JP6576643B2 - Volatile closed space insecticide - Google Patents

Description

  The present invention relates to a volatile closed space insect repellent that is used in a closed space to control pests.

  Research and development related to repelling and extermination of pests such as mites, mosquitoes and ants have been actively conducted, and many types of pest repellents, pesticides or insecticides have been developed so far. However, many of these compounds used as active ingredients such as pest repellents have problems such as poor pest control effects and adverse effects on the human body.

  Many insect pest control agents or biocides containing a pyrethroid compound as an active ingredient have been developed as having high safety and rapid action (Patent Documents 1 and 2). However, in recent years, pests that are resistant to pyrethroid compounds have emerged, which is a problem.

  Patent Document 3 discloses a pest control agent containing essential oil as an active ingredient. Essential oils are aromatic volatile oils obtained from plants, have a good fragrance, and are highly safe. In addition, there is no need to directly contact pests by spraying such as spray, and research and development of pest control agents containing essential oil are being actively promoted, but the problem is that the pest control effect is weak.

Patent Document 4 discloses an insect control agent containing ketones, esters, alcohols and the like as active ingredients. Although some of the active ingredients listed are safe, in the examples of Patent Document 4, it is said that the insects (Drosophila) can be avoided by the vapor of the test compound (active ingredient), that is, by the active ingredient volatilized. can not cut.
Moreover, the effect confirmed in the Example etc. of Patent Document 4 is limited to “repelling of insects”.

Therefore, the development of “volatile agents that can be used in closed spaces and have a pest control effect” that can control pests with the active ingredient vapor does not require direct contact with the pests by spraying. Is desired.
Moreover, it is possible to kill not only repellents but also insects, not only pests belonging to insect class, but also effective against pests belonging to spiders such as mites and tsutsugamushi, and a volatile enclosed space containing safe active ingredients Development of pesticides is desired.

JP 2014-156463 A JP 2013-095744 A Japanese Patent Laid-Open No. 11-060421 JP 2013-177342 A

  This invention is made | formed in view of the said background art, The subject contains the active ingredient which is safe and safe, and provides the insect repellent which exhibits an effect sufficiently in closed spaces, such as indoor and storage space. For the purpose.

  As a result of intensive studies to solve the above problems and problems, the present inventor has found that pests in a closed space can be controlled by containing a specific compound as an active ingredient.

  Furthermore, by mixing and using the specific compound and a compound selected from the specific compound group, the present invention is completed by finding that the compound exhibits a superior pest control effect due to the synergistic action between the compounds. It came to.

  That is, the present invention contains an aliphatic saturated monohydric alcohol consisting only of 8 carbon atoms, 1 oxygen atom, and hydrogen atom as an active ingredient, and is used in a closed space to control pests. The present invention provides a volatile enclosed space insect repellent characterized by being.

  The present invention also provides a solid volatile closed space insect repellent composition characterized in that the volatile closed space insect repellent is carried on a carrier.

  The present invention also provides a liquid volatile closed space insect repellent composition comprising the above volatile closed space insect repellent.

In addition, the present invention provides the solid volatile closed space insect repellent composition or the liquid volatile closed space insect repellent composition in a closed space of 1 × 10 ⁻³ m ³ or more and 1 × 10 ² m ³ or less. The present invention provides a method for exterminating pests characterized by being volatilized at room temperature.

  ADVANTAGE OF THE INVENTION According to this invention, the said subject can be solved and the volatile closed space insecticide containing an active ingredient which is safe and safe can be provided. Moreover, the volatile closed space insecticide of this invention is excellent in sustainability, and can exhibit a long-term effect.

  Moreover, since the volatile enclosed space insect repellent of the present invention exerts the insect repellent effect by the vapor generated by volatilization of the active ingredient, the volatile closed space insect repellent is directly brought into contact with the pest by a spray or the like. There is no need. Further, the volatile closed space insecticide can be used at room temperature and does not need to be heated. In addition, the effect can be accelerated by heating, ultrasonic irradiation, or the like.

  Furthermore, when a spraying device such as a spray agent is used, it is not easy to spread the active ingredient sufficiently to a narrow space in the closed space, but the volatile closed space insecticide of the present invention is a volatilized active ingredient. This vapor can exert a pest control effect to every corner of the closed space and can protect foods, clothes, furniture, houses, etc. existing in the closed space.

In addition, the volatile closed space insecticide of the present invention is not limited to repelling insects, and can also kill insects, and is not limited to insects belonging to the insect class, such as ticks, house dust mites, mites, spider mites, mites, etc. It is also effective against harmful insects that cause discomfort to humans such as millipede, centipede, and dandelion.
In addition, the volatile closed space insecticide of the present invention rarely has an adverse effect on the human body even though it has a pest control effect.

In addition, the volatile closed space insect repellent of the present invention is used in combination with “at least one compound selected from the group consisting of a chain monoterpene alcohol, a cyclic monoterpene alcohol and a cyclic monoterpene ketone”. Therefore, various synergistic effects are easily exhibited.
For example, the total volatilization amount (evaporation amount) when used in combination can be smaller than the volatilization amount (evaporation amount) when each is used alone; the volatilization amount (evaporation amount) can be adjusted; An advantageous effect that it is easy to exert a combined effect such as:

In addition, the volatile closed space insecticide of the present invention is particularly effective when used as a “solid volatile closed space insecticide composition” supported on a carrier.
The solid volatile closed space insect repellent composition of the present invention carries the volatile closed space insect repellent, so that it can be placed at an appropriate place in the closed space by a simple step. Can control pests.

  In addition, since the method for exterminating the pest of the present invention exterminates the pest with the vaporized active ingredient, it is possible to exterminate the pest throughout the entire closed space regardless of the size of the space to be used. .

  Hereinafter, the present invention will be described, but the present invention is not limited to the following specific embodiments, and can be arbitrarily modified within the scope of the technical idea.

<Volatile closed space insecticide>
The volatile enclosed space pesticide of the present invention contains an aliphatic monohydric alcohol consisting of only 8 carbon atoms, 1 oxygen atom, and hydrogen atom as an active ingredient, and is used in a closed space. It is characterized by exterminating.

  In the volatile closed space insecticide of the present invention, the active ingredient volatilizes at room temperature to become a gas, and the gas exerts the insecticide effect. That is, by directly contacting the volatile closed space pesticide itself with a pest, the pesticide effect is not exerted, but the vapor generated by volatilization of the active ingredient contained in the volatile closed space pesticide ( Pest control effect is exhibited by the action of gas) on pests.

  In the present invention, “closed space” refers to “a space that is not opened for a certain period of time”. Specific examples include indoors such as houses and buildings; inside vehicles such as freight cars, ships, airplanes, and trains; storage places such as chests, closets, closets, warehouses, shoe boxes, and containers;

In the present invention, “control” includes the meanings of “repellency, insect repellent and insecticide”. That is, the volatile enclosed space pesticide of the present invention can “repell away from the enclosed space”, “prevent entry into the enclosed space” and / or “kill” the enclosed pest.
Further, in the present invention, the “insect-proof effect” includes the meanings of “effect of repelling pests”, “effect of preventing pests from entering a target place” and / or “effect of killing pests”.

The volatile closed space insecticide of the present invention is used for the purpose of controlling insect pests. The pests include “hygienic pests” defined by the Pharmaceutical Affairs Law and “unpleasant pests” other than hygienic pests. These include not only adults but also larvae.
Examples of sanitary pests include flies, mosquitoes, flyfish, fleas, lice, cockroaches, house dust mites, indoor dust mites and the like.
Examples of unpleasant pests include ants, millipedes, cardworms, centipedes, spiders, warabimushi, stink bugs, and fly flies.
The volatile closed space insecticide of the present invention is preferably used for controlling unpleasant insects.

Moreover, it is preferable that the volatile closed space insecticide of this invention is used for extermination of a wood insect, a clothes insect, a food insect, a cultural property insect, a house insect, and / or a pet insect.
Examples of wood pests, beetles, longhorn beetle, shea Banmushi, termites, Naga Shinkuimushi, Hirata beetles and the like.
Examples of clothes (fiber) pests include cutworms, moths, and carp.
Examples of food pests, acarids, clothes moth, webbing clothes moth, Indian meal moth, beetle, maize weevil, moths, mites, tea motor Temushi, cockroaches, ants, etc. shea Banmushi like.
Examples of cultural assets pests, shea Banmushi, carpet beetle, psocoptera, maize weevil, Hirata beetles, Naga Shinkuimushi, stains, leopard mode Nmushi, termites, and the like.
Examples of house (building) pests, termites, Himesu formic Beetle, shea Banmushi, millipedes, stains, clothes moth, carpet beetle, flies and the like.
Examples of pet pests include fleas, ticks, spiders, and mosquitoes.

Volatile closed space anti pesticide of the present invention, cockroaches, mites, moth, webbing clothes moth, mosquito, ants, beetles, millipedes, beetles, Naga Shinkuimushi, longhorn beetle, termites, carpet beetle, red flour, maize weevil, beetle, tea motor Temushi, stain Or it is more preferable to use for flea control, and it is particularly preferable to use it for mites, carp, or millipede. The target of use includes not only adults but also larvae.

The aliphatic monohydric alcohol that is an active ingredient of the volatile closed space insecticide of the present invention consists of only 8 carbon atoms, 1 oxygen atom, and hydrogen atom. Hereinafter, this may be simply abbreviated as “C ₈ aliphatic monohydric alcohol”.
Specifically, linear saturated alcohols such as n-octanol; 1-methyl-1-heptanol (2-octanol), 5-methyl-1-heptanol, 2-methyl-2-heptanol, 5-methyl-2- Heptanol, 6-methyl-2-heptanol, 3-methyl-3-heptanol, 5-methyl-3-heptanol, 6-methyl-3-heptanol, 4-methyl-4-heptanol, 1-ethyl-1-hexanol ( 3-octanol), 2-ethyl-1-hexanol, 1-propyl-1-pentanol (4-octanol), 2,3-dimethyl-2-hexanol, 2,5-dimethyl-2-hexanol, 2,2 -Dimethyl-3-hexanol, 2,5-dimethyl-3-hexanol, 3,4-dimethyl-3-hexanol, 3,5-dimethyl Branched chain saturated alcohols such as ru-3-hexanol; 2-ethylcyclohexanol, 4-ethylcyclohexanol, 2,3-dimethylcyclohexanol, 2,5-dimethylcyclohexanol, 2,6-dimethylcyclohexanol, 3, Cyclic alcohols such as 4-dimethylcyclohexanol and 3,5-dimethylcyclohexanol; 1-octen-3-ol, trans-2-octen-1-ol, cis-3-octen-1-ol, trans-3- And unsaturated alcohols such as octen-2-ol, cis-5-octen-1-ol, and 7-octen-1-ol.
One selected from these can be used alone or in combination of two or more.

Among them, the C ₈ aliphatic monohydric alcohol is n-octanol, 1-methyl-1-heptanol, 1 in that it exhibits a sufficient insect-controlling effect, can be obtained at low cost, and can be easily synthesized. -Ethyl-1-hexanol, 1-propyl-1-pentanol, 2-ethyl-1-hexanol, 2-ethylcyclohexanol, 4-ethylcyclohexanol, 2,3-dimethylcyclohexanol, 2,5-dimethylcyclo Hexanol, 2,6-dimethylcyclohexanol, 3,4-dimethylcyclohexanol, 3,5-dimethylcyclohexanol, 1-octen-3-ol, trans-2-octen-1-ol, cis-3-octene- 1-ol or cis-5-octen-1-ol is preferred, n-octanol, 1-methyl-1- Heptanol, 1-ethyl-1-hexanol, 1-propyl-1-pentanol or 2-ethylcyclohexanol is more preferable. From the above points, n-octanol, 1-methyl-1-heptanol, 2-ethyl-1 -Hexanol or 2-ethylcyclohexanol is particularly preferred.

The volatile closed space insecticide of the present invention may contain “other components” to be described later in addition to the C ₈ aliphatic monohydric alcohol which is the above component.
The content of the C ₈ aliphatic monohydric alcohol, which is an active ingredient of the volatile closed space insect repellent of the present invention, with respect to the entire volatile closed space insect repellent is not particularly limited and is appropriately selected according to the purpose. be able to. When the total amount of the volatile closed space insect repellent is 100 parts by mass, it is preferably compounded at a content of 0.1 to 100 parts by mass, preferably at a content of 1 to 95 parts by mass, It is especially preferable to mix | blend with the content of a mass part, and it is still more preferable to mix | blend with the content of 5-70 mass parts.

In patent document 4, as above-mentioned, it cannot be said that the insect (Drosophila) was repelled by the vapor | steam which the test compound (active ingredient) volatilized.
In an example of Patent Document 4, Drosophila is configured to be able to enter a vial through an inlet having a diameter of 8 mm, and a filter paper (2 cm × 2 cm) in which a test compound is immersed inside the inlet of the vial. Is installed.
If the diameter is 8 mm, the Drosophila wings and legs are considered to contact the filter paper at the entrance. That is, it is thought that once it tried to pass through the inlet of the vial in which the test compound was present, it showed a repellent reaction by contacting the test compound and headed to the inlet of the other vial containing ethanol alone.
Therefore, Patent Document 4 does not verify the space insect repellent effect. That is, Patent Document 4 does not describe a volatile closed space pesticide that volatilizes the active ingredient vapor into the closed space to control the pests.
Moreover, Patent Document 4 only confirms that insects (Drosophila) entered the other vial by avoiding the vial in which the filter paper immersed in the test compound was placed, and killed and exterminated the insect. No effect has been confirmed.
The examples are limited to Drosophila insects, and other insects such as cockroaches, ants, fleas, moths, moths, cutworms, etc .; pests belonging to the spider class such as ticks, house dust mites, mites, spider mites, spider mites; millipede In the case of unpleasant insects that cause discomfort to humans, such as centipedes and dandelions, the effects of killing and extermination have not been confirmed.

  Further, the volatile closed space insect repellent of the present invention is not limited, but “at least one compound selected from the group consisting of a chain monoterpene alcohol, a cyclic monoterpene alcohol, and a cyclic monoterpene ketone. Is preferably contained. Hereinafter, this “” may be abbreviated as “combination compound”.

Examples of the chain monoterpene alcohol include citronellol, geraniol, nerol, linalool, dihydrolinalool, mugor, myrsenol, dihydromyrcenol, osmenol, lavandulol and the like.
Examples of cyclic monoterpene alcohols include isopulegol, menthol, terpineol, dihydroterpineol, terpineol-4, carveol, dihydrocarbeole, perilla alcohol, myrtenol, pinocarbeool, fenkyl alcohol, borneol, isoborneol, tweenol and the like. Can be mentioned.
Examples of the cyclic monoterpene ketone include carvone, menthone, camphor, piperiton, and fenkon.
One selected from these can be used alone or in combination of two or more.

Among them, is the active ingredient contained in the volatile enclosure anti pesticide, C ₈ shows excellent synergy with aliphatic monohydric alcohol, in terms of exerting a sufficient and sustained anti-pest effect, combination compounds, Citronellol, geraniol, nerol, linalool, myrsenol, menthol, terpineol, carveol, perilla alcohol, myrtenol, borneol, isoborneol, carvone, menthone or camphor are preferred, citronellol, geraniol, nerol, linalool, menthol, terpineol, carvone or camphor Are more preferred, with nerol, menthol, carvone or camphor being particularly preferred.

The volatile closed space insect repellent of the present invention tends to exhibit several synergistic effects specifically by using the C ₈ aliphatic monohydric alcohol and the combination compound in combination.
For example, the total volatilization amount / evaporation amount (usage amount) when used in combination can be smaller than the volatilization amount / evaporation amount (usage amount) when each is used alone, because the volatilization amount (evaporation amount) can be adjusted. The odor does not become strong; the odor quality can be adjusted by adding a fragrance, etc .; it can be effective against various pests; it can be easily increased by using a compound with a low pest control effect; the odor attached to clothing, etc. There likely (omission likely) taken when placing the garment or the like in ventilation environment; the combined effect of the concomitant compound such as, C ₈ aliphatic monohydric alcohol in the present invention described above is susceptible to specifically exhibited.

There is no restriction | limiting in particular in content with respect to the whole volatile closed space insecticide of the said combined use compound, According to the objective, it can select suitably. Further enhance the anti-pest effect of the C ₈ aliphatic monohydric alcohol is an active ingredient contained in the volatile enclosure anti pesticide, sufficiently and persistently than points such as to exert anti-pest effect, volatile enclosure proof When the total pesticide is 100 parts by mass, the total amount of the combined compound is preferably 10 to 90 parts by mass, preferably 20 to 70 parts by mass, and 30 to 60 parts. It is particularly preferable to blend with a content of parts by mass.
The mass ratio of the C ₈ aliphatic monohydric alcohols and combination compound is not particularly limited, further enhancing the anti-pest effect of the C ₈ aliphatic monohydric alcohol, sufficiently and persistently equal to exert anti-pest effect From this point, 1: 9 to 9: 1 is preferable, 3: 7 to 7: 3 is more preferable, and 4: 6 to 6: 4 is particularly preferable.

  The volatile closed space insecticide of the present invention may contain “other components” in addition to the above components. The “other components” are not particularly limited and may be appropriately selected depending on the purpose within a range not impairing the effects of the present invention. For example, solvents, preservatives, retention agents, surfactants, dyes , Deodorants, antioxidants, antibacterial agents, antifungal agents, polymer polymers, gelling agents, organic solvents, inorganic substances, fragrances, essential oils, colorants and the like.

The volatile closed space insecticide of the present invention is, for example, a method of supporting on a support described later; a method of supporting on a porous material; a method of supporting on a fibrous body such as filter paper or non-woven fabric; It can be used by the method of making it;
In addition, the dosage form can be used as a solid dosage form, a liquid dosage form, a paste agent, a gel agent, an aerosol agent, a microcapsule agent or the like according to the purpose of use.
It is preferable to use it in a solid dosage form in that it can be easily installed and installed in a narrow space.

<Solid volatile closed space insecticide composition>
The solid volatile closed space insect repellent composition of the present invention (hereinafter sometimes simply referred to as “solid composition”) carries the volatile closed space insect repellent of the present invention on a carrier. It is characterized by being made.

The carrier is only required to carry a volatile enclosed space insect repellent and vaporize the vaporized volatile enclosed space insect repellent in the enclosed space. Preferred examples of the carrier include silica, talc, and alumina. , Zeolite, calcium silicate, diatomaceous earth, allophane, perlite, activated carbon, carbohydrate, water-absorbing resin, and the like.
Silica such as silica gel; talc; alumina such as alumina gel; zeolite; activated carbon; etc. are more preferable, silica such as silica gel; activated carbon; water absorbing property in that the effect of the volatile closed space insect repellent is sufficiently exhibited. It is particularly preferable to use a resin;

By volatile enclosure anti pesticide of the present invention by supporting the bearing member and a solid composition, a relatively high C ₈ aliphatic monohydric alcohols and / or in combination the compound of vapor pressure in the sustained release It has the effects of suppressing the outflow of liquid, making it easy to handle, adjusting the pest control effect and safety, and reducing odor.

  The content of the volatile closed space insect repellent in the solid volatile closed space insect repellent composition of the present invention can be appropriately set depending on the type and use of the carrier used. When the whole solid composition is 100 parts by mass, it is preferably contained in an amount of 0.01 to 70 parts by mass, preferably 0.1 to 60 parts by mass, and more preferably 1 to 50 parts by mass.

The dosage form of the solid composition of the present invention is not particularly limited, and examples thereof include liquid dosage forms, powders, granules, tablets, gels, and capsules.
In addition, the solid composition can be obtained by supporting the volatile closed space insecticide on a support by a known method.

<Liquid volatile closed space insecticide composition>
The liquid volatile closed space insect repellent composition of the present invention (hereinafter sometimes simply referred to as “liquid composition”) contains the above-described volatile closed space insect repellent of the present invention. And

  The liquid composition may contain a solvent, an emulsifier, a dispersant, a suspending agent, etc., in addition to the volatile closed space insect repellent, depending on the purpose of use.

For example, examples of the solvent include alcohols such as methanol and ethanol; glycols such as propylene glycol; ketones such as acetone; ethers such as diethyl ether; These solvents may be used alone or in combination of two or more.
Examples of the emulsifier include nonionic surfactants, cationic surfactants, anionic surfactants, and amphoteric surfactants.

  The content of the volatile closed space insect repellent in the liquid volatile closed space insect repellent composition of the present invention can be appropriately set depending on the intended use. When the entire liquid composition is 100 parts by mass, it is preferably contained in an amount of 0.01 to 70 parts by mass, preferably 0.1 to 60 parts by mass, and more preferably 1 to 50 parts by mass.

Although the dosage form of the liquid composition of this invention is not specifically limited, For example, an oil agent (liquid agent), an emulsion, a wettable powder, a paste agent, a gel agent, a capsule agent etc. are mentioned.
Further, the liquid composition of the present invention can be produced by a known method. Further, the liquid composition may be volatilized as it is, or may be volatilized by soaking in a core rod, filter paper, non-woven cloth, felt or the like.

<How to get rid of pests>
The method for controlling pests of the present invention uses the solid volatile closed space pesticide composition or the liquid volatile closed space pesticide composition in a closed space, and the solid or liquid composition. It is characterized by volatilizing a volatile enclosed space insect repellent in materials at room temperature.

The size of the closed space is not particularly limited, but with respect to the upper limit, the volatile closed space insect repellent of the present invention with respect to the lower limit, in terms of exerting a pest control action throughout the closed space and every corner, 1 × 10 ⁻² m ³ or more and 1 × 10 ³ m ³ or less are preferable, and 0.1 m ³ or more and 5 × 10 ² m ² or less are more preferable in terms of functioning as a repellent or a pest control agent. , 1 m ³ or more 200 meters ³ or less are particularly preferred, 10 m ³ or more 100 m ³ or less is more preferable.

There is no particular limitation on the amount of the solid or liquid composition used in the method for controlling pests of the present invention (hereinafter sometimes simply referred to as “method of the present invention”). The amount of the volatile closed space insecticide contained in the solid or liquid composition is 1 × 10 ⁻¹⁰ per cm ^{3 in} that the insecticide effect is sufficiently and continuously exhibited in the target enclosed space. The amount of the solid or liquid composition is preferably adjusted to be g to 1 × 10 ⁻² g, and is preferably adjusted to be 1 × 10 ⁻⁹ g to 1 × 10 ⁻³ g per 1 cm ^3. It is more preferable to adjust so that it may become 1 * 10 < ^-8 > g-1 * 10 < ^-4 > g per cm < ³ >.
In addition, the period during which the solid or liquid composition is used in the closed space can be appropriately selected according to the size of the closed space, the degree of the desired effect, etc. It is preferable to use 3 hours to 6 months or more, and it is particularly preferable to use 8 hours to 3 months.
In addition, the method of the present invention may be used for preventing the invasion of pests or may be used for the purpose of killing insects.

  In the method of the present invention, for example, the solid or liquid composition is placed in an air-permeable container as it is or allowed to stand in a closed space to prevent volatile closed space in the solid or liquid composition. What is necessary is just to volatilize a pesticide naturally. If necessary, the volatile enclosed space insect repellent contained in the solid or liquid composition may be volatilized by subjecting the solid or liquid composition to heat treatment, blowing treatment, or the like. Good.

  Hereinafter, the present invention will be described more specifically with reference to examples. However, the present invention is not limited to these examples as long as the gist thereof is not exceeded.

Example 1
Hereinafter, according to Evaluation Examples 1 to 7, a model evaluation was performed on the volatile closed space insecticide of the present invention. In the following evaluation examples, model evaluation is performed in a relatively narrow space, but it has been confirmed by experiments that the effect of the present invention is fully exhibited even when the volume of the space is expanded.

Evaluation Example 1
[Effects on cockroaches]
A polypropylene container of 534 mm × 348 mm × 292 mm (height) was used as a test box. Vaseline was applied to the upper half of the inner wall of the container in order to prevent escape of cockroaches.
In order to facilitate the observation, 90 mmφ × 7 mm (height) transparent polystyrene Petri dish shelters (having 10 mm × 7 mm size entrances / exits) were used.
Two 225 mm × 153 mm × 125 mm (height) translucent polypropylene containers having an inner volume of 4.3 L were prepared and placed in the container. One entrance / exit of 40 mm × 8 mm (height) was provided at the center of the bottom of each container, and connected by a transparent plastic 40 mm × 50 mm × 8 mm (height) passage. Vaseline was applied to the upper third of the inner wall of each container to prevent the escape of cockroaches.

In one container, there are two shelters contaminated with cockroach feces (previously left overnight in a breeding box to make the cockroaches settled), water and food, and the other container has a cockroach. Two new shelters, contaminated with feces, water and food were installed.
Test worms (50 adult males of 50 cockroaches and 50 adult females) are released in a test box (container) and sealed with a transparent plastic plate for easy observation. The test insects were acclimated to the container day and night. After confirming that many cockroaches inhabit the shelter side contaminated with cockroach droppings, gently remove the plastic plate and remove a 20 mmφ filter paper soaked with 20 mg of the test substance to a size of 32 mmφ × 15 mm (height) It was placed in a petri dish and placed near a shelter contaminated with cockroach droppings and covered with a plastic plate again.
Thereafter, the number of test insects hiding in the shelter and test box was observed over time.

The results when n-octanol is used as a test substance are shown in Table 1. In Table 1, the extermination rate (%) was calculated using the following formula (1).
Hereinafter, in this evaluation example, a test container in which a test substance is installed is referred to as a “sample container”, and a test container in which no test substance is installed is referred to as a “control container”.
Removal rate (%)
= (Number of insects in control container-number of insects in specimen container) / number of insects in control container × 100 (1)

In Table 1, “immediately before test” means immediately before the test substance is placed in the specimen container, and “immediately after installation” means immediately after the test substance is placed in the specimen container, “3 hours later”, “8 hours later” “After” and “after 24 hours” refer to 3 hours, 8 hours, and 24 hours after the test substance is placed in the specimen container, respectively.
From the results shown in Table 1, it was found that n-octanol had an effect of expelling (exterminating) cockroaches. Further, it was confirmed that all cockroaches were expelled 24 hours after the test substance was installed.

Further, Table 2 shows the results when the test substance was used seven C ₈ aliphatic monohydric alcohol. Moreover, as a reference example, the results when monoterpene alcohols (citronellol, menthol, borneol) and monoterpene ketones (carvone, camphor) are used alone are also shown.

  From the results in Table 2, the cockroach expelling (disinfecting) effect of each test substance was observed with time. The time required for extermination was different for each test substance, but it was confirmed that almost all cockroaches were expelled from all the test substances in Table 2 24 hours after the test substance was installed.

Also, C ₈ aliphatic monohydric alcohol mono terpene alcohols (citronellol, menthol, borneol) or monoterpene ketone (carboxylic, camphor) by combination with, as compared with the case of C ₈ aliphatic monohydric alcohol alone The initial eviction (disinfection) effect was increasing. This result is a C ₈ aliphatic monohydric alcohol is believed to be due to synergistic effect with the monoterpene alcohol or monoterpene ketones.

Evaluation example 2
[Effects against mites]
About 50 g of mite saturated medium (estimated density 50,000 to 60000 individuals / g) was placed on the inner bottom surface of the 162 mm × 112 mm × 85 mm (height) AS resin container and uniformly spread. An untreated black fine paper was gently placed on a mite (meander leopard mite) medium, and an 8φ mm filter paper soaked with the test substance was placed in the center of the black fine paper. The filter paper is no. Using 514A, the release paper laminated on the back surface was adhered to prevent the test substance from moving to the black fine paper.
After the test substance was installed, observation was continued for 1 hour over time, and the number of ticks moved on untreated black fine paper was measured to determine the extermination effect. In order to determine the removal distance, concentric circles were drawn with white lines at intervals of 5 mm from the outer edge of the filter paper soaked with the test substance in advance on black fine paper. The test substance was infiltrated into the filter paper using a microsyringe (4 μL / 0.50 cm ² ≈80 g / m ² ). The evaluation test was performed at 25 ° C.

As test substances, 2-octanol, 2-ethyl-1-hexanol, 3,5-dimethylcyclohexanol and cis-5-octen-1-ol were used. Also investigated the spatial control action of monoterpene alcohols (linalol, carbeol) and monoterpene ketone (carvone), respectively, and the commercial control products known as insect repellents and the spatial control action of DEET. It was. Table 3 shows the results of three tests for each test substance. The numerical value in the table represents the average value of 3 wards in one district.
In Table 3, the numbers in parentheses indicate the number of dead ticks.

In Table 3, “15 minutes later”, “30 minutes later”, and “60 minutes later” refer to 15 minutes, 30 minutes, and 60 minutes after the test substance is placed on the black fine paper, respectively. . Moreover, it can be said that a test substance (test substance) has a high intrusion prevention effect, so that the numerical value of a table | surface is small (the number of invading ticks is small).
All four test substances in Table 3 showed a control action against ticks and an intrusion prevention effect was observed. There was no spatial control effect on the commercial product and DEET. In addition, the test substance also showed an acaricidal effect.

Also, C ₈ aliphatic monohydric alcohol monoterpenes alcohol (linalool, carveol) by combination with or monoterpene ketone (carboxylic), as compared with the case of C ₈ aliphatic monohydric alcohol alone, high Intrusion Prevention The effect was recognized. This result is a C ₈ aliphatic monohydric alcohol is believed to be due to synergistic effect with the monoterpene alcohol or monoterpene ketones.

Evaluation Example 3
[Effects on Koiga]
A tea strainer (metal spherical container: approx. 6 cmφ) with a woolen cloth (approx. 3 cm x 3 cm: approx. 0.2 g) is hung so as not to touch the glass container (capacity: 1450 mL), and 10 larvae of Koiga are glass. Placed in a container. The test substance was added to the glass container as the test group, and the test substance was not added as the control group. The lethality and inhibition of feeding were determined from the lethality of the moth larvae and the amount of food in the wool cloth 3 weeks after the start of the test. The effect was investigated. The test was performed in duplicate for each group.
In the test area, a non-woven fabric (40 mm × 40 mm) filled with 4 g of silica gel containing 15% test substance was added.

The feeding inhibition rate was calculated using the following formula (2).
Feeding inhibition rate (%) = (feeding amount in control group (g) −feeding amount in test group (g)) / feeding amount in control group × 100 (2)
As test substances, n-octanol, 2-ethyl-1-hexanol, 2,5-dimethylcyclohexanol, and trans-2-octen-1-ol were used. The results are shown in Table 4. Moreover, as a reference example, the results when monoterpene alcohol (nerol, menthol) and monoterpene ketone (camphor) are used alone are also shown.

  As a result of Table 4, all four test substances showed an extermination action against the carp, and an antifeedant effect was observed. Further, the test substance was found to have a lethal effect on the moth larvae.

Also, the C ₈ aliphatic monohydric alcohol monoterpene alcohols (nerol, menthol) or monoterpene ketone (camphor) in combination with the results, compared with the case of C ₈ aliphatic monohydric alcohol alone, antifeedant rate Was high.
This result is a C ₈ aliphatic monohydric alcohol is believed to be due to synergistic effect with the monoterpene alcohol or monoterpene ketones.

Evaluation Example 4
[Effects against mosquitoes]
As a test box, a veneer container made of 850 mm × 1500 mm × 820 mm (height) was used. Two sides of the container side were covered with wire mesh, and a transparent plastic plate was installed on the upper part for easy observation. Two test containers (360 mm × 360 mm × 400 mm (height): volume 51.84 L) made of brown decoupage were placed in the test box. A metal rack of 265 mm × 200 mm × 170 mm (height) was placed at the center of each test container.
A container containing a test substance and an attractant was installed on the rack in one test container. The test substance was immersed in 500 mg of 55 mmφ filter paper and then placed in a petri dish of 60 mmφ × 16 mm (height). Only the container containing the attractant was placed on the rack in the other test container (control container).

Place the adhesive paper (98mm x 79mm: 5mmφ holes in 4 places) for collection on the container with the attractant installed in each test container, and about 10 minutes after placing the adhesive paper, About 100 mosquitoes (Acacia) were released in the test box.
About 16 hours after release, the number of mosquitoes captured on adhesive paper and the number of mosquitoes entering each test container were counted.

Table 5 shows the results when 2-ethyl-1-hexanol was used as the test substance. In order to eliminate the difference depending on the installation location of the test container, the container containing the test substance (specimen container) and the control container were replaced and the repeated test was performed. The total results are shown in Table 5.
In Table 5, the intrusion prevention rate was calculated using the following formula (3).
Intrusion prevention rate (%) = (Number of intrusions into untreated area−Number of intrusions into treated area) / Number of intrusions into untreated area × 100 (3)

  As a result of Table 5, 2-ethyl-1-hexanol showed an extermination effect against mosquitoes and an invasion preventing effect was recognized.

  In addition, n-octanol, 2-ethyl-1-hexanol, 2,5-dimethyl-2-hexanol, 4-ethylcyclohexanol, 2,3-dimethylcyclohexanol, and 1-octen-3-ol were used as test substances. The results when used are shown in Table 6. In addition, as a reference example, the results when monoterpene alcohol (citronellol, perilla alcohol) and monoterpene ketone (menton) are used alone are also shown.

  In all the test substances in Table 6, an invasion preventing effect against mosquitoes was recognized.

Also, C ₈ aliphatic monohydric alcohol mono terpene alcohols (citronellol, perilla alcohol) or monoterpene ketone (Menton) and combination results, as compared with the case of C ₈ aliphatic monohydric alcohol alone, intrusion prevention rate Was high.
This result is a C ₈ aliphatic monohydric alcohol is believed to be due to synergistic effect with the monoterpene alcohol or monoterpene ketones.

Evaluation Example 5
[Effects on ants]
Prepare two polystyrene cups (11 cmφ, 6.8 cm (height), bottom is 10 cmφ), and provide a 20 mm × 10 mm (height) entrance at the center of the bottom of each cup. A plastic square pipe (40 mm × 100 mm × 10 mm (height)) was connected as a passage. Vaseline was applied to the upper third of the inner wall of each cup to prevent escape of ants. A 40 mmφ hole was made in the center of the pipe, and a disposable cup (70 mmφ, 6.8 cm (height), the bottom was 40 mmφ) with the bottom portion cut was attached.

  A filter paper (10 cmφ) was installed in each cup, and 8 mmφ filter paper impregnated with 20 mg of the test substance (No. 514A, release paper laminated on the back surface was adhered to the center of one cup, and the filter paper (10 cmφ) The test substance was not allowed to move. Ten ants were released from the disposable cup portion, released and observed for 10 to 15 minutes, and the existence position in the situation where the ants settled was examined. In order to eliminate the difference depending on the installation location of the test container (cup), the test container (cup with the test substance installed) and the control container (cup with no test substance installed) were replaced and repeated tests were performed.

Table 7 shows the results when 4-ethyl-1-hexanol was used as the test substance (4 repetitions).
In Table 7, the intrusion prevention rate (%) was calculated using the following formula (4).
Intrusion prevention rate (%)
= (Number of insects in control container−number of insects in specimen container) / number of insects in control container × 100 (4)

In Table 7, “channel on the sample container side” refers to a channel between the sample container and the disposable cup, and “channel on the control container side” refers to a channel between the disposable cup and the control container.
As a result of Table 7, 2-ethyl-1-hexanol showed an extermination effect against ants, and an intrusion prevention effect was recognized.

Further, when n-octanol, 2-octanol, 2-ethyl-1-hexanol, 4-ethylcyclohexanol, 2,5-dimethylcyclohexanol, trans-2-octen-1-ol is used as a test substance. The results are shown in Table 8.
Moreover, as a reference example, the results when monoterpene alcohol (geraniol, terpineol) and monoterpene ketone (camphor) are used alone are also shown.

  In all of the test substances in Table 8, an anti-intrusion effect against ants was observed.

Furthermore, monoterpene alcohols (geraniol, terpineol) to C ₈ aliphatic monohydric alcohol or monoterpene ketone (camphor) in combination with the results, compared with the case of C ₈ aliphatic monohydric alcohol alone, intrusion prevention rate It was high. This result is a C ₈ aliphatic monohydric alcohol is believed to be due to synergistic effect with the monoterpene alcohol or monoterpene ketones.

Evaluation Example 6
[Effects against hornworms]
A part of the test apparatus used in Evaluation Example 5 was changed. An injection needle was attached to the side surface of the central part of the pipe so that air could be inhaled. Moreover, in order to prevent the escape of the beetle (tobacco beetle), an evaluation test was performed by placing a transparent plastic plate on two cups and a disposable cup so as to be in a state close to sealing.
One cup (specimen container) was provided with an 8 mmφ filter paper impregnated with 50 mg of the test substance, and after 1 hour, air was sucked from the suction port at 50 mL / min to release 20 beetles. The location of the beetle was examined one hour after releasing the beetle.

  Table 9 shows the results when n-octanol was used as a test substance (4 repetition tests were performed). In Table 9, the intrusion prevention rate was calculated using the above formula (4).

  As a result of Table 9, n-octanol showed a disinfecting effect against the beetle and an invasion preventing effect was recognized.

  Further, when n-octanol, 2-octanol, 2-ethyl-1-hexanol, 4-ethylcyclohexanol, 3,5-dimethylcyclohexanol, cis-5-octen-1-ol was used as a test substance. The results are shown in Table 10. In addition, as a reference example, results obtained when monoterpene alcohol (linalool, menthol) and monoterpene ketone (carvone) are used alone are also shown.

In all the test substances in Table 10, it was observed intrusion prevention effect against sheet Banmushi.

Also, C ₈ aliphatic monohydric alcohol monoterpenes alcohol (linalool, menthol) or monoterpene ketone (carboxylic) and the combination result, as compared with the case of C ₈ aliphatic monohydric alcohol alone, intrusion prevention rate It was high.
This result is a C ₈ aliphatic monohydric alcohol is believed to be due to synergistic effect with the monoterpene alcohol or monoterpene ketones.

Evaluation Example 7
[Effect on millipede]
The same test apparatus as in Evaluation Example 6 was used. One cup (specimen container) was provided with 8 mmφ filter paper impregnated with 50 mg of the test substance, and after 1 hour, air was sucked from the suction port at 50 mL / min, and 10 millipedes (sparkling) were released. The location of the millipede was examined 30 minutes after releasing the millipede.

When n-octanol, 2-octanol, 2,5-dimethyl-3-hexanol, 2-ethylcyclohexanol, 2,5-dimethylcyclohexanol, cis-5-octen-1-ol was used as a test substance ( Table 11 shows the results of 4 repetition tests. In Table 11, the intrusion prevention rate was calculated using the above formula (4).
In addition, as a reference example, the results when monoterpene alcohol (nerol, borneol) and monoterpene ketone (menton) are used alone are also shown.

  In all the test substances in Table 11, an invasion preventing effect against millipede was recognized.

Furthermore, monoterpene alcohol C ₈ aliphatic monohydric alcohol (nerol, Boruneru) or monoterpene ketone (Menton) and combination results, as compared with the case of C ₈ aliphatic monohydric alcohol alone, intrusion prevention rate It was high.
This result is a C ₈ aliphatic monohydric alcohol is believed to be due to synergistic effect with the monoterpene alcohol or monoterpene ketones.

From Evaluation Example 1-7, the volatile enclosure anti pesticide of the present invention have been found to have cockroaches, mites, webbing clothes moth, mosquito, ants, shea Banmushi, the removal effect on millipede.
Furthermore, a killing effect was confirmed against mites and carp. In mite and carp evaluation tests, the amount of active ingredients per unit volume was higher than in other evaluation tests. For pests other than mites and carp, increasing the amount of active ingredients per unit volume killed them. The effect is also confirmed.

Example 2
The following production examples 1 to 4 and evaluation examples 8 and 9 produced and evaluated a volatile enclosed space insect repellent composition.
As above-mentioned, Example 1 is evaluation of the pest control effect of the active ingredient of a volatile closed space insecticide. An example in the form actually used is shown in the second embodiment.
Production Example 1
[Preparation of solid volatile closed space insecticide composition]
To 75 parts by mass of silica gel, 25 parts by mass of n-octanol was added, mixed, and supported to obtain a solid volatile closed space insecticide composition.

Production Example 2
[Preparation of solid volatile closed space insecticide composition]
In 70 parts by mass of activated carbon, 25 parts by mass of n-octanol and 5 parts by mass of the following combination compound were mixed and supported to obtain solid volatile closed space insect repellent compositions.
Concomitant compounds: citronellol, nerol, linalool, carvone, menthone

Production Example 3
[Production of liquid volatile closed space insecticide composition]
95 parts by mass of 3-methoxy-3-methyl-1-butanol was mixed with 5 parts by mass of 2-octanol to obtain a liquid volatile closed space insecticide composition.

Production Example 4
[Production of liquid volatile closed space insecticide composition]
95 parts by mass of 3-methoxy-3-methyl-1-butanol was mixed with 4 parts by mass of 2-octanol and 1 part by mass of linalool to obtain a liquid volatile closed space insecticide composition.

Evaluation Example 8
When the solid volatile closed space insecticide composition obtained in Production Examples 1 and 2 was evaluated in the same manner as in Evaluation Examples 4 and 7, the same effects as in Evaluation Examples 4 and 7 were obtained.

Evaluation Example 9
When the liquid volatile closed space insecticide composition obtained in Production Examples 3 and 4 was put in a bottle and evaluated in the same manner as in Evaluation Example 4 using a core-up felt, it was the same as in Evaluation Example 4 The effect was obtained.

Since the volatile enclosed space pesticide of the present invention has an effect of exterminating pests in the enclosed space, the present invention can protect what is present in the enclosed space from pests. It can be widely used in fields such as furniture industry and transportation industry.

Claims (10)

  Contains at least one alcohol selected from the group consisting of n-octanol, 2-octanol, 2-ethyl-1-hexanol, 2,5-dimethyl-3-hexanol and cis-3-octen-1-ol as an active ingredient And a volatile closed space insect repellent, characterized in that it is used in closed spaces to repel cockroaches.   Contains at least one alcohol selected from the group consisting of 2-octanol, 2-ethyl-1-hexanol, 3,5-dimethylcyclohexanol and cis-5-octen-1-ol as an active ingredient, and is used in a closed space A volatile enclosed space insect repellent, characterized by repelling mites.   It contains at least one alcohol selected from the group consisting of 2-ethyl-1-hexanol, 2,5-dimethylcyclohexanol and trans-2-octen-1-ol as an active ingredient, and is used in a closed space. A volatile enclosed space insect repellent, characterized by being controlled by eating inhibition and lethality.   at least selected from the group consisting of n-octanol, 2-ethyl-1-hexanol, 2,5-dimethyl-2-hexanol, 4-ethylcyclohexanol, 2,3-dimethylcyclohexanol and 1-octen-3-ol. A volatile closed space insecticide characterized by containing one alcohol as an active ingredient and using it in a closed space to repel mosquitoes.   at least one alcohol selected from the group consisting of n-octanol, 2-octanol, 2-ethyl-1-hexanol, 4-ethylcyclohexanol, 3,5-dimethylcyclohexanol and cis-5-octen-1-ol; A volatile closed space insecticide, which is contained as an active ingredient and is used in a closed space to repel a beetle.   at least one selected from the group consisting of n-octanol, 2-octanol, 2,5-dimethyl-3-hexanol, 2-ethylcyclohexanol, 2,5-dimethylcyclohexanol and cis-5-octen-1-ol A volatile closed space insecticide, which contains alcohol as an active ingredient and is used in closed spaces to repel millipedes.   The volatile property according to any one of claims 1 to 6, further comprising at least one compound selected from the group consisting of a chain monoterpene alcohol, a cyclic monoterpene alcohol, and a cyclic monoterpene ketone. Closed space insecticide.   The chain monoterpene alcohol is at least one chain monoterpene alcohol selected from the group consisting of citronellol, geraniol, nerol, linalool, dihydrolinalool, mugor, myrsenol, dihydromyrcenol, osmenol and lavandolol. The volatile enclosed space insect repellent according to claim 7.   The cyclic monoterpene alcohol is selected from the group consisting of isopulegol, menthol, terpineol, dihydroterpineol, terpineol-4, carveol, dihydrocarbeole, perilla alcohol, myrtenol, pinocarbeool, fenkyl alcohol, borneol, isoborneol and tweenol. The volatile enclosed space insect repellent according to claim 7 or 8, which is at least one cyclic monoterpene alcohol selected.   The volatile closure according to any one of claims 7 to 9, wherein the cyclic monoterpene ketone is at least one cyclic monoterpene ketone selected from the group consisting of carvone, menthone, camphor, piperiton and fencon. Spatial insecticide.