KR20170046426A - Insect capture device having cleaner - Google Patents

Abstract

The present invention relates to an insect capturing device having a cleaning function, comprising: a casing forming an appearance; an insect capturing pipe unit including a sucking pipe installed transversely in the casing, and having one end thereof exposed to the outside by penetrating the casing, and a collecting pipe extending downward from the other end of the sucking pipe and having a collection net installed at the other end thereof; a suction fan disposed at a lower portion of the collection net to suck the outside air including insects into the insect capturing pipe unit; an image photographing unit installed in the collecting pipe and photographing an insect moved to an upper part of the collection net; a capturing unit disposed between the image photographing unit and the collection net to temporarily filter out the insect so as to photograph the insects; and a washing medium supply device including a first injection nozzle installed in the collecting pipe so as to be disposed between the image photographing unit and the capturing unit, to spray a washing medium toward the capturing unit, and a medium supply mechanism for supplying the washing medium to the first injection nozzle. According to an embodiment of the present invention, insects and contaminants which are not separated by being suspended by a rotating net can be easily removed by washing the rotating net using a washing medium of a washing medium supply device, thereby being very useful to obtain a clear and precise photograph when an image is photographed by an image photographing unit.

Description

[0001] Insect capture device having cleaner [0002]

The present invention relates to a retainer having a cleaning function.

Generally, mosquitoes are collected using a catcher to investigate the density of mosquitoes that transmit infectious diseases and to investigate the pathogen infection of mosquitoes.

Korean prior art 10-1003178 discloses such a conventional trapper.

However, the conventional trapper spreads the pyloric or the like to the vicinity of the trapper, attracting the mosquito around the trapper and collecting the mosquito.

However, in this case, the mosquito was attracted to the vicinity of the trap, but was not attracted to the vicinity of the intake port, and the collection rate of the mosquito attracted to the vicinity of the actual trap was very low.

That is, in the conventional trap, the majority of the mosquitoes circulate around the trap, and the suction force of the suction fan is not attracted to the effective suction distance of the suction port where the actual mosquito is sucked, so that the actual collection rate of the mosquito is low.

This is not only an obstacle to accurate measurement of actual mosquito generation density, but also made it difficult to identify accurate information such as infection rate of mosquito.

Therefore, there is a need to improve the mosquito collection rate by attracting the mosquito into the effective range of the mosquito suction of the inlet.

In addition, even though the number of mosquitoes and the type of mosquitoes are analyzed by capturing the images of the mosquitoes collected through the captors, the instantaneous speed at which the mosquitoes are moved is too fast. Therefore, There are technical problems with problems and practical applications.

Accordingly, Korean Patent No. 10-1476256 (a capturing device equipped with an image photographing function) has been proposed as a prior art which is aimed at solving the above-mentioned problem.

FIG. 8 and FIG. 9 are views of a conventional capturer and photographs of a capturing unit using an image capturing unit. FIG.

To explain this in more detail, a conventional trap has a casing 10 which forms an appearance; A collecting pipe 22 formed horizontally so as to be spaced apart from the suction pipe 21 and formed with a collecting net 22a at the end thereof and a suction pipe 21 And a communicating tube 23 for interconnecting the collecting tube 22 and the collecting tube 22; An intake fan 30 disposed at a lower portion of the collection net 22a to provide a suction force for inflow of pests; A camera 41 installed on the upper part of the collecting pipe 22 for photographing pests and an image photographing part 40 composed of a lighting lamp 42 for increasing the illuminance around the camera 41; A capturing unit 50 configured to be rotatably installed on the collecting pipe 22 and configured to rotate the pivot view 51 for temporarily filtering the insect pests and the rotation drive unit 52 to rotate the pivot view 51; A coefficient detecting unit 70 installed in the communicating pipe 23 for detecting and counting insects moving along the inside thereof; And a control unit 80 provided with a timer 81 for controlling operations of the suction fan 30, the image pickup unit 40, the capture unit 50 and the coefficient sensing unit 70.

According to this, the carbonic acid gas is sprayed to the periphery of the suction pipe 21 using a carbonic acid gas supply device (not shown) provided in the casing 10, and the insect such as the attracted mosquitoes is absorbed by the suction pipe 21 The insect pest is temporarily counted by the count sensing unit 70 and temporarily caught by the view 51 of the capture unit 50 to be photographed by the image capturing unit 40, When the completion is completed, the turning view 51 of the capturing unit 51 is rotated and discharged to the collection net 22a, whereby the pest can be easily grasped without expensive camera apparatus, as shown in Fig.

9, the image capturing unit 40 captures a temporarily filtered pest in the view 51. In this image, the contamination source along with the previously captured pest is exposed as it is , It is difficult to obtain a clear image, which makes it difficult to identify pests.

1. Korean Registered Patent No. 10-1476256 (Capture device having video shooting function / December 14, 2004)

Disclosure of the Invention The present invention has been made in order to solve the above-mentioned problems, and provides a catcher having a cleaning function capable of obtaining clearer and more accurate pictures at the time of photographing by removing pests and pollution sources I have a purpose to do.

According to an aspect of the present invention,

A casing forming an appearance;

A suction pipe which is installed transversely in the casing and has a suction pipe through which one end penetrates the casing and is exposed to the outside and a collection pipe which extends downward from the other end of the suction pipe and has a collection net at the other end;

An intake fan disposed at a lower portion of the collection net to suck in external air including pests to the inside of the captor tube;

An image capturing unit installed in the collecting pipe and photographing a pest moved to an upper part of the collection network;

A capturing unit disposed between the image capturing unit and the collection network for temporarily filtering insects so that the insects can be photographed;

A cleaning agent supply device configured to supply a cleaning agent to the first injection nozzle; a cleaning agent supply device installed in the collection tube so as to be disposed between the image capturing part and the capturing part so as to spray the cleaning agent toward the capturing part; And a control unit.

Further, in the present invention,

In the capturing tube portion,

And a counting sensing unit for counting the number of insects by sensing a insect that is sucked and moved through the suction pipe is further reinforced.

Further, in the present invention,

Between the capture unit and the collection network,

An inclined pipe extending obliquely downward from the other end of the collection pipe is further reinforced;

In the inclined tube,

And a background plate for covering the collection net and forming a back background of the capture unit is further reinforced.

Further, in the present invention,

In the inclined tube,

And a second spray nozzle for spraying the cleaning medium with the backing plate by receiving the cleaning medium from the medium supply mechanism of the cleaning medium supply device.

Further, in the present invention,

A control unit for controlling the operation of the cleaning medium supply device, the suction fan, the image capturing unit, and the capture unit is further reinforced;

And the controller controls the washing medium supply device and the capturing unit to operate for a predetermined period of time through a timer.

According to the present embodiment, by cleaning the ash view with the washing medium of the washing medium supply device, it is possible to easily remove the insects and pollutants that have not fallen by hanging in the view of the view, , It is very useful because it can obtain clearer and more accurate photographs.

In addition, according to the present embodiment, since the inclined back plate is disposed between the revolving view and the collection net, it serves as a background of the view of the view by blocking the collection net and the intake fan without interfering with the suction force of the intake fan, It is advantageous that the identification of pests through the image becomes much clearer than before.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 shows a first embodiment of a catcher with a cleaning function according to the invention; Fig.
Fig. 2 is a diagram for explaining the operation of Fig. 1; Fig.
FIG. 3 is a photograph of a capture unit using the image capturing unit of FIG. 1;
Figure 4 shows a second embodiment of a catcher with a cleaning function according to the invention;
FIG. 5 is a photograph of a capture unit using the image capture unit of FIG. 4;
Figure 6 shows a third embodiment of a catcher with a cleaning function according to the invention;
7 shows a fourth embodiment of a catcher with a cleaning function according to the invention;
FIG. 8 and FIG. 9 are views of a conventional capturer and photographs of a capture unit using an image capturing unit. FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a first embodiment of a catcher having a cleaning function according to the present invention. FIG. 2 is a view for explaining the operation of FIG. 1, and FIG. 3 is a view Fig.

1 through 3, a catcher according to a first embodiment of the present invention includes a casing 10, a cobbler 20, an intake fan 30, an image capturing unit 40, a capturing unit 50, And a cleaning medium supply device 60, wherein the coefficient sensing unit 70 and the control unit 80 are further reinforced.

Referring to FIG. 1, the casing 10 is made of synthetic resin, metal, or wood. In this embodiment, a synthetic resin which is easy to process and assemble is adopted. It is preferable to be made of a transparent material such as resin which can be seen from outside and inside.

In addition, it is preferable that the casing 10 be formed with a door that can be opened and closed for convenience of repairing, replacing, or the like of the internal components.

A collection casing 11 is provided in the casing 10. An intake fan 30 is installed in the collection casing 11 and a suction fan 30 is installed in the collection casing 11 at the other end And a collection net 22a.

Referring to FIG. 1, the captor tube 20 is inserted into the casing 10 to provide a passage through which insects and outside air are moved.

The captor tube 20 comprises a suction tube 21 and a collecting tube 22.

For example, the suction pipe 21 is horizontally installed in the casing 10, one end of the suction pipe 21 is exposed through the casing 10, and a carbon dioxide gas injection hole 91 is formed on the exposed peripheral surface .

The suction pipe 21 may be formed in such a manner that the communication pipe 24 extending downward from one end of the suction pipe 21 is exposed to the outside through the casing 10 instead of being installed inside the casing 10 And a carbonic acid gas injection opening 91 may be provided on the exposed peripheral surface.

As another example, the backflow preventing network H may be installed in the suction pipe 21 in case the pests to be moved to the collecting pipe 22 escape to the outside through the suction pipe 21.

In one example, the collection pipe 22 is provided with a collection net 22a extending downward (vertically) from the other end of the suction pipe 21 and detachable from the other end.

For reference, the cobbler tube 20 is also preferably made of a transparent material such as acrylic resin.

1, the suction fan 30 is installed in a collecting casing 11 disposed at a lower portion of a collection net 22a to provide a suction force for allowing outside air including insects to flow into the inside of the captor tube 20 Function.

1, the image capturing unit 40 is composed of a camera 41 and an illumination lamp 42. In this embodiment, the image capturing unit 40 is installed on an upper part of the collecting pipe 22 and moves to the upper part of the collection net 22a. And to shoot the insect pests.

The camera 41 is installed on the upper part of the collecting pipe 22 and performs a function of photographing the insect pest every predetermined time according to the time period in which the turning view 51 of the capturing unit 50 is rotated.

The illuminating lamp 42 is provided around the camera 41 to enhance the illuminance around the camera 41 and an LED lamp can be applied to the illuminating lamp 42.

According to the present embodiment, the image of the pests temporarily moved by the turning view 51 of the capture unit 50 is photographed through the capturing tube 20, and before the pests are filtered into the collection net 22a, The image of the insects flowing through the pipe section 20 can be obtained clearly and easily.

1, the capturing unit 50 includes a turning view 51 and a rotation driving unit 52. In the present embodiment, the capturing unit 50 is disposed between the image capturing unit 40 and the collection net 22a, It temporarily filters the pests to enable them to shoot images.

Here, the turning view 51 is rotatably installed inside the collecting pipe 22.

The rotation driving unit 52 is installed in the collecting pipe 22 and functions to rotate the turning view 51 by a control unit 80 for a predetermined period of time.

According to the present embodiment, since the insect pests temporarily captured by the capturing unit 50 are taken out by the image capturing unit 40 and then discharged again by the capturing unit 50, And it can be an opportunity to simplify the classification and analysis of the incidence and type of pests.

1, the cleaning medium supply device 60 includes a first injection nozzle 61 and a medium supply mechanism 63. In this embodiment, the cleaning medium supply device 60 includes a first injection nozzle 61 and a medium supply mechanism 63. In this embodiment, And is installed on the collecting pipe 22 so as to clean the turning view 51 of the capturing unit 50.

Here, the first injection nozzle 61 is installed so as to penetrate through the collecting pipe 22 and be exposed to the inside, and spray the washing medium toward the turning view 51, but the number thereof is not limited.

The medium supply mechanism 63 functions to supply the cleaning medium stored in the casing 10 to the first injection nozzle 61 and is controlled by a control unit 80 to be described later.

For reference, the cleaning medium may be air, clear water, soapy water, or the like.

When one of air, clear water or soapy water is applied to the cleaning medium, the number of the medium supplying mechanisms 63 may be one, but if at least two of the cleaning media are applied, It increases accordingly.

The rotation view 52 of the capturing unit 50 that has been photographed is rotated by the rotation driving unit 52 to discharge the filtered pests to the collection net 22a. At this time, The air is supplied to the first injection nozzle 61 and is injected to the turn table view 51 through the first injection nozzle 61 as the operation of the medium supply mechanism 63 is controlled, ) Are easily released.

Therefore, according to the present embodiment, as described above, by cleaning the turn table view 51 with the washing medium, it is possible to easily remove the pests and the pollution source that have not fallen off by hanging around the turn table view 51, It is possible to obtain a clearer and more accurate picture at the time of imaging by the imaging unit 40, which is very useful.

In the case where the cleaning medium is of two types, first, the medium supply mechanism 63 for storing clear water is operated to jet clear water through the first jet nozzle 61 to the rotary shaft 51, The medium supply mechanism 63 may be operated to spray the air through the first injection nozzle 61 to the rotary shaft 51 to dry it.

When the washing medium is of three kinds, the medium supplying mechanism 63 storing the soapy water is first operated to spray the soapy water onto the spinning head 51 through the first jetting nozzle 61, The mechanism 63 is operated to jet the clean water through the first jet nozzle 61 to remove the suds so as to operate the medium supply mechanism 63 filled with the air, The air can be sprayed onto the rotary shaft 51 through the rotary shaft 61 to be dried.

Referring to FIG. 1, the coefficient sensing unit 70 is installed in the suction pipe 21 and detects pests moving along the suction pipe 21, thereby counting the number of pests.

According to this, the counting unit 70 detects and counts the number of pests such as mosquitoes moving through the suction pipe 21, so that data on the number of pests collected in a certain area can be easily secured.

The coefficient detecting unit 70 is provided with a light emitting and receiving structure using an infrared LED light to distinguish a mosquito and other insects from each other with a passing time and a passage size that intercept the light emitting and receiving regions, . ≪ / RTI >

Accordingly, the control unit 80, which will be described later, can count the types and numbers of insects based on the result detected by the coefficient detecting unit 70, And also controls the carbonic acid gas supply mechanism 92 and the intake fan 30 to control the amount of attracted entities based on the received information and also controls the camera 41 or the illumination lamp 42 or the rotation drive unit 52).

Referring to FIG. 1, the controller 80 controls the operations of the suction fan 30, the image capturing unit 40, the capturing unit 50, and the cleaning medium supply unit 60, separately installed in the casing 10 Function.

The operation of the intake fan 30 is controlled to control the suction movement and trapping of the pests and the camera 41 and the illumination lamp 42 of the image pickup section 40 are controlled to control the rotation of the turn table view 51, And controls the rotary motion of the rotary drive unit 52 to rotate the rotary shaft 51 in a predetermined period of time. The washing medium supply unit 60 controls the rotary motion of the rotary shaft 51, So that the cleaning medium can be sprayed through the first spray nozzle 61. [0050]

The control unit 80 controls the rotation driving unit 52 to rotate the turntable 51 by a predetermined period of time through the timer 81. The control unit 80 also controls the rotation of the turntable 51 from the first jetting nozzle 61, It is preferable that the medium supply mechanism 63 is also controlled to operate for a predetermined period of time.

The timer 81 may control the image capturing unit 40, the capturing unit 50, and the cleaning medium supply unit 60 to operate at predetermined time intervals even if there is no separate control signal from the control unit 80 .

1, the carbonic acid gas supplier 90 includes a carbonic acid gas injection mechanism 91 provided at an end of the suction pipe 21 or the communicating pipe 24 to inject carbon dioxide gas, which is carbon dioxide, And a carbonic acid gas supply mechanism 92 provided inside the casing 10 for supplying carbonic acid gas to the carbonic acid gas injection mechanism 91.

The control unit 80 controls the carbonic acid gas supply unit 90 to control the carbonic acid gas supply unit 90 so that the carbonic acid gas is supplied to the carbonic acid gas supply unit 90, (91).

The catcher according to the present invention includes an input unit for receiving data and signals required by the control unit 80 and transmitting the received data or signals to the control unit 80 and receiving data received from the input unit through the control unit 80, And a storage unit for storing the data.

In addition, a plurality of catchers according to the present invention may be installed in a plurality of one by one in each region, and may be configured to be remotely monitored and measured by a wired or wireless communication method using a communication network such as the Internet by a plurality of administrator terminals.

In this case, the control unit 80 provided in each retainer is connected to a communication module for transmitting data to the unified server in a wired / wireless communication manner, and when a plurality of administrator terminals attempt to access the unified server, And a security module for processing the security module.

Thus, by collecting collected images of insects collected by each region, classification information of collecting insects, information on the population of collecting insects, etc., it is possible to easily monitor and remotely monitor distribution information of each insect pests at the central control center And transmits it to a plurality of administrator terminals scattered in each region in the integration server. In this case, only authorized administrator terminals can be connected remotely through authentication processing in the integrated server among a plurality of administrator terminals, It is possible to remotely monitor and measure the distribution situation of the trapping insects in each region even in a plurality of distributed administrator terminals.

The operation of the catcher according to the first embodiment of the present invention constructed as above will be described with reference to FIGS. 1 to 3. FIG.

The carbonic acid gas is supplied from the carbonic acid gas supply mechanism 92 to the end of the suction pipe 21 or the carbonic acid gas injection mechanism The carbon dioxide gas is diffused to the periphery of the suction pipe 21 or the communicating pipe 24.

The control unit 80 controls the operation of the intake fan 30. The control unit 80 controls the operation of the intake fan 30 so that the negative pressure is generated in the inside of the captor tube 20, The insect pests are sucked into the inside of the insecticide 24 and the insect pests that have been sucked pass through the coefficient sensing unit 70. The coefficient sensing unit 70 senses the insects that pass therethrough and detects the insect population, do.

The control unit 80 controls the rotation drive unit 52 of the capture unit 50 to rotate the rotation axis 51 in a predetermined time period through the timer 81, Time is continuously performed.

The controller 80 controls the camera 41 and the illumination lamp 42 of the image capturing unit 40 so that the images of the insects caught temporarily in the back view 51 whenever the turn view 51 is in the capture position It is preferable to control the operation of the camera 41 and the illumination lamp 42 through the timer 81. [

The controller 80 controls the controller 80 so as to spray the washing medium to the turning view 51 after the turning of the turning view 51 after the image taking by the image photographing unit 40, It is preferable to control the operation of the medium supply mechanism 63 of the cleaning medium supply device 60 through the timer 81 so that the pest and the contaminated source are discharged to the collection net 22a.

Therefore, according to the present embodiment, it is possible to easily acquire images of insects captured during insect pests such as mosquitoes in real time without a high-cost high-speed camera, There is an advantage.

Particularly, as described above, by cleaning the turning view 51 with the washing medium, it is possible to easily remove the insects and contaminants which are caught in the turning view 51 or are not caught by the turning view 51, ), It is very useful because it can acquire clearer and more accurate photographs.

As shown in FIG. 3, when the capturing unit 50 captures images of insects temporarily trapped through the image capturing unit 40, the insect pests captured by the capturing unit 50 are captured by the insect pest 51 and the pest 51, There is a fundamental problem in that it is difficult to distinguish the insect pests collected on the collection net 22a, the collection net 22a, and the intake fan 30 in a single image.

It should be noted that in the case of the present embodiment, the oblique pipe 23 and the back plate 100 are further reinforced between the turning view 51 and the collection net 22a to temporarily solve the above-mentioned problem .

FIG. 4 is a view showing a second embodiment of a retainer having a cleaning function according to the present invention, and FIG. 5 is a photograph of a capture unit using the image capturing unit of FIG.

4, the inclined pipe 23 extends obliquely downward from the other end of the collecting pipe 22 and the inclined pipe 23 is provided with a back net The back plate 100 is reinforced.

The back plate 100 may be formed by attaching a sheet such as a screen of a theater to one surface of the oblique tube 23 or by forming one surface of the oblique tube 23 roughly and then coating it with white paint And any other known method can be applied as long as it can perform the same function.

The collection net 22a is formed at the end of the inclined pipe 23.

According to this embodiment, since the inclined back plate 100 is disposed between the turning view 51 and the collection net 22a, the collection net 22a and the intake fan 22a can be used without interfering with the suction force of the intake fan 30. [ 30) to serve as the background of the view 51, so that only the insect pest temporarily captured in the view 51 is photographed at the time of image capturing, so that the identification of the insect through the image becomes much clearer than before ).

On the other hand, in the case of washing the rotating shaft 51 by using air as the washing medium of the washing medium supplying device 60, it does not affect the suction fan 30 at all. However, when the rotating shaft 51 is washed with soapy water or clear water When the prospect 51 is washed, the suction fan 30 installed on the collecting casing 11 to be disposed below the inclined pipe 23 may cause a great failure.

Therefore, in the present embodiment, the suction fan 30 disposed coaxially with the inclined pipe 23 is eccentrically disposed on the collecting casing 11 at one side, and the soapy water or clear water falling down to the bottom is drained It is necessary to note that the above-mentioned problem is solved by installing the light emitting diode (LED) 110.

6 is a view showing a third embodiment of a catcher having a cleaning function according to the present invention.

Referring to FIG. 6, a drain guide portion 11a inclined downward is integrally formed on the lower surface of the collecting casing 11 located on the coaxial line with the slant pipe 23 to induce the drainage of the washing medium, A drain 110 having one end communicated with the drainage inducing portion 11a and the other end protruding through the casing 10 to the outside and a suction fan 30 is installed at one side of the drainage inducing portion 11a .

According to the present embodiment, the drain guide portion 11a, the drain 110 and the suction fan 30 are formed in the collecting casing 11 as described above, so that the washing medium (clean water, soapy water Since the suction fan 30 and the slant pipe 23 are arranged on the same axis so as to be shifted from each other in the coaxial relationship with each other, the cleaning medium (clear water, soapy water Etc.) of the suction fan 30, so that it is possible to prevent the failure of the suction fan 30 in advance.

On the other hand, the surface of the backing plate 100 may be cleaned together with a portion of the first injection nozzle 61 when cleaning the washing water 51 through the washing medium (air, clear water, soapy water, etc.) Nevertheless, the viscous contaminants do not fall off, but remain attached to the surface, and there is a problem that confusion can arise in image identification when imaging is performed without removing such contaminants.

It should be noted that in the case of this embodiment, the second injection nozzle 62 is installed in the inclined pipe 23 provided with the back plate 100 to solve the above-mentioned problem.

7 is a view showing a fourth embodiment of a catcher having a cleaning function according to the present invention.

7, the second injection nozzle 62 is installed such that one end of the second injection nozzle 62 is exposed to the interior of the inclined pipe 23, and the cleaning medium (air, air) is supplied from the medium supply mechanism 63 of the cleaning medium supply device 60, Clean water, soapy water, etc.) and spraying the cleaning medium with the backing plate 100 to clean the surface of the backing plate 100.

According to the present embodiment, since the surface of the backing plate 100 is cleaned by the cleaning medium (air, soapy water, clear water, etc.) injected through the second injection nozzle 62 every predetermined period of time, Even if a pollutant having a viscosity is adhered to the back plate 100, the surface of the back plate 100 can be kept clean at all times, so that the identification of the pest through the image becomes much clearer than before.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

10: casing 11: collecting casing 20:
21: suction pipe 22: collection pipe 22a:
23: inclined pipe 24: communicating pipe 30: suction fan
40: image capturing section 41: camera 42: illumination light
50: Capture unit 51: Aspect 52:
60: cleaning medium supply device 61: first injection nozzle 62: second injection nozzle
63: medium supply mechanism 70: coefficient detecting unit 80:
81: Timer 90: Carbonic acid gas supply device 91: Carbonic acid gas supply device
92: Carbonic acid gas injection mechanism 100: Background plate 110: Drain

Claims (5)

A casing forming an appearance;
A suction pipe which is installed transversely in the casing and has a suction pipe through which one end penetrates the casing and is exposed to the outside and a collection pipe which extends downward from the other end of the suction pipe and has a collection net at the other end;
An intake fan disposed at a lower portion of the collection net to suck in external air including pests to the inside of the captor tube;
An image capturing unit installed in the collecting pipe and photographing a pest moved to an upper part of the collection network;
A capturing unit disposed between the image capturing unit and the collection network for temporarily filtering insects so that the insects can be photographed;
A cleaning agent supply device configured to supply a cleaning agent to the first injection nozzle; a cleaning agent supply device installed in the collection tube so as to be disposed between the image capturing part and the capturing part so as to spray the cleaning agent toward the capturing part; Wherein the catching mechanism comprises:
The method according to claim 1,
In the capturing tube portion,
And a counting sensing unit for counting the number of insects by sensing the insect poked through the suction pipe is further reinforced.
The method according to claim 1,
Between the capture unit and the collection network,
An inclined pipe extending obliquely downward from the other end of the collection pipe is further reinforced;
In the inclined tube,
And a back plate for covering the collection net and forming a back background of the capture unit is further reinforced.
3. The method of claim 2,
In the inclined tube,
And a second injection nozzle for receiving a cleaning medium from the medium supply mechanism of the cleaning medium supply apparatus and spraying the cleaning medium to the backing plate is further reinforced.
5. The method according to any one of claims 1 to 4,
A control unit for controlling the operation of the cleaning medium supply device, the suction fan, the image capturing unit, and the capture unit is further reinforced;
Wherein the control unit controls the washing medium supply unit and the capturing unit to operate for a predetermined period of time through a timer.

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