A practical magnetic separation device for processing manganese ore

Abstract

The utility model discloses a practical manganese ore processing magnetic separation device, it includes washing chamber, the filter plate is fixedly connected in the washing chamber, the washing chamber side surface is provided with the through -hole, the washing chamber side surface fixedly connected first outside fixed plate, first outside fixed plate side surface fixedly connected first electric push rod, first electric push rod movable end fixedly connected push -board, push -board lower surface sets up filter plate upper surface, the washing chamber side surface sets up the discharge gate, the washing chamber upper surface fixedly connected protruding piece, protruding piece lower surface fixedly connected second electric push rod, second electric push rod movable end fixedly connected baffle, baffle and discharge gate position correspond. Through above -mentioned structure bottom plate, first support column, washing chamber, fourth electric push rod, semicircle recess. Can clean before processing to raw material, and the magnetic separation device is no longer open type, thereby reduces the dust that produces, guarantees the physical safety of staff.

Description

Technical Field

[0001] This utility model relates to the field of magnetic separation device technology, specifically a practical magnetic separation device for manganese ore processing. Background Technology

[0002] In modern industry, manganese and its compounds are used in various sectors of the national economy.

[0003] Magnetic separators typically process raw materials directly, and most of these devices are open-type. If the raw materials contain dust or other contaminants, this generates a large amount of dust, which can pose a health and safety risk to workers. Summary of the Invention

[0004] This invention provides a practical magnetic separation device for manganese ore processing, which can clean the raw materials before processing. The magnetic separation device is no longer open, thereby reducing the dust generated and ensuring the safety of the workers.

[0005] To achieve the above objectives, a practical magnetic separation device for manganese ore processing is provided, comprising a cleaning chamber, a filter plate fixedly connected inside the cleaning chamber, a through hole provided on the side surface of the cleaning chamber, a first outer fixing plate fixedly connected to the side surface of the cleaning chamber, a first electric push rod fixedly connected to the side surface of the first outer fixing plate, a push plate fixedly connected to the movable end of the first electric push rod, the lower surface of the push plate being disposed on the upper surface of the filter plate, a discharge port provided on the side surface of the cleaning chamber, a protruding block fixedly connected to the upper surface of the cleaning chamber, a second electric push rod fixedly connected to the lower surface of the protruding block, a baffle fixedly connected to the movable end of the second electric push rod, and the baffle corresponding to the position of the discharge port.

[0006] According to the practical manganese ore processing magnetic separation device, a first support column is fixedly connected to the lower surface of the cleaning chamber, a base plate is fixedly connected to the end of the first support column away from the cleaning chamber, and inlet and outlet water pipes are fixedly connected to the rear surface of the cleaning chamber.

[0007] According to the practical manganese ore processing magnetic separation device, a second support column is fixedly connected to the upper surface of the base plate, and a main block is fixedly connected to the end of the second support column away from the base plate. Two outer shells are fixedly connected to the front and rear sides of the main block, and arc-shaped grooves are provided on the surface of the two outer shells.

[0008] According to the practical manganese ore processing magnetic separation device, a second outer fixing plate is fixedly connected to the side surfaces of the two outer shells, a motor is fixedly connected to the upper surface of the second outer fixing plate, a rotating shaft is fixedly connected to the output end of the motor, and a magnet column is fixedly connected to the cylindrical surface of the rotating shaft.

[0009] According to the practical manganese ore processing magnetic separation device, the discharge pipe is fixedly connected to the side surface of the cleaning chamber, and the other end of the discharge pipe is fixedly connected to the side surface of the main body block. The main body block and the magnetic column form an arc-shaped raw material groove.

[0010] According to the practical manganese ore processing magnetic separation device, an upper plate is fixedly connected to the upper surface of the main block, and an arc-shaped protective shell is fixedly connected to the upper surface of the upper plate. The arc-shaped protective shell and the magnetic column form a semi-circular groove.

[0011] According to the practical manganese ore processing magnetic separation device, a third electric push rod is fixedly connected to the side surface of the second outer fixed plate. The movable end of the third electric push rod is fixedly connected to a first arc-shaped scraper and a second arc-shaped scraper. The first arc-shaped scraper is movably connected inside the arc-shaped raw material groove, and the second arc-shaped scraper is slidably connected inside the arc-shaped groove. A fourth electric push rod is fixedly connected to the side surface of the second outer fixed plate. The movable end of the fourth electric push rod is fixedly connected to an upper arc-shaped scraper, and the upper arc-shaped scraper is slidably connected inside the semi-circular groove.

[0012] According to the practical manganese ore processing magnetic separation device, a magnetic collection box is fixedly connected to the front surface of the two side shells, and a non-magnetic collection box is fixedly connected to the rear surface of the two side shells.

[0013] The beneficial effects of this utility model are as follows: Through the aforementioned structure—including a base plate, first support column, cleaning chamber, filter plate, first outer fixing plate, first electric push rod, through hole, push plate, inlet and outlet water pipes, protruding block, second electric push rod, baffle, discharge port, second support column, main block, discharge pipe, first arc-shaped scraper, second arc-shaped scraper, third electric push rod, two outer shells, upper plate, rotating shaft, magnetic column, motor, second outer fixing plate, fourth electric push rod, upper arc-shaped scraper, magnetic collection box, non-magnetic collection box, arc-shaped raw material groove, arc-shaped groove, arc-shaped protective shell, and semi-circular groove—the raw materials can be cleaned before processing. The magnetic separation device is no longer open, thereby reducing dust generation and ensuring the safety of workers.

[0014] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0015] The present invention will be further described below with reference to the accompanying drawings and embodiments;

[0016] Figure 1 This is a schematic diagram of the overall structure of a practical magnetic separation device for manganese ore processing according to the present invention.

[0017] Figure 2This is a top view of the overall structure of a practical magnetic separation device for manganese ore processing according to the present invention.

[0018] Figure 3 This is a side view of the overall structure of a practical magnetic separation device for manganese ore processing according to the present invention.

[0019] Figure 4 This is a schematic diagram of a magnetic separation device for a practical manganese ore processing magnetic separation apparatus according to the present invention.

[0020] Figure 5 This is a schematic diagram of the magnetic separation device part of a practical magnetic separation device for manganese ore processing according to this utility model.

[0021] Figure 6 This is a rear view of the magnetic separation device of a practical magnetic separation device for manganese ore processing according to this utility model.

[0022] Legend:

[0023] 1. Base plate; 2. First support column; 3. Cleaning chamber; 4. Filter plate; 5. First outer fixing plate; 6. First electric push rod; 7. Through hole; 8. Push plate; 9. Inlet and outlet water pipes; 10. Protruding block; 11. Second electric push rod; 12. Baffle; 13. Discharge port; 14. Second support column; 15. Main body block; 16. Discharge pipe; 17. First arc-shaped scraper; 18. Second arc-shaped scraper; 19. Third electric push rod; 20. Side shells; 21. Upper plate; 22. Rotating shaft; 23. Magnetic column; 24. Motor; 25. Second outer fixing plate; 26. Fourth electric push rod; 27. Upper arc-shaped scraper; 28. Magnetic collection box; 29. ​​Non-magnetic collection box; 30. Arc-shaped raw material groove; 31. Arc-shaped groove; 32. Arc-shaped protective shell; 33. Semi-circular groove. Detailed Implementation

[0024] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and the overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.

[0025] Reference Figures 1 to 6This utility model discloses a practical magnetic separation device for manganese ore processing, comprising a cleaning chamber 3, a filter plate 4 fixedly connected inside the cleaning chamber 3, a through hole 7 on the side surface of the cleaning chamber 3, a first outer fixing plate 5 fixedly connected to the side surface of the cleaning chamber 3, a first electric push rod 6 fixedly connected to the side surface of the first outer fixing plate 5, a push plate 8 fixedly connected to the movable end of the first electric push rod 6, the lower surface of the push plate 8 being disposed on the upper surface of the filter plate 4, a discharge port 13 provided on the side surface of the cleaning chamber 3, a protruding block 10 fixedly connected to the upper surface of the cleaning chamber 3, a second electric push rod 11 fixedly connected to the lower surface of the protruding block 10, and a baffle 12 fixedly connected to the movable end of the second electric push rod 11, the baffle 12 being positioned corresponding to the discharge port 13. The cleaning chamber 3 removes dust and other contaminants from the raw materials, reducing subsequent dust generation.

[0026] A first support column 2 is fixedly connected to the lower surface of the cleaning chamber 3. The end of the first support column 2 furthest from the cleaning chamber 3 is fixedly connected to a base plate 1. An inlet / outlet water pipe 9 is fixedly connected to the rear surface of the cleaning chamber 3. A second support column 14 is fixedly connected to the upper surface of the base plate 1. A main body block 15 is fixedly connected to the end of the second support column 14 furthest from the base plate 1. Two outer shells 20 are fixedly connected to the front and rear sides of the main body block 15. Arc-shaped grooves 31 are provided on the surfaces of the two outer shells 20. A second outer fixing plate 25 is fixedly connected to the side surface of the two outer shells 20. A motor 24 is fixedly connected to the upper surface of the second outer fixing plate 25. A rotating shaft 22 is fixedly connected to the output end of the motor 24. A magnet column 23 is fixedly connected to the cylindrical surface of the rotating shaft 22. A discharge pipe 16 is fixedly connected to the side surface of the cleaning chamber 3. The other end of the discharge pipe 16 is fixedly connected to the side surface of the main body block 15. The main body block 15 and the magnet column 23 form an arc-shaped raw material groove 30. The inlet / outlet water pipe 9 is connected to an external water supply and storage device. The magnetism of the magnet column 23 is sufficient to cause the magnetic material on the magnet column 23 to slowly accumulate into a small mountain when the upper arc-shaped scraper 27 scrapes it. The material will not fall off the top of the small mountain.

[0027] The upper plate 21 is fixedly connected to the upper surface of the main block 15, and the arc-shaped protective shell 32 is fixedly connected to the upper surface of the upper plate 21. The arc-shaped protective shell 32 and the magnetic column 23 form a semi-circular groove 33.

[0028] A third electric push rod 19 is fixedly connected to the side surface of the second outer fixing plate 25. The movable end of the third electric push rod 19 is fixedly connected to a first arc-shaped scraper 17 and a second arc-shaped scraper 18. The first arc-shaped scraper 17 is movably connected inside the arc-shaped raw material groove 30, and the second arc-shaped scraper 18 is slidably connected inside the arc-shaped groove 31. A fourth electric push rod 26 is fixedly connected to the side surface of the second outer fixing plate 25. The movable end of the fourth electric push rod 26 is fixedly connected to an upper arc-shaped scraper 27, which is slidably connected inside the semi-circular groove 33. Magnetic collection boxes 28 are fixedly connected to the front surfaces of the two side shells 20, and non-magnetic collection boxes 29 are fixedly connected to the rear surfaces of the two side shells 20.

[0029] Working principle: Workers place the raw materials into the cleaning chamber 3. After cleaning and settling for a period of time, the water is drained. Dust and other contaminants fall through the filter plate 4, while the raw materials accumulate on it. The second electric push rod 11 is activated, driving the baffle 12 to open the discharge port 13. The first electric push rod 6 is activated, driving the push plate 8 to push the raw materials into the discharge pipe 16. The materials then enter the arc-shaped raw material groove 30. The motor 24 is activated, driving the magnetic column 23 to rotate. The magnetic column 23 attracts magnetic materials inside the arc-shaped raw material groove 30. Non-magnetic materials remain in the arc-shaped raw material groove 30. The third electric push rod 19 is activated, driving the first arc-shaped scraper 17 and the second arc-shaped scraper 18 to push the groove within the arc-shaped raw material groove 30, pushing the non-magnetic materials into the non-magnetic collection box 29 for collection. The fourth electric push rod 26 is activated to drive the upper arc-shaped scraper 27 to scrape the raw material on the magnetic column 23. At this time, the motor 24 slowly drives the magnetic column 23 to rotate, and the fourth electric push rod 26 scrapes the magnetic column 23 back and forth, sending the magnetic raw material into the magnetic collection box 28.

[0030] The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present utility model.

Claims

1. A practical magnetic separation device for manganese ore processing, characterized in that, The system includes a cleaning chamber (3), a filter plate (4) is fixedly connected inside the cleaning chamber (3), a through hole (7) is provided on the side surface of the cleaning chamber (3), a first outer fixing plate (5) is fixedly connected on the side surface of the cleaning chamber (3), a first electric push rod (6) is fixedly connected on the side surface of the first outer fixing plate (5), a push plate (8) is fixedly connected to the movable end of the first electric push rod (6), the lower surface of the push plate (8) is provided on the upper surface of the filter plate (4), a discharge port (13) is provided on the side surface of the cleaning chamber (3), a protruding block (10) is fixedly connected to the upper surface of the cleaning chamber (3), a second electric push rod (11) is fixedly connected to the lower surface of the protruding block (10), a baffle (12) is fixedly connected to the movable end of the second electric push rod (11), and the baffle (12) is positioned opposite to the discharge port (13).

2. The practical magnetic separation device for manganese ore processing according to claim 1, characterized in that, The first support column (2) is fixedly connected to the lower surface of the cleaning chamber (3), and the bottom plate (1) is fixedly connected to the end of the first support column (2) away from the cleaning chamber (3). The inlet and outlet water pipes (9) are fixedly connected to the rear surface of the cleaning chamber (3).

3. A practical magnetic separation device for manganese ore processing according to claim 2, characterized in that, The second support column (14) is fixedly connected to the upper surface of the base plate (1). The second support column (14) is fixedly connected to the main body block (15) at one end away from the base plate (1). The main body block (15) is fixedly connected to the front and rear sides of the outer shells (20). The surface of the outer shells (20) is provided with arc-shaped grooves (31).

4. A practical magnetic separation device for manganese ore processing according to claim 3, characterized in that, The side surfaces of the two outer shells (20) are fixedly connected to the second outer fixing plate (25), the upper surface of the second outer fixing plate (25) is fixedly connected to the motor (24), the output end of the motor (24) is fixedly connected to the rotating shaft (22), and the cylindrical surface of the rotating shaft (22) is fixedly connected to the magnet column (23).

5. A practical magnetic separation device for manganese ore processing according to claim 1, characterized in that, The discharge pipe (16) is fixedly connected to the side surface of the cleaning chamber (3), and the other end of the discharge pipe (16) is fixedly connected to the side surface of the main body block (15). The main body block (15) and the magnet column (23) form an arc-shaped raw material groove (30).

6. A practical magnetic separation device for manganese ore processing according to claim 3, characterized in that, The upper plate (21) is fixedly connected to the upper surface of the main block (15), and the upper plate (21) is fixedly connected to the upper surface of the arc-shaped protective shell (32). The arc-shaped protective shell (32) and the magnet column (23) form a semi-circular groove (33).

7. A practical magnetic separation device for manganese ore processing according to claim 4, characterized in that, A third electric push rod (19) is fixedly connected to the side surface of the second outer fixing plate (25). The movable end of the third electric push rod (19) is fixedly connected to the first arc-shaped scraper (17). The movable end of the third electric push rod (19) is fixedly connected to the second arc-shaped scraper (18). The first arc-shaped scraper (17) is movably connected inside the arc-shaped raw material groove (30). The second arc-shaped scraper (18) is slidably connected inside the arc-shaped groove (31). A fourth electric push rod (26) is fixedly connected to the side surface of the second outer fixing plate (25). The movable end of the fourth electric push rod (26) is fixedly connected to the upper arc-shaped scraper (27). The upper arc-shaped scraper (27) is slidably connected inside the semi-circular groove (33).

8. A practical magnetic separation device for manganese ore processing according to claim 3, characterized in that, A magnetic collection box (28) is fixedly connected to the front surface of the two outer shells (20), and a non-magnetic collection box (29) is fixedly connected to the rear surface of the two outer shells (20).

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