A method for preparing a soil conditioner and a dispensing device

By using a lifting support and rotating components to adjust the fermentation space capacity, the problem of unstable capacity adjustment in fermentation equipment was solved, thus achieving a stable and efficient fermentation process.

CN122168400APending Publication Date: 2026-06-09SHANDONG HUAWEI AGRI CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SHANDONG HUAWEI AGRI CO LTD
Filing Date
2026-03-26
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing fermentation equipment cannot make stable capacity adjustments based on the actual amount of raw materials used when preparing fermentation raw materials, resulting in excessively high or low biomass concentrations, which affects fermentation quality and efficiency.

Method used

The system employs a distribution device consisting of a drive support base, mounting bracket, unloading valve, and assembly components. The fermentation space capacity is adjusted via lifting brackets and rotating components, and the raw materials are fully mixed and fermented through an internal stirring component.

Benefits of technology

This allows for adjustment of the fermentation space based on the actual amount of raw materials used, ensuring the stability and efficiency of the fermentation process and improving fermentation quality.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to the technical field of soil conditioner preparation, in particular to a soil conditioner preparation method and a deployment device, which comprises a driving support seat, a mounting bracket and a discharge valve, the mounting bracket is mounted on the driving support seat, the discharge valve is mounted at the bottom of the mounting bracket, and further comprises an assembly component; the assembly component comprises an outer cylinder, an inner cylinder, guide columns, a lifting bracket, a rotating member and an adjusting member; the outer cylinder is rotationally installed in the mounting bracket, the inner cylinder is fixedly installed with a plurality of guide columns at the bottom, the lifting bracket is rotationally connected with the inner cylinder, a feeding table is arranged at the top of the lifting bracket and used for guiding the raw materials, the rotating member is connected with the outer cylinder, and the adjusting member is connected with the lifting bracket; the device can be used to adjust the fermentation space according to the actual raw material quantity, so that the raw materials in the tank can be more stably and effectively fermented.
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Description

Technical Field

[0001] This invention relates to the field of soil conditioner preparation technology, and in particular to a method for preparing a soil conditioner and a mixing device. Background Technology

[0002] Soil conditioners are materials used to improve the physical, chemical, or biological properties of soil. They can solve problems such as soil compaction, infertility, and acid-base imbalance, and improve the crop growth environment. Soil conditioners can be classified into organic matter, mineral, synthetic, and compound types according to their source of ingredients. The preparation process also varies greatly depending on the type of soil conditioner. The industrial production of organic matter amendments generally requires multiple processes such as raw material pretreatment, dynamic fermentation, intelligent oxygen control, composting and aging, and automated packaging. During dynamic fermentation, fermentation tanks or fermentation boxes are usually used to stack and ferment mixed raw materials. During the fermentation process, the internal raw materials need to be turned over regularly to ensure the stability of the internal fermentation. Existing fermentation equipment often suffers from inconsistent raw material usage due to factors such as processing efficiency and acquisition budget. The processing capacity of existing fermentation tanks and other equipment is fixed, requiring operators to pre-determine the required raw material quantities based on equipment dimensions and internal capacity. Changes in the total amount of raw materials purchased and produced can lead to excessive or insufficient material in individual tanks. Excessive material can result in high biomass concentrations, exceeding the microbial tolerance, affecting growth, metabolism, and product formation, leading to reaction instability and reduced product quality. Conversely, insufficient material results in low space utilization and reduced production efficiency. Even with good aeration, rapid moisture evaporation can negatively impact the fermentation environment, making adjustments impossible based on actual processing conditions and ultimately affecting the fermentation quality of the improver. Summary of the Invention

[0003] The purpose of this invention is to provide a method for preparing a soil conditioner and a mixing device, which can adjust the fermentation space according to the actual amount of raw materials used, so that the raw materials in the tank can undergo more stable and effective fermentation.

[0004] To achieve the above objectives, the present invention provides a method for preparing a soil conditioner and a dispensing device, comprising a drive support, a mounting bracket and a discharge valve, wherein the mounting bracket is mounted on the drive support, the discharge valve is mounted on the bottom of the mounting bracket, and an assembly assembly is also included. The assembly components include an outer cylinder, an inner cylinder, guide columns, a lifting bracket, rotating components, and adjusting components; The outer cylinder is rotatably installed inside the mounting bracket. Multiple guide posts are fixedly installed at the bottom of the inner cylinder. The inner cylinder is slidably installed on the outer cylinder through the multiple guide posts at the bottom. The lifting bracket is rotatably connected to the inner cylinder and slidably installed on the mounting bracket. A feeding platform is provided at the top of the lifting bracket for introducing raw materials. The rotating component is connected to the outer cylinder and is used to drive the outer cylinder to rotate. The adjusting component is connected to the lifting bracket and is used to drive the lifting bracket to move on the mounting bracket.

[0005] The rotating component includes an outer sleeve gear, a rotating gear, and a rotating motor. The outer sleeve gear is fixedly sleeved on the outer cylinder. The rotating gear meshes with the outer sleeve gear and is rotatably mounted on one side of the mounting bracket. The output shaft of the rotating motor is connected to the rotating gear, and the rotating motor is fixedly mounted on one side of the mounting bracket.

[0006] The adjustment component includes a fixed bracket, a guide bracket, a lifting screw, and a lifting motor. The fixed bracket is fixedly installed on the mounting bracket. The guide bracket is slidably connected to the fixed bracket and fixedly installed on one side of the lifting bracket. The lifting screw is threadedly connected to the lifting bracket and rotatably installed on the fixed bracket. The output shaft of the lifting motor is connected to the lifting screw, and the lifting motor is fixedly installed on the fixed bracket.

[0007] The assembly assembly further includes a top cover, an environmental adjustment device, a connecting pipe, a control component, and an internal stirring component. The top cover is connected to the lifting bracket via the control component, and the top cover is located on the top of the lifting bracket. The environmental adjustment device is installed on one side of the lifting bracket. The connecting pipe is connected to the environmental adjustment device and the top cover on both sides, respectively. The control component is connected to the lifting bracket and is used to adjust the mating position of the top cover. The internal stirring component is connected to the outer cylinder and is used to agitate and stir the internal raw materials in coordination with the rotation of the outer cylinder.

[0008] The control components include an overlapping bracket, a connecting frame, a swing motor, and a control cylinder. The overlapping bracket is fixedly installed on one side of the lifting bracket. The connecting frame is rotatably connected to the top cover and slidably installed on the overlapping bracket. The output shaft of the swing motor is connected to the top cover, and the swing motor is fixedly installed on the connecting frame. The output end of the control cylinder is connected to the connecting frame, and the control cylinder is fixedly installed on the overlapping bracket.

[0009] The internal stirring component includes a bottom end toothed disc, a bottom stirring rod, and a bottom stirring gear. The bottom end toothed disc is fixedly mounted on the mounting bracket; the bottom stirring rod is rotatably mounted on the outer cylinder; and the bottom stirring gear meshes with the bottom end toothed disc and is fixedly mounted on the bottom stirring rod.

[0010] The internal stirring component further includes a top end gear plate, a top stirring rod, and a top stirring gear. The top end gear plate is fixedly mounted on the lifting bracket; the top stirring rod is rotatably mounted on the outer cylinder; and the top stirring gear meshes with the top end gear plate and is fixedly mounted on the top stirring rod.

[0011] One method for preparing a soil conditioner, using the aforementioned soil conditioner mixing device, includes the following steps. The prepared modifier fermentation raw materials are introduced from the feeding platform set at the top of the lifting support; The lifting bracket is moved on the mounting bracket by adjusting the components according to the actual amount of imported raw materials. When the lifting bracket moves, the inner cylinder moves along with the lifting bracket, thus changing the material capacity inside the device by moving the inner cylinder above the outer cylinder. After adjusting the material capacity inside the device based on the actual amount of raw materials used, the raw materials piled up inside the device can then be fermented. During the fermentation process, the outer cylinder is rotated within the mounting bracket by a rotating component, so as to agitate the internal raw materials, ensure thorough mixing of the internal raw materials, and facilitate fermentation. After fermentation is complete, the material is discharged through the discharge valve located at the bottom of the mounting bracket.

[0012] This invention discloses a method for preparing a soil conditioner and a mixing device. In actual operation, the user first introduces the prepared soil conditioner fermentation raw materials through the feeding platform set at the top of the lifting support. Then, according to the actual amount of raw materials introduced, the lifting support is driven to move on the mounting support by the adjusting component. When the lifting support moves, the inner cylinder moves with the lifting support. In this way, the material capacity inside the device is changed by the movement of the inner cylinder above the outer cylinder. After the material capacity inside the device is adjusted according to the actual amount of raw materials, the raw materials accumulated in the device can be fermented. During the fermentation process, the outer cylinder is rotated within the mounting support by the rotating component to stir the internal raw materials, ensuring thorough mixing and fermentation. After fermentation, the material is discharged through the discharge valve set at the bottom of the mounting support. This allows the fermentation space to be adjusted according to the actual amount of raw materials, enabling the raw materials in the tank to undergo more stable and effective fermentation. Attached Figure Description

[0013] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.

[0014] Figure 1 This is a schematic diagram of the overall structure of the soil conditioner preparation device of the present invention.

[0015] Figure 2 This is a schematic diagram of the installation structure of the environmental adjustment device of the present invention.

[0016] Figure 3 This is a cross-sectional structural diagram of the mounting bracket of the present invention.

[0017] Figure 4 This is a cross-sectional structural diagram of the lifting bracket of the present invention.

[0018] Figure 5 This is a cross-sectional structural diagram of the outer cylinder of the present invention.

[0019] Figure 6 This is a schematic diagram of the inner cylinder of the present invention cut open.

[0020] Figure 7 This is a flowchart of the soil conditioner preparation method of the present invention.

[0021] In the diagram: 101-Drive support base, 102-Mounting bracket, 103-Unloading valve, 104-Outer cylinder, 105-Inner cylinder, 106-Guide column, 107-Lifting bracket, 201-Outer gear, 202-Rotating gear, 203-Rotating motor, 301-Fixed bracket, 302-Guide bracket, 303-Lifting screw, 304-Lifting motor, 401-Top cover, 402-Environmental adjustment equipment, 403-Connecting pipe, 501-Overlapping bracket, 502-Connecting frame, 503-Swing motor, 504-Control cylinder, 601-Bottom end gear plate, 602-Bottom stirring rod, 603-Bottom agitating gear, 604-Top end gear plate, 605-Top stirring rod, 606-Top agitating gear. Detailed Implementation

[0022] Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, and should not be construed as limiting the present invention.

[0023] In the description of this invention, it should be understood that "a plurality of" means two or more, unless otherwise explicitly specified.

[0024] Please see Figures 1 to 6This invention provides a method for preparing a soil conditioner and a mixing device, comprising a drive support 101, a mounting bracket 102, a discharge valve 103, and an assembly assembly. The assembly assembly includes an outer cylinder 104, an inner cylinder 105, a guide column 106, a lifting bracket 107, a rotating component, and an adjusting component. The rotating component includes an outer gear 201, a rotating gear 202, and a rotating motor 203. The adjusting component includes a fixed bracket 301, a guide bracket 302, a lifting screw 303, and a lifting motor 304. This solution addresses the problem that existing fermentation equipment, when mixing fermentation raw materials, often results in inconsistent amounts of raw materials due to factors such as processing efficiency and collection budget. The processing capacity of the fermenters and other equipment used in the equipment preparation process is fixed. Therefore, operators need to determine the required amount of raw materials in advance based on the equipment dimensions and internal capacity. When the total amount of raw materials purchased and produced changes, it can lead to too much or too little material in some tanks. If the tank is filled with too much material, the biomass concentration inside will be too high, exceeding the tolerance of microorganisms, affecting growth, metabolism, and product formation, resulting in unstable reaction process and reduced product quality. If the tank is filled with too little material, the space utilization rate will be low, the production efficiency will decrease, and although the ventilation is good, the moisture will evaporate too quickly, which may affect the fermentation environment. This makes it impossible to adjust and adapt according to the actual processing conditions during actual operation, ultimately affecting the fermentation quality of the improver.

[0025] Furthermore, the mounting bracket 102 is mounted on the drive support base 101, the unloading valve 103 is mounted at the bottom of the mounting bracket 102, the outer cylinder 104 is rotatably mounted inside the mounting bracket 102, a plurality of guide posts 106 are fixedly mounted at the bottom of the inner cylinder 105, and the inner cylinder 105 is slidably mounted on the outer cylinder 104 through the plurality of guide posts 106 at the bottom, the lifting bracket 107 is rotatably connected to the inner cylinder 105 and slidably mounted on the mounting bracket 102, the top of the lifting bracket 107 is provided with a feeding platform for introducing raw materials, the rotating component is connected to the outer cylinder 104 and is used to drive the outer cylinder 104 to rotate, and the adjusting component is connected to the lifting bracket 107 and is used to drive the lifting bracket 107 to move on the mounting bracket 102.

[0026] Specifically, the bottom of the drive support base 101 is provided with multiple support rollers, and the bottom of the drive support base 101 is also provided with a control structure for controlling the multiple rollers, thereby realizing the braking of the multiple rollers. When moving, the multiple support rollers can drive the entire device to move. When placing, the multiple support rollers can be locked and braked by the set control structure, so that users can reasonably plan and place the multiple devices according to the actual processing site. The bottom of the mounting bracket 102 is provided with the unloading valve 103. The unloading valve 103 is provided with an electronic control component for opening and closing the valve body and valve port, so that the user can quickly discharge the raw materials inside the device. The mounting bracket 102 is provided with an outer cylinder 104 inside, and an inner cylinder 105 is provided inside the outer cylinder 104. The outer ring of the inner cylinder 105 is provided with four guide posts 106. The four guide posts 106 cooperate with the guide holes provided at the top of the inner cylinder 105 so that the inner cylinder 105 can slide more stably on the outer cylinder 104. At the same time, when the outer cylinder 104 rotates, the inner cylinder 105 will also rotate with the outer cylinder 104 under the action of the guide posts 106. After the material is introduced through the top feeding platform of the lifting bracket 107, it will accumulate in the fermentation space composed of the outer cylinder 104 and the inner cylinder 105. When the inner cylinder 105 moves on the outer cylinder 104 through the adjustment component and the mounting bracket 102, the fermentation space composed of the inner cylinder 105 and the outer cylinder 104 will be adjusted due to the change in height. In this way, the user can adjust the internal fermentation space appropriately according to the actual amount of material used. In actual operation, the user first introduces the prepared improver fermentation raw materials through the feeding platform set at the top of the lifting bracket 107. Then, according to the actual amount of raw materials introduced, the user drives the lifting bracket 107 to move on the mounting bracket 102 through the adjustment component. When the lifting bracket 107 moves, the inner cylinder 105 will move along with the lifting bracket 107. In this way, the movement of the inner cylinder 105 above the outer cylinder 104 changes the material capacity inside the device. After adjusting the material capacity inside the device based on the actual amount of raw materials, the raw materials piled up in the device can be fermented. During the fermentation process, the outer cylinder 104 is rotated inside the mounting bracket 102 by the rotating component to stir the internal raw materials, ensuring thorough mixing and fermentation. After fermentation, the material is discharged through the discharge valve 103 set at the bottom of the mounting bracket 102. This allows the fermentation space to be adjusted according to the actual amount of raw materials through the provided device, enabling the raw materials in the tank to undergo more stable and effective fermentation.

[0027] Furthermore, the outer sleeve gear 201 is fixedly sleeved on the outer cylinder 104; the rotating gear 202 meshes with the outer sleeve gear 201 and is rotatably mounted on one side of the mounting bracket 102; the output shaft of the rotating motor 203 is connected to the rotating gear 202, and the rotating motor 203 is fixedly mounted on one side of the mounting bracket 102.

[0028] In this embodiment, the outer sleeve gear 201 is fixedly sleeved on the bottom of the outer cylinder 104. The outer sleeve gear 201 meshes with the rotating gear 202 rotatably mounted on the mounting bracket 102. The rotating gear 202 is driven by the rotating motor 203. When the rotating motor 203 drives the rotating gear 202 to rotate, the rotating gear 202 can drive the outer sleeve gear 201 and the outer cylinder 104 to rotate, thereby completing the driving of the outer cylinder 104.

[0029] Furthermore, the fixed bracket 301 is fixedly installed on the mounting bracket 102; the guide bracket 302 is slidably connected to the fixed bracket 301 and fixedly installed on one side of the lifting bracket 107; the lifting screw 303 is threadedly connected to the lifting bracket 107 and rotatably installed on the fixed bracket 301; the output shaft of the lifting motor 304 is connected to the lifting screw 303, and the lifting motor 304 is fixedly installed on the fixed bracket 301.

[0030] In this embodiment, the fixed bracket 301 is disposed on one side of the mounting bracket 102, and the guide bracket 302 is fixedly disposed on the side of the lifting bracket 107. The guide bracket 302 can slide on the fixed bracket 301. The bottom plate of the guide bracket 302 is provided with a threaded hole that cooperates with the lifting screw 303. The lifting screw 303 is driven by the lifting motor 304, so that the user can drive the lifting bracket 107 by the lifting motor 304 in conjunction with the lifting screw 303, thereby causing the lifting bracket 107 to move on the mounting bracket 102.

[0031] Preferably, the assembly assembly further includes a top cover 401, an environmental adjustment device 402, a connecting pipe 403, a control component, and an internal stirring component. The control component includes an overlapping bracket 501, a connecting frame 502, a swing motor 503, and a control cylinder 504. The internal stirring component includes a bottom end gear 601, a bottom stirring rod 602, and a bottom stirring gear 603. The internal stirring component also includes a top end gear 604, a top stirring rod 605, and a top stirring gear 606.

[0032] Furthermore, the top cover 401 is connected to the lifting bracket 107 via the control component, and the top cover 401 is disposed on the top of the lifting bracket 107; the environmental adjustment device 402 is installed on one side of the lifting bracket 107; the two sides of the connecting pipe 403 are respectively connected to the environmental adjustment device 402 and the top cover 401; the control component is connected to the lifting bracket 107 and is used to adjust the mating position of the top cover 401; the internal stirring component is connected to the outer cylinder 104 and is used to cooperate with the rotation of the outer cylinder 104 to agitate and stir the raw materials inside.

[0033] In this embodiment, the top cover 401 is positioned above the feeding platform of the lifting bracket 107. The top cover 401 has a sealing groove inside for cooperating with the top feeding platform of the lifting bracket 107. The top of the top cover 401 also has a communication module for connecting multiple pipes 403. The environmental adjustment device 402 has multiple independent working mechanisms inside. The environmental adjustment device 402 mainly includes outputting a specified type of gas and extracting internal gas. By inputting a specified type of gas, such as high-temperature gas or oxygen, the internal fermentation environment is changed. Then, by extracting internal gas, the corresponding detection module is used to detect the gas composition, thereby determining the actual situation of the internal fermentation environment of the device, so that the user can make corresponding adjustments based on the feedback of the internal fermentation environment data.

[0034] Furthermore, the overlapping bracket 501 is fixedly installed on one side of the lifting bracket 107; the connecting frame 502 is rotatably connected to the top cover 401 and slidably installed on the overlapping bracket 501; the output shaft of the swing motor 503 is connected to the top cover 401, and the swing motor 503 is fixedly installed on the connecting frame 502; the output end of the control cylinder 504 is connected to the connecting frame 502, and the control cylinder 504 is fixedly installed on the overlapping bracket 501.

[0035] In this embodiment, the top cover 401 is provided with a corresponding bracket on its side to cooperate with the connecting frame 502, so that the top cover 401 can rotate on one side of the connecting frame 502. The connecting frame 502 is slidably mounted on the overlapping bracket 501 through the guide pillar provided at the bottom. The connecting frame 502 is driven by the control cylinder 504, and the top cover 401 is driven by the swing motor 503. In actual operation, the control cylinder 504 is used to adjust the cooperation height of the connecting frame 502 and the top cover 401, and then the swing motor 503 is used to adjust the cooperation angle of the top cover 401 to achieve the shielding and sealing of the top discharge platform of the lifting bracket 107. It should be noted that the multiple connecting pipes 403 provided on the top cover 401 are all flexible hoses to avoid interference between the top cover 401 and the connecting pipes 403 when the top cover 401 is raised, lowered or rotated. The connecting pipes 403 can be reserved with a certain length according to the actual situation to ensure the normal operation and position adjustment of the top cover 401.

[0036] Furthermore, the bottom end gear 601 is fixedly mounted on the mounting bracket 102; the bottom stirring rod 602 is rotatably mounted on the outer cylinder 104; the bottom agitating gear 603 meshes with the bottom end gear 601 and is fixedly mounted on the bottom stirring rod 602.

[0037] Furthermore, the top end gear 604 is fixedly mounted on the lifting bracket 107; the top stirring rod 605 is rotatably mounted on the outer cylinder 104; the top agitating gear 606 meshes with the top end gear 604 and is fixedly mounted on the top stirring rod 605.

[0038] In this embodiment, the bottom toothed disc 601 and the top toothed disc 604 have the same structure, both having toothed platforms distributed on their surfaces for mating. The bottom stirring rod 602 and the top stirring rod 605 are respectively mounted on the outer cylinder 104 and the inner cylinder 105. The bottom stirring gear 603 and the top stirring gear 606 are respectively fixedly mounted on both sides of the bottom stirring rod 602 and the top stirring rod 605. The bottom stirring gear 603 and the top stirring gear 606 respectively mesh with the bottom toothed disc 601 and the top toothed disc 604. When the outer cylinder 104 and the inner cylinder 105 rotate, the bottom stirring rod 601 and the top toothed disc 604 on the outer cylinder 104 and the inner cylinder 105... The top stirring rod 605 can rotate through the cooperation of the bottom stirring gear 603 and the top stirring gear 606 with the bottom end gear plate 601 and the top end gear plate 604, thereby completing the full stirring of the raw materials inside the device. The bottom stirring rod 602 and the top stirring rod 605 are provided with multiple stirring thin rods on the outside of the rod, thereby enhancing the stirring and mixing effect of the internal raw materials. At the same time, since the outer ring of the top end gear plate 604 is fixed to the inner wall of the lifting bracket 107, when the lifting bracket 107 moves, the top end gear plate 604 will move along with the inner cylinder 105, ensuring the stable cooperation between the top end gear plate 604 and the top stirring gear 606.

[0039] Please see Figure 7 A method for preparing a soil conditioner and a mixing apparatus, comprising the following steps: S1: The prepared improver fermentation raw materials are introduced from the feeding platform set at the top of the lifting support 107; S2: Based on the actual amount of imported raw materials, the lifting bracket 107 is moved on the mounting bracket 102 by adjusting the components; Specifically, the adjustment component includes a fixed bracket 301, a guide bracket 302, a lifting screw 303, and a lifting motor 304. The fixed bracket 301 is disposed on one side of the mounting bracket 102, and the guide bracket 302 is fixedly disposed on the side of the lifting bracket 107. The guide bracket 302 can slide on the fixed bracket 301. The bottom plate of the guide bracket 302 is provided with a threaded hole that cooperates with the lifting screw 303. The lifting screw 303 is driven by the lifting motor 304, so that the user can drive the lifting bracket 107 by the lifting motor 304 in conjunction with the lifting screw 303, thereby causing the lifting bracket 107 to move on the mounting bracket 102.

[0040] S3: When the lifting bracket 107 moves, the inner cylinder 105 will move along with the lifting bracket 107, thus changing the material capacity inside the device by moving the inner cylinder 105 above the outer cylinder 104. S4: After adjusting the material capacity inside the device based on the actual amount of raw materials used, the raw materials piled up inside the device can be fermented. S5: During the fermentation process, the outer cylinder 104 is driven to rotate within the mounting bracket 102 by the rotating component, so as to stir the internal raw materials, fully mix the internal raw materials, and ferment them. Specifically, the rotating component includes an outer gear 201, a rotating gear 202, and a rotating motor 203. The outer gear 201 is fixedly sleeved on the bottom of the outer cylinder 104. The outer gear 201 meshes with the rotating gear 202, which is rotatably mounted on the mounting bracket 102. The rotating gear 202 is driven by the rotating motor 203. When the rotating motor 203 drives the rotating gear 202 to rotate, the rotating gear 202 can drive the outer gear 201 and the outer cylinder 104 to rotate, thereby completing the driving of the outer cylinder 104.

[0041] S6: After fermentation is completed, the material is discharged through the discharge valve 103 located at the bottom of the mounting bracket 102.

[0042] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.

Claims

1. A soil conditioner mixing device, comprising a drive support base, a mounting bracket, and a discharge valve, wherein the mounting bracket is mounted on the drive support base, and the discharge valve is mounted on the bottom of the mounting bracket, characterized in that, It also includes assembly components; The assembly components include an outer cylinder, an inner cylinder, guide columns, a lifting bracket, rotating components, and adjusting components; The outer cylinder is rotatably installed inside the mounting bracket. Multiple guide posts are fixedly installed at the bottom of the inner cylinder. The inner cylinder is slidably installed on the outer cylinder through the multiple guide posts at the bottom. The lifting bracket is rotatably connected to the inner cylinder and slidably installed on the mounting bracket. A feeding platform is provided at the top of the lifting bracket for introducing raw materials. The rotating component is connected to the outer cylinder and is used to drive the outer cylinder to rotate. The adjusting component is connected to the lifting bracket and is used to drive the lifting bracket to move on the mounting bracket.

2. The soil conditioner mixing device as described in claim 1, characterized in that, The rotating component includes an outer sleeve gear, a rotating gear, and a rotating motor. The outer sleeve gear is fixedly sleeved on the outer cylinder. The rotating gear meshes with the outer sleeve gear and is rotatably mounted on one side of the mounting bracket. The output shaft of the rotating motor is connected to the rotating gear, and the rotating motor is fixedly mounted on one side of the mounting bracket.

3. The soil conditioner mixing device as described in claim 1, characterized in that, The adjustment component includes a fixed bracket, a guide bracket, a lifting screw, and a lifting motor. The fixed bracket is fixedly installed on the mounting bracket. The guide bracket is slidably connected to the fixed bracket and fixedly installed on one side of the lifting bracket. The lifting screw is threadedly connected to the lifting bracket and rotatably installed on the fixed bracket. The output shaft of the lifting motor is connected to the lifting screw, and the lifting motor is fixedly installed on the fixed bracket.

4. The soil conditioner mixing device as described in claim 1, characterized in that, The assembly assembly also includes a top cover, an environmental adjustment device, a connecting pipe, a control component, and an internal stirring component. The top cover is connected to the lifting bracket via the control component, and the top cover is disposed on the top of the lifting bracket. The environmental adjustment device is installed on one side of the lifting bracket; the two sides of the connecting pipe are respectively connected to the environmental adjustment device and the top cover; the control component is connected to the lifting bracket and is used to adjust the matching position of the top cover; the internal stirring component is connected to the outer cylinder and is used to stir and agitate the internal raw materials in coordination with the rotation of the outer cylinder.

5. The soil conditioner mixing device as described in claim 4, characterized in that, The control component includes an overlapping bracket, a connecting frame, a swing motor, and a control cylinder. The overlapping bracket is fixedly installed on one side of the lifting bracket. The connecting frame is rotatably connected to the top cover and slidably installed on the overlapping bracket. The output shaft of the swing motor is connected to the top cover, and the swing motor is fixedly installed on the connecting frame. The output end of the control cylinder is connected to the connecting frame, and the control cylinder is fixedly installed on the overlapping bracket.

6. The soil conditioner mixing device as described in claim 4, characterized in that, The internal stirring component includes a bottom end gear plate, a bottom stirring rod, and a bottom stirring gear. The bottom end gear plate is fixedly mounted on the mounting bracket; the bottom stirring rod is rotatably mounted on the outer cylinder; the bottom stirring gear meshes with the bottom end gear plate and is fixedly mounted on the bottom stirring rod.

7. The soil conditioner mixing device as described in claim 6, characterized in that, The internal stirring component further includes a top end gear plate, a top stirring rod, and a top stirring gear. The top end gear plate is fixedly mounted on the lifting bracket; the top stirring rod is rotatably mounted on the outer cylinder; the top stirring gear meshes with the top end gear plate and is fixedly mounted on the top stirring rod.

8. A method for preparing a soil conditioner, using the soil conditioner mixing device as described in claim 1, characterized in that, Includes the following steps, The prepared modifier fermentation raw materials are introduced from the feeding platform set at the top of the lifting support; The lifting bracket is moved on the mounting bracket by adjusting the components according to the actual amount of imported raw materials. When the lifting bracket moves, the inner cylinder moves along with the lifting bracket, thus changing the material capacity inside the device by moving the inner cylinder above the outer cylinder. After adjusting the material capacity inside the device based on the actual amount of raw materials used, the raw materials piled up inside the device can then be fermented. During the fermentation process, the outer cylinder is rotated within the mounting bracket by a rotating component, so as to agitate the internal raw materials, ensure thorough mixing of the internal raw materials, and facilitate fermentation. After fermentation is complete, the material is discharged through the discharge valve located at the bottom of the mounting bracket.