Bionic model for termite control

By designing a biomimetic shield and channel structure, the problem of unstable effectiveness of traditional termite-trapping methods in high-temperature environments was solved, achieving stable trapping effects in different seasons and enhancing the efficiency of termite control.

CN224344060UActive Publication Date: 2026-06-12QUZHOU SHENGTAI PEST CONTROL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
QUZHOU SHENGTAI PEST CONTROL CO LTD
Filing Date
2025-05-30
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Traditional termite trapping methods are less effective in the hot summer months due to high ground temperatures, making it difficult to attract termites.

Method used

Design a biomimetic model that includes a shielding frame and a channel structure. Utilize shading materials and channel design to maintain a cool environment, and combine with sealing components to ensure the release of the attractant's scent, thereby improving the attraction effect and the success rate of trapping.

Benefits of technology

It maintains a stable attraction effect in different seasons, improves the efficiency of termite trapping, and is especially effective in high-temperature environments, enhancing the stability and success rate of termite trapping.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to termite control technical field, concretely relates to a kind of bionic model for termite control, including bionic model body and multiple sealing caps, the bionic model body is set to irregular flat, multiple inside groove of luring are set in the bionic model body, the utility model is set to auxiliary assembly, to prevent the drop of shielding material, can first move upwards to pressing plate, pressing plate will drive inner plate to move and carry out extrusion to spring one when moving, shielding material is subsequently placed in the below of pressing plate, subsequently reset pressing plate, so that pressing plate is pressed to shielding material, avoid the drop of shielding material, so as to be able to cooperate between shielding material and auxiliary assembly, the whole device is shielded, so that the whole device is relatively cool, to improve the effect of luring, and stabilizer is provided with multiple, respectively in the four corners of shielding frame, to be able to ensure the stability of shielding material, and further improve the effect of luring.
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Description

Technical Field

[0001] This utility model relates to the field of termite control technology, specifically to a biomimetic model for termite control. Background Technology

[0002] In the field of water conservancy engineering, dams are a crucial component, and their safety is of paramount importance. Many factors must be considered when constructing and designing dams, including environmental and biological factors. Termites are one such common and highly destructive biological factor.

[0003] Currently, baiting is a commonly used method in termite control. However, traditional methods have obvious drawbacks. They are significantly affected by the seasons, and the attraction effect fluctuates greatly and is unstable. For example, in the hot summer, because termites prefer cool environments, bait placed on the ground or in shallow soil will not attract termites to feed due to the high ground temperature, resulting in a significant reduction in the attraction effect.

[0004] Based on the problems raised in the above article, we propose a biomimetic model for termite control. Utility Model Content

[0005] In view of the above-mentioned shortcomings of the existing technology, this utility model provides a biomimetic model for termite control, which can effectively solve the problems in the existing technology.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] This utility model provides a biomimetic model for termite control, including a biomimetic model body and multiple sealing covers. The biomimetic model body is set in an irregular flat shape, and multiple inducing grooves are opened inside the biomimetic model body. Multiple support rods are fixedly installed on the top of the biomimetic model body, and the multiple sealing covers open or seal the multiple inducing grooves respectively.

[0008] An auxiliary component is provided between the multiple support rods, and multiple sealing components are provided on the top of the bionic model body.

[0009] According to the above-mentioned biomimetic model for termite control, the auxiliary component includes multiple connecting rod 1 and multiple connecting rod 2. The connecting rod 2 is snapped into a support rod, and the connecting rod 1 is snapped into the connecting rod 2. A stabilizing rod is fixedly installed on the top of each of the multiple support rods. A pressure plate is slidably connected to one side of the stabilizing rod. The top of the connecting rod 1 and the connecting rod 2 is covered with shading material.

[0010] According to the above-mentioned biomimetic model for termite control, the stabilizing rod has an inner plate that is slidably connected inside, a spring is fixedly installed inside the stabilizing rod, the spring is fixedly connected to the inner plate, and the pressure plate is fixedly connected to the inner plate.

[0011] According to the above-mentioned biomimetic model for termite control, the sealing component includes a mounting frame, a pull rod slidably connected inside the mounting frame, the pull rod being fixedly connected to a connecting rod, a slider slidably connected inside the mounting frame, the pull rod passing through the slider and being fixedly connected to it, and a second spring fixedly installed inside the mounting frame, the second spring being fixedly connected to the slider.

[0012] According to the above-mentioned biomimetic model for termite control, multiple channels 2 are opened around the outer perimeter of the biomimetic model body, and multiple channels 1 are opened inside the biomimetic model body. The channels 2 are connected to the inducing inner groove, and the channels 1 are connected to the channels 2.

[0013] According to the above-mentioned biomimetic model for termite control, the second channel is shaped like a cone, with the end near the inner groove of the attractant having a smaller diameter.

[0014] The technical solution provided by this utility model has the following advantages compared with the known prior art:

[0015] This invention utilizes auxiliary components to connect multiple support rods using multiple connecting rods 2, and then connects multiple connecting rods 1 to multiple connecting rods 2. This, through the cooperation of the support rods, connecting rods 1 and 2, forms a shielding frame. A shielding material is laid on top of the connecting rods 1 and 2. To prevent the shielding material from falling, a pressure plate is first moved upwards. This movement causes the inner plate to move and compress the spring 1. The shielding material is then placed under the pressure plate, and the pressure plate is reset, pressing down on the shielding material to prevent it from falling. The cooperation between the shielding material and the auxiliary components effectively shields the entire device, making it cooler and improving the attraction effect. Multiple stabilizing rods are located at the four corners of the shielding frame to ensure the stability of the shielding material and further enhance the attraction effect. Attached Figure Description

[0016] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 This is a schematic diagram of the structure of this utility model;

[0018] Figure 2 This is a cross-sectional view of the biomimetic model body of this utility model;

[0019] Figure 3 This is a sectional view of the mounting bracket of this utility model;

[0020] Figure 4 This is a cross-sectional view of the stabilizer bar of this utility model.

[0021] Reference numerals: 1. Bionic model body; 2. Support rod; 4. Stabilizing rod; 5. Mounting bracket; 11. Inner groove for attracting; 15. Sealing cover; 18. Channel 1; 19. Channel 2; 21. Connecting rod 1; 22. Connecting rod 2; 41. Spring 1; 42. Inner plate; 43. Pressure plate; 51. Pull rod; 52. Spring 2; 53. Slider. Detailed Implementation

[0022] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without creative effort are within the scope of protection of this utility model.

[0023] The present invention will be further described below with reference to the embodiments.

[0024] Example: Refer to Figures 1 to 4 A biomimetic model for termite control includes a biomimetic model body 1 and multiple sealing covers 15. The biomimetic model body 1 is set in an irregular flat shape. Multiple inducing grooves 11 are opened inside the biomimetic model body 1. Multiple support rods 2 are fixedly installed on the top of the biomimetic model body 1. The multiple sealing covers 15 open or seal the multiple inducing grooves 11 respectively.

[0025] Auxiliary components are arranged between multiple support rods 2, and multiple sealing components are arranged on the top of the bionic model body 1. The auxiliary components can shield the entire device, thereby keeping the device cool and improving the attraction effect of the device. The sealing components can seal the attraction inner groove 11, thereby achieving the trapping effect.

[0026] The auxiliary components include multiple connecting rods 1 21 and multiple connecting rods 22. Connecting rods 22 are snapped into support rods 2, and connecting rods 1 21 are snapped into connecting rods 22. A stabilizing rod 4 is fixedly installed on the top of each support rod 2. A pressure plate 43 is slidably connected to one side of the stabilizing rod 4. Shading material is laid on the top of connecting rods 1 21 and connecting rods 22. Multiple support rods 2 are connected using multiple connecting rods 22, and then multiple connecting rods 22 are connected using multiple connecting rods 1 21. Thus, a shade frame is constructed through the cooperation of the support rods 2, connecting rods 1 21, and connecting rods 22. The shading material on top of connecting rods 1 21 and connecting rods 22 keeps the bionic model body 1 cool. An inner plate 42 is slidably connected inside the stabilizing rod 4. A spring 41 is fixedly installed inside the stabilizing rod 4. The spring 41 is fixedly connected to the inner plate 42, and the pressure plate 43 is fixedly connected to the inner plate 42. In order to prevent the shielding material from falling, the pressure plate 43 can be moved upward first. When the pressure plate 43 moves, it will drive the inner plate 42 to move and squeeze the spring 41. Then, the shielding material is placed under the pressure plate 43, and then the pressure plate 43 is reset so that the pressure plate 43 presses down on the shielding material to prevent the shielding material from falling. Thus, through the cooperation between the shielding material and the auxiliary components, the entire device can be shielded, making the entire device cooler, thereby improving the attraction effect. In addition, there are multiple stabilizing rods 4, which are located at the four corners of the shielding frame, thereby ensuring the stability of the shielding material and further improving the attraction effect.

[0027] The sealing assembly includes a mounting bracket 5. A pull rod 51 is slidably connected inside the mounting bracket 5, and the pull rod 51 is fixedly connected to a connecting rod 21. A slider 53 is slidably connected inside the mounting bracket 5, and the pull rod 51 passes through and is fixedly connected to the slider 53. A second spring 52 is fixedly installed inside the mounting bracket 5, and the second spring 52 is fixedly connected to the slider 53. Moving the pull rod 51 upwards compresses the second spring 52, causing the sealing cover 15 and the slider 53 to move, thus allowing the attractant to be placed into the attractant groove 11. Multiple channels 19 are opened around the outer perimeter of the bionic model body 1, and multiple channels 18 are opened inside the bionic model body 1. Channels 19 communicate with the attractant groove 11. Channel 18 and Channel 2 19 are interconnected. The interconnection between multiple channels 18 and 19 improves the heat dissipation of the device, keeping it cool and allowing the scent of the attractant inside the inner trap 11 to be released, thus attracting termites. Channel 2 19 is cone-shaped, with the end near the inner trap 11 having a smaller diameter. With Channel 2 19 in a cone shape, after termites enter the inner trap 11 through Channel 2 19, the smooth inner wall of the inner trap 11, the smaller diameter of the end of Channel 2 19 near the inner trap 11, and the sealed bottom and top make it difficult for termites to escape, thus achieving the effect of trapping and killing them.

[0028] The working principle of this utility model is as follows: The device is placed in a designated position, then the pull rod 51 is moved upwards to compress the second spring 52, causing the sealing cover 15 and the slider 53 to move. This allows the attractant to be placed into the attractant inner groove 11. After the attractant is placed, multiple connecting rods 22 are used to connect multiple support rods 2, and then multiple connecting rods 21 are used to connect multiple connecting rods 22. A shielding frame is thus constructed through the cooperation of the support rods 2, connecting rods 21, and connecting rods 22. A shielding material is then laid on top of the connecting rods 21 and 22. To prevent the shielding material from falling, the pressure plate 43 is moved upwards first. When the pressure plate 43 moves, it causes the inner plate 42 to move and compress the first spring 41. The shielding material is then placed on the pressure plate 43. Below, the pressure plate 43 is then reset, pressing down on the shielding material to prevent it from falling. This, combined with the shielding material and auxiliary components, effectively shields the entire device, making it cooler and improving the attraction effect. Multiple stabilizing rods 4 are positioned at the four corners of the shielding frame to ensure the stability of the shielding material and further enhance the attraction effect. To improve the killing effect, ventilation is ensured through the combination of channels 18 and 19, allowing the scent of the attractant to escape, thus increasing the device's success rate. Because the inner wall of the attractant groove 11 is smooth, and the diameter of the end of channel 19 near the attractant groove 11 is smaller, with the bottom and top sealed, termites have difficulty escaping, achieving the desired killing effect.

[0029] The above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions will not cause the essence of the corresponding technical solutions to deviate from the protection scope of the technical solutions of the embodiments of this utility model.

Claims

1. A biomimetic model for termite control, comprising a biomimetic model body (1) and multiple sealing caps (15), characterized in that: The bionic model body (1) is flat, and multiple enticing inner grooves (11) are opened inside the bionic model body (1). Multiple support rods (2) are fixedly installed on the top of the bionic model body (1). Multiple sealing caps (15) open or seal the multiple enticing inner grooves (11) respectively. An auxiliary component is provided between the multiple support rods (2), and a multiple sealing component is provided on the top of the bionic model body (1).

2. The biomimetic model for termite control according to claim 1, characterized in that: The auxiliary components include multiple connecting rods one (21) and multiple connecting rods two (22). The connecting rods two (22) are engaged with the support rods (2). The connecting rods one (21) are engaged with the connecting rods two (22). A stabilizing rod (4) is fixedly installed on the top of each of the multiple support rods (2). A pressure plate (43) is slidably connected to one side of the stabilizing rod (4). The top of the connecting rods one (21) and the connecting rods two (22) is covered with sunshade material.

3. The biomimetic model for termite control according to claim 2, characterized in that: The stabilizer bar (4) has an inner plate (42) slidably connected inside, and a spring (41) is fixedly installed inside the stabilizer bar (4). The spring (41) is fixedly connected to the inner plate (42), and the pressure plate (43) is fixedly connected to the inner plate (42).

4. The biomimetic model for termite control according to claim 1, characterized in that: The sealing assembly includes a mounting bracket (5), a pull rod (51) is slidably connected inside the mounting bracket (5), the pull rod (51) is fixedly connected to a connecting rod (21), a slider (53) is slidably connected inside the mounting bracket (5), the pull rod (51) passes through the slider (53) and is fixedly connected to it, and a spring (52) is fixedly installed inside the mounting bracket (5), the spring (52) is fixedly connected to the slider (53).

5. A biomimetic model for termite control according to claim 1, characterized in that: The bionic model body (1) has multiple channels 2 (19) around its outer perimeter, and multiple channels 1 (18) are provided inside the bionic model body (1). The channels 2 (19) are connected to the inner groove (11), and the channels 1 (18) are connected to the channels 2 (19).

6. A biomimetic model for termite control according to claim 5, characterized in that: The channel 2 (19) is cone-shaped, with the end near the inner groove (11) having a smaller diameter.