Chain and flight feeder

By designing a chain plate feeding device, the problem of uneven conveying surface during the conveying of magnetic materials was solved, achieving stable conveying and improved product quality, and it is suitable for the production and processing of magnetic materials.

CN224492486UActive Publication Date: 2026-07-14ANJI KECHENG MAGNEIL CMAIERIACS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANJI KECHENG MAGNEIL CMAIERIACS CO LTD
Filing Date
2025-06-25
Publication Date
2026-07-14

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  • Figure CN224492486U_ABST
    Figure CN224492486U_ABST
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Abstract

The utility model provides a kind of chain plate type feeding device, and feeding device includes conveying rack, chain plate type conveying belt, driving device, tension adjusting device and conveying face supporting device, the conveying rack is stably supported on ground, and the both ends of conveying rack are provided with conveying wheel, and chain plate type conveying belt is connected on conveying wheel, and the conveying wheel of both ends of chain plate type conveying belt drives and circulates, and the conveying wheel of one side is driving wheel and is connected with driving device, and the conveying wheel of other side is driven wheel and is connected on conveying rack by tension adjusting device, and tension adjusting device changes the relative distance of both ends conveying wheel, and chain plate type conveying belt is adjusted by this to adjust the tension of chain plate type conveying belt, the upside of chain plate type conveying belt is horizontal conveying face, and chain plate type conveying belt is used, and chain plate type structure has good supporting rigidity, has better load bearing effect, and conveying face supporting device is arranged in the lower part of conveying face.
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Description

Technical Field

[0001] This utility model relates to a feeding device suitable for processing magnetic materials, specifically a chain plate feeding device. Background Technology

[0002] Magnetic materials are hard, magnetic materials formed from magnetic raw materials through processes such as grinding, shaping, and sintering. They often use ferromagnetic minerals. After crushing and grinding, these minerals are pressed and shaped. The shaped magnetic materials then need to be pre-dried and sintered, thus requiring a stable feeding device. The shaped magnetic material blanks are dense and often stacked in multiple layers, resulting in a large conveying load. Conventional conveying devices are prone to uneven conveying surfaces and skewing, affecting the stacked blanks, causing deformation of the lower blanks, and even collapse and damage. Therefore, a stable feeding device is needed. Utility Model Content

[0003] The purpose of this utility model is to overcome the above-mentioned deficiencies in the prior art and to provide a chain plate feeding device.

[0004] The technical solution adopted by this utility model to solve the above problems is as follows: The feeding device includes a conveyor frame, a chain plate conveyor belt, a drive device, a tension adjustment device, and a conveyor surface support device. The conveyor frame is stably supported on the ground. Conveyor wheels are provided at both ends of the conveyor frame. The chain plate conveyor belt is connected to the conveyor wheels. The conveyor wheels at both ends of the chain plate conveyor belt are driven and run in a cycle. One side of the conveyor wheel is the driving wheel and is connected to the drive device. The other side of the conveyor wheel is the driven wheel and is connected to the conveyor frame through the tension adjustment device. The tension adjustment device changes the relative distance between the two conveyor wheels and thereby adjusts the tension of the chain plate conveyor belt. The upper side of the chain plate conveyor belt is a horizontal conveyor surface. A conveyor surface support device is provided at the lower part of the conveyor surface. The conveyor surface support device supports the chain plate structure of the support surface. The conveyor frame forms the structural foundation, using a chain-plate conveyor belt. The chain-plate structure has good supporting rigidity and a good load-bearing capacity. Furthermore, a conveyor surface support device is installed at the lower part of the conveyor surface. This support device can support the connection points of the chain plates, preventing unevenness of the support surface caused by bending at the connection points. This can effectively improve the stability of the conveyor surface support, ensuring the structural stability of the conveyed magnetic materials and stabilizing product quality.

[0005] Furthermore, the chain conveyor belt is formed by multiple support plates connected in series. A drive chain is synchronously connected to the side of each support plate, and the drive chain has the same length as the support plates connected in series. The drive chain is connected to a drive device and drives the support plates to circulate. The support plates are flat, plate-like structures, and adjacent support plates are rotatably connected by hinges, allowing free rotation within a rotatable range. The support plates themselves have good rigidity, and the hinged connection between them provides a large range of rotation without affecting the normal circulatory operation of the conveyor belt. Driven by a drive chain, it offers good conveying force and support strength, and can withstand large workloads.

[0006] Furthermore, the conveyor surface support device includes a sliding roller assembly, which comprises multiple individual rotating rollers forming a horizontal support surface structure. Support plates slide horizontally across the sliding roller assembly. The spacing between the individual rotating rollers is smaller than the connection spacing of the support plates, and the rotating rollers are designed for free rotation. The sliding roller assembly, formed by multiple rotating rollers with a spacing smaller than the connection spacing of the support plates, effectively supports the passing support plates and minimizes rotational resistance, allowing for smooth passage through the chain conveyor belt.

[0007] Furthermore, the tension adjustment device includes a distance adjustment frame, a distance adjustment moving block, and an adjustment rod. The distance adjustment frame is mounted on the conveyor platform and has a horizontally adjustable distance space. The distance adjustment moving block is located within the distance adjustment frame, and a conveyor wheel is rotatably connected to the moving block. One end of the adjustment rod is connected to the moving block via a rotating component, and the other end is spirally connected to the outer edge of the distance adjustment frame. The tension adjustment device can adjust the tension of the chain conveyor belt, effectively improving the flatness of the conveying surface and enhancing the stability of the conveying process.

[0008] Furthermore, the conveyor frame is equipped with guard plates on both sides, which are arranged upright relative to each other. A conveying channel is formed between the guard plates, and the height of the conveying channel is higher than the stacking height of the magnetic material blanks. The conveying channel is straight and parallel to the running direction of the chain conveyor belt. The guard plates form a channel structure on both sides, which can restrict the space for passing magnetic materials, etc., to avoid external influences affecting the stability of the conveying and improve the reliability of the conveying.

[0009] Compared with the prior art, this utility model has the following advantages and effects: This design is a chain plate type conveying and feeding device, which can provide a reliable transportation tool for the production and processing of magnetic materials, achieve stable conveying, avoid damage to the product structure, improve product quality, facilitate the smooth passage of magnetic materials between different processing equipment, and maintain the shape accuracy. Attached Figure Description

[0010] Figure 1 This is a schematic diagram of a chain plate feeding device.

[0011] Figure 2 yes Figure 1 A partially enlarged structural diagram.

[0012] Figure 3 This is a top view of the chain plate feeding device.

[0013] In the diagram: 1. Conveying platform, 2. Chain conveyor belt, 3. Drive unit, 4. Tension adjustment device, 5. Conveying surface support device, 6. Conveying wheel, 8. Sliding roller group, 9. Distance adjustment frame, 10. Distance adjustment moving block, 11. Adjusting rod, 12. Guard plate, 13. Support plate. Detailed Implementation

[0014] The present invention will be further described in detail below with reference to the accompanying drawings and through embodiments. The following embodiments are explanations of the present invention, but the present invention is not limited to the following embodiments.

[0015] A chain plate feeding device includes a conveyor frame 1, a chain plate conveyor belt 2, a drive device 3, a tension adjustment device 4, and a conveyor surface support device 5. The conveyor frame 1 is stably supported on the ground. Conveyor wheels 6 are provided at both ends of the conveyor frame 1, and the chain plate conveyor belt 2 is connected to the conveyor wheels 6. The chain plate conveyor belt 2 is driven and circulates through the conveyor wheels 6 at both ends. One side of the conveyor wheel 6 is the driving wheel and is connected to the drive device 3, while the other side of the conveyor wheel 6 is the driven wheel and is connected to the conveyor frame 1 through the tension adjustment device 4. The tension adjustment device 4 changes the relative distance between the two conveyor wheels 6, thereby adjusting the tension of the chain plate conveyor belt 2. The upper side of the chain plate conveyor belt 2 is a horizontal conveyor surface, and the lower part of the conveyor surface is provided with a conveyor surface support device 5, which supports the chain plate structure of the support surface.

[0016] The chain plate conveyor belt 2 is formed by multiple support plates 13 connected in series. A drive chain is also synchronously connected to the side of the support plate 13. The drive chain and the support plate 13 are of the same length after being connected in series. The drive chain is connected to the drive device 3 and drives the support plate 13 to run in a cycle. The support plate 13 is a flat plate structure. Adjacent support plates 13 are connected by hinges and can rotate freely within the range of rotatable angles.

[0017] The conveying surface support device 5 includes a sliding roller group 8, which is provided with multiple individual rotating rollers. The rotating rollers form a horizontal support surface structure. The support plate 13 slides horizontally on the sliding roller group 8. The distance between the individual rotating rollers is smaller than the connection distance of the support plate 13. The rotating rollers are set to rotate freely.

[0018] The tension adjustment device 4 includes a distance adjustment frame 9, a distance adjustment moving block 10, and an adjustment rod 11. The distance adjustment frame 9 is set on the conveyor frame 1 and has a horizontal adjustment distance space. The distance adjustment moving block 10 is set in the distance adjustment frame 9. The conveyor wheel 6 is rotatably connected to the distance adjustment moving block 10. One end of the adjustment rod 11 is connected to the distance adjustment moving block 10 through a rotating part, and the other end is spirally connected to the outer side of the distance adjustment frame 9.

[0019] The conveying platform 1 is provided with guard plates 12 on both sides. The guard plates 12 are set upright relative to each other, and a conveying channel is set between the guard plates 12. The height of the conveying channel is higher than the stacking height of the magnetic material blank. The conveying channel is set straight and parallel to the running direction of the chain plate conveyor belt 2.

[0020] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered exemplary rather than restrictive in all respects. The scope of this invention is defined by the claims rather than the foregoing description, and thus all variations falling within the meaning and scope of equivalents of the claims are intended to be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

[0021] Furthermore, it should be understood that although this specification describes the embodiments, not every embodiment contains only one independent technical solution. This description method is only for clarity. Those skilled in the art should regard the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims

1. A chain plate feeding device, characterized in that: The feeding device includes a conveyor frame (1), a chain conveyor belt (2), a drive device (3), a tension adjustment device (4), and a conveyor surface support device (5). The conveyor frame (1) is stably supported on the ground. Conveyor wheels (6) are provided at both ends of the conveyor frame (1). The chain conveyor belt (2) is connected to the conveyor wheels (6). The chain conveyor belt (2) is driven and circulates at both ends of the conveyor wheels (6). One side of the conveyor wheel (6) is the driving wheel and is connected to the drive device (3). The other side of the conveyor wheel (6) is the driven wheel and is connected to the conveyor frame (1) through the tension adjustment device (4). The tension adjustment device (4) changes the relative distance between the two conveyor wheels (6) and thereby adjusts the tension of the chain conveyor belt (2). The upper side of the chain conveyor belt (2) is a horizontal conveyor surface. The lower part of the conveyor surface is provided with a conveyor surface support device (5). The conveyor surface support device (5) supports the chain structure of the support surface.

2. The chain plate feeding device according to claim 1, characterized in that: The chain plate conveyor belt (2) is formed by multiple support plates (13) connected in series. A drive chain is also synchronously connected to the side of the support plate (13). The drive chain has the same length as the support plate (13) after being connected in series. The drive chain is connected to the drive device (3) and drives the support plate (13) to run in a cycle. The support plate (13) is a flat plate structure. Adjacent support plates (13) are connected by hinges and can rotate freely within the range of rotatable angles.

3. The chain plate feeding device according to claim 2, characterized in that: The conveying surface support device (5) includes a sliding roller group (8), which is provided with multiple individual rotating rollers. The rotating rollers form a horizontal support surface structure. The support plate (13) slides horizontally on the sliding roller group (8). The distance between the individual rotating rollers is less than the connection distance of the support plate (13). The rotating rollers are set to rotate freely.

4. The chain plate feeding device according to claim 1, characterized in that: The tension adjustment device (4) includes a distance adjustment frame (9), a distance adjustment moving block (10), and an adjustment rod (11). The distance adjustment frame (9) is set on the conveyor frame (1) and has a horizontal adjustment distance space. The distance adjustment frame (9) is set in the distance adjustment frame (9). The conveyor wheel (6) is rotatably connected to the distance adjustment moving block (10). One end of the adjustment rod (11) is connected to the distance adjustment moving block (10) through a rotating part, and the other end is spirally connected to the outer side of the distance adjustment frame (9).

5. The chain plate feeding device according to claim 1, characterized in that: The conveying platform (1) is provided with guard plates (12) on both sides. The guard plates (12) are set upright relative to each other. The guard plates (12) are set as a conveying channel. The height of the conveying channel is higher than the stacking height of the magnetic material blank. The conveying channel is set straight and parallel to the running direction of the chain plate conveyor belt (2).