JP2018076383A - Aerosol for insect pest control and insect pest control method using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an aerosol for insect pest control capable of maintaining pest control effect to mosquitoes in a treatment space over 12 hours, preferably 14 hours or longer by enhancing agent adhesion efficiency in a room, especially a wall with a spray treatment of a fixed amount of an aerosol with spray function to an indoor space, and an insect pest control method of mosquitoes using the same.SOLUTION: There are provided an aerosol for insect pest control having an aerosol valve for quantitative spray consisting of (a) metofluthrin and/or transfluthrin as an insect pest controlling component, (b) an aerosol stock liquid containing a higher aliphatic acid ester as an organic solvent, and (c) a propellant, and having aerosol stock liquid/propellant ratio of 10 to 50/50 to 90 (volume ratio), in which 90% particle diameter of spray particles of the aerosol in a volume cumulative distribution of 10 to 80 μm, the insect pest control component spray amount in one time spray treatment is 5.0 to 30 mg per 4.5 to 8 mats and mosquitoes can be controlled in a treatment space over 12 hours or more, and an insect pest control method by a quantitative spray treatment of the aerosol for insect pest control indoor.SELECTED DRAWING: None

Description

  The present invention relates to a pest control aerosol and a pest control method using the same.

  Aerosol pesticides used indoors include a direct hit type that sprays on target pests such as pests flying in indoor spaces or pests that crawl walls and floors, and the path of pests in advance. There is an ambush type in which aerosol pesticide is sprayed on.

On the other hand, in recent years, as insecticide ingredients with relatively high vapor pressure have been developed, aerosol insecticides containing them are applied in a certain amount in a sealed space in advance, leaving floating insecticide particles in the air to prevent flying insects. There are also attempts to prevent control. For example, Patent Document 1 (Japanese Patent Application Laid-Open No. 2001-17055) preferably uses a room-temperature volatile pyrethroid and uses a solvent having a high vapor pressure to reduce the particle size of the treatment agent, thereby increasing the amount of treatment agent. There is described an aerosol insecticide whose residual rate can be 1% or more between 3 hours and less than 12 hours from the start of treatment, or 0.5% or more between 12 hours and less than 24 hours from the start of treatment. Yes. According to Patent Document 1, the smaller the spray particle diameter, the higher the residual ratio of the treatment chemical in the air, and the insecticidal efficacy is maintained. Therefore, the aerosol insecticide that provides such a spray particle diameter is used for flying mosquitoes and the like. It is effective for pest control.
However, in the method of Patent Document 1, there is a limit to the duration of insecticidal efficacy, and it has been recognized that the practical duration is at most 12 to 14 hours.

By the way, the treatment chemical particles sprayed in the air (A) remain floating in the air, (B) adhere to the floor or wall, (C) re-evaporate after B, or (D) light, etc. It is considered to follow any behavior of decomposition and disappearance by. The aerosol insecticide of Patent Document 1 attempts to decrease the ratio (B) of the treatment drug particles and increase the ratio (A).
On the other hand, Patent Document 2 (Japanese Patent Application Laid-Open No. 2001-328913) directly attaches an aerosol containing the insecticidal component metofluthrin to the surface of indoor structures and fixtures, and eliminates flying insects by the action of metfurthrin re-volatilized from the surface. It is disclosed that it can be disinfected. This Patent Document 2 is a method of expecting (C) after (B), but since the transition to (C) is greatly influenced by the use conditions, a stable extermination effect against flying pests is obtained. I can't think of it.

In recent years, there has been a growing demand for the above-described quantitative spray type aerosol, which has a sustained control effect over a long period of time, particularly for mosquitoes over a period of 12-14 hours. In view of the present situation, the present inventors first observed the behavior of mosquitoes and, as a result of earnestly examining the mechanism of action of spray drug particles on mosquitoes in a quantitative spray type aerosol, to obtain the following conclusions: It came.
(1) Immediately after spraying, the pests flying to the drug particles floating in the air come into contact with each other, and the controlling effect is exhibited.
(2) Thereafter, with the passage of time, the suspended drug particles adhere to the indoor wall or floor due to dropping or the like.
(3) Mosquitoes such as mosquitoes that have entered from the outside after the spraying process are moored on the walls and floors in the room and are brought into contact with the drugs attached to the mosquitoes.
(4) In the case of flies and fruit flies, compared to mosquitoes, the habit of flying around without being moored to a wall or the like is strong, and the control effect due to contact with trace particles adhering to walls and floors tends to be low.

In this way, in the case of mosquitoes such as mosquitoes, they have the habit of mooring on walls etc. while flying, and because they are highly sensitive to room temperature volatile chemicals such as pyrethroid insecticides, they adhere to walls etc. It is understood that a sufficient control effect is exhibited by contact with a small amount of drug particles.
Based on the above examination results, the present inventors further selected an insecticidal component, examined the sprayed drug particle size distribution, and the efficiency of attaching the drug to the walls, particularly in the room, and thus, especially for mosquitoes for 20 hours. Over the above, we developed a quantitative spray type aerosol with sustainable control effects.

  After that, as a result of further studies, the present inventors have found that it is possible to improve the efficiency of attaching a drug to a wall, particularly in a room, by specifying an organic solvent constituting a quantitative spray type aerosol. As a result of repeating the above, the present invention has been completed.

JP 2001-17055 A JP 2001-328913 A

  An object of the present invention is to use an aerosol with a quantitative spray function, spray a certain amount into an indoor space, and improve the efficiency of attaching a drug to a wall, particularly in a room, thereby reducing the treatment space for pests for 12 hours. It is another object of the present invention to provide an insect pest control aerosol that has a sustainable control effect for 14 hours or more, and a method for controlling insects using the same.

The present invention has been found that the following constitution has an excellent effect for achieving the above-mentioned object.
(1) Aerosol stock solution / propellant ratio comprising (a) an aerosol stock solution containing metofluthrin and / or transfluthrin as a pest control component, and (b) a higher fatty acid ester as an organic solvent, and (c) a propellant. Is a pest control aerosol equipped with an aerosol valve for quantitative spraying of 10 to 50/50 to 90 (volume ratio),
The aerosol spray particles have a 90% particle size of 10 to 80 μm in the volume cumulative distribution, and the amount of the pest control component ejected in one spray treatment is 5.0 to 30 mg per 4.5 to 8 tatami mats, An insect pest control aerosol that makes it possible to control pests over a 12 hour period.
(2) The aerosol for pest control according to (1), wherein the 90% particle diameter in the volume cumulative distribution of the spray particles is 25 to 70 μm.
(3) A pest control aerosol in which the total number of carbon atoms of the higher fatty acid ester is 16 to 20 higher fatty acid ester.
(4) The pest control according to any one of (1) to (3), wherein the higher fatty acid ester is one or more selected from isopropyl myristate, butyl myristate, hexyl laurate, and isopropyl palmitate. aerosol.
(5) The pest control aerosol according to (4), wherein the higher fatty acid ester is isopropyl myristate.
(6) The aerosol for controlling pests according to any one of (1) to (5), wherein an injection force (25 ° C.) at an injection distance of 20 cm is 2.0 g · f or more.
(7) The aerosol for pest control according to any one of (1) to (6), wherein a spray volume per one time of the aerosol valve for quantitative spraying is 0.1 to 0.9 mL.
(8) A method for controlling pests comprising spraying a predetermined amount of the aerosol for controlling pests according to any one of (1) to (7) indoors.

  The aerosol for pest control according to the present invention uses an aerosol having a quantitative spraying function, and sprays a certain amount into an indoor space to improve the efficiency of attaching a drug to a wall, particularly against a pest, particularly a mosquito. Since the treatment effect is sustainable for 12 hours, preferably 14 hours or more, the treatment space is extremely practical. The pest control method of the present invention, in which a certain amount of this pest control aerosol is sprayed indoors, is also very useful.

The present invention makes it essential to use (a) metofluthrin and / or transfluthrin as a pest control component. In Patent Document 1, a room-temperature volatile pyrethroid compound having a vapor pressure at 30 ° C. of 2 × 10 ⁻⁴ to 1 × 10 ⁻² mmHg, for example, transfluthrin, metfurthrin, profluthrin, and empentrin is preferably used in the same row. . As an organic solvent for transfluthrin that is specifically mentioned as a specific example, a solvent having a vapor pressure of 30 mmHg or higher at 30 ° C., for example, ethanol is preferable. However, according to the examination results of the present inventors, when ethanol is used as the organic solvent, the pest control with profluthrin or empentrin other than metofluthrin has a sustainable control effect against mosquitoes over a long period of 14 hours or more. It has been found that it is difficult to realize an industrial aerosol.
This difference in the control effect of metfurthrin and transfluthrin is due to the fact that the physicochemical properties such as vapor pressure of each compound affect the adhesion efficiency to the wall, etc. It is thought to be the result of involvement. Accordingly, the present inventors have intensively studied organic solvents as described later to achieve the present invention in order to enable a long-lasting control effect even for highly useful transfluthrin.
The acid component of metfurthrin and transfluthrin includes optical isomers and geometric isomers based on asymmetric carbon, but it is needless to say that each of these and arbitrary mixtures are also included in the present invention.

The pest control aerosol of the present invention and the pest control method using the pest control aerosol spray a certain amount of pest control aerosol with a high concentration of metfurthrin and / or transfluthrin. The content of furtrine is also as high as about 1.0 to 50 w / v%. As the organic solvent (b) used in the preparation, the total number of carbon atoms is 16 to 20 in consideration of the compatibility with the pest control component, the influence on the spray particle size distribution, the adhesion efficiency to the wall and the like. Of higher fatty acid esters. Such higher fatty acid esters include, but are not limited to, isopropyl myristate, butyl myristate, hexyl laurate, isopropyl palmitate, and the like. Of these, isopropyl myristate is preferred and easy to use from a comprehensive perspective.
In addition, when the content of the pest control component in the aerosol solution is less than 1.0 w / v%, a desired effect cannot be obtained. On the other hand, when the content exceeds 50 w / v%, the aerosol content solution is stabilized in terms of liquidity. With difficulty.

In the present invention, a pest control aerosol containing metofluthrin and / or transfluthrin is sprayed indoors at a fixed amount, preferably 0.1 to 0.9 mL toward the air at a time. It is characterized by allowing a predetermined amount of the sprayed particles to adhere to the wall surface while allowing it to float inside and making the treatment space capable of controlling pests, particularly mosquitoes for 12 hours, preferably 14 hours or more. Have. Here, the predetermined amount of wall surface adhesion is 1% or more with respect to the entire spray particles.
For this reason, the aerosol for pest control according to the present invention has an aerosol stock solution / propellant ratio of 10-50 / 50-90 (volume ratio), and methotflurin and / or transfluthrin in one spray treatment. It is essential that the ejection amount is 5.0 to 30 mg per 4.5 to 8 tatami mats.
If the aerosol stock solution / propellant ratio is less than 10/90 and there are too many propellants, the spray particles become finer than necessary and the amount of adhesion to the wall is insufficient. On the other hand, if it exceeds 50/50, the spray particles are quickly settled, and the airborne concentration of methfluthrin and / or transfluthrin becomes insufficient.
In addition, when the amount of methfluthrin and / or transfluthrin ejected is less than 5.0 mg per 4.5 to 8 tatami mats, the amount attached to the wall surface is insufficient, while the amount attached to the wall surface exceeds 30 mg. However, it does not necessarily correspond to the amount of eruption, and economic disadvantages cannot be avoided.
The injection force (25 ° C.) at an injection distance of 20 cm is preferably 0.5 g · f or more. If it is less than 0.5 g, the momentum of jetting is insufficient, and the spray particles do not reach the indoor corner, so that a satisfactory mosquito control effect cannot be obtained.

In the present invention, unless deviating from the gist of the invention, in addition to metofluthrin and / or transfluthrin, room temperature volatile pyrethroid compounds such as profluthrin and empentrin, phthalthrin, resmethrin, cyfluthrin, phenothrin, permethrin, ciphenothrin, cypermethrin. , Other pyrethroid compounds such as allethrin, praretrin, framethrin, imiprothrin, etofenprox, silicon compounds such as silafluophene, organophosphorus compounds such as dichlorvos and fenitrothion, carbamate compounds such as propoxle, etc. Also good.
As the organic solvent, in addition to the higher fatty acid ester having 16 to 20 carbon atoms in total, for example, a lower alcohol having 2 to 3 carbon atoms, a hydrocarbon solvent such as n-paraffin and isoparaffin, 3 carbon atoms, and the like. ~ 6 glycol ethers, ketone solvents and the like can be added as appropriate.

The aerosol for pest control according to the present invention is sufficient to be sprayed in a small amount, so it is not necessary to pay attention to the danger to fire, but an aqueous formulation can be adopted from the viewpoint of reducing it as much as possible. In this case, the amount of water is appropriately about 20 to 70 v / v%, and a small amount of nonionic surfactant is added as a solubilizing aid as long as the spray pattern of spray particles is not hindered. May be.
Examples of the nonionic surfactant include ethers such as polyoxyethylene alkyl ethers, polyoxyethylene alkyl phenyl ethers, polyoxyethylene polyoxypropylene alkyl ethers, polyoxyethylene alkylamino ethers, polyethylene glycol Examples include fatty acid esters, polyoxyethylene sorbitan fatty acid esters, fatty acid esters such as polyoxyethylene glycerin fatty acid esters, polyoxyethylene styrenated phenol, and fatty acid polyalkalol amide, among which ethers are suitable. ing.

In the present invention, in addition to the above-described components, antifungal agents for fungicides, fungi, fungi, antibacterial agents and fungicides, or fragrances, deodorants, stabilizers, antistatic agents, Of course, an antifoaming agent, an excipient and the like may be appropriately blended. Examples of acaricides include methyl 5-chloro-2-trifluoromethanesulfonamide benzoate, phenyl salicylate, 3-iodo-2-propynyl butyl carbamate, and the like. Hinokitiol, 2-mercaptobenzothiazole, 2- (4-thiazolyl) benzimidazole, 5-chloro-2-methyl-4-isothiazolin-3-one, triphorin, 3-methyl-4-isopropylphenol, ortho-phenylphenol, etc. Can be illustrated.
As the fragrance, orange oil, lemon oil, lavender oil, peppermint oil, eucalyptus oil, citronella oil, lime oil, yuzu oil, jasmine oil, coconut oil, green tea essential oil, limonene, α-pinene, linalool, geraniol, Examples include, but are not limited to, aromatic components such as phenylethyl alcohol, amylcinnamic aldehyde, cuminaldehyde, and benzyl acetate, green leaf alcohol called “green scent”, and flavor components containing green leaf aldehyde.

Examples of the propellant (c) used in the present invention include liquefied petroleum gas (LPG) and dimethyl ether (DME), and compressed gas such as nitrogen gas, carbon dioxide gas, nitrous oxide, and compressed air. Two or more types can be employed as appropriate, but those mainly composed of LPG are usually easy to use.
In the present invention, in order to control the treatment space against pests, particularly mosquitoes for 12 hours or more, in consideration of the residual rate of spray particles in the air and the rate of adhesion to walls and floors, A propellant ratio shall be 10-50 / 50-90 (volume ratio). In addition, the 90% particle diameter in the volume cumulative distribution of the spray particles is 10 to 80 μm, preferably 25 to 70 μm, and the amount of methfluthrin and / or transfluthrin ejected in one spray process is 4.5 to Designed to be 5.0-30 mg per 8 tatami.

The pest control aerosol is equipped with a fixed-amount aerosol valve for spraying a certain amount indoors, and a spray volume per time is suitably 0.1 to 0.9 mL. And if the injection force (25 degreeC) in the injection distance 20cm is 0.5 g * f or more, what is necessary is just to select shapes, such as a nozzle, a nozzle, and a container suitably according to the use, the intended purpose, etc.
For example, it can be designed as a desktop type equipped with a button to be sprayed from above and an obliquely upward nozzle, or designed for carrying a small container.

In the present invention, a pest-control aerosol containing metofluthrin and / or transfluthrin is sprayed in a certain amount indoors, preferably 0.1 to 0.9 mL toward the air at a time, and a predetermined amount of spray particles In the air while allowing a sufficient amount of spray particles to adhere to the wall and the treatment space for pests, especially mosquitoes, for 12 hours, preferably 14 hours or more, more preferably 16 hours or more. It can be controlled. In addition, the amount of methfluthrin and / or transfluthrin ejected in one spray treatment is specified to be 5.0 to 30 mg per 4.5 to 8 tatami mats.
On the other hand, although the specific example of the aerosol insecticide of patent document 1 uses transfluthrin, it mix | blends ethanol or a hydrocarbon-type solvent as an organic solvent, makes spray particle diameter small, and is the amount of processing chemical amount. Since we continued to increase the survival rate, the control duration could not be extended sufficiently.

  The pest control aerosol of the present invention and the pest used in the pest control method using the same are not particularly limited as long as they are ordinary flying pests. The present invention is particularly effective against mosquitoes. The mosquitoes referred to in the present invention include not only common mosquitoes such as mosquitoes, Aedes albopictus, etc. It includes mosses and butterflies. In other words, effective pests include mosquitoes such as Culex pipiens and Aedes albopictus, flies such as house flies, and pests that fly indoors and cause damage or discomfort to humans, such as chironomids, flyfish, butterflies, etc. However, the present invention is not limited to these pests.

  Next, the pest control aerosol of the present invention and the pest control method using the same will be described in more detail based on specific examples and test examples. However, the present invention is not limited to these.

Transfluthrin was dissolved in isopropyl myristate to prepare a 26.7 w / v% aerosol stock solution of transfluthrin. The pest of the present invention is prepared by pressurizing and filling 9 mL of this aerosol stock solution and 21 mL of liquefied petroleum gas [aerosol stock solution / propellant ratio: 30/70 (volume ratio)] into an aerosol container with an aerosol valve for quantitative spraying (0.2 mL). A control aerosol was obtained.
The spray force (25 ° C.) at a spray distance of 20 cm of this aerosol was 3.5 g · f, and the 90% particle size in the volume cumulative distribution of spray particles was 56 μm. Moreover, the transfluthrin ejection amount in one spraying process was 15.8 mg per 4.5-8 tatami.

  In an almost sealed 6 tatami room, 0.2 mL of the aerosol was sprayed slightly diagonally upward. This aerosol is found to adhere to the wall surface by about 1.9% of the total spray particles after 1 hour of spraying, and as a result, may be bitten by mosquitoes for over 14 hours. In addition, it showed a control effect of 4 hours or more against flies, and was very practical. Furthermore, it was accompanied by a secondary effect of keeping insects such as cockroaches, ants, and hornworms away.

According to Example 1, various pest control aerosols shown in Table 1 were prepared and subjected to the following tests. The test results are summarized in Table 2. In addition, the AI ejection amount in the table is indicated by the ejection amount of metfurthrin and / or transfluthrin.
(1) against adult mosquitoes in rooms 25 m ³ in the center of the room of 25 m ³ was completely closed controlling effect towards the test aerosol obliquely upward 0.2 mL (however, the present invention 4 0.4 mL) was sprayed . Immediately, 50 female mosquitoes were released and exposed for 2 hours, and then all test mosquitoes were collected. In the meantime, female squids that fell and turned over time were counted, and a KT ₅₀ value was determined. In the same room, the same operation was performed for 10 hours after spraying, 14 hours after spraying, 16 hours after spraying, 18 hours after spraying, and 22 hours after spraying.
(2) Amount of Metofluthrin and / or Transfluthrin Ejected From the weight loss before and after the spraying process, the amount of metfurflurin and / or transfluthrin ejected was calculated.
(3) As a reference, the amount of spray particles attached to the wall surface is calculated by placing 20 × 20 cm glass plates at several locations on the wall surface of a 25 m ³ room, The glass plate was taken out, and the attached pest control components were washed out with acetone and analyzed by gas chromatography. Based on the obtained analysis values, the ratio of the pest control component adhering to the wall surface up to 1 hour after the spraying treatment with respect to the theoretical total amount of spraying was determined.

As a result of the tests according to the present invention 1 and Comparative Examples 1 to 3, it was found that metofluthrin and / or transfluthrin was effective as a pest controlling component, and profluthrin was somewhat inferior in controlling effect. As an organic solvent blended with transfluthrin, higher fatty acid esters having a total number of carbon atoms of 16 to 20 such as isopropyl myristate are effective in extending the effective duration, and ethanol and hydrocarbons. When the system solvent was used, the KT ₅₀ value exceeded 20 minutes, and it was difficult to extend the effective duration beyond 14 hours. Of the higher fatty acid esters having 16 to 20 carbon atoms in total, isopropyl myristate was particularly suitable. Further, although the 90% particle diameter in the volume cumulative distribution of spray particles is required to be 10 to 80 μm, the range of 25 to 70 μm is preferable in consideration of the results of the present invention 6 and the present invention 7. It was.
On the other hand, as shown in Comparative Example 4 and Comparative Example 5 where the ratio of aerosol stock solution / propellant is out of the range of 10-50 / 50-90 (volume ratio) and Comparative Example 6, the ejection of transfluthrin Those having an amount of less than 5.0 mg per 25 m ³ room (6 tatami mats) did not maintain the control effect against adult mosquitoes until 14 hours.

Methofluthrin was dissolved in isopropyl palmitate to prepare an aerosol stock solution of 36.0 w / v% metfurthrin. This aerosol stock solution 4.0 mL and liquefied petroleum gas 16.0 mL [aerosol stock solution / propellant ratio: 20/80 (volume ratio)] were pressurized and filled into an aerosol container with an aerosol valve for quantitative spraying (0.1 mL), An aerosol for controlling mosquitoes according to the present invention was obtained.
The 90% volume cumulative particle size of the aerosol spray particles was 42 μm. In addition, the amount of methfluthrin ejected in one spray treatment was 7.2 mg.

  Using the aerosol, 0.1 mL was sprayed slightly obliquely upward in a nearly sealed 6 tatami room. The chironomid was released in this room and the effect was confirmed, but it was immediately knocked down and was not bothered by pests.

  Thus, it is clear that the pest control aerosol of the present invention and the pest control method using the pest control aerosol can exert a control effect on mosquitoes for a long time exceeding 12 hours and further 14 hours.

  The present invention can be used for the purpose of extensive pest control.

Claims (7)

(A) An aerosol stock solution containing transfluthrin as a pest control component and (b) a higher fatty acid ester as an organic solvent, and (c) a propellant, an aerosol stock solution / propellant ratio of 10/90 to 50/50 ( Pest control aerosol filled in an aerosol container equipped with an aerosol valve for quantitative spraying,
The higher fatty acid ester is at least one selected from the group consisting of isopropyl myristate, butyl myristate, hexyl laurate, and isopropyl palmitate,
90% particle diameter in the volume cumulative distribution of aerosol spray particles is 10-80 μm,
By spraying 5.0 to 30 mg of transfluthrin through one spraying process through the aerosol valve for quantitative spraying, and spray particles adhered to the wall surface in an indoor processing space of 18.75 to 33.3 m ^3. Pest control aerosol to control mosquitoes.   The aerosol for pest control according to claim 1, wherein a 90% particle diameter in a volume integrated distribution of the spray particles is 25 to 70 μm.   The pest control aerosol according to claim 1, wherein the higher fatty acid ester is isopropyl myristate.   The pest control aerosol according to any one of claims 1 to 3, wherein an injection force (25 ° C) at an injection distance of 20 cm is 2.0 g · f or more.   The aerosol for pest control according to any one of claims 1 to 4, wherein a spray volume per time of the aerosol valve for quantitative spraying is 0.1 to 0.9 mL.   The pest control aerosol according to any one of claims 1 to 5, wherein 6.25 to 24.5 mg of transfluthrin is ejected by a single spraying process through the aerosol valve for quantitative spraying.   A pest control method comprising spraying a certain amount of the pest control aerosol according to claim 1 indoors.