Trapping and killing device with power grid cleaning mechanism

By designing a pest-trapping and killing device with an electric grid cleaning mechanism, the device automatically cleans the insect remains on the electric grid surface, solving the problem of decreased electric grid conductivity and trapping effect, and achieving efficient operation and convenient maintenance of the equipment.

CN224330179UActive Publication Date: 2026-06-09SHANGHAI SHENGGU PHOTOELECTRIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI SHENGGU PHOTOELECTRIC TECH CO LTD
Filing Date
2025-07-15
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In existing insect trapping and killing equipment, the insect remains that accumulate on the electric grid affect the conductivity and trapping effect, and are also inconvenient to clean.

Method used

An insect trapping and killing device with an electric grid cleaning mechanism was designed. Through the cooperation of a gear ring, gears, motor and cleaning components, it automatically cleans the insect remains on the surface of the electric grid. The device also features a detachable working cylinder, protective cover and collection box structure, which allows for easy replacement of the insect attractant fragrance and cleaning of the collection box.

Benefits of technology

It effectively ensures the conductivity and trapping efficiency of the power grid, guarantees the continuous and efficient operation of the equipment, and facilitates the replacement and cleaning of the trapping components.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a trapping and killing device with an electric grid cleaning mechanism, belonging to the technical field of trapping and killing devices. It includes a housing comprising a working cylinder, a protective cover, and a collection box. The working cylinder, protective cover, and collection box are detachably connected. An electric grid is installed inside the working cylinder, containing insect-attracting components. A cleaning mechanism is located outside the electric grid. This utility model, through the cleaning mechanism, utilizes the cooperation of a gear ring, gears, a motor, and cleaning components to clean insect remains from the surface of the electric grid, preventing the remains from affecting the grid's conductivity and ensuring killing efficiency. Simultaneously, through the cooperation of a fixed base, spring, cleaning block, and cleaning brush, the self-adaptive deformation capability of the spring ensures that the cleaning brush remains in contact with the electric grid surface, guaranteeing the cleaning effect.
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Description

Technical Field

[0001] This utility model relates to the technical field of insect trapping and killing equipment, specifically an insect trapping and killing device equipped with an electric grid cleaning mechanism. Background Technology

[0002] Pest control has always been a crucial issue in agricultural production, grain storage, and residential environments. Traditional pest control methods mainly include chemical pesticide spraying and manual removal, but these methods have many drawbacks. The long-term use of chemical pesticides not only pollutes the environment but also causes pests to develop resistance, and may also remain in crops or food, posing a potential threat to human health; while manual removal is inefficient and difficult to deal with large-scale pest infestations.

[0003] Pest trapping devices have emerged as a relatively environmentally friendly and efficient method of pest control. They typically utilize the phototaxis and chemotaxis of pests, attracting them to a specific area using light sources or scent baits, and then killing them using physical or electric shock methods. However, in practical use, existing pest trapping devices have some problems that urgently need to be addressed.

[0004] Many insect trapping and killing devices use electric grids as the primary means of pest control. Over time, the remains of electrocuted pests accumulate on the grid, forming a layer of grime. This grime affects the grid's conductivity, reducing its effectiveness. Furthermore, excessive insect carcasses and grime on the grid surface can impair the brightness and heat dissipation of the trapping light source, further weakening the device's trapping function.

[0005] Based on this, a trapping and killing device with an electric grid cleaning mechanism is now provided, which can eliminate the drawbacks of existing devices. Utility Model Content

[0006] The purpose of this invention is to provide a trapping and killing device with an electric grid cleaning mechanism to solve the problems in the background art.

[0007] To achieve the above objectives, this utility model provides the following technical solution:

[0008] An insect trapping and killing device with an electric grid cleaning mechanism includes a housing, which includes a working cylinder, a protective cover, and a collection box. The working cylinder, the protective cover, and the collection box are all detachably connected. An electric grid is provided inside the working cylinder, an insect-attracting component is provided inside the electric grid, and a cleaning mechanism is provided outside the electric grid.

[0009] Based on the above technical solutions, this utility model also provides the following optional technical solutions:

[0010] In one alternative: the working cylinder has two symmetrical slots, the lower end of the working cylinder has a first slot for connecting with the collection box, the upper end of the working cylinder has a second slot for connecting with the protective cover, and the lower end of the working cylinder has a base plate.

[0011] In one alternative: the base plate is provided with a first insect dropping trough and a second insect dropping trough, the first insect dropping trough being located outside the power grid and the second insect dropping trough being located inside the power grid.

[0012] In one alternative: the upper end of the protective cover is provided with a hanging ring, the lower end of the protective cover is provided with a connecting sleeve for connecting with the working cylinder, and the lower end of the connecting sleeve is provided with a second slot that matches the second locking block.

[0013] In one alternative: the collection box is provided with a first card block, which matches a first card slot.

[0014] In one alternative embodiment: the insect-attracting component includes a partition disposed at the top of the working cylinder, the partition having ventilation holes, an insect-attracting lamp tube disposed at the lower end of the partition, and an insect-attracting fragrance disposed at the upper end of the partition.

[0015] In one alternative: the cleaning mechanism includes a gear ring rotatably connected to the lower end of the partition, a gear meshing with the inner side of the gear ring, the upper end of the gear being connected to the output end of a motor, the motor being located on the upper end of the partition, and two cleaning components symmetrically provided at the lower end of the gear ring.

[0016] In one alternative embodiment: the cleaning assembly includes a fixed seat fixed to the lower end of the toothed ring, a limiting block is provided on one side of the fixed seat, a cleaning block is slidably installed on one side of the fixed seat, a cleaning brush is provided on the cleaning block, two limiting grooves are symmetrically provided on both sides of the cleaning block, the limiting block is slidably installed in the limiting grooves, and a number of springs are evenly distributed between the cleaning block and the fixed seat.

[0017] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0018] 1. This utility model, by setting up a cleaning mechanism, utilizes the cooperation of a gear ring, gears, motor and cleaning components to clean the insect remains on the surface of the electric grid, avoiding the remains from affecting the conductivity of the electric grid and ensuring the insecticidal efficiency. At the same time, through the cooperation between the fixed seat, spring, cleaning block and cleaning brush, the self-adaptive deformation ability of the spring is used to keep the cleaning brush in contact with the surface of the electric grid, ensuring the cleaning effect.

[0019] 2. This utility model makes it more convenient to replace the insect-attracting fragrance and clean the collection box through the detachable connection design between the working tube, the protective cover and the collection box. Attached Figure Description

[0020] Figure 1 This is a structural schematic diagram of one side of the present invention.

[0021] Figure 2 This is a schematic diagram of the structure on the other side of this utility model.

[0022] Figure 3 This is a schematic diagram of the insect-attracting component in this utility model.

[0023] Figure 4 This is a schematic diagram of the cleaning mechanism in this utility model.

[0024] Figure reference numerals: 100, shell; 101, working cylinder; 102, protective cover; 103, collection box; 104, slot; 105, first slot; 106, second block; 107, base plate; 108, first insect drop trough; 109, second insect drop trough; 110, first block; 111, hanging ring; 112, connecting sleeve; 113, second slot; 200, electric grid; 300, insect attractant assembly; 301, partition; 302, ventilation hole; 303, insect attractant lamp tube; 304, insect attractant fragrance; 400, cleaning mechanism; 401, gear ring; 402, gear; 403, motor; 404, fixing base; 405, limiting block; 406, cleaning block; 407, cleaning brush strip; 408, limiting slide groove; 409, spring. Detailed Implementation

[0025] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments.

[0026] In one embodiment, such as Figure 1 As shown, a trapping and killing device with an electric grid cleaning mechanism includes a housing 100. The housing 100 includes a working cylinder 101, a protective cover 102, and a collection box 103. The working cylinder 101, the protective cover 102, and the collection box 103 are all detachably connected. An electric grid 200 is provided inside the working cylinder 101, and an insect-attracting component 300 is provided inside the electric grid 200. A cleaning mechanism 400 is provided on the outside of the electric grid 200. In use, the insect-attracting component 300 attracts pests, causing the pests to come into contact with the electric grid 200 and be killed by the electric current. At the same time, the cleaning mechanism 400 cleans the surface of the electric grid 200, and the cleaned pest remains fall into the collection box 103 at the lower end.

[0027] In one embodiment, such as Figure 1 and Figure 2As shown, the working cylinder 101 has two symmetrical slots 104. The lower end of the working cylinder 101 has a first slot 105 for connecting with the collection box 103. The upper end of the working cylinder 101 has a second slot 106 for connecting with the protective cover 102. The lower end of the working cylinder 101 has a base plate 107. During installation, the collection box 103 is connected to the lower end of the working cylinder 101 to collect insect remains. The protective cover 102 is connected to the upper end of the working cylinder 101 to prevent rainwater from falling into the working cylinder 101.

[0028] In one embodiment, such as Figure 2 As shown, the base plate 107 is provided with a first insect dropping trough 108 and a second insect dropping trough 109. The first insect dropping trough 108 is located outside the electric grid 200, and the second insect dropping trough 109 is located inside the electric grid 200. When in use, the remains of pests cleaned by the cleaning mechanism 400 fall into the collection box 103 through the first insect dropping trough 108 and the second insect dropping trough 109.

[0029] In one embodiment, such as Figure 2 As shown, the upper end of the protective cover 102 is provided with a hanging ring 111, and the lower end of the protective cover 102 is provided with a connecting sleeve 112 for connecting with the working cylinder 101. The lower end of the connecting sleeve 112 is provided with a second slot 113 that matches the second locking block 106. During installation, the protective cover 102 and the working cylinder 101 are connected by inserting the second locking block 106 into the second slot 113.

[0030] In one embodiment, such as Figure 1 As shown, the collection box 103 is provided with a first locking block 110, which matches the first locking slot 105. During installation, the first locking block 110 is inserted into the first locking slot 105 so that the collection box 103 is connected to the lower end of the working cylinder 101.

[0031] In one embodiment, such as Figure 3 As shown, the insect-attracting component 300 includes a partition 301 disposed at the top of the working cylinder 101. The partition 301 is provided with a ventilation hole 302. An insect-attracting lamp tube 303 is disposed at the lower end of the partition 301, and an insect-attracting fragrance 304 is disposed at the upper end of the partition 301. When in use, the insect-attracting lamp tube 303 and the insect-attracting fragrance 304 attract pests simultaneously.

[0032] In one embodiment, such as Figure 3 and Figure 4As shown, the cleaning mechanism 400 includes a gear ring 401 rotatably connected to the lower end of the partition 301. A gear 402 is meshed with the inner side of the gear ring 401. The upper end of the gear 402 is connected to the output end of the motor 403. The motor 403 is located on the upper end of the partition 301. Two cleaning components are symmetrically arranged at the lower end of the gear ring 401. Each cleaning component includes a fixed seat 404 fixed to the lower end of the gear ring 401. A limiting block 405 is provided on one side of the fixed seat 404, and a cleaning block 406 is slidably installed on one side of the fixed seat 404. The block 406 is provided with a cleaning brush 407. Two limiting grooves 408 are symmetrically provided on both sides of the cleaning block 406. The limiting block 405 is slidably installed in the limiting groove 408. Several springs 409 are evenly distributed between the cleaning block 406 and the fixed seat 404. In use, the motor 403 drives the gear 402 to rotate. The meshing transmission between the gear 402 and the gear ring 401 drives the gear ring 401 to rotate with the cleaning component. The cleaning brush 407 cleans the surface of the power grid 200.

[0033] The above embodiment discloses a trapping and killing device with an electric grid cleaning mechanism. In use, the device is suspended at a designated position by the hanging ring 111. The insect-attracting lamp 303 and the insect-attracting fragrance 304 attract pests simultaneously, causing the pests to come into contact with the electric grid 200 and be killed by the electric current. At the same time, the motor 403 drives the gear 402 to rotate. The meshing transmission between the gear 402 and the gear ring 401 drives the gear ring 401 to rotate with the cleaning component. The cleaning brush 407 cleans the surface of the electric grid 200.

[0034] The above description is merely a specific embodiment of this application, but the scope of protection of this application is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this application should be included within the scope of protection of this application. Therefore, the scope of protection of this application should be determined by the scope of the claims.

Claims

1. A trapping and killing device with an electric grid cleaning mechanism, comprising a housing (100), the housing (100) including a working cylinder (101), a protective cover (102), and a collection box (103), characterized in that, The working cylinder (101), protective cover (102) and collection box (103) are all detachably connected. The working cylinder (101) is equipped with an electric grid (200), the electric grid (200) is equipped with an insect-attracting component (300), and the outside of the electric grid (200) is equipped with a cleaning mechanism (400).

2. The insect-trapping and killing device with an electric grid cleaning mechanism according to claim 1, characterized in that, The working cylinder (101) has two symmetrical slots (104), the lower end of the working cylinder (101) has a first slot (105) for connecting with the collection box (103), the upper end of the working cylinder (101) has a second slot (106) for connecting with the protective cover (102), and the lower end of the working cylinder (101) has a base plate (107).

3. The insect-trapping and killing device with an electric grid cleaning mechanism according to claim 2, characterized in that, The base plate (107) is provided with a first insect dropping groove (108) and a second insect dropping groove (109). The first insect dropping groove (108) is located outside the electric grid (200), and the second insect dropping groove (109) is located inside the electric grid (200).

4. The insect-trapping and killing device with an electric grid cleaning mechanism according to claim 1, characterized in that, The protective cover (102) has a hanging ring (111) at the upper end and a connecting sleeve (112) for connecting with the working cylinder (101) at the lower end. The connecting sleeve (112) has a second slot (113) that matches the second locking block (106) at the lower end.

5. The insect-trapping and killing device with an electric grid cleaning mechanism according to claim 1, characterized in that, The collection box (103) is provided with a first card block (110), which matches the first card slot (105).

6. The insect-trapping and killing device with an electric grid cleaning mechanism according to claim 1, characterized in that, The insect-attracting component (300) includes a partition (301) disposed at the top of the working cylinder (101), the partition (301) having a ventilation hole (302), an insect-attracting lamp tube (303) disposed at the lower end of the partition (301), and an insect-attracting fragrance agent (304) disposed at the upper end of the partition (301).

7. The insect-trapping and killing device with an electric grid cleaning mechanism according to claim 1, characterized in that, The cleaning mechanism (400) includes a gear ring (401) rotatably connected to the lower end of the partition (301). A gear (402) is meshed with the inner side of the gear ring (401). The upper end of the gear (402) is connected to the output end of the motor (403). The motor (403) is located on the upper end of the partition (301). Two cleaning components are symmetrically provided on the lower end of the gear ring (401).

8. The insect-trapping and killing device with an electric grid cleaning mechanism according to claim 7, characterized in that, The cleaning assembly includes a fixed base (404) fixed to the lower end of the toothed ring (401), a limiting block (405) is provided on one side of the fixed base (404), a cleaning block (406) is slidably installed on one side of the fixed base (404), a cleaning brush strip (407) is provided on the cleaning block (406), two limiting grooves (408) are symmetrically provided on both sides of the cleaning block (406), the limiting block (405) is slidably installed in the limiting groove (408), and a number of springs (409) are evenly distributed between the cleaning block (406) and the fixed base (404).