A clean processing and packaging all-in-one machine for garden cress

By integrating automated root cutting, closed-loop cleaning, dehydration, and packaging mechanisms, the problems of low root cutting accuracy, uneven cleaning, water waste, and low automation in garland chrysanthemum processing equipment have been solved, achieving efficient and stable packaging of garland chrysanthemum.

CN122144274APending Publication Date: 2026-06-05XI'AN PETROLEUM UNIVERSITY

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
XI'AN PETROLEUM UNIVERSITY
Filing Date
2026-04-29
Publication Date
2026-06-05

Smart Images

  • Figure CN122144274A_ABST
    Figure CN122144274A_ABST
Patent Text Reader

Abstract

The application discloses a kind of garland chrysanthemum clean processing packaging integrated machine, belong to packaging processing equipment field, including placing rack, and the top of placing rack one end is equipped with root cutting mechanism, and root cutting mechanism includes first conveying device, and the top center of placing rack is equipped with cleaning mechanism;First conveying device and first baffle cooperate to realize the stable location and push in the continuous progress of garland chrysanthemum, second guide plate applies moderate pressing fastening to flat garland chrysanthemum, root cutting blade executes accurate positioning root cutting, first guide plate guides and separates cut root stem to waste area, locking block realizes the stable installation and convenient disassembly of root cutting blade, constitutes automatic root cutting mechanism;Collection pipe receives and evenly distributes cleaning water to multiple groups of spray heads, spray head directly sprays and flushes the mud and sand impurities on the surface of garland chrysanthemum with certain pressure, sieve plate intercepts mud and sand and allows clean water to pass through, and circulating pump pumps filtered cleaning water back to collection pipe through detachable circulating pipe and conveying pipe, to realize the recycling of water resources.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This invention relates to the field of packaging equipment technology, and in particular to an integrated machine for cleaning and packaging chrysanthemum. Background Technology

[0002] As a representative plant of the Asteraceae family, garland chrysanthemum is an annual or biennial herbaceous crop. Its stems are typically upright and smooth, with alternate leaves that are mostly oblong or nearly obovate in shape. The leaf margins are irregularly pinnately divided, with each lobe having distinct small serrations. The upper surface of the leaves is bright green, while the lower surface is a lighter, pale green. The petioles are relatively slender, allowing the leaves to fully unfold. The inflorescence is a typical capitulum, usually growing singly or in clusters of a few at the top of the stem. The involucre is composed of multiple layers of bracts; the outer bracts are mostly green and relatively firm, while the inner bracts gradually become translucent and membranous. The ligulate petals are generally bright yellow or clean white, while the central tubular florets are mostly yellow. Specialized equipment for post-harvest processing of garland chrysanthemum is designed to achieve integrated processing from washing and sorting to packaging, specifically improving packaging efficiency and quality.

[0003] The following problems exist: In existing technologies, the root-cutting process for garland chrysanthemum largely relies on manual operation, resulting in low cutting accuracy, unstable efficiency, and easy damage to the plants. Furthermore, the cut roots and stems are mixed with the cleaned garland chrysanthemum, increasing the difficulty of subsequent sorting. Uneven water flow during the washing process makes it difficult to thoroughly remove mud and impurities attached to the leaves and stems, and the washing water is discharged in a single batch, resulting in significant water waste. After washing, the surface of the garland chrysanthemum retains a lot of moisture, which can easily lead to microbial growth and decreased packaging quality if directly fed into subsequent processing. The draining and drying processes also require additional manpower and time. The weighing and packaging of garland chrysanthemum are separated, requiring manual handling and separate weighing during the weighing process. During packaging, the material is prone to loosening and shifting, making it difficult to guarantee the tightness and consistency of the wrapping. Overall, the level of automation is low. Summary of the Invention

[0004] The purpose of this section is to outline some aspects of embodiments of the present invention and to briefly describe some preferred embodiments. Simplifications or omissions may be made in this section, as well as in the abstract and title of this application, to avoid obscuring the purpose of these documents; however, such simplifications or omissions should not be construed as limiting the scope of the invention.

[0005] To solve the above problems, the present invention adopts the following technical solution.

[0006] A purifying and packaging machine for garland chrysanthemum includes a display rack. A root-cutting mechanism, comprising a first conveying device, is installed at one end of the top of the display rack. A cleaning mechanism is installed at the center of the top of the display rack, and a dewatering mechanism, comprising a second conveying device, is installed at the other end of the top of the display rack. A weighing mechanism is installed on one outer wall of the display rack, and a packaging mechanism, comprising a third conveying device, is installed diagonally below the weighing mechanism. A first drive motor is installed directly below the first conveying device, and a second drive motor is also installed directly below the first conveying device. Both the first and second drive motors are mounted on the same horizontal plane. A first transmission belt is rotatably connected to the movable end of the first drive motor, and the end of the first transmission belt is installed in the third conveying device. A second transmission belt is rotatably connected to the movable end of the second drive motor, and the end of the second transmission belt is installed in the first conveying device. A third transmission belt is installed inside the first conveying device, and the end of the third transmission belt is installed in the second conveying device. Multiple sets of threaded holes are opened at the bottom of the display rack, and lifting threaded columns are installed on the inner walls of each threaded hole. Anti-slip seats are fixedly connected to the bottom of each lifting threaded column.

[0007] As a further description of the above technical solution: The first conveying device is equipped with multiple sets of first partitions, a first guide plate is installed in front of the first conveying device, and a first support is installed above the first conveying device.

[0008] As a further description of the above technical solution: The bottom of the first bracket is equipped with a second guide plate, and a sliding groove is provided on one side of the outer wall of the first bracket. A locking block is installed on the inner wall of the sliding groove, and a root cutting blade is movably connected to one end of the outer wall of the locking block.

[0009] As a further description of the above technical solution: The cleaning mechanism includes a cleaning box, which is installed at the top center of the display rack. An n-shaped bracket is fixedly connected to both ends of the top of the cleaning box. A through groove is opened at both ends of one outer wall of the n-shaped bracket, and a locking ring is installed on the inner wall of the groove. A collection pipe is sleeved on the inner wall of the locking ring. Multiple sets of round holes are opened on the outer wall of the collection pipe, and a nozzle is fixedly connected to the inner wall of each round hole.

[0010] As a further description of the above technical solution: A sieve plate is installed at the bottom of the inner wall of the cleaning tank, a conveying pipe is sleeved at one end of the inner wall of the collecting pipe, and a circulating pump is installed at the end of the conveying pipe.

[0011] As a further description of the above technical solution: The dewatering mechanism also includes an inclined frame, the second conveying device is installed in the inclined frame, the second conveying device is equipped with multiple sets of second partitions, the top of the inclined surface of the inclined frame is equipped with a second support, the top of the second support is equipped with a fan, the air outlet of the fan is equipped with an air supply pipe, and the end of the air supply pipe is equipped with an air knife.

[0012] As a further description of the above technical solution: The weighing mechanism includes a U-shaped bracket, which is fixed to the top of one side of the outer wall of the display rack. A first electric push rod is installed below the U-shaped bracket. A pressure sensor is fixedly connected to the movable end of the first electric push rod. A weighing pan is installed on top of the pressure sensor. A buffer guide plate is installed diagonally below the weighing pan. The third conveying device is installed below the buffer guide plate.

[0013] As a further description of the above technical solution: Both ends of the outer wall of the third conveying device are equipped with H-shaped brackets, and a support frame is installed between the two sets of H-shaped brackets. A film feeding device is installed at the top end of the support frame.

[0014] As a further description of the above technical solution: A second electric push rod is installed in the supporting frame, and a pressure plate is rotatably connected to the movable end of the second electric push rod. A film pulling wheel is installed on one outer wall of the pressure plate, and a film winding device is installed in the third conveying device.

[0015] Compared to existing technologies, the advantages of this invention are as follows: the first conveying device, in conjunction with the first partition, achieves stable positioning and propulsion of the garland chrysanthemum during continuous movement; the second guide plate applies moderate pressure to the flat garland chrysanthemum, and the root-cutting blade performs precise positioning and root cutting; the first guide plate guides the cut roots and stems to the waste area; the locking block ensures the secure installation and convenient disassembly of the root-cutting blade, thus forming an automated root-cutting mechanism; the collecting pipe receives and evenly distributes the cleaning water to multiple sets of nozzles, which directly spray and wash away mud and impurities on the surface of the garland chrysanthemum at a certain pressure; the screening plate intercepts mud and sand while allowing clean water to pass through. The circulating pump pumps the filtered cleaning water back to the collection pipe through a detachable circulation pipe and a delivery pipe, achieving closed-loop water resource recycling. The locking ring can slide up and down along the N-shaped bracket to adjust the nozzle height to adapt to the cleaning requirements of different batches. The second conveying device is installed at an angle with its lower end extending into the cleaning tank, scooping the washed garland chrysanthemum from the water and conveying it outward. The second baffle limits and assists in pushing the garland chrysanthemum. The conveyor belt has through-holes that quickly drain excess water and sediment. The fan, air supply pipe, and air knife structure moderately dry the garland chrysanthemum during conveying to remove surface residue. The water is retained; the weighing pan carries the dehydrated garland chrysanthemum. After the weighing pan stabilizes, the pressure sensor initiates precise weighing. When the weight reaches the preset packaging standard, the first electric push rod lifts one side of the weighing pan, tilting it. The garland chrysanthemum slides down the pan and is smoothly guided into the packaging area by the buffer guide plate, achieving automatic weighing and material transfer linkage. The pressure plate, driven by the second electric push rod, presses the garland chrysanthemum downwards. With the pressure plate fixed, the film winding device evenly wraps the packaging film around the outer surface of the garland chrysanthemum to form a complete package. The third conveyor smoothly transports the packaged garland chrysanthemum to the outlet position, driven by the second electric push rod. The pressure plate retracts to release the fixation, achieving integrated positioning, fixing, and wrapping packaging; the first drive motor drives the third conveyor via the first transmission belt, the second drive motor drives the first conveyor via the second transmission belt, and the third transmission belt connects the first and second conveyors in series, reducing the number of independent drive units and improving transmission coordination and equipment compactness; the bottom of the placement rack is equipped with lifting threaded columns, which can adjust the support height according to actual needs, so that the top bearing plane remains horizontal and stable under different ground conditions, and the anti-slip seat further enhances the overall placement stability of the machine. Attached Figure Description

[0016] Figure 1 This is one of the structural schematic diagrams of the present invention; Figure 2 This is the second structural schematic diagram of the present invention; Figure 3 This is a front view of the present invention; Figure 4 This is a top view of the present invention; Figure 5 This is a schematic diagram of the root-cutting mechanism in this invention; Figure 6This is a schematic diagram of the cleaning mechanism in this invention; Figure 7 This is a schematic diagram of the water removal mechanism in this invention; Figure 8 This is a schematic diagram of the weighing mechanism in this invention; Figure 9 This is a front view of the packaging mechanism in this invention; Figure 10 This is a schematic diagram of the packaging mechanism in this invention.

[0017] The correspondence between the labels and component names in the attached figures is as follows: 1. Placement rack; 2. Root cutting mechanism; 21. First conveying device; 22. First partition; 23. First guide plate; 24. First support; 25. Second guide plate; 26. Locking block; 27. Root cutting blade; 3. Cleaning mechanism; 31. Cleaning box; 32. N-type support; 33. Locking ring; 34. Collection pipe; 35. Nozzle; 36. Screening plate; 37. Conveying pipe; 38. Circulating pump; 4. Water removal mechanism; 41. Inclined frame; 42. Second conveying device; 43. Second partition; 44. Second support; 45. Fan; 46. Air supply pipe; 47. 5. Air knife; 6. Weighing mechanism; 7. U-shaped bracket; 8. First electric push rod; 9. Pressure sensor; 10. Weighing pan; 11. Buffer guide plate; 12. Packaging mechanism; 13. Third conveying device; 14. H-shaped bracket; 15. Support frame; 26. Film feeding device; 17. Second electric push rod; 28. Pressure plate; 19. Film pulling roller; 20. Film winding device; 10. First drive motor; 11. Second drive motor; 12. Third drive belt; 13. Lifting threaded column; 14. Anti-slip seat. Detailed Implementation

[0018] To make the above-mentioned objects, features and advantages of the present invention more apparent and understandable, the specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

[0019] Many specific details are set forth in the following description in order to provide a full understanding of the invention. However, the invention may also be practiced in other ways different from those described herein, and those skilled in the art can make similar extensions without departing from the spirit of the invention. Therefore, the invention is not limited to the specific embodiments disclosed below.

[0020] Secondly, the term "one embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places throughout this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that mutually excludes other embodiments. The present invention provides the following embodiments.

[0021] Reference Figure 1-10 This invention provides an embodiment of a garland chrysanthemum purification and packaging integrated machine, comprising a placement rack 1, a first conveying device 21 installed at the top end of the placement rack 1, multiple sets of first partitions 22 installed in the first conveying device 21, a first guide plate 23 installed in front of the first conveying device 21, a first support 24 installed above the first conveying device 21, a second guide plate 25 installed at the bottom of the first support 24, a groove opened on one side outer wall of the first support 24, and a locking block 26 installed on the inner wall of the groove. A root-cutting blade 27 is movably connected to one end of the outer wall of the locking block 26. By setting the first conveying device 21, the first partitions 22, the first guide plate 23, the first support 24, the second guide plate 25, the locking block 26, and the root-cutting blade 27, a root-cutting mechanism 2 can be formed. By setting the first partitions 22, it can effectively push and physically limit the garland chrysanthemums continuously moving on the first conveying device 21, ensuring that each garland chrysanthemum maintains a stable walking posture and relative position during processing. Meanwhile, by setting the second guide plate 25, the garland chrysanthemum laid flat on the first conveying device 21 can be subjected to appropriate pressing and fastening, thereby achieving reliable clamping and fixing in subsequent processing steps to prevent displacement or shaking. The root cutting blade 27 is used to perform precise cutting on the positioned garland chrysanthemum roots to complete the automated root removal process. In conjunction with the root cutting operation, the first guide plate 23 can guide and separate the cut garland chrysanthemum roots in a timely manner and smoothly send them to the waste area for disposal, thereby maintaining the cleanliness of the working surface and continuous operation efficiency. In addition, by setting the locking block 26, the root cutting blade 27 can be firmly installed and locked in the preset position of the first bracket 24 to ensure its structural stability and operational safety during high-speed operation. This structure also takes into account the convenience of blade maintenance and replacement, so that operators can quickly and safely complete the disassembly and replacement of the root cutting blade 27, thereby improving the maintainability of the overall equipment and the long-term economic efficiency.

[0022] A cleaning tank 31 is installed at the top center of the display rack 1. N-shaped brackets 32 are fixedly connected to both ends of the top of the cleaning tank 31. Each end of the outer wall of one side of the N-shaped bracket 32 ​​has a through-groove groove, and a locking ring 33 is installed on the inner wall of the groove. A collecting pipe 34 is sleeved on the inner wall of the locking ring 33. Multiple sets of round holes are opened on the outer wall of the collecting pipe 34, and nozzles 35 are fixedly connected to the inner walls of each round hole. A sieve plate 36 is installed at the bottom of the inner wall of the cleaning tank 31. A conveying pipe 37 is sleeved on one end of the inner wall of the collecting pipe 34, and a circulating pump 38 is installed at the end of the conveying pipe 37. The cleaning mechanism 3 can be assembled by setting up a cleaning tank 31, an n-shaped bracket 32, a locking ring 33, a collecting pipe 34, nozzles 35, a sieve plate 36, a conveying pipe 37, and a circulating pump 38. After the root cutting operation is completed, the garland chrysanthemum will fall naturally from the end of the first conveying device 21 and enter the cleaning tank 31 below. The collecting pipe 34 is mainly used to receive the cleaning water and distribute it evenly to each cleaning point, thereby ensuring that the water flow covers no dead corners. Connected to the collecting pipe 34 are multiple nozzles 35, which can spray the cleaning water at a certain pressure. The water is sprayed directly onto the surface of the garland chrysanthemum, effectively washing away and removing mud and sand adhering to the leaves and stems. A sieve plate 36 is installed in the lower middle part of the washing tank 31. Its function is to intercept and screen the mud and sand washed down by the water flow, preventing it from being mixed back into the washing cycle. Simultaneously, the clean washing water, after sedimentation and filtration, can smoothly pass through the pores of the sieve plate 36. It is worth noting that there is an opening at the bottom of the washing tank 31, inside which a detachable circulation pipe is installed. The upper end of this pipe can connect to the water inlet at the bottom of the circulation pump 38. The system includes a circulating pump 38, a detachable circulating pipe, and a delivery pipe 37 connected to the upstream end. The treated cleaning water can be pumped back into the collection pipe 34, thereby achieving a closed-loop circulation and reuse of water resources and significantly saving production water. In addition, the collection pipe 34 can be fixed to the n-shaped bracket 32 ​​by the locking ring 33. The locking ring 33 not only provides a reliable fixing function, but can also slide up and down along the n-shaped bracket 32, thereby flexibly adjusting the installation height of the collection pipe 34 and its nozzles 35 to adapt to the process requirements of cleaning different batches or specifications of garland chrysanthemum.

[0023] A slanted frame 41 is installed at the other end of the top of the display rack 1. A second conveying device 42 is installed in the slanted frame 41. Multiple sets of second partitions 43 are installed in the second conveying device 42. A second support 44 is installed at the top of the slanted surface of the slanted frame 41. A fan 45 is installed at the top of the second support 44. An air supply pipe 46 is installed at the air outlet of the fan 45. An air knife 47 is installed at the end of the air supply pipe 46. By setting up the slanted frame 41, the second conveying device 42, the second partitions 43, the second support 44, the fan 45, the air supply pipe 46, and the air knife 47, a water removal mechanism 4 can be formed. The second conveying device 42 is installed at an angle, with its lower end extending downwards into the interior of the washing tank 31, thereby effectively scooping the cleaned garland chrysanthemum from the water. The garland chrysanthemum is lifted and transported outwards. During this process, a second baffle 43 is installed, which limits and assists in pushing the garland chrysanthemum, helping to guide it to move smoothly on the conveyor belt. It is worth noting that the conveyor belt of the second conveying device 42 is equipped with multiple sets of vertically penetrating perforations. These perforations allow excess water and a small amount of mud and sand adhering to the garland chrysanthemum during the harvesting process to be quickly discharged, thereby improving the cleanliness and efficiency of subsequent material processing. At the same time, by installing a fan 45, an air duct 46, and an air knife 47 on the conveying path, this structure can perform appropriate drying treatment on the garland chrysanthemum located on the second conveying device 42, effectively removing residual moisture from the surface so that the garland chrysanthemum remains relatively dry when entering the next stage.

[0024] A U-shaped bracket 51 is fixedly connected to one outer wall of the display rack 1. A first electric push rod 52 is installed below the U-shaped bracket 51. A pressure sensor 53 is fixedly connected to the movable end of the first electric push rod 52. A weighing pan 54 is installed on top of the pressure sensor 53. A buffer guide plate 55 is installed diagonally below the weighing pan 54. By setting up the U-shaped bracket 51, the first electric push rod 52, the pressure sensor 53, the weighing pan 54, and the buffer guide plate 55, a weighing mechanism 5 can be formed. The dried chrysanthemum greens are smoothly transferred to the bearing surface of the weighing pan 54 by the end of the second conveying device 42. The weighing pan 54 is completely stationary and reaches the bearing surface of the weighing pan 54. Once the system reaches a stable state, the pressure sensor 53 will trigger a precise weighing program to measure the weight of the garland chrysanthemum piled in the pan. Once the detected weight meets the preset packaging standard threshold, the first electric push rod 52 will automatically respond to the control signal and quickly extend upwards, smoothly lifting one side of the bottom of the weighing pan 54 to form a certain tilt angle. Under the action of gravity, the garland chrysanthemum in the pan will naturally slide down the tilted pan surface and accurately enter the buffer guide plate 55 area arranged below. With the guidance and buffering function of the buffer guide plate 55, the garland chrysanthemum is smoothly transported to the designated packaging operation area for subsequent packaging operations.

[0025] A third conveying device 61 is installed below the buffer guide plate 55. H-shaped brackets 62 are installed at both ends of the outer wall of the third conveying device 61. A support frame 63 is installed between the two sets of H-shaped brackets 62. A film feeding device 64 is installed at the top end of the support frame 63. A second electric push rod 65 is installed in the support frame 63. A pressure plate 66 is rotatably connected to the movable end of the second electric push rod 65. A film pulling wheel 67 is installed on one side of the outer wall of the pressure plate 66. A film winding device 68 is installed in the third conveying device 61. By setting up the third conveying device 61, H-shaped brackets 62, support frame 63, film feeding device 64, second electric push rod 65, pressure plate 66, film pulling wheel 67, and film winding device 68, a packaging mechanism 6 can be formed. The film winding device 68 is installed directly below the pressure plate 66, and its positional relationship ensures the coordination of subsequent packaging actions. The movable end of the second electric push rod 65 faces downwards. When the second electric push rod 65 receives the start command and begins to work, it can drive the pressure plate 66 to move downwards. The pressure plate 66 can press and fix the garland chrysanthemum that has been delivered to the position to prevent it from shifting or loosening during the subsequent winding process. After the pressure plate 66 has reliably fixed the garland chrysanthemum, the film winding device 68 is triggered to start, thereby evenly and tightly winding the packaging film around the entire outer surface of the garland chrysanthemum to form a complete packaging layer. After the winding action is completed, the packaging process of the garland chrysanthemum is completed. Immediately afterwards, the second electric push rod 65 moves again, this time driving the pressure plate 66 to retract upwards, so that it completely detaches from the upper surface of the garland chrysanthemum packaging body and releases the fixed state. Once the pressure plate 66 is reset, the third conveying device 61 restarts and smoothly conveys the packaged garland chrysanthemum product to the set exit position, thereby completing all operations of this station.

[0026] A first drive motor 7 is installed directly below the first conveyor device 21, and a second drive motor 8 is also installed directly below the first conveyor device 21. The movable end of the first drive motor 7 is rotatably connected to a first transmission belt 9, and the end of the first transmission belt 9 is installed in a third conveyor device 61. By setting up the first drive motor 7 and the first transmission belt 9, the third conveyor device 61 can be driven. The movable end of the second drive motor 8 is rotatably connected to a second transmission belt 10, and the end of the second transmission belt 10 is installed in the first conveyor device 21. By setting up the second drive motor 8 and the second transmission belt 10, the first conveyor device 21 can be driven. A third transmission belt 11 is installed inside the first conveyor device 21, and the end of the third transmission belt 11 is installed in a second conveyor device 42. By setting up the third transmission belt 11, the first conveyor device 42 can be driven. The first conveying device 21 and the second conveying device 42 are connected in series. When the first conveying device 21 moves, the second conveying device 42 will also move together. The bottom of the placement frame 1 has multiple sets of threaded holes, and the inner wall of each threaded hole is equipped with a lifting threaded column 12. The bottom of each lifting threaded column 12 is fixedly connected with an anti-slip seat 13. By setting the lifting threaded column 12, the overall support height of the placement frame 1 can be effectively adjusted flexibly according to actual needs, so that the placement frame 1 can easily reach the ideal height position in different application scenarios or under uneven ground conditions. At the same time, it ensures that the top bearing plane of the placement frame 1 achieves a more uniform and stable horizontal state, significantly improving the balance of its top surface and the stability of the overall structure, so as to adapt to diverse usage requirements and optimize bearing performance. By setting the anti-slip seat 13, the entire machine can be made more stable.

[0027] The above description, in conjunction with specific embodiments, provides a further detailed explanation of the present invention. It should not be construed that the specific implementation of the present invention is limited to these descriptions. For those skilled in the art, several simple deductions or substitutions can be made without departing from the concept of the present invention, and all such deductions or substitutions should be considered to fall within the scope of protection defined by the claims submitted herein.

Claims

1. A clean processing and packaging integrated machine for garden nasturtium, comprising a placing rack (1), characterized in that: The top of the rack (1) is equipped with a root-cutting mechanism (2), which includes a first conveying device (21). A cleaning mechanism (3) is installed at the top center of the rack (1). A water-removing mechanism (4) is installed at the other end of the rack (1), which includes a second conveying device (42). A weighing mechanism (5) is installed on one outer wall of the rack (1). A packaging mechanism (6) is installed diagonally below the weighing mechanism (5), which includes a third conveying device (61). A first drive motor (7) is installed directly below the first conveying device (21). A second drive motor (8) is also installed directly below the first conveying device (21). The first drive motor (7) and the second drive motor (8) are connected. 8) All are installed on the same horizontal plane. The movable end of the first drive motor (7) is rotatably connected to the first transmission belt (9). The end of the first transmission belt (9) is installed in the third conveying device (61). The movable end of the second drive motor (8) is rotatably connected to the second transmission belt (10). The end of the second transmission belt (10) is installed in the first conveying device (21). The third transmission belt (11) is installed inside the first conveying device (21). The end of the third transmission belt (11) is installed in the second conveying device (42). The bottom of the placement frame (1) has multiple sets of threaded holes, and the inner wall of each threaded hole is equipped with a lifting threaded column (12). The bottom of each lifting threaded column (12) is fixedly connected to an anti-slip seat (13).

2. The integrated machine for cleaning and packaging garland chrysanthemum according to claim 1, characterized in that: The first conveying device (21) is equipped with multiple sets of first partitions (22), a first guide plate (23) is installed in front of the first conveying device (21), and a first bracket (24) is installed above the first conveying device (21).

3. The integrated machine for cleaning and packaging garland chrysanthemum according to claim 2, characterized in that: The bottom of the first bracket (24) is equipped with a second guide plate (25). A sliding groove is provided on one side of the outer wall of the first bracket (24), and a locking block (26) is installed on the inner wall of the sliding groove. A root cutting blade (27) is movably connected to one end of the outer wall of the locking block (26).

4. The integrated machine for cleaning and packaging garland chrysanthemum according to claim 1, characterized in that: The cleaning mechanism (3) includes a cleaning box (31), which is installed at the top center of the placement rack (1). The top two ends of the cleaning box (31) are fixedly connected to an n-shaped bracket (32). Both ends of the outer wall of one side of the n-shaped bracket (32) are provided with a sliding groove that runs vertically through the groove. A locking ring (33) is installed on the inner wall of the sliding groove. A collecting pipe (34) is sleeved on the inner wall of the locking ring (33). Multiple sets of round holes are opened on the outer wall of the collecting pipe (34), and nozzles (35) are fixedly connected to the inner walls of the round holes.

5. The integrated machine for cleaning and packaging garland chrysanthemum according to claim 4, characterized in that: A sieve plate (36) is installed at the bottom of the inner wall of the cleaning tank (31), and a conveying pipe (37) is sleeved at one end of the inner wall of the collecting pipe (34). A circulating pump (38) is installed at the end of the conveying pipe (37).

6. The integrated machine for cleaning and packaging garland chrysanthemum according to claim 1, characterized in that: The dewatering mechanism (4) also includes a slant frame (41), the second conveying device (42) is installed in the slant frame (41), the second conveying device (42) is installed with multiple sets of second partitions (43), the top of the slant surface of the slant frame (41) is equipped with a second support (44), the top of the second support (44) is equipped with a fan (45), the air outlet of the fan (45) is equipped with an air supply pipe (46), and the end of the air supply pipe (46) is equipped with an air knife (47).

7. The integrated machine for cleaning and packaging garland chrysanthemum according to claim 1, characterized in that: The weighing mechanism (5) includes a U-shaped bracket (51), which is fixed to the top of the outer wall of one side of the placement frame (1). A first electric push rod (52) is installed below the U-shaped bracket (51). A pressure sensor (53) is fixedly connected to the movable end of the first electric push rod (52). A weighing pan (54) is installed on the top of the pressure sensor (53). A buffer guide plate (55) is installed diagonally below the weighing pan (54). The third conveying device (61) is installed below the buffer guide plate (55).

8. The integrated machine for cleaning and packaging garland chrysanthemum according to claim 1, characterized in that: The third conveying device (61) has H-shaped brackets (62) installed at both ends of its outer wall. A support frame (63) is installed between the two sets of H-shaped brackets (62). A film feeding device (64) is installed at the top end of the support frame (63).

9. The integrated machine for cleaning and packaging garland chrysanthemum according to claim 8, characterized in that: A second electric push rod (65) is installed in the supporting frame (63). The movable end of the second electric push rod (65) is rotatably connected to a pressure plate (66). A film pulling wheel (67) is installed on one side of the outer wall of the pressure plate (66). A film winding device (68) is installed in the third conveying device (61).