A pickled vegetable feed structure and cutting machine
By introducing a storage bin and belt conveyor into the sauerkraut cutting machine, the problem of untimely manual feeding was solved, and the continuity and efficiency of the sauerkraut crushing process were achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN MEIWEIYUAN FOOD CO LTD
- Filing Date
- 2025-06-30
- Publication Date
- 2026-06-26
Smart Images

Figure CN224405289U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of food processing technology, specifically to a sauerkraut feeding structure and a cutting machine. Background Technology
[0002] In the sauerkraut processing industry, sauerkraut cutting machines are key equipment for achieving efficient sauerkraut crushing. With the development of the industry, higher demands are being placed on the automation level and working efficiency of sauerkraut cutting machines.
[0003] Traditional sauerkraut cutting machines mostly rely on manual feeding, which has many drawbacks. Firstly, the speed of manual operation is limited and cannot match the high-speed cutting efficiency of the machine, making it impossible to maintain a consistently efficient sauerkraut crushing process. Secondly, manual feeding is difficult to guarantee in a timely and stable manner, and is prone to delays due to factors such as operator fatigue or negligence, leading to interruptions in the sauerkraut crushing process and severely impacting its efficiency.
[0004] Therefore, there is an urgent need for a sauerkraut feeding structure and cutting machine that can temporarily store materials and efficiently feed them to improve the current situation. Utility Model Content
[0005] Based on this, and in response to the above problems, this utility model proposes a sauerkraut feeding structure and a cutting machine, which solves the problems of low efficiency and untimely feeding during the use of current sauerkraut cutting machines, which leads to interruptions in the sauerkraut crushing process and reduced crushing efficiency.
[0006] The technical solution of this utility model is:
[0007] A sauerkraut feeding structure includes a fixed frame, a belt conveyor assembly, a storage bin, and a discharge guide structure. The belt conveyor assembly is inclinedly mounted on the fixed frame. The storage bin is mounted on the fixed frame and located above the lower side of the belt conveyor assembly. The discharge guide structure is located on the higher side of the belt conveyor assembly, with one end cooperating with the belt conveyor assembly. The storage bin has a storage cavity that extends through the top of the storage bin. The bottom of the storage bin has a conical discharge port communicating with the storage cavity. One end of the conical discharge port is fixedly connected to the storage bin, and the other end is located above the lower side of the belt conveyor assembly. An observation window with transparent glass is located on one side of the storage bin and is fixedly connected to the storage bin.
[0008] Preferably, the belt conveyor assembly includes a belt conveyor structure and a drive structure. The belt conveyor structure is inclinedly mounted on a fixed frame and fixedly connected to the fixed frame. The drive structure is mounted on one side of the belt conveyor structure and is located on the lower side of the belt conveyor structure, and is used to drive the belt conveyor structure.
[0009] Preferably, the belt conveyor structure includes a reinforcing frame, a conveyor belt, a pair of fixed plates, a pair of load-bearing plates, and a pair of drive shafts. The pair of fixed plates are respectively disposed on both sides of the reinforcing frame and are fixedly connected to the reinforcing frame by bolts. The pair of load-bearing plates are fitted on the top of the reinforcing frame and are fixedly connected to the reinforcing frame by bolts. The pair of drive shafts are disposed between the pair of fixed plates and are located on the other two sides of the reinforcing frame. The two ends of the drive shafts pass through the pair of fixed plates and are rotatably connected to the pair of fixed plates. The drive shafts are clearance-fitted with the reinforcing frame. The conveyor belt is sleeved on the pair of drive shafts and meshes with the pair of drive shafts for transmission. The conveyor belt is clearance-fitted with the bottom of the reinforcing frame and slides with the pair of load-bearing plates.
[0010] Preferably, the conveyor belt is equipped with several baffles, and the baffles form a storage space.
[0011] Preferably, the drive structure includes a first drive motor, a main gear, and a secondary gear. A mounting plate is provided on one side of a fixed plate, and the mounting plate is fixedly connected to the fixed plate. The first drive motor is mounted on the mounting plate and fixedly connected to the mounting plate by bolts. The output shaft of the first drive motor passes through the mounting plate and is rotatably connected to the mounting plate. The main gear is fixedly mounted at the end of the output shaft of the first drive motor, and the secondary gear is fixedly mounted at the end of one end of the drive shaft. The main gear and the secondary gear are driven by a transmission chain.
[0012] Preferably, the discharge guiding structure includes a guide box and a pair of connecting plates. The guide box has an inlet on one side that is configured to cooperate with the belt conveyor structure. The guide box has a guide cavity communicating with the inlet. The bottom of the guide box has an outlet communicating with the guide cavity. One end of the pair of connecting plates is fixedly connected to both sides of the guide box by bolts, and the other end is fixedly connected to a pair of fixing plates by bolts.
[0013] A sauerkraut cutting machine includes the sauerkraut feeding structure described above, and also includes a mounting frame, a cutting component and a solid-liquid separation component. The mounting frame is disposed on one side of a fixed frame, the cutting component is disposed on the top of the mounting frame and located below the discharge guide structure, and the solid-liquid separation component is fixedly disposed on the mounting frame and located below the cutting component.
[0014] Preferably, the cutting assembly includes a second drive motor, a cutting housing, and a pair of cutting shafts. The cutting housing has a cutting cavity that penetrates through it. The cutting cavity is fitted with one end of the discharge guide structure. The pair of cutting shafts are disposed within the cutting cavity. The two ends of the pair of cutting shafts penetrate through both sides of the cutting housing and are rotatably connected to it. Each pair of cutting shafts has several cutting blades, which are staggered. Each end of one pair of cutting shafts has a meshing gear, which meshes with each other. The second drive motor is fixedly mounted on a mounting bracket, and its output shaft is fixedly connected to one end of one of the cutting shafts.
[0015] Preferably, the mounting frame is provided with a mounting base for mounting the second drive motor, one side of the mounting base is fixedly connected to the mounting frame, and the second drive motor is fixedly mounted on the mounting base.
[0016] Preferably, the solid-liquid separation assembly includes a solid collection tank and a liquid collection tank. The solid collection tank is fixedly mounted on the mounting frame, with its top fixedly connected to the bottom of the cutting chamber. The solid collection tank contains a solid collection cavity that extends through the solid collection tank and is connected to the cutting chamber at its top. An inclined separation plate is located at the bottom of the solid collection cavity and is fixedly connected to the solid collection tank. The separation plate has several liquid inlets. A solid outlet communicating with the solid collection cavity is located at the lower end of one side of the solid collection tank, and the lower side of the separation plate is aligned with the solid outlet. The liquid collection tank is fixedly mounted on the mounting frame, with its top fixedly connected to the bottom of the solid collection tank. The liquid collection tank contains a liquid collection cavity that extends through the top of the liquid collection tank and is connected to the solid collection cavity. The liquid collection cavity is aligned with the separation plate, and a liquid outlet communicating with the liquid collection cavity is located on one side of the bottom of the liquid collection tank.
[0017] Compared with the prior art, the present invention has the following beneficial effects:
[0018] This invention features a storage bin with a transparent glass observation window for temporary storage of sauerkraut, allowing for easy monitoring of the remaining amount. A conical discharge port at the bottom of the bin, integrated with a belt conveyor, enables the sauerkraut to fall from the bin onto the conveyor and be transported. Compared to traditional sauerkraut cutters, this invention achieves uninterrupted sauerkraut supply through the storage bin and conveyor system. This effectively avoids interruptions caused by manual feeding, resolving the problems of low efficiency and delayed feeding in current sauerkraut cutters, which often lead to interruptions and reduced sauerkraut crushing efficiency. Attached Figure Description
[0019] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of this utility model and should not be regarded as a limitation of the scope. For those skilled in the art, other related drawings can be obtained from these drawings without creative effort.
[0020] Figure 1 This is a schematic diagram of the structure of a sauerkraut cutting machine as described in an embodiment of this utility model;
[0021] Figure 2 This is a schematic diagram of a sauerkraut feeding structure described in an embodiment of this utility model. Figure 1 ;
[0022] Figure 3 This is a schematic diagram of a sauerkraut feeding structure described in an embodiment of this utility model. Figure 2 ;
[0023] Figure 4 This is a partial structural diagram of a sauerkraut feeding structure described in an embodiment of this utility model. Figure 1 ;
[0024] Figure 5 This is a partial structural diagram of a sauerkraut feeding structure described in an embodiment of this utility model. Figure 2 ;
[0025] Figure 6 This is a partial structural diagram of a sauerkraut cutting machine described in this embodiment of the present invention. Figure 1 ;
[0026] Figure 7 This is a partial structural diagram of a sauerkraut cutting machine described in this embodiment of the present invention. Figure 2 ;
[0027] Figure 8 This is a partial structural diagram of a sauerkraut cutting machine described in this embodiment of the present invention. Figure 3 ;
[0028] Explanation of reference numerals in the attached figures:
[0029] 10-Fixed frame, 11-Belt conveyor assembly, 12-Storage bin, 13-Discharge guide structure, 14-Storage cavity, 15-Conical discharge port, 16-Observation window, 17-Transparent glass, 18-Belt conveyor structure, 19-Drive structure, 20-Reinforcing frame, 21-Conveyor belt, 22-Fixed plate, 23-Bearing plate, 24-Drive shaft, 25-Stop bar, 26-First drive motor, 27-Main gear, 28-Secondary gear, 29-Mounting plate, 30-Guide box, 31-Connection Plate, 32-Inlet, 33-Guide cavity, 34-Outlet, 35-Mounting bracket, 36-Cutting assembly, 37-Solid-liquid separation assembly, 38-Second drive motor, 39-Cutting box, 40-Cutting shaft, 41-Cutting cavity, 42-Cutting blade, 43-Meshing gear, 44-Mounting base, 45-Solid collection box, 46-Liquid collection box, 47-Solid collection cavity, 48-Separation plate, 49-Liquid inlet, 50-Solid outlet, 51-Liquid collection cavity, 52-Liquid outlet. Detailed Implementation
[0030] In the following description, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments can be modified in various ways without departing from the spirit or scope of the present invention. Therefore, the drawings and description are considered to be exemplary in nature and not restrictive.
[0031] In the description of the embodiments of this utility model, it should be understood that the terms "length", "vertical", "horizontal", "top", "bottom", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. They are only for the convenience of describing the embodiments of this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the embodiments of this utility model.
[0032] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of this utility model, "a plurality of" means two or more, unless otherwise explicitly specified.
[0033] In this embodiment of the invention, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection, an electrical connection, or a communication connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this embodiment of the invention according to the specific circumstances.
[0034] In this embodiment of the invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature being directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature being directly above or diagonally above the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.
[0035] The following disclosure provides many different implementations or examples for different structures of the embodiments of the present invention. To simplify the disclosure of the embodiments of the present invention, specific examples of components and arrangements are described below. Of course, these are merely examples and are not intended to limit the embodiments of the present invention. Furthermore, reference numerals and / or reference letters may be repeated in different examples of the embodiments of the present invention; such repetition is for simplification and clarity and does not in itself indicate a relationship between the various implementations and / or arrangements discussed.
[0036] The embodiments of this utility model will now be described in detail with reference to the accompanying drawings.
[0037] Example:
[0038] like Figures 1 to 8As shown, this embodiment discloses a sauerkraut feeding structure, including a fixed frame 10, a belt conveyor assembly 11, a storage box 12, and a discharge guide structure 13. The belt conveyor assembly 11 is inclinedly arranged on the fixed frame 10. The storage box 12 is arranged on the fixed frame 10 and is located above the lower side of the belt conveyor assembly 11. The discharge guide structure 13 is arranged on the higher side of the belt conveyor assembly 11, and one end is configured to cooperate with the belt conveyor assembly 11. The storage box 12 is provided with a storage cavity 14, which penetrates the top of the storage box 12. The bottom of the storage box 12 is provided with a conical discharge port 15 communicating with the storage cavity 14. One end of the conical discharge port 15 is fixedly connected to the storage box 12, and the other end is located above the lower side of the belt conveyor assembly 11. An observation window 16 is provided on one side of the storage box 12, and a transparent glass 17 is provided at the observation window 16. The transparent glass 17 is fixedly connected to the storage box 12.
[0039] This invention features a storage bin 12 with an observation window 16 and a transparent glass 17 for temporary storage of sauerkraut. The transparent glass 17 allows for easy observation of the remaining amount of sauerkraut in the storage bin 12. A conical discharge port 15 is located at the bottom of the storage bin 12 and is integrated with a belt conveyor assembly 11, allowing the sauerkraut to fall from the storage bin 12 onto the belt conveyor assembly 11 and be transported there. Compared to traditional sauerkraut cutting machines, this invention, through the storage bin 12 and belt conveyor assembly 11, achieves an uninterrupted supply of sauerkraut. Compared to traditional manual feeding, it effectively avoids feeding interruptions caused by untimely manual operation, solving the problems of low efficiency and delayed feeding in current sauerkraut cutting machines, which lead to interruptions and reduced crushing efficiency during the sauerkraut crushing process.
[0040] In actual use, a certain amount of sauerkraut can be poured into the storage bin 12 in advance, and then the belt conveyor assembly 11 can be started for conveying. At the same time, workers can observe the amount of sauerkraut stored through the observation window 16 and then pour the sauerkraut into the storage bin 12 in advance, thereby avoiding the problem of interruption of feeding.
[0041] To facilitate the transport of sauerkraut, this embodiment is an improvement on the above embodiment. The difference from the above embodiment is that the belt conveyor assembly 11 includes a belt conveyor structure 18 and a drive structure 19. The belt conveyor structure 18 is inclinedly arranged on the fixed frame 10 and fixedly connected to the fixed frame 10. The drive structure 19 is arranged on one side of the belt conveyor structure 18 and is located on the lower side of the belt conveyor structure 18, and is used to drive the belt conveyor structure 18.
[0042] The belt conveyor structure 18 includes a reinforcing frame 20, a conveyor belt 21, a pair of fixed plates 22, a pair of load-bearing plates 23, and a pair of drive shafts 24. The pair of fixed plates 22 are respectively disposed on both sides of the reinforcing frame 20 and are fixedly connected to the reinforcing frame 20 by bolts. The pair of load-bearing plates 23 are fitted on the top of the reinforcing frame 20 and are fixedly connected to the reinforcing frame 20 by bolts. The pair of drive shafts 24 are disposed between the pair of fixed plates 22 and are respectively located on the other two sides of the reinforcing frame 20. The two ends of the drive shafts 24 pass through the pair of fixed plates 22 and are rotatably connected to the pair of fixed plates 22. The drive shafts 24 are clearance-fitted with the reinforcing frame 20. The conveyor belt 21 is sleeved on the pair of drive shafts 24 and meshes with the pair of drive shafts 24 for transmission. The conveyor belt 21 is clearance-fitted with the bottom of the reinforcing frame 20 and slides with the pair of load-bearing plates 23.
[0043] In use, the drive structure 19 facilitates the driving of the belt conveyor structure 18. The reinforcing frame 20 in the belt conveyor structure 18 enhances the overall stability of the belt conveyor structure 18, while the pair of load-bearing plates 23 facilitates the distribution of the weight of the sauerkraut, thus ensuring stable transport of the sauerkraut by the conveyor belt 21. The pair of fixing plates 22 facilitates the connection and installation of the belt conveyor structure 18 with the fixing frame 10.
[0044] To further facilitate the transport of sauerkraut, this embodiment is an improvement on the above embodiment. The difference from the above embodiment is that the conveyor belt 21 is provided with a number of baffles 25, and a storage space is formed between the baffles 25.
[0045] When in use, the discharge space formed between several baffles 25 can transport the sauerkraut better to a certain extent.
[0046] To prevent the sauerkraut from falling off the conveyor belt, this embodiment is an improvement on the above embodiment. The difference from the above embodiment is that a baffle is provided on the top of each pair of fixing plates 22.
[0047] The baffles effectively prevent the sauerkraut from falling off the conveyor belt.
[0048] To facilitate stable driving of the belt conveyor structure 18 and to facilitate the installation of the first drive motor 26, this embodiment is an improvement on the above embodiment. The difference from the above embodiment is that the drive structure 19 includes a first drive motor 26, a main gear 27, and a secondary gear 28. A mounting plate 29 is provided on one side of a fixed plate 22. The mounting plate 29 is fixedly connected to the fixed plate 22. The first drive motor 26 is mounted on the mounting plate 29 and fixedly connected to the mounting plate 29 by bolts. The output shaft of the first drive motor 26 passes through the mounting plate 29 and is rotatably connected to the mounting plate 29. The main gear 27 is fixedly mounted at the end of the output shaft of the first drive motor 26, and the secondary gear 28 is fixedly mounted at the end of one end of the drive shaft 24. The main gear 27 and the secondary gear 28 are driven by a transmission chain.
[0049] The mounting plate 29 facilitates the installation of the first drive motor 26. The transmission chain, main gear 27, and auxiliary gear 28 facilitate stable driving of the belt conveyor structure 18.
[0050] To facilitate the accurate entry of sauerkraut into the cutting machine, this embodiment is an improvement on the above embodiment. The difference from the above embodiment is that the discharge guide structure 13 includes a guide box 30 and a pair of connecting plates 31. The guide box 30 has a feed inlet 32 on one side that cooperates with the belt conveyor structure 18. The guide box 30 has a guide cavity 33 that communicates with the feed inlet 32. The bottom of the guide box 30 has a discharge outlet 34 that communicates with the guide cavity 33. One end of the pair of connecting plates 31 is fixedly connected to both sides of the guide box 30 by bolts, and the other end is fixedly connected to a pair of fixing plates 22 by bolts.
[0051] The guide box 30 is designed to facilitate the accurate dropping of the sauerkraut conveyed by the belt conveyor structure 18 into the cutting machine, thereby completing the cutting.
[0052] A sauerkraut cutting machine includes a sauerkraut feeding structure as described above, and also includes a mounting frame 35, a cutting component 36, and a solid-liquid separation component 37. The mounting frame 35 is disposed on one side of the fixed frame 10, the cutting component 36 is disposed on the top of the mounting frame 35 and located below the discharge guide structure 13, and the solid-liquid separation component 37 is fixedly disposed on the mounting frame 35 and located below the cutting component 36.
[0053] The cutting assembly 36 includes a second drive motor 38, a cutting housing 39, and a pair of cutting shafts 40. The cutting housing 39 has a cutting cavity 41 that penetrates through the cutting housing 39. The cutting cavity 41 is configured to cooperate with one end of the discharge guide structure 13. The pair of cutting shafts 40 are disposed inside the cutting cavity 41. The two ends of the pair of cutting shafts 40 penetrate through both sides of the cutting housing 39 and are rotatably connected to the cutting housing 39. Each pair of cutting shafts 40 is provided with a plurality of cutting blades 42. The cutting blades 42 on the pair of cutting shafts 40 are arranged alternately. Each end of one of the pair of cutting shafts 40 is provided with a meshing gear 43. The meshing gears 43 on the pair of cutting shafts 40 are meshed. The second drive motor 38 is fixedly mounted on the mounting bracket 35. The output shaft of the second drive motor 38 is fixedly connected to one end of one of the cutting shafts 40.
[0054] The discharge port 34 at the bottom of the guide box 30 extends into the cutting cavity 41.
[0055] In use, the discharge port 34 at the bottom of the guide box 30 extends into the cutting cavity 41, allowing the sauerkraut to fall accurately into the cutting cavity 41 and be crushed by several staggered cutting blades 42. During use, one of the cutting shafts 40 can be driven by the second drive motor 38, which in turn drives the other cutting shaft 40 via the meshing gear 43, thus enabling the cutting blades 42 to cut the sauerkraut.
[0056] To facilitate the installation of the second drive motor 38, this embodiment is an improvement on the above embodiment. The difference from the above embodiment is that the mounting bracket 35 is provided with a mounting seat 44 for installing the second drive motor 38. One side of the mounting seat 44 is fixedly connected to the mounting bracket 35, and the second drive motor 38 is fixedly mounted on the mounting seat 44.
[0057] The mounting base 44 facilitates the installation of the second drive motor 38.
[0058] To facilitate the separation of liquid generated during the cutting of sauerkraut, this embodiment is an improvement upon the previous embodiment. The difference lies in that the solid-liquid separation component 37 includes a solid collection tank 45 and a liquid collection tank 46. The solid collection tank 45 is fixedly mounted on the mounting frame 35, and its top is fixedly connected to the bottom of the cutting chamber 39. A solid collection cavity 47 is provided inside the solid collection tank 45, extending through the solid collection tank 45. The top of the solid collection cavity 47 communicates with the cutting chamber 41, and an inclined separation plate 48 is provided at the bottom of the solid collection cavity 47, which is fixedly connected to the solid collection tank 45. The separation plate 48 is provided with several liquid inlets 49. The lower end of one side of the solid material collection box 45 is provided with a solid material outlet 50 that communicates with the solid material collection chamber 47. The lower side of the separation plate 48 is matched with the solid material outlet 50. The liquid collection box 46 is fixedly mounted on the mounting bracket 35. The top of the liquid collection box 46 is fixedly connected to the bottom of the solid material collection box 45. The liquid collection box 46 is provided with a liquid collection chamber 51 that penetrates the top of the liquid collection box 46 and communicates with the solid material collection chamber 47. The liquid collection chamber 51 is matched with the separation plate 48. The bottom side of the liquid collection box 46 is provided with a liquid outlet 52 that communicates with the liquid collection chamber 51.
[0059] When in use, after the sauerkraut is cut by the cutting blade 42, it falls into the solid material collection box 45 and then onto the separation plate 48. The crushed sauerkraut can be discharged and collected from the solid material outlet 50 and transferred to the next process. The liquid generated by crushing can drip from the separation plate 48 through the outlet 49 into the liquid collection box 46 and then be discharged to the outside for processing through the liquid outlet 52.
[0060] Working principle of this utility model:
[0061] This invention features a storage bin 12 with an observation window 16 and a transparent glass 17. This allows for temporary storage of the pickled cabbage while simultaneously enabling easy observation of the remaining amount within the bin. A conical discharge port 15 is located at the bottom of the storage bin 12. This conical discharge port 15, when combined with a belt conveyor assembly 11, allows the pickled cabbage to fall from the storage bin 12 onto the belt conveyor assembly 11 and be transported by it.
[0062] Although preferred embodiments of the present invention have been described, those skilled in the art, upon learning the basic inventive concept, can make other changes and modifications to these embodiments. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments as well as all changes and modifications falling within the scope of the present invention.
[0063] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. It should be noted that any modifications, equivalent substitutions and improvements 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 sauerkraut feed structure, characterized by, The system includes a fixed frame (10), a belt conveyor assembly (11), a storage bin (12), and a discharge guide structure (13). The belt conveyor assembly (11) is inclinedly mounted on the fixed frame (10). The storage bin (12) is mounted on the fixed frame (10) and located above the lower side of the belt conveyor assembly (11). The discharge guide structure (13) is located on the higher side of the belt conveyor assembly (11) and one end is fitted with the belt conveyor assembly (11). The storage bin (12) contains a storage container. The material chamber (14) extends through the top of the storage box (12). The bottom of the storage box (12) is provided with a conical discharge port (15) that communicates with the material chamber (14). One end of the conical discharge port (15) is fixedly connected to the storage box (12), and the other end is located above the lower side of the belt conveyor assembly (11). An observation window (16) is provided on one side of the storage box (12), and a transparent glass (17) is provided at the observation window (16). The transparent glass (17) is fixedly connected to the storage box (12).
2. The sauerkraut feeding structure according to claim 1, characterized in that, The belt conveyor assembly (11) includes a belt conveyor structure (18) and a drive structure (19). The belt conveyor structure (18) is inclinedly arranged on the fixed frame (10) and fixedly connected to the fixed frame (10). The drive structure (19) is arranged on one side of the belt conveyor structure (18) and is located on the lower side of the belt conveyor structure (18) for driving the belt conveyor structure (18).
3. The sauerkraut feeding structure according to claim 2, characterized in that, The belt conveyor structure (18) includes a reinforcing frame (20), a conveyor belt (21), a pair of fixed plates (22), a pair of load-bearing plates (23), and a pair of drive shafts (24). The pair of fixed plates (22) are respectively disposed on both sides of the reinforcing frame (20) and are fixedly connected to the reinforcing frame (20) by bolts. The pair of load-bearing plates (23) are disposed on the top of the reinforcing frame (20) and are fixedly connected to the reinforcing frame (20) by bolts. The pair of drive shafts (24) are disposed on the pair of fixed plates. Between (22), and on the other two sides of the reinforcing frame (20), the two ends of the drive shaft (24) pass through a pair of fixed plates (22) respectively, and are rotatably connected to a pair of fixed plates (22). The drive shaft (24) is in clearance fit with the reinforcing frame (20). The conveyor belt (21) is sleeved on a pair of drive shafts (24) and meshes with a pair of drive shafts (24). The conveyor belt (21) is in clearance fit with the bottom of the reinforcing frame (20) and slides with a pair of load-bearing plates (23).
4. The sauerkraut feeding structure according to claim 3, characterized in that, The conveyor belt (21) is provided with several baffles (25), and a storage space is formed between the baffles (25).
5. The sauerkraut feeding structure according to claim 4, characterized in that, The drive structure (19) includes a first drive motor (26), a main gear (27) and a secondary gear (28). A mounting plate (29) is provided on one side of a fixed plate (22). The mounting plate (29) is fixedly connected to the fixed plate (22). The first drive motor (26) is mounted on the mounting plate (29) and is fixedly connected to the mounting plate (29) by bolts. The output shaft of the first drive motor (26) passes through the mounting plate (29) and is rotatably connected to the mounting plate (29). The main gear (27) is fixedly mounted at the end of the output shaft of the first drive motor (26). The secondary gear (28) is fixedly mounted at the end of one end of the drive shaft (24). The main gear (27) and the secondary gear (28) are driven by a transmission chain.
6. The sauerkraut feeding structure according to claim 5, characterized in that, The discharge guiding structure (13) includes a guide box (30) and a pair of connecting plates (31). The guide box (30) has a feed inlet (32) on one side that is configured to cooperate with the belt conveyor structure (18). The guide box (30) has a guide cavity (33) that communicates with the feed inlet (32) inside. The bottom of the guide box (30) has a discharge port (34) that communicates with the guide cavity (33). One end of the pair of connecting plates (31) is fixedly connected to both sides of the guide box (30) by bolts, and the other end is fixedly connected to a pair of fixing plates (22) by bolts.
7. A sauerkraut cutting machine, characterized in that, The sauerkraut feeding structure according to any one of claims 1-6 further includes a mounting frame (35), a cutting component (36), and a solid-liquid separation component (37). The mounting frame (35) is disposed on one side of the fixed frame (10), the cutting component (36) is disposed on the top of the mounting frame (35) and located below the discharge guide structure (13), and the solid-liquid separation component (37) is fixedly disposed on the mounting frame (35) and located below the cutting component (36).
8. A sauerkraut cutting machine according to claim 7, characterized in that, The cutting assembly (36) includes a second drive motor (38), a cutting housing (39), and a pair of cutting shafts (40). The cutting housing (39) is provided with a cutting cavity (41) that penetrates the cutting housing (39). The cutting cavity (41) is fitted with one end of the discharge guide structure (13). The pair of cutting shafts (40) are disposed inside the cutting cavity (41). The two ends of the pair of cutting shafts (40) penetrate through both sides of the cutting housing (39) and are rotatably connected to the cutting housing (39). Each pair of cutting shafts (40) is provided with several cutting blades (42), and the cutting blades (42) on the pair of cutting shafts (40) are arranged alternately. Each end of one pair of cutting shafts (40) is provided with a meshing gear (43), and the meshing gears (43) on the pair of cutting shafts (40) are meshed. The second drive motor (38) is fixedly mounted on the mounting bracket (35), and the output shaft of the second drive motor (38) is fixedly connected to the end of one of the cutting shafts (40).
9. A sauerkraut cutting machine according to claim 8, characterized in that, The mounting bracket (35) is provided with a mounting seat (44) for mounting the second drive motor (38). One side of the mounting seat (44) is fixedly connected to the mounting bracket (35), and the second drive motor (38) is fixedly mounted on the mounting seat (44).
10. A sauerkraut cutting machine according to claim 9, characterized in that, The solid-liquid separation assembly (37) includes a solid collection tank (45) and a liquid collection tank (46). The solid collection tank (45) is fixedly mounted on the mounting frame (35). The top of the solid collection tank (45) is fixedly connected to the bottom of the cutting chamber (39). The solid collection tank (45) has a solid collection cavity (47) inside, which extends through the solid collection tank (45). The top of the solid collection cavity (47) is connected to the cutting chamber (41). The bottom of the solid collection cavity (47) has an inclined separation plate (48), which is fixedly connected to the solid collection tank (45). The separation plate (48) has several liquid inlets (49). 5) A solid material outlet (50) communicating with the solid material collection chamber (47) is provided at the lower end of one side. The lower side of the separation plate (48) is matched with the solid material outlet (50). The liquid collection box (46) is fixedly installed on the mounting frame (35). The top of the liquid collection box (46) is fixedly connected to the bottom of the solid material collection box (45). A liquid collection chamber (51) is provided inside the liquid collection box (46). The liquid collection chamber (51) penetrates the top of the liquid collection box (46) and communicates with the solid material collection chamber (47). The liquid collection chamber (51) is matched with the separation plate (48). A liquid outlet (52) communicating with the liquid collection chamber (51) is provided on one side of the bottom of the liquid collection box (46).