A device for surface immersion and hanging pulp of a veneer press

By designing an automated device for slurry coating on the surface of lotus root clips, the problems of uneven slurry coating and low efficiency caused by manual operation were solved by using a drive mechanism, a screen pressing mechanism, and a blower mechanism. This achieved automation and consistency in slurry coating on the surface of lotus root clips, improving production efficiency and product quality.

CN224461084UActive Publication Date: 2026-07-07HUBEI HUAGUI FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUBEI HUAGUI FOOD CO LTD
Filing Date
2025-07-30
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The current process of slurry coating on lotus root slices relies on manual operation, which results in uneven slurry coating, inconsistent thickness, low efficiency, and requires multiple operators, affecting product quality and workshop hygiene.

Method used

Design a device for slurry coating on the surface of lotus root clips, including a drive mechanism, a screen pressing mechanism and a blower mechanism. The slurry coating is automated by a slurry conveyor belt, the temperature of the slurry is controlled by an ice water tank, and excess slurry is removed by air duct adjustment.

Benefits of technology

This technology automates and ensures consistency in the slurry application of lotus root slices, improving production efficiency, guaranteeing product quality and workshop hygiene, and reducing the number of operators.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This invention provides a device for slurry coating of lotus root clips. The device has a support fixed to the lower part of a mounting frame, a housing mounted on the upper part, a mesh pressing mechanism mounted on the top of the housing, and a slurry tank, slurry inlet pipe, and ice water tank installed inside the housing. An operating door is located at the rear of the housing. A slurry conveyor belt is equipped with a slurry belt drive mechanism. Feed conveyor belts and discharge conveyor belts are respectively located at both ends of the slurry conveyor belt. Side guard plates are installed on both sides of the slurry conveyor belt. An operation control box is located at the end of the feed conveyor belt, and a blower mechanism is located at the end of the discharge conveyor belt. The slurry conveyor belt passes through the housing and the slurry tank, with its two ends contacting the feed and discharge conveyor belts respectively. This device moves the finished lotus root clips within the slurry tank via the slurry conveyor belt, completing the slurry coating process. It features a reasonable structural design, high degree of automation, simple and convenient operation, improved work efficiency, and ensured the quality of slurry coating of the lotus root clips.
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Description

Technical Field

[0001] This utility model relates to the field of food processing machinery technology, and in particular to a device for dipping and coating lotus root slices with slurry. Background Technology

[0002] Before frying, lotus root sandwiches need to be dipped in a batter. Currently, the process is entirely manual. Specifically, flour is poured into a container, cornstarch and eggs are added, and water is added to form a smooth batter. Then, one or more lotus root sandwiches are dipped into the batter. This manual method is time-consuming and labor-intensive. Due to varying skill levels among operators, the batter coating on the lotus root sandwiches is uneven and of inconsistent thickness, affecting the frying results. Furthermore, the battering process is inefficient, requires a large number of operators, and creates a messy working environment in the production workshop. The manual operation also compromises the hygiene of the product.

[0003] Therefore, those skilled in the art have provided a device for dipping and coating lotus root clips with slurry. Summary of the Invention

[0004] The purpose of this invention is to provide a device for slurry coating on the surface of lotus root clips. The technical problem this invention aims to solve is as follows: a drive mechanism drives a slurry conveyor belt, causing the finished lotus root clips to move within a slurry tank. During this movement, the lotus root clips undergo the slurry coating process, with an ice water tank maintaining the slurry temperature. A blower mechanism removes excess slurry from the lotus root clips, and an air duct angle adjustment handle adjusts and controls the air duct angle. A mesh pressing mechanism ensures a smooth and uniform surface on the lotus root clips, and a mesh pressing adjustment handle adjusts and controls the distance between the mesh pressing belt and the slurry conveyor belt.

[0005] To achieve the above objectives, the technical solution of this utility model is as follows:

[0006] A device for slurry coating on the surface of lotus root clips includes: a mounting frame, a feeding conveyor belt, a driven wheel of the feeding belt, an operation control box, a housing, a screen pressing mechanism, a driven wheel of the discharge belt, a discharge conveyor belt, a support, a slurry tank, a slurry inlet pipe, an ice water tank, an operating door, a rotating shaft seat, a rotating wheel shaft, a slurry belt drive mechanism, and a blower mechanism. The slurry belt drive mechanism includes: a first reducer, a protective cover, a driving wheel of the slurry belt, a slurry conveyor belt, a side guard plate, a driven wheel of the slurry belt, a first drive motor, a chain, a rotating wheel, a rotating wheel connecting shaft, a transmission wheel, and a connecting shaft. The screen pressing mechanism includes: a handle, a screen pressing adjustment handle, a screen pressing moving belt, a moving belt driven wheel, a driven wheel connecting shaft, a second reducer, a second drive motor, connecting parts, and a protective cover. The blower mechanism includes: an air duct angle adjustment handle, an upper air inlet pipe, a lower air inlet pipe, an air distributor, a blower, an upper air distribution pipe, and air holes. The device includes a lower air distribution pipe, a bracket fixed to the lower part of the mounting frame, a housing mounted on the upper part, a mesh pressing mechanism mounted on the top of the housing, an impregnation tank inside the housing, an impregnation inlet pipe mounted at one end of the impregnation tank, an ice water tank fitted outside the impregnation tank, an operating door on the back of the housing near the end of the ice water tank, the operating door being connected to the top of the ice water tank, an impregnation belt drive mechanism on the impregnation conveyor belt, a feeding conveyor belt at one end of the impregnation conveyor belt with a feeding belt driven wheel mounted on the feeding conveyor belt, and a discharge conveyor belt at the other end with a discharge belt driven wheel mounted on the discharge conveyor belt, side guard plates mounted on both sides of the impregnation conveyor belt, an operation control box at one end near the feeding conveyor belt, and a blower mechanism at one end near the discharge conveyor belt, the impregnation conveyor belt passing through the housing and the impregnation tank, with its two ends in contact with the feeding conveyor belt and the discharge conveyor belt respectively.

[0007] The impregnation belt drive mechanism in the device has a No. 1 drive motor and a No. 1 reducer mounted on the mounting frame near the feed conveyor belt end. The No. 1 drive motor and the No. 1 reducer are covered with protective covers. The output shaft of the No. 1 drive motor is connected to the No. 1 reducer. The transmission wheel is fixed to the end of the transmission shaft of the No. 1 reducer. A through hole is opened on the housing at the corresponding position of the impregnation belt drive wheel. A rotating shaft seat is installed in the through hole. A connecting rotating shaft is fixed on the impregnation belt drive wheel. The connecting rotating shaft passes through the housing and the rotating shaft seat, and its end is connected to the rotating wheel on the left. A rotating shaft seat is fixed on the inner wall of the housing where the right rotating wheel is installed. A rotating wheel shaft is fixed on the right rotating wheel. The rotating wheel shaft is mounted on the rotating shaft seat. The two rotating wheels are connected by a rotating wheel connecting shaft. The impregnation belt drive wheel and the transmission wheel are connected by a chain. The impregnation belt drive wheel and the impregnation belt driven wheel are connected by the impregnation conveyor belt.

[0008] The pressing mechanism in the device has a handle fixedly mounted on the top of the protective cover, and a connector fixedly mounted on one side of the protective cover. A pressing adjustment handle is installed on the connector and connected to the pressing moving belt. A second drive motor and a second reducer are respectively mounted on the housing at one end of the protective cover. The second drive motor and the second reducer are covered with protective covers. The output shaft of the second drive motor is connected to the second reducer. A transmission wheel is mounted on the transmission shaft of the second reducer. A connecting shaft is fixedly mounted on the transmission wheel. A through hole is opened on the protective cover where the right rotating wheel is installed. A rotating shaft seat is installed in the through hole. The connecting shaft passes through the housing and the rotating shaft seat and its end is connected to the right rotating wheel. A rotating shaft seat is installed on the inner wall of the protective cover where the left rotating wheel is installed. A rotating wheel shaft is fixedly mounted on the left rotating wheel and mounted on the rotating shaft seat. Two rotating wheels are connected by a rotating wheel connecting shaft. Multiple rotating wheels are connected by the pressing moving belt.

[0009] The blower mechanism in the device has a blower at one end near the discharge conveyor belt. The blower is connected to an air distributor. The air distributor is equipped with an upper air inlet pipe and a lower air inlet pipe. The upper air inlet pipe is connected to an upper air distribution pipe located above the slurry conveyor belt, and the lower air inlet pipe is connected to a lower air distribution pipe located below the slurry conveyor belt. Both the upper and lower air distribution pipes have an exhaust hole. A connector is fixed to the housing above the upper air inlet pipe. The connector is equipped with an air pipe angle adjustment handle, which is connected to the upper air distribution pipe.

[0010] The blower, drive motor 1, and drive motor 2 in the device are connected to the electrical control unit in the operation control box by wires.

[0011] The drive motor, reducer, blower, and air distributor involved in the device are all mature products in the existing technology.

[0012] Compared with the prior art, the positive effects of this utility model are as follows:

[0013] 1. The device drives the slurry conveyor belt through the drive mechanism, so that the finished lotus root clips move with the slurry conveyor belt in the slurry tank. During the movement in the slurry tank, the lotus root clips will complete the slurry coating process.

[0014] 2. This device achieves a flat and uniform surface on the lotus root clips through a pressing mechanism, and uses a pressing adjustment handle to adjust and control the gap between the pressing moving belt and the slurry conveyor belt;

[0015] 3. The device uses circulating ice water from an ice water tank fitted outside the impregnation tank, and ice blocks are introduced into the ice water tank through the operating door to ensure the temperature of the impregnation slurry during the impregnation process;

[0016] 4. This device removes excess slurry from the surface of the lotus root clips during the discharge process using a blower mechanism, and adjusts and controls the inclination angle of the upper air distribution pipe using an air duct angle adjustment handle.

[0017] 5. This device reduces the number of operators, improves work efficiency, ensures the quality of lotus root soaking and coating, and improves the working environment of the workshop.

[0018] 6. The device has a reasonable structural design, a high degree of automation, is simple and convenient to operate, and has a wide range of applications. Attached Figure Description

[0019] To more clearly illustrate the technology of this utility model in its embodiments, the accompanying drawings are briefly introduced below. The drawings described below are merely exemplary, and those skilled in the art can derive other embodiments based on the provided drawings without any creative effort.

[0020] The accompanying drawings, including their structure, proportions, and sizes, are only intended to complement the content disclosed in this specification and to enable those skilled in the art to understand and read them. They are not intended to limit the conditions under which this utility model can be implemented. Any modifications to the structure, changes in proportions, or adjustments to the size, without affecting the effects and objectives that this utility model can produce, should still fall within the scope of the technical content disclosed in this utility model.

[0021] Figure 1 A schematic diagram of the main structure of the lotus root clip surface slurry coating device;

[0022] Figure 2 Schematic diagram of the main cross-section structure of the lotus root clip surface slurry coating device;

[0023] Figure 3 ,for Figure 1 Schematic diagram of the structure in the AA direction;

[0024] Figure 4 ,for Figure 1 Schematic diagram of the structure in the middle BB direction;

[0025] Figure 5 ,for Figure 1 Schematic diagram of the CC-axis structure;

[0026] Figure 6 ,for Figure 3 A magnified schematic diagram of the local structure at point E;

[0027] Figure 7 ,for Figure 3 A magnified schematic diagram of the local structure at point D;

[0028] Figure 8 A diagram showing the connection between each electrical component and the control box.

[0029] In the diagram: 1. Mounting frame; 2. No. 1 reducer; 3. Protective cover; 4. Feed conveyor belt; 5. Driving pulley of the slurry impregnation belt; 6. Driven pulley of the feed conveyor belt; 7. Slurry impregnation conveyor belt; 8. Operation control box; 9. Machine casing; 10. Screen pressing mechanism; 11. Handle; 12. Screen pressing adjustment handle; 13. Air duct angle adjustment handle; 14. Side guard plate; 15. Driven pulley of the slurry impregnation belt; 16. Driven pulley of the discharge belt; 17. Discharge conveyor belt; 18. Support frame; 19. Upper air inlet duct; 20. Lower air inlet duct; 21. Air distributor; 22. Blower. 3. Pressing mesh moving belt; 24. Impregnation material box; 25. Impregnation inlet pipe; 26. Ice water tank; 27. Operating door; 28. No. 1 drive motor; 29. ​​Chain; 30. Moving belt driven wheel; 31. Driven wheel connecting shaft; 32. Rotating wheel; 33. Rotating wheel connecting shaft; 34. Transmission wheel; 35. No. 2 reducer; 36. No. 2 drive motor; 37. Connecting piece; 38. Protective cover; 39. Upper air distribution pipe; 40. Air hole; 41. Lower air distribution pipe; 42. Connecting shaft; 43. Shaft seat; 44. Rotating wheel shaft. Detailed Implementation

[0030] The technical solution of this utility model will be further described clearly and completely below with reference to the accompanying drawings. The specific embodiments described below are only used to further illustrate this application and should not be construed as limiting the scope of protection of this application. Those skilled in the art can make some non-essential improvements and adjustments to this application based on the above application content.

[0031] See appendix Figure 1-8 The device is connected and installed by fixing bracket 18 to the lower part of mounting frame 1, mounting housing 9 to the upper part, pressing mesh mechanism 10 to the top of housing 9, slurry tank 24 inside housing 9, slurry inlet pipe 25 at one end of slurry tank 24, and chilled water tank 26 on the outside of slurry tank 24. Operating door 27 is located on the back of housing 9 near the end of chilled water tank 26, and is connected to the top of chilled water tank 26. Slurry conveyor belt 7 is equipped with a slurry belt drive mechanism. Feed conveyor belt 4 is located at one end of slurry conveyor belt 7, with feed belt driven wheel 6 at the end of feed conveyor belt 4. Discharge conveyor belt 17 is located at the other end, with discharge belt driven wheel 16 at the end of discharge conveyor belt 17. Side guard plates 14 are installed on both sides of slurry conveyor belt 7. Operation control box 8 is located at one end near feed conveyor belt 4, and blower mechanism is located at one end near discharge conveyor belt 17. The impregnation conveyor belt 7 passes through the machine casing 9 and the impregnation hopper 24, and its two ends are in contact with the feed conveyor belt 4 and the discharge conveyor belt 17, respectively.

[0032] The No. 1 drive motor 28 and the No. 1 reducer 2 are respectively installed on the mounting bracket 1 at one end of the feed conveyor belt 4, and the protective cover 3 is placed over the No. 1 drive motor 28 and the No. 1 reducer 2. The output shaft of the first drive motor 28 is connected to the first reducer 2. The transmission wheel 34 is fixed at the end of the transmission shaft of the first reducer 2. A through hole is opened on the housing 9 at the corresponding position of the impregnation belt drive wheel 5. The shaft seat 43 is installed in the through hole. The connecting shaft 42 is installed on the impregnation belt drive wheel 5. The connecting shaft 42 passes through the housing 9 and the shaft seat 43, and its end is connected to the left rotating wheel 32. The shaft seat 43 is fixed on the inner wall of the housing 9 where the right rotating wheel 32 is installed. The rotating wheel shaft 44 is installed on the right rotating wheel 32. The rotating wheel shaft 44 is installed on the shaft seat 43. The two rotating wheels 32 are connected by the rotating wheel connecting shaft 33. The impregnation belt drive wheel 5 and the transmission wheel 34 are connected by the chain 29. The impregnation belt drive wheel 5 and the impregnation belt driven wheel 15 are connected by the impregnation conveyor belt 7.

[0033] The handle 11 is fixed to the top of the cover 38, the connector 37 is fixed to one side of the cover 38, the mesh pressing adjustment handle 12 is installed on the connector 37, and the mesh pressing adjustment handle 12 is connected to the mesh pressing moving belt 23. The second drive motor 36 and the second reducer 35 are respectively installed on the housing 9 at one end of the cover 38, and the protective cover 3 covers the second drive motor 36 and the second reducer 35. The output shaft of the second drive motor 36 is connected to the second reducer 35. The transmission wheel 34 is installed on the transmission shaft of the second reducer 35. One end of the connecting shaft 42 is fixed on the transmission wheel 34. The through hole is opened on the guard 38 where the right rotating wheel 32 is installed. The shaft seat 43 is installed in the through hole. The other end of the connecting shaft 42 passes through the housing 9 and the shaft seat 43 and its end is connected to the right rotating wheel 32. The shaft seat 43 is installed on the inner wall of the guard 38 at the position corresponding to the left rotating wheel 32. The rotating wheel shaft 44 is installed on the left rotating wheel 32. The rotating wheel shaft 44 is installed on the shaft seat 43. The two rotating wheels 32 are connected by the rotating wheel connecting shaft 33. Multiple rotating wheels 32 are connected by the pressure mesh moving belt 23.

[0034] A blower 22 is installed at one end near the discharge conveyor belt 17. The blower 22 is connected to an air distributor 21. An upper air inlet pipe 19 and a lower air inlet pipe 20 are respectively installed on the air distributor 21. The upper air inlet pipe 19 is connected to an upper air distribution pipe 39 located on the upper part of the impregnation conveyor belt 7, and the lower air inlet pipe 20 is connected to a lower air distribution pipe 41 located on the lower part of the impregnation conveyor belt 7. Air holes 40 are arranged and opened on the upper air distribution pipe 39 and the lower air distribution pipe 41. A connector 37 is fixedly installed on the housing 9 on the upper part of the upper air inlet pipe 19. An air duct angle adjustment handle 13 is installed on the connector 37 and is connected to the upper air distribution pipe 39.

[0035] The blower 22, drive motor 28, and drive motor 36 in the device are connected to the electrical control unit in the operation control box 8 by wires.

[0036] Before use, input the process parameters of blower 22, drive motor 28, and drive motor 36 into the electrical control unit in the operation control box 8. Inject the slurry into the slurry tank 24 through the slurry inlet pipe 25, and put the ice into the ice water tank 26 through the operation door 27. Adjust the screen adjustment handle 12 to make the distance between the screen moving belt 23 and the slurry conveyor belt 7 reach the set value, and adjust the air duct angle adjustment handle 13 to make the inclination angle of the upper air distribution pipe 39 meet the process requirements.

[0037] During operation, the control box 8 issues commands to start the impregnation belt drive mechanism and the blower mechanism. The feed conveyor belt 4 begins to feed material to the impregnation conveyor belt 7, while the discharge conveyor belt 17 operates simultaneously. The first drive motor 28 rotates and drives the first reducer 2. The drive shaft of the first reducer 2 drives the drive wheel 34 mounted at the end of the drive shaft to rotate. The drive wheel 34 drives the impregnation belt drive wheel 5 to rotate via the chain 29. The impregnation belt drive wheel 5 drives the left rotating wheel 32 to rotate via the connecting shaft 42 mounted on the rotating shaft seat 43. As the left rotating wheel 32 rotates, it drives the right rotating wheel 32 to rotate via the rotating wheel connecting shaft 33. The rotating wheel 32 drives the impregnation conveyor belt 7 to operate. The second drive motor 36 rotates and drives the second reducer 35 to work. The drive shaft of the second reducer 35 drives the drive wheel 34 mounted on the drive shaft to rotate. The drive wheel 34 drives the right-side rotating wheel 32 to rotate through the connecting shaft 42. At the same time, the right-side rotating wheel 32 drives the left-side rotating wheel 32 to rotate through the rotating wheel connecting shaft 33. Multiple rotating wheels 32 drive the pressing screen moving belt 23 to work. The slurry conveyor belt 7 carries the lotus root clips into the slurry tank 24 for slurry coating. During the slurry coating process, the lotus root clips maintain a uniform slurry coating thickness by using the spacing between the pressing screen moving belt 23 and the slurry conveyor belt 7, which is set according to the process requirements. The lotus root clips in the slurry tank 24 move forward under the action of the slurry conveyor belt 7 and the pressing screen moving belt 23 running in the same direction. The circulating ice water in the ice water tank 26 is used to maintain the temperature of the slurry in the slurry tank 24. The air blown in by the blower 22 passes through the air distributor 21, then through the upper air inlet pipe 19 and the lower air inlet pipe 20, and enters the upper air distribution pipe 39 and the lower air distribution pipe 41 respectively. It is then sprayed out from the air holes 40, removing excess slurry from the lotus root clips before they enter the discharge conveyor belt 17. The finished lotus root clips, after being soaked and coated with slurry, are output via the discharge conveyor belt 17.

[0038] When the slurry in the impregnation tank 24 is insufficient, slurry is added to the impregnation tank 24 through the slurry inlet pipe 25. When the temperature of the slurry rises, ice is added to the ice water tank 26 through the operating door 27 to lower the temperature of the slurry.

[0039] The above embodiments are only for illustrating the technical concept and features of this utility model, and are intended to enable those skilled in the art to understand the content of this utility model and implement it accordingly. They should not be construed as limiting the protection scope of this utility model. All equivalent changes or modifications made based on the technical essence of this utility model should be covered within the protection scope of this utility model.

Claims

1. A device for dipping and coating lotus root clips with slurry, comprising: Mounting frame (1), feeding conveyor belt (4), feeding belt driven wheel (6), operation control box (8), machine housing (9), screen pressing mechanism (10), discharge belt driven wheel (16), discharge conveyor belt (17), bracket (18), slurry tank (24), slurry inlet pipe (25), ice water tank (26), operating door (27), shaft seat (43), rotating wheel shaft (44), slurry belt drive mechanism, blower mechanism, wherein the slurry belt drive mechanism includes: No. 1 reducer (2), protective cover (3), slurry belt drive wheel (5), slurry conveyor belt (7), side guard plate (14), slurry belt driven wheel (15), No. 1 The drive motor (28), chain (29), rotating wheel (32), rotating wheel connecting shaft (33), transmission wheel (34), connecting shaft (42), the screen pressing mechanism (10) includes: handle (11), screen pressing adjustment handle (12), screen pressing moving belt (23), moving belt driven wheel (30), driven wheel connecting shaft (31), second reducer (35), second drive motor (36), connector (37), and guard (38), the blower mechanism includes: air duct angle adjustment handle (13), upper air inlet pipe (19), lower air inlet pipe (20), air distributor (21), blower (22), and upper air distribution pipe (33). 9) Air vent (40) and lower air distribution pipe (41), characterized in that: the device has a bracket (18) fixedly installed at the lower part of the mounting frame (1), and a housing (9) installed at the upper part. A screen pressing mechanism (10) is installed on the top of the housing (9). A slurry tank (24) is installed inside the housing (9). A slurry inlet pipe (25) is installed at one end of the slurry tank (24). An ice water tank (26) is fitted outside the slurry tank (24). An operating door (27) is opened on the back of the housing (9) near the end of the ice water tank (26). The operating door (27) is connected to the top of the ice water tank (26). A slurry conveyor belt (7) is provided with a slurry belt. The driving mechanism has a feeding conveyor belt (4) at one end of the slurry conveyor belt (7), a feeding belt driven wheel (6) installed on the feeding conveyor belt (4), and a discharge conveyor belt (17) at the other end, a discharge belt driven wheel (16) installed on the discharge conveyor belt (17). Side guard plates (14) are installed on both sides of the slurry conveyor belt (7). An operation control box (8) is installed at one end of the feeding conveyor belt (4), and a blower mechanism is installed at one end of the discharge conveyor belt (17). The slurry conveyor belt (7) passes through the machine casing (9) and the slurry tank (24), and its two ends are in contact with the feeding conveyor belt (4) and the discharge conveyor belt (17) respectively.

2. The device for slurry coating on the surface of lotus root clips according to claim 1, characterized in that: The slurry belt drive mechanism in the device has a No. 1 drive motor (28) and a No. 1 reducer (2) mounted on the mounting frame (1) at one end of the feed conveyor belt (4). The No. 1 drive motor (28) and the No. 1 reducer (2) are covered with protective covers (3). The output shaft of the No. 1 drive motor (28) is connected to the No. 1 reducer (2). The transmission wheel (34) is fixed to the end of the transmission shaft of the No. 1 reducer (2). A through hole is opened on the housing (9) at the corresponding position of the slurry belt drive wheel (5). A rotating shaft seat (43) is installed in the through hole. A connecting rotating shaft (42) is installed on the slurry belt drive wheel (5). The shaft (42) passes through the housing (9) and the shaft seat (43), and its end is connected to the left rotating wheel (32). The shaft seat (43) is fixed on the inner wall of the housing (9) where the right rotating wheel (32) is installed. The rotating wheel shaft (44) is installed on the right rotating wheel (32). The rotating wheel shaft (44) is installed on the shaft seat (43). The two rotating wheels (32) are connected by the rotating wheel connecting shaft (33). The slurry belt drive wheel (5) and the transmission wheel (34) are connected by the chain (29). The slurry belt drive wheel (5) and the slurry belt driven wheel (15) are connected by the slurry conveyor belt (7).

3. The device for slurry coating on the surface of lotus root clips according to claim 1, characterized in that: The pressing mechanism (10) in the device has a handle (11) fixedly mounted on the top of the protective cover (38). A connector (37) is fixedly mounted on one side of the protective cover (38). A pressing adjustment handle (12) is installed on the connector (37). The pressing adjustment handle (12) is connected to the pressing moving belt (23). The second drive motor (36) and the second reducer (35) are respectively installed on the housing (9) at one end of the protective cover (38). The second drive motor (36) and the second reducer (35) are covered with protective covers (3). The output shaft of the second drive motor (36) is connected to the second reducer (35). The transmission wheel (34) is installed on the transmission shaft of the second reducer (35). (34) is fixedly mounted with a connecting shaft (42). A through hole is opened on the guard (38) where the right rotating wheel (32) is installed. A shaft seat (43) is installed in the through hole. The connecting shaft (42) passes through the housing (9) and the shaft seat (43) and its end is connected to the right rotating wheel (32). A shaft seat (43) is installed on the inner wall of the guard (38) where the left rotating wheel (32) is installed. A rotating wheel shaft (44) is installed on the left rotating wheel (32). The rotating wheel shaft (44) is installed on the shaft seat (43). The two rotating wheels (32) are connected by the rotating wheel connecting shaft (33). Multiple rotating wheels (32) are connected by the pressing mesh moving belt (23).

4. The device for slurry coating on the surface of lotus root clips according to claim 1, characterized in that: The blower assembly in the device has a blower (22) installed at one end near the discharge conveyor belt (17). The blower (22) is connected to the air distributor (21). The air distributor (21) is equipped with an upper air inlet pipe (19) and a lower air inlet pipe (20). The upper air inlet pipe (19) is connected to the upper air distribution pipe (39) located on the upper part of the slurry conveyor belt (7). The lower air inlet pipe (20) is connected to the lower air distribution pipe (41) located on the lower part of the slurry conveyor belt (7). Both the upper air distribution pipe (39) and the lower air distribution pipe (41) have an exhaust hole (40). The connector (37) is fixed on the housing (9) on the upper part of the upper air inlet pipe (19). The connector (37) is equipped with an air pipe angle adjustment handle (13), which is connected to the upper air distribution pipe (39).

5. The device for slurry coating on the surface of lotus root clips according to claim 1, characterized in that: The blower (22), drive motor 1 (28), and drive motor 2 (36) in the device are connected to the electrical control unit in the operation control box (8) by wires.