CN204620193U - A kind of have the cylinder magnetic separator roughly selecting, scan function - Google Patents

Abstract

There is the cylinder magnetic separator roughly selecting, scan function, belong to technical field of magnetic separation equipment, for carrying out efficient ore dressing.Its technical scheme is: the front-end and back-end of cylinder are supported by rolling bearing and carrying roller respectively, mineral-feeding pipe and unload mineral water pipe and stretch in roller tube from the front end of cylinder, concentrate bucket is had in the below of unloading mineral water pipe, the discharge end of concentrate bucket stretches out from the rear end of roller tube, in cylinder rear end lower, mine tailing mining collecting trough is installed, roughly selects magnetic system and scan magnetic system and be fixed on below the outer side of cylinder.Magnetic system of the present utility model is placed on cylindrical outer, and the active area of magnetic system and intensity can increase, and therefore greatly can increase and sort area, is extremely conducive to improving the concentrate rate of recovery and controlling tailings grade; Adopt two magnetic architecture more effectively slightly to sort out by the weak magnetic mineral in ore in sand form, improve the rate of recovery of magnetic separation; The external structure of magnetic system can realize the large of cylinder magnetic separator, greatly promotes the separate unit disposal ability to ore.

Description

A kind of have the cylinder magnetic separator roughly selecting, scan function

Technical field

The utility model relates to and a kind ofly has the cylinder magnetic separator roughly selecting, scan function, belongs to technical field of magnetic separation equipment.

Background technology

In the production process of iron ore, magnetic separation is the important production link of ore dressing.Current magnetic separator of a great variety, can be divided into dry type high-intensity magnetic field disk-type magnetic separator, flat carousel type high intensity magnetic separator, SHP type wet strong magnetic field magnetic separator, vertical ring wet strong magnetic field magnetic separator.The universal architecture of these magnetic separators is the cylinders adopting magnetic system built-in, cylinder magnetic system in rotation, by the cylinder outer wall of the iron content granular absorption in ore, is collected concentrate hopper by discharging water pipe or scraper plate when iron content particle turns to cylinder side with cylinder from bottommost and discharges.The shortcoming of the barrel magnetic separator that this magnetic system is built-in mainly contain following some: first, the cylinder magnetic separator of built-in magnetic system sort that area is little, to sort band short, therefore cause the disposal ability of magnetic separator low, the concentrate rate of recovery in ore is low, and iron ore contained in mine tailing is of high grade; Secondly, because magnetic system quality is comparatively large, magnetic system is built in cylinder, causes the canonical loading of cylinder large, and then makes cylinder magnetic separator be difficult to realize large, affect separate unit treating capacity and promote.Because the cylinder magnetic separator of built-in magnetic system has above shortcoming, limit the production capacity of magnetic separator, be therefore necessary to improve the cylinder magnetic separator of built-in magnetic system, to adapt to the needs of large-scale production.

Utility model content

Technical problem to be solved in the utility model is to provide a kind ofly has the cylinder magnetic separator roughly selecting, scan function, this magnetic separator to sort area large, be conducive to improving the concentrate rate of recovery and controlling tailings grade, simultaneously this magnetic separator can the large of cylinder magnetic separator, greatly promote the separate unit disposal ability to ore, meet the needs of large-scale production.

The technical scheme solved the problems of the technologies described above is:

One has roughly selects, scan the cylinder magnetic separator of function, its formation comprises cylinder, rolling bearing, bearing block, motor, reductor, bull gear, pinion, carrying roller, roller rack, mineral-feeding pipe, concentrate bucket, unload mineral water pipe, mine tailing mining collecting trough, roughly select magnetic system and scan magnetic system, the front-end and back-end of cylinder are supported by rolling bearing and carrying roller respectively, rolling bearing and carrying roller are arranged on bearing block and roller rack respectively, drum front end is circumferentially set with bull gear, and bull gear is meshed with pinion, and pinion is connected with motor with reductor, mineral-feeding pipe and unload mineral water pipe and stretch in roller tube from the front end of cylinder, have concentrate bucket in the below of unloading mineral water pipe, the discharge end of concentrate bucket stretches out from the rear end of roller tube, mineral-feeding pipe, unload mineral water pipe, concentrate bucket has bracing frame to be arranged on cylindrical outer, in cylinder rear end lower, mine tailing mining collecting trough is installed, roughly selecting magnetic system and scanning magnetic system is fixed on below the outer side of cylinder, roughly select magnetic system and scan the length direction order arrangement of magnetic system along cylinder, scan the magnetic field intensity of magnetic system higher than the magnetic field intensity of roughly selecting magnetic system, the length of mineral-feeding pipe matches with the length of roughly selecting magnetic system.

Above-mentioned have the cylinder magnetic separator roughly selecting, scan function, the cylindrical shell of described drum front end is that taper is closed up, taper closing in is connected with the turning cylinder of hollow, turning cylinder is arranged on bearing block by rolling bearing, bull gear is sleeved on taper closing in place, mineral-feeding pipe and unload the cavity of mineral water pipe through hollow turning cylinder and close up from the taper of cylinder and stretch in roller tube, the central axis of cylinder and horizontal line have the angle of 2 degree, and reinforcement is all equipped with in the cylindrical shell centre of cylinder and rear end.

Above-mentioned have the cylinder magnetic separator roughly selecting, scan function, described mineral-feeding pipe is connected with several duckbilled mine distributors, unloads mineral water pipe is connected with several unloads mineral water nozzle.

Above-mentioned have the cylinder magnetic separator roughly selecting, scan function, described roughly select magnetic system and scan magnetic system be fixed on respectively by yoke and roughly select magnetic system dolly and scan on magnetic system dolly, roughly selecting magnetic system dolly and scanning magnetic system dolly is arranged on trolley track by roller, trolley track is provided with dolly spacing.

Above-mentioned have the cylinder magnetic separator roughly selecting, scan function, and described mine tailing mining collecting trough bottom is furnished with mine tailing mozzle.

The beneficial effects of the utility model are:

Magnetic system of the present utility model is placed on cylindrical outer, and the active area of magnetic system and intensity can increase, and therefore greatly can increase and sort area, is extremely conducive to improving the concentrate rate of recovery and controlling tailings grade; Simultaneously owing to adopting two magnetic architecture, more effectively thick weak magnetic mineral in ore in sand form can be sorted out, improve the rate of recovery of magnetic separation; Adopt the external support problem that can solve magnetic system of magnetic system in addition, avoid magnetic system quality in cylinder to the impact of canonical loading, therefore can realize the large of cylinder magnetic separator, greatly promote the separate unit disposal ability to ore, meet the needs of large-scale production.

The utility model breaches the design concept of traditional barrel magnetic separator, magnetic system is located at cylindrical outer, and by mineral-feeding pipe, unload mineral water pipe and concentrate bucket is placed in cylinder, far from each other with the structure of existing cylinder magnetic separator, it is a kind of innovation, reach extraordinary effect, the development for cylinder magnetic separator provides brand-new thinking, is worthy of popularization.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the A-A sectional view of Fig. 1;

Fig. 3 is the top view of Fig. 1;

Fig. 4 is the duckbilled mine distributor schematic diagram of mineral-feeding pipe;

Fig. 5 is mine tailing mining collecting trough and mine tailing mozzle schematic diagram.

In figure, mark is as follows: cylinder 1, turning cylinder 2, rolling bearing 3, bearing block 4, motor 5, reductor 6, bull gear 7, pinion 8, carrying roller 9, roller rack 10, mineral-feeding pipe 11, concentrate bucket 12, concentrate mozzle 13, unload mineral water pipe 14, mine tailing mining collecting trough 15, mine tailing mozzle 16, roughly select magnetic system 17, scan magnetic system 18, roller 19, yoke 20, dolly are spacing 21, reinforcement 22, duckbilled mine distributor 23, roughly select magnetic system dolly 24, scan magnetic system dolly 25.

Detailed description of the invention

The utility model comprises cylinder 1, turning cylinder 2, rolling bearing 3, bearing block 4, motor 5, reductor 6, bull gear 7, pinion 8, carrying roller 9, roller rack 10, mineral-feeding pipe 11, concentrate bucket 12, unloads mineral water pipe 14, mine tailing mining collecting trough 15, roughly selects magnetic system 17, scans magnetic system 18 and roughly select magnetic system dolly 24 and scan magnetic system dolly 25.

Fig. 1,2,3 displays, the structure of structure of the present utility model and existing cylinder magnetic separator is very different, and magnetic system is located at cylinder 1 outside, and by mineral-feeding pipe 11, unload mineral water pipe 14 and concentrate bucket 12 is placed in cylinder 1.Magnetic system comprises roughly selects magnetic system 17 and scans magnetic system 18, they are separate, roughly selecting magnetic system 17 and scanning magnetic system 18 is fixed on below the outer side of cylinder 1, roughly select magnetic system 17 and scan the length direction order arrangement of magnetic system 18 along cylinder 1, that roughly selects that magnetic system 17 is positioned at cylinder 1 enters ore deposit end, scan the mine-discharging terminal that magnetic system 18 is positioned at cylinder 1, scan the magnetic field intensity of magnetic system 18 higher than the magnetic field intensity of roughly selecting magnetic system 17.

Fig. 1,2,3 shows, and the front end of cylinder 1 is connected with the turning cylinder 2 of hollow, and turning cylinder 2 is arranged on bearing block 4 by rolling bearing 3.Cylinder 1 is that taper is closed up with the cylindrical shell of the junction of turning cylinder 2, bull gear 7 is sleeved on the cylinder 1 of taper closing in place circumferentially, bull gear 7 is meshed with pinion 8, and pinion 8 is connected with motor 5 with reductor 6, and the rear end lower of cylinder 1 has two carrying rollers 9 and roller rack 10 to support.The central axis of cylinder 1 and horizontal line have the angle of 2 degree, and reinforcement 22 is all equipped with in the middle of the cylindrical shell of cylinder 1 and rear end.

During work, motor 5 drives reductor 6 to rotate, and reductor 6 drives cylinder 1 to rotate by pinion 8, bull gear 7, and rolling bearing 3 and carrying roller 9 play the effect that back-up roller 1 rotates.

Fig. 1,2,3 displays, mineral-feeding pipe 11 and unload mineral water pipe 14 therefrom dally moving axis 2 cavity in stretch in the cylindrical shell of cylinder 1.Mineral-feeding pipe 11 all has channel-section steel support to support in the outside, front-end and back-end of cylinder 1, and externally grooved steel bracket supports in cylinder 1 front end to unload mineral water pipe 14.Wherein the length of mineral-feeding pipe 11 matches with the length of roughly selecting magnetic system 17, and mineral-feeding pipe 11 only carries out cloth ore deposit roughly selecting above magnetic system 17.

Fig. 1,2,3 shows, concentrate bucket 12 is had in the below of unloading mineral water pipe 14, the discharge end of concentrate bucket 12 stretches out from the rear end of cylinder 1 cylindrical shell, and the concentrate bucket support of the front end of concentrate bucket 12 is at cylinder 1 front end external support concentrate bucket 12, and the discharge end of concentrate bucket 12 connects concentrate mozzle 13.

Fig. 1,2,3 shows, roughly select magnetic system dolly 24, scan magnetic system dolly 25 and be positioned at below the outer side of cylinder 1, independently be independent of each other, roughly select magnetic system 17 and scan magnetic system 18 and be fixed on respectively by yoke 20 and roughly select magnetic system dolly 24 and scan on magnetic system dolly 25, roughly selecting magnetic system dolly 24 and scanning magnetic system dolly 25 is arranged on trolley track by roller 19, trolley track is provided with dolly spacing 21, scratches cylinder 1 to prevent from roughly selecting magnetic system 17 and scanning magnetic system 18 with cylinder 1 wall contacts.Can make to roughly select magnetic system 17 according to actual production and maintenance situation adjustment roller 19 and scan magnetic system 18 near or away from cylinder 1 to guarantee production target or to facilitate the lifting of cylinder 1.

Fig. 1,2,3,4,5 shows, and mineral-feeding pipe 11 is connected with some duckbilled mine distributors 23.Unload and mineral water pipe 14 is connected with several unloads mineral water nozzle.Be provided with mine tailing mining collecting trough 15 in cylinder 1 rear end lower, mine tailing mining collecting trough 15 bottom is furnished with mine tailing mozzle 16.

The length of the cylinder 1 of an embodiment of the present utility model is more than 5 meters, and the diameter of cylinder 1 can reach 2 meters, achieves the large of cylinder magnetic separator.

Workflow of the present utility model is as follows:

After motor 5 is energized, reductor 6 works together thereupon, and mineral aggregate is evenly ejected on the cylinder inboard wall of cylinder 1 by mineral-feeding pipe 11 by duckbilled mine distributor 23, and wherein, mineral-feeding pipe 11 is only roughly selecting the relative position of magnetic system 17 to ore deposit.Reductor 6 is by pinion 8, bull gear 7 drives cylinder 1 to rotate, cylinder 1 inwall can be adsorbed under the effect of roughly selecting magnetic system 17 with magnetic iron ores particle, when turning to the above position of magnetic system, in addition mineral water effect is unloaded because magnetic force disappears, magnetic iron ore can be rushed in concentrate bucket 12 by water, and can flow automatically to through the mine tailing roughly selected and scan the relative position of magnetic system 18, owing to scanning the magnetic field intensity of magnetic system 18 far above the magnetic field intensity of roughly selecting magnetic system 17, thus the weak magnetic mineral in rougher tailings is scanned magnetic system 18 and is sorted out, concentrate bucket 12 is entered through unloading mineral water flushing, rougher concentration and scavenger concentrate discharge cylinder 1 outside by concentrate bucket 12, do not have magnetic mine tailing can flow automatically in the mine tailing mining collecting trough 15 of cylinder 1 outside, thus realize smart tail and sort.

Claims (5)

1. one kind has and roughly selects, scan the cylinder magnetic separator of function, it is characterized in that: its formation comprises cylinder (1), rolling bearing (3), bearing block (4), motor (5), reductor (6), bull gear (7), pinion (8), carrying roller (9), roller rack (10), mineral-feeding pipe (11), concentrate bucket (12), unload mineral water pipe (14), mine tailing mining collecting trough (15), roughly select magnetic system (17) and scan magnetic system (18), the front-end and back-end of cylinder (1) are supported by rolling bearing (3) and carrying roller (9) respectively, rolling bearing (3) and carrying roller (9) are arranged on bearing block (4) and roller rack (10) respectively, the front end of cylinder (1) is circumferentially set with bull gear (7), bull gear (7) is meshed with pinion (8), pinion (8) is connected with motor (5) with reductor (6), mineral-feeding pipe (11) and unload mineral water pipe (14) and stretch in cylinder (1) cylindrical shell from the front end of cylinder (1), concentrate bucket (12) is had in the below of unloading mineral water pipe (14), the discharge end of concentrate bucket (12) stretches out from the rear end of cylinder (1) cylindrical shell, mineral-feeding pipe (11), unload mineral water pipe (14), it is outside that concentrate bucket (12) has bracing frame to be arranged on cylinder (1), in cylinder (1) rear end lower, mine tailing mining collecting trough (15) is installed, roughly selecting magnetic system (17) and scanning magnetic system (18) is fixed on below the outer side of cylinder (1), roughly select magnetic system (17) and scan the length direction order arrangement of magnetic system (18) along cylinder (1), scan the magnetic field intensity of magnetic system (18) higher than the magnetic field intensity of roughly selecting magnetic system (17), the length of mineral-feeding pipe (11) matches with the length of roughly selecting magnetic system (17).

2. according to claim 1 have roughly select, scan the cylinder magnetic separator of function, it is characterized in that: the cylindrical shell of described cylinder (1) front end is that taper is closed up, taper closing in is connected with the turning cylinder (2) of hollow, turning cylinder (2) is arranged on bearing block (4) by rolling bearing (3), bull gear (7) is sleeved on taper closing in place, mineral-feeding pipe (11) and unload the cavity of mineral water pipe (14) through the turning cylinder (2) of hollow and close up from the taper of cylinder (1) and stretch in cylinder (1) cylindrical shell, the central axis of cylinder (1) and horizontal line have the angle of 2 degree, reinforcement (22) is all equipped with in the middle of the cylindrical shell of cylinder (1) and rear end.

3. according to claim 1 and 2 have the cylinder magnetic separator roughly selecting, scan function, it is characterized in that: described mineral-feeding pipe (11) is connected with several duckbilled mine distributors (23), unload and mineral water pipe (14) is connected with several unloads mineral water nozzle.

4. according to claim 3 have the cylinder magnetic separator roughly selecting, scan function, it is characterized in that: described in roughly select magnetic system (17) and scan magnetic system (18) and be fixed on respectively by yoke (20) and roughly select magnetic system dolly (24) and scan in magnetic system dolly (25), roughly selecting magnetic system dolly (24) and scanning magnetic system dolly (25) is arranged on trolley track respectively by roller (19), trolley track is provided with dolly spacing (21).

5. according to claim 4 have the cylinder magnetic separator roughly selecting, scan function, it is characterized in that: described mine tailing mining collecting trough (15) bottom is furnished with mine tailing mozzle (16).