Vegetable delivery sorting and packing device
By designing the conveyor belt assembly, sorting mechanism, and adjustment mechanism of the vegetable sorting and packaging device, the problems of mixing and inaccurate sorting during the vegetable diversion process were solved, and the adjustable and precise control of the diversion holes was achieved, thereby improving sorting efficiency and stability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Filing Date
- 2025-08-07
- Publication Date
- 2026-07-07
AI Technical Summary
Existing vegetable sorting devices lack effective isolation and guidance structures during the diversion and transportation process, resulting in mixed, mis-sorted, or missed vegetables. Furthermore, the size of the diversion holes cannot be adjusted, making it impossible to meet the sorting needs of vegetables of different sizes.
A vegetable distribution, sorting, and packaging device was designed, comprising a conveyor belt assembly, a vegetable sorting mechanism, a hole adjustment mechanism, and an adjustment auxiliary mechanism. The device uses a hydraulic cylinder to drive a diverting plate and a sealing plate to work together, enabling adjustable and precise control of the diversion holes. Combined with the hole adjustment mechanism and the adjustment auxiliary mechanism, the device ensures the flexibility and stability of sorting.
It improves the flexibility and efficiency of vegetable sorting, ensures the accuracy and stability of sorting, adapts to the sorting needs of vegetables of different sizes, simplifies the operation steps, and enhances the adaptability and ease of maintenance of the equipment.
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Figure CN224463215U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of vegetable sorting technology, and more specifically, to a vegetable distribution, sorting and packaging device. Background Technology
[0002] Currently, most vegetable distribution and sorting devices typically use simple conveyor belts or mechanical sorting methods to distribute vegetables to different areas during the diversion and transportation process. However, due to the lack of effective separation and guidance structures on the conveyor belts, or the unscientific design of the sorting mechanism, these methods are often ineffective.
[0003] First, there is no clear separation method for different categories or sizes of vegetables during the sorting process, which makes them easy to mix together. For example, smaller vegetables may fall into other sections through gaps, or vegetables with special shapes may get stuck in the sorting device, affecting the subsequent sorting effect. Second, due to the lack of precise guidance or isolation devices in the sorting channel, the flow direction of vegetables is not clear, which may lead to missorting or missed sorting. This problem of poor sorting effect is particularly prominent in large-scale, multi-category vegetable delivery scenarios.
[0004] Even more challenging is the fact that vegetables come in a wide variety of shapes, sizes, and weights. For example, small vegetables like mung bean sprouts and peas differ greatly from large vegetables like cabbage, head cabbage, and winter melon. A single, fixed sorting hole cannot meet the sorting needs of all vegetables. If the sorting hole is too small, large vegetables may get stuck and cannot pass through smoothly. If the sorting hole is too large, small vegetables may fall directly, affecting the accuracy of sorting. Utility Model Content
[0005] (a) Technical problems to be solved
[0006] In view of the problems existing in the prior art, this utility model provides a vegetable distribution, sorting and packaging device to solve the technical problems mentioned in the background art, such as the inability to effectively isolate vegetables during diversion and transportation, resulting in poor sorting effect, and the inability to adjust the size of the diversion holes, which makes it unable to accommodate more vegetables.
[0007] (II) Technical Solution
[0008] To achieve the above objectives, this utility model provides the following technical solution: a vegetable distribution, sorting, and packaging device, comprising a conveyor belt assembly, a vegetable sorting mechanism, a sorting hole adjustment mechanism, and an adjustment auxiliary mechanism. The vegetable sorting mechanism includes a top frame, a hydraulic cylinder, a transverse plate, a diverting plate, a diversion hole, and a sealing plate. The top frame is installed at the top end of the conveyor belt assembly, the transverse plate is installed laterally on the side of the top frame, the two ends of the hydraulic cylinder are rotatably connected to the diverting plate and the top frame, the diversion hole is installed on the diverting plate, and the sealing plate slides longitudinally on the diverting plate. The sealing plate can adjust the size of the diversion hole. The hole adjustment mechanism includes an adjustment plate, a fixed tube, a snap-fit rod, an inner push frame, a spiral blade, a horizontal push plate, and a pressing groove. The adjustment plate is installed at the top end of the sealing plate, the snap-fit rod is installed on the adjustment plate, multiple sets of fixed tubes are installed on the back end face of the diversion plate, the pressing groove is set on the side wall of the snap-fit rod, the inner push frame is installed at one end of the spiral blade, and the horizontal push frame is installed on the inner side of the spiral blade. The rotating and retracting spiral blade can make the horizontal push plate press against the pressing groove, fixing the snap-fit rod inside the fixed tube.
[0009] The present invention is further configured such that the adjustment auxiliary mechanism includes a rotating ring, a rotating tube, a rotating block, a centripetal block, and a tightening spring. The rotating ring is rotatably mounted on the outer wall of the fixed tube. The inner pusher is fitted and mounted on the top end of the rotating ring and on the inner wall of the rotating tube. Multiple sets of rotating blocks are mounted on the bottom end of the rotating ring. Multiple sets of centripetal blocks are slidably mounted on the outer wall of the fixed tube. The tightening spring is installed between the centripetal blocks. The rotating block rotates in the direction inside the centripetal block. The outer wall of the rotating block and the inner wall of the centripetal block are fitted and pressed together.
[0010] The present invention is further configured such that a longitudinal plate is installed on the bottom side of the conveyor belt assembly, and a drive motor is installed on the longitudinal plate. The drive motor is connected to the conveyor belt assembly and can adjust the speed of the conveyor belt according to actual needs to ensure the efficiency and stability of vegetable sorting.
[0011] The present invention is further configured such that the toggle plate is provided with adjustment holes, and multiple sets of adjustment holes are provided. The adjustment holes are located at the top end of the diversion hole. The multiple sets of adjustment holes, together with the adjustment plate and the snap-fit rod, enable the device to be quickly adjusted under different diversion requirements, thereby improving adaptability and flexibility.
[0012] The present invention is further configured such that a connecting plate is installed at the bottom end of the fixed tube, and the connecting plate is detachably and fixedly installed on the adjustment hole of the dispensing plate. The connecting plate realizes a reliable connection between the components, which facilitates the assembly, disassembly and maintenance of the device and improves the ease of operation.
[0013] The present invention is further configured such that one end of the snap-fit rod on the adjustment plate can extend through the adjustment hole and engage with the snap-fit tube for quick snap-fit. The snap-fit rod, through its quick snap-fit function of extending into the fixed tube, facilitates quick locking during adjustment and simplifies operation.
[0014] The present invention is further configured such that a top rail is installed at the top end of the connecting plate, and the centripetal block is configured to reciprocate and slide centripetally on the top rail. The top rail provides a guide for the centripetal block to slide, ensuring the accuracy and stability of the sliding.
[0015] The present invention is further configured such that support legs are installed around the bottom of the conveyor belt assembly, and a separator plate is installed on the conveyor belt assembly. The separator plate separates the diverted vegetables at both ends and introduces them into an external packaging mechanism.
[0016] (III) Beneficial Effects
[0017] Compared with the prior art, this utility model provides a vegetable distribution, sorting and packaging device, which has the following beneficial effects:
[0018] This utility model is equipped with a vegetable sorting mechanism. Through the coordinated operation of a toggle plate, a diversion hole, and a sealing plate, the vegetable sorting mechanism achieves efficient sorting and diversion of vegetables. Furthermore, the size of the diversion hole can be adjusted according to different needs, thereby accommodating vegetables of different sizes or quantities, improving the flexibility and efficiency of sorting. At the same time, the use of a hydraulic cylinder provides reliable power, ensuring the stability and accuracy of the sorting operation.
[0019] This utility model is equipped with a hole adjustment mechanism. Through the cooperation of components such as adjustment plate, locking rod and spiral plate, the hole adjustment mechanism enables the device to quickly adjust the size and position of the diversion hole to meet different sorting needs. The design of this mechanism simplifies the operation steps, improves the adjustment efficiency of the device, and also improves the adaptability of the device in multiple application scenarios.
[0020] This utility model is equipped with an adjustment auxiliary mechanism. Through the design of a rotating ring, a centripetal block, and a tightening spring, the adjustment auxiliary mechanism further enhances the device's precise adjustment capability and the fastening performance between components. This mechanism can provide stable and reliable adjustment support, ensuring smoothness and durability during operation, while facilitating the assembly and disassembly of the device and improving the convenience of maintenance and operation. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the overall structure of the device in the unused state of this utility model;
[0022] Figure 2 This is a schematic diagram of the vegetable sorting mechanism in this utility model;
[0023] Figure 3 This is a schematic diagram of the vegetable sorting mechanism in this utility model from a rear view.
[0024] Figure 4This is a schematic diagram of the adjustment mechanism and the adjustment auxiliary mechanism in this utility model;
[0025] Figure 5 This is a schematic diagram of the internal structure of the adjusting mechanism and the adjusting auxiliary mechanism in this utility model.
[0026] In the diagram: 1. Conveyor belt assembly; 2. Top frame; 3. Hydraulic cylinder; 4. Transverse plate; 5. Actuating plate; 6. Diverter hole; 7. Sealing plate; 8. Adjusting plate; 9. Fixing pipe; 10. Clip rod; 11. Inner push frame; 12. Spiral blade; 13. Transverse push plate; 14. Pressing groove; 15. Rotating ring; 16. Rotating tube; 17. Rotating block; 18. Centripetal block; 19. Tensioning spring; 20. Longitudinal plate; 21. Drive motor; 22. Adjusting hole; 23. Connecting plate; 24. Top rail; 25. Support leg; 26. Divider plate. Detailed Implementation
[0027] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The present invention will now be described in detail with reference to the accompanying drawings and embodiments.
[0028] It should be noted that, unless otherwise specified, all technical and scientific terms used in this application have the same meaning as commonly understood by one of ordinary skill in the art to which this application pertains.
[0029] In this utility model, unless otherwise stated, the orientations used, such as "up" and "down", usually refer to the direction shown in the accompanying drawings, or to the vertical, perpendicular, or gravitational direction; similarly, for ease of understanding and description, "left" and "right" usually refer to the left and right shown in the accompanying drawings; "inner" and "outer" refer to the inner and outer contours of each component itself, but the above directional terms are not used to limit this utility model.
[0030] Please see Figures 1-5A vegetable distribution, sorting, and packaging device includes a conveyor belt assembly 1, a vegetable sorting mechanism, a sorting hole adjustment mechanism, and an adjustment auxiliary mechanism. The vegetable sorting mechanism includes a top frame 2, a hydraulic cylinder 3, a transverse plate 4, a shifting plate 5, a diversion hole 6, and a sealing plate 7. The top frame 2 is installed at the top end of the conveyor belt assembly 1, and the transverse plate 4 is installed laterally on the side of the top frame 2. The two ends of the hydraulic cylinder 3 are rotatably connected to the shifting plate 5 and the top frame 2. The diversion hole 6 is installed on the shifting plate 5, and the sealing plate 7 is longitudinally slidable on the shifting plate 5. The sealing plate 7 can adjust the size of the diversion hole 6. The mechanism includes an adjusting plate 8, a fixing tube 9, a snap-fit rod 10, an inner pusher 11, a spiral blade 12, a horizontal pusher plate 13, and a pressing groove 14. The adjusting plate 8 is installed on the top end of the sealing plate 7, the snap-fit rod 10 is installed on the adjusting plate 8, multiple sets of fixing tubes 9 are installed in cooperation on the back end face of the actuating plate 5, the pressing groove 14 is set on the side wall of the snap-fit rod 10, the inner pusher 11 is installed on one end of the spiral blade 12, and the horizontal pusher is installed on the inner side of the spiral blade 12. The rotating and retracting spiral blade 12 can cause the horizontal pusher plate 13 to press against the pressing groove 14, thus fixing the snap-fit rod 10 inside the fixing tube 9.
[0031] In this embodiment, when the vegetable sorting mechanism is in operation, the hydraulic cylinder 3 connects the top frame 2 and the actuating plate 5. By driving the actuating plate 5 to move, the diversion hole 6 on the actuating plate 5 is aligned with the vegetable outflow area. The size of the diversion hole 6 is adjusted by sliding the sealing plate 7. By covering part or all of the diversion hole 6 with the sealing plate 7, the amount of vegetable diversion can be precisely controlled, thereby meeting different sorting needs. After the diversion hole 6 is adjusted, the vegetables fall through the diversion hole 6 on the actuating plate 5 and are separated into designated positions by the separator plate 26 on the conveyor belt assembly 1. When the hole adjustment mechanism is in operation, the adjustment plate 8 is fixed to the top of the sealing plate 7 to control the position of the snap-fit rod 10. One end of the snap-fit rod 10 can extend through the adjustment hole 22 on the actuating plate 5 and quickly snap-fit with the fixed tube 9. The fixed tube 9 is installed on the back of the actuating plate 5 and is fixed to the adjustment hole 22 by the snap-fit rod 10, so that the sealing plate 7 can stably adjust the size of the diversion hole 6. When the spiral blade 12 rotates, the horizontal push plate 13 on its inner side presses the pressing groove 14, and the snap-fit rod 10 is fixed inside the fixed tube 9. In this way, after the adjustment is completed, the hole adjustment mechanism can firmly fix the sealing plate 7 in the designated position to ensure that the size of the diversion hole 6 will not change due to vibration or external force.
[0032] The adjustment auxiliary mechanism includes a rotating ring 15, a rotating tube 16, a rotating block 17, a centripetal block 18, and a tightening spring 19. The rotating ring 15 is rotatably mounted on the outer wall of the fixed tube 9. The inner pusher 11 is fitted and mounted on the top end of the rotating ring 15. The inner pusher 11 is mounted on the inner wall of the rotating tube 16. Multiple sets of rotating blocks 17 are mounted on the bottom end of the rotating ring 15. Multiple sets of centripetal blocks 18 are slidably mounted on the outer wall of the fixed tube 9. The tightening spring 19 is mounted between the centripetal blocks 18. The rotating block 17 rotates in the direction inside the centripetal block 18. The outer wall of the rotating block 17 and the inner wall of the centripetal block 18 are fitted and rotated to press against each other.
[0033] When the auxiliary mechanism needs to be adjusted, its function is to further enhance the stability of the orifice adjustment mechanism, ensuring that the diverting plate 5 and the sealing plate 7 are firmly fixed after the diversion hole 6 is adjusted. Simultaneously, reverse operation facilitates the release of the locking mechanism and adjustment of different fixed positions. The centripetal block 18 is slidably mounted on the outer wall of the fixed tube 9, and a certain centripetal force is maintained by the tension spring 19, ensuring that the rotating block 17 provides stable clamping force when moving inside the centripetal block 18. The rotating block 17 is located inside the centripetal block 18. The outer wall of the rotating block 17 and the inner wall of the centripetal block 18 cooperate to further press and fix the fixed tube 9. The centripetal block 18 can slide along the top rail 24, thereby achieving the overall stability of the adjustment mechanism and avoiding the displacement of the position of the actuating plate 5 or the sealing plate 7 due to vibration or long-term use. The rotation of the rotating ring 15 drives the rotating tube 16 to rotate, causing the inner push frame 11 to push the spiral plate 12 to rotate, causing the horizontal push plate 13 to press against the pressing groove 14, fixing the locking rod 10 inside the fixed tube 9. Conversely, the locking is released.
[0034] Please see Figures 1-5 As a supplementary embodiment of a vegetable distribution, sorting, and packaging device for vegetable sorting mechanisms, hole adjustment mechanisms, and adjustment auxiliary mechanisms: A longitudinal plate 20 is installed on the bottom side of the conveyor belt assembly 1, and a drive motor 21 is installed on the longitudinal plate 20. The drive motor 21 is connected to the conveyor belt assembly 1. An adjustment hole 22 is provided on the agitator plate 5, and multiple sets of adjustment holes 22 are provided. The adjustment hole 22 is located at the top end of the diversion hole 6. A connecting plate 23 is installed at the bottom end of the fixing pipe 9, and the connecting plate 23 is detachably fixedly installed on the adjustment hole 22 of the sorting plate. One end of the snap-fit rod 10 on the adjustment plate 8 can extend through the adjustment hole 22 and quickly snap-fit with the snap-fit pipe. A top rail 24 is installed at the top end of the connecting plate 23, and a centripetal block 18 is reciprocating and centripetally sliding on the top rail 24. Support legs 25 are installed around the bottom of the conveyor belt assembly 1, and a separator plate 26 is installed on the conveyor belt assembly 1. The separator plate 26 separates the diverted vegetables at both ends and introduces them into the external packaging mechanism.
[0035] More specifically, vegetables are conveyed from the feeding end to the sorting area via conveyor belt assembly 1. Conveyor belt assembly 1 is driven by a drive motor 21 mounted on the side of its bottom end. The motor's power drives the conveyor belt, evenly distributing the vegetables to the sorting area. The vegetable sorting mechanism at the top of conveyor belt assembly 1 then begins operation. A hydraulic cylinder 3 in the sorting mechanism drives a diverting plate 5 to move up and down or left and right along the direction of the transverse plate 4, adjusting the position of the diverting plate 5. The diverting plate 5 is designed with multiple diversion holes 6, responsible for diverting vegetables according to demand. The opening size of each diversion hole 6 can be adjusted by a sealing plate 7, thereby controlling the flow rate of vegetables passing through the diversion hole 6. The sealing plate 7 slides longitudinally on the diverting plate 5. By adjusting the size of the diversion holes 6, vegetables of different sizes can be sorted. The sorted vegetables fall from the diverting plate 5 through the diversion holes 6 and are separated into different areas by the separator plates 26 on the conveyor belt. The separated vegetables are then introduced into an external packaging mechanism for subsequent packaging processing.
[0036] In summary, during the use or operation of the overall equipment: when the vegetable sorting mechanism is required to operate, the hydraulic cylinder 3 connects the top frame 2 and the actuating plate 5. By driving the actuating plate 5 to move, the diversion hole 6 on the actuating plate 5 is aligned with the vegetable outflow area. The size of the diversion hole 6 is adjusted by sliding the sealing plate 7. By covering part or all of the diversion hole 6 with the sealing plate 7, the amount of vegetable diversion can be precisely controlled, thereby meeting different sorting needs. After the diversion hole 6 is adjusted, the vegetables fall through the diversion hole 6 on the actuating plate 5 and are separated into designated positions by the separator plate 26 on the conveyor belt assembly 1.
[0037] When the hole adjustment mechanism is in operation, the adjustment plate 8 is fixed to the top of the sealing plate 7 to control the position of the snap-fit rod 10. One end of the snap-fit rod 10 can extend through the adjustment hole 22 on the actuating plate 5 and quickly snap-fit with the fixed tube 9. The fixed tube 9 is installed on the back of the actuating plate 5 and is fixed to the adjustment hole 22 by the snap-fit rod 10, so that the sealing plate 7 can stably adjust the size of the diversion hole 6. When the spiral blade 12 rotates, the horizontal push plate 13 on its inner side presses the pressing groove 14, and the snap-fit rod 10 is fixed inside the fixed tube 9. In this way, after the adjustment is completed, the hole adjustment mechanism can firmly fix the sealing plate 7 in the designated position to ensure that the size of the diversion hole 6 will not change due to vibration or external force.
[0038] When the auxiliary mechanism needs to be adjusted, its function is to further enhance the stability of the orifice adjustment mechanism, ensuring that the diverting plate 5 and the sealing plate 7 are firmly fixed after the diversion hole 6 is adjusted. Simultaneously, reverse operation facilitates the release of the locking mechanism and adjustment of different fixed positions. The centripetal block 18 is slidably mounted on the outer wall of the fixed tube 9, and a certain centripetal force is maintained by the tension spring 19, ensuring that the rotating block 17 provides stable clamping force when moving inside the centripetal block 18. The rotating block 17 is located inside the centripetal block 18. The outer wall of the rotating block 17 and the inner wall of the centripetal block 18 cooperate to further press and fix the fixed tube 9. The centripetal block 18 can slide along the top rail 24, thereby achieving the overall stability of the adjustment mechanism and avoiding the displacement of the position of the actuating plate 5 or the sealing plate 7 due to vibration or long-term use. The rotation of the rotating ring 15 drives the rotating tube 16 to rotate, causing the inner push frame 11 to push the spiral plate 12 to rotate, causing the horizontal push plate 13 to press against the pressing groove 14, fixing the locking rod 10 inside the fixed tube 9. Conversely, the locking is released.
[0039] Vegetables are conveyed from the feeding end to the sorting area via conveyor belt assembly 1. Conveyor belt assembly 1 is driven by a drive motor 21 mounted on the side of its bottom end. The motor's power drives the conveyor belt, evenly distributing the vegetables to the sorting area. The vegetable sorting mechanism at the top of conveyor belt assembly 1 then begins operation. A hydraulic cylinder 3 in the sorting mechanism drives a diverting plate 5 to move up and down or left and right along the transverse plate 4, adjusting the position of the diverting plate 5. The diverting plate 5 is designed with multiple diversion holes 6, responsible for diverting vegetables according to demand. The opening size of each diversion hole 6 can be adjusted by a sealing plate 7, thereby controlling the flow rate of vegetables passing through the diversion hole 6. The sealing plate 7 slides longitudinally on the diverting plate 5. By adjusting the size of the diversion holes 6, vegetables of different sizes can be sorted. After sorting, the vegetables fall from the diverting plate 5 through the diversion holes 6 and are separated into different areas by the separator plates 26 on the conveyor belt. The separated vegetables are then introduced into an external packaging mechanism for subsequent packaging processing.
[0040] Of all the solutions mentioned above, those involving the connection between two components can be selected according to the actual situation, such as welding, bolt and nut connection, bolt or screw connection, or other known connection methods, which will not be elaborated here. For all the fixed connections mentioned above, welding is preferred. Although embodiments of this utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of this utility model. The scope of this utility model is defined by the appended claims and their equivalents.
Claims
1. A vegetable distribution, sorting, and packaging device, comprising a conveyor belt assembly (1), a vegetable sorting mechanism, a sorting hole adjustment mechanism, and an adjustment auxiliary mechanism, characterized in that: The vegetable sorting mechanism includes a top frame (2), a hydraulic cylinder (3), a transverse plate (4), a shifting plate (5), a diversion hole (6), and a sealing plate (7). The top frame (2) is installed at the top end of the conveyor belt assembly (1), and the transverse plate (4) is installed transversely on the side of the top frame (2). The two ends of the hydraulic cylinder (3) are rotatably connected to the shifting plate (5) and the top frame (2). The diversion hole (6) is installed on the shifting plate (5), and the sealing plate (7) is longitudinally slidable on the shifting plate (5). The sealing plate (7) can adjust the size of the diversion hole (6). The adjustment mechanism includes an adjustment plate (8), a fixing tube (9), a snap-fit rod (10), an inner push frame (11), a spiral blade (12), a horizontal push plate (13), and a pressing groove (14). The adjustment plate (8) is installed on the top end of the sealing plate (7), the snap-fit rod (10) is installed on the adjustment plate (8), multiple sets of fixing tubes (9) are installed in conjunction on the back end face of the actuating plate (5), the pressing groove (14) is set on the side wall of the snap-fit rod (10), the inner push frame (11) is installed on one end of the spiral blade (12), and the horizontal push frame is installed on the inner side of the spiral blade (12).
2. The vegetable distribution, sorting, and packaging device according to claim 1, characterized in that: The adjustment auxiliary mechanism includes a rotating ring (15), a rotating tube (16), a rotating block (17), a centripetal block (18), and a tightening spring (19). The rotating ring (15) is rotatably mounted on the outer wall of the fixed tube (9). The inner pusher (11) is fitted and mounted on the top end of the rotating ring (15). The inner pusher (11) is mounted on the inner wall of the rotating tube (16). Multiple sets of rotating blocks (17) are mounted on the bottom end of the rotating ring (15). Multiple sets of centripetal blocks (18) are slidably mounted on the outer wall of the fixed tube (9). The tightening spring (19) is mounted between the centripetal blocks (18). The rotating block (17) rotates in the direction inside the centripetal block (18). The outer wall of the rotating block (17) and the inner wall of the centripetal block (18) are fitted and rotated to press against each other.
3. The vegetable distribution, sorting, and packaging device according to claim 1, characterized in that: A longitudinal plate (20) is installed on the bottom side of the conveyor belt assembly (1), and a drive motor (21) is installed on the longitudinal plate (20), and the drive motor (21) is connected to the conveyor belt assembly (1).
4. The vegetable distribution, sorting, and packaging device according to claim 1, characterized in that: The toggle plate (5) is provided with an adjustment hole (22), and there are multiple sets of adjustment holes (22), and the adjustment hole (22) is located at the top end of the diversion hole (6).
5. A vegetable distribution, sorting, and packaging device according to claim 4, characterized in that: The bottom end of the fixed tube (9) is provided with a connecting plate (23), and the connecting plate (23) is detachably and fixedly installed on the adjustment hole (22) of the dispensing plate.
6. A vegetable distribution, sorting, and packaging device according to claim 5, characterized in that: One end of the snap-fit rod (10) on the adjustment plate (8) can extend through the adjustment hole (22) and engage with the snap-fit tube for quick snap-fit setting.
7. A vegetable distribution, sorting, and packaging device according to claim 5, characterized in that: The top end of the connecting plate (23) is equipped with a top rail (24), and the centripetal block (18) is set to reciprocate and slide centripetally on the top rail (24).
8. A vegetable distribution, sorting, and packaging device according to claim 1, characterized in that: The bottom of the conveyor belt assembly (1) is provided with support legs (25) and a partition plate (26) is provided on the conveyor belt assembly (1). The partition plate (26) separates the diverted vegetables at both ends and introduces them into the external packaging mechanism.