CN220630752U - Insect pest thing networking real-time supervision device - Google Patents

Abstract

The utility model relates to the technical field of insect pest monitoring and discloses a real-time monitoring device of the Internet of things for insect pests, which structurally comprises a device box, wherein a mounting rod is mounted at the upper end of the device box, a rainproof top is connected to the upper end of the mounting rod, an insect falling hopper is mounted at the joint of the top end of the device box, an air suction device is movably connected to the outer side of the insect falling hopper, a camera is fixed at one side of the device box, an insect falling rail is arranged in the device box, and an insect collecting water tank is arranged at the bottom end of the insect falling rail: through the attracting effect of lure the lamp, with the winged insect draw near the front, the thing fence of putting of lure agent is put to cooperation lure worm board bottom, lets the winged insect fly to lure worm board bottom, utilizes the negative pressure that the nearby suction fan that forms of falling worm fill for the winged insect is inhaled into the device incasement by falling worm fill, in the cooperation through above-mentioned addding the subassembly lets the winged insect that flies into can be quick catch into monitoring device, reaches the purpose of high-efficient capture detection.

Description

Insect pest thing networking real-time supervision device

Technical Field

The utility model relates to the technical field of insect pest monitoring, in particular to a real-time monitoring device of an Internet of things for insect pest.

Background

Wisdom thing networking insect pest condition monitoring devices for the inspector no longer runs to the forest field in person, looks over various insect pests, constantly records data. Unlike the conventional detection, the method is complicated, and if insects are not carefully checked, blind control cannot play a good effect, and the insect control period is delayed, so that agriculture and forestry production is further damaged. The insect pest situation monitoring lamp can help us to automatically monitor insect pest situations and upload the monitored insect pest situations to the cloud platform. The user only needs to check through network equipment such as a mobile phone and the like, and does not need to make a back and forth running. Greatly reduces the intensity of insect pest monitoring and control.

The utility model discloses an insect condition monitoring device as disclosed in Chinese patent document CN218418099U, which comprises a collecting box and an insect leading frame, wherein an inlet is formed in the top surface of the collecting box, an insect leading lamp is arranged in the insect leading frame, a plurality of mounting grooves are formed in the top end of the insect leading frame, a spray head is arranged in the mounting grooves, a water tank is arranged at the top end of the insect leading frame, a conveying pipe is arranged between the water tank and the spray head, and a beating piece is arranged in the insect leading lamp.

In the device, the winged insects are retained by utilizing water spraying, but when the spraying device is additionally arranged near the trap lamp, the winged insects are difficult to approach, so that the water mist cannot completely contact the winged insects, the purpose of retaining the winged insects is achieved, the winged insects cannot be efficiently collected by the monitoring device, and the purpose of monitoring is achieved, so that the real-time monitoring device of the insect pest Internet of things is needed.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model aims to provide the real-time monitoring device of the insect pest Internet of things, which has the purposes of efficiently capturing flying insects and achieving real-time monitoring, and solves the problem that the flying insects cannot be captured in time due to too short time of staying on an installation table in the past.

In order to solve the problems, the utility model adopts the following technical scheme.

The utility model provides a insect pest thing networking real-time monitoring device, its structure is including the device case, and the installation pole is installed to device case upper end, and the installation pole upper end is connected with rain-proof top, and the device case top junction is installed the falling worm and is fought, and falling worm fights outside swing joint has the device that induced drafts, and device case one side is fixed with the camera, is equipped with the falling worm rail in the device case, and falling worm rail bottom is equipped with the album worm water tank.

As the optimization, the device that induced drafts includes second installation lid, induced drafts the dish, and device roof end opening part is fixed with the mount table, installs the fall worm fill in the middle of the mount table, and the fall worm fill is installed in the middle of the fall worm fill, and the first installation lid is installed in the fall worm fill outside, and first installation lid and second installation lid swivelling joint, second installation lid are fixed on the dish that induced drafts, are equipped with the net mouth that induced drafts in the dish that induced drafts, and the dish bottom is connected with the suction fan that induced drafts.

As optimization, the dust screen is specifically installed on the outer side of the air suction net opening, so that dust is effectively prevented from being sucked.

As optimization, the first installation cover and the second installation cover are provided with the notch on the annular disc, the convex part on the second installation cover is used for being installed into the notch on the first installation cover, and then the convex part is enabled to rotate into the first installation cover, so that the air suction disc is installed into the lower end of the insect hopper.

As optimization, the material guiding plate adopts a butterfly structure with inclined two ends, so that the material guiding plate and the insect hopper form a small opening.

As optimization, the air suction net opening and the small opening have gaps.

As optimization, the bottom end of the rainproof roof is connected with mounting blocks, insect trapping lamps are connected between the mounting blocks, clamping blocks are annularly arranged on the outer sides of the mounting blocks, and insect trapping plates are connected between the clamping blocks in a threaded mode.

As optimization, the bottom end of the insect attracting plate is provided with a storage fence for storing insect attracting agents.

Preferably, one side of the device box is provided with a device door.

As optimization, a baffle plate for blocking and protecting birds is arranged between the two mounting rods.

Advantageous effects

Compared with the prior art, the real-time monitoring device for the insect pest Internet of things has the advantages that the insect pest is led to the place near the front through the attracting effect of the light attracting lamp, the insect pest flies to the bottom end of the insect attracting plate by matching with the object placing fence with the insect attracting agent at the bottom end of the insect attracting plate, the insect pest is sucked into the device box from the insect pest hopper by utilizing the negative pressure formed by the suction fan near the insect pest hopper, and the flying insect can be quickly caught and fed into the monitoring device through the matching of the additional components, so that the aim of high-efficiency capturing and detection is achieved.

Drawings

FIG. 1 is a schematic diagram of a real-time monitoring device of the Internet of things for insect pests;

FIG. 2 is a schematic view of the internal structure of the device box of the present utility model;

FIG. 3 is a schematic structural view of an air suction device according to the present utility model;

FIG. 4 is a schematic view of the structure of the upper inclined side of the air suction device of the present utility model;

fig. 5 is a schematic structural view of the insect attracting assembly of the present utility model.

Reference numerals in the drawings: the rain-proof top-1, a baffle-2, a device door-3, a device box-4, a mounting rod-5, a pest hopper-315, a suction device-312, a camera-311, a pest collecting water tank-313, a pest rail-314, a material guiding plate-712, a first mounting cover-713, a mounting table-714, a second mounting cover-715, a suction disc-716, a suction fan-719, a pest trapping lamp-914, a mounting block-913, a clamping block-912, a pest trapping plate-911 and a storage column-915.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-5, a real-time monitoring device for insect pest internet of things structurally comprises a rainproof top 1, a mounting rod 5 and a device box 4, wherein the mounting rod 5 is mounted at the upper end of the device box 4, the rainproof top 1 is connected to the upper end of the mounting rod 5, the device box 4 comprises a camera 311, an air suction device 312, an insect collecting water tank 313, an insect falling rail 314 and an insect falling hopper 315, the insect falling hopper 315 is mounted at the joint of the top end of the device box 4, the air suction device 312 is movably connected to the outer side of the insect falling hopper 315, a camera 311 is fixed on one side of the device box 4, the insect falling rail 314 is arranged in the device box 4, and the insect collecting water tank 313 is arranged at the bottom end of the insect falling rail 314.

In this embodiment, the air suction device 312 includes a material guiding plate 712, a first mounting cover 713, a mounting table 714, a second mounting cover 715, an air suction disc 716, an air suction net opening 717 and an air suction fan 719, the mounting table 714 is fixed at the top opening of the device box 312, the hopper 315 is mounted in the middle of the mounting table 714, the material guiding plate 712 is mounted in the middle of the hopper 315, the first mounting cover 713 is mounted on the outer side of the hopper 315, the first mounting cover 713 is rotatably connected with the second mounting cover 715, the second mounting cover 715 is fixed on the air suction disc 716, the air suction net opening 717 is arranged in the air suction disc 716, and the air suction fan 719 is connected to the bottom end of the air suction disc 716.

In this embodiment, the air suction opening 717 is specifically provided with a dust screen on the outer side, so as to effectively prevent dust from being sucked in.

In this embodiment, the annular discs of the first mounting cover 713 and the second mounting cover 715 are provided with notches, the convex part of the second mounting cover 715 is mounted into the notch of the first mounting cover 713, and then the convex part is rotated into the first mounting cover 713, so that the air suction disc 716 is mounted into the lower end of the insect hopper 315.

In this embodiment, the material guiding plate 712 adopts a butterfly structure with two inclined ends, so that the material guiding plate 712 and the insect hopper 315 form a small opening.

In this embodiment, the suction openings 717 are spaced from the small openings.

The air suction net mouth 717 is arranged, and a negative pressure is formed near the insect hopper 315 when the suction fan 719 works by utilizing the gap between the air suction net mouth 717 and the small opening, so that flying insects are attracted to the upper end of the insect hopper 315 through the insect trap lamp 914, and the insect trap agent is contained in the object placing column 915 arranged at the lower end of the insect trap plate 911, so that the flying insects can fall down towards the object placing column 915, and the object placing column 915 is close to the insect hopper 315, so that the flying insects can be sucked into the device box 4 by the negative pressure formed near the insect hopper 315.

In this embodiment, the rain-proof top 1 bottom is connected with the installation piece 913, is connected with trap lamp 914 between the installation piece 913, and the outside annular array of installation piece 913 has fixture block 912, and threaded connection has trap board 911 between the fixture block 912.

In this embodiment, a bottom end of the insect attracting plate 911 is provided with a storage rail 915 for storing insect attracting agents.

The insect-attracting agent for attracting insects is placed in the storage column 915, and the heat brought by the insect-attracting lamp 914 after the insect-attracting lamp 914 is turned on can accelerate volatilization of the insect-attracting agent so as to improve the insect-attracting effect.

In the present embodiment, the apparatus case 4 is provided with the apparatus door 3 on one side.

In this embodiment, a baffle plate 2 for blocking birds is installed between the two installation bars 5.

In this embodiment, when flying insects are sucked into the device box 4 from the insect hopper 315, the flying insects fall into the insect rail 314, and at this time, the photographing head 311 arranged on one side of the insect rail 314 photographs and detects the flying insects in time, so that the varieties of the flying insects are analyzed and shared into the monitoring system through the internet of things.

When flying insects fly through the gaps between the baffle plates 2 due to the attraction of the trap lamps 914, negative pressure is formed near the insect hopper 315 when the suction fan 719 works by utilizing the gaps between the air suction net openings 717 and the small openings, so that the flying insects are attracted to the upper end of the insect hopper 315 through the trap lamps 914, the insect-attracting agent is contained in the object-containing bars 915 arranged at the lower ends of the insect-attracting plates 911, so that the flying insects fall down towards the object-containing bars 915, the object-containing bars 915 are close to the insect hopper 315, the flying insects are sucked into the device box 4 by the negative pressure formed near the insect hopper 315, the flying insects fall into the insect-falling rail 314 from the negative pressure, and at the moment, the varieties of the flying insects can be analyzed in time by the photographing head 311, so that the purposes of monitoring the insect conditions are achieved in time, and finally the flying insects fall into the insect-collecting water tank 313.

And the air suction device 312 is provided with a notch through the annular disc of the first mounting cover 713 and the second mounting cover 715, the convex part on the second mounting cover 715 is arranged into the notch on the first mounting cover 713, and then the convex part is rotated into the first mounting cover 713, so that the air suction disc 716 is arranged into the lower end of the insect dropping hopper 315, and the device can be conveniently disassembled.

It should be noted that the terms used in the present embodiment are not intended to exclude the possibility of using other terms. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitations that are within the spirit of the present utility model.

The foregoing describes one embodiment of the present utility model in detail, but the description is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (4)

1. The utility model provides a insect pest thing networking real-time monitoring device, its structure includes device case (4), installation pole (5) are installed to device case (4) upper end installation pole (5) upper end is connected with rain-proof top (1), its characterized in that: the device comprises a device box (4), wherein an insect falling hopper (315) is arranged at the joint of the top end of the device box (4), an air suction device (312) is movably connected to the outer side of the insect falling hopper (315), a camera (311) is fixed to one side of the device box (4), an insect falling rail (314) is arranged in the device box (4), and an insect collecting water tank (313) is arranged at the bottom end of the insect falling rail (314);

the air suction device (312) comprises a second mounting cover (715) and an air suction disc (716), a mounting table (714) is fixed at an opening at the top end of the device box (4), an insect dropping hopper (315) is mounted in the middle of the mounting table (714), a material guiding plate (712) is mounted in the middle of the insect dropping hopper (315), a first mounting cover (713) is mounted on the outer side of the insect dropping hopper (315), the first mounting cover (713) is rotatably connected with the second mounting cover (715), the second mounting cover (715) is fixed on the air suction disc (716), an air suction net opening (717) is formed in the air suction disc (716), and an air suction fan (719) is connected to the bottom end of the air suction disc (716).

The material guiding plate (712) adopts a butterfly structure with inclined two ends, so that the material guiding plate (712) and the insect hopper (315) form a small opening.

2. The pest internet of things real-time monitoring device of claim 1, wherein: the air suction net opening (717) is specifically provided with a dust screen on the outer side, so that dust is effectively prevented from being sucked.

3. The pest internet of things real-time monitoring device of claim 1, wherein: the first mounting cover (713) and the second mounting cover (715) are provided with notches, the convex part on the second mounting cover (715) is arranged into the notch on the first mounting cover (713), and then the convex part is rotated into the first mounting cover (713), so that the air suction disc (716) is arranged into the lower end of the insect dropping hopper (315).

4. The pest internet of things real-time monitoring device of claim 1, wherein: the air suction net opening (717) and the small opening have a gap.