CN220531789U - Ore dressing machine for mining mineral products - Google Patents

Abstract

The utility model discloses a mineral processing machine for mining mineral products, which relates to the field of mineral processing machines and comprises a mineral processing equipment body, wherein a crushing box is arranged on the top side of the mineral processing equipment body, an ore feeding assembly is arranged on the crushing box, a crushing mechanism is arranged on the crushing box and is positioned in the crushing box, a sieve plate is movably arranged in the crushing box, and the sieve plate is positioned below the crushing mechanism. According to the utility model, a rotating motor on a crushing mechanism is started to operate, a plurality of crushing cutters rotate at a high speed to crush ores in the crushing mechanism, more ores are crushed into fine particles through continuous rotation crushing, then are screened through a screen plate, the screened qualified ores fall down, and the larger ores remain above to crush until the crushed qualified ores fall down, and the crushed qualified ores pass through a crushing blanking hopper and fall into a mineral separation equipment body to carry out mineral separation operation.

Description

Ore dressing machine for mining mineral products

Technical Field

The utility model relates to the technical field of mineral separators, in particular to a mineral separator for mining mineral products.

Background

Beneficiation is a process of selecting useful minerals from the collected mineral raw materials according to differences among physical properties, physicochemical properties and chemical properties of various minerals, and a machine for implementing the process is called beneficiation machine.

The mined ore contains a large amount of different mineral products, the mined mineral products are required to be crushed, then the crushed mineral products are sorted according to the properties of the mineral products, in the crushing step, the crushing equipment can generate the mineral products with different sizes after crushing the mineral products, and in the ore sorting process, some larger mineral products can not accurately sort the mineral products due to overlarge volumes, so that a mineral concentrator for mining the mineral products is required to meet the demands of people.

Disclosure of Invention

The utility model aims to provide a mineral processing machine for mining mineral products, which aims to solve the problems that in the crushing step, after crushing of the mineral products by crushing equipment, the mineral products with different sizes are generated, and in the process of ore separation, the mineral products cannot be accurately classified and separated due to overlarge volume of the larger mineral products, and the mineral products are not crushed uniformly.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a mineral processing machine for mining mineral products, includes the mineral processing equipment body, crushing case is installed to the topside of mineral processing equipment body, be equipped with ore feeding subassembly on the crushing case, install crushing mechanism on the crushing case, crushing mechanism is located crushing incasement, crushing incasement movable mounting has the sieve, and the sieve is located crushing mechanism's below position, and the equal fixed mounting in both sides of sieve shakes the driving rod, and the one end of two vibrations driving rods all extends to crushing case outside and equal fixed mounting has L type driving piece, the outside of crushing case is equipped with a set of vibrations driving subassembly, and vibrations driving subassembly is connected with vibrations driving rod.

Preferably, the vibration driving assembly comprises an L-shaped supporting plate fixedly installed on the outer side of the crushing box, a rotating motor is fixedly installed on one side of the L-shaped supporting plate, the output end of the rotating motor is connected with a rotating disc, a plurality of extrusion convex blocks are fixedly installed on the outer side of the rotating disc, and the extrusion convex blocks are matched with the L-shaped driving blocks.

Preferably, the bottom side of L type drive piece fixed mounting has the arc extrusion piece, is equipped with arc contact surface and vertical face on the extrusion lug, and arc contact surface and vertical face all with extrusion lug looks adaptation.

Preferably, two vertical vibration holes are formed in the inner wall of the crushing box, the two vertical vibration holes are symmetrically arranged, one ends of the two vibration driving rods respectively penetrate through the two vertical vibration holes, one end of a pressing spring is fixedly arranged on the top side of the vibration driving rod, and the other end of the pressing spring is fixedly arranged on the inner wall of the top side of the vertical vibration holes.

Preferably, the sealing grooves are formed in the inner walls of the four sides of the upper vibration hole and the lower vibration hole, the vibration driving rod is fixedly sleeved with the sealing plate, and the sealing plate is movably mounted in the sealing grooves.

Preferably, the crushing mechanism comprises a rotating motor fixedly arranged on the top side of the crushing box, the output end of the rotating motor is connected with a rotating shaft, the rotating shaft is positioned in the crushing box, and a plurality of crushing cutters are fixedly arranged on the rotating shaft.

Preferably, the ore feeding assembly comprises two ore inlets arranged on the top side of the crushing box, a crushing blanking hopper is arranged on the inner wall of the bottom side of the crushing box, and the crushing blanking hopper is communicated with the ore dressing equipment body.

The beneficial effects of the utility model are as follows:

according to the utility model, a rotating motor on a crushing mechanism is started to operate, a plurality of crushing cutters rotate at a high speed to crush ores in the crushing mechanism, more ores are crushed into fine particles through continuous rotation crushing, then are screened through a screen plate, the screened qualified ores fall down, and the larger ores remain above to crush until the crushed qualified ores fall down, and the crushed qualified ores pass through a crushing blanking hopper and fall into a mineral separation equipment body to carry out mineral separation operation;

in the screening process, the rotating motor on the vibration driving assembly is started to operate, the rotating disc can be driven to rotate, the plurality of extrusion convex blocks are arranged on the outer side of the rotating disc and are continuously contacted with the arc extrusion blocks and extruded, so that the screen plate vibrates on one side, crushed qualified ores can be rapidly screened through vibration, the crushed qualified ores can be efficiently screened through continuous rotation vibration, the sealing plate and the sealing groove are arranged, and the sealing plate always blocks and seals the upper vibration hole and the lower vibration hole, so that the outflow of the ores in the crushing box is avoided.

Drawings

FIG. 1 is a schematic view of a mineral processing machine for mining mineral products according to the present utility model;

FIG. 2 is a schematic cross-sectional view of a mineral processing machine for mining mineral products according to the present utility model;

FIG. 3 is a schematic view of a partial perspective view of a concentrating machine for mining mineral products according to the present utility model;

fig. 4 is a schematic view of a portion of a mineral processing machine according to the present utility model.

In the figure: 1. a beneficiation equipment body; 2. a crushing box; 3. an ore inlet; 4. crushing a blanking hopper; 5. a rotating motor; 6. a rotating shaft; 7. a crushing knife; 8. a sieve plate; 9. a vertical vibration hole; 10. vibrating the driving rod; 11. pressing down the spring; 12. sealing grooves; 13. a sealing plate; 14. an L-shaped driving block; 15. arc extrusion blocks; 16. an L-shaped support plate; 17. a rotating electric machine; 18. a rotating disc; 19. extruding the convex blocks; 20. an arcuate contact surface; 21. a vertical plane.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

According to the drawing 1 and the drawing 2 show, a concentrator for mining mineral products, including the concentrator body 1, crushing case 2 is installed to the topside of concentrator body 1, be equipped with ore feeding subassembly on the crushing case 2, install crushing mechanism on the crushing case 2, crushing mechanism is located crushing incasement 2, movable mounting has sieve 8 in the crushing case 2, sieve 8 is located crushing mechanism's below position, the equal fixed mounting of both sides of sieve 8 has vibrations to drive pole 10, the one end of two vibrations to drive pole 10 all extends outside crushing case 2 and equal fixed mounting has L type to drive piece 14, the outside of crushing case 2 is equipped with a set of vibrations and drives the subassembly, vibrations drive the subassembly and be connected with vibrations drive pole 10.

According to the figures 2, 3 and 4, the vibration driving assembly comprises an L-shaped supporting plate 16 fixedly installed at the outer side of the crushing box 2, a rotating motor 17 is fixedly installed at one side of the L-shaped supporting plate 16, the output end of the rotating motor 17 is connected with a rotating disc 18, a plurality of extrusion convex blocks 19 are fixedly installed at the outer side of the rotating disc 18, the extrusion convex blocks 19 are matched with the L-shaped driving blocks 14, an arc extrusion block 15 is fixedly installed at the bottom side of the L-shaped driving blocks 14, an arc contact surface 20 and a vertical surface 21 are arranged on the extrusion convex blocks 19, the arc contact surface 20 and the vertical surface 21 are matched with the extrusion convex blocks 19, two upper and lower vibration holes 9 are symmetrically arranged on the inner wall of the crushing box 2, one ends of two vibration driving rods 10 respectively movably penetrate through the two upper and lower vibration holes 9, one ends of the lower vibration driving rods 10 are fixedly installed with one ends of lower pressing springs 11, the other end of the downward pressing spring 11 is fixedly arranged on the inner wall of the top side of the upper vibration hole 9 and the lower vibration hole 9, in the screening process, a rotating motor 17 on the vibration driving assembly is started to operate, the rotating disc 18 can be driven to rotate, a plurality of extrusion convex blocks 19 are arranged on the outer side of the rotating disc 18, three extrusion convex blocks 19 can be arranged, and other numbers of extrusion convex blocks 19 are also arranged, an arc-shaped contact surface 20 and a vertical surface 21 are arranged on the extrusion convex blocks 19, when in rotation, the arc-shaped contact surface 20 is firstly contacted with the arc-shaped extrusion block 15 and extruded, the arc-shaped extrusion block 15 and the L-shaped driving block 14 can be driven to move upwards, so that the vibration driving rod 10 is driven to move upwards, and along with the continuous movement, the arc-shaped contact surface 20 is not contacted with the arc-shaped extrusion block 15, one side of the extrusion convex blocks 19 is rotated, the vertical surface 21 is in a vertical state and is not contacted with the arc-shaped extrusion block 15, at the moment, the arc-shaped extrusion block 15 can be under the gravity of ore and the thrust of the downward pressing spring 11, move down fast to make sieve 8 carry out one side vibrations, sieve through vibration can be fast to smashing qualified ore, through continuous rotatory vibrations, can the qualified ore of efficient screening crushing.

According to the drawings 2 and 3, the sealing grooves 12 are formed in the inner walls of the four sides of the upper and lower vibration holes 9, the vibration driving rod 10 is fixedly sleeved with the sealing plate 13, the sealing plate 13 is movably arranged in the sealing groove 12, the sealing plate 13 and the sealing groove 12 are arranged, and the sealing plate 13 always blocks and seals the upper and lower vibration holes 9, so that ore in the crushing box 2 is prevented from flowing out.

According to the drawing 1 and the drawing 2 show, crushing mechanism includes fixed mounting rotary motor 5 on crushing case 2 topside, rotary motor 5 output is connected with axis of rotation 6, axis of rotation 6 is located crushing case 2, fixed mounting has a plurality of crushing sword 7 on the axis of rotation 6, ore feeding subassembly is including installing two ore inlets 3 on crushing case 2 topside, crushing hopper 4 has been seted up on crushing case 2 bottom side inner wall, crushing hopper 4 is linked together with mineral processing equipment body 1, put into ore in crushing case 2 through ore inlet 3 on the ore feeding subassembly, then start the operation of rotary motor 5 on the crushing mechanism, can drive a plurality of crushing sword 7 and carry out high-speed rotation, smash inside ore, smash through continuous rotation, more ore will be smashed into tiny granule, then sieve 8 sieves, the qualified ore that sieves will fall down, bigger still will continue to leave the top and smash down, smash down hopper 4 through smashing, and ore after smashing qualification will pass through smashing hopper 4, and fall in mineral processing equipment body 1 carries out ore dressing operation.

The working principle of the utility model is as follows:

in the utility model, when ore is mined and beneficiated, the ore is required to be crushed firstly, the ore is put into a crushing box 2 through an ore inlet 3 on an ore feeding component, then a rotating motor 5 on a crushing mechanism is started to operate, a plurality of crushing cutters 7 can be driven to rotate at high speed to crush the ore in the crushing box, more ore is crushed into fine particles through continuous rotation crushing, then screening is carried out through a screen plate 8, the screened qualified ore falls down, the larger ore is still left above to crush until the crushed ore falls down, a rotating motor 17 on a vibration driving component is started to operate in the screening process, a rotating disc 18 can be driven to rotate, a plurality of extrusion convex blocks 19 are arranged on the outer side of the rotating disc 18, three extrusion convex blocks 19 can be arranged, other numbers of extrusion convex blocks 19 can also be arranged, an arc-shaped contact surface 20 and a vertical surface 21 are arranged on the extrusion convex blocks 19, when in rotation, the arc contact surface 20 is firstly contacted and extruded with the arc extrusion block 15, and can drive the arc extrusion block 15 and the L-shaped driving block 14 to move upwards, so as to drive the vibration driving rod 10 to move upwards, along with the continuous movement, the arc contact surface 20 is not contacted with the arc extrusion block 15, one side of the rotation extrusion projection 19 is rotated, the vertical surface 21 is in a vertical state and is not contacted with the arc extrusion block 15, at the moment, the arc extrusion block 15 can rapidly move downwards under the action of the gravity of ore and the thrust of the downward spring 11, thereby leading the sieve plate 8 to vibrate at one side, rapidly sieving crushed qualified ore through vibration, efficiently sieving crushed qualified ore through continuous rotation vibration, arranging the sealing plate 13 and the sealing groove 12, and finally blocking and sealing the upward and downward vibration holes 9 by the sealing plate 13, thereby avoid smashing the interior ore outflow of case 2, smash the ore after passing through and smash hopper 4 down to fall to carry out the ore dressing operation in the mineral processing equipment body 1, convenient to use.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (7)

1. Concentrator for mining mineral products, comprising a body (1) of the concentrating device, characterized in that: crushing case (2) are installed to the topside of mineral processing equipment body (1), be equipped with ore feeding subassembly on smashing case (2), install crushing mechanism on smashing case (2), crushing mechanism is located smashing case (2), movable mounting has sieve (8) in smashing case (2), and sieve (8) are located crushing mechanism's below position, and the equal fixed mounting in both sides of sieve (8) has vibrations to drive pole (10), and the one end of two vibrations to drive pole (10) all extends outside smashing case (2) and equal fixed mounting has L type to drive piece (14), the outside of smashing case (2) is equipped with a set of vibrations to drive the subassembly, and vibrations drive the subassembly and vibrations drive pole (10) and be connected.

2. A concentrator for mining mineral products according to claim 1, wherein: the vibration drive assembly comprises an L-shaped supporting plate (16) fixedly arranged on the outer side of the crushing box (2), a rotating motor (17) is fixedly arranged on one side of the L-shaped supporting plate (16), the output end of the rotating motor (17) is connected with a rotating disc (18), a plurality of extrusion convex blocks (19) are fixedly arranged on the outer side of the rotating disc (18), and the extrusion convex blocks (19) are matched with the L-shaped drive blocks (14).

3. A concentrating machine for mining mineral products according to claim 2, wherein: the bottom side of L type drive piece (14) is fixed mounting has arc extrusion piece (15), is equipped with arc contact surface (20) and vertical face (21) on extrusion lug (19), arc contact surface (20) and vertical face (21) all with extrusion lug (19) looks adaptation.

4. A concentrator for mining mineral products according to claim 1, wherein: two vertical vibration holes (9) are formed in the inner wall of the crushing box (2), the two vertical vibration holes (9) are symmetrically arranged, one ends of two vibration driving rods (10) respectively movably penetrate through the two vertical vibration holes (9), one end of a pressing spring (11) is fixedly arranged on the top side of the vibration driving rod (10), and the other end of the pressing spring (11) is fixedly arranged on the inner wall of the top side of the vertical vibration hole (9).

5. A concentrator for mining mineral products according to claim 4, wherein: a sealing groove (12) is formed in the inner walls of the four sides of the upper vibration hole (9), a sealing plate (13) is fixedly sleeved on the vibration driving rod (10), and the sealing plate (13) is movably mounted in the sealing groove (12).

6. A concentrator for mining mineral products according to claim 1, wherein: the crushing mechanism comprises a rotating motor (5) fixedly arranged on the top side of the crushing box (2), a rotating shaft (6) is connected to the output end of the rotating motor (5), the rotating shaft (6) is positioned in the crushing box (2), and a plurality of crushing cutters (7) are fixedly arranged on the rotating shaft (6).

7. A concentrator for mining mineral products according to claim 1, wherein: the ore feeding assembly comprises two ore inlets (3) arranged on the top side of the crushing box (2), a crushing blanking hopper (4) is arranged on the inner wall of the bottom side of the crushing box (2), and the crushing blanking hopper (4) is communicated with the ore dressing equipment body (1).