Automatic blowing type mixing and discharging device
By using the blower and stirring rod structure of the automatic blowing-type mixing and discharging device, the problems of material adhesion and uneven mixing are solved, achieving efficient cleaning and uniform mixing, and improving the efficiency and quality of the sintering process in iron and steel metallurgy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WUXI COLANI PRECISION MASCH CO LTD
- Filing Date
- 2025-05-29
- Publication Date
- 2026-06-09
AI Technical Summary
In the sintering process of steel metallurgy, the materials may stick to the cylinder wall after mixing, making cleaning difficult and slow discharge. In addition, uneven mixing leads to a reduction in quality and efficiency.
An automatic blowing-type mixing and discharging device is adopted, which combines a fan, scraper and stirring rod structure to achieve cleaning of the inner wall of the material cylinder and uniform mixing of materials. The fan blows and scrapes away the sticky materials, and the stirring rod ensures uniform mixing.
It effectively avoids the problem of cleaning the cylinder wall, improves discharge efficiency and material quality, and reduces working time and costs.
Smart Images

Figure CN224332072U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of iron and steel smelting technology, and in particular to a mixing and discharging device with automatic blowing. Background Technology
[0002] In the sintering process of iron and steel metallurgy, mixing refers to combining different types of raw materials in a certain proportion to meet the requirements of chemical reactions and physical properties during sintering. The purpose of mixing is to improve the quality of sinter, enhance the reaction efficiency during sintering, and ensure the quality of the final product.
[0003] In existing technologies, some materials, due to their properties, may produce sticky substances after mixing, which can lead to material adhering to the cylinder wall. This directly results in difficulty in cleaning the cylinder wall and indirectly leads to slow material discharge and reduced work efficiency. In existing technologies, some materials, due to the traditional use of unidirectional stirring rods, may be mixed unevenly, directly resulting in compromised material quality and indirectly leading to increased working time and costs. Utility Model Content
[0004] The purpose of this utility model is to provide an automatic blowing-type mixing and discharging device, which can solve the problem that when some materials are mixed, due to the characteristics of the materials, there may be sticky substances after mixing, which may cause the materials to stick to the cylinder wall. This avoids the problem of difficult cleaning of the cylinder wall and the problem of reduced work efficiency due to slow material discharge. It can also solve the problem of uneven mixing of some materials when mixing some materials, which is usually done using a unidirectional stirring rod. This avoids the problem of inconsistent material quality and the problem of increased costs due to increased working time.
[0005] To achieve the above objectives, an automatic blowing type mixing and discharging device is provided, including a material cylinder, a frame fixedly connected to the lower part of the material cylinder, and a connecting plate fixedly connected to the right side of the frame;
[0006] A discharge hopper is fixedly connected to the lower part of the material cylinder, a fan is provided on the left side of the material cylinder, a housing is fixedly connected to the lower part of the material cylinder, and a first motor is provided below the housing.
[0007] The output end of the first motor is fixedly connected to a first rotating rod, and a second rotating rod is fixedly connected above the first rotating rod. A first gear is fixedly connected to the outer surface of the second rotating rod, and a second gear is meshed with the side of the first gear.
[0008] A third rotating rod is fixedly connected to the inner surface of the second gear, a first bevel gear is fixedly connected above the third rotating rod, a second bevel gear is meshed above the first bevel gear, and a fourth rotating rod is fixedly connected to the right side of the second bevel gear.
[0009] A third bevel gear is meshed above the second bevel gear, a fifth rotating rod is fixedly connected above the third bevel gear, a mixing component is fixedly connected to the outer surface of the fifth rotating rod, a sixth rotating rod is fixedly connected above the first bevel gear, and a sealing sleeve is provided on the outer surface of the fifth rotating rod.
[0010] The mixing component includes a connecting rod, a scraper fixedly connected to the side of the connecting rod, and a stirring rod fixedly connected to the side of the connecting rod.
[0011] The fan is equipped with a second motor, and a seventh rotating rod is fixedly connected to the output end of the second motor. Fan blades are fixedly connected to the outer surface of the seventh rotating rod.
[0012] A pipe is fixedly connected to the top of the fan, and a collecting pipe is fixedly connected to the other end of the pipe. An air outlet is fixedly connected to the bottom of the collecting pipe.
[0013] An electric telescopic rod is fixedly connected to the right side of the connecting plate. A fixed block is rotatably connected to the telescopic end of the electric telescopic rod. A slider is fixedly connected to the side of the fixed block. A sliding groove is slidably connected to the side of the slider. The sliding groove is located on the side of the baffle.
[0014] This utility model has the following beneficial effects:
[0015] 1. Compared with existing technologies, by setting up structures such as fans, scrapers and shells, the inner wall of the material cylinder can be blown clean, thereby removing the residues adhering to the inner wall of the material cylinder. This avoids the problem of the cylinder wall being difficult to clean and avoids the problem of reduced work efficiency due to slow material discharge.
[0016] 2. Compared with existing technologies, by setting up a shell, stirring rods and a first motor, the two stirring rods can uniformly mix the materials inside the barrel, thus avoiding the problem of unreliable material quality and the problem of increased costs due to increased working time. Attached Figure Description
[0017] Figure 1 This is a three-dimensional structural diagram of a mixing and discharging device with automatic blowing.
[0018] Figure 2 This is a bottom view of a mixing and discharging device with automatic blowing according to the present invention.
[0019] Figure 3 This is a three-dimensional half-sectional view of a material cylinder with an automatic blowing type mixing and discharging device according to the present invention.
[0020] Figure 4 This is a three-dimensional half-sectional view of the housing of the present invention, which has an automatic blowing type mixing and discharging device.
[0021] Figure 5 This is a three-dimensional half-sectional view of a blower with an automatic blowing type mixing and discharging device according to the present invention.
[0022] Figure 6 This utility model relates to a mixing and discharging device with automatic blowing. Figure 2 Enlarged view of point A in the middle.
[0023] Legend:
[0024] 1. Material cylinder; 2. Frame; 3. Discharge hopper; 4. Fan; 5. Housing; 6. First motor; 7. First rotating rod; 8. Second rotating rod; 9. First gear; 10. Second gear; 11. Third rotating rod; 12. First bevel gear; 13. Second bevel gear; 14. Fourth rotating rod; 15. Third bevel gear; 16. Fifth rotating rod; 17. Sixth rotating rod; 18. Mixing component; 19. Connecting rod; 20. Scraper; 21. Stirring rod; 22. Second motor; 23. Seventh rotating rod; 24. Fan blade; 25. Pipe; 26. Air collection pipe; 27. Air outlet; 28. Electric telescopic rod; 29. Fixing block; 30. Sliding block; 31. Slide groove; 32. Baffle; 33. Connecting plate; 34. Sealing sleeve. Detailed Implementation
[0025] Reference Figure 1-6 This utility model embodiment provides a mixing and discharging device with automatic blowing, which includes a material cylinder 1, a frame 2 fixedly connected to the lower part of the material cylinder 1, and a connecting plate 33 fixedly connected to the right side of the frame 2.
[0026] A discharge hopper 3 is fixedly connected to the lower part of the material cylinder 1, a blower 4 is provided on the left side of the material cylinder 1, a housing 5 is fixedly connected to the lower part of the material cylinder 1, and a first motor 6 is provided below the housing 5.
[0027] A first rotating rod 7 is fixedly connected to the output end of the first motor 6. A second rotating rod 8 is fixedly connected above the first rotating rod 7. A first gear 9 is fixedly connected to the outer surface of the second rotating rod 8. A second gear 10 is meshed with the side of the first gear 9. A third rotating rod 11 is fixedly connected to the inner surface of the second gear 10. A first bevel gear 12 is fixedly connected above the third rotating rod 11. A second bevel gear 13 is meshed with the top of the first bevel gear 12. A fourth rotating rod 14 is fixedly connected to the right side of the second bevel gear 13. A third bevel gear 15 is meshed with the top of the second bevel gear 13. A fifth rotating rod 16 is fixedly connected above the third bevel gear 15. A mixing component 18 is fixedly connected to the outer surface of the fifth rotating rod 16. A sixth rotating rod 17 is fixedly connected above the first bevel gear 12. A sealing sleeve 34 is provided on the outer surface of the fifth rotating rod 16. The mixing component 18 includes a connecting rod 19. A scraper 20 is fixedly connected to the side of the connecting rod 19. A stirring rod 21 is fixedly connected to the side of the connecting rod 19.
[0028] The fan 4 is equipped with a second motor 22. The output end of the second motor 22 is fixedly connected to a seventh rotating rod 23. The outer surface of the seventh rotating rod 23 is fixedly connected to a fan blade 24. The fan 4 is fixedly connected to a pipe 25. The other end of the pipe 25 is fixedly connected to a collecting pipe 26. The air outlet 27 is fixedly connected to the bottom of the collecting pipe 26. The right side of the connecting plate 33 is fixedly connected to an electric telescopic rod 28. The telescopic end of the electric telescopic rod 28 is rotatably connected to a fixing block 29. The side of the fixing block 29 is fixedly connected to a slider 30. The side of the slider 30 is slidably connected to a sliding groove 31. The sliding groove 31 is located on the side of the baffle 32.
[0029] The above structure, by setting up the fan 4 and scraper 20, enables the following: when it is necessary to clean the residual material adhering to the inner wall of the material cylinder 1, the first motor 6 can be started first, so that the first motor 6 can drive the first rotating rod 7 to rotate. A second rotating rod 8 is fixedly connected above the first rotating rod 7, and a first gear 9 is fixedly connected to the outer surface of the second rotating rod 8. A second gear 10 is meshed with the side of the first gear 9, so that the second gear 10 can drive the third rotating rod 11 to rotate. A first bevel gear 12 is fixedly connected above the third rotating rod 11, so that the first bevel gear 12 can drive the second bevel gear 13 to rotate. A third bevel gear 15 is meshed with the top of the second bevel gear 13, so that the third bevel gear 15 can drive the fifth rotating rod 16 to rotate. A mixing component 18 is fixedly connected above the fifth rotating rod 16. The scraper 20 can scrape the inner wall of the material cylinder 1, and a sixth rotating rod 17 is fixedly connected above the first bevel gear 12, so that the sixth rotating rod 17 can drive the mixing component 18 fixedly connected to its outer surface to rotate in the opposite direction, thereby allowing the two scrapers 20 to scrape the inner wall of the material cylinder 1. Then, the second motor 22 is started, so that the second motor 22 can drive the seventh rotating rod 23 to rotate, and a fan blade 24 is fixedly connected to the outer surface of the seventh rotating rod 23, so that the fan blade 24 can rotate, thereby allowing the hot air blown out by the blower 4 to be blown out through the pipe 25 and the air collection pipe 26 and finally blown out through the air outlet 27, thereby allowing the inner wall of the material cylinder 1 to be swept, thereby removing the residues adhering to the inner wall of the material cylinder 1, thus avoiding the problem that the cylinder wall may be difficult to clean, and avoiding the problem of reduced work efficiency due to slow material discharge.
[0030] By configuring the housing 5 and the stirring rod 21, when uniform mixing of materials is required, the first motor 6 can be started first, causing the first rotating rod 7 to rotate. A second rotating rod 8 is fixedly connected above the first rotating rod 7, and a first gear 9 is fixedly connected to the outer surface of the second rotating rod 8. A second gear 10 is meshed with the side of the first gear 9, allowing the second gear 10 to drive the third rotating rod 11 to rotate. A first bevel gear 12 is fixedly connected above the third rotating rod 11, allowing the first bevel gear 12 to drive the second bevel gear 13 to rotate. The second bevel gear 13 is meshed with the upper part of the second bevel gear 13. A third bevel gear 15 is connected to the first bevel gear 12, which drives the fifth rotating rod 16 to rotate. A mixing component 18 is fixedly connected above the fifth rotating rod 16, allowing the stirring rod 21 to perform preliminary stirring of the material inside the material cylinder 1. A sixth rotating rod 17 is fixedly connected above the first bevel gear 12, which drives the mixing component 18 fixedly connected to its outer surface to rotate in the opposite direction. This allows the two stirring rods 21 to uniformly mix the material inside the material cylinder 1, thus avoiding the problem of unreliable material quality and the problem of increased costs due to increased working time.
[0031] When it is necessary to clean the residual material adhering to the inner wall of the material cylinder 1, the first motor 6 can be started first, so that the first motor 6 can drive the first rotating rod 7 to rotate. The second rotating rod 8 is fixedly connected to the top of the first rotating rod 7, and the first gear 9 is fixedly connected to the outer surface of the second rotating rod 8. The side of the first gear 9 is meshed with the second gear 10, so that the second gear 10 can drive the third rotating rod 11 to rotate. The first bevel gear 12 is fixedly connected to the top of the third rotating rod 11, so that the first bevel gear 12 can drive the second bevel gear 13 to rotate. The top of the second bevel gear 13 is meshed with the third bevel gear 15, so that the third bevel gear 15 can drive the fifth rotating rod 16 to rotate. The mixing component 18 is fixedly connected to the top of the fifth rotating rod 16, so that the scraper 20 can... The inner wall of the material cylinder 1 is scraped, and a sixth rotating rod 17 is fixedly connected above the first bevel gear 12, so that the sixth rotating rod 17 can drive the mixing component 18 fixedly connected to its outer surface to rotate in the opposite direction, thereby allowing the two scrapers 20 to specifically scrape the inner wall of the material cylinder 1. Then, the second motor 22 is started, so that the second motor 22 can drive the seventh rotating rod 23 to rotate, and the outer surface of the seventh rotating rod 23 is fixedly connected to the fan blade 24, so that the fan blade 24 can rotate, thereby allowing the hot air blown out by the blower 4 to be blown out through the pipe 25 and the air collection pipe 26 and finally blown out through the air outlet 27, thereby allowing the inner wall of the material cylinder 1 to be swept. During mixing, only the first motor 6 needs to be started to mix the materials evenly, and the scraper 20 can prevent too much material from sticking to the inner wall of the material cylinder 1 during mixing.
Claims
1. A mixing and discharging device with automatic blowing function, characterized in that, Includes a material cylinder (1), a frame (2) is fixedly connected to the lower part of the material cylinder (1), and a connecting plate (33) is fixedly connected to the right side of the frame (2). A discharge hopper (3) is fixedly connected to the lower part of the material cylinder (1), a blower (4) is provided on the left side of the material cylinder (1), a housing (5) is fixedly connected to the lower part of the material cylinder (1), and a first motor (6) is provided below the housing (5).
2. The automatic blowing type mixing and discharging device according to claim 1, characterized in that, The output end of the first motor (6) is fixedly connected to a first rotating rod (7), and a second rotating rod (8) is fixedly connected above the first rotating rod (7). A first gear (9) is fixedly connected to the outer surface of the second rotating rod (8), and a second gear (10) is meshed with the side of the first gear (9).
3. The automatic blowing type mixing and discharging device according to claim 2, characterized in that, A third rotating rod (11) is fixedly connected to the inner surface of the second gear (10), a first bevel gear (12) is fixedly connected above the third rotating rod (11), a second bevel gear (13) is meshed above the first bevel gear (12), and a fourth rotating rod (14) is fixedly connected to the right side of the second bevel gear (13).
4. The automatic blowing type mixing and discharging device according to claim 3, characterized in that, The third bevel gear (15) is meshed above the second bevel gear (13), and the fifth rotating rod (16) is fixedly connected above the third bevel gear (15). A mixing component (18) is fixedly connected to the outer surface of the fifth rotating rod (16). The sixth rotating rod (17) is fixedly connected above the first bevel gear (12), and a sealing sleeve (34) is provided on the outer surface of the fifth rotating rod (16).
5. A mixing and discharging device with automatic purging as described in claim 4, characterized in that, The mixing component (18) includes a connecting rod (19), a scraper (20) is fixedly connected to the side of the connecting rod (19), and a stirring rod (21) is fixedly connected to the side of the connecting rod (19).
6. The automatic blowing type mixing and discharging device according to claim 1, characterized in that, The fan (4) is equipped with a second motor (22), and the output end of the second motor (22) is fixedly connected to a seventh rotating rod (23). The outer surface of the seventh rotating rod (23) is fixedly connected to a fan blade (24).
7. A mixing and discharging device with automatic purging as described in claim 1, characterized in that, A pipe (25) is fixedly connected above the fan (4), and a collecting pipe (26) is fixedly connected to the other end of the pipe (25). An air outlet (27) is fixedly connected below the collecting pipe (26).
8. A mixing and discharging device with automatic purging as described in claim 1, characterized in that, An electric telescopic rod (28) is fixedly connected to the right side of the connecting plate (33). A fixed block (29) is rotatably connected to the telescopic end of the electric telescopic rod (28). A slider (30) is fixedly connected to the side of the fixed block (29). A sliding groove (31) is slidably connected to the side of the slider (30). The sliding groove (31) is located on the side of the baffle (32).