JPH02117602A - Agent and method for controlling termite - Google Patents

Abstract

PURPOSE:To provide a termite control agent prevented from the high humidity or dryness of air under a floor by carrying a termite controlling ingredient on clay porous granules selected from sepiolite, attapalgite and allophane having a humidity-adjusting function. CONSTITUTION:A termite-control agent comprises a termite-controlling ingredient (an organophosphorous, carbamate or pyrethroid insecticide is employed) carried on a carrier consisting of at least one kind of clay porous granules selected from a group of sepiolite, attapalgite and allophane which absorb moisture under a high humidity and release the moisture under a dry condition to adjust the humidity in response to the humidity of an environment. The agent may be further mixed with the same clay porous granules as the carrier as a humidity-adjusting component. Since the agent does not require water when employed, the agent does not give moisture to air under a floor or in a living space to prevent the generation of molds or rot bacterial after employed. Emulsions, capsules, etc., containing the agent can be also applied on underfloor concrete to prevent the invasion of the termites due to the dry contraction of the concrete.

Description

[Detailed Description of the Invention] The present invention relates to a termite control agent and a termite control method, and more particularly, when applied under the floor of a house, it may cause high humidity under the floor. Furthermore, the present invention relates to a termite control agent granule that has a humidity control function against water and humidity that enters under the floor even after application.

The present invention also relates to a termite control method using a termite control agent having such a humidity control function.

Conventional ■ Extremity Blood Conventionally, to prevent termite damage to wooden buildings,
Various termite control agents are used.

Such termite control agents often have the form of emulsions, flowables, or microcapsules, which are diluted with water and mixed with 3 to 51. It is applied by spraying it under the floors of houses at a rate of about /rrf. Therefore, conventionally, when applying termite control agents, the underfloor of the house becomes highly humid, which not only causes mold and rotting fungi to grow, but also the high humidity environment under the floor extends to the living space, leading to the growth of mold. . The growth of mold has been shown to be one of the major causes of asthma and allergic diseases, impairing a comfortable and healthy living environment, and rotting fungi can also damage the wood of houses. , resulting in a significant decrease in structural strength.

Therefore, for example, JP-A-56-105042 proposes a method of mixing termite control agents with pumice, perlite, lime, and raw stone powder, and spraying this under the floors of houses. The humidity control function is still insufficient, and since lime is used, the usable anticide ingredients are limited.

In addition, granules and powders that do not require water are also known, but in most cases, the formulations do not have a humidity control function, and even if they do, the amount is extremely small. However, it cannot function effectively to control moisture and humidity under the floor of a house.

・The present invention was made to solve the above-mentioned problems in conventional termite control. The purpose of the present invention is to provide a termite control agent granule that does not cause any oxidation and has a humidity control function against water and humidity that enters under the floor even after application, and also has a termite control agent that has such a humidity control function. The purpose is to provide a pest control method using granules.

1. The first termite control agent according to the present invention is sepiolite,
It is characterized in that an anticide component is supported on a carrier made of at least one kind of clay porous particles selected from the group consisting of attapulgite and allophane.

In the present invention, the above-mentioned clay porous particles used as a carrier have a humidity control function depending on the humidity conditions of the environment. That is, under high humidity conditions, it absorbs moisture, and under dry conditions, it releases the absorbed moisture.

Among the above, sepiolite and attapulgite are also called mountain bark, and are clay minerals having a large number of active hydroxyl groups on the surface. Sepiolite is a hydrous magnesium silicate and attapulgite is a hydrous magnesium aluminum silicate. These are also mountain
It is called cork, mountain leather, mountain wood, etc. The sepiolite or attapulgite used in the present invention may contain calcite, dolomite, magnesite, basic magnesium carbonate, silicic acid components, and the like. Allophane is also a type of clay mineral and is a silicate of aluminum. Kanuma soil can be mentioned as an example of allophane.

In the present invention, an organophosphorus-based, carbamate-based, or pyrethrin-based insecticide is used as the anticide component. Examples of organophosphorus insecticides include phoxim, chlorpyrifos, fenitrothion, pyridafenthion, isofenphos, prothiophos, isoxathion, and viraclofos; examples of carbamate insecticides include bassa, propoxa, and the like. can. Examples of pyrethrin insecticides include synthetic pyrethrin insecticides such as allethrin, phthalthrin, resmethrin, permethrin, dibermethrin, decametrin, cyfluthrin, tralomethrin, dihalomethrin, fluthrinate, and fluparinate. In addition to this, pyrethrin insecticides include phenylacetate derivatives such as fenvalerate, and
In terms of insecticidal effect, such as etofenbrox, etc.
A broad definition of synthetic pyrethrin insecticides that exhibit the same behavior as synthetic pyrethrin insecticides is also included.

The first termite control agent according to the present invention is a granule in which such an insecticide as a termiticide component is supported on a carrier made of the above-mentioned clay porous particles.

Among the above-mentioned clay porous particles as a carrier, sepiolite or attapulgite is particularly preferably used in the present invention because of their excellent humidity control function. These clay porous particles have a particle size of 0.2 to 20 f.
It is preferable that the fII is in the range of 11.

The second termite control agent according to the present invention is a termite control agent in which a termiticide component is supported on a carrier consisting of at least one kind of clay porous particles selected from the group consisting of sepiolite, attapulgiaite, and allophane explained above. and a humidity conditioner consisting of at least one clay porous particle selected from the group consisting of sepiolite, attapulgite, and allophane.

That is, in this second termite control agent, the clay porous particles used as the carrier of the first termite control agent are used as a humidity conditioner. Clay porous particles also help control the amount of pesticide in the granules.

A humidity control agent made of clay porous particles is not particularly limited, but is usually used in a pest control agent in a range of 10 to 99% by weight.

Furthermore, the third termite control agent according to the present invention is a humidity conditioner comprising a granule or powder containing a termicidal component and at least one clay porous particle selected from the group consisting of sepiolite, attapulgite, and allophane. It is characterized by consisting of a mixture of ingredients.

Here, the granules or powders containing the above-mentioned anticide component mean ordinary granules or powders other than the above-mentioned granules made of clay porous particles supporting an anticide component. Any of the more known granules or powders can be used.

For example, natural pumice or the like can be used as the carrier. Also in this third termite control agent, the humidity conditioner component made of the clay porous particles has a particle size of 0.2 to 20
Although not particularly limited, it is usually used in a range of 10 to 99% by weight in a pest control agent.

In the termite control agent according to the present invention, the amount of insecticide is appropriately selected depending on the insecticide used, the particle size of the carrier, the thickness of spraying during application, etc., but usually in granules, 0.
The range is from 0.01 to 50% by weight, preferably from 0.1 to 50% by weight.
It is in the range of 20% by weight.

The termite control agent according to the present invention may contain various additives, if necessary, along with the insecticide. Examples of such additives include solvents such as alcohols, aromatic hydrocarbons, aliphatic hydrocarbons, alicyclic hydrocarbons, glycol ethers, ketones, and esters, and alkyd resins for adjusting the elution of active ingredients. , resins such as acrylic resins, urethane resins, petroleum resins, 1.1.1.2, 7.8
, 8. Efficacy enhancers such as 8-octachloro-4-oxaheptane and piperonyl butoxide, repellents, antioxidants,
Stabilizers such as ultraviolet absorbers, colorants, pigments, etc. can be mentioned.

The termite control agent according to the present invention is not limited in any way in its manufacturing method, and for example, coating,
1. Using a formulation device such as a pan, mix the insecticide, carrier, and optionally additives, and impregnate the carrier with the insecticide. It can be manufactured by drying. Furthermore, a termite control agent containing a humidity conditioning agent can be obtained by producing granules as described above and then mixing the moisture conditioning agent therein.

In particular, the termite control agent according to the present invention can be applied without causing high humidity under the floor of a house, and further,
Even after application, it is suitably used to provide a humidity control function against moisture and humidity that enter under the floor. For application, for example, it may be sprayed under the floor of a house using a blower to a thickness of about 1 to 50 mm.

The mode of application of the termite control agent according to the present invention is not particularly limited to the above-mentioned examples. and at least one selected from the group consisting of sepiolite, attapulgite, and allophane.
The moisture conditioner component consisting of porous clay particles of seeds may be sprayed under the floor of the house at the same time, or one of them may be sprayed first and the other after, that is, at intervals of time. Good too. In this case as well, the humidity conditioner component is not particularly limited, but it is generally sufficient to spray it in a range of 10 to 99% by weight in the pest control agent. When spraying the granules or powder and the humidity conditioner component at the same time, they may be mixed in advance and sprayed.

As described above, the termite control agent according to the present invention is a granule and does not use water when applied, so it does not cause high humidity under the floor or in the living space. Even after application, it has a humidity control function against water and humidity that enters under the floor, and can effectively prevent the growth of mold and rotting fungi under the floor of the house and in the living space.

Furthermore, according to the termite control agent of the present invention, it can be applied to subfloor concrete, where conventional emulsions, flowable agents, and microcapsules could not be applied due to their low alkali stability. It is also possible to effectively prevent termites from peeling off due to shrinkage or from entering through cracks.

EXAMPLES The present invention will be explained below with reference to Examples, but the present invention is not limited to these Examples in any way. Note that in the following, parts indicate parts by weight.

Example 1 95 parts of sepiolite having a particle size of 2.4 to 4.8 rm, 5 parts of phoxim and 3 parts of an aromatic petroleum solvent were mixed and dried to obtain 100 parts of phoxim granules. The granules contain 5% by weight of Phoxim.

Example 2 95 parts of sepiolite having a particle size of 2.4 to 4.8 mm, 5 parts of cyfluthrin, and 5 parts of an aromatic petroleum solvent were mixed and dried to obtain 100 parts of cyfluthrin granules. This granule contains 9% 5% Sifucyto.

Example 3 95 parts of attapulgite having a particle size of 2.4 to 4.8 mm, 5 parts of phoxim, and 3 parts of an aromatic petroleum solvent were mixed and dried to obtain 100 parts of phoxim granules.

The granules contain 5% by weight of Phoxim.

Example 4 After mixing 95 parts of allophane with a particle size of 2.4 to 4.8 m, 5 parts of Phoxim, and 3 parts of an aromatic petroleum solvent, the mixture was dried to obtain 100 parts of Phoxim granules. The granules contain 5% by weight of Phoxim.

Example 5 After mixing 90 parts of sepiolite with a particle size of 2.4 to 4.8 mm, 10 parts of phoxim, and 6 parts of an aromatic petroleum solvent,
After drying, 100 parts of Phoxim granules were obtained.

Fifty parts of this granule was mixed with 50 parts of sepiolite having a particle size of 2.4 to 4.8 mm to obtain 100 parts of Phoxim granule. The granules contain 5% by weight of Phoxim.

Example 6 90 parts of natural pumice with a particle size of 2.4 = 4.8 mm,
After mixing 10 parts of Phoxim and 6 parts of an aromatic petroleum solvent, the mixture was dried to obtain 100 parts of Phoxim granules. This granule 5
0 part was mixed with 50 parts of sepiolite having a particle size of 2.4 to 4.8 plates to obtain 100 parts of Phoxim granules.

The granules contain 5% by weight of Phoxim.

Comparative Example 1 After mixing 95 parts of natural pumice with a particle size of 2.4 to 4.811 nm, 5 parts of Phoxim, and 3 parts of an aromatic petroleum solvent, the mixture was dried to obtain 100 parts of Phoxim granules. The granules contain 5% by weight of Phoxim.

Comparative Example 2 95 parts of activated carbon having a particle size of 2.4 to 4.8 mm, 5 parts of Phoxim, and 3 parts of an aromatic petroleum solvent were mixed and dried to obtain 100 parts of Phoxim granules. The granules contain 5% by weight of Phoxim.

Test Example 1 Each of the granules prepared in the above Examples and Comparative Examples was tested using the indoor test method (JWPAS-No. 13, termite prevention ability of soil treatment termiticides) specified by the Japan White Ant Countermeasures Association. Efficacy testing was conducted in accordance with the Efficacy Test Method. The results are shown in Table 1.

Also shown are the results when only sepiolite, attapulgite, allophane, or pumice were used in the same way. This result shows that the termite control agent according to the present invention has a high termicidal effect.

Test Example 2 Each formulation prepared in the above Examples and Comparative Examples was heated at a temperature of 40'C1 with a relative humidity of 100% and a temperature of 25'C1.
Each sample was repeatedly stored every 24 hours under conditions of relative humidity of 60%, and its weight was measured every 24 hours to examine its humidity conditioning N ability. The results are shown in Table 2. This result shows that the termite control agent according to the present invention has excellent MFEJ moisture function.

Patent applicant: Takeda Pharmaceutical Company Limited Agent Patent Attorney Makino Ittobu

Claims (4)

[Claims] (1) A termite control agent comprising an anticide component supported on a carrier consisting of at least one type of clay porous particles selected from the group consisting of sepiolite, attapulgiaite, and allofene. (2) A termite control agent component comprising an anticide component supported on a carrier consisting of at least one type of clay porous particles selected from the group consisting of sepiolite, attapulgiaite, and allofuene, and a group consisting of sepiolite, attapulgite, and allofuene. 1. A termite control agent comprising a mixture of at least one selected clay porous particle and a humidity conditioner component. (3) It is characterized by consisting of a mixture of granules or powder containing an anticide component and a humectant component consisting of at least one kind of clay porous particles selected from the group consisting of sepiolite, attapulgiaite, and allofene. termite control agent. (4) Spreading a granule or powder containing an anticide component and a humidity conditioner component consisting of at least one type of clay porous particle selected from the group consisting of sepiolite, attapulgiaite, and allofene under the floor of a house. A method for controlling termites under the floor of a house, which is characterized by: