A new material raw material turnover device based on silicon

By designing an automatic flipping device, the problem of manpower occupation caused by manual flipping of silicon-based new material raw materials was solved, realizing automatic flipping and efficient pretreatment of raw materials.

CN224324670UActive Publication Date: 2026-06-05HUBEI PANDAR SILICON-BASED NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUBEI PANDAR SILICON-BASED NEW MATERIALS CO LTD
Filing Date
2025-08-04
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

In existing technologies, the pretreatment of both sides of silicon-based new material raw materials requires manual flipping, which leads to excessive manpower consumption and affects production efficiency.

Method used

A silicon-based new material raw material flipping device was designed, which includes a clamping structure, a flipping structure, and a translation structure. The device uses a flipping cylinder and a swing rod to achieve automatic flipping of the raw material, and the use of a conveyor belt reduces manual operation.

Benefits of technology

It enables automatic flipping of silicon-based new material raw materials, reduces manpower, improves production efficiency, and ensures that all four sides can be pre-processed.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224324670U_ABST
    Figure CN224324670U_ABST
Patent Text Reader

Abstract

The utility model relates to the technical field of silicon-based new material, especially to a silicon-based new material raw material turnover device. Including: clamping structure, turnover structure, translation structure, clamping structure is used for clamping raw material, turnover structure includes trajectory board, swing lever, turnover cylinder, one end swing lever is swing with trajectory board is connected, the other end swing lever is connected with clamping structure, turnover cylinder is connected with swing lever transmission, to drive swing lever swing relative to trajectory board, swing angle of swing lever is 90 DEG, translation structure includes translation cylinder, translation cylinder is connected with trajectory board transmission, to drive clamping structure, turnover structure translation. In prior art, raw material is turned over by manual, needs to additionally occupy manpower. Compared with prior art, the utility model turns over raw material through clamping structure clamping raw material, and adjusts the overall position through translation structure. Thus, raw material can be turned over, thereby effectively saving manpower.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of silicon-based new materials technology, and in particular to a silicon-based new material raw material flipping device. Background Technology

[0002] Silicon-based glass is a high-performance glass material made primarily of silicon dioxide through modern processes or by combining it with other elements. Its characteristics include high strength, high temperature resistance, corrosion resistance, and excellent optical properties, making it widely used in optoelectronic displays, new energy, semiconductor packaging, and biomedicine. By adjusting the composition ratio or employing special processes, it can be endowed with special functions such as conductivity and self-cleaning.

[0003] In actual production, to facilitate subsequent processing, the surface of the silicon-based new material raw material needs to be pretreated. This is especially true for the front and back sides, which have a significant impact on the performance of the finished glass. Although the other four surfaces are less affected, they are in direct contact with the components used to assemble the glass after it is made; therefore, pretreatment of these four surfaces is essential for maximizing the glass's performance. However, pretreatment of these four surfaces requires workers to assist in flipping the raw material and pretreating each surface individually, necessitating additional manpower. Utility Model Content

[0004] In view of the technical problems of the prior art, this utility model provides a silicon-based new material raw material flipping device.

[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution:

[0006] A silicon-based new material raw material flipping device includes: a clamping structure, a flipping structure, and a translation structure; the clamping structure is used to clamp the raw material; the flipping structure includes a track plate, a swing rod, and a flipping cylinder; one end of the swing rod is oscillatingly connected to the track plate; the other end of the swing rod is connected to the clamping structure; the flipping cylinder is drivenly connected to the swing rod to drive the swing rod to swing relative to the track plate; the swing angle of the swing rod is 90°; the translation structure includes a translation cylinder; the translation cylinder is drivenly connected to the track plate to drive the clamping structure and the flipping structure to translate.

[0007] Furthermore, the clamping structure includes clamping plates, clamping cylinders, and clamping assembly plates; one clamping plate is fixedly connected to the clamping assembly plate; the clamping assembly plate is fixedly connected to the swing rod; the clamping cylinder is fixedly connected to the clamping assembly plate; the output end of the clamping cylinder abuts against the other clamping plate to drive the clamping plates to move relative to each other.

[0008] Furthermore, the clamping structure also includes a buffer spring; one end of the buffer spring is connected to the clamping assembly plate, and the other end is connected to the clamping plate.

[0009] Furthermore, the flipping structure also includes a transmission rod; a transmission groove is provided on the transmission rod; the transmission groove is opened in the vertical direction; the transmission groove extends from one end of the transmission rod to the other end; one end of the swing rod extends into the transmission groove; the flipping cylinder is fixedly installed on one side of the transmission rod; the extension and retraction direction of the flipping cylinder is perpendicular to the opening direction of the transmission groove (241).

[0010] Furthermore, a track groove is provided on the track plate; one end of the swing rod extends into the track groove; the track groove is arc-shaped corresponding to the swing path of the swing rod.

[0011] Furthermore, the translation structure also includes a translation assembly plate; the translation assembly plate is fixedly connected to the track plate and the tilting cylinder; the output end of the translation cylinder is fixedly connected to the translation assembly plate.

[0012] Furthermore, the translation structure also includes a final assembly plate; the translation assembly plate is slidably connected to the final assembly plate; and the final assembly plate is fixedly connected to the translation cylinder. Attached Figure Description

[0013] Figure 1 Overall structure diagram.

[0014] Figure 2 Overall structural diagram of the clamping structure.

[0015] Figure 3 : Overall structural diagram of the flip structure.

[0016] Figure 4 : Overall structural diagram of the translation structure.

[0017] In the diagram: 1. Clamping structure; 11. Clamping plate; 12. Clamping cylinder; 13. Clamping assembly plate; 14. Buffer spring; 2. Flipping structure; 21. Track plate; 22. Swing rod; 23. Flipping cylinder; 211. Track groove; 24. Transmission rod; 241. Transmission groove; 3. Translation structure; 31. Translation cylinder; 32. Translation assembly plate; 33. Final assembly plate. Detailed Implementation

[0018] The following are specific embodiments of the present invention, which are described in conjunction with the accompanying drawings. However, the present invention is not limited to these embodiments.

[0019] A silicon-based new material raw material flipping device includes: a clamping structure 1, a flipping structure 2, and a translation structure 3. The clamping structure 1 is used to clamp the raw material. The flipping structure 2 includes a track plate 21, a swing rod 22, and a flipping cylinder 23. One end of the swing rod 22 is oscillatingly connected to the track plate 21. The other end of the swing rod 22 is connected to the clamping structure 1. The flipping cylinder 23 is drive-connected to the swing rod 22 to drive the swing rod 22 to swing relative to the track plate 21. The swing angle of the swing rod 22 is 90°. The translation structure 3 includes a translation cylinder 31. The translation cylinder 31 is drive-connected to the track plate 21 to drive the clamping structure 1 and the flipping structure 2 to translate.

[0020] In practice, this invention requires the use of two conveyor belts. The two conveyor belts are aligned end-to-end, with one conveyor belt positioned higher than the other. The raw material is vertically positioned on the higher conveyor belt. This invention is positioned between the two conveyor belts. Simultaneously, the clamping structure 1 is matched to the conveyor belt's transport direction, allowing the raw material on the higher conveyor belt to enter the clamping structure 1 under the conveyor belt's transport. This enables the clamping structure 1 to properly clamp the raw material.

[0021] In practical applications, after the clamping structure 1 clamps the raw material, the translation cylinder 31 actuates to drive the clamping structure 1 and the flipping structure 2 to translate synchronously. This prevents interference between the higher conveyor belt and the raw material in subsequent processes. Then, the flipping cylinder 23 actuates. Driven by the flipping cylinder 23, the swing rod 22 swings relative to the track plate 21, thereby causing the clamping structure 1 to swing. Finally, driven by the swing rod 22, the swing angle of the clamping structure 1 is 90°. This flips the raw material clamped by the clamping structure 1, allowing for preprocessing of the currently facing surface. Subsequently, the raw material can be returned to the clamping structure 1 using a conveyor device, thus repeating the aforementioned process. Furthermore, because the clamping structure 1 has a certain degree of horizontal displacement during the swinging process, the raw material transitions from the higher conveyor belt to the lower conveyor belt. In summary, this invention can effectively flip raw materials, thereby effectively reducing manpower requirements.

[0022] Secondly, the clamping structure 1 includes a clamping plate 11, a clamping cylinder 12, and a clamping assembly plate 13. One of the clamping plates 11 is fixedly connected to the clamping assembly plate 13. The clamping assembly plate 13 is fixedly connected to the swing rod 22. The clamping cylinder 12 is fixedly connected to the clamping assembly plate 13. The output end of the clamping cylinder 12 abuts against the other clamping plate 11 to drive the clamping plates 11 to move relative to each other. Simultaneously, the clamping structure 1 also includes a buffer spring 14. One end of the buffer spring 14 is connected to the clamping assembly plate 13, and the other end is connected to the clamping plate 11.

[0023] When the clamping cylinder 12 actuates, it pushes the corresponding clamping plate 11 to move, increasing the distance between the two clamping plates 11 and allowing the raw material to enter between them. Simultaneously, as the clamping cylinder 12 pushes the clamping plate 11, the clamping plate 11 pulls the buffer spring 14, causing the buffer spring 14 to accumulate elastic force. Subsequently, the clamping cylinder 12 retracts, releasing the accumulated elastic force of the buffer spring 14, thereby pulling the two clamping plates 11 closer together. Finally, the output end of the clamping cylinder 12 disengages from the clamping plate 11. At this point, the clamping plate 11 uses the accumulated elastic force of the buffer spring 14 to clamp the raw material. Therefore, the force applied to the raw material is gentler. This also prevents the clamping plate 11 from over-clamping the raw material and causing uncontrollable deformation if the clamping cylinder 12 malfunctions.

[0024] On the other hand, the flipping structure 2 also includes a transmission rod 24. A transmission groove 241 is formed on the transmission rod 24. The transmission groove 241 is formed vertically. The transmission groove 241 extends from one end of the transmission rod 24 to the other end. One end of the swing rod 22 extends into the transmission groove 241. A flipping cylinder 23 is fixedly mounted on one side of the transmission rod 24. The extension and retraction direction of the flipping cylinder 23 is perpendicular to the forming direction of the transmission groove 241. A track plate 21 has a track groove 211. One end of the swing rod 22 extends into the track groove 211. The track groove 211 is arc-shaped, corresponding to the swing path of the swing rod 22.

[0025] When the tilting cylinder 23 is activated, it drives the transmission rod 24 to slide. At this time, the transmission rod 24 pushes one end of the swing rod 22 through the transmission groove 241. Since the other end of the swing rod 22 is connected to the track plate 21, when the transmission rod 24 pushes the swing rod 22, it will cause the swing rod 22 to swing. As a result, the swing rod 22 will drive the clamping assembly plate 13 to move synchronously, thereby causing the clamping structure 1 to swing. Finally, the swing rod 22 will cause the clamping structure 1 to swing 90°, thereby changing the orientation of the opening between the clamping plates 11 and adjusting the state of the raw material. At the same time, during the swinging process of the swing rod 22, the track groove 211 on the track plate 21 will provide appropriate support and limit the swing rod 22.

[0026] The translation structure 3 also includes a translation assembly plate 32. The translation assembly plate 32 is fixedly connected to the track plate 21 and the tilting cylinder 23. The output end of the translation cylinder 31 is fixedly connected to the translation assembly plate 32. Furthermore, the translation structure 3 also includes a final assembly plate 33. The translation assembly plate 32 is slidably connected to the final assembly plate 33. The final assembly plate 33 is fixedly connected to the translation cylinder 31.

[0027] The assembly plate 33 is the mounting point of this utility model. The assembly plate 33 allows this utility model to be assembled with other support rods and other structures to meet actual assembly requirements. When the translation cylinder 31 is activated, it pushes the translation assembly plate 32 to slide relative to the assembly plate 33. This, in turn, causes the track plate 21 and the tilting cylinder 23 to slide synchronously, thereby causing the clamping structure 1 and the tilting structure 2 to slide.

[0028] It is worth noting that the actions and sequence of the clamping cylinder 12, the tilting cylinder 23, and the translation cylinder 31 can be preset by the corresponding control system. The control system for the cylinders is existing technology and will not be described in detail here.

[0029] The specific embodiments described herein are merely illustrative examples illustrating the spirit of this utility model. Those skilled in the art to which this utility model pertains may make various modifications or additions to the described specific embodiments or use similar methods to replace them, without departing from the spirit of this utility model or exceeding the scope defined by the appended claims.

Claims

1. A silicon-based new material raw material flipping device, characterized in that: include: Clamping structure, flipping structure, translation structure; The clamping structure is used to clamp the raw material; The flipping structure includes a track plate, a swing rod, and a flipping cylinder; One end of the swing rod is swayably connected to the track plate; The other end of the swing rod is connected to the clamping structure; The tilting cylinder is connected to the swing rod in a transmission connection so as to drive the swing rod to swing relative to the track plate; The swing angle of the swing arm is 90°; The translation structure includes a translation cylinder; The translation cylinder is connected to the track plate to drive the clamping structure and the flipping structure to translate.

2. The silicon-based new material flipping device according to claim 1, characterized in that: The clamping structure includes a clamping plate, a clamping cylinder, and a clamping assembly plate; One of the clamping plates is fixedly connected to the clamping assembly plate; The clamping assembly plate is fixedly connected to the swing rod; The clamping cylinder is fixedly connected to the clamping assembly plate; The output end of the clamping cylinder abuts against another clamping plate to drive the clamping plates to move relative to each other.

3. The silicon-based new material flipping device according to claim 2, characterized in that: The clamping structure also includes a buffer spring; One end of the buffer spring is connected to the clamping assembly plate, and the other end is connected to the clamping plate.

4. The silicon-based new material flipping device according to claim 1, characterized in that: The flipping structure also includes a transmission rod; The transmission rod is provided with a transmission groove; The transmission groove is opened in the vertical direction; The transmission groove extends from one end of the transmission rod to the other end; One end of the swing rod extends into the transmission groove; The tilting cylinder is fixedly mounted on one side of the transmission rod; The extension and retraction direction of the tilting cylinder is perpendicular to the opening direction of the transmission groove.

5. The silicon-based new material flipping device according to claim 4, characterized in that: The track plate is provided with track grooves; One end of the swing rod extends into the track groove; The trajectory groove is arc-shaped, corresponding to the swing path of the swing rod.

6. The silicon-based new material flipping device according to claim 1, characterized in that: The translation structure also includes a translation assembly plate; The translation assembly plate is fixedly connected to the track plate and the tilting cylinder; The output end of the translation cylinder is fixedly connected to the translation assembly plate.

7. The silicon-based new material flipping device according to claim 6, characterized in that: The translation structure also includes an assembly plate; The translation assembly plate is slidably connected to the final assembly plate; The assembly plate is fixedly connected to the translation cylinder.