A water-soluble fertilizer reprocessing device
By introducing weighing and drying technologies into the water-soluble fertilizer reprocessing unit, the problem of inaccurate feeding was solved, achieving stable production and efficient drying, thus ensuring the quality and effectiveness of the water-soluble fertilizer.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG XINGANG BIOLOGICAL SCI & TECH CO LTD
- Filing Date
- 2025-05-28
- Publication Date
- 2026-06-30
AI Technical Summary
In existing technologies, the amount of water-soluble fertilizer fed cannot be precisely controlled, leading to instability in the production process and affecting product quality.
The system employs components including a first weighing flap, a cylinder telescopic pusher, a servo motor-driven crushing roller, and a conveyor belt to achieve precise quantitative feeding. Excess moisture is removed through drying technology to ensure uniform drying of the fertilizer.
It enables precise quantitative feeding of water-soluble fertilizer, improves the stability and controllability of the production process, avoids product quality fluctuations, and ensures fertilizer quality and efficacy.
Smart Images

Figure CN224422743U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of water-soluble fertilizer treatment technology, and in particular to a water-soluble fertilizer reprocessing device. Background Technology
[0002] A series of processes for processing, preparing and optimizing water-soluble fertilizers aim to improve fertilizer solubility, nutrient utilization and application effect. Among them, the water-soluble fertilizer reprocessing device is the main equipment in the reprocessing process of water-soluble fertilizers, which can effectively improve the quality and effect of fertilizers, while reducing production costs and maintenance difficulty.
[0003] A Chinese patent discloses a water-soluble fertilizer reprocessing device with a high-efficiency crushing function (authorization announcement number CN221868593U). This patented technology uses a feed plate to drop the fertilizer into the inner side of the crushing roller for secondary crushing. Through two crushing processes, the large particles of water-soluble fertilizer can be crushed twice, avoiding the phenomenon of burning seedlings and damaging roots during irrigation. Furthermore, it eliminates the need for multiple crushing rollers, reducing the workload of maintenance personnel and lowering production costs.
[0004] Regarding the above and existing related technologies, the inventors believe that the following defects often exist: When using existing technologies, the amount of fertilizer raw materials may not be accurately controlled during the transportation process, resulting in a large error in the amount of material fed each time. This not only makes it difficult to maintain the stability and consistency of the production process, but also easily causes fluctuations in product quality, thereby affecting the final quality and fertilizer efficacy of water-soluble fertilizers. Utility Model Content
[0005] The technical problem to be solved by this utility model is that the existing technology does not have a quantitative feeding structure, which may lead to large errors in the amount of material fed each time and easily cause fluctuations in product quality. To this end, we propose a water-soluble fertilizer reprocessing device.
[0006] To achieve the above objectives, this application adopts the following technical solution: a water-soluble fertilizer reprocessing device, comprising a first base, a first outer shell mounted on the top of the first base, a first top cover rotatably connected to one side of the top of the first outer shell via a rotating shaft, a first drive motor mounted on one side of the top of the first outer shell, a first weighing flap mounted on the output end of the first drive motor, a first cylinder telescopic push plate mounted on one side inside the first outer shell, two first cooling fans mounted on the other side of the first outer shell, two first servo motors mounted on the bottom of one side of the first outer shell, a first crushing roller mounted on the output end of the first servo motor, a first conveyor belt mounted on the bottom of the inside of the first outer shell, a first collection box mounted on one end of the first outer shell, first clamping blocks rotatably connected to both sides of the first collection box via a rotating shaft, and first limiting grooves opened on both sides of one end of the first outer shell, with the inner wall of the first clamping block inserted into one end of the first limiting groove.
[0007] Preferably, a first sliding groove is provided at both ends of both sides of the first outer shell, and a first sliding buckle is slidably connected to the inner wall of the first sliding groove, and the inner wall of the first sliding buckle is slidably connected to the surface of the first collection box.
[0008] Preferably, both ends of the first sliding buckle are provided with a first circular groove, and a first sliding rod is slidably connected to the inner wall of the first circular groove. The two ends of the first sliding rod are fixedly connected to the two sides of the inner wall of the first sliding groove.
[0009] Preferably, a first spring is fixedly connected to one side of the first sliding buckle, and the other end of the first spring is fixedly connected to one side of the inner wall of the first sliding groove.
[0010] Preferably, a first shovel slope is provided on one side of the first cylinder telescopic push plate, and a first inclined surface is provided on one side of the inside of the first outer shell.
[0011] Preferably, a first cleaning roller brush is installed at one end of the bottom of the first housing.
[0012] Preferably, a plurality of first anti-stick pads are installed on the surface of the first conveyor belt.
[0013] Technical effects and advantages of this utility model:
[0014] In this invention, the user can precisely transport fertilizer raw materials according to a predetermined amount by driving the first weighing flap with the first drive motor, ensuring that each feeding is accurate and error-free. This greatly improves the stability and controllability of the production process, avoids product quality fluctuations caused by inaccurate feeding, and lays a solid foundation for subsequent processing. Its unique drying function can effectively remove excess moisture from the fertilizer, allowing it to reach the ideal degree of dryness. During the drying process, the device adopts advanced drying technology, which can heat the fertilizer evenly and avoid the decomposition or deterioration of fertilizer components due to local overheating, thus ensuring the quality and efficacy of the fertilizer. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the main structure of this utility model;
[0016] Figure 2 This is a vertical cross-sectional view of the present invention;
[0017] Figure 3 This is an exploded view of the structure of this utility model;
[0018] Figure 4 This is an exploded view of the internal structure of the first outer shell of this utility model;
[0019] Figure 5 This is an exploded view of the first groove of this utility model.
[0020] Legend: 1. First base; 2. First outer shell; 3. First top cover; 4. First drive motor; 5. First weighing flap; 6. First cylinder telescopic push plate; 7. First cooling fan; 8. First servo motor; 9. First crushing roller; 10. First conveyor belt; 11. First collection box; 12. First clamping block; 13. First limiting groove; 14. First sliding groove; 15. First sliding buckle; 16. First circular groove; 17. First sliding rod; 18. First spring; 19. First shoveling slope; 20. First inclined surface; 21. First cleaning roller brush; 22. First anti-stick pad. Detailed Implementation
[0021] The present invention will now be described in further detail with reference to the accompanying drawings and preferred embodiments. These drawings are simplified schematic diagrams, which only illustrate the basic structure of the present invention in a schematic manner, and therefore only show the components related to the present invention.
[0022] Reference Figure 1 - Figure 5As shown, this utility model provides a technical solution: a water-soluble fertilizer reprocessing device, including a first base 1, a first outer shell 2 installed on the top of the first base 1, a first top cover 3 rotatably connected to one side of the top of the first outer shell 2 via a rotating shaft, a first drive motor 4 installed on one side of the top of the first outer shell 2, a first weighing flap 5 installed at the output end of the first drive motor 4, a first cylinder telescopic push plate 6 installed on one side inside the first outer shell 2, two first cooling fans 7 installed on the other side of the first outer shell 2, two first servo motors 8 installed at the bottom of one side of the first outer shell 2, a first crushing roller 9 installed at the output end of the first servo motor 8, and a first conveyor belt 10 installed at the bottom inside the first outer shell 2. One end of the first housing 2 is equipped with a first collection box 11. The two sides of the first collection box 11 are rotatably connected to first clamping blocks 12 via rotating shafts. First limiting grooves 13 are provided on both sides of one end of the first housing 2. The inner wall of the first clamping block 12 is inserted into one end of the first limiting groove 13. When the user pours the water-based fertilizer into the interior of the first housing 2 through the inlet at the top of the first housing 2, the first weighing flap 5 can weigh the poured-in water-based fertilizer. The weight is displayed on the display panel on one side of the first housing 2, showing the weight of the water-based fertilizer at the top of the first weighing flap 5. At this time, the user drives the first drive motor 4 through the control panel on one side of the first housing 2, rotating the first weighing flap 5 so that the fertilizer falls through the first housing 2 into its interior dry container. In the drying zone, the heating plate on one side of the first outer shell 2 is activated to heat its internal temperature. The first cooling fan 7 then starts to control the internal temperature of the first outer shell 2 through heat dissipation. At this time, the cylinder at one end of the first cylinder extension pusher 6 drives the pusher to push the fertilizer from the drying zone into the bottom of the first outer shell 2. Then, the first servo motor 8 drives the first crushing roller 9, which crushes the fertilizer. The fertilizer is then conveyed by the first conveyor belt 10 into the first collection box 11 for collection. When the first collection box 11 is full, the user rotates the first clamping block 12 via the rotating shaft, disengaging one end of the first clamping block 12 from the inner wall of the first limiting groove 13, allowing the user to replace the first collection box 11. The first drive motor 4 drives the first weighing flap 5 to accurately convey fertilizer raw materials according to a predetermined amount, ensuring that each feeding is accurate and error-free. This greatly improves the stability and controllability of the production process, avoids product quality fluctuations caused by inaccurate feeding, and lays a solid foundation for subsequent processing. Its unique drying function can effectively remove excess moisture from the fertilizer, allowing it to reach the ideal degree of dryness. During the drying process, the device adopts advanced drying technology, which can evenly heat the fertilizer, ensuring that the moisture in the fertilizer is evaporated quickly and evenly. At the same time, it can also avoid the decomposition or deterioration of fertilizer components due to local overheating, thus ensuring the quality and efficacy of the fertilizer.
[0023] Reference Figure 3 and Figure 5As shown in this embodiment: First sliding grooves 14 are provided at both ends of the first outer shell 2. The inner wall of the first sliding groove 14 is slidably connected to a first sliding buckle 15. The inner wall of the first sliding buckle 15 is slidably connected to the surface of the first collection box 11. When the user inserts the first clamping block 12 into the inner wall of the first limiting groove 13, the user moves the first sliding buckle 15 along the inner wall of the first limiting groove 13, so that the first sliding buckle 15 restricts the first clamping block 12. The insertion of the first clamping block 12 into the first limiting groove 13 is more secure through the first sliding buckle 15.
[0024] Reference Figure 3 and Figure 5 As shown in this embodiment: both ends of the first sliding buckle 15 are provided with a first circular groove 16, and the inner wall of the first circular groove 16 is slidably connected to a first sliding rod 17. The two ends of the first sliding rod 17 are fixedly connected to the two sides of the inner wall of the first sliding groove 14. When the user moves the first sliding buckle 15 through the first circular groove 16 to the inner wall of the first sliding groove 14, the movement trajectory of the first sliding buckle 15 is made more stable.
[0025] Reference Figure 3 and Figure 5 As shown in this embodiment: a first spring 18 is fixedly connected to one side of the first sliding buckle 15, and the other end of the first spring 18 is fixedly connected to one side of the inner wall of the first slide groove 14. When the user moves the first sliding buckle 15 along the inner wall of the first slide groove 14 to release the restriction of the first clamp 12, the first sliding buckle 15 squeezes the first spring 18, causing the first spring 18 to store and compress. When the user returns the first sliding buckle 15 to its original position, the user releases the first sliding buckle 15, and the first spring 18 releases and rebounds, automatically pushing the first sliding buckle 15 back to its original position. The operation of the device is made simpler by the first spring 18.
[0026] Reference Figure 1 , Figure 2 and Figure 3 As shown in this embodiment: a first shovel slope 19 is provided on one side of the first cylinder telescopic push plate 6, and a first inclined surface 20 is provided on one side inside the first outer shell 2. When the user starts the equipment, after the fertilizer falls into the drying area inside the first outer shell 2, the first cylinder telescopic push plate 6 pushes the fertilizer through the top plate at the front end. The fertilizer that has dried and solidified on the surface of the top plate is shoveled off by the first shovel slope 19 and falls into the next process along the inclined surface of the first inclined surface 20. The first shovel slope 19 effectively avoids the accumulation of fertilizer in the drying area, ensuring the continuity and efficiency of fertilizer processing.
[0027] Reference Figure 1 , Figure 2 and Figure 3As shown in this embodiment: a first cleaning roller brush 21 is installed at one end of the bottom of the first housing 2. When the user starts the equipment, the first conveyor belt 10 drives the fertilizer to the first collection box 11. At this time, the first cleaning roller brush 21 cleans the surface of the first conveyor belt 10 through the motor on one side. The first cleaning roller brush 21 cleans the fertilizer residue in the gap of the first conveyor belt 10, so that the first conveyor belt 10 avoids the blockage and residue of fertilizer during the conveying process, and improves the operating efficiency and stability of the equipment.
[0028] Reference Figure 1 , Figure 2 and Figure 3 As shown in this embodiment: a plurality of first anti-stick pads 22 are installed on the surface of the first conveyor belt 10. When the user starts the equipment, the fertilizer passes through the first anti-stick pads 22 installed on the surface of the first conveyor belt 10, so that the material will not stick to the surface of the first conveyor belt 10 during the conveying process, effectively avoiding fertilizer waste and equipment blockage and improving the service life of the first conveyor belt 10.
[0029] Working principle:
[0030] Step 1: When the user pours water-soluble fertilizer into the first outer shell 2 through the inlet at the top of the first outer shell 2, the first weighing flap 5 accurately weighs the fertilizer and displays the weight on the display panel on one side of the first outer shell 2. The user then activates the first drive motor 4 via the control panel on one side of the first outer shell 2, which drives the first weighing flap 5 to rotate, allowing the fertilizer to fall smoothly into the drying area inside the first outer shell 2. Simultaneously, the heating plate on one side of the first outer shell 2 activates to heat the interior, and the first cooling fan 7 starts to dissipate heat and control the drying process of the first outer shell 2. The internal temperature ensures the uniformity of the drying process. The cylinder at one end of the first cylinder telescopic pusher plate 6 drives the pusher plate to push the fertilizer in the drying zone into the bottom of the first outer shell 2. The first servo motor 8 drives the first crushing roller 9 to crush the fertilizer. The crushed fertilizer is conveyed to the first collection box 11 for collection by the first conveyor belt 10. When the first collection box 11 is full, the user rotates the first clamping block 12 by the rotating shaft to disengage one end of it from the inner wall of the first limiting groove 13, so that the first collection box 11 can be easily removed for replacement.
[0031] Step two: After the user inserts the first clamping block 12 into the inner wall of the first limiting groove 13, the user moves the first sliding buckle 15 along the inner wall of the first limiting groove 13 to restrict the first clamping block 12, thereby making the insertion of the first clamping block 12 into the first limiting groove 13 more secure. When moving the first sliding buckle 15, the user moves it along the inner wall of the first sliding groove 14 through the first circular groove 16 to ensure that the movement trajectory of the first sliding buckle 15 is more stable. When it is necessary to release the restriction of the first clamping block 12, the user moves the first sliding buckle 15 along the inner wall of the first sliding groove 14. At this time, the first sliding buckle 15 squeezes the first spring 18, causing the first spring 18 to store and compress.
[0032] Step 3: After the user starts the equipment, the fertilizer falls into the drying area inside the first outer shell 2. The first cylinder telescopic pusher 6 pushes the fertilizer through the top plate at the front end. The first shovel slope 19 shovels the fertilizer that has dried and solidified on the surface of the top plate and lets it fall down the slope of the first inclined surface 20 into the next process. The setting of the first shovel slope 19 effectively avoids the accumulation of fertilizer in the drying area, ensuring the continuity and efficiency of fertilizer processing. The first conveyor belt 10 drives the fertilizer to the first collection box 11. At this time, the first cleaning roller brush 21 is driven by a motor on one side to clean the surface of the first conveyor belt 10, effectively removing the fertilizer residue in the gaps of the first conveyor belt 10, avoiding the blockage and residue of fertilizer during the transmission process, and improving the operating efficiency and stability of the equipment.
[0033] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A water-soluble fertilizer reprocessing device comprising a first base (1), characterized in that: A first outer shell (2) is mounted on the top of the first base (1). A first top cover (3) is rotatably connected to the top of one side of the first outer shell (2) via a rotating shaft. A first drive motor (4) is mounted on the top of one side of the first outer shell (2). A first weighing flap (5) is mounted on the output end of the first drive motor (4). A first cylinder telescopic push plate (6) is mounted on one side inside the first outer shell (2). Two first cooling fans (7) are mounted on the other side of the first outer shell (2). A first cylinder telescopic push plate (6) is mounted on the bottom of one side of the first outer shell (2). The first servo motor (8) is equipped with two first servo motors (8). The output end of the first servo motor (8) is equipped with a first crushing roller (9). The bottom of the first housing (2) is equipped with a first conveyor belt (10). One end of the first housing (2) is equipped with a first collection box (11). The two sides of the first collection box (11) are rotatably connected to the first clamping block (12) through a rotating shaft. The two sides of one end of the first housing (2) are provided with a first limiting groove (13). The inner wall of the first clamping block (12) is inserted into one end of the first limiting groove (13).
2. The water-soluble fertilizer reprocessing device according to claim 1, characterized in that: The first outer shell (2) has a first sliding groove (14) at both ends on both sides. The inner wall of the first sliding groove (14) is slidably connected to a first sliding buckle (15). The inner wall of the first sliding buckle (15) is slidably connected to the surface of the first collection box (11).
3. The water-soluble fertilizer reprocessing device according to claim 2, characterized in that: The first sliding buckle (15) has a first circular groove (16) at both ends. The inner wall of the first circular groove (16) is slidably connected to a first sliding rod (17). The two ends of the first sliding rod (17) are fixedly connected to the two sides of the inner wall of the first sliding groove (14).
4. The water-soluble fertilizer reprocessing device according to claim 2, characterized in that: A first spring (18) is fixedly connected to one side of the first sliding buckle (15), and the other end of the first spring (18) is fixedly connected to one side of the inner wall of the first sliding groove (14).
5. The water-soluble fertilizer reprocessing device according to claim 1, characterized in that: The first cylinder telescopic push plate (6) has a first shovel slope (19) on one side, and the first outer shell (2) has a first inclined surface (20) on one side inside.
6. The water-soluble fertilizer reprocessing device according to claim 1, characterized in that: A first cleaning roller brush (21) is installed at one end of the bottom of the first housing (2).
7. The water-soluble fertilizer reprocessing device according to claim 1, characterized in that: The surface of the first conveyor belt (10) is equipped with a plurality of first anti-stick pads (22).