KR20130130187A - Vaporizer for pest control agent - Google Patents

Abstract

The present invention relates to a disinfectant vaporizer which promotes vaporization and diffusion of a disinfectant by penetrating the air in between disinfectant impregnated absorbers. The vaporizer according to the present invention has blocked side and upper surface in order to prevent the mixing of the external air and the disinfectant, and comprises by repeatedly laminating a mesh which is capable of well penetrating the air and a felt which absorbs the disinfectant; and includes an absorber which has more than one air hole which penetrates the upper and lower side of the laminated felt and mesh; a case which has multiple air hole in the bottom of the case. The disinfectant vaporizer of the present invention has an effect of increasing the disinfecting rate without harming the honeybee or larva by enhancing the vaporization and diffusion of the disinfectant by well penetrating the air in between the absorbers which is impregnated with a formic acid which has decreased toxicity by using less than 30% of the formic acid.

Description

Vaporizer for Pest control agent

The present invention relates to a carburetor in which the side and top of the casing is blocked so that the pest control agent is mixed with the outside air. More specifically, the structure of the pesticide vaporizer is simplified to facilitate the use of the pesticide and the absorber impregnated with the pesticide agent. The present invention relates to a pesticide vaporizer which allows air inside a fire to pass well to promote vaporization and diffusion of the pesticide.

In general, the beekeeping industry refers to the use of honey bees to produce honey and beeswax. In recent years, beeswax, pollen and bee venom poisons The production sector is diversified, from the production of bongbong, or bongbong, to Jongbong livestock industry, queen bee farming industry, lease beekeepers, or planned beekeepers.

In addition, the bee farming industry is a business that adds new economic value by collecting flowers honey and pollen from flowers using bees, and that sweeteners are substituted for sugar and medicinal as health care. Its value is very important in that it is used as a food and nutritional agent, as a raw material for industrial and cosmetics, and to increase the loss rate of crops as a pollen medium of crops.

On the other hand, the pests that inhibit productivity in the beekeeping industry include bee varieties (Varroa jacobsoni) and Tropilaelaps clareae, which are parasitic attached to the body of bees and their larvae. The fluid is sucked and further hatched in the body of the bee larva. As a result, the population grows exponentially, and the forces of the Bong-gun are drastically reduced, and ultimately these pests are causing enormous damage to the bee farms. Therefore, in order to reduce such damage, bee farms are focusing on eradicating pests of bees using various pest control agents.

Currently, bee farming uses formic acid, or formic acid, as its pest control agent.

The formic acid, as its name suggests, is a natural acid obtained by distilling ants or extracted from plants such as nettles. It is an environmentally friendly pest control agent that does not have residual toxicity and does not have problems such as drug resistance. Let's do it. However, since the formic acid is a strong acid, there is a risk of blindness or burns when the eye or the body is in direct contact with the body, so it is inconvenient to work with safety devices such as safety glasses or rubber gloves. Therefore, in general bee farms, a large amount of formic acid is injected into the occluding body in the carburetor in one operation, and the formic acid vaporizer in which the formic acid injected into the occluder can be vaporized in the beehive for a long time is used.

Conventional pest control vaporizer has a structure to control the pest by reducing the amount of formic acid stored in the occluded body to evaporate for a long time, and the vaporized formic acid is diffused to the consumption that is placed beneath through the vent formed in the lower part Have At this time, in order to control the pests in consumption while reducing the amount of formic acid vaporized for a long time, formic acid can be used to obtain a control effect.

However, if a pesticide preparation containing 60% or more of formic acid is injected into the occlusion body in an appropriate amount or when the vaporization temperature is changed due to a change in temperature, the formic acid solution stored in the occlusion body flows directly to consumption, which is harmful to bees and larvae. There was a problem to add.

Therefore, in order to solve the above problems, the use of formic acid is reduced so that the toxicity of the formic acid is lowered so that the formic acid does not harm the bees or larvae even if the formic acid flows into the honeycomb, while promoting the vaporization and diffusion of the formic acid. There is an urgent need for new ways of exterminating pests to maximize pest yields to increase pest control rates.

However, when the pest control agent having a low content of formic acid is used in the conventional pest control vaporizer, the vaporization amount of the formic acid is small so that it is not possible to control the pests, and further, a blower or a heating wire is further installed to promote the vaporization and diffusion of the formic acid. As it should be, not only structurally very complicated, but also has a problem that is very inconvenient to work.

The present invention has been made in order to solve the conventional problems as described above, the object of the present invention is to reduce the use of formic acid to promote the vaporization and diffusion of pest control agents to lower the toxicity to harm bees or larvae The purpose of the present invention is to provide a pest control vaporizer that can increase the control rate of pests.

In order to achieve the above object, the pesticide vaporizer according to the present invention is provided with a repetitive laminated nonwoven fabric and air-permeable mesh to absorb the pest control agent, at least one penetrating the upper and lower surfaces of the laminated nonwoven fabric and the mesh It is characterized by consisting of a case formed with a plurality of through-holes formed in the absorbent material and the body and the body formed with a vent hole.

The case is provided with a receiving portion having an upper portion opened therein, and a plurality of through holes communicating with the receiving portion are formed on the lower surface of the case, and a jaw fixing the absorbent between the upper surfaces of the through holes, and the upper surface of the receiving portion of the body being opened. The case is provided by covering the cover, and a protective net is provided on the outer surface of the bottom through hole of the case.

According to the pesticide vaporizer according to the present invention, the increased air temperature inside the firefighting agent passes through the absorbents impregnated with the pesticides with a large amount of formic acid lowering the toxicity to 30% or less, thereby facilitating the vaporization and diffusion of the pesticides. It does not harm bees and larvae, and the extermination rate of pests is effective to increase the control efficiency by using a large amount of dose without external air mixing.

In addition, the pest control vaporizer according to the present invention is very easy to inject the pest control agent into the absorbent material so that the structure is simple so that the side surface and the upper surface of the cover is blocked to increase the efficiency of the external air is not mixed, the pesticide vaporizer Since pesticides using formic acid less than 30% is used, it is safe for the human body to work without wearing safety devices such as safety glasses or rubber gloves, thereby providing convenience of working.

1 is an exploded perspective view showing an embodiment of the pesticide vaporizer according to the present invention, Figure 2 is an enlarged cross-sectional view showing the absorbent material in the pesticide vaporizer according to the present invention.

As shown, the pest control vaporizer according to the present invention includes an absorbent material 100 and a case 200.

As shown in FIG. 2, the absorbent material 100 is formed by repeatedly stacking a nonwoven fabric 110 that absorbs a pest control agent and a mesh 120 that allows air to pass through.

The absorbent material 100 absorbs a pest control agent using formic acid at 30% or less.

At this time, the absorbent material 100 is formed of a multi-layer nonwoven fabric 110 can sufficiently absorb the appropriate amount of pest control agent. Impregnating a pest control agent to the multilayered nonwoven fabric 110 is compressed between the nonwoven fabric 110 and the nonwoven fabric 110 does not pass the air well. Therefore, the mesh 120 through which the air passes well between the nonwoven fabrics 110 so that the air passes well between the nonwoven fabrics 110 and the nonwoven fabrics 110 even when the pest control agent is impregnated.

In addition, the nonwoven fabric 110 and the mesh 120 are formed in one or more vent holes 130 penetrating through the upper and lower surfaces in the absorbent material 100 is repeatedly stacked.

The vent hole 130 is to maintain the temperature between the consumption of 33 ℃ to 35 ℃ so that the warm air passes through the vent hole 130 of the absorbent material 100 to facilitate the vaporization and diffusion of formic acid .

That is, the absorbent material 100 is not only for absorbing the pest control agent, but also puts the mesh 120 between the nonwoven fabrics 110 stacked in multiple layers to allow air to pass between the laminated surfaces of the nonwoven fabrics 110. In addition, by forming a vent hole 130 penetrating the upper and lower surfaces of the absorbent material 100, the warm air rising from the lower consumption container 450 is absorbed while passing through the fine vent hole 130 in the absorbent material 100 Since the pest control agent is vaporized as much as possible to diffuse, it is made of a structure that maximizes the amount of vaporization of the pest control agent impregnated in the absorbent (100).

The case 200 accommodates the absorbent material 100 between the lower surface of the through hole, and the absorbent 100 is formed to be fixed to the upper surface provided with the absorber 100.

When the bottom of the body 210 is placed on top of the consumption, the bottom surface of the body 210 is raised from the consumption 400 to the central side through hole 212 formed in the bottom of the body 210 communicated with the warm air in the case Air cooled in the upper and side surfaces is preferably downward to be introduced into the same side through-hole.

On the other hand, the case 200 is made of a mesh shape as shown in Figure 3 is the absorber contained therein is exposed to warm air to the maximum to cover the outer bag-shaped vinyl bag so that the pest control agent is vaporized to the evaporation efficiency efficiency It can be increased.

And it is preferable to install a protective net 300 to prevent the bee is introduced into the case from the outer surface of the through-hole 212 or the lower surface of the case 200 and the bee absorbent (100).

Hereinafter will be described the action of the pest control vaporizer according to the present invention.

4 is a cross-sectional view showing a pest control vaporizer according to the present invention installed in a small box.

As shown, the pesticide vaporizer is installed in the case 400 and the cover 400, the one or more absorbents impregnated with the pesticide diluted with less than 30% formic acid is contained in the case 200 and the cover 220 is installed on the consumption 400 do.

Therefore, the pest control agent naturally dissipates due to the air convection in the small box 500, and the warm air rising from the consumption 400 is absorbed while passing between the fine vent holes 130 and the nonwoven fabric 110 of the absorbent material 100. The pest control agent is vaporized as much as possible to diffuse into the consumption container 450.

At this time, the formic acid is diluted to less than 30% by using a pest control agent to lower the toxicity, and the pest control agent is vaporized to the maximum (450) to spread so that the efficiency does not fall without mixing the outside air into the consumption (450) box, the control rate of the pest is increased while the bees The larvae are harmless.

In addition, since the structure of the pesticide vaporizer is simple, the operation of injecting the pesticide into the absorbent material 100 is very simple and convenient. Since the pesticide vaporizer uses a pesticide using less than 30% of formic acid, safety glasses or rubber gloves, etc. Even if you work without wearing a safety device of the human body is to provide the convenience of work.

On the other hand, the present invention is not limited to the above-described specific embodiments, it can be carried out by various modifications and variations within the scope not departing from the gist of the present invention.

It will be obvious that such modifications and variations are included in the appended claims.

1 is an exploded perspective view showing an embodiment of the pest control vaporizer according to the present invention.

Figure 2 is an enlarged cross-sectional view of the absorbent in the pest control vaporizer according to the present invention

Figure 3 is a perspective view showing another embodiment of the pest control vaporizer according to the present invention

4 is a cross-sectional view showing a state in which the pest control vaporizer according to the present invention is used.

Description of the Related Art [0002]

100: absorbent material 110: nonwoven fabric 120: mesh 130: vent 200: case 210: body

211: Receptacle 212: Through hole 220: Cover 230: Supporting jaw 300: Protection net 400: Consumption

450: consumption 500: small box 600: cotton cloth

Claims (3)

A pesticide vaporizer comprising: a nonwoven fabric absorbing a pesticide agent and a mesh for allowing air to pass through repeatedly, and an absorbent material having one or more vent holes penetrating the upper and lower surfaces of the laminated nonwoven fabric and the mesh. According to claim 1, wherein the case is provided with an upper portion of the receiving portion is open in the inner side of the case is a case upper cover provided with a center side warm air suction and a plurality of through-holes communicated into the mouth and the remedy downward to the same side of the through-holes Pest control vaporizer characterized by a case made of According to claim 1 or 2, the pesticide vaporizer characterized in that the outer surface of the through-hole case is provided with a bee entrance prevention and absorbent damage prevention net is installed.

Images