include a polyethylene vinyl acetate-based copolymer emulsion, a chloroprene-based copolymer emulsion, and an acrylonitrile-styrene-based copolymer emulsion.

When a processing solution in which a water-soluble or water-dispersible termiticide is added to and dissolved in a hydrophilic binder is used, the solvent used in the processing solution has both lipophilic and hydrophilic properties. It does not hinder the performance of the second component, which is a binder, and wets the surface of the plastic film constituting the first component and the surface of the inorganic substance applied thereon, and at the same time, the hydrophilic termiticide of the third component becomes uniform. It must act to help be wrapped in the binder. Accordingly, the solvent in this case is preferably water or a mixture of water and a compounding agent such as a surfactant. The surfactant is blended to improve the wetting of the binder to the first component, and specifically, for example, a nonionic surfactant such as polyoxyethylene alkylphenyl ether is preferable. Other compounding agents include antioxidants (BHT
Etc.) and broad spectrum fungicides.

[0026] when lipophilic using binder lipophilic binder is preferred when using a fat-soluble or oil-dispersible anti-termite agents (third component). The mixing ratio of the lipophilic binder to the termiticide is usually in the range of 0.1 to 2.0% by weight from the viewpoint of efficacy and economy. As fat-soluble or oil-dispersed termites,
Examples include various pyrethroid-based drugs, cyfluthrin, cyhalothrin, cycloprothrin, cypermethrin, etc., formulated in a formula suitable for the solvent used. In particular, pyrethroid-based drugs are preferred because they are effective against ants, especially ants that cause significant damage to woody structures such as "yes" and "yamasato", and have endurance.

The lipophilic binder is compatible with a solvent for dissolving and dispersing the termiticide (third component). The binder is composed of an organic polymer (plastic film) and an inorganic compound (containing metal oxide as a main component). It is preferable to use an adhesive that can adhere well to the inorganic material) and maintain its adhesiveness for a long time after curing. Specifically, a chloroprene-based adhesive, a one-component polyurethane-based adhesive, a two-component polyurethane-based adhesive, an acrylic polymer-based adhesive, and the like can be given.

In the case of using a processing solution in which a lipophilic binder is added with a fat-soluble or oil-dispersing termite-controlling agent and dissolved, the solvent used in this processing solution is a plastic film as the first component and its solvent. It is a solvent which wets the surface of the inorganic substance applied thereon and does not damage or change the shape of the plastic film and the inorganic substance at the same time. It also has an affinity for, and must not be erodible to, the shaped plates that will be mentioned in the description of FIG. Therefore, specifically, ketones such as methyl ethyl ketone, esters such as ethyl acetate, alcohols such as ethyl alcohol, methyl alcohol and isopropyl alcohol,
At least one selected from the group consisting of aromatic solvents such as toluene and xylene, aliphatic solvents such as n-hexane and pentane, other petroleum solvents not belonging to the above-described groups, and vegetable oils and fats. A solvent or a mixture of the solvent and a compounding agent such as a stabilizer is preferable. Examples of the stabilizer include an antioxidant and an ultraviolet absorber. Other compounding agents include fungicides (hydantoin fungicides, isothiazoline fungicides, etc.).

To treat the first component in step 102, the treatment liquid may be sprayed onto the first component, or the first component may be placed in a stream of the treatment liquid, Soak in The amount of the treatment liquid when spraying is preferably 1 to 5 liters per 1 liter of the first component. This is to sufficiently wet the first component. The treatment time for the treatment liquid when immersing is a time for sufficiently wetting the entire first component, and when immersing a bulky termitic material, it is 1 to 10 minutes and a plate-like (molded plate) ) Is preferably 30 to 120 minutes. The amount of the binder used together with the termiticide used in the present invention is 1% of the weight of the active ingredient contained in the termiticide.
A range of 0 to 100 times is preferable. The amount of the termiticide contained in the termite-controlling material is preferably 3 to 10% by weight. However, it can be set as appropriate according to the efficacy of the termiticide used.

Thereafter, in the drying step 103, the treated first component is dried by natural ventilation or ventilation drying. As a result, a termite-controlling material is obtained. The termite-controlling material has both the termite-controlling effect of the magnetic material and the termite-controlling effect of the termite-controlling agent or a synergistic effect thereof.

Next, another embodiment of the method for manufacturing a termite-controlling material according to the present invention will be described with reference to FIG. In this embodiment,
The present invention relates to a method for producing a plate-shaped termite-control material. In a forming step 201 similar to the forming step 101 in FIG. 1, a first component curled and formed into a roll shape or the like is obtained. An adhesive is added to the first component (Step 202). The adhesive is preferably a heat-resistant organic adhesive such as a urea resin, a phenol resin, an epoxy resin, an unsaturated polyester resin, and a polyurethane resin. The amount added is 3 to 20 parts by weight, preferably 5 to 20 parts by weight, based on 100 parts by weight of the first component.

After the adhesive is added, molding is performed (step 20).
3). To mold, for example, put in a bag made of non-woven fabric, using a molding machine such as a pressure press, 140-200
It is made by hot pressing at a temperature of 0.2 ° C. and a pressure of 0.2 to 1.0 MPa (for example, according to Japanese Patent No. 2578697). The bulk specific gravity after molding is 0.2 to 1.0, preferably 0.2 to 0.
The range is 6. After the pressure molding (step 203), the mixture is treated with a treatment liquid obtained by mixing a binder (second component) and a termiticide (third component) similar to those used in the embodiment of FIG. 1 (step 204). The processing method is the same as the termite processing step 102 described with reference to FIG. Thereafter, in a drying step 205, the processed molded plate is dried by natural ventilation or ventilation drying. Thereby, a plate-shaped termite-control material having the same effect as described above can be obtained.

Next, an embodiment of a termite control method and a termite structure according to the present invention will be described with reference to FIG. As shown in FIG. 3, in the termite control method according to the present embodiment, the termite control material 30 obtained by the manufacturing method described with reference to FIG.
0 is laid or scattered under the floor 302 of the target building 301 and its surroundings 303. At this time, it is preferable to lay without gaps. Preferably, it is spread from 2 liters / square meter to 40 liters / square meter. In the termite structure thus formed, it is completely impossible for termites to avoid the material 300 and move under the floor. In this way, termites coming out of the soil are always brought into contact with the termite-controlling material 300 to control them.

The layer made of the termite-controlling material 300 charged under the floor 302 in this way has a characteristic that air circulation is extremely good and a dry state is always maintained, so that it is difficult for termites to live inside. Termite control material 3 according to the present invention
Since 00 is a very light material, the arrangement of the material under the floor 303 (padding or spraying) can be freely and easily performed by a combination of a simple tank and a blower. That is, as shown in FIG. 5, for example, the termite-control material 300 is put into a hopper 501 having a capacity of 200 liters, and a blower 502 attached to a lower portion thereof is operated. By operating the tip of the nozzle 504 through the hose 503, the direction in which the material 300 is laid can be adjusted. Further, by controlling the damper at the entrance of the blower 502, the scattering distance is adjusted. With these operations, the termite-controlling material 300 can be spread all over the floor. As described above, a step such as spraying a drug on site is unnecessary, and laying or spraying at a target location is extremely efficient, and does not cause a problem such as uneven drug concentration.

In a place where the termite-controlling material is too light and may be unevenly distributed under the floor, or when there is a possibility that the termite-controlling material may be scattered and lost due to wind, rain, or the like, for example, the following methods are used. Alternatively, a combination thereof can prevent it and at the same time protect the material. (1) Soil or sand is put on the termite-control material 300. (2) A lightweight mortar compound or other cementitious mixture is put on or sprayed on the termite-controlling material 300. (3) On the termite-controlling material 300, a protective material such as a wire mesh of about 20 mesh or a plastic mesh which is well ventilated and resistant to corrosion is used.

The termite-control material obtained by the production method according to the present invention and a holding diluent, preferably an inorganic holding-diluent, are previously mixed with the termite-control material by 10% to 300% in terms of bulk. Laying or spraying the termite-control material mixture is also included in the present invention. Such a diluent is preferably a material such as dry soil, sand or other inorganic or organic sandy or granular material which is not easily damaged by termites. The amount to be laid or sprayed is 6 liters /
Square meters to 120 liters / square meter are preferred. At this time, in order to make it difficult to separate the mixture, a small amount of mortar alone at the time of mixing, or the second component such as a styrene-butadiene methacrylate copolymer emulsion, is used for the inorganic material or the plastic film material of the termite-control material. A binder having a certain degree of adhesiveness can also be added. By taking such means, the effect of the termite control method according to the present invention can be enhanced. In the present embodiment, the underfloor 30 of the building 301
Although the termite-control material is laid or sprayed on 2 and its surroundings 303, it may be laid or sprayed on only one of them depending on conditions.

FIG. 4 shows another embodiment of the termite control method and the termite structure according to the present invention. As shown in FIG. 4, in the termite control method according to the present embodiment, a plate-shaped termite control material 400 obtained by the manufacturing method described with reference to FIG.
Is spread below the floor 402 of the target building 401 and its surroundings 403. Preferably, they are spread without gaps. When laying, there is no need to perform any special work such as spraying a medicine.
Therefore, laying or spraying at the target location is extremely efficient, and does not cause a problem such as uneven drug concentration. In the termite structure formed in this manner, it is difficult for termites to avoid this material 400 and move under the floor. Thus, termites coming out of the soil are controlled by contacting the termite-controlling material 400.

This plate-shaped termite material 400 has a thickness of 5 mm to 4 mm.
0mm, light weight and good air permeability inside. The termite-controlling material 400 in the form of a plate can be manufactured as small as 300 mm square and as large as a long sheet having a width of 2 m and a length of 50 m. When laying on the ground, it is preferable to fill the gap between the plate-shaped termite-controlling materials 400 and the gap between the base and other structures by some method to prevent termites from crawling out without touching the termite-controlling material 400. Any of the following methods may be used to fill the gap.

(1) Fill the gap with a caulking material such as silicon or urethane. At that time, a highly effective lipophilic pyrethroid-based termiticide is added to the target caulking material.
For example, cyfluthrin may be mixed so that its concentration becomes 1000 ppm or more, or termite-control materials obtained by the production method according to the present invention described with reference to FIG. 1 may be disposed above and below the caulking material. (2) A similar termite-proofing material is filled into a bag-like material made of wire mesh so as not to be dissipated, and packed into a target gap. (3) Binder of appropriate amount is mixed with similar termite
Fill the target gap. In this case, a binder having a certain physical strength such as a silicon-based, urethane-based, or epoxy-based binder is required.

The plate-shaped termite control material 400 can be applied outdoors as shown in the present embodiment. However, when it is necessary to walk on the plate-shaped termite material 400, it is preferable to cover the upper part with a water-permeable material such as gravel or a mixture of sand and soil in order to maintain the effect. It is also preferable to provide a drainage channel or the like so that drainage during rain can be smoothly performed at the same time. Note that in this embodiment, the underfloor 402 of the building 401 and its surroundings 403
Although the termite-control material is laid or sprayed on the surface, it may be laid or sprayed on only one of them depending on conditions.

[0041]

Example 1 As a bulky material (first component), a tape having a polyester magnetic layer coated with barium ferrite for a video tape in a roll shape was used, and a hydrophilic binder (second component) was used. ), A 30% methacrylic acid styrene-butanediene copolymer emulsion having a concentration of 30% was used. As the termite-controlling agent (third component), a soaking agent, which is a persistent pyrethroid as an active ingredient, was used after being adjusted to a general soaking concentration. One part by weight of the second component and 1 part by weight of the third component thus prepared were mixed well to prepare an immersion liquid (treatment liquid), which was then placed in an immersion tank. On the other hand, the first component was placed in a basket made of wire mesh, and was immersed in the immersion liquid together with the basket. The immersion time was about 20 seconds. After immersion, the basket was pulled up from the immersion tank, and after the solution was well drained, it was spread on a stainless steel wire net and dried by ventilation to obtain a termite-proof material.

This termite material has a bulk density of 0.012, allows air to enter and exit easily, and lays or scatters on the surface of the ground or installs it at a shallow place in the ground to easily remove moisture from the surrounding area. And was easily dried. Further, the magnetic layer itself has an anti-termite effect. Therefore, they have characteristics that can create an environment unsuitable for termite inhabitation. In addition, the mixed components in the treatment liquid were satisfactorily fixed on the material surface during the immersion time described above.

Example 2 To 100 parts by weight of the same first component as in Example 1, 8 parts by weight of a thermosetting binder (adhesive) was added, and the mixture was put in a bag made of non-woven fabric and heated at 150 ° C. The molded plate was obtained by hot pressing at a pressure of 0.25 MPa. This molded plate is immersed in a water tank containing a mixture of the second component and the third component (treatment liquid) similar to that in Example 1 for about 10 minutes, and then pulled up. And placed in a dryer placed on a shelf for air ventilation drying. As a result, a termite-control material having a bulk specific gravity of 0.55 was obtained.

The termite-control material has a bulk density of 0.55, allows easy entry and exit of air, and lays or scatters on the surface of the ground or installs it in a shallow place in the ground to easily remove moisture from the surrounding area. And was easily dried. Further, the magnetic layer itself has an anti-termite effect. Therefore, they have characteristics that can create an environment unsuitable for termite inhabitation. In addition, the mixed components in the treatment liquid were satisfactorily fixed on the material surface during the immersion time.

Example 3 A commercially available packing tape 600 was used as the first component plastic tape. Using an apparatus as shown in FIG. 6, 100 kg of calcium carbonate and 100 kg of sepiolite were added to this tape 600, and 50 kg of a 48% methacrylic acid-modified styrene-butadiene copolymer emulsion was added, followed by mixing with a kneader 601 having a screw feeder 601a. The obtained slurry was applied to the above-mentioned tape 600 with a coating machine 602, and then the tape 600 was continuously passed through a ventilation dryer 603 to be dried. This tape 6
At 00, the aperture of the coating machine 602 was adjusted so that a solid content of 500 to 600 mg per m was applied.

The obtained dried tape 600 was continuously sent to a cutter 604 and cut into a length of 40 to 50 mm. Commercially available packing polypropylene tape 600 has a width of about 50
10 mm thick and shrink-processed to a width of about 5
6 mm. On top of this, the above-mentioned inorganic compound as a carrier can be easily applied at 500 mg / m. The cut piece of tape on which the inorganic substance was placed was placed in a second component aqueous suspension (styrene-butadiene methacrylate copolymer emulsion) tank 607 containing 10% by weight of cyfluthrin and stirred for 10 minutes. Then take out, diameter 8
00mm rotating drum filter (Oliver filter)
After filtering using 605, it was sent to the dryer 606, and at the same time, excess processing liquid was recovered.

In the dryer 606, hot air of 60 ° C.
Drying was completed while blowing 30 m air through a duct having a diameter of 150 mm. The dried product was collected by a cyclone and a bag filter, stored in a product silo, and then subdivided into 60-liter paper bags and shipped.
This termite material also has a bulk density of 0.15, allows air to enter and exit easily, and can be laid or sprayed on the ground,
By installing it in a shallow place in the ground, the surrounding water was easily scattered, and it was easy to dry. Therefore, they have characteristics that can create an environment unsuitable for termite inhabitation.

Example 4 In a 500-liter stainless steel mixing and kneading tank 700, 4
8% styrene butadiene rubber latex emulsion 8
While stirring and adding 0 kg, 120 kg of calcium carbonate and 80 kg of granules having a size of about 1 mm of attapulgite were added and mixed with a high-speed mixer for 20 minutes. To this, 10 kg of a termiticide solution containing 10% by weight of cyfluthrin was added dropwise over 10 minutes. The termiticide mixture was continuously fed to a roll coater 702.

On the other hand, a commercially available bulk packing polypropylene tape (rolled 3000 m) which had been subjected to shrink processing and was set on a reel 701 and sent to a roll coater 702 at a speed of 30 m / min. Solid content of 1 g / m to 1.5
The roll interval was adjusted so that g / m coating was performed. The tape coated with the termiticide mixture was passed through a drying duct 703 controlled at a temperature of 55 ° C. to 60 ° C., and cut into a length of 40 to 50 mm by a tape cutting machine 704. As a result, a bulky product could be obtained in combination with the effect of the shrink processing performed in advance. After that, it was stored in a small-size packaging silo 705, and finally filled in a 60-liter paper bag 706 coated on the inside with polyethylene film, and shipped. This termite material also has a bulk density,
0.20, allowing air to enter and exit easily, laying or spraying on the surface of the ground, or installing it in a shallow place in the ground to easily scatter the surrounding moisture and dry easily. . Therefore, they have characteristics that can create an environment unsuitable for termite inhabitation.

[0050]

As is apparent from the above, according to the present invention, an environment where the termites themselves are hard to live is formed in a shape that is easy to dry due to the passing wind, and the termites are easy to dry, and the termites have a strong power. A method for producing a termite-controlling material for retaining an agent harmless to the human body and preventing its dissolution and decomposition to obtain a termite-controlling material having a sustained termite-controlling effect; And a termite structure are provided.
Further, in carrying out the termite control method and termite structure according to the present invention, a step such as spraying a drug on site is unnecessary,
Laying or spraying termite-control materials on site is extremely efficient, and there is no problem such as non-uniformity of the termite-control effect due to non-uniformity of the drug concentration.

[Brief description of the drawings]

FIG. 1 is a flowchart illustrating an embodiment of a method for manufacturing a termite-controlling material according to the present invention.

FIG. 2 is a flowchart illustrating another embodiment of the method for manufacturing a termite-controlling material according to the present invention.

FIG. 3 is a conceptual diagram illustrating an embodiment of a termite structure according to the present invention.

FIG. 4 is a conceptual diagram illustrating another embodiment of a termite structure according to the present invention.

FIG. 5 is a conceptual diagram illustrating a form of spraying a termite-controlling material according to the present invention.

FIG. 6 is a conceptual diagram illustrating a manufacturing apparatus used in a third embodiment.

FIG. 7 is a conceptual diagram illustrating a manufacturing apparatus used in Example 4.

[Explanation of symbols]

 101, 201 Molding process 102, 204 Processing process 103, 205 Drying process 202 Adhesive adding process 203 Molding plate forming process 300, 400 Termite control material 301, 401 Building 302, 402 Under floor 303, 403 Surrounding 600 Packing tape 601 Kneader 602 Coating machine 603 Ventilation dryer 604 Cutter 605 Rotary drum filter 606 Dryer 607 Tank 700 Kneading tank 701 Reel 702 Roll coater 703 Drying duct 704 Tape cutting machine 705 Silo for small-size packaging 706 Paper bag

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2B121 AA16 CA02 CA64 CC02 CC12 CC25 CC32 CC33 CC34 CC35 EA05 FA01 FA07 FA08 FA12 FA13 2E001 DH14 EA08 FA11 FA22 GA03 GA08 GA23 GA47 GA76 GA85 HD11 JA11 JA13 LA04

Claims (20)

[Claims] 1. A method for producing a termite-controlling material, comprising treating a bulky material based on plastic with a termite-controlling agent. 2. An adhesive is added to a bulky material based on plastic to form a plate, and the obtained formed plate is
A method for producing a termitic material, comprising treating with a treatment liquid to which a termiticide has been added. 3. A method for producing a termite-controlling material, comprising using a plastic containing a termite-controlling agent as a base material and processing the plastic base material in a bulky manner. 4. A termiticidal material comprising: using a plastic containing a termite-controlling agent as a base material; processing the plastic base material to be bulky; and adding an adhesive to the obtained bulky material to form a plate. Manufacturing method. 5. A plastic film or tape containing a plastic layer having a surface coated with an inorganic substance mainly composed of a metal oxide is processed to be bulky, and the obtained bulky material is mixed with a termite-controlling agent as a binder. A method for producing a termite-controlling material, comprising treating with an added treatment liquid. 6. A plastic film or tape including a plastic layer having a surface coated with an inorganic substance mainly composed of a metal oxide is processed to be bulky, and an adhesive is added to the obtained bulky material to form a plate. A method for producing a termite-controlling material, comprising: forming a plate into a shape, and treating the obtained molded plate with a treatment liquid obtained by adding a termite-controlling agent to a binder. 7. A plastic film or tape containing a plastic layer having a surface coated with an inorganic substance mainly composed of a magnetic metal oxide is processed so as to be bulky, and the obtained bulky material is added to a binder as a termite-controlling agent. A method for producing a termite-controlling material, comprising treating with a treatment solution to which is added. 8. A plastic film or tape including a plastic layer having a surface coated with an inorganic substance mainly composed of a magnetic metal oxide is processed to be bulky, and an adhesive is added to the obtained bulky material. A method for producing a termite-controlling material, comprising forming the plate into a plate shape, and treating the obtained formed plate with a treatment liquid obtained by adding a termite-controlling agent to a binder. 9. A method for producing a termite-controlling material, comprising: treating a surface of a plastic film with a termite-controlling agent together with an inorganic substance containing a metal oxide as a main component and a binder, and processing the plastic film so as to be bulky. . 10. An anti-termite agent together with an inorganic substance and a binder mainly composed of a metal oxide is applied to the surface of a plastic film, and the plastic film is processed so as to be bulky. A method for producing a termite-controlling material, comprising forming a plate by adding an agent. 11. A method for producing a termite-controlling material, comprising: treating a surface of a plastic film with a termite-controlling agent together with an inorganic substance containing a magnetic metal oxide as a main component and a binder, and processing the plastic film to increase its bulk. Method. 12. An anti-termite agent together with an inorganic substance and a binder mainly composed of a magnetic metal oxide is applied to the surface of a plastic film, and the plastic film is processed so as to be bulky. A method for producing a termite-controlling material, comprising adding an adhesive to form a plate. 13. A method for laying or spraying termite-control materials obtained by the production method according to any one of claims 1 to 12 under and / or around a building to be subjected to termite control. Termite control methods including. 14. A termite-controlling material mixture obtained by mixing a termite-controlling material with the termite-controlling material obtained by the production method according to any one of claims 1 to 12, under a floor of a building to be subjected to termite control. And / or an ant-control method including laying or spraying around the building. 15. An anti-termite material obtained by the method according to any one of claims 1 to 12, which is laid or sprayed under a floor of a building to be protected against ant and / or around the building. Termite structure. 16. A termite-controlling material mixture obtained by mixing a termite-controlling material with a termite-controlling material obtained by the method according to any one of claims 1 to 12, under a floor of a building to be subjected to termite control. And / or an ant-proof structure laid or scattered around the building. 17. A treatment solution prepared by adding a water-soluble or water-dispersible termiticide to a solvent containing a binder and dissolving the same, wherein the solvent used is water or a surfactant such as water. The method for producing a termite-controlling material according to any one of claims 1 to 12, the method according to any one of claims 13 and 14, or the method according to claim 15,
16. The termite-proof structure of any one of 16. 18. A processing solution obtained by adding a fat-soluble or oil-dispersible termiticide to a solvent containing a binder and dissolving the same, wherein the solvent used in the processing solution is a ketone, an ester, or an alcohol. , Aromatic solvents, aliphatic solvents, other petroleum solvents not belonging to the above, and at least one solvent selected from the group consisting of vegetable oils and fats, or blending of such solvents with stabilizers and the like A method for producing a termite-controlling material according to any one of claims 1 to 12, a method according to any one of claims 13 and 14, or a method according to any one of claims 15 and 16. Termite structure. 19. A water-soluble or water-dispersible termite-controlling agent is used as the termite-controlling agent, and the binder disperses very well in water in an emulsion state, and has a long-term stable adhesive force after curing as an adhesive. A method for producing a termite-controlling material according to any one of claims 1 to 12, a method for termite-controlling according to any one of claims 13, 14, and 17, or any one of claims 15 to 17 Termite structure. 20. A bulky material, wherein a fat-soluble or oil-dispersible termiticide is used as the termiticide, and the binder has compatibility with a solvent for dissolving and dispersing the termiticide. The method for producing a termite-controlling material according to any one of claims 1 to 12, wherein the adhesive is capable of adhering to a component and maintaining its adhesiveness for a long time after curing. Termite control method or claim 1
5. An anti-termite structure according to any one of 5, 16, and 18.