A garden green plant carbon fixation monitoring and screening device
By using the dust filtration and lifting mechanism of the garden green plant carbon sequestration monitoring and screening equipment, the problem of dust entering the monitoring host is solved, achieving efficient dust filtration and convenient height adjustment of the equipment, and extending the maintenance cycle.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG BI RAN MEI LANDSCAPE ART CO LTD
- Filing Date
- 2025-08-05
- Publication Date
- 2026-07-10
AI Technical Summary
In existing technologies, dust and gas enter the monitoring host through the air inlet together, resulting in a shortened maintenance cycle for the monitoring host, which is time-consuming and labor-intensive.
A monitoring and screening device for carbon sequestration in garden plants was designed, which employs a dust filtering mechanism and a lifting mechanism. The dust filtering mechanism filters dust through a filter screen area, and the lifting mechanism adjusts the height of the monitoring host through a dual-axis motor and a bevel gear system.
It effectively reduces dust intrusion into the monitoring host, extends the maintenance cycle, saves time and effort, and allows for easy adjustment of the monitoring host height to adapt to plant growth.
Smart Images

Figure CN224474805U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of carbon sequestration monitoring, specifically to a screening device for carbon sequestration monitoring of garden plants. Background Technology
[0002] Carbon sequestration monitoring refers to a technical system that uses scientific methods to quantitatively assess the absorption, fixation, and storage of carbon dioxide in natural or anthropogenic systems. Its core objective is to measure the carbon sink capacity of ecosystems (such as forests, wetlands, and farmland) or engineering technologies (such as carbon capture and storage), providing data support for addressing climate change and optimizing carbon management.
[0003] Chinese patent discloses a forest carbon sequestration monitoring device (authorization announcement number CN 218727137U). This patented technology allows for rapid adjustment of the device's height according to actual needs, improving its effectiveness. However, dust and gas enter the monitoring unit through the air inlet, shortening the maintenance cycle and making it time-consuming and labor-intensive. Therefore, those skilled in the art have developed a garden plant carbon sequestration monitoring and screening device to address the problems mentioned in the background. Utility Model Content
[0004] To solve the above-mentioned technical problems, this utility model provides a monitoring and screening device for carbon sequestration of garden plants, including a C-shaped rod. A fixing plate is symmetrically installed on the side of the C-shaped rod, and expansion bolts are installed inside the fixing plate. An extension rod is slidably connected inside the C-shaped rod. A lifting mechanism is installed inside the C-shaped rod and is fixedly connected to the extension rod. A monitoring host is installed at the rear end of the extension rod, and a signal transceiver is installed at the upper end of the monitoring host. An air inlet is provided at the left end of the monitoring host, and a dust filter mechanism is installed at the left end of the air inlet. A solar panel is installed at the upper end of the extension rod.
[0005] Preferably, the lifting mechanism includes lifting slots and a cavity, with two lifting slots formed on the inner wall of the C-shaped rod and the cavity located at the bottom of the C-shaped rod.
[0006] Preferably, the threaded rod is rotatably connected inside the lifting groove, and the lower end of the threaded rod passes through the upper end of the cavity and is fitted with a bevel gear. A threaded sleeve is fitted on the outer surface of the threaded rod, and the threaded sleeve is fixedly connected to the lower side of the extension rod.
[0007] Preferably, a dual-axis motor is installed inside the cavity, and bevel gears are installed at both ends of the dual-axis motor, with bevel gears meshing with bevel gears.
[0008] Preferably, the dust filtering mechanism includes a placement frame and a cover plate. A rotating plate is set inside the placement frame, and several filter screen areas are set inside the rotating plate. A cover plate is set at the top of the placement frame, and through holes are opened inside the placement frame and the cover plate at positions corresponding to the air inlet.
[0009] Preferably, internally threaded blocks are symmetrically installed on the side of the placement frame, and fastening bolts are symmetrically arranged on the side of the cover plate.
[0010] Preferably, a circular groove is formed at the upper end of the rotating plate, and symmetrical limiting grooves are formed on the inner wall of the circular groove. A servo motor is installed at the upper end of the cover plate, a rotating shaft is installed at the lower end of the servo motor, and limiting blocks are symmetrically installed on the side of the rotating shaft.
[0011] The technical effects and advantages of this utility model are as follows:
[0012] This invention filters dust from the air through a filter area, reducing dust intrusion into the monitoring host, extending the maintenance cycle, and saving time and effort. When the filter area is clogged with dust, the servo motor drives the rotating plate to rotate intermittently, so that the new filter area moves to the position of the through hole, reducing the work of replacing the filter and saving time and effort. When the plant grows taller, the dual-axis motor drives the monitoring host to rise to the working height, which is convenient and quick. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the structure of this application;
[0014] Figure 2 This is a schematic diagram of the ash filtering mechanism of this application;
[0015] Figure 3 This is a structural schematic diagram of the cover plate of this application;
[0016] Figure 4 This is a structural schematic diagram of the lifting mechanism of this application;
[0017] In the picture:
[0018] 1. C-shaped rod; 2. Fixing plate; 3. Expansion bolt; 4. Extension rod; 5. Lifting groove; 6. Cavity; 7. Threaded rod; 8. Threaded sleeve; 9. Bevel gear one;
[0019] 10. Dual-axis motor; 11. Bevel gear II; 12. Monitoring host; 13. Signal transceiver; 14. Dust filtering mechanism; 15. Placement frame; 16. Rotating plate; 17. Filter area; 18. Cover plate; 19. Through hole;
[0020] 20. Internal threaded block; 21. Fastening bolt; 22. Circular groove; 23. Limiting groove; 24. Servo motor; 25. Rotating shaft; 26. Limiting block; 27. Solar panel. Detailed Implementation
[0021] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the present invention to the disclosed forms. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described to better illustrate the principles and practical applications of the present invention, and to enable those skilled in the art to understand the present invention and design various embodiments with various modifications suitable for a particular purpose.
[0022] like Figures 1-4 As shown, this embodiment provides a monitoring and screening device for carbon sequestration in garden plants, including a convex rod 1. A fixing plate 2 is symmetrically installed on the side of the convex rod 1. Expansion bolts 3 are installed inside the fixing plate 2. An extension rod 4 is slidably connected inside the convex rod 1. A lifting mechanism is installed inside the convex rod 1 and is fixedly connected to the extension rod 4. The lifting mechanism includes lifting grooves 5 and a cavity 6. Two lifting grooves 5 are formed on the inner wall of the convex rod 1. The cavity 6 is located at the bottom of the convex rod 1. A threaded rod 7 is rotatably connected inside the lifting grooves 5. The lower end of the threaded rod 7 passes through the upper end of the cavity 6 and is fitted with a bevel gear 9. A threaded sleeve 8 is fitted on the outer surface of the threaded rod 7 and is fixedly connected to the lower side of the extension rod 4. A dual-axis motor 10 is installed inside the cavity 6. Bevel gears 11 are installed at both ends of the dual-axis motor 10, and the bevel gears 11 and 9 mesh. The rear end of the extension rod 4... The monitoring host 12 is installed, and a signal transceiver 13 is installed on the upper end of the monitoring host 12. An air inlet is set on the left end of the monitoring host 12, and a dust filter mechanism 14 is installed on the left end of the air inlet. A solar panel 27 is installed on the upper end of the extension rod 4. The dust filter mechanism 14 includes a placement frame 15 and a cover plate 18. A rotating plate 16 is set inside the placement frame 15, and several filter areas 17 are set inside the rotating plate 16. A cover plate 18 is set on the upper end of the placement frame 15. Through holes 19 are opened inside the placement frame 15 and the cover plate 18 at the positions corresponding to the air inlet. Internal threaded blocks 20 are symmetrically installed on the side of the placement frame 15. Fastening bolts 21 are symmetrically set on the side of the cover plate 18. A circular groove 22 is opened on the upper end of the rotating plate 16. A limiting groove 23 is symmetrically opened on the inner wall of the circular groove 22. A servo motor 24 is installed on the upper end of the cover plate 18. A rotating shaft 25 is installed on the lower end of the servo motor 24. A limiting block 26 is symmetrically installed on the side of the rotating shaft 25.
[0023] The working principle of this utility model is as follows: the device is installed by expansion bolts 3, the rotating plate 16 is installed in the placement frame 15, the fastening bolts 21 are screwed into the internal thread block 20, the cover plate 18 is installed on the upper end of the placement frame 15, the rotating shaft 25 and the limiting block 26 are inserted into the circular groove 22 and the limiting groove 23, and air is drawn in through the air inlet. At the same time, the air is filtered by the filter area 17 to reduce dust intrusion into the monitoring host 12, extend the maintenance cycle, and save time and effort. When the filter area 17 is blocked by dust, the servo motor 24 drives the rotating plate 16 to rotate intermittently through the rotating shaft 25 and the limiting block 26, so that the new filter area 17 is rotated to the position of the through hole 19, reducing the work of the staff to replace the filter and saving time and effort.
[0024] As the plant grows taller, the dual-axis motor 10 drives the threaded rod 7 to rotate through the meshing of bevel gear 2 11 and bevel gear 1 9. The threaded rod 7 drives the threaded sleeve 8 to rise, the threaded sleeve 8 drives the extension rod 4 to rise, and the extension rod 4 drives the monitoring host 12 to rise to the working height, which is convenient and quick.
[0025] Obviously, the described embodiments are only a part of the embodiments of this utility model, and not all of them. All other embodiments obtained by those skilled in the art and related fields based on the embodiments of this utility model without creative effort should fall within the protection scope of this utility model. Structures, devices, and operating methods not specifically described and explained in this utility model, unless otherwise specified or limited, shall be implemented according to conventional means in the art.
Claims
1. A monitoring and screening device for carbon sequestration in garden plants, comprising a U-shaped rod (1), characterized in that, The C-shaped rod (1) is symmetrically fitted with fixing plates (2) on its side. The fixing plates (2) are fitted with expansion bolts (3). The C-shaped rod (1) is slidably connected to an extension rod (4). The C-shaped rod (1) is fitted with a lifting mechanism, which is fixedly connected to the extension rod (4). The rear end of the extension rod (4) is fitted with a monitoring host (12). The upper end of the monitoring host (12) is fitted with a signal transceiver (13). The left end of the monitoring host (12) is fitted with an air inlet. The left end of the air inlet is fitted with a dust filter mechanism (14). The upper end of the extension rod (4) is fitted with a solar panel (27).
2. The garden green plant carbon sequestration monitoring and screening device according to claim 1, characterized in that, The lifting mechanism includes lifting grooves (5) and cavities (6). The two lifting grooves (5) are opened on the inner wall of the shaped rod (1), and the cavity (6) is set at the bottom of the shaped rod (1).
3. The garden green plant carbon sequestration monitoring and screening device according to claim 2, characterized in that, The lifting groove (5) is rotatably connected to a threaded rod (7), and the lower end of the threaded rod (7) passes through the upper end of the cavity (6) and is fitted with a bevel gear (9). A threaded sleeve (8) is fitted on the outer surface of the threaded rod (7), and the threaded sleeve (8) is fixedly connected to the lower side of the extension rod (4).
4. The garden green plant carbon sequestration monitoring and screening device according to claim 2, characterized in that, A dual-axis motor (10) is installed inside the cavity (6). Bevel gears (11) are installed at both ends of the dual-axis motor (10), and bevel gears (11) mesh with bevel gears (9).
5. The garden green plant carbon sequestration monitoring and screening device according to claim 1, characterized in that, The dust filtering mechanism (14) includes a placement frame (15) and a cover plate (18). A rotating plate (16) is provided inside the placement frame (15), and several filter screen areas (17) are provided inside the rotating plate (16). A cover plate (18) is provided at the upper end of the placement frame (15), and through holes (19) are opened inside the placement frame (15) and the cover plate (18) at positions corresponding to the air inlet.
6. The garden green plant carbon sequestration monitoring and screening device according to claim 5, characterized in that, The placement frame (15) is symmetrically equipped with internal threaded blocks (20) on its side, and the cover plate (18) is symmetrically equipped with fastening bolts (21) on its side.
7. The garden green plant carbon sequestration monitoring and screening device according to claim 5, characterized in that, A circular groove (22) is provided at the upper end of the rotating plate (16), and limiting grooves (23) are symmetrically provided on the inner wall of the circular groove (22). A servo motor (24) is mounted on the upper end of the cover plate (18), and a rotating shaft (25) is mounted on the lower end of the servo motor (24). Limiting blocks (26) are symmetrically installed on the side of the rotating shaft (25).