A physical barrier device for termite intrusion

By introducing attractants and probes into the physical barrier device for termite intrusion for real-time monitoring, and by utilizing a permeable net and convenient structure, the shortcomings of traditional devices in monitoring and water accumulation have been solved, thus realizing real-time monitoring of termite intrusion and convenient installation and maintenance.

CN224440160UActive Publication Date: 2026-07-03CHENGDU HOUSING SAFETY AFFAIRS CENT (CHENGDU TERMITE CONTROL RES CENT)

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHENGDU HOUSING SAFETY AFFAIRS CENT (CHENGDU TERMITE CONTROL RES CENT)
Filing Date
2025-07-29
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Traditional physical termite barrier devices lack real-time monitoring and intelligent response capabilities, and are prone to water accumulation during rainy weather, which affects the effectiveness of attractants. They are also inconvenient to install and maintain.

Method used

A physical barrier device for termite intrusion was designed, comprising a storage cylinder, a probe, a signal line, a control board, a compensation board, and a permeable net. It attracts termites with a bait and monitors their activity in real time, while the permeable net drains rainwater. The top plate and handle facilitate installation and maintenance.

Benefits of technology

It enables real-time monitoring of termite intrusion, avoids the impact of water accumulation on the device, simplifies the installation and maintenance process, and improves the practicality and efficiency of the device.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to termite control technical field especially, it is a kind of termite invasion physical blocking device, including storage cartridge, the butt joint sleeve is screwed to the top outer wall of storage cartridge, and the inner wall of butt joint sleeve is fixedly connected with control panel by screw, the signal line is fixedly connected with the outer wall of control panel bottom, and the outer wall of signal line bottom is fixedly connected with probe, the inside of storage cartridge is placed with the wood strip with food attractant, and the top of storage cartridge is provided with top plate, and the outer wall of storage cartridge is welded with compensation plate. The utility model places the wood strip with food attractant in storage cartridge, and sets up detection port in the inside of wood strip, probe is placed in detection port, can actively attract termite, when termite is attracted by food attractant and enters storage cartridge, probe can detect the activity of termite in real time, and signal is transmitted to control panel by signal line, realizes the real-time monitoring of termite invasion, solves the problem that traditional device cannot actively monitor termite invasion.
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Description

Technical Field

[0001] This utility model relates to the field of termite control technology, and in particular to a physical barrier device for termite invasion. Background Technology

[0002] In the field of termite control, physical barrier devices are important tools for preventing termites from invading buildings through physical means. Traditional termite physical barrier devices usually use a single physical barrier structure, such as laying metal mesh or setting up a concrete barrier layer. These devices mainly rely on the physical structure itself to block termites, lacking real-time monitoring and intelligent response capabilities for termite activity.

[0003] In practical use, traditional devices have some shortcomings:

[0004] On the one hand, because there are no wooden strips with attractants and detection probes, it is impossible to actively attract termites and monitor their invasion in real time, making it difficult to detect and take measures in the early stages of termite invasion.

[0005] On the other hand, the traditional device has an unreasonable structural design, lacking components such as permeable nets and compensation plates. When encountering rainy weather, water easily accumulates inside the device, affecting the effect of the attractant. Moreover, the device is inconvenient to install and maintain, lacking handles and easy disassembly structures, resulting in a significant need for manpower and time in actual operation. Utility Model Content

[0006] In view of the shortcomings of the existing technology, this utility model provides a physical barrier device for termite intrusion, which overcomes the shortcomings of the existing technology and effectively solves the problem of lack of real-time monitoring and intelligent response capabilities for termite activities.

[0007] To achieve the above objectives, the present invention adopts the following technical solution:

[0008] A physical barrier device for termite intrusion includes a pesticide storage cylinder. A connecting sleeve is screwed to the top outer wall of the pesticide storage cylinder, and a control plate is fixedly connected to the inner wall of the connecting sleeve by screws. A signal line is fixedly connected to the bottom outer wall of the control plate, and a probe is fixedly connected to the bottom outer wall of the signal line. Wooden strips with attractants are placed inside the pesticide storage cylinder, and a top plate is provided on the top of the pesticide storage cylinder. A compensation plate is welded to the outer wall of the pesticide storage cylinder, and a symmetrically distributed permeable mesh is provided on the inner wall of the compensation plate.

[0009] The above solution involves placing a wooden strip with a attractant inside the pesticide storage cylinder and setting up a detection port inside the wooden strip. The probe is placed inside the detection port and can actively attract termites. When the termites are attracted into the pesticide storage cylinder by the attractant, the probe can detect the termite activity in real time and transmit the signal to the control board through a signal line, thus realizing real-time monitoring of termite intrusion and solving the problem that traditional devices cannot actively monitor termite intrusion.

[0010] The compensating plate and permeable net effectively cope with rainy weather. The permeable net allows rainwater to drain smoothly, preventing water accumulation inside the storage tank and ensuring that the attractant's effectiveness is not affected. At the same time, the handle on the top plate and the removable sealing cover make the installation and maintenance of the device more convenient. Workers can easily move the device with the handle and easily inspect and replace internal components after removing the sealing cover. This solves the problems of inconvenient installation and maintenance of traditional devices and the impact of water accumulation on the attractant's effectiveness.

[0011] Preferably, the outer wall of the top of the mating sleeve is provided with a sealing cover, and the outer wall of the sealing cover is provided with anti-slip strips distributed at equal intervals.

[0012] The above solution makes it easier for staff to unscrew or tighten the sealing cap.

[0013] Preferably, the bottom outer wall of the top plate is welded with symmetrically distributed columns, and the columns are installed through the inner wall of the compensation plate.

[0014] The above-described scheme uses columns to support the roof slab, ensuring its stability.

[0015] Preferably, a threaded washer is screwed onto the outer wall of the bottom of the column.

[0016] Using the above method, the threaded gasket can fix the position of the column and prevent the column from loosening.

[0017] Preferably, an installation opening is provided at the center of the outer wall of the top plate, and a handle is rotatably connected inside the installation opening.

[0018] The above design makes it easier for staff to carry the device with the handle.

[0019] Preferably, the top plate is located above the sealing cover.

[0020] The above solution provides some protection for the sealing cover.

[0021] Preferably, the outer wall of the medicine storage cylinder has an ant inlet.

[0022] The above method provides a channel for termites to enter the pesticide storage container.

[0023] Preferably, the wooden strip has a detection port inside, and the probe is located inside the detection port.

[0024] The above method ensures that the probe can accurately detect termite activity near the wooden strip.

[0025] The beneficial effects of this utility model are as follows:

[0026] 1. The termite intrusion physical barrier device designed in this paper places a wooden strip containing a attractant inside the storage cylinder and sets up a detection port inside the wooden strip. The probe is placed in the detection port and can actively attract termites. When the termites are attracted into the storage cylinder by the attractant, the probe can detect the termite activity in real time and transmit the signal to the control board through the signal line, realizing real-time monitoring of termite intrusion and solving the problem that traditional devices cannot actively monitor termite intrusion.

[0027] 2. The physical barrier device for termite intrusion designed in this invention, with its compensation plate and permeable mesh, can effectively cope with rainy weather. The permeable mesh allows rainwater to drain smoothly, preventing water accumulation inside the storage cylinder and ensuring that the attractant's effectiveness is not affected. At the same time, the handle on the top plate and the removable sealing cover make the installation and maintenance of the device more convenient. Workers can easily move the device with the handle and conveniently inspect and replace internal components after removing the sealing cover. This solves the problems of inconvenient installation and maintenance of traditional devices and the impact of water accumulation on the attractant's effectiveness. Attached Figure Description

[0028] Figure 1 This is a schematic diagram of the overall structure of a physical barrier device for termite intrusion proposed in this utility model. Figure 1 ;

[0029] Figure 2 This is a schematic diagram of the overall structure of a physical barrier device for termite intrusion proposed in this utility model. Figure 2 ;

[0030] Figure 3 This is a schematic diagram of the connection structure of the medicine storage cylinder of a physical barrier device for termite invasion proposed in this utility model;

[0031] Figure 4 This is a schematic diagram showing the disassembled structure of the medicine storage cylinder, connecting sleeve, and sealing cap of a physical barrier device for termite invasion proposed in this utility model.

[0032] Figure 5 This is a schematic diagram of the wooden strip structure of a physical barrier device for termite invasion proposed in this utility model.

[0033] In the diagram: 1. Medicine storage cylinder; 2. Connecting sleeve; 3. Sealing cap; 4. Control board; 5. Signal line; 6. Probe; 7. Wooden strip; 8. Column; 9. Top plate; 10. Threaded gasket; 11. Compensation plate; 12. Permeable mesh; 13. Installation port; 14. Handle; 15. Ant inlet; 16. Anti-slip strip; 17. Detection port. Detailed Implementation

[0034] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0035] Reference Figure 1-5 Example 1: A physical barrier device for termite intrusion includes a medicine storage cylinder 1. A connecting sleeve 2 is screwed to the top outer wall of the medicine storage cylinder 1, and a control plate 4 is fixedly connected to the inner wall of the connecting sleeve 2 by screws. A signal line 5 is fixedly connected to the bottom outer wall of the control plate 4, and a probe 6 is fixedly connected to the bottom outer wall of the signal line 5. A wooden strip 7 containing a feeding attractant is placed inside the medicine storage cylinder 1. An inlet 15 is opened around the perimeter of the outer wall of the medicine storage cylinder 1. A detection port 17 is provided inside the wooden strip 7, and the probe 6 is located inside the detection port 17.

[0036] A connecting sleeve 2 is screwed to the top outer wall of the pesticide storage cylinder 1. A control board 4 is fixedly connected to the inner wall of the connecting sleeve 2 by screws. The control board 4 is used to receive and process signals transmitted by the probe 6. A signal line 5 is fixedly connected to the bottom outer wall of the control board 4. A probe 6 is fixedly connected to the bottom outer wall of the signal line 5. The probe 6 is used to detect termite activity. A wooden strip 7 containing a attractant is placed inside the pesticide storage cylinder 1. The attractant attracts termites. An entrance 15 is opened around the perimeter of the outer wall of the pesticide storage cylinder 1, providing a passage for termites to enter the pesticide storage cylinder 1. A detection port 17 is set inside the wooden strip 7. The probe 6 is set inside the detection port 17 to ensure that the probe 6 can accurately detect termite activity near the wooden strip 7.

[0037] In this embodiment, by placing a wooden strip 7 containing a attractant inside the medicine storage cylinder 1 and setting a detection port 17 inside the wooden strip 7, and placing a probe 6 inside the detection port 17, termites can be actively attracted. When termites are attracted into the medicine storage cylinder 1 by the attractant, the probe 6 can detect the activity of termites in real time and transmit the signal to the control board 4 through the signal line 5, thereby realizing real-time monitoring of termite intrusion and solving the problem that traditional devices cannot actively monitor termite intrusion.

[0038] In embodiment 2, a top plate 9 is provided on the top of the medicine storage cylinder 1. A compensation plate 11 is welded to the outer wall of the medicine storage cylinder 1, and a symmetrically distributed permeable mesh 12 is provided on the inner wall of the compensation plate 11. A symmetrically distributed column 8 is welded to the bottom outer wall of the top plate 9, and the column 8 is inserted through the inner wall of the compensation plate 11. A threaded washer 10 is screwed to the bottom outer wall of the column 8. An installation port 13 is opened at the center of the top outer wall of the top plate 9, and a handle 14 is rotatably connected inside the installation port 13. The top plate 9 is located above the sealing cover 3. A sealing cover 3 is provided on the top outer wall of the docking sleeve 2, and anti-slip strips 16 are provided at equal intervals on the outer wall of the sealing cover 3.

[0039] A top plate 9 is installed on the top of the medicine storage cylinder 1, which protects the internal structure of the device. A compensation plate 11 is welded to the outer wall of the medicine storage cylinder 1. The compensation plate 11 assists termites in crawling into the medicine storage cylinder 1. Symmetrically distributed permeable mesh 12 is installed on the inner wall of the compensation plate 11, allowing rainwater to pass through and preventing water accumulation inside the medicine storage cylinder 1. Symmetrically distributed columns 8 are welded to the bottom outer wall of the top plate 9, penetrating the inner wall of the compensation plate 11. The columns 8 support the top plate 9, ensuring its stability. Threaded washers 10 are screwed to the bottom outer wall of the columns 8, fixing their position and preventing loosening. An installation opening 13 is provided at the center of the top outer wall of the top plate 9. A handle 14 is rotatably connected inside the installation opening 13, facilitating the handling of the device. The top plate 9 is located above the sealing cover 3, providing some protection for the sealing cover 3. A sealing cover 3 is provided on the top outer wall of the docking sleeve 2. The sealing cover 3 can prevent rainwater and debris from entering the interior of the docking sleeve 2. Anti-slip strips 16 are provided on the outer wall of the sealing cover 3 at equal intervals. The anti-slip strips 16 make it convenient for workers to unscrew or tighten the sealing cover 3.

[0040] In this embodiment, the compensation plate 11 and the permeable net 12 can effectively cope with rainy weather. The permeable net 12 allows rainwater to drain smoothly, preventing water accumulation inside the storage cylinder 1 and ensuring that the effect of the attractant is not affected. At the same time, the handle 14 on the top plate 9 and the detachable sealing cover 3 make the installation and maintenance of the device more convenient. The staff can easily move the device through the handle 14 and conveniently inspect and replace the internal components after removing the sealing cover 3. This solves the problems of inconvenient installation and maintenance of traditional devices and the impact of water accumulation on the effect of the attractant.

[0041] Working principle: The device is placed in the area where termites need to be controlled. The wooden strips 7 inside the pesticide storage cylinder 1 contain attractants, which attract termites into the storage cylinder 1 through the termite inlet 15 and the compensation plate 11. Once the termites enter, the probe 6 detects termite activity in the detection port 17 and transmits the signal to the control board 4 via the signal line 5. The control board 4 can process the signal according to a preset program, and if an alarm is needed, it will issue an alarm signal to remind the staff to take action.

[0042] During rainy weather, rainwater is drained through the permeable net 12, preventing water accumulation inside the storage cylinder 1 and ensuring the effectiveness of the attractant. Workers can move the device using the handle 14. When maintenance or replacement of parts is needed, the sealing cover 3 can be unscrewed to inspect and replace components such as the control panel 4 and probe 6. During installation, the top plate 9 and compensation plate 11 are secured using the column 8 and threaded washers 10 to ensure structural stability. The entire device, through its attractant, detection, drainage, and convenient installation and maintenance structure, achieves effective physical barrier and monitoring of termite infestation.

[0043] The model of control board 4: The STM32F103RCT6 microcontroller can be used as the core chip of control board 4. This microcontroller has the characteristics of high performance, low cost and low power consumption, and integrates rich peripheral resources, which can meet the processing and control needs of termite intrusion monitoring signals.

[0044] Function: As the control core of the entire device, it receives signals transmitted from probe 6, analyzes and processes the signals, and controls the actions of related components according to a preset program. For example, when probe 6 detects termite activity, control board 4 will receive the signal and issue an alarm signal, or control other devices to perform corresponding actions.

[0045] The model of probe 6: The HC-SR501 human infrared sensing module can be used as probe 6. This module uses an infrared pyroelectric sensor, which has high sensitivity and reliability and can detect changes in infrared radiation generated by termite activity.

[0046] Function: Real-time detection of termite activity inside the pesticide storage cylinder 1. When termites enter the pesticide storage cylinder 1 and approach the wooden strip 7, the probe 6 detects the infrared signal generated by the termite activity and transmits the signal to the control board 4 through the signal line 5, realizing real-time monitoring of termite intrusion.

[0047] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A physical barrier against termite intrusion comprising a cartridge (1) characterised in that, The top outer wall of the medicine storage cylinder (1) is screwed with a docking sleeve (2), and the inner wall of the docking sleeve (2) is fixedly connected with a control plate (4) by screws. The bottom outer wall of the control plate (4) is fixedly connected with a signal line (5), and the bottom outer wall of the signal line (5) is fixedly connected with a probe (6). The inside of the medicine storage cylinder (1) is a wooden strip (7) with a feeding attractant, and the top of the medicine storage cylinder (1) is provided with a top plate (9). The outer wall of the medicine storage cylinder (1) is welded with a compensation plate (11), and the inner wall of the compensation plate (11) is provided with a symmetrically distributed permeable net (12).

2. A physical barrier against termite intrusion as defined in claim 1, wherein The top outer wall of the docking sleeve (2) is provided with a sealing cover (3), and the outer wall of the sealing cover (3) is provided with anti-slip strips (16) distributed at equal intervals.

3. The physical barrier against termite intrusion according to claim 1, wherein, The top plate (9) has symmetrically distributed columns (8) welded to the bottom outer wall, and the columns (8) are installed through the inner wall of the compensation plate (11).

4. The physical barrier against termite intrusion according to claim 3, wherein, The bottom outer wall of the column (8) is screwed with a threaded washer (10).

5. The physical barrier against termite intrusion according to claim 1, wherein, The top plate (9) has an installation opening (13) at the center of the outer wall of the top, and a handle (14) is rotatably connected inside the installation opening (13).

6. The physical barrier against termite intrusion according to claim 1, wherein The top plate (9) is located above the sealing cover (3).

7. The physical barrier device for termite intrusion according to claim 1, characterized in that, The outer wall of the medicine storage cylinder (1) is provided with an ant inlet (15).

8. The physical barrier against termite intrusion according to claim 1, wherein, The wooden strip (7) has a detection port (17) inside, and the probe (6) is located inside the detection port (17).