Improved prairie carbon sequestration device
By designing an improved grassland carbon sequestration device that includes a mixing component and a spraying system, the problem of uneven mixing in traditional devices has been solved, achieving uniform mixing and efficient spraying of the carbon sequestration liquid, thereby improving grassland carbon sequestration efficiency and ecological restoration effects.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GANSU PROVINCE ACAD OF QILIAN WATER RESOURCE CONSERVATION FORESTS RES INST
- Filing Date
- 2025-07-01
- Publication Date
- 2026-06-23
Smart Images

Figure CN224386167U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of carbon fixation devices, and more specifically, it relates to an improved grassland carbon fixation device. Background Technology
[0002] In the field of grassland ecological protection and environmental management, carbon sequestration devices are frequently used for grassland carbon sequestration. In grassland ecological restoration projects, to enhance the grassland's carbon sequestration capacity and improve the ecological environment, various carbon sequestration methods are often employed. This necessitates the use of specialized grassland carbon sequestration devices to ensure the rational application of carbon sequestration solutions, thereby improving the efficiency of carbon dioxide absorption and fixation by grassland vegetation. However, in traditional grassland carbon sequestration operations, the mixing and spraying of carbon sequestration solutions often cause numerous problems, significantly reducing the carbon sequestration effect. Traditional devices lack the function of mixing and spraying carbon sequestration solutions, leading to uneven mixing during the actual carbon sequestration process. Different components of the carbon sequestration solution cannot fully exert their synergistic effect, resulting in poor carbon sequestration in some areas after spraying onto the grassland. This easily leads to resource waste, affecting the overall carbon sequestration efficiency of the grassland and preventing the achievement of the expected ecological restoration effect. Furthermore, repetitive work increases manpower and material costs, further reducing the overall effectiveness of carbon sequestration work. Utility Model Content
[0003] To address the aforementioned technical problems, this utility model provides an improved grassland carbon sequestration device, which solves the technical problem that traditional devices in the prior art do not have the function of stirring and spraying carbon sequestration liquid.
[0004] The purpose and effectiveness of this improved grassland carbon sequestration device are achieved through the following specific technical means:
[0005] An improved grassland carbon sequestration device includes a supporting base plate, multiple sets of support columns on the supporting base plate, a placement plate on the multiple sets of support columns, a fixing frame on the supporting base plate, and a stirring assembly for stirring the carbon sequestration liquid on the fixing frame. The stirring assembly includes a stirring tank located on the fixing frame, a mixing tank cover on the stirring tank, a stirring motor on the placement plate, a drive shaft passing through the placement plate, one end of the drive shaft passing through the mixing tank cover and onto the stirring tank, one end of the drive shaft being connected to the shaft end of the stirring motor, and a mixing rod sleeved on one end of the drive shaft, the mixing rod being located inside the stirring tank.
[0006] According to a preferred embodiment, a fixed water tank is provided on the supporting base plate, and the fixed water tank has a feeding compartment and a placement compartment. A first feeding pump is provided in the feeding compartment. The fixed water tank, the fixed frame, and one side of the mixing tank are all provided with a feeding hole and a discharging hole. The first feeding pump is connected to the mixing tank through a soft water pipe.
[0007] According to a preferred embodiment, a second discharge pump is provided in the placement chamber, and the second discharge pump is connected to the mixing tank through the soft water pipe. Each soft water pipe is fitted with a sealing ring, and multiple sets of the sealing rings are connected to the fixing frame.
[0008] According to a preferred embodiment, the bottom of the placement plate is provided with a distribution water tank, the distribution water tank has multiple sets of liquid outlet holes, each set of liquid outlet holes is provided with a liquid distribution straight pipe, each set of liquid distribution straight pipes is fitted with a spray head, and the distribution water tank is connected to the placement plate by bolts.
[0009] According to a preferred embodiment, the distributing water tank has an inlet hole on one side, the fixed water tank is fitted with a spill prevention cover, the spill prevention cover has an outlet hole, and the second discharge pump is connected to the distributing water tank through the soft water pipe.
[0010] According to a preferred embodiment, a liquid filling hole is provided on one side of the feeding chamber, and a feeding interface is provided on the liquid filling hole. The fixing frame is connected to the bearing base plate by bolts, and multiple sets of the support columns are provided on the bearing base plate.
[0011] According to a preferred embodiment, a protective fence is provided on the supporting base plate, and sliding wheels are provided at the bottom of the supporting base plate.
[0012] Compared with the prior art, the present invention has the following beneficial effects:
[0013] 1. The device, through its stirring components, allows users to thoroughly stir the carbon fixation solution, improving the uniformity of the mixture. After adding various carbon fixation solution raw materials to the mixing tank, the user can start the stirring motor to rotate the mixing rod, enabling the user to easily obtain a uniformly composed carbon fixation solution and enhancing the device's ability to prepare high-quality carbon fixation solutions.
[0014] 2. When using this device, the user can add carbon fixation liquid stock solution into the feeding chamber through the feeding interface to achieve convenient addition of raw materials, making the operation simple and convenient for the user and improving the ease of use of the device. Then, through the cooperation of the first feeding pump and the second discharging pump, the device can smoothly transport the stirred carbon fixation liquid to the distribution water tank and spray it through the spray head, efficiently applying the carbon fixation liquid to the grassland and improving the carbon fixation efficiency of the device. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the assembled structure of this utility model;
[0016] Figure 2 This is a schematic diagram of the disassembled structure of this utility model;
[0017] Figure 3 This is a front view of the utility model;
[0018] Figure 4 This is the top view of this utility model.
[0019] In the diagram, the correspondence between component names and drawing numbers is as follows:
[0020] 11. Supporting base plate; 12. Support column; 13. Placement plate; 14. Fixing frame; 15. Mixing tank; 16. Mixing drum cover; 17. Mixing motor; 18. Drive shaft; 19. Mixing rod; 21. Fixed water tank; 22. Feeding compartment; 23. Placement compartment; 24. First feed pump; 25. Second discharge pump; 26. Sealing ring; 27. Distribution water tank; 28. Spray head; 29. Feeding interface; 31. Protective fence; 32. Sliding wheel; 33. Anti-spill cover. Detailed Implementation
[0021] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate the technical solution of this utility model, but should not be used to limit the scope of protection of this utility model.
[0022] Example:
[0023] like Figures 1 to 2As shown, this utility model provides an improved grassland carbon sequestration device, including a supporting base plate 11. The supporting base plate 11 serves as the foundation support for the device, placed on the grassland ground, providing an installation location. It possesses strength and stability, bearing the weight of the device and external forces from the grassland environment, ensuring the device operates normally in different terrains and climates. Multiple sets of support columns 12 are vertically fixed to the supporting base plate 11, evenly distributed, and connected to it, supporting the placement plate 13 above. The support columns 12 elevate the placement plate 13 and its components, preventing damage from contact with the ground, facilitating air circulation, and preventing moisture from reaching the bottom of the device. The placement plate 13 rests on the top of the support columns 12, connected to them, providing an installation position for the stirring motor 17. The placement plate 13 provides a stable installation foundation, ensuring the relative positions of each component are fixed during operation, stabilizing the stability and coordination of the device. A fixing frame 14 is located on the supporting base plate 11. The fixing frame 14 is connected to the supporting base plate 11 by bolts and is secured to it. Its fixed mixing box 15 provides a support frame for the mixing component, so that the mixing component does not shake or shift when it is working, and the mixing is smooth. The fixed frame 14 has a mixing component for mixing carbon solidification liquid.
[0024] The stirring assembly is crucial for the treatment of carbon fixation liquid in the device, achieving optimal carbon fixation results by mixing various carbon fixation liquid components. The stirring assembly includes a stirring tank 15. The stirring tank 15 is mounted on and fitted to a fixed frame 14, and is supported by the fixed frame 14. The stirring tank 15 is the mixing point for the carbon fixation liquid, and has a volume for stirring the carbon fixation liquid. It is made of corrosion-resistant material to prevent corrosion of the carbon fixation liquid, ensuring the lifespan of the stirring tank 15 and the quality of the carbon fixation liquid. The stirring tank 15 has a mixing lid 16. The mixing lid 16 covers the top of the stirring tank 15, cooperates with the stirring tank 15, and plays a sealing role, preventing the carbon fixation liquid from splashing out during stirring, preventing external impurities from entering, and ensuring the purity of the carbon fixation liquid and the safety of stirring. A stirring motor 17 is mounted on the placement plate 13, providing power to the stirring assembly. Its rotation drives the drive shaft 18 to rotate, driving the mixing rod 19 inside the stirring tank 15 to work, stirring the carbon fixation liquid. The power and speed of the stirring motor 17 are selected according to the requirements of the device to ensure effective stirring of the carbon fixation liquid and its uniform mixing. A drive shaft 18 is threaded through the placement plate 13. One end of the drive shaft 18 passes through the placement plate 13, and the other end passes through the mixing tank cover 16 to the mixing chamber 15. It transmits power, transferring the power of the stirring motor 17 from the placement plate 13 to the mixing chamber 15. The connection between the drive shaft 18 and the placement plate 13 and the mixing tank cover 16 is sealed to prevent leakage of the carbon-fixing liquid and the entry of external impurities, ensuring smooth rotation of the drive shaft 18. One end of the drive shaft 18 is connected to the shaft end of the stirring motor 17. This connection allows the power of the stirring motor 17 to be efficiently transmitted to the drive shaft 18, and the drive shaft 18 rotates synchronously with the stirring motor 17. Couplings or similar couplings are used at the connection points to ensure concentricity and transmission stability, reducing vibration and energy loss caused by misalignment or loosening. A mixing rod 19 is fitted onto one end of the drive shaft 18. The mixing rod 19 rotates within the mixing chamber 15 as the drive shaft 18 rotates. The shape and structure of the mixing rod 19 are designed to effectively agitate the carbon-fixing liquid, causing it to flow and mix within the mixing chamber 15. After stirring, the different components of the carbon-fixing liquid come into full contact and mix, improving uniformity and enhancing the carbon-fixing effect. A fixed water tank 21 is mounted on the supporting base plate 11. The fixed water tank 21, installed on the supporting base plate 11, is a component for storing the carbon-fixing liquid raw materials. The fixed water tank 21 has a capacity to meet the storage requirements of the carbon-fixing liquid raw materials for a certain period of time, ensuring continuous carbon-fixing operation. The fixed water tank 21 has a feeding chamber 22 and a placement chamber 23. The feeding chamber 22 and the placement chamber 23 divide the internal space of the fixed water tank 21. The feeding chamber 22 stores the carbon-fixing liquid raw materials to be fed into the mixing tank 15, while the placement chamber 23 houses components such as the second discharge pump 25, making the device structure compact and orderly. The first feed pump 24 is located inside the feeding chamber 22. The first feed pump 24, installed in the feeding chamber 22, sends the carbon-fixing liquid raw materials in the feeding chamber 22 to the mixing tank 15 through a soft water pipe. The first feed pump 24 has pumping capability, delivering an appropriate amount of carbon-fixing liquid raw material to the mixing tank 15 as needed to ensure smooth mixing. The fixed water tank 21, the fixed frame 14, and one side of the mixing tank 15 have inlet and outlet ports. The inlet and outlet ports provide channels for the delivery of the carbon-fixing liquid raw material and the output of the carbon-fixing liquid after mixing.The feed port allows the first feed pump 24 to pump the carbon-fixing liquid raw material in the feed compartment 22 into the mixing tank 15, and the discharge port sends the mixed carbon-fixing liquid from the mixing tank 15 to subsequent components such as the distribution water tank 27.
[0025] The first feed pump 24 is connected to the mixing tank 15 via a flexible water pipe. This flexible water pipe ensures the transport of solid carbon liquid raw materials and adapts to changes in component position. The connection between the first feed pump 24 and the mixing tank 15 forms a solid carbon liquid raw material transport channel, ensuring the solid carbon liquid raw materials enter the mixing tank 15 for mixing. A second discharge pump 25 is located within the placement chamber 23. The second discharge pump 25, installed in the placement chamber 23, delivers the mixed solid carbon liquid from the mixing tank 15 to the distribution tank 27 via the flexible water pipe. The second discharge pump 25 has pumping pressure and flow rate to meet the requirements for transporting solid carbon liquid from the mixing tank 15 to the distribution tank 27, ensuring efficient and stable solid carbon liquid transport. The second discharge pump 25 is connected to the mixing tank 15 via a flexible water pipe. This flexible water pipe transports the carbon-fixing solution, connecting the mixing tank 15 and the second discharge pump 25. The mixed carbon-fixing solution enters the distribution tank 27 in preparation for spraying. A sealing ring 26 is fitted onto the flexible water pipe at the connection points with components such as the fixed frame 14, enhancing the seal and preventing leakage during carbon-fixing solution transport. The sealing ring 26 is elastic and corrosion-resistant, preventing the carbon-fixing solution from seeping out from the connection points, ensuring the integrity of the carbon-fixing solution transport and the normal operation of the device.
[0026] Multiple sets of sealing rings 26 are connected to the fixed frame 14. This connection ensures that the sealing rings 26 are accurately installed at the connection between the soft water pipe and the fixed frame 14, providing a sealing effect. It also facilitates the installation, replacement, and maintenance of the sealing rings 26, ensuring good sealing performance of the device. A distribution tank 27 is located at the bottom of the placement plate 13. The distribution tank 27 is connected to the placement plate 13 by bolts and is installed at the bottom of the placement plate 13. It receives the stirred carbon-fixing liquid from the mixing tank 15 and distributes the carbon-fixing liquid to the distribution straight pipe through the outlet holes, providing a stable source of carbon-fixing liquid for spraying. The distribution tank 27 has multiple sets of outlet holes. The outlet holes are evenly distributed at the bottom of the distribution tank 27, guiding the carbon-fixing liquid in the distribution tank 27 to the distribution straight pipe, achieving carbon-fixing liquid diversion. The number and size of the liquid outlet holes are designed according to the spraying requirements of the device to ensure a uniform and stable flow of solidified carbon liquid, providing suitable flow rate and pressure for spraying. Multiple sets of liquid outlet holes are fitted with straight distribution pipes. One end of the straight distribution pipe is connected to the liquid outlet hole of the distribution water tank 27, and the other end is connected to the spray head 28. It serves as a transmission channel to deliver the solidified carbon liquid in the distribution water tank 27 to the spray head 28.
[0027] The length and diameter of the separating straight pipe are selected according to the device structure and spraying range to ensure that the carbon-fixing liquid is delivered to each spray head 28 for uniform spraying. Spray heads 28 are fitted onto the multi-component separating straight pipe. The spray heads 28 are installed at the end of the separating straight pipe and spray the carbon-fixing liquid delivered by the separating straight pipe onto the grassland. The design and selection of the spray heads 28 are based on the grassland's carbon fixation requirements, such as spray angle and particle size, to ensure that the carbon-fixing liquid covers a suitable area, improving utilization efficiency and carbon fixation effect. A liquid inlet is located on one side of the distributing water tank 27. The liquid inlet connects to a flexible water pipe, allowing the second discharge pump 25 to deliver the carbon-fixing liquid, which has been mixed in the mixing tank 15, to the distributing water tank 27. The location of the liquid inlet ensures that the carbon-fixing liquid enters the distributing water tank 27 quickly and smoothly, and facilitates a sealed connection with the flexible water pipe. A spill-proof cover 33 is located on the top of the fixed water tank 21. The spill-proof cover 33 covers the top of the fixed water tank 21 and works in conjunction with the fixed water tank 21 to prevent the carbon-fixing liquid raw material from spilling out. When the carbon-fixing liquid raw material is fed into the feeding chamber 22 of the fixed water tank 21, the spill cover 33 prevents the carbon-fixing liquid raw material from overflowing, ensuring a clean working environment and effective utilization of the raw material. The spill cover 33 has a liquid outlet. The liquid outlet allows the carbon-fixing liquid raw material in the fixed water tank 21 to be sent to other parts via a soft water pipe, such as sending the carbon-fixing liquid raw material to the mixing tank 15 through a soft water pipe connected to the first feed pump 24. The liquid outlet ensures that the carbon-fixing liquid raw material flows out smoothly. The second discharge pump 25 is connected to the distribution water tank 27 via a soft water pipe. This soft water pipe is the channel for sending the mixed carbon-fixing liquid from the mixing tank 15 to the distribution water tank 27. This ensures smooth transmission of the carbon-fixing liquid between the two water tanks, providing conditions for the distribution and spraying of the carbon-fixing liquid.
[0028] A filling hole is located on one side of the feeding chamber 22, through which the carbon-fixing liquid raw material is injected into the feeding chamber 22. Operators inject the carbon-fixing liquid raw material into the feeding chamber 22 through the filling hole, supplying material for the carbon-fixing process. The filling hole is conveniently located for operator filling and is designed for easy connection to the feeding interface 29. The feeding interface 29 passes through the filling hole. The feeding interface 29 connects to the filling hole, providing an interface for injecting the carbon-fixing liquid raw material. The feeding interface 29 can be connected to filling equipment, such as pipes or funnels, allowing for convenient and accurate injection of the carbon-fixing liquid raw material into the feeding chamber 22, improving filling efficiency and accuracy. The fixing frame 14 is connected to the supporting base plate 11 by bolts. This connection ensures a firm bond between the fixing frame 14 and the supporting base plate 11, bearing the vibrations and external forces from the working components such as the stirring assembly.
[0029] Bolted connections facilitate installation and disassembly, as well as device maintenance and repair. Multiple sets of support columns 12 are threaded onto the supporting base plate 11. The support columns 12 are connected to the supporting base plate 11, ensuring their vertical and stable fixation and providing support for the plate 13 and other components placed above. The threaded installation method integrates the support columns 12 with the supporting base plate 11, increasing device stability. A protective fence 31 is threaded onto the supporting base plate 11. The protective fence 31 surrounds the supporting base plate 11 and is threaded onto it, protecting the device. It prevents accidental contact with device components, avoids accidents caused by improper operation, and protects the device from external collisions, improving safety and extending its service life. The supporting base plate 11 has sliding wheels 32 at its bottom, mounted at the four corners and connected to the base plate 11, allowing the device to be moved. In grasslands, operators can push the device, using the sliding wheels 32 to perform carbon sequestration operations in different areas, improving the device's applicability and meeting the carbon sequestration needs of different grassland regions.
[0030] like Figures 2 to 4 As shown, when using this device, the user first places the supporting base plate 11 in the predetermined working position on the grassland. The supporting base plate 11 is the basic support for the entire device, and its surface has multiple sets of mounting holes for connecting multiple sets of support columns 12. Multiple sets of support columns 12 are mounted on the supporting base plate 11, and these support columns 12 are vertically inserted into the corresponding mounting holes on the supporting base plate 11 and fixed in place. The support columns 12 raise the placement plate 13 and the upper structure, maintaining a certain distance between the entire device and the ground, preventing ground conditions from affecting the device, and also facilitating air circulation at the bottom of the device. The placement plate 13 is mounted on the multiple sets of support columns 12, and the placement plate 13 is bolted to the top of the support columns 12. The placement plate 13 provides a mounting surface for components such as the stirring motor 17, ensuring that these components are fixed in position during device operation and guaranteeing stable operation of the device. A fixing frame 14 is provided on the supporting base plate 11, and the fixing frame 14 is connected to the supporting base plate 11 by bolts. The fixing frame 14 is equipped with a stirring assembly for stirring the carbon-fixing liquid.
[0031] The fixed frame 14 provides a support frame for the mixing assembly, ensuring stable operation. The mixing assembly includes a mixing tank 15, which is located on the fixed frame 14 and welded together. The mixing tank 15 contains the carbon-fixing liquid, providing space for mixing. A mixing tank cover 16 is provided on the mixing tank 15, covering the top of the mixing tank 15 and fixed with bolts to prevent the carbon-fixing liquid from splashing out and impurities from entering. A stirring motor 17 is provided on the placement plate 13, which is fixed to the placement plate 13 with screws to power the mixing assembly. A drive shaft 18 passes through the placement plate 13, with one end of the drive shaft 18 passing through the placement plate 13 and the other end passing through the mixing tank cover 16 and inserted into the mixing tank 15, transmitting power from the stirring motor 17 to the mixing tank 15. One end of the drive shaft 18 is connected to the shaft end of the stirring motor 17 to ensure power transmission, and a mixing rod 19 is sleeved on the other end of the drive shaft 18, located inside the mixing tank 15. The stirring motor 17 drives the drive shaft 18 to rotate, and the mixing rod 19 rotates accordingly to stir the carbon-fixing liquid, making it uniformly mixed. A fixed water tank 21 is provided on the supporting base plate 11, and the fixed water tank 21 is fixed to the supporting base plate 11 by bolts.
[0032] The fixed water tank 21 has a feeding chamber 22 and a placement chamber 23, separating their internal spaces. A first feeding pump 24 is installed in the feeding chamber 22 to transport the carbon-fixing liquid raw material from the feeding chamber 22 to the mixing tank 15. The fixed water tank 21, the fixed frame 14, and one side of the mixing tank 15 all have feeding and discharging ports. The first feeding pump 24 is connected to the mixing tank 15 via a flexible water pipe, with both ends of the flexible water pipe connected to the outlet of the first feeding pump 24 and the feeding port of the mixing tank 15, respectively, pumping the carbon-fixing liquid raw material into the mixing tank 15. A second discharging pump 25 is installed in the placement chamber 23, connected to the mixing tank 15 via a flexible water pipe, with both ends of the flexible water pipe connected to the inlet of the second discharging pump 25 and the discharging port of the mixing tank 15, respectively, transporting the mixed carbon-fixing liquid. A sealing ring 26 is fitted onto the flexible water pipe, and the sealing ring 26 is connected to the fixed frame 14 to prevent leakage of the carbon-fixing liquid. The bottom of the placement plate 13 is provided with a material distribution water tank 27, which is connected to the placement plate 13 by bolts.
[0033] The distributing tank 27 has multiple sets of liquid outlets, each with a distributing straight pipe connected to one end. A spray head 28 is fitted onto the distributing straight pipe. The distributing tank 27 collects the stirred carbon-fixing liquid, which is then sprayed onto the grassland via the outlets, distributing straight pipes, and sprayed onto the grassland. An inlet is located on one side of the distributing tank 27. A spill prevention cover 33 is fitted onto the fixed tank 21, and the spill prevention cover 33 has an outlet. The second discharge pump 25 is connected to the distributing tank 27 via a flexible water pipe, with its outlet connected to the outlet of the second discharge pump 25 and the inlet of the distributing tank 27, respectively, to transport the carbon-fixing liquid from the mixing tank 15 to the distributing tank 27. A filling port is located on one side of the feeding chamber 22, with a feeding interface 29 for easy addition of carbon-fixing liquid raw materials. The fixed frame 14 is connected to the supporting base plate 11 by bolts, and multiple sets of support columns 12 are installed on the supporting base plate 11 to stably support the upper structure. A protective fence 31 is installed on the supporting base plate 11, surrounding the edge of the supporting base plate 11 to prevent personnel from accidentally touching the device components. The bottom of the supporting base plate 11 is equipped with sliding wheels 32 to facilitate the movement of the device on the grassland and the adjustment of the working position.
[0034] The specific usage and function of this embodiment are as follows:
[0035] When using the device, first, the supporting base plate 11 is moved to the grassland operation area and placed stably using the sliding wheels 32. The support column 12 and placement plate 13 are then vertically installed, and the mixing tank 15, mixing bucket cover 16, mixing motor 17, and drive shaft 18 are fixed, completing the device setup. Next, carbon-fixing liquid raw materials are added to the feeding chamber 22 of the fixed water tank 21 through the feeding interface 29. The first feeding pump 24 sends the raw materials into the mixing tank 15 through a soft water pipe. The mixing motor 17 drives the drive shaft 18 and mixing rod 19 to stir the carbon-fixing liquid, ensuring uniform mixing. Subsequently, the second discharge pump 25 transports the stirred carbon-fixing liquid through a soft water pipe to the distribution water tank 27, and then the carbon-fixing liquid is sprayed onto the grassland by the distribution straight pipe and spray head 28. During this process, the anti-spray cover 33 prevents raw materials from spilling, the sealing ring 26 prevents liquid leakage, and the protective fence 31 ensures personnel safety.
[0036] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. It is obvious to those skilled in the art that this utility model is not limited to the details of the above exemplary embodiments.
Claims
1. An improved grassland carbon sequestration device, comprising a supporting base plate (11), characterized in that: The supporting base plate (11) is provided with multiple sets of support columns (12), and the multiple sets of support columns (12) are provided with placement plates (13). The supporting base plate (11) is provided with a fixing frame (14), and the fixing frame (14) is provided with a stirring component for stirring the carbon-fixing liquid. The mixing assembly includes a mixing tank (15), which is located on the fixed frame (14). The mixing tank (15) is provided with a mixing bucket cover (16). The placement plate (13) is provided with a stirring motor (17). A drive shaft (18) is passed through the placement plate (13). One end of the drive shaft (18) passes through the mixing bucket cover (16) and is installed on the mixing tank (15). One end of the drive shaft (18) is connected to the shaft end of the stirring motor (17). A mixing rod (19) is sleeved on one end of the drive shaft (18). The mixing rod (19) is located inside the mixing tank (15).
2. The improved grassland carbon sequestration device according to claim 1, characterized in that: The supporting base plate (11) is provided with a fixed water tank (21), and the fixed water tank (21) is provided with a feeding compartment (22) and a placement compartment (23). The feeding compartment (22) is provided with a first feeding pump (24). The fixed water tank (21), the fixed frame (14), and the mixing tank (15) are all provided with a feed hole and a discharge hole on one side. The first feed pump (24) is connected to the mixing tank (15) through a soft water pipe.
3. An improved grassland carbon sequestration device according to claim 2, characterized in that: The placement chamber (23) is equipped with a second discharge pump (25), which is connected to the mixing tank (15) through the soft water pipe. Each soft water pipe is fitted with a sealing ring (26), and multiple sets of the sealing rings (26) are connected to the fixing frame (14).
4. An improved grassland carbon sequestration device according to claim 3, characterized in that: The bottom of the placement plate (13) is provided with a distribution water tank (27). The distribution water tank (27) has multiple sets of liquid outlet holes. Each set of liquid outlet holes is provided with a liquid distribution straight pipe. Each set of liquid distribution straight pipes is provided with a spray head (28). The distribution water tank (27) is connected to the placement plate (13) by bolts.
5. An improved grassland carbon sequestration device according to claim 4, characterized in that: The distributing water tank (27) has an inlet hole on one side, and the fixed water tank (21) is fitted with a spill prevention cover (33). The spill prevention cover (33) has an outlet hole. The second discharge pump (25) is connected to the distributing water tank (27) through the soft water pipe.
6. An improved grassland carbon sequestration device according to claim 2, characterized in that: The feeding compartment (22) is provided with a liquid filling hole on one side, the liquid filling hole is provided with a feeding interface (29), the fixed frame (14) is connected with the bearing bottom plate (11) through bolts, and a plurality of support columns (12) are arranged on the bearing bottom plate (11).
7. The improved grassland carbon sequestration device according to claim 6, characterized in that: The bearing bottom plate (11) is provided with a protective fence (31), and the bottom of the bearing bottom plate (11) is provided with a sliding wheel (32).