A fruit and vegetable sorting mechanism

By designing a detachable mounting frame and component structure, the problems of difficult assembly and transportation of fruit and vegetable sorting mechanisms have been solved, achieving convenient assembly and efficient sorting.

CN224389403UActive Publication Date: 2026-06-23REEMOON TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
REEMOON TECH CO LTD
Filing Date
2025-06-27
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing fruit and vegetable sorting facilities are difficult to assemble and transport due to the large number of sorting channels and the resulting large width of the facilities.

Method used

Design a detachable fruit and vegetable sorting mechanism, including detachable mounting frames and components, which are disassembled into multiple parts for easy transportation and assembly, and the splicing process is simplified by using threaded connectors and hoisting equipment.

Benefits of technology

It enables convenient assembly and transportation of fruit and vegetable sorting mechanisms, improves assembly and conveying efficiency, increases the number of sorting channels, and enhances sorting speed.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model relates to fruit and vegetable sorting technical field discloses a fruit and vegetable sorting mechanism, including first mounting bracket, fruit and vegetable input component, second mounting bracket, third mounting bracket and fruit and vegetable output component, all first mounting bracket is arranged along first preset direction, and adjacent two first mounting brackets are detachably connected, fruit and vegetable input component is detachably installed in corresponding first mounting bracket, first preset direction is perpendicular to second preset direction, and all first mounting bracket is detachably installed in the same side of second mounting bracket, all third mounting bracket is arranged along first preset direction, and adjacent two third mounting brackets are detachably connected, and first mounting bracket, second mounting bracket and third mounting bracket are arranged along second preset direction, and all third mounting bracket is detachably installed in second mounting bracket, fruit and vegetable input component is detachably installed in corresponding third mounting bracket, with solve the technical problem that fruit and vegetable sorting mechanism is difficult to assemble.
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Description

Technical Field

[0001] This utility model relates to the field of fruit and vegetable sorting technology, and in particular to a fruit and vegetable sorting mechanism. Background Technology

[0002] Currently, fruits and vegetables are a type of food that people often consume. Fruits and vegetables include citrus fruits, cherries, apples, pears, and tomatoes. After ripening, fruits and vegetables need to be harvested and then transported to factories for sorting and processing to facilitate subsequent packaging and sales.

[0003] In related technologies, fruit and vegetable sorting mechanisms can include multiple sorting channels and multiple output channels. Users can put fruits and vegetables into the input end of the sorting channel. As the fruits and vegetables pass through the sorting channel, the fruit and vegetable sorting mechanism can collect information about the fruits and vegetables and transport them to a corresponding output channel based on the information.

[0004] However, in order to increase the sorting speed, a large number of sorting channels are required, resulting in a larger width for the fruit and vegetable sorting mechanism. The fruit and vegetable sorting mechanism needs to be disassembled into multiple parts for vehicle transportation, making it difficult to assemble. Utility Model Content

[0005] The present invention aims to provide a fruit and vegetable sorting mechanism to solve the technical problem that the existing fruit and vegetable sorting mechanisms are difficult to assemble.

[0006] The technical problem solved by this utility model embodiment is addressed by the following technical solution:

[0007] A fruit and vegetable sorting mechanism is provided, comprising:

[0008] At least two first mounting brackets, all of which are arranged along a first preset direction, and two adjacent first mounting brackets are detachably connected;

[0009] Fruit and vegetable input components, each of which is detachably mounted on a corresponding first mounting bracket;

[0010] The second mounting bracket, the first mounting bracket and the second mounting bracket are arranged along a second preset direction, the first preset direction is perpendicular to the second preset direction, and all the first mounting brackets can be detached and installed on the same side of the second mounting bracket;

[0011] At least two third mounting brackets are provided, all of which are arranged along a first preset direction. Two adjacent third mounting brackets are detachably connected. The second mounting bracket and the third mounting brackets are arranged along a second preset direction. All of the third mounting brackets are detachably mounted on the side of the second mounting bracket facing away from the first mounting bracket.

[0012] Fruit and vegetable output components, each of the fruit and vegetable input components being detachably mounted on a corresponding third mounting bracket.

[0013] With the above structure, the fruit and vegetable sorting mechanism can be divided into a first mounting frame, a fruit and vegetable input component, a second mounting frame, a third mounting frame, and a fruit and vegetable output component, so that the first mounting frame, the fruit and vegetable input component, the second mounting frame, the third mounting frame, and the fruit and vegetable output component can all be independently loaded into the transport vehicle.

[0014] In the assembly process of the fruit and vegetable sorting mechanism, all the first mounting frames can be assembled together to form a whole. Then, the second mounting frame is installed on top of the first mounting frame. Next, the third mounting frames are installed one by one on the second mounting frames. The second mounting frames provide positioning for all the third mounting frames, making the assembly of the first, second, and third mounting frames easier. Then, each fruit and vegetable input component is installed into its corresponding first mounting frame, and each fruit and vegetable output component is installed into its corresponding third mounting frame, completing the assembly of the fruit and vegetable sorting mechanism. This makes the assembly of the fruit and vegetable sorting mechanism more convenient.

[0015] In some embodiments, each of the first mounting brackets includes a first mounting sidewall disposed along the second preset direction; the first mounting sidewall of one first mounting bracket is abutted against the first mounting sidewall of an adjacent first mounting bracket and is detachably connected.

[0016] With the above structure, during the assembly process of two adjacent first mounting brackets, only one first mounting bracket needs to be moved so that the first mounting sidewall of one first mounting bracket is close to the first mounting sidewall of the adjacent first mounting bracket. Then, the two first mounting brackets can be assembled together by threaded connectors or other connection structures, which simplifies the splicing process between two adjacent first mounting brackets.

[0017] In some embodiments, each of the first mounting brackets includes a plurality of positioning rods, all of which are arranged along the second preset direction; a plurality of positioning slots are provided below the fruit and vegetable input component, all of which are arranged along the first preset direction; each positioning rod is disposed in a corresponding positioning slot.

[0018] With the above structure, during the process of installing the fruit and vegetable input component into the corresponding first mounting frame, the fruit and vegetable input component can first be lifted by the hoisting equipment and moved to the top of the corresponding first mounting frame. Then, the fruit and vegetable input component is slowly lowered. During the descent of the fruit and vegetable input component, the horizontal position can be adjusted so that each positioning rod is aligned with the corresponding positioning slot until each positioning rod is set in the corresponding positioning slot, and then the fruit and vegetable input component can be installed into the corresponding first mounting frame.

[0019] In some embodiments, the first mounting bracket includes a first positioning plate, and the second mounting bracket includes a second positioning plate. Both the first positioning plate and the second positioning plate are perpendicular to the horizontal plane, and the extending directions of both the first positioning plate and the second positioning plate are parallel to the second preset direction. Each first positioning plate is attached to a corresponding second positioning plate, and the arrangement direction of the first positioning plate and the corresponding second positioning plate is parallel to the first preset direction.

[0020] With the above structure, when the first mounting bracket is installed on the second mounting bracket, the first positioning plate of the first mounting bracket is first assembled with a corresponding second positioning plate on the second mounting bracket so that the first mounting bracket and the second mounting bracket are positioned to facilitate the splicing of the first mounting bracket and the second mounting bracket.

[0021] In some embodiments, the second mounting bracket further includes a first positioning post, and the third mounting bracket includes a second positioning post. Both the first positioning post and the second positioning post are perpendicular to the horizontal plane. Each first positioning post is connected to a corresponding second positioning post, and the arrangement direction of the first positioning post and the corresponding second positioning post is parallel to the second preset direction.

[0022] With the above structure, when the second mounting bracket is installed on the third mounting bracket, the second positioning post of the third mounting bracket is first assembled with a corresponding first positioning post on the second mounting bracket so that the third mounting bracket and the second mounting bracket are positioned to facilitate the splicing of the third mounting bracket and the second mounting bracket.

[0023] In some embodiments, the fruit and vegetable input component includes multiple parallel fruit and vegetable conveying channels, the conveying direction of which is parallel to the second preset direction.

[0024] With the above structure, the fruit and vegetable input component includes multiple parallel fruit and vegetable conveying channels, so that the fruit and vegetable sorting mechanism can have a larger number of fruit and vegetable conveying channels to improve the conveying efficiency of fruits and vegetables.

[0025] In some embodiments, the third mounting bracket includes at least two sub-mounting brackets, all of which are arranged along the second preset direction, and adjacent sub-mounting brackets are detachably connected.

[0026] With the above structure, the third mounting frame includes at least two sub-mounting frames, so that the sub-mounting frames are smaller in size and easier to load into transport vehicles; during the assembly of the fruit and vegetable sorting mechanism, the sub-mounting frames can be assembled first to form the third mounting frame, and then the third mounting frame can be spliced ​​to other structures.

[0027] In some embodiments, the fruit and vegetable output component includes sub-output components, each of which is detachably mounted on a corresponding sub-mounting frame. The sub-output component includes a plurality of fruit and vegetable output channels arranged in parallel, and the conveying direction of the fruit and vegetable output channels is parallel to the first preset direction.

[0028] With the above structure, the sub-output component includes multiple fruit and vegetable output channels arranged in parallel, so that the fruit and vegetable sorting mechanism can include a larger number of fruit and vegetable output channels, further improving the sorting speed of the fruit and vegetable sorting mechanism.

[0029] In some embodiments, the number of third mounting brackets is two, and each sub-mounting bracket includes a positioning mother plate. The positioning mother plate is located on the side of the sub-mounting bracket facing away from an adjacent third mounting bracket. The positioning mother plate is perpendicular to a first preset direction and is located at the upper end of the sub-mounting bracket.

[0030] The sub-output component includes a positioning sub-plate, which is perpendicular to the first preset direction and located at the upper end of the sub-output component. The positioning sub-plate of the sub-output component abuts against the positioning mother plate of the corresponding sub-mounting bracket.

[0031] With the above structure, when the sub-output component is installed into a corresponding sub-mounting frame, the sub-output component can first be lifted by the hoisting equipment and moved to the top of the corresponding sub-mounting frame. Then, the sub-output component is slowly lowered. During the descent of the sub-output component, the horizontal position can be adjusted so that each positioning sub-plate is in contact with a corresponding positioning mother plate, and the fruit and vegetable input component can be installed into the corresponding first mounting frame.

[0032] In some embodiments, the fruit and vegetable sorting mechanism further includes a fourth mounting frame, wherein the third mounting frame and the fourth mounting frame are arranged along a second preset direction, and all the third mounting frames can be detachably mounted on the same side of the fourth mounting frame from the side facing away from the second mounting frame.

[0033] Through the above structure, the fourth mounting bracket fixes the side of all the third mounting brackets facing away from the second mounting bracket, so that the structure of all the third mounting brackets can be more stable.

[0034] In some embodiments, the fruit and vegetable sorting mechanism further includes a drive assembly located on the side of the fourth mounting frame opposite to the third mounting frame. The drive assembly is detachably mounted on the fourth mounting frame and is used to drive the fruit and vegetable input assembly.

[0035] With the above structure, the drive component can drive the conveyor chain or conveyor belt, which can pass through the fruit and vegetable input component and the fruit and vegetable sorting component in sequence. During the movement of the conveyor chain or conveyor belt, the fruit and vegetables can be moved from the fruit and vegetable input component to the fruit and vegetable sorting component.

[0036] Compared with existing technologies, the fruit and vegetable sorting mechanism can be disassembled into a first mounting frame, a fruit and vegetable input component, a second mounting frame, a third mounting frame, and a fruit and vegetable output component, so that the first mounting frame, the fruit and vegetable input component, the second mounting frame, the third mounting frame, and the fruit and vegetable output component can all be independently loaded into the transport vehicle.

[0037] In the assembly process of the fruit and vegetable sorting mechanism, all the first mounting frames can be assembled together to form a whole. Then, the second mounting frame is installed on top of the first mounting frame. Next, the third mounting frames are installed one by one on the second mounting frames. The second mounting frames provide positioning for all the third mounting frames, making the assembly of the first, second, and third mounting frames easier. Then, the fruit and vegetable input component is installed into its corresponding first mounting frame, and the fruit and vegetable output component is installed into its corresponding third mounting frame, completing the assembly of the fruit and vegetable sorting mechanism. This makes the assembly of the fruit and vegetable sorting mechanism more convenient. Attached Figure Description

[0038] One or more embodiments are illustrated by way of example with reference numerals in the accompanying drawings. These illustrations do not constitute a limitation on the embodiments. Elements with the same reference numerals in the drawings are denoted as similar elements. Unless otherwise stated, the figures in the drawings do not constitute a limitation on scale.

[0039] Figure 1 This is a perspective view of a fruit and vegetable sorting mechanism in one embodiment of this utility model;

[0040] Figure 2 yes Figure 1 An exploded view of a fruit and vegetable sorting facility in China;

[0041] Figure 3 yes Figure 1 A partial view of the connection between the first and second mounting frames of the fruit and vegetable sorting mechanism in the middle;

[0042] Figure 4 yes Figure 1 A partial view of the connection between the second and third mounting frames of the fruit and vegetable sorting mechanism;

[0043] Figure 5 yes Figure 1 A three-dimensional view of the first mounting frame of the fruit and vegetable sorting mechanism in the middle;

[0044] Figure 6 yes Figure 1A three-dimensional view of the first mounting frame and the fruit and vegetable input component of the fruit and vegetable sorting mechanism in the middle when they are disassembled;

[0045] Figure 7 yes Figure 1 A three-dimensional view of the second mounting frame and the fruit and vegetable output component of the fruit and vegetable sorting mechanism in the middle when they are disassembled;

[0046] Figure 8 yes Figure 1 A three-dimensional view of the sub-mounting frame and sub-output component of the fruit and vegetable sorting mechanism during assembly.

[0047] Figure label:

[0048] 100. Fruit and vegetable sorting mechanism; 10. First mounting frame; 12. First mounting sidewall; 14. Positioning rod; 16. First positioning plate; 20. Fruit and vegetable input component; 202. Fruit and vegetable conveying channel; 204. Positioning groove; 30. Second mounting frame; 32. Second positioning plate; 34. First positioning post; 40. Third mounting frame; 42. Sub-mounting frame; 422. Positioning mother plate; 44. Second positioning post; 50. Fruit and vegetable output component; 52. Sub-output component; 522. Positioning sub-plate; 5202. Fruit and vegetable output channel; 60. Fourth mounting frame; 70. Drive component; L1. First preset direction; L2. Second preset direction. Detailed Implementation

[0049] To facilitate understanding of this utility model, a more detailed description is provided below with reference to the accompanying drawings and specific embodiments. It should be noted that when an element is described as "connected" to another element, it can be directly on the other element, or one or more intermediate elements can exist between them. The terms "upper," "lower," "left," "right," "upper end," "lower end," "top," and "bottom," etc., used in this specification indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing 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, and therefore should not be construed as a limitation of this utility model. Furthermore, the terms "first," "second," etc., are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0050] Unless otherwise defined, all technical and scientific terms used in this specification have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains. The terminology used in this specification is for the purpose of describing particular embodiments only and is not intended to limit the scope of the invention.

[0051] The following detailed description, in conjunction with all the accompanying drawings, uses specific embodiments to illustrate a fruit and vegetable sorting mechanism 100 provided in this application.

[0052] Please refer to Figure 1 and Figure 2 One embodiment of this utility model discloses a fruit and vegetable sorting mechanism 100, including a first mounting frame 10, a fruit and vegetable input component 20, a second mounting frame 30, a third mounting frame 40, and a fruit and vegetable output component 50; the number of first mounting frames 10 is at least two, all of the first mounting frames 10 are arranged along a first preset direction L1, and two adjacent first mounting frames 10 are detachably connected; each fruit and vegetable input component 20 is detachably installed on a corresponding first mounting frame 10; the first mounting frames 10 and the second mounting frames 30 are arranged along a second preset direction L2, the first preset direction L1 is perpendicular to the second preset direction L2, and all the first mounting frames 10 are detachably installed on the same side of the second mounting frame 30.

[0053] The number of third mounting brackets 40 is at least two, and all third mounting brackets 40 are arranged along the first preset direction L1. Adjacent third mounting brackets 40 are detachably connected. The second mounting bracket 30 and the third mounting brackets 40 are arranged along the second preset direction L2. All third mounting brackets 40 are detachably installed on the side of the second mounting bracket 30 facing away from the first mounting bracket 10. Each fruit and vegetable input component 20 is detachably installed on a corresponding third mounting bracket 40.

[0054] With the above structure, the fruit and vegetable sorting mechanism 100 can be divided into a first mounting frame 10, a fruit and vegetable input component 20, a second mounting frame 30, a third mounting frame 40, and a fruit and vegetable output component 50, so that the first mounting frame 10, the fruit and vegetable input component 20, the second mounting frame 30, the third mounting frame 40, and the fruit and vegetable output component 50 can all be independently loaded into the transport vehicle.

[0055] During the assembly of the fruit and vegetable sorting mechanism 100, all the first mounting frames 10 can be assembled together to form a whole. Then, the second mounting frame 30 is installed on the first mounting frame 10. Next, the third mounting frames 40 are installed one by one on the second mounting frames 30. The second mounting frames 30 can position all the third mounting frames 40, making it easier to assemble the first mounting frames 10, second mounting frames 30, and third mounting frames 40. Then, each fruit and vegetable input component 20 is installed into its corresponding first mounting frame 10, and each fruit and vegetable output component 50 is installed into its corresponding third mounting frame 40, thus completing the assembly of the fruit and vegetable sorting mechanism 100; thereby making the assembly of the fruit and vegetable sorting mechanism 100 more convenient.

[0056] Specifically, in this embodiment, the first mounting frame 10, the second mounting frame 30, and the third mounting frame 40 can all include a frame structure formed by splicing steel bars and steel plates; the fruit and vegetable input component 20 can include multiple parallel fruit and vegetable conveying channels 202. The fruit and vegetable input component 20 can be installed into the first mounting frame 10 from above, so that the hoisting equipment can directly install the fruit and vegetable input component 20 into the first mounting frame 10. The fruit and vegetable input component 20 can convey fruits and vegetables through a conveyor belt or conveyor chain plate. The fruit and vegetable input component 20 and the first mounting frame 10, as well as two adjacent first mounting frames 10, can be detachably connected to each other using threaded connectors.

[0057] The length of the second mounting bracket 30 in the first preset direction L1 can be greater than the length of the second mounting bracket 30 in the second preset direction L2; the fruit and vegetable sorting mechanism 100 may also include a small fruit return component, and the fruit and vegetable input component 20 can remove smaller fruits and vegetables through small holes, and the removed small fruits can be transported to the next structure by the small fruit return component.

[0058] The third mounting frame 40 may include multiple interconnected frame bodies. The fruit and vegetable output component 50 can be installed from above the third mounting frame 40, so that the hoisting equipment can directly install the fruit and vegetable output component 50 into the third mounting frame 40. The fruit and vegetable output component 50 can transport fruits and vegetables through a conveyor belt or conveyor chain plate. The fruit and vegetable output component 50 may include multiple parallel fruit and vegetable output channels 5202.

[0059] The fruit and vegetable sorting mechanism 100 may also include a fruit and vegetable sorting component; the fruit and vegetable sorting component may be installed on the third mounting frame 40 and located above the fruit and vegetable output component 50; the fruit and vegetable sorting component may include an electronic scale or a camera; the fruit and vegetable sorting component may collect information about the fruits and vegetables, such as weight information or surface image information, and transport the fruits and vegetables to a corresponding fruit and vegetable output channel 5202 according to the information.

[0060] In other embodiments, the first mounting bracket 10, the second mounting bracket 30 and the third mounting bracket 40 may also include other structures, such as a box structure with an opening at the top.

[0061] Please refer to Figure 3 , Figure 4 , Figure 5 and Figure 6 In some embodiments, each first mounting bracket 10 includes a first mounting sidewall 12, which is disposed along a second preset direction L2; the first mounting sidewall 12 of one first mounting bracket 10 is closely attached to the first mounting sidewall 12 of an adjacent first mounting bracket 10 and is detachably connected.

[0062] With the above structure, during the assembly process, only one first mounting bracket 10 needs to be moved so that the first mounting sidewall 12 of one first mounting bracket 10 is close to the first mounting sidewall 12 of the adjacent first mounting bracket 10. Then, the two first mounting brackets 10 can be assembled together by threaded connectors or other connection structures, which simplifies the splicing process between the two adjacent first mounting brackets 10.

[0063] Specifically, in this embodiment, there are two first mounting brackets 10. All the steel bars on the side of the first mounting bracket 10 are located in the same vertical plane to form a first mounting sidewall 12. The vertical plane is parallel to the second preset direction L2. The first mounting sidewall 12 may also be provided with multiple threaded holes for threaded connectors or other connection structures to be installed.

[0064] In other embodiments, the number of first mounting brackets 10 may be other, such as three or four; the side of the first mounting bracket 10 may also include a steel plate, and the first mounting sidewall 12 is located on the steel plate of the first mounting bracket 10.

[0065] In some embodiments, each first mounting bracket 10 includes a plurality of positioning rods 14, all of which are arranged along a second preset direction L2; a plurality of positioning slots 204 are provided below the fruit and vegetable input component 20, all of which are arranged along a first preset direction L1; each positioning rod 14 is disposed in a corresponding positioning slot 204.

[0066] With the above structure, during the process of installing the fruit and vegetable input component 20 into the corresponding first mounting frame 10, the fruit and vegetable input component 20 can first be lifted by the hoisting equipment and moved above the corresponding first mounting frame 10. Then, the fruit and vegetable input component 20 can be slowly lowered. During the descent of the fruit and vegetable input component 20, the horizontal position can be adjusted so that each positioning rod 14 is aligned with the corresponding positioning groove 204 until each positioning rod 14 is set in the corresponding positioning groove 204, and then the fruit and vegetable input component 20 can be installed into the corresponding first mounting frame 10.

[0067] Specifically, in this embodiment, the positioning rod 14 can be located at the upper end of the first mounting bracket 10, and the extension direction of the positioning rod 14 can be parallel to the second preset direction L2. The positioning rod 14 can include a steel bar structure; the fruit and vegetable input component 20 can include multiple parallel steel bar structures, and the extension direction of the steel bar structure of the fruit and vegetable input component 20 can be parallel to the second preset direction L2. The middle part of the steel bar structure is cut off to form a positioning groove 204.

[0068] In other embodiments, the angle between the extension direction of the positioning rod 14 and the first preset direction L1 can be other angles, such as 60°; the fruit and vegetable input component 20 can also include a steel block, and the positioning groove 204 is formed on the steel block.

[0069] In some embodiments, the first mounting bracket 10 includes a first positioning plate 16, and the second mounting bracket 30 includes a second positioning plate 32. Both the first positioning plate 16 and the second positioning plate 32 are perpendicular to the horizontal plane, and the extension directions of the first positioning plate 16 and the second positioning plate 32 are parallel to the second preset direction L2. Each first positioning plate 16 is attached to a corresponding second positioning plate 32, and the arrangement direction of the first positioning plate 16 and the second positioning plate 32 is parallel to the first preset direction L1.

[0070] With the above structure, when the first mounting bracket 10 is installed on the second mounting bracket 30, the first positioning plate 16 of the first mounting bracket 10 and a corresponding second positioning plate 32 on the second mounting bracket 30 are first assembled together so that the first mounting bracket 10 and the second mounting bracket 30 are positioned together so as to facilitate the splicing of the first mounting bracket 10 and the second mounting bracket 30.

[0071] Specifically, both the first positioning plate 16 and the second positioning plate 32 can be rectangular plate structures.

[0072] In some embodiments, the second mounting bracket 30 further includes a first positioning post 34, and the third mounting bracket 40 includes a second positioning post 44. Both the first positioning post 34 and the second positioning post 44 are perpendicular to the horizontal plane. Each first positioning post 34 is connected to a corresponding second positioning post 44, and the arrangement direction of the first positioning post 34 and the corresponding second positioning post 44 is parallel to the second preset direction L2.

[0073] With the above structure, when the second mounting bracket 30 is installed on the third mounting bracket 40, the second positioning post 44 of the third mounting bracket 40 is first assembled with a corresponding first positioning post 34 on the second mounting bracket 30 so that the third mounting bracket 40 and the second mounting bracket 30 are positioned to each other so as to facilitate the splicing of the third mounting bracket 40 and the second mounting bracket 30.

[0074] Specifically, both the first positioning post 34 and the second positioning post 44 can be hollow steel posts.

[0075] In some embodiments, the fruit and vegetable input component 20 includes a plurality of parallel fruit and vegetable conveying channels 202, the conveying direction of which is parallel to a second preset direction L2.

[0076] With the above structure, the fruit and vegetable input component 20 includes multiple parallel fruit and vegetable conveying channels 202, so that the fruit and vegetable sorting mechanism 100 can have a larger number of fruit and vegetable conveying channels 202 to improve the conveying efficiency of fruits and vegetables.

[0077] Specifically, in this embodiment, there are two fruit and vegetable input components 20, one of which includes six fruit and vegetable conveying channels 202, and the other includes four fruit and vegetable conveying channels 202.

[0078] In other embodiments, the two fruit and vegetable input components 20 may also include the same number of fruit and vegetable conveying channels 202.

[0079] Please refer to Figure 7 and Figure 8 In some embodiments, the third mounting bracket 40 includes at least two sub-mounting brackets 42, all of which are arranged along a second preset direction L2, and adjacent sub-mounting brackets 42 are detachably connected.

[0080] With the above structure, the third mounting frame 40 includes at least two sub-mounting frames 42, so that the sub-mounting frames 42 are smaller in size and easier to load into transport vehicles; during the assembly process of the fruit and vegetable sorting mechanism 100, the sub-mounting frames 42 can be assembled first to form the third mounting frame 40, and then the third mounting frame 40 can be spliced ​​to other structures.

[0081] Specifically, in this embodiment, the third mounting bracket 40 includes two sub-mounting brackets 42; the sub-mounting brackets 42 may include a frame structure in the shape of a rectangle, and the sub-mounting brackets 42 in the same third mounting bracket 40 may be detachably connected by threaded connectors.

[0082] In other embodiments, the third mounting bracket 40 may also include other numbers of sub-mounting brackets 42, such as three or four.

[0083] In some embodiments, the fruit and vegetable output component 50 includes a sub-output component 52, each sub-output component 52 being detachably mounted on a corresponding sub-mounting bracket 42. The sub-output component 52 includes a plurality of fruit and vegetable output channels 5202 arranged in parallel, and the conveying direction of the fruit and vegetable output channels 5202 is parallel to a first preset direction L1.

[0084] With the above structure, the sub-output component 52 includes multiple fruit and vegetable output channels 5202 arranged in parallel, so that the fruit and vegetable sorting mechanism 100 can include a larger number of fruit and vegetable output channels 5202, thereby further improving the sorting speed of the fruit and vegetable sorting mechanism 100 for fruits and vegetables.

[0085] Specifically, there are two fruit and vegetable output components 50. In one fruit and vegetable output component 50, the conveying direction of all fruit and vegetable output channels 5202 is the same as the first preset direction L1, and in the other fruit and vegetable output component 50, the conveying direction of all fruit and vegetable output channels 5202 is opposite to the first preset direction L1.

[0086] In some embodiments, there are two third mounting brackets 40, and the sub-mounting bracket 42 includes a positioning mother plate 422. The positioning mother plate 422 is located on the side of the sub-mounting bracket 42 facing away from the adjacent third mounting bracket 40. The positioning mother plate 422 is perpendicular to the first preset direction L1 and is located at the upper end of the sub-mounting bracket 42.

[0087] The sub-output component 52 includes a positioning sub-plate 522, which is perpendicular to the first preset direction L1. The positioning sub-plate 522 is located at the upper end of the sub-output component 52, and the positioning sub-plate 522 of the sub-output component 52 abuts against the positioning mother plate 422 of the corresponding sub-mount bracket 42.

[0088] With the above structure, when the sub-output component 52 is installed into a corresponding sub-mounting frame 42, the sub-output component 52 can first be lifted by the hoisting equipment and moved above the corresponding sub-mounting frame 42. Then, the sub-output component 52 is slowly lowered. During the descent of the sub-output component 52, the horizontal position can be adjusted so that each positioning sub-plate 522 is in contact with a corresponding positioning mother plate 422, so that the fruit and vegetable input component 20 can be installed into a corresponding first mounting frame 10.

[0089] Specifically, both the positioning sub-plate 522 and the positioning mother plate 422 can be rectangular metal plates. The same sub-output component 52 can include multiple positioning sub-plates 522, and all the positioning sub-plates 522 in the same sub-output component 52 can be arranged along the second preset direction L2.

[0090] Please refer to the following: Figure 1 and Figure 2 In some embodiments, the fruit and vegetable sorting mechanism 100 further includes a fourth mounting frame 60. The third mounting frame 40 and the fourth mounting frame 60 are arranged along a second preset direction L2. All the third mounting frames 40 can be detached and installed on the same side of the fourth mounting frame 60 on the side opposite to the second mounting frame 30.

[0091] Through the above structure, the fourth mounting bracket 60 fixes all the third mounting brackets 40 on the side facing away from the second mounting bracket 30, so that the structure of all the third mounting brackets 40 can be more stable.

[0092] Specifically, the fourth mounting frame 60 may include a frame structure formed by splicing steel plates and steel bars; the fruit and vegetable sorting mechanism 100 may also include a fruit and vegetable return component, and the fourth mounting frame 60 may be used for the installation of the fruit and vegetable return component; the fruit and vegetable sorting component may miss collecting some fruit and vegetable information, and the fruit and vegetable return component is used to return the fruit and vegetable that has not been collected to the input end of the fruit and vegetable input component 20.

[0093] In some embodiments, the fruit and vegetable sorting mechanism 100 further includes a drive assembly 70, which is located on the side of the fourth mounting frame 60 facing away from the third mounting frame 40. The drive assembly 70 is detachably mounted on the fourth mounting frame 60 and is used to drive the fruit and vegetable input assembly 20.

[0094] With the above structure, the drive component 70 can drive the conveyor chain or conveyor belt, which can pass through the fruit and vegetable input component 20 and the fruit and vegetable sorting component in sequence. During the movement of the conveyor chain or conveyor belt, the fruits and vegetables can be moved from the fruit and vegetable input component 20 to the fruit and vegetable sorting component.

[0095] Specifically, in this embodiment, the drive component 70 may include a drive motor, which can drive multiple conveyor chains or conveyor belts through the same drive shaft.

[0096] In other quantities, the drive assembly 70 may also include two drive motors, each of which can drive multiple conveyor chains or conveyor belts through a drive shaft. The two drive motors are respectively mounted on opposite sides of the fourth mounting bracket 60.

[0097] The fruit and vegetable sorting mechanism 100 may also include a feeding mechanism and a cleaning mechanism, which are arranged in sequence. Users can put fruits and vegetables into the feeding mechanism, which will then move them to the cleaning mechanism, where the cleaning mechanism can clean the fruits and vegetables.

[0098] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it; under the concept of this utility model, the technical features of the above embodiments or different embodiments can also be combined, the steps can be implemented in any order, and there are many other variations of different aspects of this utility model as described above. For the sake of brevity, they are not provided in detail; although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that they can still modify the technical solutions described in the foregoing embodiments, or make equivalent substitutions for some of the technical features; and these modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this utility model.

Claims

1. A fruit and vegetable sorting mechanism, characterized in that, include: At least two first mounting brackets, all of which are arranged along a first preset direction, and two adjacent first mounting brackets are detachably connected; Fruit and vegetable input components, each of which is detachably mounted on a corresponding first mounting bracket; The second mounting bracket, the first mounting bracket and the second mounting bracket are arranged along a second preset direction, the first preset direction is perpendicular to the second preset direction, and all the first mounting brackets can be detached and installed on the same side of the second mounting bracket; At least two third mounting brackets are provided, all of which are arranged along a first preset direction. Two adjacent third mounting brackets are detachably connected. The second mounting bracket and the third mounting brackets are arranged along a second preset direction. All of the third mounting brackets are detachably mounted on the side of the second mounting bracket facing away from the first mounting bracket. Fruit and vegetable output components, each of the fruit and vegetable input components being detachably mounted on a corresponding third mounting bracket.

2. The fruit and vegetable sorting mechanism according to claim 1, characterized in that, Each of the first mounting brackets includes a first mounting sidewall, which is disposed along the second preset direction; the first mounting sidewall of one first mounting bracket is closely fitted to the first mounting sidewall of an adjacent first mounting bracket and is detachably connected.

3. The fruit and vegetable sorting mechanism according to claim 2, characterized in that, Each of the first mounting brackets includes multiple positioning rods, all of which are arranged along the second preset direction; multiple positioning slots are provided below the fruit and vegetable input component, all of which are arranged along the first preset direction; each positioning rod is disposed in a corresponding positioning slot.

4. The fruit and vegetable sorting mechanism according to claim 2, characterized in that, The first mounting bracket includes a first positioning plate, and the second mounting bracket includes a second positioning plate. Both the first positioning plate and the second positioning plate are perpendicular to the horizontal plane, and the extension directions of the first positioning plate and the second positioning plate are parallel to the second preset direction. Each first positioning plate is attached to a corresponding second positioning plate, and the arrangement direction of the first positioning plate and the corresponding second positioning plate is parallel to the first preset direction.

5. The fruit and vegetable sorting mechanism according to claim 2, characterized in that, The second mounting bracket further includes a first positioning post, and the third mounting bracket includes a second positioning post. Both the first positioning post and the second positioning post are perpendicular to the horizontal plane. Each first positioning post is connected to a corresponding second positioning post, and the arrangement direction of the first positioning post and the corresponding second positioning post is parallel to the second preset direction.

6. The fruit and vegetable sorting mechanism according to claim 1, characterized in that, The third mounting bracket includes at least two sub-mounting brackets, all of which are arranged along the second preset direction, and adjacent sub-mounting brackets are detachably connected.

7. The fruit and vegetable sorting mechanism according to claim 6, characterized in that, The fruit and vegetable output component includes sub-output components, each of which is detachably mounted on a corresponding sub-mounting frame. Each sub-output component includes multiple fruit and vegetable output channels arranged in parallel, and the conveying direction of the fruit and vegetable output channels is parallel to the first preset direction.

8. The fruit and vegetable sorting mechanism according to claim 7, characterized in that, The number of the third mounting brackets is two, and each of the sub-mounting brackets includes a positioning mother plate. The positioning mother plate is located on the side of the sub-mounting bracket facing away from the adjacent third mounting bracket. The positioning mother plate is perpendicular to the first preset direction and is located at the upper end of the sub-mounting bracket. Each of the sub-output components includes a positioning sub-plate perpendicular to the first preset direction. The positioning sub-plate is located at the upper end of the sub-output component, and the positioning sub-plate of each sub-output component abuts against the positioning mother plate of a corresponding sub-mount bracket.

9. The fruit and vegetable sorting mechanism according to claim 1, characterized in that, It also includes a fourth mounting bracket, wherein the third mounting bracket and the fourth mounting bracket are arranged along a second preset direction, and all the third mounting brackets can be detached and installed on the same side of the fourth mounting bracket from the side facing away from the second mounting bracket.

10. The fruit and vegetable sorting mechanism according to claim 9, characterized in that, It also includes a drive assembly located on the side of the fourth mounting bracket opposite to the third mounting bracket. The drive assembly is detachably mounted on the fourth mounting bracket and is used to drive the fruit and vegetable input assembly.