Ecological trunk pest control device for garden maintenance

By using a ring array bolt connection on the mounting frame to connect a high-frequency vibration module to the tree pest control device, and combining it with a buffer ring and tension spring body, the limitations and damage to the tree caused by the device are solved, achieving stable installation and efficient pest control.

CN224330207UActive Publication Date: 2026-06-09SUZHOU BACKLIGHT ADVERTISING PLANNING SERVICE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU BACKLIGHT ADVERTISING PLANNING SERVICE CO LTD
Filing Date
2025-05-21
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing methods of fixing insect repellent devices for garden trees have significant limitations, which can easily damage trees and make it difficult to adapt to different trunk thicknesses, thus affecting the insect repellent effect and tree growth.

Method used

The high-frequency vibration module is connected by mounting bolts arranged in a ring array on the mounting frame. Combined with the buffer ring and tension spring body, the bolts and spikes are adjusted to achieve a stable installation, buffer vibration, and adapt to different tree trunk thicknesses.

Benefits of technology

This technology enables the stable installation of insect repellent devices on different tree trunks, reducing damage to trees and improving the reliability of the insect repellent effect and the versatility of the device.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of landscaping technology, and in particular to an ecological tree trunk insect repellent device for garden maintenance. The technical solution includes: an insect repellent component, a tension spring body, and a positioning component. The insect repellent component includes a mounting frame and a high-frequency vibration module. The mounting frame has a pre-drilled groove and mounting bolts. The high-frequency vibration module includes a battery module and a buffer ring. One end of the tension spring body is connected to the insect repellent component, and the other end is connected to the positioning component. The positioning component includes a positioning plate, an adjusting bolt, and a gripping rod. The positioning plate has pre-drilled holes, spikes, and an internally threaded sleeve. The adjusting bolt has insertion holes. This utility model has the advantages of being adaptable to various tree trunks and reducing damage to trees, solving the problems of limited fixing methods in existing devices and the ease with which trees can be injured.
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Description

Technical Field

[0001] This utility model relates to the field of landscaping technology, specifically to an ecological tree trunk insect repellent device for landscaping maintenance. Background Technology

[0002] In all aspects of landscaping maintenance, pest control plays a crucial role, directly impacting the healthy growth of trees and the overall aesthetic effect. Currently, pest control strategies for trees mainly fall into two categories: repelling and exterminating. Repelling involves physical or chemical means, using special odors or light to disrupt the sensory systems of pests, causing them to stay away from the trees. Extermination, on the other hand, employs more direct measures, such as using insecticides or introducing natural predators to directly eliminate pests already present on the trees.

[0003] Extensive searching revealed CN219877282U, which discloses an ecological tree trunk insect-repelling device for garden maintenance. The device includes a fixing component, an insect-repelling working module, and a power supply module. The fixing component comprises a fixing ring and a clamping plate. In use, existing devices can interfere with or repel pests in garden trees by manually controlling vibration signals.

[0004] However, this device is secured to the tree trunk using a fixing ring and clamping plate, and fastened with Velcro straps. However, the Velcro's adhesive strength decreases over time, potentially causing the device to loosen and affecting its insect-repelling effect. Furthermore, as trees grow, this fixing method may not adapt to thicker trunks, restricting growth and hindering normal development. In severe cases, it can even damage the phloem, affecting nutrient transport. Additionally, the relatively fixed design of the fixing ring and clamping plate makes it difficult to achieve a perfect fit for trunks of varying thicknesses. Excessively thick trunks may not be securely fixed, causing the device to wobble; excessively thin trunks may be damaged during fixing due to excessive clamping force. This significantly limits the device's widespread application in various garden trees. Therefore, an ecological tree trunk insect-repelling device for garden maintenance is proposed to address these issues. Utility Model Content

[0005] The purpose of this utility model is to provide an ecological tree trunk insect repellent device for garden maintenance, which has the advantages of being adaptable to various tree trunks and reducing damage to trees. It solves the problem that the existing device has great limitations in fixing methods and is prone to causing damage to trees.

[0006] To achieve the above objectives, this utility model provides the following technical solution: an ecological tree trunk insect repellent device for garden maintenance, comprising an insect repellent component, a tension spring body, and a positioning component. The insect repellent component includes a mounting frame and a high-frequency vibration module. The mounting frame is provided with a reserved groove and mounting bolts. The high-frequency vibration module includes a battery module and a buffer ring.

[0007] One end of the tension spring body is connected to the insect repellent component, and the other end of the tension spring body is connected to the positioning component;

[0008] The positioning assembly includes a positioning plate, an adjusting bolt, and a gripping rod. The positioning plate is provided with a pre-drilled hole, a spike, and an internally threaded sleeve. The adjusting bolt is provided with an insertion hole.

[0009] Preferably, the mounting bracket has multiple mounting bolts arranged in a circular array, and the high-frequency vibration module is fixedly connected to the mounting bracket via the mounting bolts.

[0010] In the design, by setting up a mounting bracket with multiple mounting bolts arranged in a circular array, and by fixing the high-frequency vibration module to the mounting bracket via these bolts, a more stable installation of the high-frequency vibration module on the mounting bracket is achieved. The circular array of mounting bolts ensures that the high-frequency vibration module is subjected to uniform force in all directions, effectively preventing loosening or displacement caused by uneven force, ensuring the stability of the insect repellent device during operation, and thus improving the reliability of the insect repellent effect.

[0011] Preferably, the buffer ring is embedded on the side of the high-frequency vibration module near the positioning component, and the side of the buffer ring away from the high-frequency vibration module contacts the tree trunk.

[0012] In this design, a buffer ring is embedded on the side of the high-frequency vibration module near the positioning component, with the side of the buffer ring facing away from the high-frequency vibration module contacting the tree trunk. This effectively buffers the vibrations generated by the high-frequency vibration module. When the high-frequency vibration module is operating, the buffer ring reduces the direct transmission of vibration to the tree trunk, preventing damage from prolonged vibration and protecting the tree's normal growth. Simultaneously, the buffer ring also provides some anti-slip properties, making the connection between the device and the tree trunk more secure.

[0013] Preferably, the battery module is electrically connected to the high-frequency vibration module, and the battery module is threadedly installed on the side of the high-frequency vibration module away from the positioning component.

[0014] In this design, the battery module is electrically connected to the high-frequency vibration module and installed using a threaded mounting method on the side of the high-frequency vibration module away from the positioning component. This achieves a stable power supply from the battery module to the high-frequency vibration module, and the installation method is robust and reliable. The threaded mounting not only facilitates the installation and removal of the battery module, making it easy to replace or recharge when the battery is low, but also ensures that the battery module will not easily loosen during device operation, guaranteeing the stability of the electrical connection and providing a reliable energy guarantee for the continuous and stable operation of the high-frequency vibration module.

[0015] Preferably, there are at least two tension spring bodies, with one end of the tension spring body passing through a pre-reserved groove and the other end of the tension spring body passing through a pre-reserved hole.

[0016] The design incorporates at least two tension spring bodies, with one end passing through a pre-drilled slot and the other through a pre-drilled hole, achieving a stable and adjustable connection between the insect-repelling and positioning components. The coordinated action of multiple tension spring bodies provides a more uniform and stable tension, ensuring a more secure fixation of the device to the tree trunk. Furthermore, the design of the tension spring bodies passing through the pre-drilled slots and holes allows for flexible adjustment of the spring's installation position and tension based on the trunk's thickness, enhancing the device's adaptability to different tree trunks and improving its versatility.

[0017] Preferably, the positioning plate is made of aluminum alloy and the spikes are arranged in a quincunx pattern on the positioning plate.

[0018] In this design, the positioning plate is made of aluminum alloy, and the spikes are arranged in a quincunx pattern on it. This achieves the advantages of reducing weight while maintaining strength, and improving positioning effectiveness. Aluminum alloy is lightweight and high-strength, reducing the overall weight of the device and facilitating installation and operation. The quincunx arrangement of the spikes increases the contact points and friction between the positioning plate and the tree trunk, making the plate more securely fixed to the trunk and effectively preventing displacement during use, thus ensuring the normal operation of the insect-repelling device.

[0019] Preferably, the adjusting bolt is threaded into an internal threaded sleeve, the internal threaded sleeve is welded onto the positioning plate, and the gripping rod and the adjusting bolt are connected by insertion and removal through an insertion hole.

[0020] The design incorporates a screw-in installation of the adjusting bolt within an internally threaded sleeve, which is then welded to the positioning plate. Furthermore, the gripping rod and adjusting bolt are connected via a plug-in hole. This design achieves precise adjustment and easy disassembly of the connection between the positioning plate and the tree trunk. The plug-in connection between the gripping rod and the adjusting bolt allows operators to apply force when installing or removing the positioning plate, making operation more convenient and efficient, and improving the ease of use of the device.

[0021] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0022] 1. This utility model, by setting a pre-reserved slot on the mounting bracket, allows one end of the tension spring body to pass through the pre-reserved slot and adjust its position within it, while the other end passes through a pre-reserved hole in the positioning plate. The positioning plate is fixed to the tree trunk by spikes and adjusting bolts, achieving the effect of adapting to various tree trunks. The pre-reserved slot allows for flexible adjustment of the installation position of the tension spring body according to the thickness of the tree trunk, changing the tension and force of the spring, thus adapting to tree trunks of different diameters. The spikes on the positioning plate can initially fix the positioning plate, and the adjusting bolts can further adjust the fit between the positioning plate and the tree trunk, ensuring that the device can be stably installed on tree trunks of different shapes, solving the problem of the limited fixation method of existing devices.

[0023] 2. This invention reduces damage to trees by embedding a buffer ring on the side of the high-frequency vibration module near the positioning component and placing the side of the buffer ring away from the high-frequency vibration module in contact with the tree trunk. When the high-frequency vibration module is working, the buffer ring effectively cushions the vibration, reducing the direct transmission of vibration to the tree trunk and preventing damage due to prolonged high-frequency vibration. Simultaneously, during installation, by appropriately adjusting the tension of the tension spring and the contact method between the positioning plate and the tree trunk, excessive compression or friction on the tree trunk is avoided, solving the problem of existing devices easily injuring trees. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the main structure of this utility model;

[0025] Figure 2 This is a schematic diagram of the mounting bracket structure of this utility model;

[0026] Figure 3 This is a schematic diagram of the exploded structure of the high-frequency vibration module of this utility model;

[0027] Figure 4 This is a cross-sectional structural diagram of the positioning component of this utility model.

[0028] In the diagram: 1. Insect repellent component; 11. Mounting bracket; 111. Reserved slot; 112. Mounting bolt; 12. High-frequency vibration module; 121. Battery module; 122. Buffer ring; 2. Tension spring body; 3. Positioning component; 31. Positioning plate; 311. Reserved hole; 312. Spike; 313. Internal threaded sleeve; 32. Adjusting bolt; 321. Insertion hole; 33. Holding rod. Detailed Implementation

[0029] 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.

[0030] Example 1

[0031] like Figure 1 , Figure 2 , Figure 3 and Figure 4 As shown, one embodiment of this utility model is provided: an ecological tree trunk insect repellent device for garden maintenance, including an insect repellent component 1, a tension spring body 2 and a positioning component 3. The insect repellent component 1 includes a mounting frame 11 and a high-frequency vibration module 12. The mounting frame 11 is provided with a reserved groove 111 and mounting bolts 112. The high-frequency vibration module 12 includes a battery module 121 and a buffer ring 122.

[0032] One end of the tension spring body 2 is connected to the insect repellent component 1, and the other end of the tension spring body 2 is connected to the positioning component 3;

[0033] The positioning assembly 3 includes a positioning plate 31, an adjusting bolt 32, and a gripping rod 33. The positioning plate 31 is provided with a reserved hole 311, a spike 312, and an internal threaded sleeve 313. The adjusting bolt 32 is provided with an insertion hole 321.

[0034] Specifically, by setting a pre-reserved slot 111 on the mounting bracket 11, one end of the tension spring body 2 passes through the pre-reserved slot 111 and can be adjusted in position therein, while the other end passes through the pre-reserved hole 311 of the positioning plate 31. The positioning plate 31 is fixed to the tree trunk by spikes 312 and adjusting bolts 32, achieving the effect of adapting to various tree trunks. The pre-reserved slot 111 can flexibly adjust the installation position of the tension spring body 2 according to the thickness of the tree trunk, changing the tension and force of the tension spring, thereby adapting to tree trunks of different diameters; the spikes 312 on the positioning plate 31 can initially fix the positioning plate 31, and the adjusting bolts 32 can further adjust the fit between the positioning plate 31 and the tree trunk, ensuring that the device can be stably installed on tree trunks of different shapes, solving the problem of the limited fixation method of the existing device.

[0035] By embedding a buffer ring 122 on the side of the high-frequency vibration module 12 near the positioning component 3, and placing the side of the buffer ring 122 away from the high-frequency vibration module 12 in contact with the tree trunk, the damage to the tree is reduced. When the high-frequency vibration module 12 is working, the buffer ring 122 can effectively buffer the vibration, reduce the direct transmission of vibration to the tree trunk, and avoid damage to the tree trunk due to long-term high-frequency vibration. At the same time, during the installation process, by reasonably adjusting the tension of the tension spring body 2 and the contact method between the positioning plate 31 and the tree trunk, excessive compression or friction on the tree trunk is avoided, solving the problem that existing devices are prone to injuring trees.

[0036] Example 2

[0037] To ensure the insect repellent device operates stably and effectively, while also enhancing its adaptability to different tree trunks and providing multiple benefits for tree protection, such as... Figure 1 , Figure 2 and Figure 3 As shown, in this embodiment, there are multiple mounting bolts 112 on the mounting bracket 11, which are arranged in a ring array. The high-frequency vibration module 12 is fixedly connected to the mounting bracket 11 through the mounting bolts 112.

[0038] In the design, by setting multiple mounting bolts 112 arranged in a circular array on the mounting bracket 11, and by fixing the high-frequency vibration module 12 to the mounting bracket 11 through the mounting bolts 112, a more stable installation effect of the high-frequency vibration module 12 on the mounting bracket 11 is achieved. The circular array distribution of multiple mounting bolts 112 ensures that the high-frequency vibration module 12 is subjected to uniform force in all directions, effectively avoiding loosening or displacement caused by uneven force, ensuring the stability of the insect repellent device during operation, and thus improving the reliability of the insect repellent effect.

[0039] Furthermore, the buffer ring 122 is embedded on the side of the high-frequency vibration module 12 near the positioning component 3, and the side of the buffer ring 122 away from the high-frequency vibration module 12 contacts the tree trunk.

[0040] In the design, by embedding the buffer ring 122 on the side of the high-frequency vibration module 12 near the positioning component 3, and ensuring that the side of the buffer ring 122 facing away from the high-frequency vibration module 12 contacts the tree trunk, the vibration generated by the high-frequency vibration module 12 is effectively buffered. When the high-frequency vibration module 12 is operating, the buffer ring 122 reduces the direct transmission of vibration to the tree trunk, preventing damage to the trunk due to long-term vibration and protecting the normal growth of the tree. Simultaneously, the buffer ring 122 also provides a certain degree of anti-slip effect, making the connection between the device and the tree trunk more stable.

[0041] Furthermore, the battery module 121 is electrically connected to the high-frequency vibration module 12, and the battery module 121 is threadedly installed on the side of the high-frequency vibration module 12 away from the positioning component 3.

[0042] In the design, by electrically connecting the battery module 121 to the high-frequency vibration module 12 and using a threaded mounting method on the side of the high-frequency vibration module 12 away from the positioning component 3, the purpose of the battery module 121 to stably power the high-frequency vibration module 12 is achieved, and the installation method is stable and reliable. The threaded mounting method not only facilitates the installation and removal of the battery module 121, making it convenient to replace or charge the battery when its power is insufficient, but also ensures that the battery module 121 will not easily loosen during device operation, guaranteeing the stability of the electrical connection and providing a reliable energy guarantee for the continuous and stable operation of the high-frequency vibration module 12.

[0043] Furthermore, there are no fewer than two tension spring bodies 2, with one end of the tension spring body 2 passing through the reserved groove 111 and the other end of the tension spring body 2 passing through the reserved hole 311.

[0044] In the design, by setting no fewer than two tension spring bodies 2, with one end of each tension spring body 2 passing through a pre-reserved slot 111 and the other end passing through a pre-reserved hole 311, a stable and adjustable connection is achieved between the insect-repelling component 1 and the positioning component 3. The coordinated action of multiple tension spring bodies 2 provides a more uniform and stable tension, making the device more securely fixed to the tree trunk. Simultaneously, the design of the tension spring bodies 2 passing through the pre-reserved slot 111 and pre-reserved hole 311 allows for flexible adjustment of the installation position and tension magnitude of the tension springs according to the thickness of the tree trunk, enhancing the device's adaptability to different tree trunks and improving its versatility.

[0045] Example 3

[0046] To achieve overall lightweight design, precise positioning, and ease of operation, thereby effectively improving the device's practicality and usability, such as... Figure 4 As shown, in this embodiment, the positioning plate 31 is made of aluminum alloy, and the spikes 312 are arranged in a quincunx pattern on the positioning plate 31.

[0047] In the design, by using aluminum alloy for the positioning plate 31 and arranging the spikes 312 in a quincunx pattern on the positioning plate 31, the advantages of reducing weight while maintaining strength and improving positioning effectiveness are achieved. Aluminum alloy is lightweight and high-strength, reducing the overall weight of the device and facilitating installation and operation. The quincunx arrangement of the spikes 312 increases the contact points and friction between the positioning plate 31 and the tree trunk, making the positioning plate 31 more securely fixed to the trunk and effectively preventing displacement during use, thus ensuring the normal operation of the insect-repelling device.

[0048] Furthermore, the adjusting bolt 32 is threaded into the internal threaded sleeve 313, which is welded onto the positioning plate 31. The gripping rod 33 and the adjusting bolt 32 are connected by insertion and removal through the insertion hole 321.

[0049] In the design, by threading the adjusting bolt 32 into the internal threaded sleeve 313, welding the internal threaded sleeve 313 onto the positioning plate 31, and connecting the holding rod 33 and the adjusting bolt 32 through the insertion hole 321, precise adjustment and convenient disassembly of the connection between the positioning plate 31 and the tree trunk are achieved. The plug-and-play connection between the holding rod 33 and the adjusting bolt 32 facilitates the application of force by the operator when installing or removing the positioning plate 31, making operation more convenient and efficient, and improving the ease of use of the device.

[0050] In use, the high-frequency vibration module 12 is placed on the mounting bracket 11, aligning the mounting holes on the high-frequency vibration module 12 with the pre-drilled slots 111 and mounting bolts 112 on the mounting bracket 11. The high-frequency vibration module 12 is then fixed to the mounting bracket 11 using the mounting bolts 112. Each mounting bolt 112 is tightened evenly to ensure a stable installation of the high-frequency vibration module 12. The battery module 121 is then threaded onto the side of the high-frequency vibration module 12 facing away from the positioning component 3, ensuring a tight thread fit and secure installation.

[0051] Select at least two tension spring bodies 2 and pass one end of the tension spring body 2 through the reserved hole 311 of the positioning plate 31. The appropriate length and elasticity of the tension spring body 2 can be selected according to the actual use requirements to ensure that the tension spring body 2 will not easily come out of the reserved hole 311 and to ensure that one end of the tension spring is always connected to the positioning plate 31.

[0052] Find a suitable installation location on the tree trunk. Directly align one end of the spike 312 of the positioning plate 31 with the tree trunk by hand. Then, gently hammer the positioning plate 31 with a hammer or other tool to allow the spike 312 to penetrate the tree trunk to a certain depth, thus initially fixing the positioning plate 31 to the tree trunk. During the hammering process, be careful to control the force to avoid causing excessive damage to the tree trunk, and at the same time ensure that the positioning plate 31 is installed stably.

[0053] Pass the other end of the tension spring body 2, which is connected to the positioning plate 31, through the reserved slot 111 of the mounting bracket 11 to obtain appropriate tension. After installation, conduct a comprehensive inspection of the device's installation. Check whether the connections of each component are tight, whether the tension of the tension spring body 2 is appropriate, and whether the positioning plate 31 fits well with the tree trunk, etc. Connect the power supply to the battery module 121, start the high-frequency vibration module 12, and observe whether the device is working properly. Check whether the vibration of the high-frequency vibration module 12 is stable and whether there is any abnormal noise, shaking, or other abnormal phenomena.

[0054] When it is necessary to remove the positioning plate 31, use the gripping rod 33. Insert the gripping rod 33 into the insertion hole 321 of the adjusting bolt 32, and then rotate the gripping rod 33 in the opposite direction to drive the adjusting bolt 32 to rotate in the internal threaded sleeve 313 and push the tree trunk, thereby separating the spike 312 from the tree trunk. After removing the positioning plate 31 from the tree trunk, store it properly for future use.

[0055] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. An ecological tree trunk insect repellent device for garden maintenance, comprising an insect repellent component (1), a tension spring body (2), and a positioning component (3), characterized in that: The insect repellent component (1) includes a mounting bracket (11) and a high-frequency vibration module (12). The mounting bracket (11) is provided with a reserved slot (111) and mounting bolts (112). The high-frequency vibration module (12) includes a battery module (121) and a buffer ring (122). One end of the tension spring body (2) is connected to the insect repellent component (1), and the other end of the tension spring body (2) is connected to the positioning component (3); The positioning assembly (3) includes a positioning plate (31), an adjusting bolt (32), and a gripping rod (33). The positioning plate (31) is provided with a reserved hole (311), a spike (312), and an internal threaded sleeve (313). The adjusting bolt (32) is provided with an insertion hole (321).

2. The ecological tree trunk insect repellent device for garden maintenance according to claim 1, characterized in that, The mounting bracket (11) has multiple mounting bolts (112) arranged in a ring array. The high-frequency vibration module (12) is fixedly connected to the mounting bracket (11) by the mounting bolts (112).

3. The ecological tree trunk insect repellent device for garden maintenance according to claim 1, characterized in that, The buffer ring (122) is embedded on the side of the high-frequency vibration module (12) near the positioning component (3), and the side of the buffer ring (122) away from the high-frequency vibration module (12) is in contact with the tree trunk.

4. The ecological tree trunk insect repellent device for garden maintenance according to claim 1, characterized in that, The battery module (121) is electrically connected to the high-frequency vibration module (12), and the battery module (121) is threadedly installed on the side of the high-frequency vibration module (12) away from the positioning component (3).

5. The ecological tree trunk insect repellent device for garden maintenance according to claim 1, characterized in that, The number of tension spring bodies (2) is not less than two. One end of the tension spring body (2) passes through the reserved groove (111), and the other end of the tension spring body (2) passes through the reserved hole (311).

6. The ecological tree trunk insect repellent device for garden maintenance according to claim 1, characterized in that, The positioning plate (31) is made of aluminum alloy and the spikes (312) are arranged in a plum blossom pattern on the positioning plate (31).

7. The ecological tree trunk insect repellent device for garden maintenance according to claim 1, characterized in that, The adjusting bolt (32) is threaded inside the internal threaded sleeve (313), which is welded onto the positioning plate (31). The gripping rod (33) and the adjusting bolt (32) are connected by insertion through the insertion hole (321).