A mud anti-settling device
By using a combination of agitator and spraying components in the water tank, the problem of scrap settling was solved, and the scrap was quickly dispersed and evenly distributed, thus improving recycling efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TANGSHAN ZHUONENG BUILDING MATERIALS TECH CO LTD
- Filing Date
- 2025-06-16
- Publication Date
- 2026-07-14
AI Technical Summary
During the production and processing of parts, scraps tend to settle at the bottom of the pool, making subsequent retrieval difficult and affecting recycling efficiency.
A mud anti-settling device is adopted, including a stirring shaft, a stirring paddle and a spraying assembly. The rotation of the stirring shaft drives the stirring paddle and spiral blades to disturb the bottom of the pool, and the spraying assembly lifts the solution at the bottom of the pool and sprays it onto the upper part of the pool to keep the scrap material in a dispersed state.
It effectively prevents scrap from settling, improves the dispersion and uniformity of scrap in the pool, simplifies the retrieval work, and improves recycling efficiency.
Smart Images

Figure CN224485633U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of anti-settlement equipment, and in particular to a mud anti-settlement device. Background Technology
[0002] Insulation boards, simply put, are boards used for insulating buildings. They are rigid foam plastic boards made from polystyrene resin as the main raw material, along with other raw materials and polymers. The mixture is heated and mixed while a catalyst is injected, and then extruded and molded.
[0003] Insulation boards can be processed or cut into shape more quickly and can be designed into more complex structures with a high degree of freedom. According to the manufacturing process requirements, the insulation board mold needs to leave a certain allowance. In order to achieve the required precision of the product, the excess part will be cut off and trimmed, thus producing scrap. Plastic scrap is generally recycled and reused to avoid wasting materials.
[0004] However, during the production and processing of parts, dust or metal scraps are inevitably drawn on them. To improve the recycling quality, they are usually cleaned in a water tank. Because the scraps are small, they tend to sink to the bottom of the tank, making subsequent retrieval work difficult. Utility Model Content
[0005] To facilitate the retrieval of scrap materials and improve recycling efficiency, this application provides a mud anti-settling device.
[0006] The mud anti-settling device provided in this application adopts the following technical solution:
[0007] A mud anti-settling device includes a support platform, a stirring shaft rotatably connected below the support platform, a stirring paddle fixedly connected to the stirring shaft, the stirring shaft being hollow inside, a spiral blade inside the stirring shaft, and a spraying component at the top of the stirring shaft.
[0008] By adopting the above technical solution, when the scrap material is in the water tank, the stirring shaft rotates, which drives the stirring paddle to rotate, thereby disturbing the bottom of the tank and making it difficult for the scrap material to settle to the bottom. At the same time, the solution at the bottom of the tank is driven by the spiral blades to rise in the hollow part of the stirring shaft and is sprayed at the top of the water tank by the spraying component, so that the scrap material can be quickly dispersed throughout the water tank, thereby maintaining the dispersed state of the scrap material.
[0009] Optionally, the spraying assembly includes a guide paddle mounted on a stirring shaft. The guide paddle has a guide channel inside, which connects to the interior of the stirring shaft. A plurality of spray holes distributed along the length of the guide paddle are provided on one side of the guide paddle, and the spray holes connect to the guide channel.
[0010] By adopting the above technical solution, the solution flowing inside the stirring shaft enters the guide channel and flows out through the spray hole, thereby enabling the solution to be sprayed within the range of the guide paddle and maintaining the uniformity of the distribution of scrap materials.
[0011] Optionally, the stirring paddle is provided with multiple stirring blades in a direction away from the stirring axis, and the stirring paddle is provided with a driving component to drive the stirring blades to rotate.
[0012] By adopting the above technical solution, when the stirring paddle rotates with the stirring shaft, the driving component drives the stirring fan blades to rotate. Thus, when the stirring paddle disturbs the water solution in the pool, the stirring fan blades further disturb the bottom of the pool, making it difficult for scrap materials to settle at the bottom of the pool.
[0013] Optionally, the driving component includes a rotating rod corresponding to the stirring blade, the rotating rod being rotatably connected to the stirring paddle, one end of the rotating rod being fixedly connected to the stirring blade, the other end of the rotating rod being disposed inside the stirring paddle, and having a plurality of scrapers evenly distributed around the rotating rod, the stirring paddle having a guide hole, and the scraper on one side of the rotating rod being located inside the guide hole.
[0014] By adopting the above technical solution, when the stirring paddle rotates, the solution in the water tank passes through the guide hole, and the solution in the guide hole impacts the scraper, thereby driving the rotating rod to rotate, and then driving the stirring fan blade. Thus, the rotation of the stirring fan blade does not require additional power.
[0015] Optionally, the sides of the guide paddle are set to be arc-shaped.
[0016] By adopting the above technical solution, the side arc design of the guide propeller reduces the resistance experienced by the guide propeller.
[0017] Optionally, the guide hole is wide at both ends and narrow in the middle, and the scraper is located in the middle of the guide hole.
[0018] By adopting the above technical solution, the guide hole is wider at both ends and narrower in the middle, which allows the scraper to be subjected to greater impact, thereby increasing the rotation speed of the stirring fan blade.
[0019] Optionally, a sleeve is rotatably connected to the lower side of the support platform. An annular connecting groove is provided on the outer side of the end of the sleeve away from the support platform. The stirring shaft is inserted into the connecting groove, and a connecting bolt is provided between the stirring shaft and the sleeve.
[0020] By adopting the above technical solution, the stirring shaft and the sleeve can be quickly inserted through the connecting groove and then fixed by the connecting bolts, which makes it easy to disassemble and assemble the stirring shaft and the sleeve, thus facilitating the replacement of the stirring shaft.
[0021] In summary, this application includes at least one of the following beneficial technical effects:
[0022] The solution at the bottom of the pool is driven by spiral blades, rises in the hollow part of the stirring shaft, and is sprayed at the top of the pool by the spraying component, so that the scraps can be quickly dispersed throughout the pool, thereby maintaining the dispersed state of the scraps.
[0023] As the stirring paddle rotates with the stirring shaft, the driving component drives the stirring fan blades to rotate. Thus, while the stirring paddle disturbs the solution in the pool, the stirring fan blades further disturb the bottom of the pool, making it difficult for scraps to settle at the bottom. Attached Figure Description
[0024] Figure 1 This is a schematic diagram of the overall structure of an embodiment of this application.
[0025] Figure 2 This is a schematic diagram of the internal structure of an embodiment of this application.
[0026] Figure 3 This is a schematic diagram of the guide hole structure in an embodiment of this application.
[0027] Explanation of reference numerals in the attached drawings: 1. Support platform; 11. Sleeve; 12. Connecting groove; 2. Stirring shaft; 21. Stirring paddle; 211. Guide hole; 22. Spiral blade; 3. Spraying assembly; 31. Guide paddle; 311. Guide channel; 312. Spraying hole; 4. Stirring fan blade; 5. Driving component; 51. Rotating rod; 52. Scraper. Detailed Implementation
[0028] The present application will be further described in detail below with reference to the accompanying drawings.
[0029] This application discloses a mud anti-settling device. (Refer to...) Figure 1 and Figure 2 A mud anti-settling device includes a support platform 1, a drive motor is installed on the support platform 1, the output shaft of the drive motor passes through the support platform 1 and is fixedly connected to a sleeve 11, the sleeve 11 is rotatably connected to the lower side of the support platform 1, and an annular connecting groove 12 is opened on the outer side of the end of the sleeve 11 away from the support platform 1.
[0030] A stirring shaft 2, coaxial with the sleeve 11, is provided below the sleeve 11. The stirring shaft 2 is hollow and is inserted into the connecting groove 12. The stirring shaft 2 and the sleeve 11 are fixedly connected by connecting bolts. The stirring shaft 2 and the sleeve 11 can be quickly inserted into the connecting groove 12 and then fixed by connecting bolts, which allows for quick assembly and disassembly of the stirring shaft 2 and the sleeve 11, thus facilitating the replacement of the stirring shaft 2.
[0031] Multiple stirring paddles 21, evenly distributed around the stirring shaft 2, are fixedly connected to the end of the stirring shaft 2 away from the support platform 1. A spiral blade 22 is fixedly connected inside the stirring shaft 2, and a spraying assembly 3 is provided at the top of the stirring shaft 2. When the scrap material is in the water tank, the stirring shaft 2 rotates, causing the stirring paddles 21 to rotate, thereby disturbing the bottom of the tank and making it difficult for the scrap material to settle. Simultaneously, the solution at the bottom of the tank is driven by the spiral blades 22 to rise through the hollow part of the stirring shaft 2 and is sprayed onto the upper part of the tank by the spraying assembly 3, thus enabling the scrap material to be quickly dispersed throughout the tank, thereby maintaining its dispersed state.
[0032] The spraying assembly 3 includes a guide paddle 31 mounted on the stirring shaft 2. The guide paddle 31 has a guide channel 311 inside, which connects to the interior of the stirring shaft 2. Multiple spray holes 312, distributed along the length of the guide paddle 31, are opened on one side of the guide paddle 31, and these spray holes 312 connect to the guide channel 311. The solution flowing inside the stirring shaft 2 enters the guide channel 311 and flows out through the spray holes 312, thereby spraying the solution within the range of the guide paddle 31 and maintaining the uniformity of the distribution of scrap materials.
[0033] The stirring paddle 21 is provided with multiple stirring blades 4 in a direction away from the stirring shaft 2, and the stirring paddle 21 is provided with a driving component 5 to drive the stirring blades 4 to rotate. When the stirring paddle 21 rotates with the stirring shaft 2, the driving component 5 drives the stirring blades 4 to rotate. Thus, when the stirring paddle 21 disturbs the water solution in the pool, the stirring blades 4 further disturb the bottom of the pool, making it difficult for scraps to settle at the bottom of the pool.
[0034] Reference Figure 2 and Figure 3 The driving component 5 includes a rotating rod 51 corresponding to the stirring blade 4. One end of the rotating rod 51 is fixedly connected to the stirring blade 4, and the other end passes through the stirring paddle 21 and is rotatably connected to the stirring paddle 21. A plurality of scrapers 52, evenly distributed around the rotating rod 51, are fixedly connected to one end of the rotating rod 51 inside the stirring paddle 21. A guide hole 211 is provided on the stirring paddle 21, and the scraper 52 on one side of the rotating rod 51 is located within the guide hole 211. The guide hole 211 is wide at both ends and narrow in the middle, and the scraper 52 is located in the middle position of the guide hole 211.
[0035] When the agitator 21 rotates, the solution in the pool passes through the guide hole 211. The solution in the guide hole 211 impacts the scraper 52, thereby driving the rotating rod 51 to rotate, which in turn drives the agitator blade 4. The guide hole 211 is wide at both ends and narrow in the middle, which allows the scraper 52 to be subjected to greater impact, thereby increasing the rotation speed of the agitator blade 4. Thus, the rotation of the agitator blade 4 does not require additional power.
[0036] The side of the guide propeller 31 is arc-shaped, which reduces the resistance experienced by the guide propeller 31.
[0037] The implementation principle of the mud anti-settling device in this application embodiment is as follows: the drive motor drives the sleeve 11 to rotate, thereby driving the stirring shaft 2 to rotate. The spiral blades 22 in the stirring shaft 2 lift the water at the bottom of the pool to the spraying component 3 and spray it out from the spraying hole 312. At the same time, the stirring paddle 21 rotates with the stirring shaft 2. At this time, the solution in the pool passes through the guide hole 211, thereby driving the stirring fan blade 4 to rotate, thereby stirring the bottom of the pool.
[0038] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. A mud anti-settling device, characterized in that: Includes a support platform (1), a stirring shaft (2) is rotatably connected below the support platform (1), a stirring paddle (21) is fixedly connected on the stirring shaft (2), the stirring shaft (2) is hollow inside, a spiral blade (22) is provided inside the stirring shaft (2), and a spraying component (3) is provided at the top of the stirring shaft (2).
2. The mud anti-settling device according to claim 1, characterized in that: The spraying assembly (3) includes a guide paddle (31) disposed on the stirring shaft (2). The guide paddle (31) has a guide channel (311) inside, which is connected to the interior of the stirring shaft (2). A plurality of spray holes (312) distributed along the length of the guide paddle (31) are opened on one side of the guide paddle (31), and the spray holes (312) are connected to the guide channel (311).
3. The mud anti-settling device according to claim 2, characterized in that: The stirring paddle (21) is provided with multiple stirring blades (4) in a direction away from the stirring shaft (2), and the stirring paddle (21) is provided with a driving component (5) to drive the stirring blades (4) to rotate.
4. The mud anti-settling device according to claim 3, characterized in that: The driving component (5) includes a rotating rod (51) corresponding to the stirring blade (4). The rotating rod (51) is rotatably connected to the stirring paddle (21). One end of the rotating rod (51) is fixedly connected to the stirring blade (4). The other end of the rotating rod (51) is located inside the stirring paddle (21) and is provided with a plurality of scrapers (52) evenly distributed around the rotating rod (51). The stirring paddle (21) is provided with a guide hole (211). The scraper (52) on one side of the rotating rod (51) is located inside the guide hole (211).
5. The mud anti-settling device according to claim 4, characterized in that: The side of the guide propeller (31) is set to be arc-shaped.
6. The mud anti-settling device according to claim 5, characterized in that: The guide hole (211) is wide at both ends and narrow in the middle, and the scraper (52) is located in the middle of the guide hole (211).
7. The mud anti-settling device according to claim 1, characterized in that: A sleeve (11) is rotatably connected to the lower side of the support platform (1). An annular connecting groove (12) is provided on the outer side of the end of the sleeve (11) away from the support platform (1). The stirring shaft (2) is inserted into the connecting groove (12). A connecting bolt is provided between the stirring shaft (2) and the sleeve (11).