CN219087198U - Intelligent paper changing structure of aedes egg monitoring equipment - Google Patents

Abstract

The utility model relates to an intelligent paper changing structure of aedes egg monitoring equipment, which comprises a machine body, wherein a water tank, a circuit control board, an upper box body, continuous filter paper and a continuous filter paper driving assembly are arranged on the machine body; the water tank is communicated with the upper tank body; the continuous filter paper is positioned below the upper box body; the upper box body is provided with a camera; the circuit control board is respectively and electrically connected with the camera and the continuous filter paper driving assembly; the camera monitors eggs on the continuous filter paper through the control of the circuit control board; the continuous filter paper driving assembly drives the continuous filter paper to be automatically replaced under the control of the circuit control board. The water tank is communicated with the upper box body, so that water in the water tank can be automatically injected into the upper box body, and mosquitoes are induced to enter the upper box body and spawn on the continuous filter paper; the circuit control board controls the camera to carry out video monitoring or photographing monitoring on eggs on the continuous filter paper, and meanwhile, the continuous filter paper after video recording or photographing can be automatically replaced through the continuous filter paper driving assembly.

Description

Intelligent paper changing structure of aedes egg monitoring equipment

Technical Field

The utility model relates to the technical field of insect control equipment, in particular to an intelligent paper changing structure of aedes egg monitoring equipment.

Background

Chinese patent No. CN103168760a discloses a mosquito trap, which comprises a trap body, wherein the trap body comprises an opaque upper barrel body and a lower barrel body, a diagonal grid is arranged between the upper barrel body and the lower barrel body, the lower barrel body is divided into a left part and a right part, one part is provided with a mosquito attractant or a device capable of generating carbon dioxide, and the other part is provided with water; the upper port of the upper barrel body is sleeved with the upper port of a conical funnel, the lower end of the funnel is provided with a funnel opening, and a space enclosed by the upper barrel body and the conical funnel forms a cavity for capturing mosquitoes and spawning; an adhesion device for capturing mosquitoes flying into the cavity is arranged on the inner wall of the upper barrel body in the cavity.

The mosquito trap can enable a laboratory or a monitoring mechanism to acquire a large number of fresh mosquito adults and eggs and complete various tasks such as later-stage classification and identification, specimen preparation, virus carrying detection and the like, but cannot automatically monitor the types and densities of mosquitoes and eggs, can only be screened and calculated manually, and the adhesion device can only be replaced manually after capturing the mosquitoes and eggs, so that the working efficiency is low, the labor cost is greatly increased, and meanwhile, the whole-course automatic continuous monitoring of the mosquitoes and eggs cannot be realized.

Therefore, further improvements are needed.

Disclosure of Invention

The utility model aims to provide an intelligent paper changing structure of aedes and insect eggs monitoring equipment, which can realize the functions of automatic water adding, automatic photographing monitoring and automatic continuous filter paper changing, and change the aedes and insect eggs monitoring from heavy manual labor on a monitoring site to office clefts in a sitting office, so as to overcome the defects in the prior art.

The intelligent paper changing structure of the aedes egg monitoring equipment designed according to the purpose comprises a machine body, wherein a water tank, a circuit control board, an upper box body, continuous filter paper and a continuous filter paper driving assembly are arranged on the machine body; the water tank is communicated with the upper tank body; the continuous filter paper is positioned below the upper box body and is in driving connection with the continuous filter paper driving assembly; and a camera is arranged on the upper box body.

The circuit control board is respectively and electrically connected with the camera and the continuous filter paper driving assembly.

The camera monitors eggs on the continuous filter paper under the control of the circuit control board.

The continuous filter paper driving assembly drives the continuous filter paper to be automatically replaced under the control of the circuit control board.

The continuous filter paper driving assembly comprises a paper placing roller, a paper collecting roller and a roller driving piece; the paper placing roller and the paper collecting roller are respectively positioned at the left side and the right side below the upper box body and are respectively and rotatably arranged on the machine body; the roller driving piece is electrically connected with the circuit control board, and the driving end of the roller driving piece is in driving connection with the paper discharging roller or the paper collecting roller; the continuous filter paper is disassembled and assembled on the paper placing roller, the middle part of the continuous filter paper is positioned below the upper box body, and the outer end of the continuous filter paper is wound on the paper collecting roller.

The machine body is also provided with a lower box body and a lower box body driving assembly; the lower box body is in driving connection with the lower box body driving assembly and is sequentially positioned below the continuous filter paper; the circuit control board is electrically connected with the lower box body driving assembly; the lower box body driving assembly drives the lower box body to lift on the machine body under the control of the circuit control board, and the lower box body drives the continuous filter paper to be tightly pressed or separated from the upper box body when lifting.

The lower box body driving assembly comprises a fixed seat, a lower box body driving piece and a guide rod; the fixed seat is fixedly arranged on the machine body or the water tank; the lower box body driving piece is fixedly arranged on the fixing seat and is electrically connected with the circuit control board, and the driving end of the lower box body driving piece is in driving connection with the lower box body; the guide rod is fixedly arranged on the fixing seat and is matched with the lower box body in a guide way.

The upper box body is transparent or black, the bottom of the upper box body is provided with a bottom opening, and the continuous filter paper is tightly pressed or separated from the bottom opening by the driving of the lower box body driving assembly.

The upper box body is internally provided with a humidity sensor, and the humidity sensor is electrically connected with the circuit control board and is used for detecting the humidity in the upper box body through the control of the circuit control board.

The camera is an image camera or an image camera and is fixedly arranged at the top in the upper box body and is opposite to the continuous filter paper.

The top or the side part of the upper box body is provided with an opening for mosquitoes to fly into the upper box body.

The water tank is provided with a water pump and a water level sensor; the water pump is electrically connected with the circuit control board, and is communicated with a water pipe, and the water pipe is communicated with the upper box body; the water level sensor is electrically connected with the circuit control board and monitors the water level in the water tank through the control of the circuit control board.

The system also comprises a solar power supply module and a cloud server; the solar power supply module is electrically connected with the circuit control board.

The control circuit board is at least integrated with a singlechip, a positioning module for acquiring positioning information, a temperature and humidity sensor for monitoring external environment temperature and humidity information, a humidity sensing controller for controlling the operation of the humidity sensor, a water pump controller for controlling the operation of the water pump, a monitoring controller for controlling the operation of the camera, a roller driving controller for controlling the operation of the roller driving member, a water level controller for controlling the operation of the water level sensor, a lower box driving controller for controlling the operation of the lower box driving member, a video or image processor for processing camera monitoring information, a timer for timing, a storage unit for storing information and a communication module for transmitting the camera monitoring information, the external environment temperature and humidity information, the positioning information, the number or name of the aedes egg monitoring device to a cloud server.

Compared with the prior art, the utility model has the following advantages:

1. the water tank is communicated with the upper box body, so that water in the water tank can be automatically injected into the upper box body, and the water in the water tank is ensured to be continuously supplied, so that mosquitoes are induced to enter the upper box body and spawn on the continuous filter paper.

2. The circuit control board controls the camera to carry out video monitoring or photographing monitoring on the insect eggs on the continuous filter paper, so that automatic monitoring on the aedes eggs is carried out, screening and calculating are carried out instead of manpower, the monitoring cost of the aedes eggs is reduced, and the working efficiency is improved.

3. The continuous filter paper after video recording or photographing can be automatically replaced through the continuous filter paper driving assembly, so that the defect that the continuous filter paper in the prior art needs to be manually replaced while the clean continuous filter paper is used for laying eggs of mosquitoes is avoided, and unmanned continuous remote monitoring of aedes eggs is realized.

4. The monitoring results are automatically uploaded to the cloud end and automatically identified, monitoring staff can remotely acquire the monitoring results of the plurality of terminals without going to a monitoring site, and remote management of the monitoring terminals can be achieved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present utility model.

FIG. 2 is a flow chart of a monitoring operation according to an embodiment of the present utility model.

Fig. 3 is a cloud server workflow diagram according to an embodiment of the utility model.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-3, the intelligent paper changing structure of the aedes egg monitoring device comprises a machine body, wherein a water tank 7, a circuit control board 3, an upper box 2, a continuous filter paper 9 and a continuous filter paper driving component are arranged on the machine body; the water tank 7 is communicated with the upper tank body 2; the continuous filter paper 9 is positioned below the upper box body 2 and is in driving connection with the continuous filter paper driving assembly; the upper box body 2 is provided with a camera 1.

The circuit control board 3 is respectively connected with the camera 1 and the continuous filter paper driving component in an electric control way.

The camera 1 monitors eggs on the continuous filter paper 9 under the control of the circuit control board 3.

The continuous filter paper driving assembly drives the continuous filter paper 9 to be automatically replaced under the control of the circuit control board 3.

In this embodiment, the water tank 7 is communicated with the upper tank 2, so that water in the water tank 7 can be automatically injected into the upper tank 2, so as to ensure that water is continuously present in the water tank 7, thereby inducing mosquitoes to enter the upper tank 2 and spawn on the continuous filter paper 9.

In addition, the circuit control board 3 controls the camera 1 to carry out video monitoring or photographing monitoring on the eggs on the continuous filter paper 9, so that the automatic monitoring of the aedes eggs is carried out, the screening and calculation are replaced by manual operation, the monitoring cost of the aedes eggs is reduced, and the working efficiency is improved.

Meanwhile, the continuous filter paper 9 after video recording or photographing can be automatically replaced through the continuous filter paper driving assembly, so that the defect that the continuous filter paper 9 in the prior art needs to be manually replaced while the new continuous filter paper 9 is used for laying eggs of mosquitoes is avoided, and unmanned continuous remote monitoring of aedes eggs is realized.

According to the aedes egg monitoring device, one or more aedes eggs in different areas or positions can be placed in order to monitor the aedes eggs in one or more different areas or positions, and meanwhile each aedes egg monitoring device is provided with an independent number or name, so that remote control and local maintenance are facilitated.

Specifically, the continuous filter paper driving assembly comprises a paper discharging roller 23, a paper collecting roller 13 and a roller driving member 4; the paper placing roller 23 and the paper collecting roller 13 are respectively positioned at the left side and the right side below the upper box body 2 and are respectively rotatably arranged on the machine body; the roller driving piece 4 is electrically connected with the circuit control board 3, and the driving end of the roller driving piece is in driving connection with the paper discharging roller 23 or the paper collecting roller 13; the continuous filter paper 9 is disassembled and assembled on the paper placing roller 23, the middle part of the continuous filter paper is positioned below the upper box body 2, and the outer end of the continuous filter paper is wound on the paper collecting roller 13.

In this embodiment, the continuous filter paper 9 may be a conventional sheet-like filter paper, which is a flexible paper sheet that is bendable, bendable into a cylindrical shape, and detachable from the paper-placing roller 23.

The machine body is also provided with a lower box body 11 and a lower box body driving assembly; the lower box body 11 is in driving connection with the lower box body driving assembly, and the lower box body 11 and the lower box body driving assembly are sequentially positioned below the continuous filter paper 9; the circuit control board 3 is electrically connected with the lower box body driving component; the lower box body driving component drives the lower box body 11 to lift on the machine body under the control of the circuit control board 3, and the lower box body 11 drives the continuous filter paper 9 to be tightly pressed or separated from the upper box body 2 during lifting.

The lower box body driving assembly comprises a fixed seat 6, a lower box body driving piece 14 and a guide rod 17; the fixed seat 6 is fixedly arranged on the machine body or the water tank 7; the lower box body driving piece 14 is fixedly arranged on the fixed seat 6 and is electrically connected with the circuit control board 3, and the driving end of the lower box body driving piece 14 is in driving connection with the lower box body 11; the guide rod 17 is fixedly arranged on the fixed seat 6 and is in guide fit with the lower box 11.

The lower box driving piece 14 drives the lower box 11 to rise on the fixed seat 6 through the guide rod 17 in a guiding way during operation, so that the lower box 11 moves towards the upper box 2 and drives the continuous filter paper 9 to be tightly pressed on the upper box 2, at the moment, mosquitoes cannot fly out after flying into the upper box 2, the continuous filter paper 9 cannot roll, and the aedes egg monitoring equipment can start monitoring operation.

The lower box driving piece 14 drives the lower box 11 to descend on the fixed seat 6 through the guide rod 17 in a guiding way during operation, so that the lower box 11 moves towards a direction away from the upper box 2 and drives the continuous filter paper 9 to be separated from the upper box 2, the continuous filter paper 9 can be replaced, and the aedes egg monitoring equipment also stops monitoring operation.

The upper box body 2 is black in all or most of transparent and is black near the upper opening, the bottom of the upper box body 2 is provided with a bottom opening, and the continuous filter paper 9 is tightly pressed or separated from the bottom opening by the driving of the lower box body driving assembly.

In order to improve the entering rate of aedes, the upper box body 2 is made of transparent black high-density polyethylene materials, so that the durability of the aedes is improved, the environment such as illumination and rain of the environment outside mosquito monitoring and controlling is adapted, the entering rate of mosquitoes is improved, meanwhile, the bottom of the upper box body 2 is provided with a bottom opening, the structure is simple, production is convenient, and meanwhile, when the bottom opening is in compression contact with the continuous filter paper 9, the aedes can conveniently spawn.

The upper box body 2 is also internally provided with a humidity sensor 12, and the humidity sensor 12 is electrically connected with the circuit control board 3 and is used for detecting the humidity inside the upper box body 2 through the control of the circuit control board 3.

The camera 1 is an image camera or an image camera, is fixedly arranged at the inner top of the upper box body 2 and is opposite to the continuous filter paper 9, so that the monitoring stability of the camera 1 is improved. In this embodiment, in order to reduce space usage, the camera 1 is preferably a micro camera or an endoscope, which monitors the image or photographing of eggs on the continuous filter paper 9 under the control of the circuit control board 3.

The water in the upper box body 2 or the lower box body 11 is utilized to induce mosquitoes to enter the upper box body 2, eggs are laid on the continuous filter paper 9, meanwhile, the circuit control board 3 can control the camera 1 to conduct video monitoring or photographing monitoring on eggs, so that the automatic monitoring of the aedes eggs is conducted on a plurality of different areas or positions, the placement and recovery of aedes egg monitoring equipment are replaced by manpower, and the monitoring cost of the aedes eggs is reduced.

The top or side of the upper case 2 is provided with an opening through which mosquitoes fly into the upper case 2.

The water tank 7 is provided with a water pump 15 and a water level sensor 16; the water pump 15 is electrically connected with the circuit control board 3, and is communicated with the water pipe 10, and the water pipe 10 is communicated with the upper box body 2; the water level sensor 16 is electrically connected with the circuit control board 3, and monitors the water level inside the water tank 7 through the control of the circuit control board 3.

In the embodiment, the opening is arranged at the top of the upper box body 2, and a top cover is also arranged on the opening at the top; the water pipe 10 can extend into the upper box body 2 through the top cover through the opening at the top, or the water pipe 10 extends into the upper box body 2 through the side wall of the upper box body 2.

That is, the water in the water tank 7 can be automatically injected into the upper box body 2 through the cooperation of the water pump 15, the water pipe 10 and the circuit control board 3, so as to be convenient for monitoring.

Because the water in the lower box 11 needs to be replaced after being used for a period of time, in order to enable a monitor to perform full-automatic monitoring operation on aedes eggs, the bottom of the lower box 11 can be additionally provided with a lower box automatic discharging component, and the lower box automatic discharging component is electrically connected with the circuit control board 3 and is opened and closed at the bottom of the lower box 11 through the control of the circuit control board 3 so as to automatically discharge the water in the lower box 11.

Similarly, in order to allow water in the upper tank 2 to be injected into the lower tank 11, an upper tank automatic discharging unit can be added to the bottom of the upper tank 2, and the upper tank automatic discharging unit is electrically connected to the circuit control board 3 and is opened and closed at the bottom of the upper tank 2 by the control of the circuit control board 3 to automatically discharge water in the upper tank 2.

According to the embodiment, the automatic replacement of the continuous filter paper 9 and the water injection monitoring of the upper box body 2 can be realized, so that a monitor can perform full-automatic monitoring operation on the aedes eggs, no manual intervention is needed during working, continuous monitoring data can be provided for months or even years, and the intelligence and convenience of remote monitoring of the aedes eggs are greatly improved.

In this embodiment, the water in the upper case 2 may be directly discharged to the outside of the machine body, or may be discharged to the lower case 11. The continuous filter paper 9 can be just soaked by water in the upper box body 2 or water in the box body 11, specifically, the water is soaked to 1-10 MM on the upper surface of the continuous filter paper 9, so that mosquitoes can lay eggs, and the water injection frequency and the water injection quantity can be intelligently adjusted according to the data of the humidity sensor.

The embodiment also comprises a solar power supply module 5 and a cloud server; the solar power supply module 5 is electrically connected with the circuit control board 3 to provide working power for the circuit control board 3.

The circuit control board 3 is at least integrated with a singlechip, a positioning module for acquiring positioning information, a temperature and humidity sensor for monitoring external environment temperature and humidity information, a humidity sensing controller for controlling the operation of the humidity sensor 12, a water pump controller for controlling the operation of the water pump 15, a monitoring controller for controlling the operation of the camera 1, a roller driving controller for controlling the operation of the roller driving member 4, a water level controller for controlling the operation of the water level sensor 16, a lower box driving controller for controlling the operation of the lower box driving member 14, a video or image processor for processing the monitoring information of the camera 1, a timer for timing, a storage unit for storing information, and a communication module for transmitting the monitoring information of the camera 1, the external environment temperature and humidity information, the positioning information, the number or name of the aedes egg monitoring device to a cloud server

The monitoring method of the aedes egg monitoring device comprises the following steps:

step one, after the aedes egg monitoring equipment sets various parameters, starting a circuit control board 3 and starting a singlechip to initialize a system;

step two, the lower box body driving assembly drives the lower box body 11 to descend, and continuous filter paper 9 is allowed to pass through;

step three, starting a continuous filter paper driving assembly, and rolling the continuous filter paper 9 to a proper position;

step four, the lower box body driving assembly drives the lower box body 11 to ascend so that the lower box body 11, the continuous filter paper 9 and the upper box body 2 are tightly pressed together by means of the monitoring equipment for aedes and insect eggs to start monitoring work;

fifthly, the circuit control board 3 controls the water pump 15 to start water injection into the upper box body 2;

step six, the timer starts counting, after the monitoring time is enough or meets the set requirement, the camera 1 carries out video monitoring or photographing monitoring so as to obtain monitoring information, and meanwhile, the temperature and humidity sensor monitors the temperature and humidity environment information of the external environment where the aedes egg monitoring equipment is located, and the positioning module positions the environment where the aedes egg monitoring equipment is located;

step seven, the circuit control board 3 stores the monitoring information, the temperature and humidity information, the positioning information and the serial numbers or names of the aedes egg monitoring devices on a storage unit, and the storage unit sends the monitoring information, the temperature and humidity information, the positioning information and the serial numbers or names of the aedes egg monitoring devices to a cloud server through a communication module;

and step eight, after receiving the monitoring information, the temperature and humidity information, the positioning information, the numbers or the names transmitted by the aedes egg monitoring devices, the cloud server stores the monitoring information, the temperature and humidity information, the positioning information, the numbers or the names according to a certain index rule, classifies and counts various information, and finally stores the classification and counting results for a monitor to call, and the intelligent device can operate during calling.

In the seventh step, storing according to a certain index rule, at least classifying and storing according to the independent number or name of each aedes egg monitoring device.

The various information is classified and counted at least as video or shooting information in the monitoring information, and the video or shooting information is input into a neural network classifier after being subjected to image or image segmentation and feature extraction, and then the neural network classifier is used for classifying and counting the video or shooting information.

At least the characteristics of the aedes eggs are stored in the neural network classifier.

In the fourth step, the upper case 2 may attract mosquitoes except aedes to spawn, the camera 1 may record or photograph all eggs laid on the continuous filter paper 9, and the cloud server may exclude the monitoring information of the non-aedes eggs after receiving the images or images, so as to automatically identify whether the aedes eggs are or not and calculate the number of the aedes eggs.

The water injection time of the water pump 15, the working time of the camera 1, the working time of the temperature and humidity sensor, the working time of the positioning module and the working time of the storage unit are all controlled by a timer.

The circuit control board 3 automatically controls the water injection amount of the water pump 15 according to the information provided by the humidity sensor 12 to control the internal water amounts of the upper case 2 and the lower case 11.

The camera 1 can perform timing control through a timer to control the frequency of video recording or photographing information.

The temperature and humidity sensor can perform timing control through a timer so as to acquire temperature and humidity information of different time periods.

The positioning module can perform timing control through a timer so as to acquire positioning information of the aedes egg monitoring device.

The storage unit can carry out timing control through a timer so as to store monitoring information, temperature and humidity information, positioning information, aedes egg monitoring equipment number or name and other information in a certain time.

The water level sensor 16 can be controlled by a timer to obtain the water level in the water tank 7, so that a monitor can know the water amount in the water tank 7 at any time.

The circuit control board 3 sends the monitored information to the cloud server, and the cloud server stores, classifies and counts the monitored information, so that the collected eggs are automatically identified, and the MOI index (mosquito and egg attracting device index) is automatically calculated for subsequent call of a monitor; due to the fact that the cloud server is used for identification, classification and storage, the problem of large amount of manpower application can be solved, particularly the problem that a basic monitoring unit seriously lacks professional aedes egg identification personnel is solved, the monitoring result is greatly improved, the instability of manual monitoring is reduced, the monitoring cost of aedes eggs is further reduced, meanwhile, the operation of the aedes eggs monitoring equipment cannot be influenced by various subjective and objective factors, the obtained data is more stable and more reliable, and therefore a decision maker can be assisted to make a more scientific decision.

In addition, the aedes egg monitoring equipment can realize automatic water injection monitoring, so that a monitor can perform full-automatic monitoring operation on aedes eggs, the aedes egg monitoring device does not need any manual intervention when in work, can continuously provide continuous monitoring data for months or even years, therefore, the remote monitoring intelligence and convenience of the aedes eggs are greatly improved, meanwhile, the operation of the aedes eggs monitoring equipment is not affected by various subjective and objective factors, the obtained data are more stable and more credible, and a decision maker can be assisted to make a more scientific decision.

The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing embodiments and description merely illustrates the principles of the utility model, and that various changes and modifications may be effected therein without departing from the spirit and scope of the utility model as defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an aedes egg supervisory equipment's intelligent paper structure that trades, includes organism, its characterized in that: the machine body is provided with a water tank (7), a circuit control board (3), an upper box body (2), continuous filter paper (9) and a continuous filter paper driving assembly; the water tank (7) is communicated with the upper tank body (2); the continuous filter paper (9) is positioned below the upper box body (2) and is in driving connection with the continuous filter paper driving assembly; a camera (1) is arranged on the upper box body (2);

the circuit control board (3) is respectively and electrically connected with the camera (1) and the continuous filter paper driving assembly;

the camera (1) monitors eggs on the continuous filter paper (9) through the control of the circuit control board (3);

the continuous filter paper driving assembly drives the continuous filter paper (9) to be automatically replaced under the control of the circuit control board (3).

2. An intelligent paper changing structure of an aedes egg monitoring device according to claim 1, characterized in that: the continuous filter paper driving assembly comprises a paper discharging roller (23), a paper collecting roller (13) and a roller driving piece (4); the paper placing roller (23) and the paper collecting roller (13) are respectively positioned at the left side and the right side below the upper box body (2) and are respectively rotatably arranged on the machine body; the roller driving piece (4) is electrically connected with the circuit control board (3), and the driving end of the roller driving piece is in driving connection with the paper discharging roller (23) or the paper collecting roller (13); the continuous filter paper (9) is disassembled and assembled on the paper placing roller (23), the middle part of the continuous filter paper is positioned below the upper box body (2), and the outer end of the continuous filter paper is wound on the paper collecting roller (13).

3. An intelligent paper changing structure of an aedes egg monitoring device according to claim 2, characterized in that: the machine body is also provided with a lower box body (11) and a lower box body driving assembly; the lower box body (11) is in driving connection with the lower box body driving assembly, and the lower box body driving assembly are sequentially positioned below the continuous filter paper (9); the circuit control board (3) is electrically connected with the lower box body driving assembly; the lower box body driving assembly drives the lower box body (11) to lift on the machine body under the control of the circuit control board (3), and the lower box body (11) drives the continuous filter paper (9) to be tightly pressed or separated from the upper box body (2) when lifting.

4. An intelligent paper changing structure of an aedes egg monitoring device according to claim 3, wherein: the lower box body driving assembly comprises a fixed seat (6), a lower box body driving piece (14) and a guide rod (17); the fixed seat (6) is fixedly arranged on the machine body or the water tank (7); the lower box body driving piece (14) is fixedly arranged on the fixed seat (6) and is electrically connected with the circuit control board (3), and the driving end of the lower box body driving piece (14) is in driving connection with the lower box body (11); the guide rod (17) is fixedly arranged on the fixed seat (6) and is in guide fit with the lower box body (11).

5. An intelligent paper changing structure of an aedes egg monitoring device according to claim 3, wherein: the upper box body (2) is transparent or black, the bottom of the upper box body is provided with a bottom opening, and the continuous filter paper (9) is tightly pressed or separated from the bottom opening by the driving of the lower box body driving assembly.

6. An intelligent paper changing structure of an aedes egg monitoring device according to claim 4, wherein: the humidity sensor (12) is further arranged in the upper box body (2), and the humidity sensor (12) is electrically connected with the circuit control board (3) and is used for detecting the humidity in the upper box body (2) through the control of the circuit control board (3).

7. An intelligent paper changing structure of an aedes egg monitoring device according to claim 1, characterized in that: the camera (1) is an image camera or an image camera, is fixedly arranged at the inner top of the upper box body (2), and is opposite to the continuous filter paper (9).

8. An intelligent paper changing structure of an aedes egg monitoring device according to claim 1, characterized in that: the top or the side part of the upper box body (2) is provided with an opening for mosquitoes to fly into the upper box body (2).

9. An intelligent paper changing structure of an aedes egg monitoring device according to claim 6, wherein: a water pump (15) and a water level sensor (16) are arranged on the water tank (7); the water pump (15) is electrically connected with the circuit control board (3) and is communicated with a water pipe (10), and the water pipe (10) is communicated with the upper box body (2); the water level sensor (16) is electrically connected with the circuit control board (3) and monitors the water level inside the water tank (7) through the control of the circuit control board (3).

10. An intelligent paper changing structure of an aedes egg monitoring device according to claim 9, wherein: the system also comprises a solar power supply module (5) and a cloud server; the solar power supply module (5) is electrically connected with the circuit control board (3);

the intelligent control system is characterized in that the circuit control board (3) is at least integrated with a singlechip, a positioning module used for acquiring positioning information, a temperature and humidity sensor used for monitoring external environment temperature and humidity information, a humidity sensing controller used for controlling the operation of the humidity sensor (12), a water pump controller used for controlling the operation of the water pump (15), a monitoring controller used for controlling the operation of the camera (1), a roller driving controller used for controlling the operation of the roller driving piece (4), a water level controller used for controlling the operation of the water level sensor (16), a lower box driving controller used for controlling the operation of the lower box driving piece (14), a video or image processor used for processing the monitoring information of the camera (1), a timer used for timing, a storage unit used for storing information and a communication module used for sending the monitoring information of the camera (1), the external environment temperature and humidity information, the positioning information and the number or name of the insect egg monitoring equipment to a cloud server.

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