CN216775876U - Mosquito monitoring facilities - Google Patents

Abstract

The utility model provides mosquito monitoring equipment, which solves the technical problems that the existing mosquito catching or killing equipment can only catch or kill mosquitoes and does not relate to the monitoring of the quantity and the type of the mosquitoes and the real-time recording of environmental parameters. The monitoring device is characterized in that: comprises an environmental parameter monitoring device, a mosquito attracting device, a mosquito catching device, a counting device and a collecting device; the environment parameter monitoring device is used for collecting temperature, humidity and wind speed parameters; the mosquito trapping device is used for emitting a mosquito trapping signal for attracting mosquitoes; the mosquito catching device is used for catching mosquitoes attracted by the mosquito attracting device; the counting device is arranged on the mosquito catching device and is used for counting the number of the mosquitoes caught by the mosquito catching device and identifying the types of the mosquitoes; the collecting device is used for collecting the mosquitoes captured by the mosquito catching device.

Description

Mosquito monitoring facilities

Technical Field

The utility model relates to the technical field of vector monitoring, in particular to mosquito monitoring equipment.

Background

A conventional mosquito catching or killing apparatus generally includes a mosquito attracting light source, a mosquito catching fan, and a mosquito collecting box, wherein the mosquito attracting light source attracts mosquitoes to a position near the mosquito catching fan, the mosquito catching fan attracts the mosquitoes into the mosquito collecting box, and the mosquitoes are air-dried in the mosquito collecting box and die.

With the increasing expansion of urban construction scale and the acceleration of rural urbanization process, the living standard of people is greatly improved, and public health and safety problems are more and more concerned by people, such as disease prevention and control, disease media biological monitoring and the like, the quantity and the type of mosquitoes need to be monitored, and environmental parameters need to be recorded in real time. However, the existing mosquito catching or killing equipment only realizes the catching or killing of the mosquitoes and does not relate to the monitoring of the quantity and the types of the mosquitoes and the recording of real-time environmental parameters. Therefore, it is urgently needed to design a mosquito monitoring device to monitor the quantity and the type of the mosquitoes and to obtain the environmental parameters in real time.

SUMMERY OF THE UTILITY MODEL

The utility model provides mosquito monitoring equipment, aiming at solving the technical problems that the existing mosquito catching or killing equipment can only catch or kill mosquitoes, does not relate to the monitoring of the quantity and the type of the mosquitoes and records environmental parameters in real time.

In order to achieve the purpose, the technical scheme provided by the utility model is as follows:

a mosquito monitoring facilities which characterized in that: comprises an environmental parameter monitoring device, a mosquito attracting device, a mosquito catching device, a counting device and a collecting device;

the environment parameter monitoring device is used for collecting temperature, humidity and wind speed parameters;

the mosquito attracting device is used for emitting a mosquito attracting signal for attracting mosquitoes;

the mosquito catching device is used for catching mosquitoes attracted by the mosquito attracting device;

the counting device is arranged on the mosquito catching device and is used for counting the number of the mosquitoes caught by the mosquito catching device and identifying the types of the mosquitoes;

the collecting device is used for collecting the mosquitoes captured by the mosquito catching device.

Further, the device also comprises a shell with an opening at the upper end;

the mosquito trapping device is arranged at an opening at the upper end of the shell, and the upper end of the mosquito trapping device is connected with the lower end of the environmental parameter monitoring device;

the mosquito catching device, the counting device and the collecting device are all positioned in the shell, and the mosquito catching device and the collecting device are sequentially arranged below the mosquito trapping device from top to bottom.

Further, environmental parameter monitoring devices is including being located the shell top and luring the protective housing that is organ form that the mosquito device is connected, setting anemograph in protective housing and setting up in shell upper portion and be used for acquireing the temperature and humidity sensor of humiture.

Further, the protective shell comprises a top cover, a bottom plate arranged below the top cover and a protective grating structure arranged between the top cover and the bottom plate, wherein the top cover, the bottom plate and the protective grating structure enclose a hollow shell;

the protective grid structure comprises a plurality of parallel vertical protective grating plates which are arranged between the top cover and the bottom plate at intervals along the circumferential direction; the upper ends of all the vertical protection grating plates are provided with upper connecting rings for connecting the top cover, and the lower ends of all the vertical protection grating plates are provided with lower connecting rings for connecting the bottom plate;

or the protective grating structure comprises a plurality of parallel annular protective gratings which are arranged between the top cover and the bottom plate at intervals from top to bottom, and the top cover, the plurality of annular protective gratings and the bottom plate are fixed through locking pieces;

the environmental parameter monitoring device also comprises a light sensor arranged on the top cover and used for sensing illumination.

The anemoscope is arranged in the center of the protective shell through an anemoscope mounting seat;

the anemoscope mounting base is fixedly connected between the top cover and the protective grating structure or on the bottom plate.

Further, the mosquito attracting device comprises a mosquito attracting shell, and an attracting light source, a smell bait and a heating bait which are arranged in the mosquito attracting shell;

the lower part of the mosquito trapping shell is arranged in the shell, the upper end of the mosquito trapping shell is connected with the lower end of the environmental parameter monitoring device, and a mosquito trapping window is arranged at a position, between the environmental parameter monitoring device and the shell, of the mosquito trapping shell;

the attracting light source is used for emitting a mosquito attracting light signal for attracting mosquitoes;

the smell bait is used for emitting mosquito-attracting smell for attracting mosquitoes;

the heating bait is used for simulating the body temperature to generate heat to attract mosquitoes.

Furthermore, the heating bait is a heating patch arranged on the inner wall of the mosquito trapping shell;

the luring light source is an LED mosquito luring lamp.

Furthermore, the attracting light source is positioned in the middle of the mosquito attracting shell and corresponds to the position of the mosquito attracting window;

the heating bait is positioned at the periphery of the attracting light source;

the odor bait is positioned below the attracting light source.

Furthermore, the mosquito attracting windows are arranged along the circumferential direction of the mosquito attracting shell;

the heating patches are circumferentially arranged, and the number of the heating patches is less than or equal to that of the mosquito trapping windows;

the heating patch is positioned between the adjacent mosquito trapping windows.

Furthermore, a protective net positioned below the attracting light source is arranged on the inner wall of the mosquito attracting shell, and the protective net is positioned below the mosquito attracting window;

the smell bait is arranged on the protective net;

further, the mosquito catching device comprises a mosquito catching fan, an escape-proof net and a cage structure;

the mosquito catching fan is arranged at the lower part of the mosquito trapping device through a fan support;

the upper end of the anti-escape net is connected with the lower end of the mosquito trapping device and is positioned below the mosquito catching fan;

the cage structure is supported on the inner wall of the shell;

the counting device comprises a camera and at least 1 counter; the counter is positioned at the upper end inside the cage structure and corresponds to the escape-proof net and is used for counting the quantity of mosquitoes entering the cage structure from the escape-proof net;

the camera sets up at cage structure for shoot the mosquito image that falls in cage structure, and discernment mosquito kind.

Further, the counter is 2 that set up side by side from top to bottom, and every counter middle part is equipped with the mosquito passageway with prevent escaping net lower end mosquito entry intercommunication.

Furthermore, the cage structure comprises a cover plate, a cage frame, a cage net and a turnover plate; the cover plate is provided with a first through hole, and the lower end of the escape-proof net is fixedly and hermetically connected with the first through hole of the cover plate; the cage frame is a cubic frame or a cylindrical frame, the upper end of the cage frame is fixedly connected with the cover plate, and the periphery of the cage frame is hermetically connected with a cage net;

any side edge of the lower end of the cage frame is hinged with one end of the turning plate;

the counter is arranged on the lower surface of the cover plate, and the mosquito channel is communicated with the first through hole;

the camera is arranged on the cover plate.

Furthermore, the escape-proof net is of an inverted frustum structure, and the small end of the escape-proof net is fixedly and hermetically connected with the first through hole in the cover plate;

the cover plate is provided with an anti-escape net support which is positioned on the periphery of the first through hole and used for supporting the anti-escape net;

the upper surface of the turning plate is white, so that mosquito images can be conveniently identified;

the cage net is a gauze net with 10-18 meshes.

Furthermore, the collecting device comprises a turning plate driving piece connected with the turning plate and a collecting barrel arranged below the turning plate;

the turning plate driving piece is used for driving the turning plate to topple over and pouring mosquitoes on the turning plate into the collecting barrel.

Furthermore, the other end of the turning plate is provided with a closing structure, and two side edges are provided with flanges;

the collecting barrel is positioned below the closing structure of the turning plate;

the turning plate driving piece is used for driving the turning plate to rotate around the hinged position, so that the turning plate is horizontally closed and topples downwards; when the turning plate driving part drives the turning plate to incline downwards, the closing structure of the turning plate is positioned at the mosquito inlet at the upper end of the collecting barrel, so that the mosquitoes on the turning plate can be poured into the collecting barrel downwards from the closing structure side.

Further, a collecting barrel support used for placing the collecting barrel is included;

the collecting barrel support is a flat plate which is horizontally arranged, the edge of the flat plate is connected to the inner wall of the shell, and the middle of the flat plate is provided with a second through hole; the collecting bucket is arranged in the second through hole of the collecting bucket support in a penetrating mode, and an annular limiting plate used for being in surface contact with the upper surface of the collecting bucket support is arranged at the upper end of the collecting bucket.

Furthermore, the collecting barrel adopts a plate type or screen mesh type or woven mesh type structure;

a handle is arranged on the collecting barrel;

the turning plate driving part is a telescopic electric push rod or an electric cylinder push rod or an air cylinder push rod, the telescopic end of the turning plate driving part is hinged with the lower surface of the turning plate, and the fixed end of the turning plate driving part is connected to the mounting plate in the shell in a hinged mode.

Further, the shell comprises a base and a barrel body arranged on the base;

staving lateral wall and the corresponding position of collection device are equipped with the upper cover plate that can open, are equipped with first air vent with the corresponding position of cage structure.

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

1. the mosquito monitoring equipment comprises an environmental parameter monitoring device, a mosquito attracting device, a mosquito catching device, a counting device and a collecting device, wherein the environmental parameter monitoring device acquires temperature, humidity and wind speed parameters in real time, the counting device monitors the quantity and the type of mosquitoes and collects the mosquitoes through the collecting device.

2. The environmental parameter monitoring device comprises the anemoscope and the temperature and humidity sensor, and can acquire the related meteorological parameters of wind speed and temperature and humidity in real time, thereby avoiding the problems of high labor cost, long time consumption and high error rate caused by manual field operation.

3. According to the utility model, the protective shell is additionally arranged outside the anemoscope, so that the anemoscope can be ensured to acquire real and effective parameters, and can be protected from being touched and damaged by people or birds and beasts, the service life of the anemoscope is prolonged, and the anemoscope is more attractive while being protected.

4. The mosquito trapping device comprises the trapping light source, the smell bait and the heating bait, mosquitoes are attracted under the combined action of the light, the smell and the temperature, and compared with the existing light mosquito trapping device or the existing smell mosquito trapping device, the mosquito trapping efficiency is effectively improved.

5. The mosquito trapping device has the advantages that the trapping light source is arranged in the middle of the mosquito trapping shell, the heating bait is arranged at the periphery of the trapping light source, and the odor bait is arranged below the trapping light source, so that the mosquito trapping efficiency can be further improved.

6. The protective net is arranged on the mosquito trapping shell, so that other large flying insects except mosquitoes can be prevented from entering the rear end, and the accuracy of mosquito detection by mosquito monitoring equipment is influenced; meanwhile, the protective net is positioned at the front end of the mosquito catching fan, the protective net with a proper net hole diameter is arranged in front of the mosquito catching fan, so that the damage of the mosquito catching fan caused by the fact that foreign matters enter the mosquito catching fan rotating at a high speed can be prevented, and the service life of the mosquito catching fan is prolonged.

7. The periphery of the cage structure is provided with the cage net which can limit mosquitoes to escape, the mosquitoes are trapped in the cage after entering the cage structure through the escape-proof net until being aired and dead and fall on the surface of the turning plate, and meanwhile, the cage net is of a gauze structure, so that the air circulation in the cage is facilitated, and the mosquitoes are aired and dead.

8. The counting device comprises a counter and a camera, the number of mosquitoes passing through the inlet of the cage structure is automatically accumulated by the counter, and the types of the mosquitoes are identified by taking pictures of the mosquitoes falling on the turning plate of the cage structure through the camera, so that the counting device can ensure the counting accuracy, improve the working efficiency and save the labor cost by adopting an automatic counting mode; the mosquito counting device can capture mosquitoes and realize counting function at the same time.

9. In order to ensure the accuracy of mosquito quantity counting, the number of the counters is 2, and the counters are arranged side by side up and down.

10. The surface of the turning plate is white, is different from the self color of most mosquitoes, is convenient for a camera to identify the mosquitoes, is more beneficial to detecting the quantity of the mosquitoes in the environment and timely carries out large-scale killing work.

11. The collecting device collects the mosquitoes sucked by the mosquito catching fan through the turning plate, and after the counting of the mosquitoes is finished, the turning plate is driven by the turning plate driving piece to dump the mosquitoes on the turning plate into the collecting barrel; the collecting barrel is cleaned once without counting mosquitoes for once, and only once cleaning is carried out on the mosquitoes collected in the collecting barrel after completing counting the mosquitoes and turning over the plate for many times, dozens of times or even more, so that the cleaning frequency of the collecting barrel is reduced.

12. The utility model can realize the collection of the mosquitoes by driving the turning plate to topple over through the turning plate driving part, prolongs the existing time that the mosquitoes need to be cleaned manually in a short time, and can be collected without manual contact by matching the collecting barrel with the turning plate, thereby avoiding manual operation and reducing the manual workload and the probability of contacting the mosquitoes.

13. The turning plate is provided with a closing structure, and when the turning plate is inclined downwards, the closing structure of the turning plate is designed to be positioned at the mosquito inlet at the upper end of the collecting barrel, so that all the mosquitoes on the turning plate can be conveniently and accurately poured into the collecting barrel.

14. One end of the turning plate is hinged, and the turning plate is driven to rotate around the hinged position by the turning plate driving piece, so that the turning plate can be horizontally closed and toppled downwards, and the operation is simple and convenient.

15. The collecting barrel support is a flat plate, the structure is simple, the collecting barrel can be designed to be a structure with a larger containing cavity, and the cleaning times of the collecting barrel are further reduced.

16. The collecting barrel is provided with the lifting handle, so that the collecting barrel is convenient to take and place; and the mosquitoes can be taken out and treated under the condition of not contacting the mosquitoes, so that the mosquitoes are prevented from being manually contacted with the vector mosquitoes.

Drawings

Fig. 1 is a schematic external view of an embodiment of a mosquito monitoring apparatus according to the present invention;

fig. 2 is a schematic view of an internal structure of an embodiment of the mosquito monitoring apparatus of the present invention;

FIG. 3 is a schematic view of the environment parameter monitoring device and the mosquito attracting device according to the embodiment of the present invention;

fig. 4 is a schematic structural view of a first protection grid structure according to an embodiment of the present invention, wherein a is a schematic internal structural view, and b is a schematic external structural view and is partially exploded;

fig. 5 is a schematic structural diagram of a second protective grid structure in an embodiment of the present invention, wherein a is an internal structural diagram and b is an external structural diagram;

FIG. 6 is a schematic view of the mosquito attracting device according to the embodiment of the present invention;

FIG. 7 is a schematic view of the mosquito attracting device according to the embodiment of the present invention;

FIG. 8 is a schematic view of a heating lure according to an embodiment of the present invention;

FIG. 9 is a top view of the mosquito attracting device according to the embodiment of the present invention (not shown with the waterproof lamp cover, the attracting light source, and the mosquito attracting lamp socket);

FIG. 10 is a schematic view of two different forms of escape-proof net according to the embodiment of the present invention, wherein a is a silk screen type and b is a perforated plate type;

FIG. 11 is a schematic view showing the structure of a mosquito catching device according to an embodiment of the present invention;

FIG. 12 is a schematic view showing the structure of a mosquito catching device according to an embodiment of the present invention (a mosquito catching fan is not shown);

FIG. 13 is a schematic structural diagram of the cage structure in the embodiment of the present invention (schematically showing a camera);

FIG. 14 is a schematic view of the structure of the collecting device in the embodiment of the present invention (the flap is in horizontal closure);

FIG. 15 is a schematic view of the structure of the collecting device in the embodiment of the present invention (the flap is in a downward tilting state);

FIG. 16 is a schematic view of the collector body of the collector apparatus of the embodiment of the utility model shown removed from the collector body support (with the flaps in a horizontal closed position);

FIG. 17 is a schematic view of three different types of collecting barrels of the collecting device in the embodiment of the present invention, wherein a is a plate type, b is a mesh type, and c is a woven mesh type;

wherein the reference numbers are as follows:

1-environmental parameter monitoring device, 2-mosquito trapping device, 3-mosquito catching device, 4-counting device, 5-collecting device, 6-shell and 7-control module;

11-an anemoscope, 12-an anemoscope mounting seat, 13-a protective shell, 131-a top cover, 132-a fixing bolt, 133-a spacing column, 134-an annular protective grid, 135-a nut, 136-a bottom plate, 137-an upper connecting ring, 138-a lower connecting ring, 139-a vertical protective grid plate, 140-a light sensor and 141-a temperature and humidity sensor;

21-mosquito attracting shell, 211-mosquito attracting window, 212-protective net, 22-attracting light source, 221-mosquito attracting lamp holder, 23-smell bait, 24-heating bait and 25-waterproof lamp shade;

31-anti-escape net, 311-mosquito inlet, 32-cage structure, 321-cover plate, 3211-through hole, 322-cage frame, 323-cage net, 324-turning plate, 3241-closing structure, 3242-flange, 3243-hinged seat, 3244-hinge, 325-anti-escape net support and 33-mosquito catching fan;

41-counter, 411-mosquito channel, 42-camera;

51-flap drive, 511-hinge hole; 52-collecting barrel, 521-mosquito inlet, 522-handle and 523-annular limiting plate; 53-collecting barrel support, 532-through hole;

61-base, 62-barrel, 63-mounting plate, 64-upper cover plate, 65-lower cover plate, 66-first vent hole, 67-second vent hole, 68-third vent hole, and 69-temperature and humidity meter.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1 and 2, the mosquito monitoring apparatus according to the present invention is an apparatus for monitoring the quantity and species of mosquitoes according to the biological density of the mosquitoes, and includes an environmental parameter monitoring device 1, a mosquito attracting device 2, a mosquito catching device 3, a counting device 4, a collecting device 5, a control module 7, and a housing 6 with an open top.

The environmental parameter monitoring device 1 collects parameters of temperature, humidity, illumination and wind speed according to monitoring requirements, and provides accurate reference for monitoring data.

The mosquito trapping device 2 is arranged at an opening at the upper end of the shell 6, the upper end of the mosquito trapping device is connected with the lower end of the environmental parameter monitoring device 1, and the mosquito trapping device 2 is used for emitting a mosquito trapping signal for attracting mosquitoes to attract the mosquitoes to approach the equipment.

The mosquito catching device 3, the counting device 4 and the collecting device 5 are all positioned in the shell 6, and the mosquito catching device 3 and the collecting device 5 are sequentially arranged below the mosquito attracting device 2 from top to bottom.

The mosquito catching device 3 is used for catching the mosquitoes attracted by the mosquito attracting device 2.

The counting device 4 is arranged on the mosquito catching device 3 and is used for counting the number of the mosquitoes caught by the mosquito catching device 3 and identifying the mosquito types.

The collecting device 5 is used for collecting the mosquitoes captured by the mosquito catching device 3.

The control module 7 is arranged at the lower part in the shell 6 and used for providing functions of equipment logic control, data statistics, parameter acquisition and uploading of an environmental parameter monitoring device and the like.

As shown in fig. 3, the environmental parameter monitoring device 1 includes an organ-shaped protective casing 13 located above the casing, an anemometer 11 disposed in the protective casing 13, and a temperature and humidity sensor 141 with a display screen for acquiring temperature and humidity, wherein the temperature and humidity sensor 141 is disposed on an inner wall mounting seat on an upper portion of the casing 6. The mounting seat is located the position that corresponds with temperature and humidity sensor 141 on shell 6, and the mounting seat is equipped with display window 69 in temperature and humidity sensor 141's display screen position, and is specific, and the material of display window is organic glass, and the display window is installed in the mounting seat. The mounting seat is welded on the shell, and the display screen of the temperature and humidity sensor arranged in the shell can be observed through the display window, so that the temperature and humidity parameters can be displayed on the display screen in real time.

The protective casing 13 comprises a top cover 131, a bottom plate 136 arranged below the top cover 131 and a protective grid structure arranged between the top cover 131 and the bottom plate 136, wherein the top cover 131, the bottom plate 136 and the protective grid structure enclose a hollow shell;

the embodiment gives two specific structures of the protective grid structure:

first, as shown in fig. 4, the protective grid structure includes a plurality of parallel annular protective grids 134 arranged between a top cover 131 and a bottom plate 136 at intervals from top to bottom, the top cover 131, the annular protective grids 134 and the bottom plate 136 are circular structures, the radiuses of the top cover 131, the radiuses of the annular protective grids 134 and the radiuses of the bottom plate 136 are equal, the centers of the top cover 131, the radiuses of the annular protective grids 134 and the radiuses of the bottom plate 136 are coaxial, and hollow spacing columns 133 are arranged between the uppermost annular protective grids 134 and the top cover 131, between adjacent annular protective grids 134, and between the lowermost annular protective grids 134 and the bottom plate 136. The circumference of the top cover 131, the annular protective grating 134 and the bottom plate 136 is uniformly provided with 4 threaded holes, the top cover 131, the annular protective grating 134 and the bottom plate 136 are fixedly connected through the threaded holes in the top cover 131, all the annular protective gratings 134 and the bottom plate 136 and the middle spacing column 133 through the fixing bolt 132, and the fixing bolt 132 is provided with a nut 135 under the bottom plate 136 and is locked and fixed. In other embodiments, the top cover 131, the annular protective grille 134 and the bottom plate 136 may also be square, the centers of the three are coaxial, the size of the top cover 131 is larger than that of the annular protective grille 134 and the bottom plate 136, and the top cover 131 has a better rain and snow preventing function. The square top cover 131 is hollow, a nut 135 is arranged in a position corresponding to the fixing bolt and is welded and fixed with the top cover 131, the fixing bolt penetrates through a connecting hole in the lower part of the bottom plate 136 and is connected with the nut 135 fixed in the top cover 131, or the fixing stud can be changed into a fixing stud, and the upper part and the lower part of the fixing stud are both fixed by the nuts 135.

Secondly, as shown in fig. 5, the protective grid structure comprises a plurality of parallel vertical protective grid plates 139 arranged at intervals along the circumferential direction between the top cover 131 and the bottom plate 136; the upper ends of all the vertical protective grids 139 are provided with upper connection rings 137 for connection with the top cover 131, and the lower ends of all the vertical protective grids 139 are provided with lower connection rings 138 for connection with the bottom plate 136.

The anemoscope 11 is arranged in the center of the protective shell 13 through an anemoscope mounting seat 12; the center of the anemoscope installation base 12 is circular, the anemoscope 11 is installed in the center through bolts and nuts, 4 connecting pieces are arranged on the circumference of the anemoscope installation base, and the length from the center of the anemoscope installation base 12 to the outer edge of each connecting piece is equal to the radius of the protective grating. The connector ends are provided with through holes through which the fixing bolts pass to be connected between the protective grids, the diameter of the through holes being larger than the diameter of the fixing bolts and smaller than the diameter of the spacer posts, normally between the top plate and the first spacer post 133.

As shown in fig. 3, the environmental parameter monitoring device 1 further includes a light sensor 140 disposed on the top cover 131 for sensing light, and since the activity time of the mosquitoes is concentrated at night, the light sensor 140 can determine whether the current environment is day or night, and send the signal to the control module 7, and the control module 7 makes the equipment work and monitors the mosquitoes when receiving the current environment at night.

The environmental parameter monitoring device 1 of the embodiment can acquire related weather parameters such as wind direction and wind speed in real time, and solves the problems of high labor cost, long consumed time and high error rate of manual field operation. Add protecting sheathing 13 outside anemoscope 11, can guarantee that anemoscope 11 gathers the parameter true and effective, can protect anemoscope 11 again to receive artificial or birds and beasts mistake to touch and destroy, improve anemoscope 11's life, also more pleasing to the eye when the protection.

The mosquito attracting device 2 of the present embodiment mainly attracts mosquitoes to approach the apparatus by a combined mosquito attracting manner of light, smell, and temperature, specifically, as shown in fig. 6 and 7, the mosquito attracting device 2 includes a mosquito attracting housing 21, and an attracting light source 22, a smell bait 23, and a heat-generating bait 24 disposed in the mosquito attracting housing 21; the attracting light source 22 is used for emitting a mosquito attracting light signal for attracting mosquitoes; the smell bait 23 is used for emitting a mosquito-attracting smell for attracting mosquitoes; the heating bait 24 is used for simulating the body temperature to generate heat to attract mosquitoes.

The mosquito attracting case 21 of the present embodiment is a hollow cylinder structure, and has a plurality of mosquito attracting windows 211, preferably, the mosquito attracting windows 211 are circumferentially disposed on the mosquito attracting case 21; the light source 22 is an LED mosquito-luring lamp in this embodiment, the LED mosquito-luring lamp is installed on the upper end of the mosquito-luring housing 21 through the mosquito-luring lamp holder 221, and the LED mosquito-luring lamp extends into the mosquito-luring housing 21 and is located in the middle of the mosquito-luring housing 21. In order to improve the safety, a waterproof lampshade 25 is disposed on the upper end of the mosquito-luring shell 21 and above the mosquito-luring lamp holder 221.

Preferably, the heat-generating bait 24 is located at the periphery of the attracting light source 22, the heat-generating bait 24 is a plurality of heat-generating patches arranged on the inner wall of the mosquito attracting case 21, preferably, the number of the heat-generating patches is less than or equal to the number of the mosquito attracting windows 211, the heat-generating patches are located between the adjacent mosquito attracting windows 211, or 1 or several mosquito attracting windows 211 may be arranged between the adjacent mosquito attracting windows 211, as shown in fig. 8 and 9, the heat-generating bait 24 in this embodiment is 5 heat-generating patches arranged circumferentially.

As shown in fig. 6, the odor bait 23 is located right below the attracting light source 22, preferably, a protective net 212 is provided on the inner wall of the mosquito attracting case 21 below the attracting light source 22, a mosquito attracting window 211 is located above the protective net 212, the odor bait 23 is provided on the protective net 212, a mosquito catching fan 33 is generally provided at a position adjacent to the lower side of the protective net 212, and the odor bait 23 emits mosquito attracting odor by air flowing by natural volatilization.

The working process of the mosquito attracting device 2 of the embodiment is as follows: the mosquito attracting light signal emitted by the attracting light source 22 attracts mosquitoes through the mosquito attracting window 211 on the mosquito attracting case 21, meanwhile, the heating temperature of the heating patch between the mosquito attracting windows 211 of the mosquito attracting case 21 is approximate to the body surface temperature of the human body to simulate the heating of the human body and attract mosquitoes, and the odor bait 23 also emits mosquito attracting odor to attract mosquitoes, under the combined action of the three attracting modes, the mosquitoes are attracted into the mosquito attracting case 21 from the mosquito attracting window 211, then the mosquitoes are attracted into the mosquito collecting box through the mosquito catching fan 33, and the mosquitoes are air-dried and killed in the mosquito collecting box, so that the mosquito catching action is completed. The embodiment lures mosquito device 2 and lures the mosquito, the mosquito is lured to smell, the temperature lures the mosquito combined action through light, improves and lures mosquito efficiency.

In the embodiment, the mosquito catching device 3 catches mosquitoes into the cage by means of the fan and dries the mosquitoes quickly, which is convenient for monitoring and counting, as shown in fig. 11 and 12, the mosquito catching device 3 comprises a mosquito catching fan 33, an anti-escape net 31 and a cage structure 32; the mosquito catching fan 33 is installed at the lower part of the mosquito trapping device 2 through a fan support, the upper end of the escape-proof net 31 is connected with the lower end of the mosquito trapping device 2 and is positioned at the rear end of the mosquito catching fan 33, and the cage structure 32 is supported on the inner wall of the shell 6; mosquito-catching fan 33 sets up with protection network 212 is adjacent, installs smell bait 23 on the protection network 212 before mosquito-catching fan 33, and smell bait 23 drives the air flow through natural volatilization and fan and gives off and lures the mosquito smell to it is higher through air diffusion efficiency to utilize the fan to inhale the air current downwards to compare the bait, and the scope is wider, can inhale the mosquito in the environment by bigger degree, and it is higher to lure mosquito efficiency, has also improved the accuracy of monitoring facilities mosquito monitoring data in to the environment.

As shown in fig. 10, the protection net 212 of the present embodiment is a wire mesh type or a perforated plate type, wherein a is a wire mesh type and b is a perforated plate type. The diameter of the gap between the silk screens or the pore plates is 5 mm-15 mm, and the diameter of the gap between the silk screens or the pore plates refers to the diameter of a circular hole or the distance between opposite sides of a regular polygonal hole or the diameter of an inscribed circle. The size of common mosquitoes is about 1 mm-2 mm, the size of common mistaken-entering flying insects (moths) counted by the monitoring equipment is about 20 mm-30 mm, so the protective net 212 can effectively prevent other large flies from entering the mosquito monitoring equipment, the counting accuracy in the mosquito monitoring process is improved, meanwhile, the foreign matters can be prevented from entering the mosquito catching fan 33 rotating at a high speed to cause the damage of the mosquito catching fan 33, and the service life of the mosquito catching fan 33 is prolonged.

Specifically, as shown in fig. 13, the cage structure 32 includes a cover plate 321, a cage frame 322, a cage net 323, and a turning plate 324; a first through hole 3211 is formed in the cover plate 321 at a position corresponding to the mosquito inlet 311 at the lower end of the escape-proof net 31, and the lower end of the escape-proof net 31 is fixedly and hermetically connected with the first through hole 3211 of the cover plate 321; the cage frame 322 of the embodiment is a cubic frame, the upper end of the cage frame is fixedly connected with the cover plate 321 through bolts, the periphery of the cage frame is hermetically connected with the cage net 323, and the cage net 323 is a gauze with a pore diameter of 1-2 mm, which is 10-18 meshes (aperture 1-2 mm), so that air ventilation in the cage structure 32 is facilitated to accelerate air drying death of mosquitoes and limit the mosquitoes from escaping from the cage structure 32, the gauze is made of metal, and the gauze of the embodiment adopts steel wires or stainless steel wires with certain strength;

there is no gap in the seal between the underside of cage frame 322 and flap 324. The turning plate 324 is trapezoidal, the bottom edge of the turning plate 324 is connected with a hinge 3244 of the turning plate 324, two side edges are provided with flanges 3242 and a front end closing structure 3241, and when downward turning mosquitoes of the turning plate 324 slide down, the downward turning mosquitoes are collected by the closing structure 3241 and poured into the collecting device 5 to prevent the dead bodies of the mosquitoes from scattering. In other embodiments, cage frame 322 is also a cylindrical frame or other shape as desired.

The mosquito catching fan 33 is installed above the anti-escape net 31, and under the action of the mosquito catching fan 33, mosquitoes are sucked into the anti-escape net 31 and further into the cage structure 32, so that the anti-escape net 31 is designed into an inverted frustum structure, the anti-escape effect is better, and the lower end of the anti-escape net 31 is fixedly and hermetically connected with the first through hole 3211 on the cover plate 321 through a bolt; furthermore, an anti-escape net support 325 located on the periphery of the lower end of the anti-escape net 31 is arranged around the first through hole 3211 of the cover plate 321 to support the anti-escape net 31, the joint of the anti-escape net 31 and the cover plate 321 is sealed, mosquitoes can fly into the anti-escape net 31 and then cannot escape from the side, and the mosquitoes can be ensured to enter the cage structure 32 through the first through hole 3211 of the cover plate 321.

The counting device 4 accurately counts by means of a combined counting mode of the counter 41 and the camera 42, as shown in fig. 11 and 12, the counting device 4 comprises the camera 42 and at least 1 counter 41; the counter 41 is positioned at the upper end inside the cage structure 32 and is arranged corresponding to the escape-proof net 31, and is used for counting the quantity of mosquitoes entering the cage structure 32 from the escape-proof net 31; the camera 42 is disposed on the cover plate 321 of the cage structure 32, and is used for capturing mosquito images falling in the cage structure 32 and identifying mosquito types.

In order to automatically detect the quantity of mosquitoes, a counter 41 is disposed at a position where mosquitoes enter the cage structure 32, specifically, the counter 41 may be mounted on a lower surface of the cover plate 321 or on an upper end of an inner side wall of the cage frame 322, the counter 41 is configured to count the mosquitoes flying into the cage structure 32, and the counter 41 of this embodiment is a photoelectric blanking sensor; and the cage structure 32 is provided with a camera 42, the camera 42 of the embodiment adopts an infrared camera 42; the camera 42 is just facing to the turning plate 324 of the cage structure 32, and can also assist the mosquito counting by regularly shooting the turning plate 324, and meanwhile, the subsequent mosquito killing work is facilitated by recognizing the type of the mosquito through images. The upper surface of the turning plate 324 of the cage structure 32 is preferably white, which is different from the self color of most mosquitoes, so that the image is more clear, and the mosquito species can be counted or identified conveniently.

The quantity of counter 41 can carry out reasonable design according to actual need, and 2 that this embodiment counter 41 set up side by side from top to bottom are, and every counter 41 middle part is equipped with mosquito passageway 411, and prevents escaping the concentric and intercommunication each other of mosquito entry 311, the first through-hole 3211 on the apron 321 and the mosquito passageway 411 of counter 41 of mosquito entry 311, the net 31 lower extreme that escapes, ensures the accuracy of count through 2 counters 41.

As shown in fig. 14, the collecting device 5 of the present embodiment includes a flap driving member 51 connected to the flap 324 and a collecting barrel 52 disposed below the flap 324; the turning plate 324 is positioned at the rear end of the mosquito catching fan 33 and used for collecting mosquitoes sucked by the mosquito catching fan 33, the turning plate 324 is downwards inclined through the turning plate driving element 51, the mosquitoes collected on the turning plate 324 are automatically poured into the collecting barrel 52, and manual contact with a vector is reduced. The collecting barrel 52 is positioned below the closing structure 3241 of the turning plate 324; the flap driving member 51 is used for driving the flap 324 to tilt downwards from the closing structure 3241 side, when the flap 324 tilts downwards, mosquitoes slide and are collected through the closing structure 3241, and the mosquitoes are poured into the collecting barrel 52, so that the mosquito corpses are prevented from scattering. The flap driving member 51 of the present embodiment is used for driving the flap 324 to rotate around the hinge joint, so as to realize horizontal closing and downward tilting of the flap 324; when the turning plate 324 is closed, the turning plate 324 is horizontally arranged and used for collecting mosquitoes sucked by the mosquito catching fan 33, as shown in fig. 14; when the flap 324 is tilted, the flap 324 is tilted downward so that the closing structure 3241 is located at the mosquito inlet 521 at the upper end of the collecting barrel 52, as shown in fig. 15.

The turning plate driving piece 51 is a telescopic electric push rod or an electric cylinder push rod or an air cylinder push rod, the telescopic end of the turning plate driving piece is hinged with the middle part of the lower surface of the turning plate 324, and the fixed end of the turning plate driving piece is connected to the shell 6 in a hinged mode; the middle part of the lower surface of the turning plate 324 is provided with a hinged support 3243 for connecting with the telescopic end of the turning plate driving element 51, and the other end of the turning plate 324 is provided with a hinge 3244 for hinging with the inner wall of the shell 6; the fixed end of the flap driver 51 is provided with a hinge hole 511 for connecting with the bottom surface of the housing 6.

In the embodiment, the collecting barrel 52 is placed in the housing 6 through the collecting barrel support 53, the collecting barrel support 53 is a flat plate horizontally arranged, the edge of the flat plate is provided with a mounting hole for connecting with the housing 6, and the middle part of the flat plate is provided with a second through hole 532; the collecting barrel 52 is inserted into the second through hole 532 of the collecting barrel support 53, and an annular limiting plate 523 for contacting with the upper surface of the collecting barrel support 53 is disposed at the upper end of the collecting barrel 52.

As shown in fig. 17, the collecting bucket 52 may adopt a plate type or screen type or woven mesh type structure, or a collecting bucket 52 with a corresponding form structure according to the size of the collected mosquitoes; as shown in FIG. 16, a handle 522 is provided on the collection bucket 52 to facilitate access of the collection bucket 52 to the collection bucket support 53.

The working process of this embodiment mosquito monitoring facilities:

utilizing the sensibility of mosquitoes to the induction light (the induction light source 22), the bait smell (the smell bait 23) and the temperature (the heating bait 24), attracting the mosquitoes to the vicinity of the mosquito catching fan 33, the mosquito catching fan 33 sucks the mosquitoes, after the mosquitoes enter the cage structure 32 through the escape-proof net 31, the mosquitoes are trapped in the cage structure 32 until being air-dried and dead and fall on the upper surface of the turning plate 324, after the counting of the mosquitoes on the turning plate 324 by the counter 41 is completed and the recognition of the mosquito species on the turning plate 324 by the camera 42 is completed, in order to clean the mosquitoes in the turning plate 324, one end of the turning plate 324 is hinged with the cage frame 322, the other end is provided with a closing structure 3241, and the other side edges are provided with a blocking edge 3242; usually, the turning plate 324 is positioned and connected to the lower end of the cage frame 322 through the turning plate driving element 51, when mosquitoes are needed to be cleaned, the turning plate driving element 51 drives the turning plate 324 to turn downwards around the hinged part, so that the mosquitoes on the turning plate 324 slide down and are collected through the closing-in structure 3241, and a mosquito collecting box with larger capacity is poured into the box, thereby preventing the dead bodies of the mosquitoes from scattering, being convenient for regularly cleaning the mosquitoes on the turning plate 324, and reducing the workload of workers and the probability of contacting the mosquitoes; after the mosquito is cleaned, the turning plate 324 is reset to be in a closed state and the next statistical cycle is started, so that the collecting device 5 does not need to count the mosquitoes once to clean the collecting barrel 52 once, and after the mosquito counting is completed for many times, dozens of times or even more and the turning plate 324 is turned down, the mosquitoes collected in the collecting barrel 52 are cleaned once, the condition that the mosquitoes need to be cleaned manually in a short time interval in the prior art is prolonged, and the collecting barrel 52 can be designed to be of a structure with a larger accommodating cavity in order to reduce the cleaning times of the collecting barrel 52; moreover, the collecting barrel 52 is matched with the turning plate 324, so that mosquitoes can be collected under the condition of no manual contact, the manual operation is avoided, and the manual workload and the probability of mosquito contact are reduced; and the handle 522 that the collecting bucket 52 is equipped with can take out, handle the mosquito under the condition of not contacting the mosquito, avoid artifical contact vector mosquito, improve the security.

The housing 6 of the present embodiment includes a base 61 and a barrel 62 disposed on the base 61; an openable upper cover plate 64 is arranged on the side wall of the barrel body 62 corresponding to the collecting device 5 and used for taking and placing the collecting barrel 52; the lower part of the side wall of the barrel body 62 is provided with a lower cover plate 65 which can be opened, so that the control module 7 and electrical elements in the equipment can be conveniently overhauled;

in addition, the first vent hole 66 is arranged on the side wall of the barrel body 62 corresponding to the cage structure 32, so that mosquito-attracting smell can be emitted conveniently, air flow is sucked downwards by the fan, bait smell is diffused through the vent hole of the mosquito catching device 3, compared with a bait, the mosquito-attracting device has higher air diffusion efficiency and wider range, mosquitoes in the environment can be sucked to a greater extent, mosquito-attracting efficiency is higher, and the accuracy of mosquito monitoring data in the environment by the mosquito monitoring equipment is also improved; the side wall of the barrel body 62 is provided with a second vent hole 67 corresponding to the collecting device 5, rainwater can fall on the mounting plate 63 when entering the shell 6, the second vent hole 67 is used for air-drying water on the mounting plate 63, and rainwater on the mounting plate 63 can be discharged through the second vent hole 67, so that rainwater is prevented from entering the lower control module 7 (electrical component), the working condition of equipment is prevented from being influenced, and the use safety is improved; a third vent hole 68 is formed in the side wall of the barrel body 62 corresponding to the control module 7, so as to provide a ventilation environment for the operation of the control module 7.

The above description is only for the preferred embodiment of the present invention and does not limit the technical solution of the present invention, and any modifications made by those skilled in the art based on the main technical idea of the present invention belong to the technical scope of the present invention.

Claims (17)

1. The utility model provides a mosquito monitoring facilities which characterized in that: comprises an environmental parameter monitoring device (1), a mosquito attracting device (2), a mosquito catching device (3), a counting device (4) and a collecting device (5);

the environment parameter monitoring device (1) is used for collecting temperature, humidity and wind speed parameters;

the mosquito attracting device (2) is used for emitting mosquito attracting signals for attracting mosquitoes;

the mosquito catching device (3) is used for catching mosquitoes attracted by the mosquito attracting device (2);

the counting device (4) is arranged on the mosquito catching device (3) and is used for counting the number of mosquitoes caught by the mosquito catching device (3) and identifying the types of the mosquitoes;

the collecting device (5) is used for collecting the mosquitoes captured by the mosquito catching device (3).

2. A mosquito monitoring apparatus as claimed in claim 1, wherein: the device also comprises a shell (6) with an opening at the upper end;

the mosquito trapping device (2) is arranged at an opening at the upper end of the shell (6), and the upper end of the mosquito trapping device is connected with the lower end of the environmental parameter monitoring device (1);

the mosquito catching device (3), the counting device (4) and the collecting device (5) are all positioned in the shell (6), and the mosquito catching device (3) and the collecting device (5) are sequentially arranged below the mosquito attracting device (2) from top to bottom.

3. The mosquito monitoring apparatus of claim 2, wherein: the environmental parameter monitoring device (1) comprises an organ-shaped protective shell (13) which is located above the shell (6) and connected with the mosquito trapping device (2), an anemoscope (11) arranged in the protective shell (13) and a temperature and humidity sensor (141) used for acquiring temperature and humidity.

4. The mosquito monitoring apparatus of claim 3, wherein: the protective shell (13) comprises a top cover (131), a bottom plate (136) arranged below the top cover (131) and a protective grating structure arranged between the top cover (131) and the bottom plate (136), and the top cover (131), the bottom plate (136) and the protective grating structure enclose a hollow shell;

the protective grid structure comprises a plurality of parallel vertical protective grid plates (139) which are arranged between the top cover (131) and the bottom plate (136) at intervals along the circumferential direction;

or the protective grating structure comprises a plurality of parallel annular protective gratings (134) which are arranged between the top cover (131) and the bottom plate (136) at intervals from top to bottom, and the top cover (131), the plurality of annular protective gratings (134) and the bottom plate (136) are fixed through locking pieces;

the environmental parameter monitoring device (1) further comprises a light sensor (140) arranged on the top cover (131) and used for sensing illumination.

5. The mosquito monitoring apparatus of claim 2, wherein: the mosquito trapping device (2) comprises a mosquito trapping shell (21), and a trapping light source (22), an odor bait (23) and a heating bait (24) which are arranged in the mosquito trapping shell (21);

the lower part of the mosquito trapping shell (21) is arranged in the shell (6), the upper end of the mosquito trapping shell is connected with the lower end of the environmental parameter monitoring device (1), and a mosquito trapping window (211) is arranged at a position, between the environmental parameter monitoring device (1) and the shell (6), of the mosquito trapping shell (21);

the attracting light source (22) is used for emitting a mosquito attracting light signal for attracting mosquitoes;

the smell bait (23) is used for emitting mosquito-attracting smell for attracting mosquitoes;

the heating bait (24) is used for simulating the body temperature to generate heat to attract mosquitoes.

6. The mosquito monitoring apparatus of claim 5, wherein: the heating bait (24) is a heating patch arranged on the inner wall of the mosquito trapping shell (21);

the luring light source (22) is an LED mosquito luring lamp; the attracting light source (22) is positioned in the middle of the mosquito attracting shell (21) and corresponds to the position of the mosquito attracting window (211);

the heat-generating bait (24) is positioned at the periphery of the attracting light source (22);

the smell bait (23) is positioned below the attracting light source (22).

7. The mosquito monitoring apparatus of claim 6, wherein: the mosquito attracting windows (211) are arranged along the circumferential direction of the mosquito attracting shell (21);

the heating patches are circumferentially arranged, and the number of the heating patches is less than or equal to that of the mosquito trapping windows (211);

the heating patch is positioned between the adjacent mosquito trapping windows (211).

8. The mosquito monitoring apparatus of claim 7, wherein: a protective net (212) positioned below the attracting light source (22) is arranged on the inner wall of the mosquito attracting shell (21), and the protective net (212) is positioned below the mosquito attracting window (211);

the odor bait (23) is arranged on the protective net (212).

9. The mosquito monitoring apparatus of any of claims 1 to 8, wherein: the mosquito catching device (3) comprises a mosquito catching fan (33), an escape-proof net (31) and a cage structure (32);

the mosquito catching fan (33) is arranged at the lower part of the mosquito attracting device (2) through a fan support;

the upper end of the escape-proof net (31) is connected with the lower end of the mosquito trapping device (2) and is positioned below the mosquito catching fan (33);

the cage structure (32) is supported on the inner wall of the shell (6);

the counting device (4) comprises a camera (42) and at least 1 counter (41); the counter (41) is positioned at the upper end inside the cage structure (32) and is arranged corresponding to the anti-escape net (31) and used for counting the quantity of mosquitoes entering the cage structure (32) from the anti-escape net (31);

the camera (42) is arranged on the cage structure (32) and used for shooting mosquito images falling into the cage structure (32) and identifying mosquito types.

10. The mosquito monitoring apparatus of claim 9, wherein: the counter (41) is 2 that set up side by side from top to bottom, and every counter (41) middle part is equipped with and prevents escaping net (31) lower extreme mosquito entry (311) intercommunication mosquito passageway (411).

11. The mosquito monitoring apparatus of claim 10, wherein: the cage structure (32) comprises a cover plate (321), a cage frame (322), a cage net (323) and a turning plate (324); a first through hole (3211) is formed in the cover plate (321), and the lower end of the escape-proof net (31) is fixedly and hermetically connected with the first through hole (3211) of the cover plate (321); the cage frame (322) is a cubic frame or a cylindrical frame, the upper end of the cage frame is fixedly connected with the cover plate (321), and the periphery of the cage frame is hermetically connected with a cage net (323);

any side edge of the lower end of the cage frame (322) is hinged with one end of the turning plate (324);

the counter (41) is arranged on the lower surface of the cover plate (321), and the mosquito channel (411) is communicated with the first through hole (3211);

the camera (42) is arranged on the cover plate (321).

12. The mosquito monitoring apparatus of claim 11, wherein: the escape-proof net (31) is of an inverted frustum structure, and the small end of the escape-proof net is fixedly and hermetically connected with the first through hole (3211) on the cover plate (321);

the cover plate (321) is provided with an anti-escape net support (325) which is positioned at the periphery of the first through hole (3211) and is used for supporting the anti-escape net (31);

the upper surface of the turning plate (324) is white, so that mosquito images can be conveniently identified;

the cage net (323) is a gauze with 10-18 meshes.

13. The mosquito monitoring apparatus of claim 12, wherein: the collecting device (5) comprises a turning plate driving piece (51) connected with the turning plate (324) and a collecting barrel (52) arranged below the turning plate (324);

the flap driving part (51) is used for driving the flap (324) to dump, and mosquitoes on the flap driving part are dumped into the collecting barrel (52).

14. A mosquito monitoring apparatus as claimed in claim 13, wherein: the other end of the turning plate (324) is provided with a closing-in structure (3241) and two side edges are provided with flanges (3242);

the collecting barrel (52) is positioned below the closing-in structure (3241) of the turning plate (324);

the turning plate driving piece (51) is used for driving the turning plate (324) to rotate around the hinged part, so that the turning plate (324) is horizontally closed and is inclined downwards; when the flap driving part (51) drives the flap (324) to incline downwards, the closing structure (3241) of the flap (324) is positioned at the mosquito inlet (521) at the upper end of the collecting barrel (52), so that the mosquitoes on the flap (324) can be poured into the collecting barrel (52) downwards from the closing structure (3241).

15. The mosquito monitoring apparatus of claim 14, wherein: the collecting barrel support (53) is used for placing the collecting barrel (52);

the collecting barrel support (53) is a flat plate which is horizontally arranged, the edge of the flat plate is connected to the inner wall of the shell (6), and the middle part of the flat plate is provided with a second through hole (532); the collecting barrel (52) is arranged in the second through hole (532) of the collecting barrel support (53) in a penetrating mode, and an annular limiting plate (523) used for being in contact with the upper surface of the collecting barrel support (53) is arranged at the upper end of the collecting barrel (52).

16. The mosquito monitoring apparatus of claim 15, wherein: the collecting barrel (52) adopts a plate type or screen type or woven mesh type structure;

a handle (522) is arranged on the collecting barrel (52);

the turning plate driving part (51) is a telescopic electric push rod or an electric cylinder push rod or an air cylinder push rod, the telescopic end of the turning plate driving part is hinged with the lower surface of the turning plate (324), and the fixed end of the turning plate driving part is connected to the mounting plate (63) in the shell (6) in a hinged mode.

17. The mosquito monitoring apparatus of claim 2, wherein: the shell (6) comprises a base (61) and a barrel body (62) arranged on the base (61);

an upper cover plate (64) which can be opened is arranged on the side wall of the barrel body (62) and corresponds to the collecting device (5), and a first vent hole (66) is arranged on the side wall of the barrel body and corresponds to the mosquito catching device (3).

Images