JP2019115334A - Spray product for extinct pest control and method for preventing generation of extinct - Google Patents

Abstract

To provide a spray product for extinct pest control capable of achieving extinct pest control for a long term.SOLUTION: There is provided a spray product for extinct pest control comprising: a container in which an aerosol agent including a chemical liquid and propellant is sealed; and an injection nozzle for injecting the aerosol agent from the container, for preventing generation of extinct on an injection object. In the aerosol agent sealed in the container, a blend ratio of the chemical liquid and the propellant is adjusted to become 9:91 to 50:50. The injection nozzle has an injection port whose diameter is 0.2-1.0 mm.SELECTED DRAWING: None

Description

  The present invention is a spray product for controlling fly which is provided with a container for enclosing an aerosol containing a drug solution and a propellant, and a spray nozzle for spraying the aerosol from the container, and a method for preventing the generation of fly using the same About.

  In recent years, along with the trend of gardening and insect breeding and the improvement of consumers' awareness of pest control, the fly has become a problem because it attracts wide attention as a pest often seen indoors and gives people a sense of discomfort. Representative species of the fruit fly that can be found in the general household include Drosophila and fly fly generated in raw garbage and food surroundings, and Kuroban-mushroom fly generated in indoor foliage plants and around planters of veranda etc. It is the second most common insect pest after mosquitoes. Therefore, there is an increasing demand to control flies using spray products that are easy to operate.

  For example, there has been a spray for controlling mosquitoes using natural pyrethrin as an insecticidal component (see, for example, Patent Document 1). The product of Patent Document 1 uses natural pyrethrin which is highly safe for humans and animals in consideration of indoor use, and can exert a quick-acting control effect on the fruit fly.

  In addition, there was an aerosol product for controlling fly which set the jetting force to 2 to 15 gf / 15 cm (see, for example, Patent Document 2). The product of patent document 2 can be made to adhere a chemical | medical solution to an insect body efficiently, without blowing off a fly by the force of spraying by setting to said injection force, when spraying on a fly.

JP, 2011-251922, A JP, 2012-116774, A

  The products of Patent Documents 1 and 2 are intended to directly kill mosquitoes flying from the outdoors. However, it is possible to spawn eggs from 10 days to 2 weeks after hatching, and the source is a waste bin (hereinafter referred to as a “waste container”) placed in a kitchen or the like for containing waste such as garbage. It is difficult to control for a long period of time just by directly killing mosquitoes flying from the outdoors.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a spray product for controlling fly which can control a fly for a long period of time, and a method for preventing the occurrence of fly.

The characteristic configuration of the spray product for controlling fly according to the present invention for solving the above problems is
A container for enclosing an aerosol containing a drug solution and a propellant;
An injection nozzle for injecting the aerosol agent from the container;
A spray product for controlling mosquito fly provided with
It is used to prevent the occurrence of a fly in an injection target.

  According to the spray product for controlling fly of the present configuration, in order to prevent the occurrence of fly on the target to be sprayed, the spray product that is easy to operate can be used to control the fly for a long period of time.

In the fly product for preventing fly according to the present invention,
In the aerosol agent sealed in the container, it is preferable that the compounding ratio of the chemical solution and the propellant be adjusted to 9:91 to 50:50.

  According to the spray product for fly control of this constitution, by adjusting the mixing ratio of the chemical solution and the propellant to the above range, it easily adheres to the object to be sprayed, and after the deposition, volatilization of the pest control component of the chemical solution is sufficient. Since the injection particle of the magnitude | size which can be suppressed to is formed, generation | occurrence | production of a fly can be prevented over a long period of time in the injection target object which the injection particle adhered.

In the fly product for preventing fly according to the present invention,
The injection nozzle preferably has an injection port with a diameter of 0.2 to 1.0 mm.

  According to the fly control spray product of this configuration, by having the injection port of the diameter in the above range, an appropriate injection pattern can be obtained and it becomes easy to adhere to the injection target object. The occurrence can be effectively prevented.

In the fly product for preventing fly according to the present invention,
The particle diameter of the jetted particles jetted from the jet nozzle is configured such that the 50% particle diameter (D50) in the volume integrated distribution at 25 ° C. and the jet distance of 15 cm is in the range of 10 to 45 μm. preferable.

  According to the spray product for controlling fly of the present construction, the D50 particle diameter of the jet particles is configured to fall within the above range, so that the waste container containing wastes such as garbage can be used as the jet object In this case, since the jetted particles diffuse and adhere not only to the inner surface of the waste container but also to the gaps between the bulky and three-dimensionally stacked waste, it is possible to effectively prevent the occurrence of the fruit fly. it can.

In the fly product for preventing fly according to the present invention,
The aerosol preferably contains at least one pyrethroid insecticidal component selected from the group consisting of transfluthrin, profluthrin, and metfluthrin.

  According to the fly product for preventing fly of this constitution, by using the pyrethroid insecticidal component described above, the insecticidal component can be sufficiently volatilized even at normal temperature, and the occurrence of the fly can be effectively prevented.

In the fly product for preventing fly according to the present invention,
It is preferable to contain 1.0 to 7.0 w / v% of the pyrethroid insecticidal component.

  According to the fly product for preventing fly of this configuration, the occurrence of fly can be prevented even with a small injection amount by containing the pyrethroid insecticidal component in the above range.

The characteristic constitution of the method for preventing the occurrence of the fruit fly according to the present invention for solving the above-mentioned problems is:
A method for preventing the occurrence of a fly in a waste container for containing waste, comprising:
An injecting step of injecting an aerosol agent containing a chemical solution and a propellant into the interior of the waste container;
Charging the waste into the waste container;
To include.

  According to the method for preventing the occurrence of the fruit fly of this configuration, the injection step of injecting the aerosol agent containing the chemical solution and the propellant into the inside of the waste container is carried out, whereby the injection particles are injected onto the inner surface of the waste container. Can be attached. The fly fly that flies after putting the waste into the waste container comes in contact with the attached spray particles by crawling the surface inside the waste container, and the fly fly lays eggs by the effect of the pest control component of the drug solution Is suppressed. Even if the eggs are laid, the subsequent hatching is inhibited, or the larvae after hatching contact the adhering spray particles by crawling the inner surface of the waste container, thereby suppressing their growth. .

The characteristic constitution of the method for preventing the occurrence of the fruit fly according to the present invention for solving the above-mentioned problems is:
A method for preventing the occurrence of a fly in a waste container for containing waste, comprising:
An injecting step of injecting an aerosol agent containing a chemical solution and a propellant into the waste;
Charging the waste into the waste container;
To include.

  According to the method of preventing the occurrence of the fruit fly of this configuration, the jetted particles are attached to the surface or the gap of the waste by carrying out the jetting step of jetting the aerosol containing the chemical solution and the propellant to the waste. Can. The fly fly that comes in after having put the waste into the waste container crawls the surface of the waste and enters the crevices of the waste to make contact with the attached spray particles, so the pest control component of the drug solution is effective. , It is suppressed that the foliage lays eggs. Even if the eggs are laid, the subsequent hatching is inhibited, or the larvae after hatching crawl on the surface of the waste or come in contact with the adhered spray particles by entering the gaps of the waste, so that Growth is suppressed.

The characteristic constitution of the method for preventing the occurrence of the fruit fly according to the present invention for solving the above-mentioned problems is:
A method for preventing the occurrence of a fly in a waste container for containing waste, comprising:
Charging the waste into the waste container;
Injecting the aerosol agent containing a chemical solution and a propellant into the inside of the waste container containing the waste;
To include.

  According to the method for preventing the occurrence of the fruit fly of this configuration, the waste container is filled with the aerosol container containing the chemical solution and the propellant into the interior of the waste container. Spray particles can be deposited on the inner surface and on the surface and gaps of the waste. The fly fly that flies after the spray of aerosol sprays on the surface inside the waste container and the surface of the waste and enters the gaps between the wastes to contact the adhering spray particles, so the pest control component of the drug solution The effect of this is to suppress the spawning of the fruit fly. Even if the eggs are laid, the subsequent hatching is inhibited, or the larvae after hatching adhere by scratching the inner surface of the waste container or the surface of the waste or getting into the gaps of the waste The contact with the jetted particles suppresses their growth.

In the method for preventing the occurrence of a fly according to the present invention,
In the injection step, the aerosol agent is preferably injected so that the 50% particle diameter (D50) in the volume integrated distribution at an injection distance of 15 cm at 25 ° C. is in the range of 10 to 45 μm.

  According to the method for preventing the occurrence of the fruit fly of this configuration, the jetted particles are also injected into the gaps of the bulky and three-dimensionally stacked waste by injecting the aerosol agent so that the D50 particle diameter is in the above range. Diffuse and adhere. Adults such as Drosophila and the like have the habit of diving into wastes such as garbage, and at this time, they easily come into contact with the jetted particles adhering to the gaps of the wastes. As a result, it is possible to suppress the spawning of the fly and to effectively prevent the occurrence of the fly. As a result, it is possible to suppress the spawning of the fly, and even if it is spawned, it can inhibit the subsequent hatching or inhibit the growth of the larvae after hatching, and effectively prevent the occurrence of the fly can do.

In the method for preventing the occurrence of a fly according to the present invention,
The aerosol preferably contains at least one pyrethroid insecticidal component selected from the group consisting of transfluthrin, profluthrin, and metfluthrin.

  According to the method for preventing the occurrence of the fruit fly of this constitution, by using the pyrethroid insecticidal component described above, the insecticidal component can be sufficiently volatilized even at normal temperature, and the occurrence of the fruit fly can be effectively prevented.

In the method for preventing the occurrence of a fly according to the present invention,
It is preferable to contain 1.0 to 7.0 w / v% of the pyrethroid insecticidal component.

  According to the method for preventing the occurrence of the fly of the present configuration, the occurrence of the fly can be prevented even with a small injection amount by containing the pyrethroid insecticidal component in the above range.

  The spray product for controlling fly of the present invention comprises a container for enclosing an aerosol agent containing a drug solution and a propellant, and a spray nozzle for spraying the aerosol agent from the container, and for preventing the generation of fly on the spray target Used for Here, "preventing the occurrence of the fly" means "the fly does not come close to the object", "the fly does not lay eggs on the object", and "the egg of the fly which is laid on the object does not hatch" Or means "immediately knock down or kill even if the fly is hatched from the fly egg laid on the subject." Hereinafter, the spray product for fly control according to the present invention will be described. However, the present invention is not intended to be limited to the configurations described in the embodiments described below.

<Chemical solution>
[Pest control ingredients]
The pest control component which is one of the main components of the drug solution is preferably a pyrethroid insecticidal component, and for example, transfluthrin, profluthrin and metfluthrin are suitably selected. These pyrethroid insecticidal components may be used alone or in combination of two or more. In these pyrethroid insecticidal components, optical isomers and geometric isomers based on asymmetric carbon exist, which are also included in the pest control components.

  The content of the pest control component in the chemical solution is preferably 1.0 to 50% by volume in consideration of the fact that the composition is dissolved in an organic solvent and then sprayed to the target to be sprayed. Within such a range, the pest control component is easily dissolved in the organic solvent, and when the chemical solution is sprayed, the spray particles are formed in the optimum state, and the effect of the pest control component can be exhibited. When the content of the pest control component in the chemical solution is less than 1.0% by volume, the pest control component can not be effectively exhibited, and the control effect of the fruit fly may be insufficient. On the other hand, when the content of the pest control component in the drug solution exceeds 50% by volume, the concentration of the pest control component becomes high, and it becomes difficult to properly prepare the drug solution.

  As described above, the pest control component contained in the fly control spray product of the present invention is preferably transfluthrin, profluthrin, metfluthrin, or a combination thereof, and in addition to these components, natural pyrethrin, montfluorothrin, Other pyrethroid compounds such as empenthrin, phthalthrin, resmethrin, cyfluthrin, phemethrin, cypenothrin, cypermethrin, allethrin, prarethrin, framethrin, imiprothrin, bifenthrin, etofenprox, silicon compounds such as silafluophene, dichlorvos, fenitrothion It is also possible to contain organophosphorus compounds such as, for example, carbamate compounds such as propoxle and the like.

[Organic solvent]
An organic solvent is contained in the main component of a chemical | medical solution other than said pest control component. As the organic solvent, those which can dissolve the above-mentioned pest control components to prepare a drug solution and which can form optimum spray particles when the prepared drug solution is sprayed are used. In the spray product for controlling fly of the present invention, as the organic solvent, alcohols and higher fatty acid esters are preferable. As the alcohols, lower alcohols having 2 to 3 carbon atoms are preferable, and ethanol is particularly preferable. The higher fatty acid ester preferably has 13 to 20 carbon atoms in total, and more preferably 16 to 20 carbon atoms in total, for example, isopropyl myristate, butyl myristate, hexyl laurate, palmitic acid Isopropyl etc. are mentioned. Of these, isopropyl myristate is particularly preferred. For example, hydrocarbon solvents such as n-paraffin and isoparaffin, glycol ethers having 3 to 6 carbon atoms, and ketone solvents can also be mixed with the organic solvent.

[Other ingredients]
The spray product for controlling fly of the present invention comprises, in addition to the above-mentioned components, an antifungal agent intended for molds and fungi, an antibacterial agent, a bactericidal agent, an aromatic, a deodorant, a stabilizer, an antistatic agent and an antiseptic agent. A foaming agent, an excipient, etc. can also be blended suitably. Antifungal agents, antibacterial agents and bactericidal agents include hinokitiol, 2-mercaptobenzothiazole, 2- (4-thiazolyl) benzimidazole, 5-chloro-2-methyl-4-isothiazolin-3-one, trifolin, 3 And -methyl-4-isopropylphenol, ortho-phenylphenol and the like. As the fragrance, orange oil, lemon oil, lavender oil, peppermint oil, eucalyptus oil, eucalyptus oil, citronella oil, lime oil, yuzu oil, jasmine oil, soy sauce, green tea essential oil, limonene, α-pinene, linalool, geraniol, phenylethyl Examples thereof include aromatic components such as alcohol, amyl cinnamic aldehyde, cumin aldehyde and benzyl acetate, and green leaf alcohol called “green scent” and perfume components containing green leaf aldehyde.

<Propellant>
Examples of the propellant used in the fly control spray product of the present invention include liquefied petroleum gas (LPG), dimethyl ether (DME), nitrogen gas, carbon dioxide gas, nitrous oxide, compressed air and the like. The above-mentioned propellants can be used alone or in a mixed state, but those based on LPG are easy to use.

  The spray product for controlling fly of the present invention is adjusted such that the blending ratio (a / b) of the chemical solution (a) to the propellant (b) is 9/91 to 50/50 in volume ratio. If it adjusts to such a range, injection particle | grains can be optimally formed from the injection port connected to the fixed quantity injection valve provided in a pressure-resistant container. Then, the jetted particles, which have been jetted once, can move to the surface of the jet target quickly and can adhere, and after adhering, the volatilization of the pest control component can be sufficiently suppressed, so the jetted particles are adhered. In the object to be jetted, the fly fly preventive effect can be exhibited over a long period of time. The proportion of the propellant (b) is increased relative to the compounding ratio (a / b) of 9/91, that is, when the amount of the propellant enclosed in the pressure resistant container is increased, the injection formed from the chemical solution to be injected Since the particles are miniaturized more than necessary, it may be difficult to suppress the volatilization of the pest control component after the particles adhere to the surface of the injection target. Due to this, it may not be possible to prevent the occurrence of the fruit fly over a long period of time. On the other hand, if the proportion of the propellant (b) is reduced relative to the compounding ratio (a / b) of 50/50, that is, if the amount of the propellant sealed in the pressure container is small, the jetted particles become large, When bulky and three-dimensionally stacked waste such as dust is used as the injection target object, it may be difficult for the injection particles to sufficiently diffuse in the gap between the injection target objects. As a result, the occurrence of a fly may not be effectively prevented.

  When the spray product of the present invention for controlling fly as set forth above uses the pyrethroid insecticidal component (transfluthrin, profluthrin, metfluthrin, or a combination thereof) as the pest control component, the pyrethroid insecticidal component is 1.0 in the aerosol agent. It is adjusted to contain -7.0 w / v%. By adjusting to such a range, it is possible to prevent the occurrence of a fly even with a small injection amount. If the content of the pyrethroid insecticidal component is less than 1.0 w / v%, the amount of the pyrethroid insecticidal component in the jet particles may be insufficient, which may make it difficult to prevent the occurrence of the fruit fly over a long period of time . When the content of the pyrethroid insecticidal component exceeds 7.0 w / v%, an excessive amount of the pyrethroid insecticidal component is released and the amount used becomes excessive, which is economically disadvantageous.

<Spray control product for fly control>
As described above, by selecting a pest control component, an organic solvent, a propellant, and other components to be blended as required and sealing them in a pressure container, a spray product is completed. This spray product is the spray product for controlling fly of the present invention, and is used in an application in which an aerosol agent is sprayed as a spray particle toward a spray target. The chemical solution is mainly composed of a pest control component and an organic solvent, and strictly speaking it is different from the propellant, but the chemical solution is released to the outside of the pressure container simultaneously with the propellant. In the following description, an aerosol containing a drug solution and a propellant may be handled as a "drug solution". Here, the injection valve with which the spray product for fly control according to the present invention is provided will be described. The fly product for preventing fly according to the present invention mainly comprises a pressure resistant container (aerosol container), a fixed amount injection valve, and an injection nozzle. An injection button, which is an operation unit for injecting a chemical solution, is connected to the fixed injection valve, and an injection port for injecting the chemical solution from the aerosol container to the outside is provided in the injection nozzle.

  When the spray button of the spray product for controlling fly is pressed down once, the metering valve is operated by the pressure of the propellant, and the chemical in the pressure container rises to the spray port, and is sprayed to the spray target. The injection volume of the drug solution at this time is adjusted to 0.1 to 0.4 mL, and more preferably to 0.1 to 0.2 mL. If it is such a range, the injection particle | grains formed from the injected chemical | medical solution will be able to exhibit the control effect effectively in the injection target object. When the injection volume is less than 0.1 mL, the injection volume is too small and the amount of injection particles adhering to the surface of the injection object becomes insufficient, and the opportunity for the fly to contact the injection particle decreases, and the generation of the fly is appropriate May be difficult to prevent. On the other hand, if it exceeds 0.4 mL, the chemical solution in an amount more than necessary is released as jetted particles, and the amount of chemical solution used becomes excessive, which is economically disadvantageous.

  It is preferable to set the injection diameter of the injection port provided in the injection | spray nozzle to 0.2-1.0 mm, and it is more preferable to set to 0.7-1.0 mm. Within this range, an appropriate injection pattern can be obtained, and the injection particles can be easily attached to the injection target. Therefore, the generation of the fly can be properly prevented in the injection target. If the injection diameter is less than 0.2 mm, the injection pattern becomes too narrow, and the range in which the injection particles adhere on the surface of the injection target is limited. If the diameter of the injection port exceeds 1.0 mm, the injection pattern spreads excessively, and when the injection particles are separated from the injection target at the time of injection, there is a possibility that it may be difficult to attach an appropriate amount of injection particles to the injection target is there. Therefore, there is a small chance that a fly that crawls over the surface of the injection target object contacts the jet particle, and there is a possibility that the occurrence of the fly can not be appropriately prevented.

[Spray particle]
When the chemical solution is sprayed once from the fly control spray product of the present invention, jetted particles are formed from the chemical solution. The jetted jetted particles adhere to the surface of the jet target. The particle diameter of the jetted particles can be set variously by adjusting parameters such as, for example, the diameter of the jet nozzle, the mixing ratio of the chemical solution and the propellant, the composition of the propellant used, and the internal pressure of the spray product. The adjustment of these parameters may be performed only once or in combination. A preferable particle diameter of the jetted particles is 10 to 45 μm in 50% particle diameter (D50) in a volume integrated distribution at 25 ° C. and a jet distance of 15 cm. Within such a range, the jetted particles jetted to the jet target adhere reliably to the surface of the jet target. In particular, when a bulky and three-dimensionally stacked waste such as garbage is jetted as a target to be jetted, the jetted particles diffuse and adhere not only to the outer surface of the waste but also to the gap between the wastes. As the fly has the habit of scooping the surface of the waste and sinking into the waste for egg laying, these flies can be contacted with jetted particles containing pest control components. As a result, an egg laying inhibitory effect can be exhibited by knocking down or killing the fly which has come into contact with the pest control component. In addition, since the particle diameter of the jetted particles is appropriately large, it is possible to suppress the volatilization of the pest control component from the jetted particles even after adhering to the jet target. Therefore, the pest control component gradually volatilizes over a long period of time from the spray particles even after adhering to the spray target, and egg laying is also suppressed during that time. Even when a fly flies on the target of spraying, the hatching effect is inhibited by direct contact between the pest control component attached to the target of spraying and the egg, or by the pest control component volatilized over a long period of time from the sticking spray particles. It can be demonstrated. And even if it hatches, a larva can be killed by the pest control component volatilized from the jet particle which adhered by contacting a larva with the pest control component which adhered to the injection target. When the D50 particle diameter of the jetted particles is less than 10 μm, the particle diameter is too small to reach the jetted object and the proportion of jetted particles which does not reach adhesion increases, or even if adhered, the insects are pest control There is a possibility that it will be difficult to sufficiently suppress the volatilization of the components. On the other hand, if the D50 particle diameter exceeds 45 μm, the particle diameter is too large, and there is a possibility that the jetted particles do not enter the gaps of waste such as bulky and three-dimensionally stacked raw garbage.

  It is preferable that the period which volatilization of a pest control component continues from the injection particle adhering to the injection target object is one day or more, it is more preferable that it is three days or more, and it is more preferable that it is seven days or more. Since the fly flies generally hatch in about one day after oviposition, if the period in which volatilization of the pest control component continues is one day or more, such hatching can be inhibited and the hatching can occur. Also, it can kill larvae. In addition, since the flies have a life cycle of about 10 days to 2 weeks, most of eggs, larvae, flies and adults in the life cycle if the duration of volatilization of the pest control component is 7 days or more. The stage can be covered, and a strong preventive effect against fly can be obtained.

  As described above, in the spray product for preventing fly according to the present invention, the jetted particles diffuse and adhere to the surface and the gap in the injection target by injecting the chemical solution to the injection target once. Thus, an egg laying restraining effect can be exhibited by efficiently contacting the pest control component with a fly that crawls the surface of the injection target to knock down or kill the fly. Further, since the pest control component is gradually volatilized from the spray particles attached to the spray target over a long period of time, the pest control component affects the eggs of the fly even when the fly is laid on the spray target. Can exhibit a hatching inhibitory effect. In addition, even if a larva hatches, it can be knocked down or killed by the pest control component because the larva contacts the jetted particles adhering to the surface of the jetting object, the gap, and the like by sticking. Thus, the fly control spray product of the present invention can be used to prevent the occurrence of a fly on an injection target. As a result, the fly can be controlled over a long period of time.

<Method to prevent the occurrence of the fly>
The method for preventing the occurrence of the fly of the present invention is carried out using the above-mentioned spray product for controlling the fly. First, when the spray outlet of the spray control product for fly control is directed to the inside of the waste container and the spray button is pressed once, the aerosol containing the drug solution and the propellant from the spray product for control of fly will be inside the waste container. It is injected (injection process). The jetted aerosol agent becomes jetted particles and adheres to the inner surface of the waste container. At this time, the waste container may be in a state in which waste such as garbage is placed or in a state in which no waste is placed. Put waste into the waste container in this state (injecting process). After that, even if the fly is invaded into the waste container by being attracted by the waste, the fly flies over the inner surface of the waste container, so it contacts the attached jetted particles and knocks by the influence of the pest control component It will be down or fatal. Even when eggs are laid on waste without contacting spray particles, it is possible to inhibit egg hatching by pest control components gradually volatilized from the spray particles over a long period of time.

  According to the method of the present invention for preventing the occurrence of tree flies, the spray port of the spray product for controlling tree flies is directed to the waste before entering the waste container, and the aerosol agent containing the drug solution and the propellant is directly to the waste. It may be injected (injection step). The jetted aerosol agent becomes jetted particles and enters and adheres not only to the surface of the waste but also to the gaps of the waste. The waste in this state is put into a waste container (charging step). Alternatively, the method of the present invention for preventing the occurrence of tree fly is to put the waste into the inside of the waste container (charging step), and then the spray outlet of the fly control spray product to the waste container containing the waste. An aerosol containing a drug solution and a propellant may be injected (injection step) toward the inside. The jetted aerosol agent becomes jetted particles and penetrates and adheres not only to the inner surface of the waste container and the surface of the waste but also to the gaps of the waste. After that, even if a fly is introduced into the waste container due to being attracted to the waste container, the fly may crawl on the inner surface of the waste container or the surface of the waste, or sink into the waste gap for laying eggs. Therefore, it comes in contact with the attached jetted particles and knockdown or kills due to the influence of the pest control component. Even when eggs are laid on waste without contacting spray particles, it is possible to inhibit egg hatching by pest control components gradually volatilized from the spray particles over a long period of time.

  As described above, the spray product for dust control according to the present invention adheres the spray particles to the spray target, and can gradually evaporate the pest control component from the deposited spray particles over a long period of time. For this reason, if it is a method for preventing the occurrence of the fly which is carried out using the spray product for controlling the fly, the generation of the fly is prevented for a long period of time in the waste and the waste container by one injection. be able to.

  The spray product for fly control according to the present invention was provided with the characteristic features of the present invention in which an aerosol agent and a propellant were pressure-filled in an aerosol container (pressure-resistant container) with a quantitative injection valve to confirm the fly generation preventing effect. A plurality of fly control spray products (Examples 1 to 13) were prepared, and a test for confirming the occurrence of a fly prevention effect was conducted. Moreover, the spray product (comparative examples 1-3) of the fly | droplet control which is not equipped with the characteristic structure of this invention was prepared for comparison, and the same fly | droplet outbreak preventive effect confirmation test was implemented.

  As shown in Table 1 as Examples 1 to 13, spray products for controlling the fruit fly were prepared according to the composition and conditions according to each example, and the following tests were conducted. Also in Comparative Examples 1 to 3, a spray product for controlling fly was prepared under the composition and conditions shown in Table 1, and the same test as in the example was conducted. In addition, about the pest control component in Table 1, in addition to the density | concentration (w / v%) in a chemical | medical solution, the density | concentration (w / v%) in an aerosol agent is shown in the parenthesis.

(1) Efficacy test (direct impact spray)
A total of 100 adults of Drosophila melanogaster and adults of Lepidoptera, Bacteriidae are released on a plastic cylinder (inner diameter: 20 cm, height: 43 cm), and the test agent is sprayed once from a distance of about 10 to 15 cm and exposed for 2 hours. All test insects were recovered and the mortality was determined. In the meanwhile, the flies falling upside down with the passage of time were counted to obtain the KT ₅₀ value. The test results are shown in Table 2.

From the results in Table 2, in the case of direct impact spraying to the adult flies, in Examples 1 to 11 and Comparative Examples 1 and 2 in which those containing transfluthrin as a pest control component are all 100% mortality rate, The KT ₅₀ value was also maintained at a superior value, confirming that there was no significant difference in the direct insecticidal effect. Also in Example 12 containing profluthrin as a pest control component and Example 13 containing metfluthrin, an insecticidal effect having no problem in practical use was confirmed. Comparative Example 3 which uses phthalthrin having a room temperature volatility lower than that of transfluthrin, profluthrin, and metfluthrin as a pest control component is superior to Examples 1 to 13 and Comparative Examples 1 to 2 in any of the insecticidal effect and the immediate effect. It was confirmed to be inferior.

(2) Trial to confirm the occurrence prevention effect of mosquito fly
The test agent was sprayed once from a distance of about 10 to 15 cm on the inside of a plastic cylinder (inner diameter: 20 cm, height: 43 cm), and this was used as a treatment area. In addition, untreated cylinders were also prepared and used as control areas. They are stored still at room temperature, and one day after treatment, a plastic cup (inner diameter 10 cm, height 10 cm) containing raw garbage (5 g of pork, 10 g of apples, 10 g of cabbage) is inserted into each cylinder. The Drosophila and Ochmonomis fly co-located in a room released about 100 adults. One day after the juxtaposition, the plastic cups in each cylinder were covered and collected, and the total number of adults including dead insects in the cups was counted to confirm the presence or absence of oviposition. Furthermore, the plastic cup was stored at 25 ° C., and the number of larvae generated after one week was counted. The same test was conducted on a cylinder 7 days after the treatment of the test drug. The test was repeated 3 times each after 1 day and 7 days after treatment. In this test procedure, an aerosol agent containing a drug solution and a propellant is injected toward the inside of the waste container (injection step), and then waste is generated in the waste container (charging step). It is assumed to implement a method to prevent The test results are shown in Table 3.

（評価基準）
産卵
− ：０個
＋− ：０〜１個
＋ ：２〜１０個
＋＋ ：１０〜５０個
＋＋＋ ：５０個以上
幼虫発生
− ：０匹
＋− ：０〜１匹
＋ ：２〜３０匹
＋＋ ：３０〜１００匹
＋＋＋ ：１００〜２００匹
＋＋＋＋：２００匹以上

(Evaluation criteria)
Egg laying-: 0: +-: 0 to 1 +: 2 to 10 ++: 10 to 50 + ++: more than 50 larvae development--0: 0 to +-: 0 to 1 +: 2 to 30 ++: 30 to 100 animals +++: 100 to 200 animals ++++: 200 or more

  From the results in Table 3, in Examples 1 to 13, the number of eggs laid one day after the collocation and the number of larvae generated one week after suppression were significantly suppressed in both the sample one day after treatment and the sample seven days after treatment compared to the control group. It was confirmed that Since the same effect is exhibited by the sample one day after the treatment and the sample seven days after the treatment, it is confirmed that the fly fly generation preventing effect lasts for a long period in Examples 1 to 13.

  The number of larvae generated in the sample 7 days after the treatment was only one in Example 2 in which the D50 particle diameter of the jetted particles was 20 μm, but the D50 particle diameter of the jetted particles was out of the range defined in the present invention In Example 1, the number of larvae was 104 and in Comparative Example 2, the number of larvae was 32. Thus, Comparative Examples 1 and 2 were inferior in the long-term effect of preventing fly outbreak. In addition, the initial adult insect number which has invaded in the cup at the time of collection | recovery one day after a juxtaposition is processing any of the sample after 1 day of treatment, and the sample after 7 days of treatment also in any of Examples 1-13 and Comparative Examples 1-3 There was no significant difference between the ward and the control. From this, the excellent fruit fly generation prevention effect according to Examples 1 to 13 does not originate from the initial repelling effect by the pest control component, but it is that the fly comes in contact with the jetted particles adhered in the cylinder, or the jetted particles From the above, it is presumed that the fly control effect is exhibited by volatilization of the pest control component over a long period of time. In addition, although the D50 particle diameter of the jetted particles is 20 μm in both of Example 2 and Comparative Example 3, the number of spawnings and the number of generated larvae are carried out in both the sample after 1 day of treatment and the sample after 7 days of treatment. It was confirmed that the use of transfluthrin as a pest control component is particularly preferable because Example 2 is greatly suppressed.

(3) Trial to confirm the preventive effect on skin fly 2
A test cup was sprayed once from a distance of about 10 to 15 cm into a plastic cup (inner diameter: 10 cm, height: 10 cm) containing raw garbage (5 g of pork, 10 g of apples, 10 g of cabbage), and this was taken as a treated area. In addition, non-treated cups containing the same amount of garbage were also prepared and stored at room temperature. After one week, these cups were placed in a chamber (180 cm × 180 cm × 180 cm) in which about 100 adult flies of Drosophila melanogaster, Ophididae were released. One day later, each plastic cup was covered and collected, and the number of adults in the cup was counted to confirm the presence or absence of egg laying. Furthermore, the plastic cup was stored at 25 ° C., and the number of larvae generated after one week was counted. The same test was conducted on a plastic cup 7 days after the treatment of the test drug. The test was repeated 3 times each after 1 day and 7 days after treatment. In this test procedure, an aerosol agent containing a drug solution and a propellant is jetted toward the waste before being put into the waste container (injection step), and then the waste is put into the waste container (charging step) It is assumed that the implementation of the method of preventing the outbreak of the fly is carried out. The test results are shown in Table 4. The evaluation criteria are the same as those of the test 1 for the prevention effect of the occurrence of the fly as shown in Table 3.

  From the results in Table 4, in Examples 1 to 13, the number of egg laying one day after the collocation and the number of larvae generated one week after suppression were significantly suppressed in both the sample one day after treatment and the sample seven days after treatment compared to the control group. It was confirmed that From the fact that the samples after 1 day of treatment and the samples after 7 days of treatment have similar effects, it was confirmed in Examples 1 to 13 that the fly fly prevention effect lasts for a long time. In particular, in the results shown in Table 4, the number of larvae developed in Examples 1 to 13 is 0 for both the sample after 1 day of treatment and the sample after 7 days of treatment, which is superior to the results of Table 3 An effect to prevent the occurrence of the fly was exhibited. The reason why the more effective fly fly prevention effect was exhibited in the fly fly preventive effect confirmation test 2 is that the jetted particles enter and adhere to the inside from the gap of the live garbage by directly injecting the test chemical into the live waste , It acts on the fly that hides in raw waste, oviposition is suppressed, and even if it is oviposited, it can inhibit the hatching of its eggs, and even if it can be hatched, the subsequent growth of the larva is inhibited. Conceivable. Further, among the examples 1 to 11 using the one containing transfluthrin as a pest control component, the examples 2 to 4, 7 and 8 have the smallest D50 particle diameter of the jet particles, and the example 6 and D50 particles It was confirmed that the number of egg laying was smaller than that of Example 5 having the largest diameter, and that the egg laying inhibitory effect was particularly excellent.

  On the other hand, in Comparative Examples 1 to 3, the number of larvae generated was larger than those of Examples 1 to 13 in any of the sample after 1 day of treatment and the sample after 7 days of treatment, and the fly fly prevention effect was inferior. In particular, in the sample 7 days after the treatment, the number of larvae generated in Comparative Example 1 was 139, and the number of larvae generated in Comparative Example 2 was 66 in Comparative Example 1. This is because in Comparative Examples 1 and 2, since the D50 particle diameter of the jetted particles is out of the range specified in the present invention, the jetted particles do not sufficiently enter into the gaps of raw garbage, and the eggs hatch in the gaps of raw garbage , It is thought that the larvae grew up.

  The spray product of the present invention for controlling fly may be used for the purpose of preventing the occurrence of fly, and in particular, it may be suitably used for Drosophila, common fly, butterfly fly, mushroom fly and the like.

Claims (12)

A container for enclosing an aerosol containing a drug solution and a propellant;
An injection nozzle for injecting the aerosol agent from the container;
A spray product for controlling mosquito fly provided with
A spray product for controlling fly which is used to prevent the occurrence of fly on an object to be sprayed.   In the aerosol agent enclosed by the said container, the spray product for the fruit fly control of Claim 1 in which the compounding ratio of the said chemical | medical solution and the said propellant is adjusted to 9: 91-50: 50.   The spray product according to claim 1 or 2, wherein the spray nozzle has a spray port having a diameter of 0.2 to 1.0 mm.   The particle diameter of the jetted particles jetted from the jet nozzle is configured such that the 50% particle diameter (D50) in the volume integrated distribution at 25 ° C. and the jet distance of 15 cm is in the range of 10 to 45 μm. The spray product for controlling small flies according to any one of 1 to 3.   The fly product according to any one of claims 1 to 4, wherein the aerosol agent comprises at least one pyrethroid insecticidal component selected from the group consisting of transfluthrin, profluthrin, and metfluthrin.   The fly product according to claim 5, wherein the pyrethroid insecticidal component is contained in an amount of 1.0 to 7.0 w / v%. A method for preventing the occurrence of a fly in a waste container for containing waste, comprising:
An injecting step of injecting an aerosol agent containing a chemical solution and a propellant into the interior of the waste container;
Charging the waste into the waste container;
A method of preventing the occurrence of the fruit fly including A method for preventing the occurrence of a fly in a waste container for containing waste, comprising:
An injecting step of injecting an aerosol agent containing a chemical solution and a propellant into the waste;
Charging the waste into the waste container;
A method of preventing the occurrence of the fruit fly including A method for preventing the occurrence of a fly in a waste container for containing waste, comprising:
Charging the waste into the waste container;
Injecting the aerosol containing the chemical solution and the propellant into the inside of the waste container containing the waste;
A method of preventing the occurrence of the fruit fly including   10. The injection method according to any one of claims 7 to 9, wherein the aerosol agent is injected such that the 50% particle diameter (D50) in the volume integrated distribution at 25 ° C and the injection distance of 15 cm is in the range of 10 to 45 μm. A method for preventing the occurrence of the fruit fly according to one item.   The method according to any one of claims 7 to 10, wherein the aerosol agent comprises at least one pyrethroid insecticidal component selected from the group consisting of transfluthrin, profluthrin, and metfluthrin. .   The method according to claim 11, wherein the pyrethroid insecticidal component is contained at 1.0 to 7.0 w / v%.