A feeding device for continuous powdering of bamboo material

By designing the feeding device to work in conjunction with the feeding pipe and slide, and using the drive telescopic rod to push the push plate, continuous powdering of bamboo materials is achieved, solving the problem of low efficiency caused by the feeding equipment due to the feeding time, and improving production efficiency and equipment utilization.

CN224346026UActive Publication Date: 2026-06-12XUANCHENG HAOYUN ZHUYUAN NEW MATERIAL TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XUANCHENG HAOYUN ZHUYUAN NEW MATERIAL TECHNOLOGY CO LTD
Filing Date
2025-06-16
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

In existing bamboo powder production, the feeding equipment suffers from low operating efficiency and reduced effective operating rate due to the time required for replenishment, especially resulting in significant capacity loss in large-scale production.

Method used

A feeding device was designed to achieve continuous crushing of bamboo through the ingenious combination of the feeding pipe and the slide. The push plate driven by the drive telescopic rod pushes the feeding pipe to reset, ensuring continuous supply of materials and reducing production interruption time.

Benefits of technology

It significantly improves the production efficiency of bamboo material powdering, reduces production downtime caused by material replenishment, and enhances the effective operating rate of the equipment.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224346026U_ABST
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Abstract

This utility model belongs to the field of bamboo material processing technology, and in particular to a feeding device for continuous bamboo material powdering. It includes a crushing equipment body, a mounting frame, and a top frame. A fixed frame is slidably connected to the top frame, and a slide rail is provided on the fixed frame. A sliding plate is slidably connected to the inner wall of the slide rail. A docking frame is installed at the top of the fixed frame, and a top plate is installed at the top of the docking frame. A feeding pipe is hinged between two adjacent top plates. An adjusting frame is installed on one side of the fixed frame and the docking frame. Through the ingenious cooperation of the feeding pipe and the slide rail, after the bamboo in one feeding pipe is crushed, the fixed frame can be slid to allow another feeding pipe to align with the top frame for crushing. Simultaneously, the misaligned feeding pipe can be hinged to the top plate to adjust its angle, facilitating the replenishment of bamboo. A drive telescopic rod drives a push plate to reset the feeding pipe, achieving continuous bamboo crushing and greatly reducing production interruption time caused by material replenishment.
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Description

Technical Field

[0001] This utility model belongs to the field of bamboo material processing technology, specifically relating to a feeding device for continuous bamboo material powdering. Background Technology

[0002] In the field of bamboo powder production, the feeding device is the core hub for maintaining production continuity and efficiency. Its performance directly affects the capacity output of the entire powder production line. Most existing devices adopt a batch feeding mode. When a batch of bamboo is completely crushed, the feeding equipment needs to be stopped immediately and the material needs to be refilled manually. This process is not only time-consuming and requires a certain amount of time for each refill, but also causes the equipment to be in an ineffective idling state during the refilling period. This intermittent operation mode reduces the effective operating rate of the equipment, and the capacity loss is particularly significant in large-scale production scenarios. Utility Model Content

[0003] This utility model provides a feeding device for continuous bamboo powder production, which solves the problem of reduced operating efficiency caused by the replenishment time in feeding equipment.

[0004] This utility model provides the following technical solution: it includes a crushing equipment body, a mounting frame, and a top frame. A fixed frame is slidably connected to the top frame, and a slide rail is provided on the fixed frame. A sliding plate is slidably connected to the inner wall of the slide rail. A docking frame is installed at the top of the fixed frame, and a top plate is installed at the top of the docking frame. A feeding pipe is hinged between two adjacent top plates. An adjusting frame is installed on one side of the fixed frame and the docking frame. A drive telescopic rod is installed inside the adjusting frame. A push plate is installed at the driving end of the drive telescopic rod. The top of the push plate corresponds to one side of the feeding pipe, and an insert rod is engaged with the bottom of the feeding pipe.

[0005] The slide rail has a limit plate installed on its inner wall, and the slide plate has limit grooves at both ends that match the limit plate. A pull plate is installed at one end of the slide plate.

[0006] The top frame is equipped with diagonal supports on both sides, and the diagonal supports are slidably connected to the bottom end of the fixed frame.

[0007] The top plate has a side plate installed on its outer side, and a vertical plate is installed at the bottom of the side plate. An adjusting rod is rotatably connected between the vertical plates, and the adjusting rod is rotatably connected to the bottom of the mounting frame.

[0008] A motor is installed on one side of the upright plate, and the motor drive end is connected to one end of the adjusting rod.

[0009] The inner wall of the docking frame is equipped with a feeding plate, and one end of the push plate is equipped with a positioning plate, which is slidably connected to the adjusting frame.

[0010] The beneficial effects of this utility model are as follows: through the ingenious cooperation between the feeding pipe and the slide, after the bamboo in one feeding pipe is crushed, the sliding fixed frame can make the other feeding pipe correspond to the top frame for crushing. At the same time, the misaligned feeding pipe can be hinged to the top plate to adjust its angle, so that it can be easily replenished with bamboo. With the help of the drive telescopic rod to drive the push plate to push the feeding pipe to reset, the continuous crushing of bamboo is realized, which greatly reduces the production interruption time caused by replenishing materials and significantly improves the production efficiency of bamboo powder.

[0011] The parts of the device not covered herein are the same as or can be implemented using existing technologies. Attached Figure Description

[0012] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0013] Figure 2 This is a three-dimensional structural diagram of the docking frame in this utility model;

[0014] Figure 3 This is a three-dimensional structural diagram of the adjustment frame in this utility model;

[0015] Figure 4 This is a three-dimensional structural diagram of the fixing frame in this utility model.

[0016] In the diagram: 1. Crushing equipment body; 11. Mounting frame; 12. Top frame; 13. Inclined support; 2. Fixed frame; 21. Slide rail; 211. Limiting plate; 22. Slide plate; 221. Limiting groove; 23. Pull plate; 3. Connecting frame; 31. Discharge plate; 32. Top plate; 33. Feeding pipe; 34. Insert rod; 35. Adjusting frame; 36. Drive telescopic rod; 37. Push plate; 38. Positioning plate; 4. Side plate; 41. Vertical plate; 42. Adjusting rod; 43. Motor. Detailed Implementation

[0017] Please see Figures 1-4 The present invention provides the following technical solution: including a crushing equipment body 1, a mounting frame 11 and a top frame 12, a fixed frame 2 slidably connected to the top frame 12, a slide rail 21 opened on the fixed frame 2, a sliding plate 22 slidably connected to the inner wall of the slide rail 21, a docking frame 3 installed at the top of the fixed frame 2, a top plate 32 installed at the top of the docking frame 3, a feeding pipe 33 hinged between two adjacent top plates 32, an adjusting frame 35 installed on one side of the fixed frame 2 and the docking frame 3, a drive telescopic rod 36 installed inside the adjusting frame 35, a push plate 37 installed at the drive end of the drive telescopic rod 36, the top of the push plate 37 corresponding to one side of the feeding pipe 33, and an insert rod 34 engaged at the bottom of the feeding pipe 33.

[0018] In this implementation scheme: the crushing equipment body 1 is used for crushing bamboo. The top frame 12 installed on the crushing equipment body 1 can support the fixed frame 2. At this time, the fixed frame 2 can slide on the top frame 12, so that the connecting frame 3 installed on the fixed frame 2 can support the top plate 32. The feeding pipe 33 hinged between the top plates 32 can be adjusted by rotating it. At this time, the bamboo to be crushed can be inserted into the feeding pipe 33 through the various holes opened in the feeding pipe 33. At this time, the feeding pipe 33 can be adjusted by inserting the rod 34. The bottom limit prevents the bottom of the bamboo from passing through the feeding pipe 33, affecting the rotation and reset of the feeding pipe 33. At this time, the bottom of the docking frame 3 can correspond to the fixed frame 2. The slide 21 on the fixed frame 2 can install the sliding plate 22. The sliding plate 22 is slidably connected to the inner wall of the slide 21. After the insertion rod 34 is separated, the bottom of the bamboo can be supported on the slide 21. By sliding the docking frame 3, the feeding pipe 33 between the top plates 32 can correspond to the top frame 12. At this time, the slide 21 corresponding to the top frame 12 can be pulled outward. After the slide 21 is pulled outward, it separates from the inside of the fixed frame 2. At this point, the bottom of the bamboo supported on the slide 21 can enter the crushing equipment body 1 under its own weight, where it is crushed by the crushing rollers installed inside the crushing equipment body 1. This allows for rapid processing of the bamboo in the feeding pipe 33. After the bamboo in the first feeding pipe 33 has been crushed, the position of the sliding fixing frame 2 can be adjusted relative to the top frame 12, aligning the top frame 12 with another slide 21. The bamboo stored in the corresponding feeding pipe 33 above this slide 21 can then be processed in the same way. During the crushing process, another feeding pipe 33 can be misaligned with the top frame 12, allowing the feeding pipe 33 to rotate and adjust its angle. This allows workers to replenish a certain amount of bamboo and store it in the docking frame 3. After replenishment, the push plate 37 is pushed by the drive telescopic rod 36 installed on the inner wall of the adjusting frame 35. The push plate 37 pushes one side of the feeding pipe 33 upward, causing the push plate 37 to push the feeding pipe 33 to a position relatively perpendicular to the slide 21. This allows the device to facilitate continuous crushing of bamboo and avoids the replenishment time affecting the crushing process after a batch of bamboo has been crushed.

[0019] The inner wall of the slide 21 is equipped with a limiting plate 211, and the two ends of the slide 22 are provided with limiting grooves 221 that match the limiting plate 211. A pull plate 23 is installed at one end of the slide 22. The limiting plate 211 installed on the inner wall of the slide 21 can support and limit the slide 22 by the limiting grooves 221 at both ends of the slide 22, so that the slide 22 can maintain horizontal sliding on the inner wall of the fixed frame 2, so that the slide 22 can be stably supported on the inner wall of the slide 21, supporting the bottom of the bamboo, and at the same time allowing it to slide away and give way to the bamboo.

[0020] The top frame 12 is equipped with inclined supports 13 on both sides, and the inclined supports 13 are slidably connected to the bottom of the fixed frame 2. The inclined supports 13 installed on both sides of the top frame 12 are used to ensure that the bottom of the fixed frame 2 can be stably supported by the inclined supports 13 and the top frame 12 when the fixed frame 2 slides to adjust its corresponding position with the top frame 12, so that it slides horizontally on the fixed frame 2 to adjust the position of the feeding pipe 33.

[0021] A side plate 4 is installed on the outer side of the top plate 32, and a vertical plate 41 is installed at the bottom of the side plate 4. An adjusting rod 42 is rotatably connected between the vertical plates 41, and the adjusting rod 42 is rotatably connected to the bottom of the mounting frame 11. The side plate 4 is fixed to the outer side of the top plate 32, so that the vertical plate 41 installed at the bottom of the side plate 4 is located on both sides of the mounting frame 11. The adjusting rod 42, which is rotatably connected between the vertical plates 41, is threadedly connected to the bottom of the mounting frame 11, so that the device can adjust the position of the adjusting rod 42 at the bottom of the mounting frame 11 by rotating the adjusting rod 42, so that the position of the feeding pipe 33 can be adjusted.

[0022] A motor 43 is installed on one side of the upright plate 41. The driving end of the motor 43 is connected to one end of the adjusting rod 42. The motor 43 installed on one side of the upright plate 41 is used to drive the adjusting rod 42, so that the adjusting rod 42 can be driven to rotate, thereby allowing the adjusting rod 42 to be adjusted when it is at the bottom position of the mounting frame 11.

[0023] A feeding plate 31 is installed on the inner wall of the docking frame 3, and a positioning plate 38 is installed on one end of the push plate 37. The positioning plate 38 is slidably connected to the adjusting frame 35. The feeding plate 31 installed on the inner wall of the docking frame 3 can correspond to the feeding pipe 33. After the insertion rod 34 is separated, the bottom of the bamboo corresponds to the hole of the feeding plate 31. After the push plate 37 is pushed upward by the drive telescopic rod 36, it can slide vertically on the adjusting frame 35 with the support of the positioning plate 38, ensuring that the push plate 37 provides stable support for the feeding pipe 33, so that the feeding pipe 33 is vertically positioned between the top plates 32.

[0024] The working principle and usage process of this utility model are as follows: The bamboo to be crushed is inserted into the hole opened in the feeding pipe 33. The bottom of the feeding pipe 33 is limited by the insertion rod 34 to prevent the bottom of the bamboo from passing through the feeding pipe 33 and affecting its rotation and reset. At this time, the feeding pipe 33 is at the initial angle of hinge with the top plate 32. By sliding the connecting frame 3, the feeding pipe 33 between the top plates 32 is aligned with the top frame 12. Then, the slide 21 corresponding to the top frame 12 is pulled outward to separate and misalign it with the fixed frame 2. The bottom of the bamboo supported on the slide 21 enters the crushing equipment body 1 under its own gravity and is crushed by the crushing rollers inside the crushing equipment body 1. After the bamboo in the first feeding pipe 33 has been crushed, the sliding fixed frame 2 is adjusted to correspond with the top frame 12 so that the top frame 12 corresponds with another slide 21. The above operation is repeated to crush the bamboo stored in the corresponding feeding pipe 33 above the slide 21. During this process, the other misaligned feeding pipe 33 can be rotated to adjust its angle. The staff replenishes the bamboo stored in the docking frame 3. After replenishment, the drive telescopic rod 36 on the inner wall of the adjusting frame 35 drives the push plate 37 to push the feeding pipe 33 upward so that it is vertical between the top plates 32, and the next round of feeding and crushing operation continues. This cycle is repeated to achieve continuous powdering and feeding of bamboo materials.

Claims

1. A feeding device for continuous bamboo powder grinding, comprising a grinding equipment body (1), a mounting frame (11), and a top frame (12), characterized in that: A fixed frame (2) is slidably connected to the top frame (12). A slide rail (21) is provided on the fixed frame (2). A slide plate (22) is slidably connected to the inner wall of the slide rail (21). A docking frame (3) is installed at the top of the fixed frame (2). A top plate (32) is installed at the top of the docking frame (3). A feeding pipe (33) is hinged between two adjacent top plates (32). An adjusting frame (35) is installed on one side of the fixed frame (2) and the docking frame (3). A drive telescopic rod (36) is installed inside the adjusting frame (35). A push plate (37) is installed at the driving end of the drive telescopic rod (36). The top of the push plate (37) corresponds to one side of the feeding pipe (33). A plug rod (34) is engaged with the bottom of the feeding pipe (33).

2. The feeding device for continuous bamboo powder milling according to claim 1, characterized in that: The inner wall of the slide (21) is equipped with a limiting plate (211), and the two ends of the slide plate (22) are provided with limiting grooves (221) that match the limiting plate (211). A pull plate (23) is installed at one end of the slide plate (22).

3. The feeding device for continuous bamboo powder milling according to claim 1, characterized in that: The top frame (12) is equipped with inclined supports (13) on both sides, and the inclined supports (13) are slidably connected to the bottom end of the fixed frame (2).

4. The feeding device for continuous bamboo powder milling according to claim 1, characterized in that: A side plate (4) is installed on the outside of the top plate (32), and a vertical plate (41) is installed at the bottom of the side plate (4). An adjusting rod (42) is rotatably connected between the vertical plates (41), and the adjusting rod (42) is rotatably connected to the bottom of the mounting frame (11).

5. The feeding device for continuous bamboo powder milling according to claim 4, characterized in that: A motor (43) is installed on one side of the upright plate (41), and the driving end of the motor (43) is connected to one end of the adjusting rod (42).

6. The feeding device for continuous bamboo powder milling according to claim 1, characterized in that: The inner wall of the docking frame (3) is equipped with a feeding plate (31), and a positioning plate (38) is installed at one end of the push plate (37). The positioning plate (38) is slidably connected to the adjusting frame (35).