A fresh sweet corn cleaning device

By introducing support components and feeding components into the cleaning device, the problems of messy posture and accumulation of corn during pouring are solved, achieving uniform cleaning of corn and improving the cleaning effect.

CN224389475UActive Publication Date: 2026-06-23江苏省黄海农场有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
江苏省黄海农场有限公司
Filing Date
2025-09-04
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing fresh sweet and waxy corn washing devices have messy postures when the corn is poured onto the roller conveyor belt, which can easily create blind spots in the washing process. In addition, excessive dumping can cause the corn to pile up, resulting in uneven washing effects.

Method used

A cleaning device including a support component and a feeding component was designed. The support component straightens and unblocks the corn through structures such as support plates and reciprocating rollers. The feeding component adjusts the corn posture through structures such as inclined feeding boxes and return springs to ensure that the corn rolls axially and is evenly distributed.

Benefits of technology

It achieves thorough cleaning of corn from all angles, avoids blind spots, ensures that every surface is fully rinsed, and improves the overall cleaning effect.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to food processing technical field discloses a kind of fresh sweet and sticky corn cleaning devices, including main component, including washing machine, conveying belt is provided in washing machine, conveying belt is provided with runner inside, supporting component, setting on conveying belt, including supporting piece, supporting piece includes support plate, support plate is located at the top of conveying belt.The utility model has beneficial effect that: corn can be pushed and righted when corn is conveyed on rolling lever conveying belt, so that corn can be axially state and roll in all directions, and corn can be dredged, which can be rolled in axial state, avoid the emergence of cleaning blind area, ensure that each surface of corn can be fully washed, and the accumulated corn can be dredged, so that corn is more evenly distributed on rolling lever conveying belt, to ensure that it can rotate fully, realize uniform cleaning, and further improve the overall cleaning effect.
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Description

Technical Field

[0001] This utility model relates to the field of food processing technology, and in particular to a washing device for fresh sweet and glutinous corn. Background Technology

[0002] The fresh sweet and waxy corn cleaning device is a piece of equipment used in the agricultural product processing field, specifically designed for cleaning fresh sweet and waxy corn. It typically uses a roller-type spray cleaning machine to clean the corn cobs. The rollers transport the corn cobs systematically, while the high-pressure water jets from the spray system thoroughly wash the cobs, effectively removing dirt, impurities, corn silk, and other contaminants from their surface. This ensures the corn cobs meet the cleanliness standards required for subsequent processing, packaging, and sales. While improving cleaning efficiency, it also significantly reduces the labor intensity of manual cleaning. Simply dumping corn directly onto the roller conveyor belt results in the corn cobs falling onto the rollers in various disorderly positions. During the roller's rotation, the corn cannot roll in an ideal axial direction, creating cleaning blind spots. Furthermore, dumping too much corn at once can cause it to clump together on the conveyor belt, resulting in some areas being too densely packed while others are sparsely packed. This makes it difficult for the densely packed corn to rotate fully and be evenly rinsed during subsequent cleaning, affecting the overall cleaning effect. Utility Model Content

[0003] 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 present invention.

[0004] In view of the problems existing in the above and / or existing fresh sweet and glutinous corn washing devices, this utility model is proposed.

[0005] Therefore, the problem that this utility model aims to solve is that directly pouring corn onto the roller conveyor belt can easily create blind spots in the cleaning process due to the messy posture, and may also cause corn to accumulate due to excessive pouring, resulting in uneven cleaning and affecting the overall effect.

[0006] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a fresh sweet and glutinous corn washing device, which includes a main component, including a washing machine, wherein a conveyor belt is provided inside the washing machine, and a rotating wheel is provided inside the conveyor belt;

[0007] A support component, disposed on the conveyor belt, includes a support member, the support member including a support plate, the support plate being located at the top of the conveyor belt, a drive plate being fixed to one side of the support plate, and a drive block being fixed to one end of the drive plate;

[0008] A feeding assembly, disposed on one side of the cleaning machine, includes a feeding component, the feeding component including a feeding box, a connecting post inserted into one side of the feeding box, the feeding box and the connecting post being movably connected, the connecting post being fixed to one side of the cleaning machine, a return spring being fixed to one side of the feeding box, one end of the return spring being fixed to one side of the cleaning machine, and a flip cover being hinged to the top of the feeding box.

[0009] In a preferred embodiment of the fresh sweet and glutinous corn washing device of this utility model, the support component further includes a movable component, which includes a reciprocating roller. The reciprocating roller is inserted into one side of the drive block, and the reciprocating roller and the drive block are movably connected.

[0010] In a preferred embodiment of the fresh sweet and glutinous corn washing device of this utility model, a positioning block is provided at one end of the reciprocating roller, and the positioning block and the reciprocating roller are rotatably connected by a rotating shaft.

[0011] In a preferred embodiment of the fresh sweet and glutinous corn washing device of this utility model, a first pulley is fixed at one end of the reciprocating roller, a belt is sleeved on the outside of the first pulley, and a second pulley is provided inside the belt.

[0012] In a preferred embodiment of the fresh sweet and glutinous corn washing device of this utility model, the supporting component further includes a rotating component, the rotating component includes a turntable, the turntable is fixed to one side of the rotating wheel, a drive wheel is provided on one side of the turntable, and the drive wheel is fixed to one end of the reciprocating roller.

[0013] In a preferred embodiment of the fresh sweet and glutinous corn washing device of this utility model, a paddle is fixed on one side of the drive wheel, and a movable strip is fixed on one side of the turntable.

[0014] As a preferred embodiment of the fresh sweet and glutinous corn washing device of this utility model, a locking post is fixed on one side of the turntable, and a driving groove corresponding to the locking post is opened on the drive wheel.

[0015] In a preferred embodiment of the fresh sweet and glutinous corn washing device of this utility model, a motor is fixed on one side of the drive wheel, and a support sleeve is fitted on the outside of the motor.

[0016] In a preferred embodiment of the fresh sweet and glutinous corn washing device of this utility model, a protective cover is provided on the outside of the support sleeve, the protective cover is fixed to one side of the washing machine, and a guide frame is fixed on the top of the washing machine.

[0017] In a preferred embodiment of the fresh sweet and glutinous corn washing device of this utility model, the feeding assembly further includes a connecting member, which includes a movable column fixed to the bottom of the feeding box. A squeezing wheel is provided on one side of the movable column, and a sleeve is movably connected to the outside of the squeezing wheel. A support column is movably connected to one side of the sleeve. A rotating wheel is fixed to one end of the support column, and a connecting belt is sleeved on the outside of the rotating wheel. A drive frame is provided on the outside of the sleeve, and a squeezing disc is fixed to the top of the drive frame. A squeezing strip is provided on one side of the squeezing disc, and a threaded sleeve is sleeved on the outside of the squeezing strip. A rotating strip is movably connected to one side of the squeezing strip.

[0018] The beneficial effects of this utility model are as follows: When corn is conveyed on the roller conveyor belt, it can be pushed and straightened, allowing the corn to roll in an axial direction in all directions. It can also clear up corn that has piled up, allowing the corn to roll in an axial direction, avoiding blind spots in cleaning, ensuring that all surfaces of the corn are thoroughly washed, and clearing up piled corn, making the corn more evenly distributed on the roller conveyor belt, ensuring that it can rotate fully, achieving uniform cleaning, and thus improving the overall cleaning effect. Attached Figure Description

[0019] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort. Among them:

[0020] Figure 1 This is a structural diagram of a device for cleaning fresh sweet and glutinous corn.

[0021] Figure 2 This is a structural diagram of the conveyor belt in a washing device for fresh sweet and glutinous corn.

[0022] Figure 3 This is a structural diagram of the support plate for a washing device for fresh sweet and glutinous corn.

[0023] Figure 4 Diagram of the reciprocating roller structure of a washing device for fresh sweet and glutinous corn.

[0024] Figure 5 Cleaning device for fresh sweet and glutinous corn Figure 4 Enlarged view of the structure at point A in the middle.

[0025] Figure 6 Diagram of the rotary table structure for a washing device for fresh sweet and glutinous corn.

[0026] Figure 7 This is a structural diagram of the feed box for a fresh sweet and glutinous corn washing device.

[0027] Figure 8 Cross-sectional view of the flip-top structure of a washing device for fresh sweet and glutinous corn.

[0028] Figure 9 A structural diagram of the moving column of a washing device for fresh sweet and glutinous corn.

[0029] Figure 10 Cleaning device for fresh sweet and glutinous corn Figure 9 Enlarged view of the structure at point B in the middle.

[0030] Figure 11 A diagram showing the ferrule structure of a washing device for fresh sweet and glutinous corn.

[0031] In the diagram: Main component 100; Component 200; Washing machine 101; Conveyor belt 102; Rotary wheel 103; Support component 201; Support plate 2011; Drive plate 2012; Drive block 2013; Motor 2036; Feeding component 300; Feeding part 301; Feed box 3011; Connecting column 3012; Return spring 3013; Flip cover 3014; Moving part 202; Reciprocating roller 2021; Positioning block 2022; First pulley 2023; Belt 2024; Second pulley 2025; Rotating component 203; turntable 2031; drive wheel 2032; lever 2033; movable bar 2034; locking column 2035; drive groove 2035-1; support sleeve 2037; protective cover 2038; guide frame 2039; connector 302; moving column 3021; ​​extrusion wheel 3022; ferrule 3023; support column 30231; rotating wheel 3024; connecting belt 3025; drive frame 3026; extrusion disc 3027; extrusion bar 3028; threaded sleeve 3029; rotating bar 3020. Detailed Implementation

[0032] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0033] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Those skilled in the art can make similar extensions without departing from the spirit of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.

[0034] Secondly, the term "an 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 in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that excludes other embodiments.

[0035] Example 1

[0036] Reference Figures 1-11 This is the first embodiment of the present invention. This embodiment provides a fresh sweet and glutinous corn washing device. The fresh sweet and glutinous corn washing device includes a main body component 100 and a straightening component 200. The two work together to push and straighten the corn on the roller conveyor belt, clear the accumulation, avoid blind spots in washing, achieve uniform washing, and improve the overall washing effect.

[0037] The main component 100 includes a cleaning machine 101, a conveyor belt 102 is provided inside the cleaning machine 101, and a wheel 103 is provided inside the conveyor belt 102.

[0038] The washing machine 101 is the main equipment used to clean corn cobs. The washing machine 101 is existing technology and will not be described in detail here. The conveyor belt 102 mainly plays a conveying role. By placing the corn cobs on the conveyor belt 102, the corn cobs to be cleaned can be sent into the corresponding cleaning area in the washing machine 101, ensuring that the cleaning process can be carried out continuously and orderly. The rotating wheel 103 set in the conveyor belt 102 provides power support for the operation of the conveyor belt 102 and plays a transmission role, driving the conveyor belt 102 to move in a predetermined direction and speed, ensuring that the corn cobs can be smoothly conveyed and cleaned.

[0039] A support component 200 is disposed on the conveyor belt 102 and includes a support member 201. The support member 201 includes a support plate 2011. The support plate 2011 is located at the top of the conveyor belt 102. A drive plate 2012 is fixed to one side of the support plate 2011, and a drive block 2013 is fixed to one end of the drive plate 2012.

[0040] There are two sets of support components 201, both of which are set on the conveyor belt 102. When the corn cobs fall onto the conveyor belt 102, the start motor 2036 can drive the drive block 2013 to move. The drive block 2013 drives the drive plate 2012 to move. The movement of the drive plate 2012 can drive the support plate 2011 to move back and forth on the surface of the conveyor belt 102. The two support plates 2011 are staggered. By moving the two support plates 2011 back and forth in opposite directions, the corn cobs that have piled up are cleared, and the corn cobs with poor posture are straightened. This ensures that the corn cobs can be transported smoothly and cleaned in a suitable posture. At the same time, the start motor 2036 can also drive the wheel 103 to rotate slowly so that the conveyor belt 102 can transport the corn cobs.

[0041] The feeding assembly 300 is located on one side of the cleaning machine 101 and includes a feeding component 301. The feeding component 301 includes a feeding box 3011. A connecting post 3012 is inserted into one side of the feeding box 3011. The feeding box 3011 and the connecting post 3012 are movably connected. The connecting post 3012 is fixed to one side of the cleaning machine 101. A return spring 3013 is fixed to one side of the feeding box 3011. One end of the return spring 3013 is fixed to one side of the cleaning machine 101. A flip cover 3014 is hinged to the top of the feeding box 3011.

[0042] A handle is fixed to one side of the flip cover 3014. The handle serves as a counterweight. When the user moves the handle to flip the cover 3014 open or close it, the handle prevents the cover from rotating on its own. Opening the cover allows corn to be poured into the feed hopper 3011. The feed hopper 3011 is sloped and has an arc-shaped groove. After the corn is poured into the feed hopper 3011, starting the motor 2036 causes the feed hopper 3011 to move laterally on the connecting column 3012. The connecting column 3012 supports the feed hopper 3011. When the feed hopper 3011 moves, it applies a compressive force to the return spring 3013. The return force of the return spring 3013 causes the feed hopper 3011 to return to its original position, and this process repeats. The corn inside the feed box 3011 can be moved, shifting the vertically placed corn to a slightly lateral position. This allows the drive plate 2012 to push the corn. When the flip cover 3014 is opened, the motor 2036 is started, which drives the feed box 3011 to move laterally on the connecting column 3012. When the flip cover 3014 is closed, starting the motor 2036 will not drive the feed box 3011 to move laterally on the connecting column 3012. After feeding, this reduces the vibration frequency of the feed box 3011 and improves its service life. A sliding rod is fixed at the bottom of the feed box 3011, and a sliding frame is slidably connected to the outside of the sliding rod. The sliding frame is fixed to one side of the washing machine 101. When the feed box 3011 moves, it can drive the sliding rod to move within the sliding frame, thus supporting the feed box 3011.

[0043] Example 2

[0044] Reference Figures 2-11 This is the second embodiment of the present invention, which is based on the previous embodiment.

[0045] Specifically, the support component 200 also includes a movable component 202, which includes a reciprocating roller 2021. The reciprocating roller 2021 is inserted into one side of the drive block 2013, and the reciprocating roller 2021 and the drive block 2013 are movably connected.

[0046] There are two reciprocating rollers 2021, both of which are inserted into one side of the drive block 2013. The reciprocating rollers 2021 are provided with guide grooves. The inner wall of the drive block 2013 is fixed with guide strips corresponding to the guide grooves. The guide grooves on the two reciprocating rollers 2021 are in opposite directions. The rotation of the reciprocating rollers 2021 can drive the guide grooves to squeeze the guide strips, thereby causing the drive block 2013 to move, which in turn drives the two drive blocks 2013 to move back and forth.

[0047] Specifically, a positioning block 2022 is provided at one end of the reciprocating roller 2021, and the positioning block 2022 and the reciprocating roller 2021 are rotatably connected by a rotating shaft.

[0048] There are two positioning blocks 2022, both of which are fixed on one side of the washing machine 101. The positioning blocks 2022 can support the reciprocating roller 2021 and prevent the reciprocating roller 2021 from shifting when rotating.

[0049] Specifically, a first pulley 2023 is fixed at one end of the reciprocating roller 2021, a belt 2024 is sleeved on the outside of the first pulley 2023, and a second pulley 2025 is disposed inside the belt 2024.

[0050] When the reciprocating roller 2021 rotates, it drives the first pulley 2023 to rotate. The rotation of the first pulley 2023 drives the belt 2024 to rotate, and the rotation of the belt 2024 drives the second pulley 2025 to rotate. The rotation of the second pulley 2025 drives the other reciprocating roller 2021 to rotate, so that the two reciprocating rollers 2021 can rotate synchronously.

[0051] Specifically, the support component 200 also includes a rotating component 203, which includes a turntable 2031. The turntable 2031 is fixed to one side of the rotating wheel 103, and a drive wheel 2032 is provided on one side of the turntable 2031. The drive wheel 2032 is fixed to one end of the reciprocating roller 2021.

[0052] When the motor 2036 is started, it can drive the drive wheel 2032 to rotate. At this time, the rotation of the drive wheel 2032 can drive the reciprocating roller 2021 to rotate. At the same time, the rotation of the drive wheel 2032 can drive the turntable 2031 to rotate slowly. The rotation of the turntable 2031 can drive the rotating wheel 103 to rotate.

[0053] Example 3

[0054] Reference Figures 1-11 This is the third embodiment of the present invention, which is based on the first two embodiments.

[0055] Specifically, a lever 2033 is fixed to one side of the drive wheel 2032, and a movable strip 2034 is fixed to one side of the turntable 2031.

[0056] When the drive wheel 2032 rotates, it can drive the paddle block 2033 to rotate. The rotation of the paddle block 2033 contacts and presses the movable bar 2034. Then, the rotation of the movable bar 2034 can drive the turntable 2031 to rotate. When the paddle block 2033 rotates to the point of separating from the movable bar 2034, the turntable 2031 can stop rotating.

[0057] Specifically, a locking post 2035 is fixed on one side of the turntable 2031, and a driving groove 2035-1 corresponding to the locking post 2035 is opened on the drive wheel 2032.

[0058] When the toggle block 2033 rotates to separate from the movable bar 2034, the drive groove 2035-1 on the drive wheel 2032 can rotate to engage with the locking post 2035. Then, the rotation of the drive groove 2035-1 can drive the locking post 2035 to move and make the turntable 2031 rotate. When the drive groove 2035-1 rotates and separates from the locking post 2035, the turntable 2031 can stop rotating. Then, when the toggle block 2033 rotates and contacts the movable bar 2034 and squeezes it, it will drive the turntable 2031 to rotate again. By repeating this process, the turntable 2031 can rotate intermittently, achieving the effect of slow rotation.

[0059] Specifically, a motor 2036 is fixed to one side of the drive wheel 2032, and a support sleeve 2037 is fitted on the outside of the motor 2036.

[0060] The user can drive the drive wheel 2032 to rotate by starting the motor 2036. The support sleeve 2037 can support the motor 2036 and prevent the motor 2036 from deviating.

[0061] Specifically, a protective cover 2038 is fitted on the outside of the support sleeve 2037, the protective cover 2038 is fixed to one side of the cleaning machine 101, and a guide frame 2039 is fixed on the top of the cleaning machine 101.

[0062] The protective cover 2038 can protect the support sleeve 2037 and related components from being hit by external debris and damaged. One side of the guide frame 2039 is set as a slope. By pouring the corn cobs into the conveyor belt 102 through the guide frame 2039, the guide frame 2039 can prevent the corn cobs from spilling from both sides of the conveyor belt 102 during the pouring process.

[0063] Specifically, the feeding assembly 300 also includes a connector 302, which includes a movable column 3021. The movable column 3021 is fixed to the bottom of the feeding box 3011. An extrusion roller 3022 is provided on one side of the movable column 3021. A sleeve 3023 is movably connected to the outside of the extrusion roller 3022. A support column 30231 is movably connected to one side of the sleeve 3023. A rotating wheel 3024 is fixed to one end of the support column 30231. A connecting belt 3025 is sleeved on the outside of the rotating wheel 3024. A drive frame 3026 is provided on the outside of the sleeve 3023. An extrusion disc 3027 is fixed to the top of the drive frame 3026. An extrusion strip 3028 is provided on one side of the extrusion disc 3027. A threaded sleeve 3029 is sleeved on the outside of the extrusion strip 3028. A rotating strip 3020 is movably connected to one side of the extrusion strip 3028.

[0064] A rotating bar 3020 is fixed to one side of the flip cover 3014, and a threaded sleeve 3029 is fixed to the inner wall of the feed box 3011. An extrusion bar 3028 and a threaded sleeve 3029 are threaded together. A rectangular block is fixed to one side of the extrusion bar 3028. A rectangular groove corresponding to the rectangular block is formed inside the rotating bar 3020. When the rotating bar 3020 rotates, it can drive the rectangular groove to extrude the rectangular block, thereby causing the extrusion bar 3028 to rotate. Simultaneously, the extrusion bar 3028 rotates within the threaded sleeve 3029, allowing it to move laterally within the rotating bar 3022. A rotating groove is formed on the extrusion wheel 3022, and a positioning ring is movably connected within the rotating groove. The positioning ring is fixed to the top of the sliding frame, and the positioning ring supports the extrusion wheel 3022. A rotating rod is fixed to the outside of the support column 30231, and a groove corresponding to the rotating rod is formed inside the sleeve 3023. The corresponding rotating groove, through the cooperation of the rotating rod and the rotating groove, can make the support column 30231 drive the sleeve 3023 to rotate, and at the same time make the sleeve 3023 move on the support column 30231. A support frame is movably connected to the outside of the support column 30231. The support frame is fixed to one side of the protective cover 2038. A connecting spring is fixed to one side of the support frame. The connecting spring is fixed to one side of the sleeve 3023. An inclined slot is opened on one side of the extrusion wheel 3022. An inclined block corresponding to the inclined slot is fixed to one end of the sleeve 3023. There are two rotating wheels 3024. One is fixed to one end of the support column 30231, and the other is fixed to one side of the motor 2036. The motor 2036 is a double-headed output shaft. The connecting belt 3025 is movably connected to the protective cover 2038. The sleeve 3023 and the drive frame 3026 are rotatably connected through bearings.

[0065] When the flip cover 3014 is closed, the rotating bar 3020 can be rotated. At this time, the rotation of the rotating bar 3020 will drive the extrusion bar 3028 to rotate. The extrusion bar 3028 rotates in the threaded sleeve 3029, which can move the extrusion bar 3028 to extrude the extrusion disc 3027. Then the extrusion disc 3027 can drive the drive frame 3026 to move. The movement of the drive frame 3026 can drive the ferrule 3023 to move. The ferrule 3023 can drive the inclined block and the inclined slot to separate. At the same time, the connecting spring can be compressed. At this time, the motor 2036 will rotate but will not drive the extrusion wheel 3022 to rotate.

[0066] When the flip cover 3014 is opened, the rotating bar 3020 reverses, at which point the pressing bar 3028 returns to its original position, releasing the pressure on the pressing disc 3027. The rebound force of the connecting spring causes the retaining sleeve 3023 to return to its original position, engaging the inclined locking block and the inclined locking groove. When the motor 2036 rotates, it drives the rotating wheel 3024 to rotate. The rotating wheel 3024 drives the connecting belt 3025 to rotate, and the rotation of the connecting belt 3025 drives another rotating wheel 3024 to rotate, thus... The support column 30231 rotates, which in turn drives the sleeve 3023 to rotate. The rotation of the sleeve 3023 causes the inclined plate block to press against the inclined groove, causing the extrusion wheel 3022 to rotate. When the convex surface of the extrusion wheel 3022 contacts the moving column 3021, it can drive the feed box 3011 to move. When the convex surface of the extrusion wheel 3022 separates from the moving column 3021, the feed box 3011 can return to its original position. By repeating this process, the feed box 3011 can vibrate.

[0067] When in use, open the flip cover 3014 and pour fresh sweet and glutinous corn into the feed box 3011. The flip cover 3014 drives the rotating bar 3020 to rotate. The rotating bar 3020 drives the extrusion bar 3028 to rotate through the rectangular block and the rectangular groove. The extrusion bar 3028 rotates and moves in the threaded sleeve 3029, releasing the extrusion plate 3027. The connecting spring rebounds and drives the ferrule 3023 to move, so that the inclined ferrule 3023 engages with the inclined groove of the extrusion wheel 3022. The motor 2036 is started, which drives the drive wheel 2032 to rotate. At the same time, the connecting belt 3025 drives the rotating wheel 3024 and the support column 30231 to rotate. The support column 30231 drives the ferrule 3023 to rotate. The ferrule 3023 drives the extrusion wheel 3022 to rotate. The convex surface of the extrusion wheel 3022 intermittently extrudes the moving column 3021, causing the feed box 3011 to move laterally along the connecting column 3012 and stretch the return spring 3013. The return spring 3013 rebounds, causing the feed box 3011 to return to its original position. The reciprocating vibration adjusts the corn's posture to be biased towards the lateral side.

[0068] The drive wheel 2032 rotates, driving the reciprocating roller 2021 to rotate. The reciprocating roller 2021 drives another reciprocating roller 2021 to rotate synchronously through the first pulley 2023, belt 2024 and second pulley 2025. The reverse guide groove of the reciprocating roller 2021 squeezes the guide strip of the drive block 2013, causing the drive block 2013 to drive the drive plate 2012 and the support plate 2011 to move back and forth in opposite directions on the top of the conveyor belt 102. The staggered support plate 2011 clears the accumulated corn and straightens its posture, causing it to roll axially. Simultaneously, the pusher block 2033 of the drive wheel 2032 intermittently squeezes the movable bar 2034 of the turntable 2031, and the drive groove 2035-1 intermittently engages with the locking post 2035, causing the turntable 2031 and the wheel 103 to rotate intermittently, so that the conveyor belt 102 slowly transports the corn. The corn is guided by the guide frame 2039 to prevent spillage and is thoroughly washed in the washing machine 101. After washing, the conveyor belt 102 transports the corn to the next stage. When the flip cover 3014 is closed, the rotating bar 3020 drives the extrusion bar 3028 to rotate in the opposite direction, the extrusion disc 3027 pushes the drive frame 3026 and the clamping sleeve 3023 to move, the inclined clamping block separates from the inclined clamping groove, and the feed box 3011 stops vibrating.

[0069] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.

Claims

1. A washing device for fresh sweet and glutinous corn, characterized in that: include, The main component (100) includes a cleaning machine (101), a conveyor belt (102) is provided inside the cleaning machine (101), and a wheel (103) is provided inside the conveyor belt (102). A support component (200) is disposed on the conveyor belt (102) and includes a support member (201). The support member (201) includes a support plate (2011). The support plate (2011) is located at the top of the conveyor belt (102). A drive plate (2012) is fixed to one side of the support plate (2011), and a drive block (2013) is fixed to one end of the drive plate (2012). A feeding assembly (300) is disposed on one side of the cleaning machine (101) and includes a feeding component (301). The feeding component (301) includes a feeding box (3011). A connecting post (3012) is inserted into one side of the feeding box (3011). The feeding box (3011) and the connecting post (3012) are movably connected. The connecting post (3012) is fixed to one side of the cleaning machine (101). A return spring (3013) is fixed to one side of the feeding box (3011). One end of the return spring (3013) is fixed to one side of the cleaning machine (101). A flip cover (3014) is hinged to the top of the feeding box (3011).

2. The fresh sweet and glutinous corn washing device as described in claim 1, characterized in that: The support component (200) also includes a movable component (202), which includes a reciprocating roller (2021) inserted into one side of the drive block (2013). The reciprocating roller (2021) and the drive block (2013) are movably connected.

3. The fresh sweet and glutinous corn washing device as described in claim 2, characterized in that: A positioning block (2022) is provided at one end of the reciprocating roller (2021), and the positioning block (2022) and the reciprocating roller (2021) are rotatably connected by a rotating shaft.

4. The fresh sweet and glutinous corn washing device as described in claim 3, characterized in that: One end of the reciprocating roller (2021) is fixed with a first pulley (2023), a belt (2024) is sleeved on the outside of the first pulley (2023), and a second pulley (2025) is provided inside the belt (2024).

5. The fresh sweet and glutinous corn washing device as described in claim 3 or 4, characterized in that: The support component (200) also includes a rotating component (203), which includes a turntable (2031). The turntable (2031) is fixed to one side of the rotating wheel (103). A drive wheel (2032) is provided on one side of the turntable (2031), and the drive wheel (2032) is fixed to one end of the reciprocating roller (2021).

6. The fresh sweet and glutinous corn washing device as described in claim 5, characterized in that: A lever (2033) is fixed to one side of the drive wheel (2032), and a movable strip (2034) is fixed to one side of the turntable (2031).

7. The fresh sweet and glutinous corn washing device as described in claim 6, characterized in that: A locking post (2035) is fixed on one side of the turntable (2031), and a driving groove (2035-1) corresponding to the locking post (2035) is opened on the drive wheel (2032).

8. The fresh sweet and glutinous corn washing device as described in claim 7, characterized in that: A motor (2036) is fixed to one side of the drive wheel (2032), and a support sleeve (2037) is fitted on the outside of the motor (2036).

9. The fresh sweet and glutinous corn washing device as described in claim 8, characterized in that: The support sleeve (2037) is fitted with a protective cover (2038) on the outside. The protective cover (2038) is fixed to one side of the cleaning machine (101). The top of the cleaning machine (101) is fixed with a guide frame (2039).

10. The fresh sweet and glutinous corn washing device as described in claim 8 or 9, characterized in that: The feeding assembly (300) further includes a connector (302), which includes a movable column (3021) fixed to the bottom of the feeding box (3011). A pressing wheel (3022) is provided on one side of the movable column (3021), and a retaining sleeve (3023) is movably connected to the outer side of the pressing wheel (3022). A support column (30231) is movably connected to one side of the retaining sleeve (3023), and one end of the support column (30231) is fixed... A rotating wheel (3024) is fixed, and a connecting belt (3025) is sleeved on the outside of the rotating wheel (3024). A drive frame (3026) is provided on the outside of the sleeve (3023). An extrusion plate (3027) is fixed on the top of the drive frame (3026). An extrusion strip (3028) is provided on one side of the extrusion plate (3027). A threaded sleeve (3029) is sleeved on the outside of the extrusion strip (3028). A rotating strip (3020) is movably connected to one side of the extrusion strip (3028).