A corn planting device
By installing a motor-driven breaking plate and a removal mechanism above the moving wheels of the corn planter, the problem of soil clods on the surface of the moving wheels affecting planting efficiency is solved, achieving automated cleaning and improving the stability and efficiency of the planter.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 镇坪县农业技术推广站
- Filing Date
- 2025-08-12
- Publication Date
- 2026-07-03
AI Technical Summary
The surface of the moving wheels of existing corn planters is prone to soil clods, which affects planting efficiency and quality, and requires frequent manual cleaning, increasing labor intensity.
An installation frame is set above the moving wheels of the seeder. The built-in motor drives the rotating shaft to rotate the dispersing plate. The dispersing plate rotates in opposite directions to the moving wheels, breaking up the surface soil clods. The electric telescopic rod drives the scraper to slide inside the partition plate to remove the accumulated soil clods.
It effectively breaks up and removes soil clods from the surface of the moving wheels, ensuring stable operation of the seeder, reducing the frequency of manual cleaning, and improving sowing efficiency and quality.
Smart Images

Figure CN224439660U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of agricultural machinery, and in particular to a corn planting device. Background Technology
[0002] When using a corn planter, it is generally moved by a tractor. The rotating wheels on both sides of the planter cause the corn to fall evenly, thus achieving sowing. Currently available planters tend to have a lot of soil clods adhering to their rotating wheels during use. Continuous use will affect sowing efficiency and quality, requiring timely manual cleaning and increasing the labor intensity of workers. Therefore, a corn sowing device is proposed to address the above problems. Utility Model Content
[0003] In view of the above-mentioned problems in the prior art, the main purpose of this utility model is to provide a corn planting device, in which a motor is installed inside the mounting frame, the motor drives the rotating shaft to rotate, the rotating shaft drives the dispersing plate to rotate, the rotating shaft rotates in the opposite direction to the moving wheel, and the dispersing plate is used to disperse the soil clods on the surface of the moving wheel, which helps to disperse the soil clods on the surface of the moving wheel and make them fall off, thus ensuring the stable use of the moving wheel.
[0004] To achieve the above objectives, the technical solution adopted by this utility model is: a corn planting device, including a seeder;
[0005] The front of the seeder is equipped with a traction frame for connecting to a tractor, and the traction frame has wheels on both sides.
[0006] Above the traction frame, there are symmetrically arranged mounting frames. Motors are fixedly connected inside each mounting frame. A rotating shaft is fixedly connected to the end of the motor's main shaft, and the other end of the rotating shaft is rotatably connected to the mounting frame.
[0007] Evenly distributed dispersing plates are fixedly connected to the outer side of the rotating shaft;
[0008] Vertically arranged partitions are also installed on the inside of the mounting frame;
[0009] The inner wall of the mounting frame is equipped with a removal mechanism for removing soil clods between the breakup boards.
[0010] Furthermore, triangular blocks are fixedly connected to the side of the disassembly board facing the partition board.
[0011] When using a corn planter, it is generally moved by a tractor. The rotating wheels on both sides of the planter cause the corn to fall evenly, thus achieving sowing. Currently available planters tend to have a lot of soil clods adhering to their rotating wheels during use. Continuous use will affect sowing efficiency and quality, requiring timely manual cleaning and increasing the labor intensity of the workers. When in use, the power is connected, and a horizontally mounted frame is set above the rotating wheels. A motor is installed inside the mounting frame. The motor drives the rotating shaft to rotate, and the rotating shaft drives the breaking plate to rotate. The rotating shaft rotates in the opposite direction to the rotating wheels. The breaking plate is used to break up the soil clods on the surface of the rotating wheels, helping to dislodge the soil clods and ensuring stable use of the rotating wheels.
[0012] Furthermore, the rejection mechanism includes a mounting cylinder fixedly connected to the mounting frame, an electric telescopic rod fixedly connected to the inner side of the mounting cylinder, a fixed sleeve fixedly connected to the outer side of the free end of the electric telescopic rod, a moving rod fixedly connected to the outer side of the fixed sleeve, and a rejection body fixedly connected to the other end of the moving rod. The rejection bodies are arranged in multiple groups, and a connecting frame is fixedly connected between each rejection body.
[0013] Furthermore, a guide block is fixedly connected to one end of the free end of the electric telescopic rod, and the outer side of the guide block is slidably connected to the inner side of the mounting cylinder.
[0014] Furthermore, the connecting frame is arc-shaped and is located on the outside of the rejection body, away from the partition plate.
[0015] Furthermore, the outer side of the rejection body is slidably connected to the partition plate, and the rejection body includes a rejection block that is fixedly connected to the connecting frame. One side of the rejection block is provided with a tip, and both sides of the tip are provided with arc surfaces.
[0016] After the soil clods are broken up by the breaking plate, the fixed sleeve is moved by the electric telescopic rod, the fixed sleeve moves the moving rod, and the moving rod moves the scraper to slide inside the partition plate. This is used to scrape the soil clods piled between the breaking plates until they fall to one side, ensuring the normal use of the breaking plate.
[0017] The removal block has a pointed tip on one side, which, together with the triangular block, can make the removal block stably positioned between the breaking plates, while the curved surface acts as a guide to ensure that the removal block is stably positioned between the breaking plates, thereby achieving the purpose of removing soil clods.
[0018] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0019] A horizontally positioned mounting frame is set above the mobile wheel, and a motor is set inside the mounting frame. The motor drives the rotating shaft to rotate, and the rotating shaft drives the dispersing plate to rotate. The rotating shaft rotates in the opposite direction to the mobile wheel. The dispersing plate is used to break up the soil clods on the surface of the mobile wheel, which helps to break up the soil clods on the surface of the mobile wheel and make them fall off, thus ensuring the stable use of the mobile wheel.
[0020] After the soil clods are broken up by the breaking plate, the fixed sleeve is moved by the electric telescopic rod, the fixed sleeve moves the moving rod, and the moving rod moves the scraper to slide inside the partition plate. This is used to scrape the soil clods piled between the breaking plates until they fall to one side, ensuring the normal use of the breaking plate.
[0021] The removal block has a pointed tip on one side, which, together with the triangular block, can make the removal block stably positioned between the breaking plates, while the curved surface acts as a guide to ensure that the removal block is stably positioned between the breaking plates, thereby achieving the purpose of removing soil clods. Attached Figure Description
[0022] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0023] Figure 2 This is a schematic diagram of the mounting frame structure of this utility model;
[0024] Figure 3 This is a schematic diagram of the triangular block structure of this utility model;
[0025] Figure 4 This is a schematic diagram of the rejection mechanism of this utility model;
[0026] Figure 5 This is a schematic diagram of the connecting frame structure of this utility model;
[0027] Figure 6 This is a schematic diagram of the removal body structure of this utility model.
[0028] Legend: 1. Seeder; 2. Traction frame; 3. Moving wheel; 4. Mounting frame; 5. Motor; 6. Rotating shaft; 7. Dispersing plate; 8. Removing mechanism; 801. Mounting cylinder; 802. Electric telescopic rod; 803. Fixing sleeve; 804. Moving rod; 805. Removing body; 8051. Removing block; 8052. Tip; 8053. Curved surface; 806. Connecting frame; 807. Guide block; 9. Separator plate; 10. Triangular block. Detailed Implementation
[0029] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are some embodiments of this utility model, but not all embodiments. Example
[0030] A corn planting device, such as Figure 1-6 As shown, it includes a seeder 1;
[0031] The front of the seeder 1 is equipped with a traction frame 2 for connecting to the tractor, and the two sides of the traction frame 2 are equipped with movable wheels 3.
[0032] Above the traction frame 2, there are also symmetrically arranged mounting frames 4. Motors 5 are fixedly connected inside the mounting frames 4. The main shaft of the motor 5 is fixedly connected to the end of the rotating shaft 6. The other end of the rotating shaft 6 is rotatably connected to the mounting frame 4.
[0033] Evenly distributed dispersing plates 7 are fixedly connected to the outer side of the rotating shaft 6;
[0034] A vertically arranged partition plate 9 is also installed on the inner side of the mounting frame 4;
[0035] The inner wall of the mounting frame 4 is equipped with a removal mechanism 8 for removing soil clods between the breaking plates 7.
[0036] Triangular blocks 10 are fixedly connected to the side of the dispersing plate 7 facing the partition plate 9.
[0037] When using a corn planter, it is generally moved by a tractor. The rotating wheels on both sides of the planter rotate and cause the corn to fall evenly, thus achieving sowing. Currently, the surface of the rotating wheels of the planters on the market is prone to a large amount of soil clods. Continuous use will affect the sowing efficiency and quality, requiring timely manual cleaning, which increases the labor intensity of the workers. When in use, the power is turned on, and a horizontally set mounting frame 4 is set above the rotating wheels 3. The motor 5 is set inside the mounting frame 4. The motor 5 drives the rotating shaft 6 to rotate, and the rotating shaft 6 drives the dispersing plate 7 to rotate. The rotating shaft 6 rotates in the opposite direction to the rotating wheels 3. The dispersing plate 7 is used to break up the soil clods on the surface of the rotating wheels 3, which helps to break up the soil clods on the surface of the rotating wheels 3 and make them fall off, ensuring the stable use of the rotating wheels 3.
[0038] The removal mechanism 8 is used to remove soil clods between the disintegration plates 7 after the disintegration plates 7 stop rotating. The end of the disintegration plate 7 away from the triangular block 10 is a certain distance from the mounting frame 4, which helps the removal mechanism 8 to smoothly remove the soil clods between the disintegration plates 7. The triangular block 10 is set in the shape of a triangular prism and plays a guiding role to ensure that the removal mechanism 8 is smoothly positioned between the disintegration plates 7.
[0039] The separator 9 is used to separate the dispersing plate 7 and the motor 5, ensuring that soil clods do not easily enter to the other side and affect the use of the equipment.
[0040] The rejection mechanism 8 includes a mounting cylinder 801 fixedly connected to the mounting frame 4. A horizontally arranged electric telescopic rod 802 is fixedly connected to the inner side of the mounting cylinder 801. A fixed sleeve 803 is fixedly connected to the outer side of the free end of the electric telescopic rod 802. A movable rod 804 is fixedly connected to the outer side of the fixed sleeve 803. A rejection body 805 is fixedly connected to the other end of the movable rod 804. Multiple rejection bodies 805 are arranged in groups, and a connecting frame 806 is fixedly connected between each rejection body 805.
[0041] A guide block 807 is fixedly connected to one free end of the electric telescopic rod 802. The outer side of the guide block 807 is slidably connected to the inner side of the mounting cylinder 801.
[0042] The connecting frame 806 is arc-shaped and is located on the outside of the rejecting body 805 away from the partition plate 9.
[0043] The outer side of the rejection body 805 is slidably connected to the partition plate 9. The rejection body 805 includes a rejection block 8051 that is fixedly connected to the connecting frame 806. A tip 8052 is provided on one side of the rejection block 8051, and arc surfaces 8053 are provided on both sides of the tip 8052.
[0044] After the soil clods are broken up by the breaking plate 7, the fixed sleeve 803 is moved by the electric telescopic rod 802, the fixed sleeve 803 moves the moving rod 804, and the moving rod 804 moves the scraper 805 to slide inside the partition plate 9, which is used to scrape the soil clods accumulated between the breaking plates 7 until they fall to one side, ensuring the normal use of the breaking plate 7.
[0045] The removal body 805 has a pointed tip 8052 on one side, which works in conjunction with the triangular block 10 to guide the removal body 805 so that it can be stably positioned between the disintegration plates 7. The arc surface 8053 also serves as a guide to ensure that the removal block 8051 is stably positioned between the disintegration plates 7, thereby achieving the purpose of removing soil clods.
[0046] The connecting frame 806 is located on one side of the rejection body 805 to prevent the connecting frame 806 from contacting the partition plate 9 and affecting the use of the equipment. The guide block 807 is set to ensure the stable movement of the moving end of the electric telescopic rod 802.
[0047] Finally, it should be noted that the above-described embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such 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 corn planting device, characterized in that: Including seeders (1); The front side of the seeder (1) is equipped with a traction frame (2) for connecting with the tractor, and the two sides of the traction frame (2) are equipped with moving wheels (3). Above the traction frame (2) are also symmetrically arranged mounting frames (4). Motors (5) are fixedly connected inside the mounting frames (4). A rotating shaft (6) is fixedly connected to the end of the main shaft of the motor (5). The other end of the rotating shaft (6) is rotatably connected to the mounting frame (4). The outer side of the rotating shaft (6) is fixedly connected with evenly distributed dispersing plates (7); The inner side of the mounting frame (4) is also equipped with a vertically arranged partition plate (9); The inner wall of the mounting frame (4) is equipped with a removal mechanism (8) for removing soil clods between the disintegration plates (7).
2. A corn planter as claimed in claim 1, wherein: Triangular blocks (10) are fixedly connected to the side of the dispersing plate (7) facing the partition plate (9).
3. A corn planter as claimed in claim 1, wherein: The rejection mechanism (8) includes a mounting cylinder (801) fixedly connected to the mounting frame (4). A horizontally arranged electric telescopic rod (802) is fixedly connected to the inner side of the mounting cylinder (801). A fixed sleeve (803) is fixedly connected to the outer side of the free end of the electric telescopic rod (802). A moving rod (804) is fixedly connected to the outer side of the fixed sleeve (803). A rejection body (805) is fixedly connected to the other end of the moving rod (804). The rejection bodies (805) are arranged in multiple groups, and a connecting frame (806) is fixedly connected between each rejection body (805).
4. A corn planter as claimed in claim 3, wherein: The free end of the electric telescopic rod (802) is fixedly connected to a guide block (807), and the outer side of the guide block (807) is slidably connected to the inner side of the mounting cylinder (801).
5. A corn planter as claimed in claim 3, wherein: The connecting frame (806) is arc-shaped and is located on the outside of the rejecting body (805) away from the partition plate (9).
6. A corn planter as set forth in claim 3, wherein: The outer side of the rejection body (805) is slidably connected to the partition plate (9). The rejection body (805) includes a rejection block (8051) that is fixedly connected to the connecting frame (806). A tip (8052) is provided on one side of the rejection block (8051), and arc surfaces (8053) are provided on both sides of the tip (8052).