KR19990028324A - Aerosol injection device - Google Patents

Abstract

The present invention is a novel aerosol injection device that is easy to handle and excellent in insect disease control influences. The aerosol spraying device includes a container in which the liquid concentration with at least one insect bottle control component and the spraying reagent are hermetically sealed. The actuating unit has a valve stem provided to connect between the valve stem and the outside and protruding from the upper end of the container and a passage adapted to the valve stem. The sprayed material does not reduce the concentration of the insect disease control component in the spray space for at least 5 minutes.

Description

Aerosol injection device

The aerosol injecting apparatus can simply control the pest by repeatedly spraying the aerosol enclosed in the container with respect to the pest.

It is preferable that the aerosol injection device can be used by anyone in a variety of ways simply, and the aerosol enclosed in the container can effectively control pests, and a safe composition is preferable.

As a structure of an aerosol injection apparatus, the overall external view of the aerosol injection apparatus 10 is shown in FIG. In Fig. 1, reference numeral 1 denotes an aerosol container, numeral 2 denotes a cap portion of a triggered aerosol cap, numeral 31 denotes an operation unit body, numeral 34 denotes a trigger portion, and numeral 37 denotes a jet port. (7) is a virgin seal which is installed so that the operation part cannot be operated accidentally during storage or transportation.

6 shows the cap 2 taken out, FIG. 7 is a bottom view of the cap 2 seen from below, and 3 is fitted to the valve stem 6 protruding from the lower end of the container 1, thereby providing a valve. It is a control panel for operating the stem. Numeral 31 denotes an operation unit body, numeral 32 denotes a mounting plate, numeral 33 denotes an attachment frame, and numeral 34 denotes a trigger portion. Reference numeral 35 denotes a step inserting portion, 36 denotes a liquid passage in the operating portion 3, 37 denotes a jetting portion at the tip of the liquid passage, and 38 denotes a spray orifice fitted to the jetting portion.

4 is a cover part fixed to the mount 5 of the container 1, 41 is a retaining rib of the installation frame 33, 42 is a retaining cutout part, 43 is a circumference of the cover part. Wall 44 denotes a gap portion at the bottom of the peripheral wall.

In the conventional aerosol cap, since the gap portion 44 was narrow, it was difficult to insert the tool even when the cap portion 2 was to be disassembled, and it was difficult to remove the cap portion 2.

As described above, the virgin seal is provided in the cap so that the operation unit does not operate accidentally during storage or transportation of the aerosol injection device. That is, the virgin seal is used to prevent the operator from fully injecting until the operator starts using the aerosol injector.

However, when the virgin seal is used as another type of trigger type aerosol cap as shown in Figs. 9 and 10, the possibility of the following problems may be considered.

9 and 10 show the virgin seal 102 provided on the upper portion 101 of the operation unit body 107 having the trigger portion 100 and the splitter portion, and the side wall edge portion 104 of the standing portion 103. An aerosol cap 105 is shown which is fastened to the wall. In the standing part 103, when the force enters too much when mating the virgin seal 102, the operation part main body 107 may be lifted upward, and the step insertion part 109 may be pulled out by the valve step 110. As shown in FIG. That is, since the bending gap S1 is formed between the rear wall 106 of the standing part 103 and the bend part 108 of the operation part main body 107, for example, a thumb is attached to the front-end | tip of the operation part main body 107. On the contrary, when holding the virgin seal 102 with the first finger against the virgin seal 102, the bent portion 108 can be greatly bent by lifting the operation unit main body 107 backward. For this reason, as shown in FIG. 11, the step insertion part 109 may be raised on the valve stem 110 in some cases. In this case, there is a possibility that the valve stem 110 is pressed to eject the contents. As described above, in addition to the usual injection valve for pressing and injecting the valve stem 110, the stem insertion portion drawn from the valve stem is also directed toward the valve stem for a so-called inclined valve for tilting and injecting the valve stem horizontally. There is a possibility of misfired.

On the other hand, as an aerosol in a container, various examinations are made about the means for enhancing the effect, For example, the pest control performance with strong insecticidal effect is used as an active ingredient, or the composition of the undiluted | stock solution containing a pest control component is used. Examination or adjusting the injection amount is performed.

For example, as an aerosol (contents) of an aerosol content in an aerosol injection device, a mass spray type preparation that can sufficiently obtain a control effect by treating a pest control component in a larger amount is efficient, and its embodiments are various. It is considered.

In Japanese Patent Application Laid-Open No. 46-20837, the insecticidal component is dissolved in a solvent having a boiling point of 100 ° C. or lower and a melting point of 0 ° C. or lower, and this is set at a mixing ratio of 10v / v% or less and a jetting agent of 90v / v% or higher. A pesticidal jetting agent is disclosed which ejects a wide range of killing components in a short time (about 20 seconds in 300 ml) by attaching a special valve that sprays 15 ml or more for 1 second at -7 kg / cm 2/20 ° C. However, in this technique, since a special valve is used, the manufacturing cost is high or the entire contents are ejected all at once, so that it cannot be used repeatedly, and thus there is a deficiency in versatility.

Also disclosed are aerosol compositions for mass injection, in which a kerosene-based stock solution and a propellant made of fluorochlorohydrocarbon, flammable liquefied gas, carbon gas, and the like are mixed. However, this technique is mainly aimed at reducing the fluorohydrocarbon (pron) used in the propellant.

In the various conventional techniques as described above, in order to increase the pest control effect, clogging occurs on the treated surface by forcibly spraying the contents, and as a result, the floor or wall is contaminated, or the flame length is increased. It was flawed in terms of things. Therefore, if the injection amount is reduced in order to suppress the blockage of the treated surface and the increase in the flame length, the pest control effect is insufficient.

In addition, the effect of aerosol on the target pest is not limited to what the user can always satisfy, but the resistance of the pest to the pest control component is generated, changes in the living environment, and also changes in legal regulations. For this reason, the development of an excellent aerosol is desired continuously.

Therefore, in the aerosol injection apparatus (particularly the one capable of mass injection), there are various problems in the conventional one, and there is room for improvement.

The present invention relates to an aerosol jetting apparatus for controlling aquatic masses.

1 is an overall appearance of the aerosol headquarter apparatus of the present invention,

FIG. 2: is a top view of the cap part 2 of the aerosol injection device 10 shown in FIG.

3 is a bottom view of the cap portion 2 of the aerosol injection device 10 shown in FIG. 1,

4 is a side sectional view of the cap 2 during transport;

5 is a side cross-sectional view of a state in which the cap portion 2 is used,

Fig. 6 is a side cross-sectional view of the conventional aerosol cap during transport;

7 is a bottom view of FIG. 6,

8 is a longitudinal sectional view showing another embodiment of the aerosol cap of the present invention;

9 is a top view showing a conventional aerosol cap,

10 is a longitudinal sectional view of the aerosol cap in FIG.

FIG. 11 is an explanatory diagram showing a state where the stem insertion portion of the aerosol cap is placed on the valve stem in FIG. 10;

12 is a graph showing a change in the concentration of the active ingredient (phthalinsine) in the air when the aerosols of the present invention and the prior art a are injected,

FIG. 13 is a graph showing a change in the scattering volume when the aerosols of the present invention and the prior art a are sprayed,

14 is a diagram for illustrating an outline of a test for measuring a moving distance of a pest sprayed with an aerosol;

15 is a diagram for illustrating an outline of a knockdown test in an aerosol.

An object of the present invention is to provide a novel aerosol injection device which can solve the problems of the prior art, is easy to handle, and exhibits excellent pest control effect.

Another object of the present invention, in the aerosol injection device, to facilitate the disassembly by widening the gap of the lower end of the cover portion of the trigger type aerosol cap to insert the removal tool, to maintain the fitting state of the valve stem and stem insert To provide an aerosol injection device that provides a regulation means for solving the above problems and excellent pest control effect, and also has a mass injection type, there is little blockage of the treated surface, and can suppress the increase in flame length will be.

The object of the present invention is achieved by the following configuration.

1) a container in which an aerosol containing a stock solution containing at least a pest control component and an aerosol is contained, a valve step protruding from the top of the container, a passage inserted into the valve step and communicating with the valve stem and the outside; By operating the said operation part, the aerosol in the said container is sprayed to the outside, The sprayed object is characterized in that the density | concentration in the air of a pest control component does not decrease for at least 5 minutes in an injection space. .

2) The reduction rate of the concentration in the air is 10% or less for at least 5 minutes after the concentration in the air of the pest control component after the injection reaches a maximum value.

3) The propellant is blended at least twice by volume ratio with respect to the stock solution containing at least the pest control component, and the injection amount is 5 grams or more per 5 seconds.

4) The propellant is blended 2 to 7 times by volume with respect to the stock solution containing at least the pest control component.

5) The propellant is blended 3 to 5 times in volume ratio with respect to the stock solution containing at least the pest control component, and the injection amount of the solvent is 4.0 ml or more per 10 seconds.

6) The aerosol spraying apparatus according to 1 above further comprises an aerosol cap including a cover portion and the operation portion fitted with a mount provided on the upper portion of the container, wherein the operation portion is an injection portion located on an outer side of the passage. And a trigger section provided in the vicinity of the injection section, a mounting plate positioned on the opposite side of the trigger section, and a mounting frame formed at the tip of the mounting plate, wherein the mounting frame is a lower end of the support rib at the rear end side of the cover section. The gap at the lower end of the mounting frame side of the circumferential wall of the cover part is sufficiently wide for insertion and operation of the removal tool of the cover part.

7) The aerosol injection apparatus according to 1) further includes an aerosol cap including a bottom portion fitted with a mount provided on the upper portion of the container and a tongue portion standing up to surround the operation portion on both sides at the bottom portion. The operation part has a stem insertion part fitted to the valve stem, an injection part located outside the passage, a trigger part provided near the injection part, and a bent part connecting the rear wall of the standing part and the operation part. And a restricting means for maintaining the fitted state of the valve stem and the stem insertion portion.

8) The regulating means is provided between the rear wall of the standing portion and the bent portion behind the operation portion.

9) The regulating means is a protrusion formed on the rear wall of the tongue.

10) The regulating means is characterized in that the filling member.

First, in the aerosol injection apparatus of this invention, the outstanding pest control effect is demonstrated.

In the present invention, the pest control effect refers to all effects of controlling pests such as insecticidal effect, ability to quickly knock down pests, and ability to evade pests.

According to the present invention, after the injection of the aerosol injector for pest control, the pest control is carried out by using an aerosol injector which gives an injection in which the concentration in the air of the pest control component in the injection space does not decrease for at least 5 minutes. The concentration of the components in the air was kept at a higher level than the conventional air concentration by the aerosol for a long time, whereby an excellent pest control effect was obtained. On the other hand, in the conventional mass injection type aerosol injector, the concentration in the air is high immediately after the injection, but the air concentration of the component is strong in the injection space shortly after the injection, and the effect of the pest control component acting on the pest is small. It becomes insufficient.

This is explained more easily by way of example.

After being injected in the aerosol injection device, the air concentration of the pest control component in the injection air is determined by the amount of the pest control component released from the aerosol injection device. However, if the proportion of liquid formed after the injection from the aerosol injection device is very small, the liquid droplets will scatter immediately after the injection and do not reach the target pest or the pest control component rapidly evaporates in the aerosol injection, but immediately after injection. The concentration in the air reaches its maximum, and the concentration in the air gradually decreases after that by scattering. On the contrary, if the size of the air bubble can be made large, the sprayed liquid drop falls off the spray space before its component is sufficiently released from the liquid drop, and its air concentration in the spray space decreases without increasing so much. Therefore, if the size of the air bubble is in a certain range, the time that the liquid bubble exists in the injection space is long enough, and the insecticide of its components from the air bubble is sufficient, and the concentration in the air in the injection space increases, After some time, it returns to a drop. In this way, when the air concentration increases for a long time, the air concentration of the control component in the injection space is kept at an effective concentration for a long time, and can effectively act on pests. An object of the present invention is to form a state of such an injection product.

However, since the concentration in the air is influenced by the release rate, volatilization rate, and the like of the control component from the liquid drop, the diffusion rate from the spray space, etc., is determined collectively only by the size of the air bubble as described above. no.

In the present invention, in the spray defined as injected from the aerosol injector, the concentration in the air of the pest control component is not reduced for 5 minutes after the injection in the aerosol injector. To achieve the object of the invention.

In addition, in the conventional mass injection type aerosol injector, there is a tendency for a large amount of blockage of the injected surface or the flame length to increase. In the present invention, however, the use of an aerosol injector for imparting a spray which does not reduce the concentration in the air after the spraying for 5 minutes can greatly suppress the increase in the clogging of the treated surface and the increase in the flame length. there was.

After the injection of the aerosol injector for pest control, an aerosol injector in which the concentration in the air of the pest control component in the injection space does not decrease for at least 5 minutes and preferably 7 minutes is preferable.

In the present invention, the concentration in the air of the pest control component in the spray space does not decrease for at least 5 minutes in that the maximum concentration is substantially maintained after the air concentration reaches the increased maximum immediately after injection. The case and the case where the air concentration increases at least 5 minutes immediately after the injection. Preferably, the concentration in the air is increased for 5 minutes.

In the present invention, the "dispersion space" refers to a space surrounded by orbits drawn by particles containing the pest control component injected from the aerosol injection device.

In the present invention, the term "after injection" refers to a time after the injection of the aerosol injection device is completed. The spray means sprayed from an aerosol spray apparatus.

As a means for not reducing the concentration in the air after the injection of the pest control component of the aerosol injection device of the present invention by at least 5 minutes, it is not limited, but preferably, the injection amount of the aerosol is 5 g or more per 5 seconds. At the same time, the volume ratio of the propellant / stock solution in the aerosol is set to 2 or more. Thereby, the said air concentration can be set, the blockage of the process surface and the increase of a flame length are suppressed, and the pest control effect becomes excellent.

In the present invention, by specifying the amount of the propellant and the injection amount with respect to the undiluted solution, the particles containing the sprayed pest control component reach the farther through an appropriate particle diameter, and also have a scattering volume of the propellant. Compared with the conventional product, it becomes very large (for example, about 6 times as large as the conventional product at 2.4 seconds after injection), thereby not only maintaining the effective concentration in the air for a long time, but also excellent in pest control effect, and far from It can also act effectively against pests that are present.

In the present invention, the volume ratio of the propellant / stock solution of the aerosol injector is preferably 2 to 7. In the present invention, the injection amount of the aerosol injection device is preferably 5 to 15 g / 5 seconds. Thereby, the effect of this invention becomes more remarkable.

In addition, another preferred embodiment of the aerosol injector of the present invention is 5) three to five times the volume ratio of the propellant to the stock solution containing the pest control ingredient-forming solvent, and the injection amount of the solvent is 4.0 ml / 10 seconds or more. to be.

In this case, it is more preferable that the aerosol injection device is a mass injection type.

In the above 5), the aerosol is sprayed on the pests by setting the ratio (v / v) of the propellant and the stock solution to a specific range and setting the injection amount of the solvent contained in the stock solution to 4.0 ml / 10 seconds. It has the effect of remarkably suppressing the movement of pests from the place, and can exhibit an excellent insecticidal effect. Specifically, spraying an aerosol injection device toward a pest, in particular, catches a roaming animal such as a wheel, and can stop its activity without moving at all against a highly sensitive type of pest, and effectively control the pest. It can be insecticide.

In the conventional aerosol injection device, even when the injection treatment is carried out, pests may move here and there in the place, so that the injection of the aerosol is continued until its activity is stopped. However, in the form of 5), since the movement of the pest from the place where the aerosol is sprayed on the pest can be suppressed, the number of spraying can be reduced, the consumption of the aerosol can be reduced, and the useless thing is eliminated. Can be. And since pests can be knocked down effectively, the quantity of the aerosol sprayed to surrounding environment is corrected, and the usefulness that contamination of the living environment of a person can be suppressed is acquired.

Here, the inhibitory effect of the pest movement distance after the aerosol injection is different from the simple insecticidal effect (that is, even if the insecticidal effect is excellent, the effect of suppressing the insect pest movement distance after the aerosol injection is not good).

In the form of 5) of the present invention, the injection amount of the solvent is preferably 5.0 ml / 10 seconds or more, and more preferably 6.0 ml / 10 seconds or more. The injection amount of the solvent is not particularly limited as long as it is an amount of the above-mentioned effect as the upper limit, but is preferably about 10.0 ml / 10 seconds.

Moreover, in the form of said 5) of this invention, it is preferable that it is a mass injection type. Thereby, the effect of the form of said 5) is exhibited more effectively. Here, the mass injection type means that the injection amount per unit time is increased by about 3 to 7 times as compared with the conventional aerosol injection amount, and specifically, the total injection amount is preferably 20 to 100 ml / 10 seconds, more preferably. It means that it is 25-70 ml / 10 second.

In the present invention, the injection amount of the whole aerosol and the injection amount of the solvent means an amount injected per 5 seconds or 10 seconds, and the aerosol is injected for 5 seconds or 10 seconds, and the amount or solvent of the injection injected in the meantime is measured It is obtained by doing. Since the injection amount of the aerosol injection device may not be indicated even when the amount of injection per hour shorter than 5 seconds is measured, the injection amount is defined as the standard amount, and the amount injected per 5 seconds or 10 seconds is defined.

Although there is a means for selecting a valve hole diameter or a bottom hole diameter for adjusting the injection pressure or adjusting the injection pressure for the purpose of enabling such a large quantity injection, it is possible to obtain a large quantity injection suitable for the present invention. It is good to select a means.

In the form of said 5) of this invention, the specific ratio (v / v) of an undiluted | stock solution and a propellant, the injection quantity of a solvent, a large quantity injection type, and the relationship with the said effect are explained further, as follows.

(A) A mass spray aerosol injector consisting of 50 ml (50 ml total solvent) and 250 ml propellant containing 0.5 grams of pest control component (proportion of stock solution and propellant, 1: 5.00).

(B) A mass spray aerosol injector consisting of 70 ml of a stock solution containing 0.5 grams of pest control components (total 70 ml in solvent) and 230 ml of propellant (proportion of stock solution to propellant, 1: 3.33).

When the aerosol injection apparatuses of (A) and (B) are compared with the above-mentioned effects, the injection amount is the same (for example, the mass injection type increased by about three times as compared with any conventional one), and the amount of the pest control component in the aerosol is Even if it is the same, (B) will be superior to (A). That is, by increasing the amount of the solvent in the undiluted solution to increase the ratio to the propellant, the injection amount of the solvent becomes larger, and the effect can be further increased.

In addition, in the aerosol injector of (A), when the mass injection type aerosol injector which increased the injection amount (for example, about 5 times) is set to (C), the injection amount of (C) is higher than that of (A). It becomes many, and the said effect becomes more excellent. In the above aspect 5 of the present invention, the greater the injection amount, the better.

In the form of 5) of the present invention, the amount of the pest control component which is an active ingredient does not increase, and in the air of the pest control component which is the active ingredient in the atmosphere after injection as compared with the aerosol spray device which is not included in the form of 5). Although the concentration is almost the same, the movement distance of the pest after spraying can be remarkably suppressed as described above, and its insecticidal effect is also excellent.

This is explained concretely.

The aerosol injection device (Sample 2 of Example 5 described later) and the aerosol injection device (Sample 3 of Example 5) not included in the form of 5) of the present invention are sprayed to The concentration of the pest control component (imiprotrin) was determined.

(How to measure)

A sampling tube containing about 3G silica gel is installed inside the closed chamber. Each aerosol was sprayed for a predetermined time toward the bottom and wall edges in the chamber. In addition, the injection time was set so that the quantity to which the pest control component is injected may be the same in both samples.

At 15 liters / minute in the sampling tube, the air in the chamber is sucked for 3 minutes and the spray particles in the air in the chamber are uniformly trapped in the sampling tube containing silica gel. Sampling was performed up to 20 minutes at predetermined intervals rather than immediately after injection, and the pest control components trapped in silica gel were analyzed using gas chromatography, and the concentration of the pest control components per m 3 was determined by the following equation.

Insect concentration (μg / m 3) = pest control component sequence value (μg) / [sampling flow rate (liters / min) × suction time (min) × 1000]

In the aerosol spraying apparatus of the form of 5) of the present invention and the aerosol spraying apparatus not included in the form of 5), the concentrations in the air of the pest control component as the active ingredient were almost the same.

Thus, although the concentration in the air of the pest control component which is the active ingredient in the atmosphere after the spraying in this manner is almost the same, the sample of the form 5) of the present invention shows the moving distance of the pest after spraying as described below. It can remarkably be suppressed and the insecticidal effect is also excellent. Therefore, the effect of the form of said 5) of this invention is effective not only the pest control component of an active ingredient but also a pest control component, a solvent, a propellant, their quantity and injection amount, and the injection quantity of a solvent correct | acted, and are expressed effectively. will be.

The aerosol injector of the present invention is an aerosol injector capable of controlling pests by repeatedly spraying the contents without spraying the entire contents at once.

In addition, the aerosol injection device in the present invention can also be combined with the aerosol container in which the propellant and the stock solution are encapsulated, and various aerosol caps, and the combination of the trigger type aerosol cap according to the present invention. It is not limited.

Next, the structure of the aerosol injection apparatus which concerns on this invention is demonstrated.

FIG. 2 is a top view of the cap 2 of the aerosol injection device 10 shown in FIG. 1, FIG. 3 is a bottom view of the cap 2 of the aerosol injection device 10 shown in FIG. 1, respectively. 4 is a side cross-sectional view of the cap part 2 of the aerosol injection apparatus 10 shown in FIG. 1, and FIG. 5 is a side cross-sectional view of the state which can be used by peeling off the virgin seal 7. As shown in FIG.

In FIG. 4 which is a side cross-sectional view, the operation part 3 is hold | maintained by the virgin seal 7, and even if the trigger part 34 is inadvertently applied during storage or transport, the nozzle stem 6 is prevented by the operation part 3. It descends and it is no longer sprayed. As shown in FIG. 5, when the virgin seal 7 is removed, the valve stem inserting portion 35 and the valve stem 6 are engaged, and the operation portion 3 is a holding cutout portion 42 of the rib 41. The trigger frame 34 is rotated counterclockwise by pressing a finger on the trigger portion 34 and pulling like a trigger, and the nozzle stem 6 is pressed down.

As can be seen in FIG. 3, in the present invention, the width of the gap is increased so that the disassembly tool can insert the gap 45 at the lower end of the cover circumferential wall 43, so that the tool is inserted thereinto the cap portion ( 2) can be easily removed.

8 shows another embodiment of the aerosol injection device of the present invention.

The aerosol cap 111 of this embodiment has a stem inserting portion 139, a splitting portion 138, a passage portion 137 and a triggering portion 134 communicating the stem inserting portion 139 and the splitting portion 138. The operation part main body 131 and the standing part 119 are included. Moreover, the bottom part 118 of the aerosol cap 111 fits with the mount 5 provided in the upper part of the container 1. The standing part 119 is formed in this bottom part 118 so that the operation part main body 131 may be surrounded by both sides. At the rear of the operation unit main body 131, a bent portion 133 connecting the rear wall 121 of the entrance portion 119 and the operation unit main body 131 is provided. With this structure, the stem inserting portion 139 can press the valve stem 6 as the trigger portion 134 of the operating portion main body 131 is operated, and the aerosol of the container 1 passes through the passage portion 137. It is injected from the splitter 138 through. On the other hand, the virgin seal 117 is formed to be fixed to the side wall edge 120 of the entrance part 119 via the connection piece 116 in the upper part of the operation part main body 131. As shown in FIG. When using an aerosol injection device, this virgin seal 117 is removed and used. In addition, by making the connection portion of the connecting piece 116 thinner and / or thinner so that the virgin seal 117 can be easily peeled off, it is possible to prevent the lifting of the stem insert 139 to the step by being difficult to separate. Injection can be prevented.

The feature of the present embodiment lies in that the restricting means 140 for maintaining the fitting state between the valve stem 6 and the stem inserting portion 139 is fitted into the gap portion of the bent portion 133. In this embodiment, a wedge-shaped protrusion member is used as a regulating means. When the operator peels the virgin seal 117 with his or her finger by this regulating means 140, even if the operator accidentally lifts the operation part main body 131 upward, the regulating means inserted in the gap of the bent part 133 ( Since the 140 restricts the movement of the operation portion main body 131, the inclination of the stem inserting portion 139 becomes small, and the stem inserting portion 139 does not climb on the valve stem 6. In addition, although the wedge-shaped protrusion member was used as the restricting means 140 in this embodiment, the present invention is not limited thereto. For example, in the gap between the bent portion 133, a synchronous member formed integrally with the rear wall 121 or a filling member which is inserted and fixed to the gap between the bent portion 133 may be used. In addition, a fixing mechanism may be provided between the protruding member or the filling member and the rear wall 121 so that the protruding member or the filling member does not fall out from the gap between the bent portions 133.

On the other hand, the aerosol (contents) enclosed in the aerosol container 1 of the aerosol injector of the present invention contains at least a stock solution containing a pest control component and a propellant, and if necessary, a surfactant, a dustproof agent, an effect enhancer, A fragrance, a deodorant, a retention agent, etc. can be mix | blended.

As the pest control ingredient (active ingredient) used in the present invention, insecticides, insect repellents, repellents, blood repellent inhibitors, insect growth regulators (IRGs), anti-larvae hormones, and so-called pests such as tick insecticides, moth insecticides and larvae insecticides Insecticidal, control, and if it has a repellent effect, one or two or more may be mixed according to the purpose or need.

A pyrethroid type compound is mentioned as one of the pest control components used in this invention. As such a pyrethroid type compound, for example, phenotrine (3-phenoxybenzyl d-cis / drance-crysandemat), perumethrin (3-phenoxybenzyl d1-cis / trans-2) , 2-dimethyl-3- (2 ', 2'-diclovinyl) -cyclopropanecarboxylate), resmethrin ((5-benzyl-3-pril) methyl d-cis / trans-methacetate), Areslin (d1-3-aryl-2-methyl-4-oxo-2-cyclobentenyl d1-cis / trans-Chanthanthimat), phthalinsine (1,3,4,5,6,7-hexa Hydrodioxo-2-indorine d1-cis / trans-Chrysanthate), embentrin (1-ethynyl-2-methyl-2-bentenyl d1-cis / trans-Chrysanthate), 1- to Tinyl-2-ethyl-2-bentenyl-2,2,3,3-tetramethyl-cyclopropanecarboxylate, 1-ethyl-2-methyl-2-bentenyl-2,2-dimethyl-3- (2 ', 2'-diclovinyl) -cyclopropanecarboxylate-prarethrin ((+)-2-methyl-4-oxo-3-propargylcyclopent-2-enyl d-cis / trans-crysante Mat), Tefrusrin (2,3,5,6- Tetrafluoro-4-methylbenzyl-3- (2'-chloro-3 ', 3', 3'-tripreoro-1-probenyl) -2,2-dimethylcyclopropanecarboxylate), bent fruit Lean (2,3,5,6-tetrafluorobenzyl-3- (2,2-dichlorovinyl) -2,2-dimenylcyclopropanecarboxylate), imiprotrin ((-)-[2 , 5-dioxo-3- (2-provinyl) -1-imidazoridinyl] menyl (1R, 3R) -prisantemat and (+)-[2,5-dioxo-3- (2- Provinyl) -1-imidazoridinyl] methyl (1R, 3S) -mixture with chrysanthate), (-)-[2,5-dioxo-3- (2-propyvinyl) -1-ita Cookedinyl] methyl (1R, 3R) -Chrysanthate, (+)-[2-5-dioxo-3- (2-propynyl) -1-imidazoridinyl] methyl (1R, 3R) -cris Isomers, derivatives, and chloroplasts of Santemat and mixtures thereof are used, and at least one compound selected from these pyrethroid compounds can be blended into the aerosol for controlling pests.

In addition, organic pesticides or capmate insecticides may be mentioned as other pest control components. For example, as a organophosphorus insecticide, carboxyl insecticides such as phenytrothion, crolupyriose, marrasone, dichloboose, pyrida plicity, and trichlorhon can be exemplified by carboboryl, benpracabble, and propoxel. Can be.

And as a compound (aerobic agent) which enhances the insecticidal effect of a peresoid type compound as one kind of pest control component, for example, piperonyl ptoxide, ocrochlorodipropylethyl, N- (2-ethylhexyl) -1 Isopropyl-4-methylbicyclo [2,2,2] ort-5-ene-2,3-dicarboxoxyimide, isobornylthiocyanoacetate and N- (2-ethynyl) -bicy One or more kinds of compounds selected from cro [2,2,1] -hepta-5-ene-2,3-dicarboximide and the like can be added to the pest control aerosol.

In the present invention, the following tick insecticides can be exemplified as other than the pyrethroid compound, the organophosphorus insecticide and the carbamate insecticide as the tick insecticide component. For example, octachlorodipropylethyl, N- (2-ethylhexyl) -1-isopropyl-4-methylbicyclo [2,2,2] oct-5-ene-2,3-dicarboxoxyimide , Isobornylthiocyanoacetate, N- (2-ethynyl) -bicyclo [2,2,1] -futa-5-ene-2,3-dicarboximide, benzyl benzoate and fatty acid ester Mixtures, N, N-diethyl-m-tramides, trihalomimidazole derivatives, cypresses, essential oils of cedar and hiba, menthol, extracts of Kihada, extracts from pericarp and seeds of aromatics, aromatics Lupenamide Derivatives, Tricyclohexyl Hydroxide, 4,4'-Dibrombenzyl Isopropyl, 2,3-dihydro-2,2-dimethyl-7-benso [b] pranilni-N-diphthylanino Thio-N-methylcarbamate, silane compound, capric acid derivative, cinnamic acid acetate, veproporic acid, isoprothiolane, paraoxybenzoic acid ester, uric acid hormone, henoic acid, futalate ester, 3-bromo- 2,3-iod-2-propenyl-ethyl Isomers, derivatives, softeners and the like of carbonuts, monoterpene ketones, monoterpene aldehydes, morterpene epoxides, saritilate benzyl, saritilate and heyl; One or more compounds selected from pesticidal components can be blended into the pest control aerosol.

Examples of the pest control component include insect hormone inhibitors such as metrene and anti-glaze hormones such as preconcene, and insect hormones or anti-hormone agents such as peeling hormones such as ecdysone.

In addition to the pest control component, various agents can be added. For example, pests and blood fungus repellents, fungicides, insect repellents, deodorants, fragrances, complexes, and the like may be used, and as pests and blood fungus repellents, 2,3,4,5-bis (δ-butylene) -tetrahit Lochruchral, N, N-diethyl-m-toramide, di-n-propylisocincoromate, di-n-phthylacetic acid, 2-hydroxyethyloctyl sulfate, 2-t-phthyl-4- Hydroxyanisole, 3-t-phthyl-4-hydroxyanisole, cycloheximide, β-nitrostyrene-anoacrylonitrile, triptylpitrate hydrochloride, trinitrobenzene-aniline complex, naphthalin, etc. As iron, 2,4,4'-trichloro-2'-hydroxydiphenylethyl, 2,3,5,6-tetrachloro-4- (methyl thruonyl) pyridine, alkylbenzylmethylammonium chloride, benzylmethyl- {2- [2- (P-1,1,3,3-tetramethylphthylphenoxy) ethoxy) ethyl} ammonium chloride, 4-isopropyltronrone, N, N-dimethyl-N'-henyl-N '-(Fluorodichloromethylcho) thruponamide, 2- (4'-thiazolyl) benzimidazole, N- (fluorodimethylmethyl) -phthalimide, 6-acetoxy-2, 4-dimethyl-m-dioxin, isopropylmethylphenol, O-phenylphenol, p-chloro-m-kisylenol and the like are used, and as a deodorant, such as lauryl acid methacrylate, and as a fragrance, rush oil, citronella oil, lemon oil, lemon glass oil, orange oil, yukari Oil, lavender oil, etc. can be mix | blended.

As addition amount in the aerosol of the pest control component used by this invention, 0.01-1.0 weight / volume (wt / v)% with respect to a solvent is preferable.

What is necessary is just to melt | dissolve the said pest control component as an undiluted | stock solution of an aerosol, and if it is used for cosmetics, aerosol, etc. as that solvent, it will not be limited at all. For example, water and an organic solvent are mentioned.

In the present invention, the organic solvent is not limited at all as long as it is an organic solvent conventionally used for aerosols. For example, Aliphatic hydrocarbons, such as hexane, a kerosene (kerosene), n-pentane, iso-pentane, a cyclopentane; Aromatic hydrocarbons such as benzene, toluene and xylene; Halogenated hydrocarbons such as dichloromethane and carbon tetrachloride; Alcohols such as ethanol, isopropyl alcohol and ethylene glycol; Ethers such as acetone, methyl methyl ketone and diethyl ether; Esters such as ethyl acetate and isopropyl myristic acid; Nitriles such as acetonitrile; Acid amides such as dimethylhollium amide; Plants, such as a soybean oil and cottonseed oil, etc. are mentioned, The 1 or more types of compound chosen from these organic solvents can be mix | blended.

As the solvent in the present invention, deoxygenated water and the like are also used in addition to purified water or deionized water conventionally used. In particular, when deoxygenated water is used, it is useful also from the viewpoint of rust prevention of an aerosol container. In the case of using purified water or deionized water, the aerosol container needs to be rusted, and thus, a buffer component for blending anticorrosive components such as sodium benzoate, sodium zincate, sodium cyanate, and ammonium cyanate, or adjusting pH is used. For example, sodium phosphate-sodium phosphate, ammonium benzoate-sodium hydroxide, sodium benzoate-benzoic acid, ammonium benzoate-ammonia water, ammonium benzoate-ammonia water, ammonium benzoate-benzoic acid, dipotassium phosphate-sodium hydroxide, sodium sodium phosphate , A combination of trismaleate-sodium hydroxide and sodium carbonate-sodium bicarbonate is preferably added. Moreover, when using the container which coated the inner wall with various synthetic resins when filling the aerosol for pest control of this invention, it does not need to consider the viewpoint of rust prevention.

In the case of using water as a solvent, since most of the pest control components are poorly water-soluble or non-water-soluble, emulsification and dispersion in water and solubilization are carried out by using a solvent compatible with surfactants, water and organic solvents. As surfactants, sorbitan monooleate, sorbitan monostearate, sorbitan monolaurate, sorbitan trioleate, polyoxyethylene monooleate, polyoxyethylene nonylholnium ethyl, polyoxyethylene cured himashi oil, tori Polyoxyethylene alkyl ether, 1,3- styrene glycol, dicaglycerine monorate, diglyserine monolate, propylene glycol dioleic acid, polyoxyethylene stearyl amide, polyoxyethylene polyoxypropylene glycol, sorbitan Cescite, polyoxyethylene (2) lauryl ether, diglyceryl monooleate and hexacliserine polylysinate, lauroyl glutamic acid octyl dodecyl ether, styryl alcohol, lanolin fatty acid, polyvinyl pyro One or two or more compounds selected from lidones can be exemplified. These compounds belong to surfactants. In general, surfactants, like other polymeric compounds, are composed of mixtures of different degrees of polymerization. In addition, the name of the said mixture is represented by the name of the most compound in this mixture for convenience. As such, the first examples of the name of the dispersing aid in the present invention include not only surfactants released under these names, but also compounds similar to those described below for properties, states or specifications thereof. For example, in the case of sorbitan seskolate, it is sufficient to display properties and conditions almost similar to those of NOKKOL SO-15R of chemistry. The compounding quantity in this case is 0.1-5.0 wt / v%, Preferably it is 0.5-2.0 wt / v%.

Moreover, propylene glycol, a propanol, a butyl diglycol etc. are mentioned as a solvent compatible with water and an organic solvent. In this case, the compounding amount is 10 to 80 wt / v%, preferably 40 to 60 wt / v%. By using these in solvents other than water as needed, emulsification, dispersion, and solubilization can be made more excellent.

In the form 5) of the present invention, the solvent is preferably an organic solvent, more preferably alcohols, aromatic hydrocarbons or aliphatic hydrocarbons. More preferably, C10-C16 aliphatic hydrocarbons are mentioned.

The content of the solvent in the present invention is not limited as long as the effects of the present invention can be obtained, but is preferably 8 v / v% to 40 v / v% in the aerosol.

As content of the solvent in the said aspect 5) of this invention, as long as it satisfy | fills the ratio of the said undiluted | stock solution and a propellant, and the propellant of a solvent is the said range, it may be said, but it is 16 v / v%-25 v in an aerosol as a target. / v% is preferred. By setting it as content of such a solvent, the effect of this invention can be expressed more effectively.

Moreover, in this invention, fragrances, such as lemon oil, an orange oil, yukari oil, and lavender oil, deodorant, such as lauryl methacrylate, can be mix | blended as needed.

As a propellant which can be used for this invention, what is generally known can be used.

As the propellant in the present invention, for example, liquefied petroleum gas (LPG), propane, n-butane, iso-butane, n-pentane, iso-pentane, cyclopentane, chlorine free gas, dimethyl ethyl DME, nitrogen gas, liquefied carbon dioxide gas, etc. are mentioned. Examples of the proton gas containing no chlorine include HFC-125, HFC-134a, HFC-143a, HFC-152a, and HFC-32.

This can be used individually or as a mixture of 2 or more types, It contains 2 times or more, Preferably it is 2-7 times in volume ratio with respect to a stock solution.

In the case of the said Embodiment 5) of this invention, 3-5 times are preferable.

As the holding agent, kerosene, 1,1,1-trichloroethane, methylene chloride, trichloromonofluoromethane, carbon tetrachloride, 1,1,2-trichloro-1,2,2-trifluoroethane, chloro Holium, ethylene chloride, 1,1-dipromo-1,1,2,2-tetrafluoroethane and the like.

Here, although the prescription example (300 ml aerosol) of the aerosol enclosed in the container by this invention in Table 1 is shown, the content of this invention is not limited to this.

TABLE 1

As a control object in this invention, it corresponds generally to the pest which reproduces indoors and outdoors, and indoor mites. Examples of pests reproduced indoors and outdoors include sanitary pests or domestic pests. For example, as sanitary pests, gork fries (chabanegok fries, crogok fries, wamon gok fries, etc.), hae ryu (ieeba, crovae, nickvae, etc.), karyu (ieca, yafka, Shima) Car, etc.), shiramiri, and noma are exemplified, and as living pests, shiroari (aurari), croissant, kmo, hati, gemushi, mukkade, gedigedi, yasude, sibangmushi, ari Katabati, Yusrika, Choubae, Kamemushi, Yokobai, Kikimushi, Damgoshishi, Waradimushi, Kum, Iga, Koiga, Katsuoffushimushi, and twin Kaga, etc. can be illustrated. In addition, as indoor holy Daniru, the breeding and breeding indoors, the hike such as yake huhidani, the kiganadani, the gandani such as arsenal and so on, the nickini such as Tirnik and Ininik dani Examples include zumedanis such as ryu, tuzmedani, and minamitsumedani, hogoridanis, sararadanis, iedani, dorisashidani, wakmo, and madanis.

The aerosol injection device of the present invention is particularly effective in the case of the form of the above 5) against pests having high quasi-sensitive roaming behavior such as gokipri.

In addition, if the aerosol injection device according to the present invention satisfies the above characteristics of the present invention, a combination of an aerosol-filled aerosol container and various aerosol caps as a configuration for injecting aerosols is possible, and one of the features of the present invention There is no limitation in combination with the in-triggered aerosol cap.

Hereinafter, although an Example demonstrates this invention still in detail, this invention is not limited to this.

Example 1

Active ingredient when spraying the aerosol spraying apparatus which enclosed the aerosol of the prescription number 3 shown in the said Table 1 in the container 1 of the apparatus of FIG. 1, and the aerosol spraying apparatus of the conventional product a shown in following Table 4 The following test was carried out to determine the concentration in thallin) in the air. In addition, the conventional product a contains an aerosol for controlling insect pests comprising a stock solution obtained by adjusting the pest control components (450 mg of phthalinsrin and 60 mg of resmethrin) to 120 ml with No. 1 kerosene, and 180 ml of a propellant composed of LPG and DME. 2.3g / 5 seconds. The injection quantity of the aerosol injection apparatus (this invention) of this invention is about 6g / 5 second.

In the 1.8 m 3 chamber, a sampling tube (ψ 15 mm x 100 mm, silica gel about 6.0 g) was attached at a position corresponding to the center of the chamber at a height of 1 m from the bottom surface. Each aerosol is sprayed for 5 seconds from the injection window (approximately 1.6m in height), sampled air at a rate of about 18 liters / minute every 3 seconds in the air sampling tube at regular intervals immediately after the injection, and traps particles in the air. did. The sampling tube was installed in the injection space referred to in the present invention.

Sampling was carried out for 1 hour immediately after injection, and the active ingredient trapped in the sampling tube was analyzed by gas chromatography. The concentration of phthaline in air (µg / m 3) is represented by the formula: concentration in air (µg / m 3) = 1000 × analysis value (µg) / [sampling flow rate (liters / minute) × 3 (minutes)) / ㎣) Saved by.

The result is shown in FIG. As shown in Fig. 12, the concentration of phthalinsine in the air of the present invention was shorter after the injection than that of the conventional product a, but rose to 7 minutes after the injection, and became higher than the conventional product thereafter. This indicates that the spray space is maintained for a long time in a state where the air concentration is high, and the insecticidal effect is significantly improved.

In the present invention, the proportion of the propellant increases, so that the sprayed active ingredient has an appropriate particle diameter, which is considered to have a significant influence on the concentration or insecticidal effect in the air of this component.

On the other hand, when the characteristic of the particle | grains sprayed using the said this invention product (prescription No. 3) was measured, the particle | grains of the particle diameter of 11 micrometers or less were contained in 32.3 +/- 5.8 (%) of the sprayed particles.

Moreover, the flying volume of the sprayed material after the injection of each aerosol was measured using the said this invention product (prescription number 3) and the said prior art a. The measuring method injects each aerosol, measures the volume occupied by the ejected droplet (the volume of the space enclosed by the orbit where the droplet is drawn), and shows the result in FIG. 13.

As shown in Fig. 13, the present invention had a significantly larger flying volume in comparison with the conventional product a over time, and was about 6 times as large as the conventional product a after at least 2.4 seconds. From this result, it is understood that the concentration in the effective air of the pest control component is present over a wide range, and it shows that the insecticidal effect is significantly improved.

Example 2

The following efficacy test was done about the aerosol injection apparatus for pest control of this invention.

Moreover, the injection amount of this invention is about 6 g / 5 second, and the aerosol injection apparatus of the conventional product a was used as a comparative example.

(Method and result)

A stainless steel gauge (250 mm × 250 mm × 250 mm) containing 20 zip flies (male / female = 1: 1) is lowered from the ceiling, and the aerosol injection device is positioned at 1 m, 1,5 m, and 2.0 m at a horizontal distance from the center of the gauge. Was injected for about 1 second, and the test which observed the knock-down number of housefly and the mortality rate (%) after 24 hours was performed and averaged about 2 times. The results are shown in Table 2 below.

TABLE 2

As is apparent from Table 2, the present invention shows excellent effects in fastness and lethality as compared with the conventional product a. Moreover, the pest control effect of this invention is maintained even if it becomes a long distance. This is considered to be because the particle characteristics of the sprayed particles of the present invention are appropriate and the spray reaches farther.

The conventional article a, the comparative article which increased only the injection quantity of the conventional article a (6.0 g / 5 second), and the aerosol (Table 1, prescription Nos. 1 to 4 described in Table 3) shown in Table 3, the container 1 of the apparatus of FIG. In order to compare the degree of contamination to the treatment surface using the aerosol injection device (the present invention) enclosed in the inside, a blank sheet is placed on a flat surface and each aerosol injection device is sprayed for 2 seconds from a distance of 20 cm. The degree of contamination of the white paper was compared by area (length cm × width cm). In addition, the flame length was measured. The results are shown in Table 3.

TABLE 3

^{* 1} The numerical value in parentheses of the flame length indicates the return length from the source.

^{* 2} Contamination of copy paper when spraying for 2 seconds from a distance of 20 cm

In addition, in order to compare the control effect on the housefly using each aerosol injection device described in Table 3 above, the stainless steel gauge (250mm × 250mm × 250mm) containing the housefly was lowered from the ceiling, and 75 cm at a horizontal distance from the center of the gauge. Each aerosol injection device was injected for 1.5 seconds at the position of, and each test was performed to observe the knockdown number of the housefly and the mortality rate (%) after 24 hours each time. The results are shown in Table 3.

As shown in Table 3, the present invention showed that even if the injection amount was increased, the contamination of the wall surface was about the same as that of the conventional product a with a small injection amount, and the increase in the flame length was also suppressed. Moreover, in this invention, the return length from the flame source of flame length is also suppressed.

From the results of Table 3, in the present invention, when the injection amount per unit time was made constant, the tendency to decrease slightly appeared as the amount of the undiluted solution with respect to the insecticidal effect, but the insecticidal effect was completely good.

By the above, the conventional product a is a level which can be relatively satisfactory with respect to contamination and flame length, but the insecticidal effect is remarkably deteriorated, and the comparative product is a level which is relatively satisfactory with respect to the insecticidal effect, but remarkably deteriorates with respect to contamination. . Therefore, it turns out that the conventional products a and the comparative product cannot improve both the pollutability, the flame length, and the insecticidal effect.

On the other hand, the present invention obtained excellent effects in any of the contaminants on the wall, the flame length and the insecticidal effect. In particular, when the propellant / stock solution ratio is 200/100 (2 times) to 260/40 (6.5 times), it may be better in terms of insecticidal effect.

Example 4

Next, in the aerosol injection apparatus of this invention, the insecticidal control effect in actual use condition was tested.

About 100 male and male (1: 1) fly flies (all systems) were unpacked in a chamber of 1.8 m 3, and left for a while, and then each aerosol jetting apparatus shown in Table 4 (the apparatus shown in FIG. 1 was used) Was injected for 1.7 seconds toward the fly scattered in the chamber. From the start of injection, the number of flies knocked down every elapsed time and the mortality rate (%) after 24 hours were measured. The results are shown in Table 4 below.

TABLE 4

As shown in Table 4, the present invention exhibited excellent effects in fastness and lethality, and also exhibited excellent pest control effect, even in the actual use state, compared with the conventional products a to c. This shows that the action and effect of the aerosol injection apparatus of this invention are fully exhibited even in actual use conditions.

Example 5

(Test of moving distance after spraying of pest)

(1) Preparation of test sample

[Sample 1] (stock solution: propellant = 1: 3.44 (v / v))

As an aerosol (300 ml total), 67.5 ml of a stock solution (No. 1 kerosene as a solvent) containing an insecticide (0.6 wt% of imiprotrin) and 232.5 ml of a propellant (DME and LPG, ratio 54.5: 45.5) are shown in FIG. The aerosol container was filled.

And the mass injection type | mold aerosol injection apparatus adjusted so that injection amount might become 27 ml / 10 second was obtained. Here, the injection amount of the solvent is 6 ml / 10 seconds. Here, the air concentration of the pest control component after spraying rose more than 5 second.

[Sample 2] (stock solution: propellant = 1: 3.44 (v / v))

As aerosol (300 ml of total quantity), 67.5 ml of the stock solution (No. 1 kerosene as a solvent) containing insecticide (Imiprotrin 0.6 wt%) and 232.5 ml of propellant (same as sample 1) are shown in FIG. Charged on.

And the mass injection type | mold aerosol injection apparatus adjusted so that injection amount may become 45 ml / 10 second was obtained. Here, the injection amount of the solvent is 10 ml / 10 seconds. Here, the air concentration of the pest control component after spraying rose more than 5 second.

[Sample 3] (stock solution: propellant = 1: 1.22 (v / v))

As an aerosol (300 ml total), 135 ml of a stock solution (No. 1 kerosene as a solvent) containing an insecticide (Imiprotrin 1.5% by weight) and 165 ml of a propellant (the same as Sample 1) were filled in the aerosol container shown in FIG. did.

And the aerosol injection apparatus adjusted so that injection amount might be 9 ml / 10 second was obtained. Here, the injection amount of the solvent is 4 ml / 10 seconds. Here, the air concentration of the pest control component after spraying rose more than 5 second.

[Sample 4] (stock solution: propellant = 1: 5.67 (v / v))

As an aerosol (300 ml total amount), 45 ml of a stock solution (No. 1 kerosene as a solvent) and a propellant (same as sample 1) containing an insecticide (0.9 wt% of improprorin) are filled into the aerosol container shown in FIG. did.

And the aerosol injection apparatus adjusted so that injection amount might be 27 ml / 10 second was obtained. Here, the injection amount of the solvent is 4 ml / 10 seconds. Here, the air concentration of the pest control component after spraying rose more than 5 second.

(2) specimens

Adult male chromoquifree and adult male chabernegoki were used as tests.

(3) test method

Imitation paper with a concentric circle with a radius of 10 to 70 cm is placed on the bottom surface of a chamber with a volume of 35 m2, and a cylinder (20 cm in diameter and 45 cm in height) containing 10 specimens is installed at the center of the circle, and the top of the cylinder is 5 cm in the center. It was made into a lid with a hole in it. Next, the sample was sprayed from the lid hole for 6 seconds, and then the cylinder was immediately removed, the situation of the specimens on the concentric circles placed on the bottom was observed, and the moving distance from the concentric center was measured (see FIG. 14). ).

Regarding the moving distance of the test insects (cm), the MD 50 value (the distance moving from the center of the circle until 50% of the test insects knocked down) and the MD95 value (moving from the center of the circle until 95% of the test insects knocked down) Distance).

In addition, the knocked down specimens were transferred to a separate container, and the observation was continued. The mortality rate (%) was also calculated 24 hours after the injection.

In addition, the test result was shown by the average value of the value at the time of performing the said test twice.

The outline | summary of this test is shown in FIG. 14, and a test result is shown in Table 5. FIG.

TABLE 5

Effect on Krogokee Free

Injection time is 6 seconds

(4) test result

In the effect (Table 5) on the crogoki free, the aerosol injection device of the above-mentioned form 5) of the present invention, both of the samples 3 and 4, the moving distance of the crogoki free after the injection is significantly smaller, Its insecticidal effect was also sufficient.

Sample 4 is a mass injection type aerosol within the range of the embodiment 5) of the present invention, but since the ratio of the stock solution and the propellant is out of the range of the embodiment 5) of the present invention, the chromoquifree after the injection Movement distance has become large.

When the said test was also performed to the chabernegok pre, the same result as the above was obtained, and the sample 1 and 2 of the said aspect 5 of this invention were remarkably small, and the insecticidal effect was also sufficient.

Example 6

(Knockdown test)

Using samples 1 and 2, samples 3 and 4 used in Example 5, KT50 (time of 50% of knockdown of seconds) and KT90 (time of 90% of knockdown of seconds) and 24 hours Post mortality was measured. Measurement methods and evaluation methods are shown below.

An overview of the knockdown test is shown in FIG. 15. 10 crogokipres (species 12) are put into a cup 11 (diameter 10 cm, depth 10 cm). The cup on which the chromoquifree was placed is inclined with respect to the bottom surface, and each sample (sample 13) is sprayed for 1 second at a distance of about 50 cm from the cup 11 and a height of about 40 cm from the bottom surface.

Immediately after spraying, the crocoki friepris are transferred to an observation vessel (50 cm in diameter and 12 cm in height), and the knock down number of crocoki frie is recorded over time. In addition, after the observation of knockdown, the crocokipri was moved to a separate clean container, and food and water were supplied to record the mortality rate after 24 hours.

These results are shown in Table 6 below.

TABLE 6

Knockdown test

Referring to Table 6, Samples 1 and 2 of Form 5) of the present invention are compared with Samples 3 and 4, and are found to be remarkably superior in KT50 and KT90 values. Moreover, when the sample 1 and the sample 2 of the said aspect 5) of this invention are compared, it turns out that two samples with more injection volume of a solvent are excellent.

As described above, in the aerosol injection apparatus of the present invention, since the tool is inserted therein by making the interstitial portion at the lower end of the main wall of the cover portion of the aerosol cap, the cap can be easily peeled off. Further, the present invention restricts the deformation of the operation unit body by inserting the restricting means between the poles of the bend and / or making the connection fine and / or thin, so that the insertion state of the valve stem and the stem insert is maintained, and the stem insert is a valve. It is not put on the stem.

Moreover, the aerosol spraying apparatus of this invention is a pest control aerosol spraying apparatus which can obtain the outstanding pest control effect, and can suppress the increase of a flame length, and the contamination of a process surface is small in the case of a mass spraying type. In addition, compared to the conventional aerosol injection device, the particle characteristics injected are appropriate, the scattering volume of the active ingredient is large, the reach of the active ingredient is extended, the concentration in the air is maintained for a long time, and excellent pest control effect ( A conflicting effect, a pest suppression effect, etc.) can be obtained.

Claims (10)

A container filled with an aerosol containing at least a stock solution containing a pest control component and a propellant; A valve stem protruding from the top of the vessel and An operation portion inserted into the valve stem and having a passage communicating with the outside of the valve stem, An aerosol in the container is injected to the outside by operating the operation section, and the sprayed substance is characterized in that the concentration in the air of the pest control component does not decrease for at least 5 minutes in the injection space. The aerosol injection device according to claim 1, wherein a reduction rate of the concentration in the air is 10% or less for at least 5 minutes after the concentration in the air of the pest control component after the injection reaches a maximum value. The aerosol injection device according to claim 1 or 2, wherein the propellant is blended at least twice by volume with respect to the stock solution containing at least the pest control component, and the injection amount is 5 grams or more per 5 seconds. The aerosol injection device according to any one of claims 1 to 3, wherein the injecting body is blended two to seven times by volume with respect to the stock solution containing at least the pest control component. The aerosol injecting apparatus according to claim 1, wherein the propellant is blended three to five times by volume with respect to the stock solution containing at least the pest control component, and the amount of the solvent injected is 4.0 ml or more per 10 seconds. According to claim 1, The aerosol injection device further comprises an aerosol cap including a cover portion and the operation portion for fitting with the mount installed on the top of the container, The operation portion has an injection portion located on the outer side of the passage, a trigger portion provided near the injection portion, a mounting plate located on the opposite side of the trigger portion, and a mounting frame formed at the tip of the mounting plate. The frame is held in a holding cutout at the lower end of the support rib at the rear end side of the cover part, and the interstitial part at the lower end of the mounting frame side of the circumferential wall of the cover part is suitable for insertion and operation of the removal tool of the cover part. An aerosol injection device, having a sufficient width. The aerosol injection device according to claim 1, further comprising an aerosol cap including a bottom portion fitted with a mount installed on an upper portion of the container and a tongue portion standing up to surround the operation portion at both sides thereof at the bottom portion, The operation portion has a stem insertion portion inserted into the valve stem, an injection portion located outside the passage, a trigger portion provided near the injection portion, and a bent portion connecting the rear wall of the tongue and the operation portion, And a restricting means for maintaining the fitted state of the valve stem and the stem insertion portion. 8. The aerosol injection device according to claim 7, wherein the restricting means is provided between a rear wall of the standing portion and the bent portion behind the operation portion. The aerosol injection device according to claim 8, wherein the restricting means is a protrusion formed on a rear wall of the tongue. The aerosol injection device according to claim 8, wherein the regulating means is a filling member.