Aluminum ash discharging plate protection structure
By designing a protective structure for the aluminum ash feeding plate and using a combination of PTFE material and limiting posts and plates, the problems of wear and deformation of the aluminum ash feeding plate were solved, thus achieving stability and extending the service life of the plate.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI LUWEI ALUMINUM CO LTD
- Filing Date
- 2025-04-10
- Publication Date
- 2026-06-05
AI Technical Summary
The aluminum gray feed plate has problems with wear and deformation, resulting in a shortened service life.
A protective structure for aluminum ash feeding plate was designed. The protective component is made of PTFE material. Through the combination design of limiting post and limiting plate, the protective component is stably fixed in the width and extension direction of the plate, reducing wear and displacement, and the protective plate prevents aluminum ash from entering the connection.
It significantly reduces the wear rate of the dial plate, extends its service life, enhances connection stability, prevents aluminum ash accumulation and cylinder wall wear, and improves the operational reliability of the equipment.
Smart Images

Figure CN224324680U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aluminum ash processing technology, and in particular to a protective structure for aluminum ash feeding plates. Background Technology
[0002] Aluminum ash is a waste product from industrial production, with a huge output. Aluminum ash contains metallic aluminum, aluminum oxide, nitride, etc. During the recycling and feeding process, aluminum ash needs to be scraped off the cylinder wall using a feeding scraper. The feeding scraper is prone to wear and deformation under long-term wear of the material. Therefore, there is an urgent need for a protective structure for the aluminum ash feeding scraper to solve this problem. Utility Model Content
[0003] This utility model addresses the shortcomings of existing technologies by providing the following technical solution:
[0004] The protective structure for the aluminum gray feed plate includes:
[0005] The plate body has an internal mounting groove, and the side wall of the plate body has a connecting groove for communicating with the external mounting groove. The two ends of the plate body are provided with recessed grooves located at the mounting groove positions.
[0006] The protective component has a connecting block integrally formed on one side that is adapted to the connecting groove, and a limiting post integrally formed on the end of the connecting block away from the protective component that is adapted to the mounting groove. Both ends of the limiting post are provided with mounting holes, and the limiting post is controlled to be inserted into the mounting groove along the extension direction of the plate body, so as to control the upper limit of the protective component in the width direction of the plate body.
[0007] A limiting plate is provided in the sinking groove. The bottom of the limiting plate is integrally formed with a plug rod that matches the mounting hole. The plug rod of the limiting plate is inserted into the mounting hole to control the upper limit of the protective component in the extension direction of the plate.
[0008] As an improvement to the above technical solution, the insertion rod has an assembly groove inside, and a locking pin is movably inserted into both ends of the assembly groove. A sliding plate is fixedly connected to one end of the locking pin inside the assembly groove, and a spring is provided between the two sets of sliding plates. The end of the locking pin away from the assembly groove is engaged with the limiting pin.
[0009] As an improvement to the above technical solution, multiple sets of slots adapted to the locking post are provided inside the limiting post and on the side wall of the mounting hole.
[0010] As an improvement to the above technical solution, the protective member is integrally formed with protective plates on both sides near one end of the plate body, and the side wall of the plate body has notches that are adapted to the protective plates.
[0011] As an improvement to the above technical solution, the protective component is made of PTFE material.
[0012] The beneficial effects of this utility model are:
[0013] The protective component protects one side of the scraper, greatly reducing the wear rate of the scraper when it contacts the cylinder wall, thus extending its service life. The limiting post on the protective component provides initial positioning of the component in the width direction of the plate, preventing significant deviation or shaking in that direction. The insert rod at the bottom of the limiting plate is inserted into the mounting hole of the limiting post. Through the cooperation of the insert rod and the mounting hole, the protective component is firmly fixed in the extension direction of the plate, preventing displacement in that direction. This further enhances the connection stability between the protective component and the plate, facilitating the installation of the protective component and the plate. Attached Figure Description
[0014] Figure 1 This is a top view of the overall structure of this utility model;
[0015] Figure 2 This is a schematic diagram of the connection between the limiting post and the plate body of this utility model;
[0016] Figure 3 This utility model Figure 2 Enlarged structural diagram at point A in the middle.
[0017] Reference numerals: 10, plate; 11, sinking groove; 12, notch; 13, mounting groove; 20, protective component; 21, protective plate; 22, limiting post; 221, mounting hole; 23, connecting block; 30, limiting plate; 31, locking post; 32, sliding plate; 33, spring; 34, insertion rod. Detailed Implementation
[0018] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.
[0019] The protective structure for the aluminum gray feed plate includes:
[0020] The plate body 10 has an internal mounting groove 13, and the side wall of the plate body 10 has a connecting groove for communicating with the external mounting groove 13. The two ends of the plate body 10 are provided with recessed grooves 11 located at the mounting groove 13.
[0021] The protective component 20 has a connecting block 23 integrally formed on one side that is adapted to the connecting groove. The end of the connecting block 23 away from the protective component 20 has a limiting post 22 integrally formed that is adapted to the mounting groove 13. Both ends of the limiting post 22 are provided with mounting holes 221. The limiting post 22 is controlled to be inserted into the mounting groove 13 along the extension direction of the plate body, so as to control the upper limit of the protective component 20 in the width direction of the plate body 10.
[0022] A limiting plate 30 is disposed in the sinking groove 11. The bottom of the limiting plate 30 is integrally formed with a plug rod 34 that is adapted to the mounting hole 221. The plug rod 34 of the limiting plate 30 is inserted into the mounting hole 221 to control the upper limit of the protective component 20 in the extension direction of the plate body 10.
[0023] Specifically, the protective component 20 protects one side of the scraper 10. When the protective component 20 contacts the cylinder wall, it greatly reduces the wear rate of the scraper and extends its service life. The limiting post 22 and connecting block 23 on the protective component 20 are inserted into the mounting groove 13 and connecting groove inside the plate body 10 along the extension direction of the plate body 10, respectively. This achieves the initial limiting of the protective component 20 in the width direction of the plate body 10, preventing it from shifting or shaking significantly in that direction. The limiting plate 30 is set in the recessed grooves 11 at both ends of the plate body 10. After the limiting post 22 of the protective component 20 is inserted into the mounting groove 13, the integrally formed insert rod 34 at the bottom of the limiting plate 30 is inserted into the mounting holes 221 at both ends of the limiting post 22. Through the cooperation of the insert rod 34 and the mounting holes 221, the protective component 20 is firmly fixed in the extension direction of the plate body 10. To prevent displacement in this direction, the connection stability between the protective component 20 and the plate 10 is further enhanced, facilitating the installation of the protective component 20 and the plate 10. The protective component 20 is made of PTFE material. When the protective component 20 contacts the cylinder wall and relative movement occurs, the protective component 20 can scrape off the aluminum ash adhering to the cylinder wall. Because of the PTFE material, aluminum ash particles do not easily adhere to the surface of the protective component 20. This allows the aluminum ash to fall off the surface of the protective component 20 relatively easily after scraping, avoiding the accumulation of aluminum ash on the protective component 20, maintaining the continuous and effective scraping ability of the protective component 20, reducing wear between the protective component 20 and the cylinder wall, extending the service life of the protective component 20 and the cylinder wall, and effectively preventing the protective component 20 from being damaged quickly due to excessive friction, as well as the cylinder wall from being scratched or worn due to friction.
[0024] In one embodiment, the insertion rod 34 has an internal assembly groove, and each end of the assembly groove is movably connected to a locking post 31. The end of the locking post 31 located inside the assembly groove is fixedly connected to a sliding plate 32. A spring 33 is provided between the two sets of sliding plates 32. The end of the locking post 31 away from the assembly groove is engaged with the limiting post 22. The limiting post 22 has multiple sets of locking grooves adapted to the locking post 31 inside the side wall of the mounting hole 221.
[0025] Specifically, after the protective component 20 is inserted into the plate 10, the insertion rod 34 of the limiting plate 30 is inserted into the mounting hole 221 of the limiting post 22. When the locking post 31 abuts against the inner wall of the mounting hole 221, the spring 33 is in a compressed state. When the locking post 31 is aligned with the locking groove, the locking post 31 will move away from each other under the action of the spring 33 until it is locked into the locking groove on the side wall of the limiting post 22, thereby completing the firm limiting of the protective component 20 in the extension direction of the plate 10, ensuring the stability and reliability of the connection between the protective component 20 and the limiting plate 30, and facilitating the disassembly of the limiting plate 30.
[0026] In one embodiment, protective plates 21 are integrally formed on both sides of the protective member 20 near one end of the plate body 10. The sidewall of the plate body 10 has notches 12 adapted to the protective plates 21. The protective plates 21 cooperate with the notches 12, further enhancing the protection of the plate body 10. During the aluminum ash feeding process, the protective plates 21 can prevent aluminum ash from entering from the connection between the protective member 20 and the plate body 10, reducing the corrosion of the connection by aluminum ash. The above embodiments are only used to illustrate the technical solution of the present invention and are not intended to limit it.
Claims
1. A protective structure for aluminum gray feed plate, characterized in that, include: The plate (10) has an installation groove (13) inside. The side wall of the plate (10) has a communication groove for communicating with the installation groove (13) from the outside. The two ends of the plate (10) are provided with recessed grooves (11) located at the installation groove (13). The protective component (20) has a connecting block (23) integrally formed on one side that is adapted to the connecting groove. The connecting block (23) has a limiting post (22) integrally formed at the end away from the protective component (20) that is adapted to the mounting groove (13). The limiting post (22) has mounting holes (221) at both ends. The limiting post (22) is controlled to be inserted into the mounting groove (13) along the extension direction of the plate body, so as to control the protective component (20) to be limited in the width direction of the plate body (10). A limiting plate (30) is provided in the sinking groove (11). The bottom of the limiting plate (30) is integrally formed with a plug (34) that is adapted to the mounting hole (221). The plug (34) of the limiting plate (30) is inserted into the mounting hole (221) to control the protective component (20) to be limited in the extension direction of the plate body (10).
2. The aluminum ash feeding plate protective structure according to claim 1, characterized in that: The insertion rod (34) has an assembly groove inside, and a locking post (31) is movably inserted into both ends of the assembly groove. A sliding plate (32) is fixedly connected to one end of the locking post (31) inside the assembly groove. A spring (33) is provided between the two sets of sliding plates (32). The end of the locking post (31) away from the assembly groove is engaged with the limiting post (22).
3. The aluminum ash feeding plate protection structure according to claim 2, characterized in that: The limiting post (22) has multiple sets of slots adapted to the locking post (31) inside the side wall of the mounting hole (221).
4. The aluminum ash feeding plate protective structure according to claim 1, characterized in that: The protective component (20) has protective plates (21) integrally formed on both sides near one end of the plate (10), and the side wall of the plate (10) has a notch (12) adapted to the protective plate (21).
5. The aluminum ash feeding plate protective structure according to claim 1, characterized in that: The protective component (20) is made of PTFE material.