KR101648125B1 - Attractant evaporator for insect captor and the insect captor using the same - Google Patents

Abstract

The present invention relates to an insect pest control apparatus for insect pest control, which is installed in an insect inflow collecting apparatus for collecting insects such as fly moth or moth attracted by an attractant, continuously supplying an appropriate amount of evaporating fluid to the attractant, The present invention relates to a pest collecting apparatus and a pest collecting apparatus using the same,
The present invention provides an inhaler evaporation apparatus for a insect trapping apparatus, which is disposed in a insect trapping apparatus having a trapping apparatus and evaporates the attracting agent to attract insects,
The induction evaporation apparatus includes an evaporation fluid reservoir in which an evaporation fluid is stored; A evaporation fluid evaporating vessel spaced apart from the upper portion of the evaporating fluid reservoir and formed with an attracting evaporating portion into which the attracting agent is injected; Wherein the evaporator is disposed between the evaporating fluid evaporating vessel and the evaporating fluid reservoir so that the attractant stored in the evaporating fluid reservoir through the capillary phenomenon is moved upwards along the capillary tube to the evaporating fluid evaporating vessel disposed at the upper side to attract the evaporating fluid stored in the evaporating fluid reservoir And a capillary portion continuously supplied to the capillary tube.

Description

Technical Field [0001] The present invention relates to an evaporative evaporator for insect trapping, and an insect evaporator for insect captor using the same.

More particularly, the present invention relates to an insect pest collecting apparatus for insect pest collecting apparatus which collects insect pests such as fly moth or moth attracted through an attractant, The present invention relates to a pest collecting apparatus and a pest collecting apparatus using the same, and more particularly, to a pest collecting apparatus and a pest collecting apparatus using the same.

In general, pests such as flies or mosquitoes or moths harm human beings, livestock or crops, and particularly in the summer, due to the increase in the number of animals, the livestock of the Usa or pension or poultry farms, ornamental plants in greenhouses or vinyl houses, The damage increases.

In particular, Akabane and Toxoplasmosis, which inhibit the breeding of livestock, are known to be infected by these pests, and the importance of such pests is increasing.

Conventionally, there is a conventional method of spraying a pesticide to combat pests, but the spraying of these pesticides causes the emergence of new pest resistant to the drug and the development and application of a more powerful drug to suppress it It is not a preferable solution because the vicious cycle is repeated.

Especially, the spraying of the medicines for combating such insects is adversely affecting the ecology of animals and plants, accumulating them in livestock or crops, and ultimately introducing medicines accumulated in the human body, which is not desirable for safety.

In recent years, a pest collecting device has been proposed in which a lamp is lighted at night to induce pests, and then the attracted pests are collected through a forced suction fan and then forcedly inhaled.

In recent years, the mainstream is to evaporate the attractant containing the pheromone and to attract and collect the insect by the attractant.

Since the insect trapping apparatus using such an attractant is very simple in structure and can be manufactured at low cost and is not required to turn on the lamp or drive the suction fan, it is installed in various places where the power supply facility is not provided, This has a possible advantage.

However, when the attractant is exposed to the air for a long time, it is dried and the evaporation property is lowered. Therefore, in order to evaporate the stabilized attractant, water should be sprayed to the attractant periodically by spraying or the like.

However, it is practically difficult for the operator or the manager to stay in the field for supplying the water with a constant period of time such as every hour for the stable water supply of the attractant.

Therefore, the insect trapper configured to attract insect pests through conventional attractants is actively attracting and collecting insects at the initial stage where water is contained in a certain amount of time. However, when the attractant is dried over a certain period of time, The efficiency of collecting the incentives of the users is deteriorated.

It is an object of the present invention, which is devised to solve the above problems, to provide a pest inflow collector which collects pests such as fly ash, moth or moth attracted through an attractant, And a pest collecting device using the pest collecting device. 2. Description of the Related Art

The above object is achieved by the following constitutions provided in the present invention.

According to the present invention, there is provided an induction evaporator for insect trappers,

1. An inhaler vaporizer for a insect trapper, which is disposed in a insect trapper having a catcher container and evaporates the attractant to attract the insect pest,

The induction evaporator includes:

An evaporation fluid reservoir in which evaporation fluid is stored;

A evaporation fluid evaporating vessel spaced apart from the upper portion of the evaporating fluid reservoir and formed with an attracting evaporating portion into which the attracting agent is injected;

Wherein the evaporator is disposed between the evaporating fluid evaporating vessel and the evaporating fluid reservoir so that the attractant stored in the evaporating fluid reservoir through the capillary phenomenon is moved upwards along the capillary tube to the evaporating fluid evaporating vessel disposed at the upper side to attract the evaporating fluid stored in the evaporating fluid reservoir And a capillary portion continuously supplied to the capillary tube,

And the attractant injected into the attractant evaporator of the evaporating fluid evaporation tank is continuously supplied with the evaporating fluid that has been lifted up in the evaporating fluid reservoir through the capillary tube so that the attractant can be continuously evaporated by the evaporating fluid.

Preferably, the capillary portion is provided with an absorbent pad portion for absorbing the evaporated fluid raised along the capillary portion, the attractant evaporating portion is formed to have a phase lower than that of the absorbent pad portion, A diffusion pad portion is formed,

The evaporating fluid raised to the absorbing pad portion along the capillary portion moves to the absorbing pad portion due to a phase deviation between the absorbing pad portion and the diffusion pad portion to dissolve and evaporate the attracting agent.

More preferably, the diffusion pad portion is formed so as to be laminated on the bottom surface of the attractant evaporation portion in which the attractant is deployed, so that the evaporation fluid is continuously supplied to the attractant by the diffusion pad portion.

The capillary portion is formed of a fabric or a nonwoven fabric so that a fine capillary tube is formed between the cilia and a capillary tube is formed on the outer wall of the capillary tube portion to form a capillary tube in the capillary tube portion.

In the meantime, the insect trapper having the lead-

An attracting guide formed in a funnel shape formed with a guide hole at the center thereof and disposed so as to be vertically spaced; A collecting bar disposed at a lower portion of the guide and collecting the pest moved downward along the guide hole; And an attracting agent evaporator for sequentially passing through the guide holes of the attracting guide to evaporate the attracting agent,

The attracting and evaporating apparatus includes a bar shaped body which sequentially passes through guide holes of an attracting guide and is formed so that a diverging section is vertically spaced apart; And a section evaporating unit disposed between the diverging sections of the barrel to upwardly move the evaporating fluid dissolving the attractant into the diverging section to diverge the diverging fluid,

The section evaporating unit includes an evaporating fluid reservoir containing the evaporating fluid to which the attractant is dissolved; And a capillary unit for impregnating the evaporation fluid reservoir with a lower end to upwardly move the evaporation fluid stored in the reservoir through capillary phenomenon and diverging through the divergent hole of the rod.

As described above, according to the present invention, in insect pest control, which is installed in a insect trapping apparatus that attracts and collects insects such as fly mosquitoes and moths, and inflows insects through an attractant that is evaporated by the evaporation fluid, So that an evaporating fluid is introduced into the evaporator.

The induction evaporation apparatus according to the present invention is basically configured to continuously supply the evaporation fluid to the attractant by using the capillary phenomenon, thereby eliminating the trouble that the manager or the operator periodically supplies the evaporation fluid to the attractant .

In the present invention, the evaporation fluid moved upward along the capillary portion due to the capillary phenomenon is not directly supplied to the attractant but is primarily absorbed through the absorption pad portion, and then the diffusion pad To supply the evaporative fluid to the attractant.

Accordingly, it is possible to solve the problem that the rise and supply of the evaporation fluid due to the capillary tube due to the osmotic pressure phenomenon due to the high concentration of the attractant is lowered. As a result, the evaporator for evaporator for insect trappers according to the present invention It has a merit that the insect can be steadily attracted through continuous evaporation of the attractant caused by the evaporation fluid by continuously supplying the attractant.

FIG. 1 is an overall configuration view of a pest collecting apparatus provided with a pest collecting apparatus evaporator proposed by the present invention,
FIG. 2 is a detailed view of the capillary tube of the evaporator for the pest collecting apparatus shown in FIG. 1,
FIG. 3 is a view showing an operation state of the induction evaporator for insect trappers proposed in the preferred embodiment of the present invention,
FIG. 4 is an overall configuration view of a pest collecting device provided with a pest collecting apparatus evaporator proposed by the present invention as a more preferable embodiment,
FIG. 5 shows a detailed configuration of the capillary portion, the absorbent pad portion, and the diffusion pad portion in the inhalation evaporator for the insect trapping apparatus shown in FIG. 4,
FIG. 6 is a view showing an operation state of the induction evaporator for pest collectors proposed by the present invention as a more preferable embodiment,
FIG. 7 and FIG. 8 show the overall construction and operation state of the pest collecting apparatus proposed in the preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an overall configuration view of a pest collecting apparatus provided with a pest collecting apparatus for pest collecting apparatus proposed as a preferred embodiment of the present invention. FIG. 2 is a schematic view of a pest collecting apparatus for a pest collecting apparatus, FIG. 3 is a view showing an operation state of an induction evaporator for a insect trapping apparatus proposed in the preferred embodiment of the present invention. FIG. 4 is a view showing a state of operation of the insect trapping apparatus proposed by the present invention, FIG. 5 shows a detailed configuration of the capillary tube, the absorbent pad and the diffusion pad in the evaporator for the insect pest collector shown in FIG. 4, and FIG. FIG. 6 is a graph showing the operation state of the induction evaporator for insect trappers proposed by the present invention as a more preferable embodiment A.

The insect trapping apparatus 1 in which the induction evaporator for insect trapping apparatus according to the present invention is installed includes a collecting box 110 in which a collecting pipe 111 penetrating the lower portion is formed.

As shown in FIGS. 1, 3, 4 and 6, a mesh cap 112 overlaps the outside of the collecting container 110. The collecting pipe 111 is gradually enlarged in diameter from the upper part to the lower part, The insecticide introduced along the collecting pipe 111 is configured to be stuck in the collecting container 110 to form a stable collecting state, and these insect collecting devices 1 are well known.

However, in the present invention, the attracting and evaporating apparatuses 1 and 1 'for attracting pests to the collecting pipe 111 of the collecting pest 110 by evaporating the attracting agent P to the pest collecting apparatus 1 are proposed and arranged So that a large amount of pests are collected in the trap 110 through stable incentive of the pest.

The attractant (P) evaporated together with the evaporating fluid (L) by the induction evaporator (1) may be any kind of feed harmless to human body, food or the like, It is desirable to incorporate pheromone into the pest to promote quick and stable induction of insects.

The evaporator 1 or 1 'for pest collectors according to the present embodiment, which evaporates the attractant P through the evaporating fluid L to attract the insects, A fluid reservoir (10); And an evaporation fluid evaporation tank 20 disposed at an upper portion of the evaporation fluid storage tank 10 and having an induction evaporation portion 21 on which the attractant P is deployed.

1 to 6, the evaporation fluid L stored in the evaporation fluid reservoir 10 is gradually transferred to the evaporation fluid evaporation tank 20 through the capillary phenomenon, So that the evaporation fluid L is continuously supplied to the attractant P developed in the induction evaporator 21 of the evaporation fluid evaporation tank 20.

The evaporating fluid L stored in the evaporating fluid storage tank 10 is introduced into the evaporating fluid storage tank 10 through the capillary flow path 31 through the capillary phenomenon between the evaporating fluid evaporating tank 20 and the evaporating fluid storing tank 10, And the capillary section 30 for continuously supplying the evaporating fluid L stored in the evaporating fluid storage tank 10 to the attractant P is disposed.

The capillary tube 30 for moving the capillary tube of the evaporating fluid L is formed of a fabric or a nonwoven fabric and has fine capillary tubes 31 formed between the cilia.

The outer wall of the capillary tube 30 is covered with a tube 32 to pressurize the capillary tube 30 so that the capillary tube 31 formed in the capillary tube 30 can be shaped.

The tube 32 wrapped over the capillary tube 30 may be a stretchable tube for pressing the capillary tube by stretching or a heat shrinkable tube for compressing the capillary tube 30 by heat shrinking by heating have.

Therefore, the evaporator fluid that has risen in the evaporative fluid storage vessel 20 is continuously supplied to the attractant P deployed in the attractant evaporator 21 of the evaporator fluid evaporator 20 through the capillary tube 30 , And consequently, the attractant (P) is continuously evaporated by the evaporating fluid (L), so that the insect can be stably attracted.

If the capillary tube 30 continuously supplies the evaporating fluid L directly to the attractant P, the evaporating fluid L moving along the capillary tube 30 and the attractant P An osmotic phenomenon occurs due to a concentration deviation between the dissolved evaporative fluids, and consequently, the continuous supply of the evaporative fluid L by the capillary portion 30 becomes difficult.

That is, since the evaporation fluid having a high concentration remains due to the dissolution of the attractant (P) in the attractant evaporator (21), the evaporation fluid (L) moving along the capillary section (30) A phenomenon occurs in which the evaporation fluid L having a high concentration remaining in the attractant evaporator 31 flows backward into the capillary tube 30 due to the osmotic pressure phenomenon and the capillary tube 30 The movement of the evaporating fluid L stored in the evaporating fluid reservoir 10 becomes difficult.

4 to 6, the evaporating fluid L rising along the capillary tube 30 is not directly supplied to the attractant P but the evaporating fluid L is not supplied directly to the attracting agent P, The evaporating fluid L that has been lifted up to a predetermined height is supplied to the attracting agent P having a relatively low phase due to its own weight after the capillary tube 30 is lifted up to a predetermined height along the capillary tube 30, So that the evaporating fluid (L) is continuously supplied to the attractant (P) without backflow caused by the development.

For this, in this embodiment, the evaporating fluid (not shown) which is moved upward along the capillary tube 30 is supplied to the upper end of the capillary tube 30 moved to the upper portion of the evaporating fluid evaporating vessel 20 by the capillary tube 30 L of the evaporation fluid evaporation tank 20 is disposed in the evaporation fluid evaporation tank 20 and the induction evaporation portion 21 of the evaporation fluid evaporation tank 20 is formed to have a phase lower than that of the absorption pad portion 40.

The evaporation fluid L absorbed into the absorption pad portion 40 due to phase deviation is laid on the bottom surface of the induction evaporator 20 by spreading the diffusion pad portion 50 connected to the absorption pad portion 40 And moves along the diffusion pad portion 50 to be supplied to the attractant.

In this embodiment, as shown in FIG. 5, a second half of a single fabric or a single nonwoven fabric is wound in a roll shape to form capillary portions at both ends, and an absorbent pad portion is formed between the capillary portions. The first half portion is expanded and connected to the absorbent pad portion By forming the diffusion pad portion, the capillary portion, the absorbent pad portion and the diffusion pad portion are uniformly formed through a single fabric or a single nonwoven fabric, thereby simplifying the structure.

The evaporation fluid L raised to the absorption pad portion 40 along the capillary portion 30 is absorbed by the absorption pad portion 40 due to the phase deviation between the absorption pad portion 40 and the diffusion pad portion 50. [ Even if the concentration of the evaporating fluid L remaining in the evaporator 21 is higher than that of the evaporating fluid L rising along the capillary tube 30, The evaporating fluid L moved upward along the capillary portion 30 due to the phase deviation between the lead-in evaporator portions 21 on which the pad portion 50 is placed can be stably supplied to the attractant evaporator portion 21 .

Thus, the evaporator 1 for vaporizing the insect trapping apparatus according to the present embodiment, in which the supply structure of the evaporation fluid through the capillary phenomenon and the phase deviation is provided, continuously supplies the evaporation fluid L to the attractant P, The pest can be continuously attracted by the evaporation of the attractant (P) by evaporation of the fluid (L).

FIG. 7 and FIG. 8 show the overall construction and operation state of the pest collecting apparatus proposed in the preferred embodiment of the present invention.

As shown in FIGS. 7 and 8, the insect trapper 200 having the lead-free evaporation structure according to the present invention has a funnel shape formed with a guide hole 211 at the center thereof, (210); And a collecting box 220 disposed below the attracting guide 210 and collecting pests that have been moved downward along the guide holes 211.

The guide members 210 are vertically spaced on the support pipe 60 by being fixed to the support pipe 60 passing through the guide hole 211 through the fixing bolts B. [

7 and 8 illustrate a preferred embodiment of the present invention. A cap 230 and a fixing hook 231 are provided on the upper end of a support pipe 60 spaced apart from the guide 210, Shaped cover 230 so as to be fixed to branches or the like through the fixing hooks 231. In addition,

A draw bar 221 is disposed at the lower end of the collecting barrel 230 so that the collecting barrel 230 can be moved to the upper side of the collecting barrel 230. [ 220 are resiliently fixed in a state of being spaced apart from the ground surface through a traction spring 221 so that occurrence of rocking due to draft is suppressed.

Accordingly, the insects pushed into the respective guide guides 210 are moved downward along the guide holes 211 when they are slid downward by the inclined surfaces of the guide guides 210, and the pests attracted to the guide guides 211, Are collected in the collecting container 220 arranged at the lower part.

According to the present invention, in implementing the insect trapping apparatus 200, it is preferable that the induction guide 210 is disposed at a distance from the support pipe 60 by evaporating the evaporating fluid L, The apparatus 1 is arranged so as to stably attract and collect insects through continuous divergence of attractants.

A diverging section 61 consisting of diverging holes 61a for providing an evaporation and diverging path of the evaporating fluid dissolving the attractant in the support pipe 60 is vertically spaced apart from the diverging section 61, (1) for evaporating the evaporation fluid (L) dissolved therein by the induction evaporator (1), so that the attracting agent (210) is diverted into the attracting guides (210) by the attracting and evaporating device .

The induction evaporation apparatus (1) comprises an evaporation fluid reservoir (10) containing an evaporation fluid in which the attractant is dissolved; The lower end of the evaporation fluid reservoir 10 is impregnated to move upward the evaporation fluid L stored in the evaporation fluid reservoir 10 through the capillary phenomenon, (30).

Accordingly, in the support pipe 60, an evaporation section and a divergence section in which the induction evaporation apparatus 1 is disposed are alternately formed, thereby evaporating the evaporation fluid in which the induction agent is dissolved in each induction guide 210, .

8, each of the attractant vaporizers 1 is stored in the evaporative fluid reservoir 10 and is moved upward by capillary phenomenon so that a plurality of evaporator holes 61a, The divergence section 61 is formed.

Thus, the attracting guide 210 is capable of stably attracting pests and continuously collecting the pests by the attracting agent, which is moved upward by the attracting agent evaporator 1 and continuously evaporated through the dissipating section 61 .

1. Incinerator evaporator for insect trapper
10. Evaporative fluid reservoir 20. Evaporative fluid evaporator
21. Evictor evaporator 22. Evaporator
30. Capillary section 40. Absorbing pad section
50. Diffusion pad section 60. Support pipe
61. Divergence Section 61a. Divergent ball
100. Pest trapper 110. Collected pest
111. Collection tube 112. Reticle cover
200. Pest trapper 210. Incident guide
211. Guide ball 220. Collecting barrel
230. Shaped cover 231. Hook
232. Attractor seat 233. Traction spring
B. Fixing Bolt

Claims (3)

delete delete An attracting guide formed in a funnel shape formed with a guide hole at the center thereof and disposed so as to be vertically spaced;
A collecting bar disposed at a lower portion of the guide and collecting the pest moved downward along the guide hole; And
And an attracting agent evaporator for sequentially passing through the guide holes of the attracting guide to evaporate the attracting agent,
The attracting and evaporating apparatus includes a bar member sequentially passing through a guide hole of an attracting guide and having a diverging section spaced up and down; And a section evaporating unit disposed between the diverging sections of the barrel to upwardly move the evaporating fluid dissolving the attractant into the diverging section to diverge the diverging fluid,
The section evaporating unit includes an evaporating fluid reservoir containing the evaporating fluid to which the attractant is dissolved; And a capillary section for impregnating the evaporation fluid reservoir with a lower end to upwardly move the evaporation fluid stored in the reservoir through capillary phenomenon and to diverge through the divergence hole of the rod body.

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