CN212142965U

CN212142965U - Multifunctional ore powder preparation device

Info

Publication number: CN212142965U
Application number: CN201922189066.0U
Authority: CN
Inventors: 杨小朋; 周彦秋; 段辉; 王梅; 杨晓静; 于春玲; 杨金翰
Original assignee: HEILONGJIANG YUTAI HEAVY MACHINE MANUFACTURING CO LTD
Current assignee: HEILONGJIANG YUTAI HEAVY MACHINE MANUFACTURING CO LTD
Priority date: 2019-12-02
Filing date: 2019-12-02
Publication date: 2020-12-15
Anticipated expiration: 2029-12-02

Abstract

The utility model relates to a multi-functional ore powder preparation facilities has solved the problem of polluted environment in the ore powder preparation process. The device comprises a vibrating screen, a vibrating motor, a feeding port, a storage bin, a feed opening, a material receiver, an inlet of a bucket elevator, the bucket elevator, an elevating control device, a feeding pipe, an inlet of the feeding pipe, a dust outlet, a feeding hopper, an inlet of a crusher, the crusher, a classifying vibrating screen, a first screening port, a second screening port, a third screening port, a fourth screening port, a powder discharge pipeline, an inlet of a dust remover, the dust remover, a discharge port, a dust removing motor and an outlet of the crusher. A bucket elevator is arranged in parallel with the material receiver, the top end of the upper part of the bucket elevator is provided with a lifting control device, a crusher is arranged below the feed hopper, a grading vibrating screen is arranged below the crusher, and a dust remover is arranged on the right side of the whole device. The utility model discloses a simple structure, low cost, the simple operation, the security performance is high, and the use technique is convenient for popularize, is applicable to the ore crushing technical field and uses.

Description

Multifunctional ore powder preparation device

Technical Field

The utility model belongs to the technical field of ore powder preparation, specifically be a multi-functional ore powder preparation facilities.

Background

The ore crushing is one of the important processes in the mineral processing process, and the traditional crushing method is that the granularity of a large material is reduced under the action of mechanical force, so that useful minerals in raw ores and gangue mineral monomers are dissociated and then separated. The energy consumption is about 40-60% of the total energy consumption of the whole ore dressing plant, the effective utilization rate of the crushing energy is only about 1%, and the rest input energy is lost due to heat generated by friction among ores. Therefore, how to reduce the energy consumption in the crushing process of the plant selection and sorting quickly and efficiently has important significance for improving the economic benefit of the plant selection. Generally, the main factor determining the energy consumption for ore comminution is the nature of the raw ore, and another factor is the comminution process. The existing grinding equipment, such as a high-pressure roller mill, a Raymond mill and the like, improves the production capacity and reduces the energy consumption from the process perspective. In addition, in the process of crushing the ore, dust is raised, so that the environment is greatly polluted, and the physical and psychological health of operators is greatly damaged. Therefore, in the process of ore crushing, the aim of crushing is fulfilled, energy consumption is reduced, the operation is simple and convenient, the environment is not polluted, direct and rapid separation is needed, the cost is reduced, energy is saved, attention is paid to environment protection, and therefore, the research on the multifunctional ore crushing device is of great significance.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide a multifunctional ore powder preparation device.

The utility model discloses a technical problem is solved to following technical scheme, multi-functional ore powder preparation facilities, including shale shaker, vibrating motor, feed inlet, feed bin, feed opening, receiver, bucket elevator entry, bucket elevator, lift controlling means, inlet pipe entry, dust outlet, feeder hopper, breaker entry, breaker, hierarchical shale shaker, first screening mouth, second screening mouth, third screening mouth, fourth screening mouth, row's powder pipeline, dust remover entry, dust remover, discharge port, dust removal motor, breaker export.

A feed inlet is arranged above the bin, a vibrating screen is arranged below the bin, the left side and the right side of the vibrating screen are respectively provided with a vibrating motor, the two vibrating motors realize synchronous vibration, the front end of the vibrating screen is provided with a feed opening, a material receiver is arranged below the feed opening, and materials flowing out of the feed opening of the vibrating screen enter the material receiver;

a bucket elevator is arranged in parallel with the material receiver, an inlet of the bucket elevator is arranged on one side of the lower side surface of the bucket elevator, which is close to the material receiver, and materials in the material receiver can enter the bucket elevator through the inlet of the bucket elevator;

the top end of the upper part of the bucket elevator is provided with a lifting control device for controlling the automatic lifting and discharging of materials; the lower side surface of the lifting control device is provided with an inclined feeding pipe, one side close to the lifting control device is higher than one side of the feeding hopper, the bucket elevator is connected with the feeding hopper through the feeding pipe, the side wall of the feeding hopper is provided with a feeding pipe inlet, and lifted materials enter the feeding pipe and enter the feeding hopper from the feeding pipe inlet;

a crusher is arranged below the feed hopper, the crusher is used for superfine crushing, a crusher inlet is arranged at the upper end of the crusher, and the feed hopper is connected with the crusher;

a crusher outlet is arranged below the crusher, a grading vibrating screen is arranged below the crusher, and the materials crushed by the crusher enter the grading vibrating screen below the crusher through the crusher outlet;

the grading vibration screen is provided with a first screening opening, a second screening opening, a third screening opening and a fourth screening opening;

the materials screened out by the first screening opening are materials which can not meet the industrial requirement, and are directly discharged into a material receiver and discharged into a bucket elevator again;

the second screening port, the third screening port and the fourth screening port are products which respectively meet different industrial required granularity, and are directly packaged and transported;

a dust outlet is arranged above the feed hopper and is connected with a powder discharge pipeline; the feed hopper plays a role in temporarily storing materials, so that dust is prevented from directly flying, and when the speed of the materials entering the feed hopper from the feed pipe is not balanced with the speed of the materials entering the crusher from the feed hopper, the feed hopper plays a role in storing the materials;

the right side of the whole device is provided with a dust remover, and the dust remover is arranged as a bag type dust remover according to the physicochemical properties of materials and dust removal requirements; a dust remover inlet is arranged on one side of the dust remover, and the dust remover inlet is connected with the dust outlet through a dust discharging pipeline;

the lower end of the dust remover is provided with a discharge port, the discharge port is connected with a dust removal motor, and the discharge port is controlled by the dust removal motor to work.

When the device works, large-granularity or large-sized ores are put into a bin, a feed inlet, the bin, a vibrating screen, a vibrating motor and a feed outlet form a vibrating feeder, materials in the bin enter a bucket elevator through the feed outlet of the vibrating feeder and then are fed into a crusher, the materials crushed by the crusher are divided into qualified products and unqualified products, the unqualified products are crushed again after entering a grading vibrating screen, and the qualified products are graded and discharged according to different granularities in the grading vibrating screen; and dust generated in the crushing process of the crusher and dust generated in the process of lifting large-granularity ores by the bucket elevator enter the dust remover, and are discharged after dust removal treatment.

Through the arrangement and the operation, the device not only can crush ores, but also can automatically classify and treat crushed ore powder according to different particle sizes, powder which does not meet the industrialized requirement on particle size directly enters a material receiver to be crushed for the second time, and a large amount of working time is saved; during the operation of the crusher, a large amount of generated dust is directly discharged into the dust remover, and the dust remover achieves the discharge requirement through bag type dust removal, so that the dust flying in the crushing process is avoided, and the harm to the environment and the human body is avoided.

The utility model discloses a simple structure, low cost, the simple operation, the security performance is high, and the use technique is convenient for popularize, is applicable to the ore crushing technical field and uses.

Drawings

FIG. 1 is a schematic view of an ore crushing apparatus.

The figure is as follows: 1 vibrating screen, 2 vibrating motor, 3 feeding inlet, 4 storage bin, 5 feed opening, 6 receiver, 7 bucket elevator inlet, 8 bucket elevator, 9 lifting control device, 10 feeding pipe, 11 feeding pipe inlet, 12 dust outlet, 13 feeding hopper, 14 crusher inlet, 15 crusher, 16 grading vibrating screen, 17 first screening port, 18 second screening port, 19 third screening port, 20 fourth screening port, 21 powder discharging pipeline, 22 dust remover inlet, 23 dust remover, 24 discharge port, 25 dust removing motor, 26 crusher outlet.

Detailed Description

As shown in fig. 1, the multifunctional apparatus for preparing mineral powder comprises a vibrating screen 1, a vibrating motor 2, a feeding port 3, a storage bin 4, a feeding port 5, a material receiver 6, a bucket elevator inlet 7, a bucket elevator 8, a lifting control device 9, a feeding pipe 10, a feeding pipe inlet 11, a dust outlet 12, a feeding hopper 13, a crusher inlet 14, a crusher 15, a grading vibrating screen 16, a first screening port 17, a second screening port 18, a third screening port 19, a fourth screening port 20, a powder discharge pipeline 21, a dust collector inlet 22, a dust collector 23, a discharge port 24, a dust collecting motor 25 and a crusher outlet 26.

A feed inlet 3 is arranged on the bin 4, a vibrating screen 1 is arranged below the bin 4, a vibrating motor 2 is respectively arranged on the left side and the right side of the vibrating screen 1, the two vibrating motors 2 realize synchronous vibration, a feed outlet 5 is arranged at the front end of the vibrating screen 1, a material receiver 6 is arranged below the feed outlet 5, and materials flowing out of the feed outlet 5 of the vibrating screen 1 enter the material receiver 6;

a bucket elevator 8 is arranged in parallel with the material receiver 6, a bucket elevator inlet 7 is arranged on the side surface of the lower part of the bucket elevator 8 and close to one side of the material receiver 6, and materials in the material receiver 6 can enter the bucket elevator 8 through the bucket elevator inlet 7;

the top end of the upper part of the bucket elevator 8 is provided with a lifting control device 9 for controlling the automatic lifting and discharging of materials; an inclined feeding pipe 10 is arranged on the lower side surface of the lifting control device 9, one side close to the lifting control device 9 is higher than one side of a feeding hopper 13, a bucket type lifting machine 8 is connected with the feeding hopper 13 through the feeding pipe 10, a feeding pipe inlet 11 is arranged on the side wall of the feeding hopper 13, and lifted materials enter the feeding pipe 10 and enter the feeding hopper 13 from the feeding pipe inlet 11;

a crusher 15 is arranged below the feed hopper 13, the crusher 15 is used for superfine crushing, a crusher inlet 14 is arranged at the upper end of the crusher 15, and the feed hopper 13 is connected with the crusher 15;

a crusher outlet 26 is arranged below the crusher 15, a grading vibrating screen 16 is arranged below the crusher 15, and materials crushed by the crusher 15 enter the grading vibrating screen 16 below through the crusher outlet 26;

the grading vibration screen 16 is provided with a first screening opening 17, a second screening opening 18, a third screening opening 19 and a fourth screening opening 20;

the materials screened out by the first screening port 17 are materials which can not meet the industrial requirement, and are directly discharged into the material receiver 6 and enter the bucket elevator 8 again;

the second screening opening 18, the third screening opening 19 and the fourth screening opening 20 are products which respectively meet different industrial requirements on granularity and are directly packaged and transported;

a dust outlet 12 is arranged above the feed hopper 13, and the dust outlet 12 is connected with a powder discharge pipeline 21; the feed hopper 13 plays a role in temporarily storing materials, so that dust is prevented from directly flying, and when the speed of the materials entering the feed hopper 13 from the feed pipe 10 is not balanced with the speed of the materials entering the crusher 15 from the feed hopper 13, the function of storing the materials is played;

a dust remover 23 is arranged on the right side of the whole device, and the dust remover 23 is arranged as a bag type dust remover according to the physicochemical properties of materials and dust removal requirements; a dust remover inlet 22 is arranged on one side of a dust remover 23, and the dust remover inlet 22 is connected with the dust outlet 12 through a dust discharging pipeline 21;

the lower end of the dust remover 23 is provided with a discharge port 24, the discharge port 24 is connected with a dust removing motor 25, and the discharge port 24 is controlled by the dust removing motor 25 to work.

When the device works, large-granularity or large-sized ores are put into a bin 4, a feed inlet 3, the bin 4, a vibrating screen 1, a vibrating motor 2 and a feed outlet 5 form a vibrating feeder, materials in the bin enter a bucket elevator 8 through the feed outlet 5 of the vibrating feeder and are then fed into a crusher 15, the materials crushed by the crusher 15 are divided into qualified products and unqualified products, the unqualified products are crushed again after entering a grading vibrating screen 16, and the qualified products are graded and discharged according to different granularities in the grading vibrating screen 16; dust generated in the crushing process of the crusher 15 and dust generated in the process of lifting large-granularity ores by the bucket elevator 8 enter the dust remover 23, and are discharged after dust removal treatment.

Through the arrangement and the operation, the device not only can crush ores, but also can automatically classify and treat crushed ore powder according to different particle sizes, powder which does not meet the industrialized requirement on particle size directly enters the material receiver 6 to be crushed for the second time, and a large amount of working time is saved; during the operation of the crusher 15, a large amount of generated dust is directly discharged into the dust remover 23, and reaches the discharge requirement through bag type dust removal, so that the dust flying in the crushing process is avoided, and the harm to the environment and the human body is avoided.

Claims

1. A multifunctional ore powder preparation device is characterized in that: the device comprises a vibrating screen, a vibrating motor, a feeding port, a storage bin, a feed opening, a material receiver, an inlet of a bucket elevator, the bucket elevator, an elevating control device, a feeding pipe, an inlet of a feeding pipe, a dust outlet, a feeding hopper, an inlet of a crusher, the crusher, a classifying vibrating screen, a first screening port, a second screening port, a third screening port, a fourth screening port, a powder discharge pipeline, an inlet of a dust remover, a discharge port, a dust removing motor and an outlet of the crusher; the feeding port, the bin, the vibrating screen, the vibrating motor and the discharging port form a vibrating feeder; a bucket elevator is arranged in parallel with the material receiver, and the side surface of the lower part of the bucket elevator, which is close to one side of the material receiver, is provided with an inlet of the bucket elevator; the top end of the upper part of the bucket elevator is provided with a lifting control device, the crusher is arranged below the feed hopper, the grading vibrating screen is arranged below the crusher, and the dust remover is arranged on the right side of the whole device.

2. The multifunctional ore powder preparation device according to claim 1, characterized in that: the feed inlet is arranged above the feed bin, the vibrating screen is arranged below the feed bin, the left side and the right side of the vibrating screen are respectively provided with the vibrating motors, the two vibrating motors realize synchronous vibration, the front end of the vibrating screen is provided with the feed outlet, the material receiver is arranged below the feed outlet, and materials flowing out of the feed outlet of the vibrating screen enter the material receiver.

3. The multifunctional ore powder preparation device according to claim 1, characterized in that: the lower side surface of the lifting control device is provided with an inclined feeding pipe, one side of the inclined feeding pipe close to the lifting control device is higher than one side of the feeding hopper, the bucket elevator and the feeding hopper are connected through the feeding pipe, the feeding pipe inlet is formed in the side wall of the feeding hopper, and lifted materials enter the feeding pipe and enter the feeding hopper from the feeding pipe inlet.

4. The multifunctional ore powder preparation device according to claim 1, characterized in that: the upper end of the crusher is provided with a crusher inlet which is connected with the feed hopper and the crusher, and the lower part of the crusher is provided with a crusher outlet.

5. The multifunctional ore powder preparation device according to claim 1, characterized in that: the grading vibration screen is provided with a first screening opening, a second screening opening, a third screening opening and a fourth screening opening; the materials screened out by the first screening opening are materials which can not meet the industrial requirement, and are directly discharged into a material receiver and discharged into a bucket elevator again; the second screening opening, the third screening opening and the fourth screening opening are products which respectively meet different industrial requirements for granularity.

6. The multifunctional ore powder preparation device according to claim 1, characterized in that: the feeder hopper top sets up the dust export, and the dust export is connected with row powder pipeline.

7. The multifunctional ore powder preparation device according to claim 1, characterized in that: the dust remover is a bag type dust remover, one side of the dust remover is provided with a dust remover inlet, the dust remover inlet is connected with a dust outlet through a powder discharge pipeline, the lower end of the dust remover is provided with a discharge port, and the discharge port is connected with a dust removal motor.