A pest monitoring device for crops

The pest monitoring device powered by solar energy uses a motor to drive the fan blades and spirals to rotate and diffuse the scent of the attractant liquid, luring pests to the electric shock net for killing. This solves the problems of low trapping efficiency and frequent replacement of traditional devices, and achieves efficient and continuous monitoring.

CN224330180UActive Publication Date: 2026-06-09奈曼旗大沁他拉镇综合保障和技术推广中心

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
奈曼旗大沁他拉镇综合保障和技术推广中心
Filing Date
2025-07-21
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Traditional pest monitoring devices have low trapping efficiency and require frequent replacement of sticky traps, interrupting monitoring operations.

Method used

The pest monitoring device, powered by solar energy, uses a motor to drive the fan blades and spirals to rotate and diffuse the scent of the attractant liquid, luring pests to the tubular electric shock net for killing. It also uses a barrier bar to prevent large insects from clogging the net and a collection shell to collect the dead insects.

Benefits of technology

It improves the range and efficiency of pest trapping, enables long-term continuous monitoring, avoids equipment blockage, and simplifies the replacement process.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application relates to a pest monitoring device for crops, comprising a pole with a solar power supply component installed at its upper end. An installation sleeve is fitted over the outside of the pole, and a threaded knob is threaded through the side wall of the installation sleeve to press against the pole. A first tube is installed on the installation sleeve, and a collection shell is threaded to the bottom of the first tube. An attractant liquid container is fixed to the upper side of the first tube, and a first conical cover is fixed to the upper end of the attractant liquid container via a first connecting rod. Several L-shaped installation rods arranged equidistantly in a ring are fixed to the lower side of the first tube. A second tube and a tubular electric shock net are sequentially installed on the outer side of the L-shaped installation rods from top to bottom. The side wall of the second tube has uniformly distributed through holes, and an internally threaded tube is installed between the top ends of the L-shaped installation rods. This application has the effect of accelerating the evaporation of the attractant liquid odor, improving the attraction range and efficiency, and enabling continuous killing of pests for a long period.
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Description

Technical Field

[0001] This application relates to the technical field of pest monitoring, and in particular to a pest monitoring device for crops. Background Technology

[0002] In agricultural production, pest monitoring is a key link in pest control. Traditional monitoring devices mostly rely on chemical lures or sticky traps. Chemical attractants usually rely on their own evaporation, resulting in a small attraction range and low trapping efficiency. When the sticky trap is full of pests, it is impossible to continue trapping pests, and the sticky trap needs to be replaced frequently. The trapping operation will be interrupted when the sticky trap is replaced.

[0003] Therefore, those skilled in the art have provided a crop pest monitoring device to solve the problems mentioned in the background art. Utility Model Content

[0004] To address the problems mentioned in the background art, this application provides a pest monitoring device for crops.

[0005] The crop pest monitoring device provided in this application adopts the following technical solution:

[0006] A pest monitoring device for crops includes a pole with a solar power supply component installed at its upper end. An installation sleeve is fitted over the outside of the pole, and a threaded knob is threaded through the side wall of the installation sleeve to press against the pole. A first tube is installed on the installation sleeve, and a collection shell is threaded to the bottom of the first tube. An attractant liquid container is fixed to the upper side of the first tube, and a first conical cover is fixed to the upper end of the attractant liquid container via a first connecting rod. Several L-shaped installation rods arranged in annular intervals are fixed to the lower side of the first tube. A second tube and a tubular electric shock net are sequentially installed on the outer side of the L-shaped installation rods from top to bottom. Through holes are evenly distributed on the side wall of the second tube. An internally threaded tube is installed between the top ends of the L-shaped installation rods, and an attractant liquid container is threaded to the inner side of the internally threaded tube, containing attractant liquid.

[0007] Preferably, a motor is installed on the upper inner side of the second tube, a fan blade is fixedly connected to the output end of the motor, a mounting ring is fixedly connected to the outer side of the fan blade, and a spiral strip is fixedly connected to the bottom end of the mounting ring. The spiral strip is sleeved on the outer side of the second tube and the tubular electric shock net.

[0008] Preferably, a mesh is fixedly connected to the upper end channel of the first conical cover, and a second conical cover is fixedly connected to the upper end of the first conical cover via a second connecting rod.

[0009] Preferably, a number of annularly arranged barrier bars are fixedly connected between the inner side of the attractant liquid container and the first conical cover.

[0010] Preferably, the bottom end of the upright is tapered, and a ring-shaped foot pedal is fixed to the outer side of the upright near the bottom end.

[0011] In summary, this application includes the following beneficial technical effects:

[0012] 1. The motor drives the fan blades, mounting ring, and spiral to rotate. As the fan blades rotate, the attractant liquid's odor diffuses outwards. Attracted by the odor, pests crawl onto the outer surface of the second tube. The attractant liquid container facilitates the pests' movement to the outside of the second tube. The rotating spiral moves the pests to the tubular electrocution mesh for killing. The dead insects fall into the collection shell at the bottom. A barrier prevents large insects from entering, avoiding equipment blockage. This system accelerates the evaporation of the attractant liquid, increasing the attraction range and efficiency, and allows for continuous pest killing over a long period. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the overall structure of this application;

[0014] Figure 2 This is a partial structural diagram of this application;

[0015] Figure 3 This is a cross-sectional view of the first conical cover, the first tube, and the collection shell of this application;

[0016] Figure 4 This is a cross-sectional view of the mounting ring, the second tube, the tubular electric shock mesh, and the internally threaded tube of this application.

[0017] Explanation of reference numerals in the attached drawings: 1. Pole; 2. Solar power supply component; 3. Mounting sleeve; 4. Threaded knob; 5. First tube body; 6. Collection shell; 7. L-shaped mounting rod; 8. Second tube body; 9. Tubular electric shock net; 10. Internally threaded tube; 11. Attractant liquid container; 12. First connecting rod; 13. First conical cover; 14. Barrier rod; 15. Second connecting rod; 16. Second conical cover; 17. Mesh net; 18. Motor; 19. Fan blade; 20. Mounting ring; 21. Spiral strip. Detailed Implementation

[0018] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0019] Example 1

[0020] like Figure 1-4As shown, this application discloses a crop pest monitoring device, including a pole 1, a solar power supply component 2 installed at the upper end of the pole 1, an installation sleeve 3 sleeved on the outside of the pole 1, a threaded knob 4 installed through the side wall of the installation sleeve 3 to press and contact the pole 1, a first tube 5 installed on the installation sleeve 3, a collection shell 6 installed at the bottom end of the first tube 5, an attractant liquid container 11 installed on the upper side of the first tube 5, a first conical cover 13 fixed to the upper end of the attractant liquid container 11 through a first connecting rod 12, a plurality of L-shaped installation rods 7 arranged in a ring at equal intervals on the inner side of the first tube 5, a second tube 8 and a tubular electric shock net 9 installed sequentially from top to bottom on the outer side of the L-shaped installation rods 7, through holes evenly opened on the side wall of the second tube 8, an internally threaded tube 10 installed between the top ends of the plurality of L-shaped installation rods 7, an attractant liquid container 11 installed on the inner side of the internally threaded tube 10, and an attractant liquid added to the attractant liquid container 11;

[0021] The attractant liquid in the attractant container 11 attracts the surrounding pests, which attach to the outside of the second tube 8. The solar power supply component 2 supplies power to the motor 18, which drives the fan blade 19, the mounting ring 20 and the spiral 21 to rotate. When the fan blade 19 rotates, it diffuses the scent of the attractant liquid out of the equipment. When the spiral 21 rotates, it moves the pests to the tubular electric shock net 9 for killing. The collection shell 6 and the attractant liquid container 11 can be disassembled by rotating them. The mounting sleeve 3, together with the threaded knob 4, can adjust the position of the monitoring component on the pole 1.

[0022] like Figure 3-4 As shown, a motor 18 is installed on the upper inner side of the second tube 8. A fan blade 19 is installed at the output end of the motor 18. An installation ring 20 is installed on the outer side of the fan blade 19. A spiral strip 21 is installed at the bottom end of the installation ring 20. The spiral strip 21 is sleeved on the outer side of the second tube 8 and the tubular electric shock net 9. The motor 18 drives the fan blade 19 and the installation ring 20 to rotate. The installation ring 20 drives the spiral strip 21 to rotate. The spiral strip 21 drives the pests on the outer side of the second tube 8 to move downwards. When they move to the tubular electric shock net 9, they are electrocuted and killed. The killed pests fall into the collection shell 6 for collection. The density of pests is monitored by observing the number of pests in the collection shell 6.

[0023] like Figure 2 As shown, a mesh 17 is installed in the upper channel of the first conical cover 13, and a second conical cover 16 is installed at the upper end of the first conical cover 13 via a second connecting rod 15. The mesh 17 can prevent pests from entering the equipment from the upper channel of the first conical cover 13, and the second conical cover 16 can protect the channel from rain.

[0024] like Figure 2As shown, several ring-shaped, equidistant blocking rods 14 are fixedly connected to the inner side of the attractant container 11 and the first conical cover 13. By setting the blocking rods 14, larger insects can be blocked, preventing them from causing blockage.

[0025] like Figure 1 As shown, the bottom of the upright 1 is tapered, and a ring foot pedal is installed on the outer side of the upright 1 near the bottom. By setting the ring foot pedal, it is easy to step on the ring foot pedal to drive the bottom of the upright 1 into the ground for fixation.

[0026] All standard parts used in this utility model can be purchased from the market, and irregular parts can be customized according to the description and drawings. The specific connection methods of each part adopt conventional methods such as bolts, rivets, and welding that are mature in the prior art. The machinery, parts and equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection methods in the prior art, which will not be described in detail here.

[0027] Furthermore, any content not described in detail in this specification is existing technology known to those skilled in the art.

[0028] The implementation principle of a crop pest monitoring device according to an embodiment of this application is as follows:

[0029] In use, insect pheromones or food attractants are placed in the attractant container 11. The volatile odor diffuses through the through-holes in the side wall of the second tube 8. The motor 18 drives the fan blades 19 to rotate, accelerating the outward diffusion of the attractant odor and enhancing the trapping effect. Attracted by the odor, the pests crawl onto the outer surface of the second tube 8. Simultaneously, the motor 18 drives the spiral strip 21 to rotate through the fan blades 19 and the mounting ring 20, spiraling the pests attached to the surface of the second tube 8 downwards to the tubular electric shock net 9. Upon contact with the tubular electric shock net 9, the pests are electrocuted and killed. The carcass falls into the collection shell 6 at the bottom. The mesh 17 at the top of the first conical cover 13 prevents pests from entering from the top. The second conical cover 16 prevents rainwater from entering. The barrier bar 14 blocks large insects from entering and avoids equipment blockage. The solar power supply component 2 provides continuous power to the motor 18 and the tubular electric shock net 9. The height of the mounting sleeve 3 on the pole 1 can be adjusted by rotating the threaded knob 4. The collection shell 6 or the attractant container 11 can be quickly disassembled and replaced by rotating it. The conical design at the bottom of the pole 1 and the ring foot pedal make it easy to insert into the ground for fixation.

[0030] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely preferred examples and are not intended to limit the utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A pest monitoring device for crops, characterized in that, The device includes a pole (1), with a solar power supply component (2) installed at the upper end of the pole (1). A mounting sleeve (3) is fitted on the outer side of the pole (1). A threaded knob (4) is threaded through the side wall of the mounting sleeve (3) and presses against the pole (1). A first tube (5) is installed on the mounting sleeve (3). A collection shell (6) is threaded to the bottom end of the first tube (5). An attractant liquid container (11) is fixed to the upper side of the first tube (5). The upper end of the attractant liquid container (11) is connected to a first connecting rod (12). A first conical cover (13) is fixedly connected. Several L-shaped mounting rods (7) arranged in a ring at equal intervals are fixedly connected to the bottom of the inner side of the first tube (5). A second tube (8) and a tubular electric shock net (9) are installed on the outer side of the L-shaped mounting rods (7) from top to bottom. Through holes are evenly opened on the side wall of the second tube (8). An internally threaded tube (10) is installed between the top ends of several L-shaped mounting rods (7). An attractant liquid container (11) is connected to the inner side of the internally threaded tube (10). The attractant liquid container (11) is filled with attractant liquid.

2. The crop pest monitoring device according to claim 1, characterized in that: A motor (18) is installed on the upper inner side of the second tube (8). A fan blade (19) is fixed to the output end of the motor (18). A mounting ring (20) is fixed to the outer side of the fan blade (19). A spiral strip (21) is fixed to the bottom end of the mounting ring (20). The spiral strip (21) is sleeved on the outer side of the second tube (8) and the tubular electric shock net (9).

3. The crop pest monitoring device according to claim 1, characterized in that: A mesh (17) is fixedly connected to the upper end of the first conical cover (13), and a second conical cover (16) is fixedly connected to the upper end of the first conical cover (13) via a second connecting rod (15).

4. The crop pest monitoring device according to claim 1, characterized in that: Several ring-shaped, equidistant barrier bars (14) are fixedly connected to the inner side of the attractant liquid container (11) and the first conical cover (13).

5. The crop pest monitoring device according to claim 1, characterized in that: The bottom end of the upright (1) is tapered, and a ring foot pedal is fixed to the outer side of the upright (1) near the bottom end.