CN115445730B - Mineral crushing equipment and method thereof - Google Patents

Abstract

The invention discloses mineral crushing equipment and a method thereof, which belong to the technical field of mineral processing and aim at the problems that in the prior art, when an ore crusher is used, the ore crusher lacks further crushing treatment, so that the ore crushing fineness is poor and the crushing sufficiency is low; according to the invention, the output end of the motor drives the circular plate c to rotate, the circular plate c drives the transmission mechanism to work, the transmission mechanism drives the crushing mechanism to further crush and refine ores, the fineness of ore crushing is increased, the ores are synchronously crushed and refined in small parts by the plurality of crushing mechanisms, and the condition that too much ores are crushed simultaneously is avoided, so that the efficiency of crushing the ores is effectively improved, and the driving energy consumption is lower.

Description

Mineral crushing equipment and method thereof

Technical Field

The invention belongs to the technical field of mineral processing, and particularly relates to mineral crushing equipment and a mineral crushing method.

Background

Mineral resources are the material basis for the survival and development of modern human beings, and even today with the rapid development of information technology, the mineral resources still play an irreplaceable role in daily life of human beings, and in mine exploitation production, after coarse crushing of ores is often needed, according to processing requirements, a part of ores still need to be further crushed, so that the mineral resources are convenient to use.

Chinese patent publication No.: CN205056089U discloses an ore crusher, including first extrusion wheel, second extrusion wheel, first motor, second motor and casing, be provided with first extrusion wheel and second extrusion wheel that is parallel to each other in the casing, the below of first extrusion wheel and second extrusion wheel is provided with the reciprocating sieve, the below of reciprocating sieve is provided with first conveyer belt, be provided with the second conveyer belt between reciprocating sieve and the first conveyer belt, the top of second conveyer belt is provided with the motor support, install the first motor of being connected with first extrusion wheel on the motor support, still install the second motor of being connected with the second extrusion wheel on the motor support, one side of casing is provided with the fine material export, the another side is provided with the coarse fodder export. According to the invention, the vibrating screen is arranged below the first extrusion wheel and the second extrusion wheel, so that the labor intensity of workers is reduced, the working efficiency is improved, and the degree of automation is high;

although the technical problem that has been put forward in its background art has been solved to above-mentioned patent, still exists not enough, and the ore still has the partly incomplete crushed ore among them after the cooperation of first pinch roller, second pinch roller is smashed to the ore, lacks further crushing treatment to lead to ore crushing fineness relatively poor, smash sufficiency relatively low.

Therefore, there is a need for a mineral comminution apparatus and method that solves the problems of the prior art that the ore comminution fineness is poor and the comminution sufficiency is low due to the lack of further comminution treatment when the ore comminution machine is in use.

Disclosure of Invention

The invention aims to provide mineral crushing equipment and a mineral crushing method, so as to solve the problems in the background technology.

In order to achieve the above purpose, the invention provides mineral crushing equipment, which comprises a shell, wherein a motor is fixed on the inner side wall at the top end of the shell, a circular plate c is rotatably connected to the inner side wall of the shell through a bearing, the output end of the motor is fixed with the center position of the top end of the circular plate c, a plurality of transmission mechanisms which are distributed in a ring shape are arranged at the bottom end of the motor, a circular plate b fixed on the inner side wall of the shell is arranged below the circular plate c, a circular plate a fixed on the inner side wall of the shell is arranged below the circular plate b, a crushing mechanism in transmission connection with the transmission mechanism is arranged in the circular plate a, a blanking port positioned under the transmission mechanism is formed in the side surface of the bottom end of the circular plate a, a feeding pipe is fixed on the side wall of the shell, the inner side end of the feeding pipe is communicated with a feeding cylinder, and the bottom end of the feeding cylinder is communicated with a blanking pipe communicated with the crushing mechanism.

It is further worth to say that drive mechanism includes arc lug a with plectane c bottom side fixed, arc lug a is provided with a plurality of and is annular distribution, sliding connection has a plurality of arc lugs b that are annular distribution on the arc lug a, arc lug b's bottom mounting has the slide bar that slides and run through plectane b, the cover is equipped with reset spring on the side of slide bar, reset spring's both ends are fixed with arc lug b's bottom and plectane b's top side respectively.

It is still further to be noted that, crushing mechanism includes the connecting plate with slide bar bottom mounting, the bottom mounting of connecting plate has high strength blade, set up on the top side of plectane a with connecting plate slip adaptation and with the blanking pipe keep away from the crushing chamber of the one end intercommunication of feed delivery section of thick bamboo, set up a plurality of blanking holes that are the equidistance and distribute on the bottom side of crushing chamber, the blanking mouth is located crushing chamber under.

As a preferred embodiment, a plurality of high-strength blades at the bottom of the connecting plate are arranged, and the plurality of high-strength blades are distributed at equal intervals.

As a preferable implementation mode, the inner side wall of the top end of the shell is provided with two symmetrically distributed connecting rods, and the adjacent ends of the two connecting rods are fixed with the surface of the motor.

As a preferred embodiment, the outer side wall of the shell is fixedly provided with two supporting legs which are symmetrically distributed.

As a preferred embodiment, the bottom ends of the two supporting legs are jointly fixed with a bottom plate, and a collecting box is placed on the side surface of the top end of the bottom plate and is positioned below the bottom end of the shell.

A mineral comminution method comprising the steps of:

s1, throwing the coarsely crushed ore into a feeding pipe, entering a material conveying cylinder through the feeding pipe, and entering a crushing cavity through a blanking pipe;

s2, starting a motor to work, wherein the output end of the motor drives a circular plate c to rotate, the circular plate c drives a plurality of arc-shaped protruding blocks a which are annularly distributed to rotate, and the arc-shaped protruding blocks a are in sliding contact with arc-shaped protruding blocks b when rotating, so that a sliding rod is driven to move up and down through the arc-shaped protruding blocks a, the arc-shaped protruding blocks b and a reset spring;

s3, when the sliding rod moves up and down in a reciprocating manner, the connecting plate drives the high-strength blade to extrude and cut in the crushing cavity in a reciprocating manner, so that ore is further crushed and refined, and the fineness of ore crushing is increased;

s4, fully refined ore leaks out through a plurality of blanking holes.

Compared with the prior art, the mineral crushing equipment and the mineral crushing method provided by the invention at least comprise the following beneficial effects:

(1) The sliding rod drives the high-strength blade to reciprocate in the crushing cavity through the connecting plate when reciprocating up-and-down movement, so that ore is further crushed and refined, the fineness of ore crushing is increased, ore after full refinement is leaked through a plurality of blanking holes, the ore is synchronously crushed and refined in small parts through the plurality of high-strength blades, the condition that excessive ore is crushed simultaneously is avoided, the efficiency of ore crushing is effectively improved, the driving energy consumption is lower, and the energy is saved.

(2) The efficiency that refines is smashed to the ore through a plurality of high strength blades further increases, and the bottom plate that sets up increases the stability of device and falls into the collection box through the ore that the blanking mouth spills after fully smashing in, gathers.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic overall sectional view of the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A;

FIG. 4 is an enlarged schematic view of the structure of FIG. 2B;

FIG. 5 is a schematic view of a partial structure of an arc-shaped bump b according to the present invention;

fig. 6 is a schematic view of a partial structure of an arc-shaped bump b according to the present invention.

In the figure: 1. a transmission mechanism; 101. arc-shaped convex blocks a; 102. arc-shaped convex blocks b; 103. a return spring; 104. a slide bar; 2. a crushing mechanism; 201. a high strength blade; 202. a crushing cavity; 203. a blanking hole; 204. a connecting plate; 3. a housing; 4. a bottom plate; 5. a support leg; 6. a collection box; 7. a feeding pipe; 8. a connecting rod; 9. a motor; 10. a feed delivery cylinder; 11. a blanking pipe; 12. a circular plate a; 13. a circular plate b; 14. a circular plate c; 15. and a blanking port.

Detailed Description

The invention is further described below with reference to examples.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention, and it is apparent that the described embodiments are some, but not all, embodiments of the present invention, and all other embodiments obtained by persons of ordinary skill in the art without inventive labor based on the described embodiments of the present invention are included in the scope of protection of the present invention.

The following examples are illustrative of the present invention but are not intended to limit the scope of the invention. The conditions in the examples can be further adjusted according to specific conditions, and simple modifications of the method of the invention under the premise of the conception of the invention are all within the scope of the invention as claimed.

Referring to fig. 1-6, the invention provides a mineral crushing device, which comprises a housing 3, wherein a motor 9 is fixed on the inner side wall of the top end of the housing 3, a circular plate c14 is rotatably connected on the inner side wall of the housing 3 through a bearing, the output end of the motor 9 is fixed with the center position of the top end of the circular plate c14, a plurality of transmission mechanisms 1 which are distributed in a ring shape are arranged at the bottom end of the motor 9, a circular plate b13 fixed on the inner side wall of the housing 3 is arranged below the circular plate c14, a circular plate a12 fixed on the inner side wall of the housing 3 is arranged below the circular plate b13, a crushing mechanism 2 which is in transmission connection with the transmission mechanisms 1 is arranged in the circular plate a12, a blanking port 15 which is positioned right below the transmission mechanisms 1 is arranged on the side surface of the bottom end of the circular plate a12, a feeding pipe 7 is fixed on the side wall of the housing 3, the inner side end of the feeding pipe 7 is communicated with a feeding barrel 10, and the bottom end of the feeding barrel 10 is communicated with a blanking pipe 11 which is communicated with the crushing mechanism 2; when the device is used, the ore after coarse crushing is thrown into the feeding pipe 7, enters into the feeding barrel 10 through the feeding pipe 7, enters into the crushing mechanism 2 through the blanking pipe 11, starts the motor 9 to work, the output end of the motor 9 drives the circular plate c14 to rotate, the circular plate c14 drives the transmission mechanism 1 to work, the transmission mechanism 1 drives the crushing mechanism 2 to further crush and refine the ore, the fineness of ore crushing is increased, the ore is synchronously crushed and refined in small parts through the crushing mechanisms 2, the condition that too much ore is crushed simultaneously is avoided, the efficiency of crushing the ore is effectively improved, the driving energy consumption is lower, and the energy is saved.

As further shown in fig. 4, 5 and 6, it is worth specifically describing that the transmission mechanism 1 includes an arc-shaped protruding block a101 fixed with the side surface of the bottom end of the circular plate c14, the arc-shaped protruding block a101 is provided with a plurality of arc-shaped protruding blocks b102 which are distributed in an annular shape, the arc-shaped protruding block a101 is connected with a plurality of arc-shaped protruding blocks b102 which are distributed in an annular shape in a sliding manner, the bottom end of the arc-shaped protruding block b102 is fixed with a sliding rod 104 which penetrates through the circular plate b13 in a sliding manner, a return spring 103 is sleeved on the side surface of the sliding rod 104, and two ends of the return spring 103 are respectively fixed with the bottom end of the arc-shaped protruding block b102 and the side surface of the top end of the circular plate b 13; the motor 9 is started to work, the output end of the motor 9 drives the circular plate c14 to rotate, the circular plate c14 drives a plurality of arc-shaped protruding blocks a101 which are annularly distributed to rotate, the arc-shaped protruding blocks a101 are in sliding contact with the arc-shaped protruding blocks b102 when rotating, and accordingly the sliding rod 104 is driven to move up and down through the arc-shaped protruding blocks a101, the arc-shaped protruding blocks b102 and the reset springs 103, and the sliding rod 104 drives the crushing mechanism 2 to crush ores in the reciprocating up and down moving process.

As further shown in fig. 1, 2 and 3, it is worth specifically describing that the crushing mechanism 2 includes a connecting plate 204 fixed to the bottom end of the sliding rod 104, a high-strength blade 201 is fixed to the bottom end of the connecting plate 204, a crushing cavity 202 slidably adapted to the connecting plate 204 and communicated with one end of the blanking pipe 11 far away from the feeding barrel 10 is formed on the top end side of the circular plate a12, a plurality of blanking holes 203 distributed at equal intervals are formed on the bottom end side of the crushing cavity 202, and the blanking holes 15 are located right below the crushing cavity 202; ore falls into crushing intracavity 202 through blanking pipe 11, and slide bar 104 drives high strength blade 201 through connecting plate 204 when reciprocating reciprocates and extrudees cutting in crushing intracavity 202 to carry out further crushing to the ore and refine, increase the kibbling fineness of ore, spill through a plurality of blanking holes 203 through the ore after abundant refining, thereby divide into the synchronous crushing of tiny place to the ore through a plurality of high strength blades 201 and refine, avoid too much ore to carry out the circumstances of smashing simultaneously, thereby effectively improve the efficiency to ore crushing, the drive consumption is lower, the energy saving.

The scheme comprises the following working processes: the ore after coarse crushing is thrown into the feeding pipe 7, enters the feeding barrel 10 through the feeding pipe 7, enters the crushing cavity 202 through the blanking pipe 11, starts the motor 9 to work, the output end of the motor 9 drives the circular plate c14 to rotate, the circular plate c14 drives a plurality of circular arc-shaped protruding blocks a101 to rotate, the circular arc-shaped protruding blocks a101 rotate and are in sliding contact with the circular arc-shaped protruding blocks b102, the sliding rod 104 is driven to move up and down through the circular arc-shaped protruding blocks a101, the circular arc-shaped protruding blocks b102 and the reset spring 103, the sliding rod 104 drives the high-strength blade 201 to perform reciprocating extrusion cutting in the crushing cavity 202 through the connecting plate 204 when moving up and down in a reciprocating manner, further crushing and refining are performed on the ore, the ore crushed fineness is increased, the ore after full refining leaks out through the blanking holes 203, and is crushed and is synchronously crushed in small portions through the high-strength blades 201.

The working process can be as follows: the drive mechanism 1 drives the crushing mechanism 2 to further crush and refine ores, the fineness of ore crushing is increased, the ores are synchronously crushed and refined in small parts through the plurality of crushing mechanisms 2, and the condition that too much ores are crushed simultaneously is avoided, so that the efficiency of ore crushing is effectively improved, the driving energy consumption is lower, and the energy is saved.

As further shown in fig. 3, it is worth specifically explaining that a plurality of high-strength blades 201 are arranged at the bottom of a single connecting plate 204, and the plurality of high-strength blades 201 are distributed at equal intervals; in particular operation, the efficiency of ore comminution refinement is further increased by the plurality of high strength blades 201.

As further shown in fig. 1 and 2, it should be noted that, two symmetrically distributed connecting rods 8 are disposed on the inner side wall of the top end of the housing 3, and the two connecting rods 8 are fixed to the surface of the motor 9 near the end.

Further, as shown in fig. 1, it is worth specifically explaining that the outer side wall of the housing 3 is fixed with two legs 5, and the legs 5 are symmetrically distributed; in particular operation, the base plate 4 provided increases the stability of the device.

As further shown in fig. 1, it is worth specifically explaining that the bottom ends of the two supporting legs 5 are jointly fixed with a bottom plate 4, a collecting box 6 is placed on the side surface of the top end of the bottom plate 4, and the collecting box 6 is located below the bottom end of the shell 3; in a specific operation, the ore which leaks through the blanking port 15 and is sufficiently crushed falls into the collecting box 6 to be collected intensively.

A mineral comminution method comprising the steps of:

s1, throwing the coarsely crushed ore into a feeding pipe 7, entering a material conveying cylinder 10 through the feeding pipe 7, and entering a crushing cavity 202 through a blanking pipe 11;

s2, starting the motor 9 to work, wherein the output end of the motor 9 drives a circular plate c14 to rotate, the circular plate c14 drives a plurality of arc-shaped protruding blocks a101 which are annularly distributed to rotate, and the arc-shaped protruding blocks a101 are in sliding contact with the arc-shaped protruding blocks b102 when rotating, so that the sliding rod 104 is driven to move up and down through the arc-shaped protruding blocks a101, the arc-shaped protruding blocks b102 and the reset spring 103;

s3, when the sliding rod 104 moves up and down in a reciprocating manner, the connecting plate 204 drives the high-strength blade 201 to extrude and cut in the crushing cavity 202 in a reciprocating manner, so that ore is further crushed and refined, and the fineness of ore crushing is increased;

s4, fully refined ore leaks out through the blanking holes 203.

To sum up: the drive mechanism 1 drives the crushing mechanism 2 to further crush and refine the ore, increase the fineness of ore crushing, divide into the smash in step through a plurality of crushing mechanisms 2 to the ore and refine, avoid too much ore to carry out the kibbling condition simultaneously, thereby effectively improve the kibbling efficiency of ore, the drive energy consumption is lower, the efficiency of refining is smashed to the ore is further increased through a plurality of high strength blades 201, the stability of the device is increased to bottom plate 4 that set up, spill through blanking mouth 15 the ore after fully smashing falls into collection box 6 in, collect intensively.

The motor 9 can be purchased in the market, and the motor 9 is provided with a power supply, which belongs to the mature technology in the field and is fully disclosed, so that the description is not repeated.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs, the terms "comprising" or "comprises" and the like as used herein shall mean that the element or article preceding the term encompasses the element or article listed after the term and equivalents thereof without excluding other elements or articles, and that the terms "connected" or "connected" and the like shall not be limited to physical or mechanical connections, but shall also include electrical connections, whether direct or indirect, "upper", "lower", "left", "right", etc. are merely intended to indicate relative positional relationships that may also be correspondingly altered when the absolute position of the object being described is altered.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a mineral crushing equipment, includes shell (3), its characterized in that, the top inside wall of shell (3) is fixed with motor (9), the inside wall of shell (3) is connected with plectane c (14) through the bearing rotation, the output of motor (9) is fixed with the top central point of plectane c (14), the bottom of motor (9) is provided with a plurality of transmission mechanisms (1) that are annular distribution, the below of plectane c (14) is provided with plectane b (13) fixed with the inside wall of shell (3), the below of plectane b (13) is provided with plectane a (12) fixed with the inside wall of shell (3), be provided with in plectane a (12) with transmission mechanism (1) transmission connection's crushing mechanism (2), offer blanking mouth (15) under transmission mechanism (1) on the bottom side of plectane a (12), be fixed with feeding tube (7) on the lateral wall of shell (3), the inboard end intercommunication of feeding tube (7) has feed delivery cylinder (10), feed tube (101) are the bottom (10) and are the arc-shaped projection (101) are fixed with each other in a plurality of arc-shaped projection (101) and are connected, the utility model discloses a grinding device for the material conveying barrel, including arc lug a (101), arc lug a (101) is gone up sliding connection has a plurality of arc lug b (102) that are annular distribution, the bottom mounting of arc lug b (102) has slide bar (104) that runs through plectane b (13), the cover is equipped with reset spring (103) on the side of slide bar (104), reset spring (103) both ends are fixed with the bottom of arc lug b (102) and the top side of plectane b (13) respectively, grinding mechanism (2) include connecting plate (204) with slide bar (104) bottom mounting, the bottom mounting of connecting plate (204) has high strength blade (201), set up on the top side of plectane a (12) with connecting plate (204) slip adaptation and with blanking pipe (11) keep away from smash chamber (202) one end intercommunication of material conveying barrel (10), set up a plurality of blanking holes (203) that are the equidistance distribution on the bottom side of smashing chamber (202), blanking mouth (15) are located under smashing chamber (202).

2. A mineral comminution apparatus according to claim 1, characterized in that a plurality of high strength blades (201) are provided at the bottom of a single connecting plate (204), a plurality of the high strength blades (201) being equally spaced.

3. A mineral comminution apparatus according to claim 1, characterized in that the inner side wall of the top end of the housing (3) is provided with two symmetrically distributed connecting rods (8), the ends of the connecting rods (8) close to each other being fixed to the surface of the motor (9).

4. A mineral comminution apparatus according to claim 3, characterized in that the outer side wall of the housing (3) is provided with legs (5), the legs (5) being provided in two and symmetrically distributed.

5. A mineral comminution apparatus according to claim 4, characterized in that the bottom ends of the two legs (5) are jointly fastened with a bottom plate (4), a collecting box (6) being placed on the top side of the bottom plate (4), the collecting box (6) being located below the bottom end of the housing (3).

6. A mineral comminution apparatus comminution method according to any one of claims 1 to 5 in which: the method comprises the following steps:

s1, feeding the coarsely crushed ore into a feeding pipe (7), entering a feeding cylinder (10) through the feeding pipe (7), and entering a crushing cavity (202) through a blanking pipe (11);

s2, starting a motor (9) to work, wherein the output end of the motor (9) drives a circular plate c (14) to rotate, the circular plate c (14) drives a plurality of arc-shaped protruding blocks a (101) which are annularly distributed to rotate, and the arc-shaped protruding blocks a (101) are in sliding contact with the arc-shaped protruding blocks b (102) when rotating, so that the sliding rod (104) is driven to move up and down through the arc-shaped protruding blocks a (101), the arc-shaped protruding blocks b (102) and a reset spring (103);

s3, when the sliding rod (104) moves up and down in a reciprocating manner, the connecting plate (204) drives the high-strength blade (201) to extrude and cut in the crushing cavity (202) in a reciprocating manner, so that ore is further crushed and refined, and the fineness of ore crushing is increased;

s4, fully refined ore leaks out through a plurality of blanking holes (203).