CN210411116U - Magnetic levitation mineral processing equipment for metallurgical production - Google Patents

Abstract

The utility model relates to a metallurgical ore dressing technical field just discloses a magnetism floats mineral processing equipment for metallurgical production. This magnetic levitation mineral processing equipment for metallurgical production, including the computer lab, the top fixed mounting of computer lab has the spray thrower, and the inside fixed mounting of spray thrower has the nozzle, and the lateral wall fixed mounting of computer lab has the motor, and the output fixed mounting of motor has the cable wire, and fixed mounting has the slide bar under the cable wire, and movable mounting has the slider on the slide bar, and the lateral wall fixed mounting of slider has the containing box. This magnetic suspension ore dressing equipment for metallurgical production finishes when the ore is laid, in pouring the magnetic separation groove with the flotation solution through the nozzle on the spray thrower, finishes when the flotation solution is poured, and the flabellum that is located on the connecting plate begins rotatoryly, and the flabellum through the different direction of rotation in both sides forms the whirl and drives the inside mixture of magnetic separation groove and stir, and magnetic machine is magnetized the inside mixture of magnetic separation groove by the start simultaneously this moment, improves the purity and the precision of screening the ore through the mode that utilizes the magnetization flotation.

Description

Magnetic levitation mineral processing equipment for metallurgical production

Technical Field

The utility model relates to a metallurgical ore dressing technical field specifically is a magnetism floats mineral processing equipment for metallurgical production.

Background

Flotation, namely froth flotation, is a process for sorting minerals from ore pulp by virtue of buoyancy of air bubbles according to differences of surface properties of various minerals. The sorting process is mainly carried out according to the difference of physicochemical properties of the surfaces of the materials. In the stirred suspension, under the action of different agents, the materials form a hydrophilic or hydrophobic surface, the hydrophobic materials are effectively contacted with rising bubbles and adhered to a bubble metallurgy spare part to rise to form a foam layer, and then separation is realized. Flotation is the most important separation method, and can treat most minerals. Flotation is generally divided into forward flotation and reverse flotation according to the product.

However, with the continuous mining of mineral resources, the mineral resources face a situation of poor, fine and miscellaneous easy-to-select ores and are less and less, and the ore resources belong to non-renewable resources, so that new technical means are required to improve the selection and metallurgy indexes.

SUMMERY OF THE UTILITY MODEL

The not enough to prior art, the utility model provides a magnetism floats mineral processing equipment for metallurgical production possesses advantages such as improve the selection and smelt index under the prerequisite that does not change conventional flotation process flow, has solved the ore mining resource and has faced the problem that poor, thin, miscellaneous situation leads to ore selection and smelt index decline.

The utility model provides a technical scheme that its technical problem adopted is: a magnetic suspension ore dressing equipment for metallurgical production comprises a machine room, wherein a sprayer is fixedly installed at the top of the machine room, a nozzle is fixedly installed inside the sprayer, a motor is fixedly installed on the side wall of the machine room, a steel cable is fixedly installed at the output end of the motor, a slide rod is fixedly installed under the steel cable, a slide block is movably installed on the slide rod, a containing box is fixedly installed on the side wall of the slide block, a baffle is movably installed inside the containing box, a magnetic separation groove is fixedly installed at the bottom of the machine room, a connecting plate is fixedly installed on the side wall of the magnetic separation groove, fan blades are movably installed inside the connecting plate, a threaded column is movably installed inside the magnetic separation groove, a connecting block is connected with the peripheral threads of the threaded column, a fixed plate is fixedly installed on the side wall of the connecting block, the lateral wall fixed mounting of carousel has the screen cloth, the lateral wall movable mounting of magnetic separation groove has the conveyer belt, the inside fixed mounting of magnetic separation groove has the magnetic machine.

Furthermore, the number of the motors is two, and the two motors are fixedly installed on the inner walls of the left side and the right side of the machine room in a symmetrical mode.

Furthermore, the shape of magnetic separation groove is the inside rectangle piece that is equipped with the cavity, connecting plate, screen cloth and magnetic machine all set up in the inside cavity of magnetic separation groove.

Further, the cross-sectional shape of containing box is trapezoidal and the hypotenuse shape is the arc, the setting of baffle is in the inside of above-mentioned arc hypotenuse.

Furthermore, the number of the connecting plates is two, and the two connecting plates are fixedly arranged inside the magnetic separation tank in a symmetrical mode.

Furthermore, the side wall of the magnetic separation groove is provided with a sliding groove matched with the connecting block.

The utility model has the advantages that:

1. this magnetic levitation mineral processing equipment for metallurgical production, when the containing box moved the recess top to the magnetic separation inslot, the baffle was opened the bottom breach of containing box through rotating this moment, let the inside ore of containing box fall to the magnetic separation inslot through the guide of baffle, and the speed of moving of cooperation cable wire, the ore can evenly spread the inside to the magnetic separation inslot, turn to through the adjustment motor and make the slider remove on the slide bar and control the ore in the containing box and lay in the magnetic separation inslot evenly completely, laying of ore is more even, improve the effect of flotation.

2. This magnetic suspension ore dressing equipment for metallurgical production finishes when the ore is laid, in pouring the magnetic separation groove with the flotation solution through the nozzle on the spray thrower, finishes when the flotation solution is poured, and the flabellum that is located on the connecting plate begins rotatoryly, and the flabellum through the different direction of rotation in both sides forms the whirl and drives the inside mixture of magnetic separation groove and stir, and magnetic machine is magnetized the inside mixture of magnetic separation groove by the start simultaneously this moment, improves the purity and the precision of screening the ore through the mode that utilizes the magnetization flotation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the magnetic separation tank of the present invention;

fig. 3 is a schematic view of the connection relationship between the connection plate and the fan blade of the present invention.

Description of reference numerals: 1-machine room, 2-sprayer, 3-nozzle, 4-motor, 5-steel cable, 6-slide bar, 7-slide block, 8-containing box, 9-baffle, 10-magnetic separation tank, 11-connecting plate, 12-fan blade, 13-threaded column, 14-connecting block, 15-fixing plate, 16-rotary table, 17-screen, 18-conveyor belt and 19-magnetic machine.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-3, a magnetic levitation mineral separation device for metallurgical production comprises a machine room 1, a sprayer 2 is fixedly installed at the top of the machine room 1, a nozzle 3 is fixedly installed inside the sprayer 2, motors 4 are fixedly installed on the side walls of the machine room 1, the number of the motors 4 is two, the two motors 4 are fixedly installed on the inner walls of the left side and the right side of the machine room 1 in a symmetrical mode, a steel cable 5 is fixedly installed at the output end of the motor 4, the steel cable 5 is driven to move by the forward and reverse rotation of the motors 4 at the two sides, a sliding block 7 is driven to move upwards along with the movement of the steel cable 5, an accommodating box 8 is driven to move through the sliding block 7, a sliding rod 6 is fixedly installed under the steel cable 5, a sliding block 7 is movably installed on the sliding rod 6, an accommodating box 8 is fixedly installed on the side wall of the sliding block 7, the cross-section, the baffle 9 is movably mounted inside the containing box 8, the magnetic separation tank 10 is fixedly mounted at the bottom of the machine room 1, the magnetic separation tank 10 is shaped as a rectangular block with a cavity inside, the connecting plates 11, the screen 17 and the magnetic machine 19 are all arranged in the cavity inside the magnetic separation tank 10, the side walls of the magnetic separation tank 10 are fixedly mounted with the connecting plates 11, the number of the connecting plates 11 is two, the two connecting plates 11 are fixedly mounted inside the magnetic separation tank 10 in a symmetrical mode, the blades 12 are movably mounted inside the connecting plates 11, the blades 12 on the connecting plates 11 start to rotate, the blades 12 in different rotating directions on two sides form rotational flows to drive the mixture inside the magnetic separation tank 10 to be stirred, at the moment, the magnetic machine 19 is started to magnetize the mixture inside the magnetic separation tank 10, the threaded column 13 is movably mounted inside the magnetic separation tank 10, and the periphery of the threaded, the lateral wall of magnetic separation groove 10 is seted up the spout with connecting block 14 looks adaptation, and the lateral wall fixed mounting of connecting block 14 has fixed plate 15, and the lateral wall fixed mounting of fixed plate 15 has carousel 16, and the lateral wall fixed mounting of carousel 16 has screen cloth 17, and the lateral wall movable mounting of magnetic separation groove 10 has conveyer belt 18, and the inside fixed mounting of magnetic separation groove 10 has magnetic machine 19.

When the magnetic separation device is used, the motor 4 is started, the steel cable 5 is driven to move through the forward and reverse rotation of the motors 4 on the two sides, the sliding block 7 is driven to move along with the movement of the steel cable 5, the containing box 8 is driven to move to the left side of the magnetic separation groove 10 through the sliding block 7, ores to be screened are conveyed to the inside of the containing box 8 through the conveying belt 18, after the containing box 8 is filled, the containing box 8 is driven to move from the left side of the magnetic separation groove 10 to the right side of the magnetic separation groove 10 through the rotation of the motor 4, when the containing box 8 moves to the position above the groove in the magnetic separation groove 10, the baffle 9 opens the notch at the bottom of the containing box 8 through rotation, the ores in the containing box 8 fall into the magnetic separation groove 10 through the guide of the baffle 9, and the ores can be uniformly spread to the inside of the magnetic separation groove 10 by matching with the moving speed of the steel cable 5, the slide block 7 moves left and right on the slide bar 6 by adjusting the steering of the motor 4 to completely and evenly lay the ores in the containing box 8 in the magnetic separation tank 10, after the ores are laid, the flotation solution is injected into the magnetic separation tank 10 through the nozzle 3 on the sprayer 2, after the flotation solution is injected, the fan blades 12 on the connecting plate 11 start to rotate, the fan blades 12 in different rotating directions on two sides form a rotational flow to drive the mixture in the magnetic separation tank 10 to be stirred, at the same time, the magnetic machine 19 is started to magnetize the mixture in the magnetic separation tank 10, after the mixture in the magnetic separation tank 10 is finished, the motor 4 is started again to drive the containing box 8 to move, at the same time, the baffle 9 is also opened, the ores on the upper layer are collected into the containing box 8 by matching with the movement of the containing box 8 and are transported to the left side of the magnetic separation tank 10 and are sent out through the conveyor belt 18, finally, the rotary table 16 on the fixing plate, and the rotation of the threaded column 13 is matched, the connecting block 14 is driven to move upwards through the action of threaded connection, and the ore at the bottom layer is lifted upwards by the screen 17 so as to be collected.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The utility model provides a magnetic levitation mineral processing equipment for metallurgical production, includes computer lab (1), its characterized in that: the top fixed mounting of computer lab (1) has spray thrower (2), the inside fixed mounting of spray thrower (2) has nozzle (3), the lateral wall fixed mounting of computer lab (1) has motor (4), the output fixed mounting of motor (4) has cable wire (5), fixed mounting has slide bar (6) under cable wire (5), movable mounting has slider (7) on slide bar (6), the lateral wall fixed mounting of slider (7) has containing box (8), the inside movable mounting of containing box (8) has baffle (9), the bottom fixed mounting of computer lab (1) has magnetic separation groove (10), the lateral wall fixed mounting of magnetic separation groove (10) has connecting plate (11), the inside movable mounting of connecting plate (11) has flabellum (12), the inside movable mounting of magnetic separation groove (10) has screw thread post (13), the peripheral threaded connection of screw thread post (13) has connecting block (14), the lateral wall fixed mounting of connecting block (14) has fixed plate (15), the lateral wall fixed mounting of fixed plate (15) has carousel (16), the lateral wall fixed mounting of carousel (16) has screen cloth (17), the lateral wall movable mounting of magnetic separation groove (10) has conveyer belt (18), the inside fixed mounting of magnetic separation groove (10) has magnetic machine (19).

2. The magnetic levitation ore dressing equipment for metallurgical production according to claim 1, characterized in that: the motor (4) is two in number, and the two motors (4) are fixedly arranged on the inner walls of the left side and the right side of the machine room (1) in a symmetrical mode.

3. The magnetic levitation ore dressing equipment for metallurgical production according to claim 1, characterized in that: the magnetic separation groove (10) is a rectangular block with a cavity inside, and the connecting plate (11), the screen (17) and the magnetic machine (19) are all arranged in the cavity inside the magnetic separation groove (10).

4. The magnetic levitation ore dressing equipment for metallurgical production according to claim 1, characterized in that: the cross-sectional shape of containing box (8) is trapezoidal and the hypotenuse shape is the arc, setting up in the inside of above-mentioned arc hypotenuse of baffle (9).

5. The magnetic levitation ore dressing equipment for metallurgical production according to claim 1, characterized in that: the number of the connecting plates (11) is two, and the two connecting plates (11) are fixedly arranged inside the magnetic separation tank (10) in a symmetrical mode.

6. The magnetic levitation ore dressing equipment for metallurgical production according to claim 1, characterized in that: the side wall of the magnetic separation groove (10) is provided with a sliding groove matched with the connecting block (14).

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