KR102519805B1 - Mosquito automatic analysis device capable of accurate analysis - Google Patents

Abstract

An automatic medium mosquito analysis device capable of accurate analysis according to the present invention, which can obtain clear images of mosquitoes without being affected by pollutants, comprises: a body forming an exterior and forming a space with a hollow inside; an inlet unit provided in the main body, extending to be exposed to the outside, and providing a passage for external mosquitoes to flow into the main body; a detection unit provided on one side of the inlet unit and having an infrared light sensing structure that detects and automatically counts the mosquitoes passing through the inlet unit and entering the main body; a suction unit provided in the main body and sucking external air containing the mosquitoes to flow into an interior of the main body through the inlet unit; a capturing unit provided to communicate between the inlet unit and the suction unit and capturing and temporarily stunning the mosquitoes flowing in through the inlet unit; a photographing unit provided inside the main body to be dualized with the capturing unit and obtaining information necessary for analysis by photographing the mosquitoes; a transfer unit moving back and forth between the capturing unit and photographing unit and transferring the mosquitoes temporarily stunned in the capturing unit to the photographing unit; and a collection unit collecting and killing all the mosquitoes after photographing.

Description

An automatic mosquito analysis device capable of accurate analysis {MOSQUITO AUTOMATIC ANALYSIS DEVICE CAPABLE OF ACCURATE ANALYSIS}

The present invention relates to an automatic mosquito vector analysis device capable of accurate analysis, and more particularly, in collecting and analyzing mosquitoes in order to prevent and respond to the spread and damage of infectious diseases caused by mosquito vectors, accurate and clear images of mosquitoes The present invention relates to an automatic mosquito vector analysis device capable of accurate analysis that enables easy maintenance of the cleanliness of a collecting unit and a photographing unit to enable acquisition and analysis of information.

In general, mosquitoes are collected using an insect trap in order to confirm the density of mosquitoes that carry infectious diseases and to study whether or not mosquitoes are infected with pathogens.

As such a conventional insect trap, Korean Patent Registration No. 10-1003178 is disclosed.

However, the conventional insect trap traps mosquitoes by diffusing a pyloric lamp or an attractant around the insect trap to attract mosquitoes to the vicinity of the insect trap.

However, in this case, the mosquitoes were attracted to the periphery of the insect trap, but were not attracted to the vicinity of the inlet, so the actual capture rate of mosquitoes attracted to the periphery of the insect trap was very low.

That is, in the conventional insect trap, the majority of mosquitoes hover around the insect trap, and the suction force of the intake fan is not attracted to the mosquito effective suction distance of the intake port where mosquitoes are actually sucked, so the actual mosquito capture rate is low.

This not only acts as an obstacle to accurate measurement of the actual mosquito generation density, but also makes it difficult to confirm accurate information such as mosquito infection rates.

Therefore, there is a need to improve the mosquito capture rate by attracting mosquitoes within the range of mosquito suction effective distance of the intake port.

In addition, even if you want to analyze the population or type of mosquitoes by taking images of mosquitoes sucked and collected through these insect traps, the moment they are sucked and moved is too fast, so the cost of installing and applying an expensive high-speed camera There were problems with the above and technical problems with actual application.

In order to solve this problem, the prior art Korean Patent Registration No. 10-1476256 uses a carbon dioxide gas supplier provided in the casing to spray carbon dioxide gas around the suction pipe, thereby attracting pests such as mosquitoes through the suction force. It flows into the insect canopy unit, and the introduced pests are counted by the counter detecting unit and temporarily caught on the rotation net of the capture unit to be captured by the image capture unit. By doing so, it discloses a technology that allows pests to be grasped without an expensive camera device.

However, in the prior art, the imaging unit photographs the pests temporarily filtered by the rotating net, and it is difficult to identify the mosquitoes because it is difficult to obtain a clear image as the pollutants as well as the mosquitoes previously taken on such images are still exposed. .

In addition, since the rotating net for collecting mosquitoes and the imaging unit for photographing it are provided in the same space, it is difficult to obtain clear images as the contamination of the imaging unit itself and the pollution of lighting become more and more serious, and it is difficult to maintain. this existed

Therefore, a method for solving these problems is required.

Republic of Korea Patent Registration No. 10-1003178 Republic of Korea Patent No. 10-1476256 Republic of Korea Patent No. 10-1953515

The present invention is an invention made to solve the above-mentioned problems of the prior art, and only attracts and captures mosquitoes, but only the movement is suppressed while the body of the mosquito remains intact, so that accurate shooting can be achieved Of course, it has the purpose of enabling the acquisition of clear images without being affected by pollutants through the dualization of the photographing unit and the collecting unit.

The tasks of the present invention are not limited to the tasks mentioned above, and other tasks not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the automatic mosquito vector analysis device of the present invention capable of accurate analysis includes a main body forming an exterior and forming a hollow space inside the main body, and is provided on the main body and extended to be exposed to the outside, An inlet portion providing a passage through which external mosquitoes enter the main body, and an infrared light sensing structure provided on one side of the inlet portion to detect and automatically count mosquitoes flowing into the main body through the inlet portion. A sensing unit, a suction unit provided in the main body to suck external air containing mosquitoes into the main body through the inlet, and a suction unit provided to communicate with each other through the inlet A collecting unit that collects and temporarily stuns the introduced mosquitoes, is provided inside the main body, and is provided to be dual with the collecting unit, and a photographing unit that acquires information necessary for analysis by photographing mosquitoes; It includes a transfer unit that reciprocates between the units and transfers the mosquitoes temporarily stunned by the collecting unit to the photographing unit, and a collection unit that collects and kills the mosquitoes that have been photographed.

At this time, the inside of the suction part is hollow, one side is connected to the upper end of the collecting part, the other side is connected to one side of the main body, and is provided in a connection part with the collecting part to allow outside air to flow into the inside of the main body through the inlet. It includes a suction fan that generates a suction force to smoothly flow into the main body and a discharge fan that is provided at a connection portion with the main body and generates a discharge force so that the external air that has flowed into the main body is discharged to the outside of the main body again. Air may be circulated and flowed in one direction inside the main body together with the inlet and the collecting unit being in communication with each other.

In addition, the suction unit can be linked with the collecting unit, so that driving can be temporarily stopped between operations of stunning the mosquitoes collected by the collecting unit.

At this time, the collecting part is provided in a case having one side in communication with the inlet, an upper end surface in communication with the inlet, and an open bottom surface, and the inside of the case, the inlet and the inlet. An electric shock module provided between an electric shock module for filtering out mosquitoes introduced with external air and temporarily stunning them, a supply module for selectively supplying current to the electric shock module, and a mosquito captured by temporarily stunning the electric shock module in the photographing unit It may include a discharge guide for discharging to be delivered to the side.

In addition, the electric shock module is provided to block a space in which the collecting unit communicates with the suction unit in order to prevent mosquitoes, which have flowed into the collecting unit together with outside air, from indiscriminately escaping toward the suction unit. A first electrode plate having a conductor, and a second electrode plate provided to block the upper end of the discharge guide in order to prevent mosquitoes that have flowed into the collecting unit from indiscriminately escaping through the discharge guide, and having a conductor in the form of a mesh net. An electrode plate and the first electrode plate and the second electrode plate are connected, but the second electrode plate is capable of vertical swing movement, so that the second electrode plate is selectively in close contact with the first electrode plate or of the discharge guide. It may include a rotation unit that allows the top to be opened.

At this time, the first electrode plate and the second electrode plate have different electrodes, and when the first electrode plate and the second electrode plate are in close contact with each other, the positive and negative electrodes interact with each other to form the first electrode plate and the second electrode plate. Mosquitoes caught between the two electrode plates can be electrocuted to temporarily stun them.

In addition, the collecting unit may be provided on at least one of the first electrode plate and the second electrode plate to drop the mosquitoes stuck to the electric shock module so that no mosquitoes remain in the electric shock module between discharge operations of the fainted mosquitoes. A clean module having a wiper shape may be further included so that the electric shock module can be easily maintained and managed.

When it is determined that the number of mosquitoes detected by the detection unit has reached a predetermined number, the second electrode plate swings toward the first electrode plate, and the supply module Current is applied to the first electrode plate and the second electrode plate so that an electric shock operation for mosquitoes can be performed.

In addition, the photographing unit may include a seating module for allowing mosquitoes temporarily stunned and discharged from the collecting unit to be seated on the top and a camera module for acquiring image information necessary for analysis by photographing the mosquitoes seated on the seating module. .

At this time, the seating module is provided so as to be exposed to a guide unit coupled to the transfer unit and reciprocating between the collecting unit and the camera module and the upper portion of the guide unit, so that the temporarily fainted mosquito is seated, and the mosquito image to be photographed is provided. A background panel unit may be included.

In addition, the seating module has a motor unit provided on one side of the guide unit to generate rotational force, one side connected to the motor unit, and the other side extending and coupled to the panel unit so that the rotational force of the motor unit causes the panel It further includes a pivot unit that allows the unit to rotate in the vertical direction, and the motor unit is driven to rotate the panel unit after photographing of the mosquito is completed, so that the mosquito seated on the upper end of the panel unit is moved to the collecting unit. can be collected by

At this time, the guide unit further includes a through-hole formed at a position where the panel unit is provided so that upper and lower surfaces are open, and after the completion of photographing the mosquito, the mosquito seated on the top of the rotated panel unit It may be discharged to the collecting unit positioned below the guide unit through the through hole.

In addition, the guide unit is formed to penetrate the inside, one side is connected to the pneumatic generator provided in the main body by a hose, and the other side is formed to communicate with one side of the through hole, so that the high-pressure air generated by the pneumatic generator It may further include a spray hole for spraying toward the through hole.

In this analysis device, after photographing of the mosquitoes is completed, the seating module is positioned above the collecting unit to rotate the panel unit, and through the through hole, the mosquitoes seated on the top of the panel unit can be collected. At the same time as the discharge is rejected, the pneumatic generator is driven to spray high-pressure air to the panel unit through the spray hole so that the panel unit can be cleaned without sticking mosquitoes.

At this time, when the panel unit rotates to discharge the mosquitoes seated on the top, the surface facing the spray hole is inclined upward so that the flow of high-pressure air sprayed through the spray hole is directed toward the collection unit. By doing so, it is possible to ensure stable collection of mosquitoes.

In addition, the analysis device may further include an information processing unit that receives and stores image information captured from the photographing unit, analyzes the stored information, and transmits the analyzed information to a central server.

The analysis device is provided inside the main body, and a peat injection module for spraying carbon dioxide gas to the outside through the inlet so that only mosquitoes are selectively attracted from the outside through the inlet and flowed into the main body. may further include.

The automatic mosquito vector analysis device capable of accurate analysis of the present invention for solving the above problems has the following effects.

First, by attracting only a specific target object among pests, there is an advantage in that unnecessary classification work is not required and only necessary information can be obtained.

Second, there is an advantage in that accurate shooting can be achieved by suppressing only movement without damaging the body of the mosquito by temporarily stunning it by electric shocking the mosquito that has flowed into the collecting unit.

Third, there is an advantage in that clear images can be obtained regardless of whether the collecting unit is contaminated by separating the captured mosquitoes from the collecting unit, seating them in the mounting module, and transporting them to the camera module so that the shooting can proceed. .

Fourth, after the photographing is completed, the panel unit is cleaned by spraying high-pressure air while collecting the mosquitoes, so that clean maintenance can be easily performed and clear images can be obtained continuously.

Fifth, it is possible to obtain a clean and intact shooting video and image through this, and there is an advantage that accurate analysis of mosquitoes based on this can be made.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is an exemplary view showing the overall appearance of an automatic mosquito vector analysis device capable of accurate analysis according to an embodiment of the present invention;
2 is an exemplary view showing the overall structure and air flow of an automatic mosquito vector analysis device capable of accurate analysis according to an embodiment of the present invention;
3 is an exemplary view showing a collecting unit and a suction unit in the automatic mosquito vector analysis device capable of accurate analysis according to an embodiment of the present invention;
4 is an exemplary view showing the operation of an electric shock module and a clean module in the automatic mosquito vector analysis device capable of accurate analysis according to an embodiment of the present invention;
5 is an exemplary view showing the linkage and operation of a transfer unit and a landing module in the automatic mosquito vector analysis device capable of accurate analysis according to an embodiment of the present invention;
6 is an exemplary view showing an operation sequence of an automatic mosquito vector analysis device capable of accurate analysis according to an embodiment of the present invention; and
7 is an exemplary diagram illustrating processes of collecting mosquitoes that have been photographed and washing a panel unit in an automatic mosquito vector analysis device capable of accurate analysis according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention in which the object of the present invention can be realized in detail will be described with reference to the accompanying drawings. In describing the present embodiment, the same name and the same code are used for the same configuration, and additional description thereof will be omitted.

In the present invention, in collecting and analyzing mosquitoes to prevent and respond to the spread and damage of infectious diseases caused by mosquito vectors, it is necessary to maintain the cleanliness of the collecting unit and the recording unit so that accurate and clear image information on mosquitoes can be obtained and analyzed. It relates to an automatic mosquito vector analysis device capable of accurate analysis that can be easily performed.

As shown in FIGS. 1 and 2, the automatic mosquito vector analysis device capable of accurate analysis according to the present invention forms the overall appearance, collects and photographs mosquitoes, and collects and kills mosquitoes after filming has been completed. A main body 100 in which a hollow space inside is formed so that a series of work execution spaces can be provided, and may be provided in the main body 100, one side is connected to the inside of the main body 100, and the other side is An inlet 200 extending to be exposed to the outside of the main body 100 and providing a passage through which mosquitoes existing outside the main body 100 can flow into the main body 100; A suction part 300 that can be provided in the main body 100 to generate a suction force so that external air containing mosquitoes can smoothly flow into the inside of the main body 100 through the inlet part 200; It may be provided between the part 200 and the suction part 300, and it collects and temporarily stuns mosquitoes that have flowed into the main body 100 from the outside through the inlet part 200. 400 and provided inside the main body 100, provided to be dual with the collecting unit 400, and receiving mosquitoes that are temporarily stunned after being captured by the collecting unit 400 for analysis of mosquitoes The capturing unit 400 is reciprocally movable between the capturing unit 500 that takes pictures to obtain video and image information, and the collecting unit 400 and the capturing unit 500, which are dualized and have a separate structure. ) may be provided inside the transfer unit 600 and the main body 100 so that the mosquitoes temporarily stunned may be discharged from the collecting unit 400 and transported to the photographing unit 500, and all of the photographing may be provided. It may be made including a collection unit 700 that collects mosquitoes that have been finished and allows a flesh treatment operation to be performed.

At this time, the analysis device may be provided on one side of the inlet 200 through which mosquitoes flow into the main body 100 from the outside and become a passage through which the main body 100 passes through the inlet 200. A detection unit 800 for detecting and automatically counting mosquitoes flowing into the collecting unit 400 located inside may be further provided, and the detection unit 800 has an infrared light sensing structure. It is desirable to be made so that accurate detection and counting of mosquitoes can be made.

According to one embodiment of the present invention, the suction force is generated in the inner direction of the main body 100 so that mosquitoes can be introduced into the main body 100 through the inlet 200 together with external air. The suction part 300 is made of a structure with a hollow inside, one side of the structure is connected to communicate with the top of the collecting part 400, and the other side can be connected to one side of the main body 100 so as to be interlocked. .

The suction part 300 may be provided at a connection part with the collecting part 400 so that external air can be smoothly introduced into the main body 100 through the inlet part 200. ) The suction fan 310 capable of generating a suction force in the inward direction and the outside introduced into the inside of the body 100 by driving the suction fan 310, which can be provided in a connection portion with the main body 100. It may include a discharge fan 320 capable of generating a discharge force so that air can be discharged to the outside of the main body 100 again.

As such, the inside of the structure is hollow so that one side is connected to communicate with the upper end of the collecting part 400 and the other side is connected to communicate with one side of the main body 100. The inlet part 200 and the collecting part 400 having a structure communicating with each other by the interaction of the suction fan 310 and the discharge fan 320, which may be respectively provided at the connection part between the part and the main body 100. ) together with the air inside the main body 100 in one direction, more specifically, in one direction having a flow of air flowing from the outside of the main body 100 through the inside to the outside again. It can be made to flow.

As the air flows, the mosquitoes outside the main body 100 are sucked into the main body 100 through the inlet 200 together with the outside air, and are filtered and collected by the collecting part 400. It may be, and only air is circulated and flows in one direction through the passage formed inside the main body 100.

At this time, the suction part 300, more specifically, the suction fan 310 and the discharge fan 320 included in the suction part 300 are linked to the collecting part 400, so that the collecting part 400 can be connected. It is preferable to temporarily stop the operation between the operations of stunning the mosquitoes collected in the unit 400 so that the operation of stunning the mosquitoes can be performed stably.

In addition, the automatic mosquito vector analysis device capable of accurate analysis according to the present invention allows only specific individuals to be analyzed among pests to be attracted and introduced into the main body 100 through the inlet 200. In the process of pest analysis, only necessary information can be accurately obtained without classifying the target object among various species.

In the present invention, it is characterized in that a peat injection module can be provided inside the main body 100 to limit the target pest to a mosquito so that carbon dioxide gas can be injected to the outside through the inlet 200, However, it is not limited thereto, and it should be recognized that when the target object for analysis among pests is not a mosquito, an attracting means for attracting only the target object may be selectively provided and applied.

According to one embodiment of the present invention, it is provided to communicate with each other between the inlet 200 and the inlet 300 in the internal space of the main body 100 to prevent mosquitoes introduced into the main body 100. As shown in FIGS. 2 and 3, the collecting unit 400, which performs the collecting operation by capturing and temporarily stunning it, is connected so that one side communicates with the inlet unit 200, and the other side, in more detail Is connected so that the upper surface is in communication with the inlet 300, and the lower surface is formed in an open form and is provided inside the case 410 forming an internal space and the case 410, the inlet ( 200) and the electric shock module 420 provided between the suction part 300 to temporarily stun mosquitoes by filtering out mosquitoes introduced with external air, and a supply module to selectively supply current to the electric shock module 420 430 and a discharge guide 440 serving as a passage through which mosquitoes collected by being temporarily stunned by the electric shock module 420 are discharged to be delivered to the photographing unit 500.

At this time, the discharge guide 440 may be made in a shape that matches or extends more than the open lower surface of the case 410, and is preferably made of an open upper and lower surface for smooth discharge of mosquitoes.

According to an embodiment of the present invention, the electric shock module 420 for temporarily stunning the mosquitoes collected in the collecting unit 400 by electric shocking them together with external air, as shown in FIGS. 3 and 4 . In order to prevent mosquitoes introduced into the collecting part 400 through the inlet 200 from indiscriminately escaping to the suction part 300 connected to the upper end of the collecting part 400 in communication with the collecting part 400 The first electrode plate 421 provided to block the communication space between the part 400 and the suction part 300, and mosquitoes introduced into the collecting part 400 pass through the discharge guide 440. A second electrode plate 422 provided to block the upper end of the discharge guide 440 may be included to prevent indiscriminate escaping toward the photographing unit 500 .

At this time, the first electrode plate 421 is preferably made of a mesh net shape so that the external air flows smoothly, but mosquitoes cannot escape and can be filtered. It is preferable to be made of a conductor so that the current applied from the supply module 430 flows well, and this structure can be equally applied to the second electrode plate 422.

For example, the first electrode plate 421 and the second electrode plate 422 may be connected to the supply module 430 wirelessly or wired, receive current through the supply module 430, and receive the collecting unit. In step 400, mosquitoes trapped between the first electrode plate 421 and the second electrode plate 422 may be electrically shocked to temporarily stun them.

At this time, it is preferable to control the power supplied to the first electrode plate 421 and the second electrode plate 422 within a range in which temporary stunning can be achieved so that only the movement can be suppressed without damaging the body of the mosquito. It should be noted that the detailed numerical range corresponds to the know-how of the present invention.

In addition, power supplied to the first electrode plate 421 and the second electrode plate 422 through the supply module 430 is selectively supplied only at the moment when the mosquitoes collected in the collecting unit 400 are stunned. By doing so, it is desirable to prevent unnecessary power consumption and prevent safety accidents that may occur.

According to an embodiment of the present invention, the first electrode plate 421 and the second electrode plate 422 of the electric shock module 420 are the collection part 400 and the suction part 300 as described above. It may be fixed and provided at the upper end of the communication space and the discharge guide 440, but is not limited thereto, and the efficiency of temporarily stunning by electric shocking the mosquitoes collected in the collecting unit 400 is maximized and stable It is preferable to be made of a structure that can be selectively swing moved so that work can be made in close contact with each other.

To this end, the electric shock module 420 has one side of the first electrode plate 421 and the second electrode plate 422 so that the first electrode plate 421 and the second electrode plate 422 can be interconnected. The second electrode plate 422 is selectively brought into close contact with the first electrode plate 421, or the second electrode plate 422 is selectively brought into close contact with the first electrode plate 421 by allowing the second electrode plate 422 to swing up and down. A rotation unit 423 allowing the upper end of the discharge guide 440 to be opened may be further included.

For example, the position of the first electrode plate 421 provided to block the communication space between the collecting part 400 and the suction part 300 is fixed and coupled, but the second electrode plate 422 is The collecting part 400, more specifically The first electrode plate 422 is rotated by the rotating unit 423 in a state in which mosquitoes that have flowed in between the first electrode plate 421 and the second electrode plate 422 are collected. It is swing-moved so that it can be in close contact with the plate 421, and receives current from the supply module 430 in a state in which the first electrode plate 421 and the second electrode plate 422 are in close contact with each other, and the second electrode plate 421 is in close contact with each other. By linking the first electrode plate 421 and the second electrode plate 422, the captured mosquitoes are electrocuted so as to be positioned between the first electrode plate 421 and the second electrode plate 422, thereby stably and temporarily stunning them. that can be made possible.

At this time, the rotation unit 423 is as described above so that the space between the second electrode plate 422 and the first electrode plate 421 swing-moved toward the first electrode plate 421 can be finely adjusted. As such, it is most preferable that the first electrode plate 421 and the second electrode plate 422 are provided so that they can be connected to each other, but it is not limited thereto, and in some cases, inside the case 410 Only the second electrode plate 422 may be connected to one side of the second electrode plate 422 so as to be rotatable and coupled to the inner surface of the case 410 .

At this time, as described above, the first electrode plate 421 and the second electrode plate 422 may be provided so that only the second electrode plate 422 can swing, but in some cases, both of them swing. It is also possible to consist of this possible structure.

What is important here is that the second electrode plate ( 422) should inevitably be made of a structure capable of vertical swing movement.

That is, the second electrode plate 422 may swing upward toward the first electrode plate 421 by the rotation unit 423 in order to stably electrocute the captured mosquito, and after the electric shock is completed, The mosquitoes that have passed out through the discharge guide 440 should swing downward to be opened at the upper end of the discharge guide 440 so that they can be discharged to pass to the photographing unit 500.

In addition, the first electrode plate 421 and the second electrode plate 422 have different electrodes, for example, when the first electrode plate 421 is an anode, the second electrode plate 422 has a cathode, Conversely, when the first electrode plate 421 is a negative electrode, the second electrode plate 422 is formed to have an anode, so that the first electrode plate 421 and the second electrode plate 422 are the rotation unit. When selective contact is made by 423, each positive electrode and negative electrode interact so that mosquitoes positioned between the first electrode plate 421 and the second electrode plate 422 can be electrocuted. can

According to one embodiment of the present invention, the collecting unit 400 can be provided on at least one of the first electrode plate 421 and the second electrode plate 422, so that between discharge operations of fainted mosquitoes The electric shock module 420, ie, the electric shock module ( 420) may further include a clean module 450 in the form of a wiper so that it can be easily managed by maintaining cleanliness without contamination even for a long time.

The clean module 450 includes a bar-shaped wiper structure provided on one side of at least one of the first electrode plate 421 and the second electrode plate 422 to sweep the surface, and such a bar-shaped wiper It may be made of a structure including a motor that generates rotational force in the structure, and the structure of the collecting unit 400, the first electrode plate 421 and the second electrode plate 422, and the clean module 450 ) The structure and operating range of ) can be more easily understood with reference to FIG. 4 shown as an example.

The analysis device according to the present invention having such a structure is determined to have reached a predetermined number based on the number of mosquitoes detected entering the main body 100 by the detecting unit 800 In this case, for example, it is assumed that the number of mosquitoes flowing into the main body 100 is set to 3 in order to prevent unclear analysis due to overlapping of the captured mosquitoes when capturing images of mosquitoes in the photographing unit 500 In this case, when the number of mosquitoes introduced through the inlet 200 is counted by the sensing unit 800 and it is determined that the count is three, the inlet of the suction unit 300 is driven so that no more mosquitoes are introduced. is temporarily stopped, and the second electrode plate 422 swings toward the first electrode plate 421, so that three mosquitoes, which are a predetermined number of people, are connected to the first electrode plate 421 and the second electrode plate ( 422) is collected in a narrow space in close contact, and in that state, electric current is applied from the supply module 430 to the first electrode plate 421 and the second electrode plate 422 so that the electric shock operation against mosquitoes is performed. to enable it to be performed.

After the mosquito is temporarily stunned by electric shock, the second electrode plate 422 is moved downward again so that both upper and lower surfaces of the discharge guide 440 are opened so that the stunned mosquito is transmitted to the photographing unit 500 It can be released so that it can be.

According to one embodiment of the present invention, the capturing unit 500 receives the temporarily fainted mosquito through the collecting unit 400 and captures images and/or videos necessary for analysis. A seating module provided at the lower part of the discharge guide 440 and temporarily stunned by the collecting unit 400 so that the mosquito discharged through the discharge guide 440 can be seated at the top of the lower part of the discharge guide 440. 520, and a camera module 510 for acquiring image and/or video information necessary for analysis by photographing the mosquito seated on top of the seating module 520.

At this time, as shown in FIG. 5, the seating module 520 is coupled to the transfer unit 600 capable of reciprocating between the collecting unit 400 and the photographing unit 500, and the transfer unit ( 600) provided in the guide unit 521 that reciprocates between the collecting unit 400 and the camera module 510 by driving, and the guide unit 521, to the top of the guide unit 521. It is provided so that it can be exposed so that the temporarily stunned mosquito discharged from the discharge guide 440 is seated on the top, and includes a panel unit 522 that becomes the background of the mosquito image captured by the camera module 510. It can be done by

In addition, the seating module 520 can be provided on one side of the guide unit 521 to generate a rotational force and a motor unit 523 and one side connected to the motor unit 523, the other side extending and forming the panel The rotation axis unit 524 coupled to the unit 522 and allowing the panel unit 522 to rotate in the vertical direction by the rotational force of the motor unit 523 may be further included. Through this, the analysis may be performed. After photographing of the mosquitoes is completed in the device, the motor unit 523 is driven to rotate the panel unit 522, so that the mosquitoes seated on the top of the panel unit 522 are transported to the collector 700. can be made available for collection.

At this time, the guide unit 521 may further include a through hole T formed through a vertical direction so that the upper and lower surfaces can be opened at the position where the panel unit 522 is provided, and the panel unit ( 522) may be provided to be located above the through hole (T), but provided inside the through hole (T) so that mosquitoes discharged from the discharge guide 440 can be stably seated, It is preferable that the inner surface of the through hole T serves as a guard covering the circumference of the panel unit 522 to prevent mosquitoes from escaping while moving.

As such, since the through hole (T) is formed in the guide unit 521, after the photographing operation of the mosquito is completed in the analysis device, the top of the panel unit 522 rotated so that the upper and lower surfaces are reversed. It is possible to ensure that the seated mosquitoes can be discharged to the collection part 700 located at the lower part of the guide unit 521 through the open lower surface of the through hole T.

According to one embodiment of the present invention, the guide unit 521 is formed to pass through the inside, one side can be connected to the pneumatic generator provided in the main body 100 by a hose, and the other side is the through hole (T ) It may be formed to communicate with one side of the pneumatic generator to further include a spray hole (S) that allows the high-pressure air generated in the through hole (T) to be sprayed.

The spray hole (S) may be formed in a horizontal direction inside the guide unit 521, and at this time, the formation angle is a horizontal direction that is perfectly parallel or a horizontal direction that is inclined downward toward the through hole (T). This is to serve as a passage and nozzle through which high-pressure air can be injected toward the panel unit 522 provided in the through-hole (T).

For example, the spray hole (S) may be formed to penetrate the guide unit 521 so that one side is open to communicate with the outside and the other side is open to communicate with one side of the inner surface of the through hole (T), , By combining an air hose coupled to extend from the pneumatic generator that may be provided inside the main body 100 on one side, the high-pressure air generated from the pneumatic generator passes through the injection hole (S) through the through-hole It is to be sprayed toward the panel unit 522 provided in the inner space of (T).

After the photographing of mosquitoes is completed through the camera module 510, the analysis device allows the seating module 520, more specifically, the guide unit 521 to be positioned above the collecting unit 700. The panel unit 522 provided in the guide unit 521 is rotated so as to be vertically inverted, and the mosquitoes seated on the top of the panel unit 522 through the through hole T can Mosquitoes adhering to the surface of the panel unit 522 are discharged to the reject 700 and at the same time the pneumatic generator is driven to spray high-pressure air to the panel unit 522 through the spray hole S. It can be cleaned neatly without cleaning, so that the maintenance of cleanliness can be easily performed.

At this time, when the panel unit 522 rotates to discharge the mosquitoes seated at the top, the surface facing the spray hole (S) is inclined upward so that the high pressure sprayed through the spray hole (S) It is preferable to allow the air flow to be naturally directed toward the collecting unit 700 so that mosquitoes can be stably collected.

In this way, in the present invention, a series of processes for collecting mosquitoes that have been photographed and washing the panel unit 522 to keep it clean can be more easily understood with reference to FIG. 7 .

In addition, the rotation direction of the panel unit 522 may be reciprocated in both directions so that one of the upper and lower surfaces becomes the background of the image being photographed, but is not limited thereto, and the upper and lower surfaces alternately rotate the image. It is also possible to make the life of the panel unit 522 last longer by making it a background.

In the case of conventional pest analysis devices such as mosquitoes, the collecting unit for capturing pests and the photographing unit for photographing them are located in the same space, so they are inevitably vulnerable to mosquito remnants or contamination, resulting in unclear and unclear images However, as described above, the photographing unit 500 and the collecting unit 400 are separated and provided in different spaces, and each operation is completely separated. In the case of the present invention consisting of a structure, it should be recognized that these conventional problems can be effectively solved.

In addition, the analysis device may further include an information processing unit capable of receiving and storing image information captured by the camera module 510, analyzing the stored information, and transmitting the analyzed information to a central server. The information processing unit should recognize that a wireless communication network is established for smooth communication with the central server.

As described above, it is possible to maintain cleanliness and smooth management of each structure, to attract and collect only a specific target object, and to obtain a clear image by temporarily stunning it so that the body of the target object is not damaged. , the operation process of the automatic mosquito vector analysis device capable of accurate analysis according to the present invention, which enables accurate analysis, can be more easily understood with reference to FIG. 6, and the cleaning process of the panel unit 522 is shown in FIG. Please refer to for easier understanding.

As described above, the preferred embodiments according to the present invention have been reviewed, and the fact that the present invention can be embodied in other specific forms without departing from the spirit or scope in addition to the above-described embodiments is a matter of ordinary knowledge in the art. It is self-evident to them. Therefore, the embodiments described above should be regarded as illustrative rather than restrictive, and thus the present invention is not limited to the above description, but may be modified within the scope of the appended claims and their equivalents.

100: body 200: inlet
300: suction part 310: suction fan
320: discharge fan 400: collection unit
410: case 420: electric shock module
421: first electrode plate 422: second electrode plate
423: rotation unit 430: supply module
440: discharge guide 450: clean module
500: photographing unit 510: camera module
520: seating module 521: guide unit
522: panel unit 523: motor unit
524: rotation axis unit 600: transfer unit
700: collection unit 800: detection unit
S: spray hole T: through hole

Claims (17)

A body forming an exterior and forming a hollow space inside;
an inlet provided in the main body, extending to be exposed to the outside, and providing a passage through which external mosquitoes are introduced into the main body;
a detector provided at one side of the inlet and having an infrared light sensing structure for detecting and automatically counting mosquitoes passing through the inlet and entering the main body;
a suction unit provided in the main body to suck external air containing mosquitoes into the main body through the inlet;
a collecting unit provided to communicate with each other between the inlet and the inlet to capture and temporarily stun mosquitoes introduced through the inlet;
A photographing unit provided inside the main body, provided to be dualized with the collecting unit, and acquiring information necessary for analysis by photographing mosquitoes;
a transfer unit that reciprocates between the collecting unit and the photographing unit and transfers the mosquito temporarily stunned by the collecting unit to the photographing unit; and
a collection unit that collects and kills mosquitoes that have all been filmed;
Including,
the suction part,
The inside is hollow, one side is connected to the upper end of the collecting part, and the other side is connected to one side of the main body,
a suction fan provided at a connection part with the collecting part to generate a suction force so that external air is smoothly introduced into the main body through the inlet part; and
a discharge fan provided at a connection part with the main body to generate a discharge force so that the external air introduced into the main body is discharged to the outside of the main body again;
including,
An automatic mosquito vector analysis device capable of accurate analysis, characterized in that the air is circulated and flowed in one direction inside the body with the inlet and the collecting unit communicating with each other.
delete According to claim 1,
the suction part,
An automatic mosquito vector analysis device capable of accurate analysis, characterized in that the driving is temporarily stopped between the operation of stunning the mosquitoes collected by the collecting unit in conjunction with the collecting unit.
According to claim 1,
The collection unit,
a case having one side in communication with the inlet, an upper end in communication with the inlet, and an open lower end;
an electric shock module provided inside the case and provided between the inlet and the inlet to temporarily stun mosquitoes by filtering them out along with the external air;
a supply module selectively supplying current to the electric shock module; and
a discharging guide for discharging mosquitoes collected by being temporarily stunned by the electric shock module to be delivered to the photographing unit;
An automatic analysis device for mosquito vectors capable of accurate analysis including a.
According to claim 4,
The electric shock module,
In order to prevent mosquitoes, which have flowed into the collecting unit together with outside air, from indiscriminately escaping toward the suction unit, the first electrode is provided to block the communication space between the collecting unit and the suction unit, and has a mesh-network conductor. board;
a second electrode plate provided to block an upper end of the discharge guide and having a conductor in the form of a mesh net in order to prevent mosquitoes that have flowed into the trapping unit from indiscriminately escaping through the discharge guide; and
The first electrode plate and the second electrode plate are connected, but the second electrode plate can swing up and down, so that the second electrode plate selectively adheres to the first electrode plate or the upper end of the discharge guide is open Rotation unit to be;
An automatic analysis device for mosquito vectors capable of accurate analysis including a.
According to claim 5,
The first electrode plate and the second electrode plate,
They have different electrodes, and when the first electrode plate and the second electrode plate are in close contact, each positive electrode and negative electrode interact to electrocute the mosquito caught between the first electrode plate and the second electrode plate, temporarily. An automatic mosquito analysis device capable of accurate analysis to stun the mosquitoes.
According to claim 5,
The collection unit,
It can be provided on at least one of the first electrode plate or the second electrode plate, so that the mosquitoes remaining in the electric shock module do not exist during the discharging operation of the fainted mosquito, dropping the stuck mosquito and simultaneously cleaning the electric shock module. A clean module made in the form of a wiper to facilitate maintenance;
An automatic analysis device for mosquito vectors capable of accurate analysis further comprising.
According to claim 5,
The analysis device,
When it is determined that the predetermined quantity has been reached based on the number of mosquitoes detected by the sensing unit, the second electrode plate swings toward the first electrode plate, and the first electrode plate and An automatic mosquito vector analysis device capable of accurate analysis so that electric current is applied to the second electrode plate to perform electric shock to mosquitoes.
According to claim 1,
the filming unit,
A seating module for allowing mosquitoes temporarily stunned and discharged from the collecting unit to be seated on top; and
A camera module for acquiring image information necessary for analysis by photographing the mosquito seated on the landing module;
An automatic analysis device for mosquito vectors capable of accurate analysis including a.
According to claim 9,
The seating module,
a guide unit that is coupled to the transfer unit and reciprocates between the collecting unit and the camera module; and
a panel unit provided to be exposed above the guide unit, on which a temporarily fainted mosquito is seated, and which serves as a background of a photographed mosquito image;
An automatic analysis device for mosquito vectors capable of accurate analysis including a.
According to claim 10,
The seating module,
a motor unit provided on one side of the guide unit to generate rotational force; and
a pivoting shaft unit having one side connected to the motor unit and extending the other side to be coupled to the panel unit so that the panel unit can be rotated vertically by the rotational force of the motor unit;
Including more,
An automatic mosquito vector analysis device capable of accurately analyzing mosquitoes seated on the upper end of the panel unit by rotating the panel unit after the photographing of the mosquitoes is completed by driving the motor unit so that the mosquitoes seated on the top of the panel unit are collected by the collecting unit.
According to claim 11,
The guide unit,
a through hole formed at a position where the panel unit is provided so that upper and lower surfaces are open;
Including more,
After the completion of photographing the mosquitoes, the mosquitoes seated on the top of the rotating panel unit are discharged through the through hole to the collecting unit located at the lower part of the guide unit. automatic analysis device.
According to claim 12,
The guide unit,
It is formed to penetrate the inside, one side is connected to the pneumatic generator provided in the main body by a hose, and the other side is formed to communicate with one side of the through hole so that the high-pressure air generated from the pneumatic generator is sprayed toward the through hole. a spray hole;
An automatic analysis device for mosquito vectors capable of accurate analysis further comprising.
According to claim 13,
The analysis device,
After the mosquitoes are photographed, the seating module is positioned above the collecting unit to rotate the panel unit, and the mosquitoes seated on the top of the panel unit are discharged to the collecting unit through the through-hole. At the same time, the pneumatic generator is driven to spray high-pressure air to the panel unit through the spray hole so that it is cleaned without attached mosquitoes.
According to claim 14,
The panel unit,
When rotating to discharge mosquitoes seated on the top, the surface facing the spray hole is inclined upward so that the flow of high-pressure air sprayed through the spray hole is directed toward the collection unit, so that mosquitoes are stably collected An automatic analysis device for mosquito vectors that enables accurate analysis to ensure that
According to claim 1,
The analysis device,
an information processing unit that receives and stores image information captured from the photographing unit, analyzes the stored information, and transmits the analyzed information to a central server;
An automatic analysis device for mosquito vectors capable of accurate analysis further comprising.
According to claim 1,
The analysis device,
a peat injection module provided inside the main body and configured to spray carbon dioxide gas to the outside through the inlet so that only mosquitoes are selectively attracted from the outside through the inlet and flowed into the main body;
An automatic analysis device for mosquito vectors capable of accurate analysis further comprising.

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