CN111701885B

CN111701885B - X-ray sorting device for ore materials

Info

Publication number: CN111701885B
Application number: CN202010656088.8A
Authority: CN
Inventors: 周进
Original assignee: Anhui Eurasia Optoelectronic Technology Co ltd
Current assignee: Anhui Eurasia Optoelectronic Technology Co ltd
Priority date: 2020-07-09
Filing date: 2020-07-09
Publication date: 2024-04-05
Anticipated expiration: 2040-07-09
Also published as: CN111701885A

Abstract

The invention discloses an X-ray sorting device for ore materials, which comprises a sorting mechanism, wherein the sorting mechanism comprises a sorting bottom plate, side plates, a partition plate, a sorting plate and a moving column, one end of the sorting bottom plate, which is close to a conveyor belt, is provided with an annular groove, the side plates are provided with moving grooves, the two ends of each moving groove are fixedly connected with magnets, the moving column movably passes through the annular groove, a sorting control mechanism is movably arranged in each moving groove, the sorting control mechanism comprises a moving rod, a connecting cylinder, an electromagnet and a variable power transmission box, and the moving rod movably passes through the two moving grooves.

Description

X-ray sorting device for ore materials

Technical Field

The invention relates to the technical field of ore sorting, in particular to an X-ray sorting device for ore materials.

Background

For the mining industry, the domestic long lean ore period in which rich ores are exploited is now in progress, and how to effectively reduce the ore identification and separation cost in the long lean ore period is urgent for the current mining industry. The existing ore sorting procedure links are that ores are crushed for a plurality of times until the granularity of the ores is in the range of 10 mm-30 mm, the ores are identified by intelligent ore identification equipment or other means, and then unqualified tailings are blown off by pneumatic blowing technology equipment. The pneumatic blowing type technology is adopted for separating ores, so that the technology has no problem, but the pneumatic blowing type technology is not significant for ore separation in terms of cost saving for production of mining enterprises. The ore is crushed to the treatment granularity of 10 mm-30 mm, and in terms of the mineral production process, the ore with the granularity of 10 mm-30 mm can enter a ball mill for smashing and ball milling and then enter floatation, and the ore sorting expense of enterprises is paid out. Because pneumatic blowing technology is used for separating ores, cost saving is not considerable, and many enterprises still adopt manual picking mode for separating ores.

Among the prior art, the ore sorting equipment based on pneumatic type of application number "201720478986", including organism, cylinder, ore sorting board, solenoid valve, controller, air compressor and air cooling dryer, advance air and exhaust through the cylinder and drive the ore sorting board and kick, receive the action, kick, receive the action through the ore sorting board and select separately the ore, saved the cost of ore multiple crushing, improve ore sorting production efficiency.

However, the prior art still has many defects, if when the ore is sorted through the kick-collecting action of the ore sorting plate, the ore sorting plate can form a certain included angle with the ore conveyer belt when moving, the ore with the height smaller than the included angle cannot be sorted through the ore sorting plate, and the air cylinder and the ore sorting plate repeatedly move for a long time to easily cause abrasion among mechanisms, so that the service life of the device is reduced.

Disclosure of Invention

The invention aims to provide an X-ray sorting device for ore materials, which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the X-ray sorting device for ore materials comprises an outer box body, wherein a supporting foot is fixedly connected to the lower part of the outer box body, a feed inlet is fixedly arranged on the upper part of the outer box body, a crusher is arranged below the feed inlet, a conveyor belt is arranged below the crusher, an X-ray projection recognition device is arranged above the conveyor belt, a sorting mechanism is obliquely arranged below the conveyor belt, a concentrate collecting tank and a tailing collecting tank are arranged below the sorting mechanism, and the sorting mechanism comprises a sorting bottom plate and a side plate;

an annular groove is formed in one end, close to the conveyor belt, of the sorting bottom plate, side plates are symmetrically and fixedly connected to two sides of the sorting bottom plate, moving grooves matched with the annular groove are formed in the side plates, magnets are fixedly connected to two ends of each moving groove, two magnetic poles of two faces, close to each other, of each magnet are identical, a partition plate is fixedly connected to the lower portion of one face, close to the conveyor belt, of the sorting bottom plate, a sorting plate is movably connected to the upper portion of the partition plate, a moving column is fixedly connected to one end, close to the annular groove, of each sorting plate, and the moving column movably penetrates through the annular groove;

the movable separation control mechanism comprises a movable rod and a connecting cylinder, the movable rod movably penetrates through the two movable grooves, the movable groove is formed in one surface of the movable rod, which is close to the separation bottom plate, and the movable column extends into the movable groove, the connecting cylinder is fixedly connected with two ends of one surface of the movable rod, which is far away from the separation bottom plate, of the movable rod, the connecting cylinder is internally fixedly connected with an electromagnet, the electromagnetic wave comprises an iron core and a coil, the coil is wound on the periphery of the iron core, the two ends of the iron core extend out of the connecting cylinder, and the coil penetrates through the connecting cylinder and is connected with a variable power transmission box.

Preferably, the connecting cylinder is internally provided with a through groove for the iron core to pass through, the side wall of the through groove is connected with a plurality of fixing grooves, the side wall of the iron core is fixedly connected with a plurality of fixing rods, the fixing rods extend into the fixing grooves, one side of the through groove, which is close to the variable power transmission box, is connected with an extending groove, a coil penetrates through the extending groove and is connected to the variable power transmission box, and the variable power transmission box is fixedly connected to one surface of the moving rod, which is far away from the sorting bottom plate.

Preferably, the separation plate is movably connected with the separation plate through a movable wheel.

Preferably, the separator separates the separation floor into a concentrate channel and a tailings channel, and the concentrate channel corresponds to the concentrate collection tank and the tailings channel corresponds to the tailings collection tank.

Preferably, the X-ray projection recognition device is provided with a signal transmitting device, and the variable power transmission box is provided with a signal receiving device.

Compared with the prior art, the invention has the beneficial effects that:

1. the separation plate of the device divides the separation mechanism into two parts of the concentrate channel and the tailing channel, and the separation plate rotates to block the concentrate channel or the tailing channel, so that ore can only pass through a certain channel and enter a specific collecting tank, pneumatic blowing equipment is not adopted, strict requirements on ore granularity are not met, the problem that part of ore cannot be separated is solved, the production cost of crushing the ore for many times is greatly reduced, and the production efficiency of ore separation is improved;

2. the separation plate of the device rotates under the drive of the moving column, has simple structure, convenient operation and no large number of mechanism coordination, avoids abrasion caused by long-time coordination movement among the mechanisms, prolongs the service life of the whole device, and further reduces the production cost of ore separation;

3. the motion post of this device moves under the electro-magnet drives, and the coil of passing power through the variable power transmission case to the electro-magnet is transmitted, and the electro-magnet is attracted or repulse with the magnet, and the electro-magnet moves under magnetic force, has very strong stability.

The invention provides an X-ray sorting device for ore materials, which sorts ores by matching a baffle plate and a sorting plate, has no strict requirement on the granularity of the ores, does not have the problem that part of ores cannot be sorted, greatly reduces the production cost of crushing the ores for many times, has simple structure, convenient operation and stable operation, does not match with a large number of mechanisms, avoids abrasion caused by long-time matching movement among the mechanisms, prolongs the service life of the whole device, further improves the production efficiency of ore sorting, and is very worth popularizing.

Drawings

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

FIG. 2 is a schematic diagram of the front structure of the separation mechanism, concentrate collection tank and tailing collection tank of the present invention;

FIG. 3 is a schematic view of the back structure of the sorting mechanism of the present invention;

FIG. 4 is a schematic cross-sectional view of a sorting mechanism and a sorting control mechanism according to the present invention;

FIG. 5 is a schematic cross-sectional view of a sorting mechanism and a sorting control mechanism according to the present invention;

FIG. 6 is a schematic diagram of the cooperation of the sorting mechanism and the sorting control mechanism according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of the area A in FIG. 4;

FIG. 8 is a schematic diagram of a sorting control mechanism according to the present invention;

FIG. 9 is a schematic cross-sectional view of a sorting mechanism and a sorting control mechanism according to the present invention.

In the figure: the device comprises a 1 outer box body, 2 supporting feet, a 3 feeding hole, a 4 crusher, a 5 conveying device, a 6X-ray transmission identification device, a 7 sorting mechanism, a 71 sorting bottom plate, 711 annular grooves, 712 concentrate channels, 713 tailing channels, 72 side plates, 721 moving grooves, 722 magnets, 73 partition plates, 74 sorting plates, 75 moving columns, 76 movable wheels, 8 sorting control mechanisms, 81 moving rods, 82 movable grooves, 83 connecting cylinders, 831 through grooves, 832 fixed grooves, 833 extending grooves, 84 electromagnets, 841 iron cores, 842 coils, 843 fixed rods, 86 variable power transmission boxes, 9 concentrate collecting tanks and 10 tailing collecting tanks.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the present invention provides a technical solution:

an X-ray sorting device for ore materials comprises an outer box body 1, wherein a supporting foot 2 is fixedly connected to the lower part of the outer box body 1, the supporting foot 2 plays a role in supporting the whole device, a feed inlet 3 is fixedly arranged at the upper part of the outer box body 1, ore enters a crusher 4 through the feed inlet 3, the crusher 4 is arranged below the feed inlet 3, the ore is crushed in the crusher 4, a conveyor belt 5 is arranged below the crusher 4, crushed ore enters the conveyor belt 5 to sequentially perform identification sorting, an X-ray projection identification device 6 is arranged above the conveyor belt 5, the X-ray projection identification device 6 identifies the ore and emits signals to a variable power transmission box 85 according to the identification result, a sorting mechanism 7 is obliquely arranged below the conveyor belt 5, the ore is sorted on the sorting mechanism 7, a concentrate collecting tank 9 and a tailing collecting tank 10 are arranged below the sorting mechanism 7, the ore enters the concentrate collecting tank 9 or the tailing collecting tank 10 respectively according to the identification result of the X-ray projection identification device 6, the sorting mechanism 7 comprises a sorting bottom plate 71 and a side plate 72, the gravity influences the gravity, and the ore moves downwards to the final sorting bottom plate 71 and enters the concentrate collecting tank 9 or the tailing collecting tank 10;

an annular groove 711 is formed in one end, close to the conveyor belt 5, of the separation bottom plate 71, side plates 72 are symmetrically and fixedly connected to two sides of the separation bottom plate 71, ores are prevented from spilling out, a moving groove 721 matched with the annular groove 711 is formed in the side plates 72, magnets 722 are fixedly connected to two ends of the moving groove 721, two magnetic poles close to each other between the two magnets 722 are identical, a partition plate 73 is fixedly connected to one lower portion, close to the conveyor belt 5, of the separation bottom plate 711, the partition plate 73 divides the separation bottom plate 71 into two parts, a separation plate 74 is movably connected to the upper portion of the partition plate 73, the separation plate 74 rotates around the center of a movable wheel 76, when one end, far from the movable wheel 76, of the separation plate 74 moves to be in contact with the left side plate 72, a concentrate channel 712 is blocked, ores can only enter the tailing collecting pond 10 through the tailing channel 713, one end, close to the annular groove 711, of the separation plate 74 is fixedly connected with a moving column 75, the moving column 75 movably passes through the annular groove 711, and the moving column 75 moves to drive the separation plate 74 to move in the annular groove 711;

the motion groove 721 is movably provided with a sorting control mechanism 8, the sorting control mechanism 8 comprises a motion rod 81 and a connecting cylinder 83, the motion rod 81 movably penetrates through the two motion grooves 721, the motion rod 81 moves in the motion groove 721, one surface of the motion rod 81, which is close to the sorting bottom plate 71, is provided with the motion groove 82, the motion column 75 stretches into the motion groove 82, the motion rod 81 moves to drive the motion column 75 to move, the motion column 75 moves to drive the sorting bottom plate 74 to rotate, two ends of one surface of the motion rod 81, which is far away from the sorting bottom plate 71, are fixedly connected with the connecting cylinder 83, an electromagnet 84 is fixedly connected inside the connecting cylinder 83, the electromagnetic wave 84 comprises an iron core 841 and a coil 842, the coil 842 is wound on the periphery of the iron core 841, after the coil 842 is electrified, the iron core 841 and the magnet 722 attract or repel each other, two ends of the iron core 841 stretch out of the connecting cylinder 83, the coil 842 penetrates through the connecting cylinder 83 and is connected with a variable power transmission box 85, and the variable power transmission box 85 can supply power to the coil 842 and change magnetic poles at two ends of the iron core 841.

Specifically, the connecting cylinder 83 is internally provided with a through groove 831 through which the iron core 841 passes, the side wall of the through groove 831 is connected with a plurality of fixing grooves 832, the side wall of the iron core 841 is fixedly connected with a plurality of fixing rods 843, the fixing rods 843 extend into the fixing grooves 832, the fixing rods 843 are matched with the fixing grooves 832, the iron core 841 is fixed with the connecting cylinder 83, the iron core 841 can drive the moving rod 81 to move, one side of the through groove 831, which is close to the variable power transmission box 85, is connected with an extending groove 833, the coil 842 penetrates through the extending groove 833 and is connected to the variable power transmission box 85, and the variable power transmission box 85 is fixedly connected to one side, which is far away from the sorting bottom plate 71, of the moving rod 81.

Specifically, the partition plate 73 is movably connected to the sorting plate 74 by a movable wheel 76, and the movable wheel 76 rotates the sorting plate 74 around the movable wheel 76.

Specifically, the separator 73 separates the separation floor 71 into a concentrate channel 712 and a tailings channel 713, and the concentrate channel 712 corresponds to the concentrate collecting tank 9 and the tailings channel 713 corresponds to the tailings collecting tank 10, so that the ore enters the corresponding collecting tank after being separated.

Specifically, the X-ray projection recognition device 6 is provided with a signal emitting device, when the X-ray projection recognition device 6 judges that ore is concentrate through emitting X-rays and through the brightness imaged by the X-rays, the signal emitting device emits a first signal, when the ore is tailing through the brightness imaged by the X-rays, the signal emitting device emits a second signal, the variable power transmission box 85 is provided with a signal receiving device, the signal receiving device receives the signal emitted by the signal emitting device, the power transmission state of the variable power transmission box 85 is changed according to different signals, when the signal is received, the variable power transmission box 85 emits a current, the electromagnet 84 is attracted with the magnet 722 at the upper part of the motion groove 721, then the electromagnet 84 is attracted with the magnet 722 at the lower part of the motion groove 721, and the coil 842 in the electromagnet 84 close to the tailing channel 713 receives a current earlier, and when the signal is received, the variable power transmission box 85 emits a current, so that the electromagnet 84 is attracted with the magnet 722 at the upper part of the motion groove 721, and the coil 842 in the vicinity of the concentrate channel 712 receives a current earlier time.

The X-ray projection recognition device 6 emits X-rays which are capable of reflecting, diffracting, scattering and absorbing objects with optical properties, the intensity of the X-rays decays more when the X-rays penetrate high-density objects, the resulting image is darker, the intensity of the X-rays decays less when the X-rays penetrate low-density objects, the resulting image is brighter, and the ore materials are sorted by the different actions between the X-rays and the substances.

Working principle: when the X-ray projection recognition device 6 recognizes that the ore material is concentrate, the X-ray projection recognition device 6 sends out a signal I, the variable power box 85 receives the signal and sends out corresponding current, firstly, the upper magnetic pole of the iron core 841 is attracted to the lower magnetic pole of the magnet 722 at the upper part of the moving groove 721, the lower magnetic pole of the iron core 841 is repelled to the upper magnetic pole of the magnet 722 at the lower part of the moving groove 721, the iron core 841 moves upwards under the action of magnetic force, the iron core 841 drives the moving rod 81 to move upwards, the moving rod 81 drives the moving column 75 to move to the highest point of the annular groove 711, the moving column 75 drives the sorting plate 74 to move, and then the upper magnetic pole of the iron core 841 is repelled to the lower magnetic pole of the magnet 722 at the upper part of the moving groove 721, the magnetic pole at the lower end of the iron core 841 is attracted to the magnetic pole at the upper end of the magnet 722 at the lower part of the moving groove 721, the iron core 841 moves downwards under the action of magnetic force, and the iron core 841 drives the moving rod 81 to move downwards, as the coil 842 in the electromagnet 84 close to the tailing channel 713 receives current earlier, the iron core 841 close to the tailing channel 713 descends for a large distance during the downward movement of the iron core 841, so that the moving rod 81 inclines downwards along the direction close to the tailing channel 713, the moving column 75 moves along the direction away from the concentrate channel 712 under the action of the moving groove 82, the moving column 75 drives the sorting plate 74 to rotate, and when the sorting plate 74 rotates to be in contact with the right side plate 72, the tailing channel 723 is blocked, and ore enters the concentrate collecting tank 9 through the concentrate channel 722;

when the X-ray projection recognition device 6 recognizes that the ore material is tailings, the X-ray projection recognition device 6 sends out a signal II, the working principle is the same as that of the concentrate sorting process, and finally the ore enters the tailings collecting tank 10.

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

1. An X-ray sorting device for ore materials, includes outer box (1), outer box (1) below fixedly connected with supporting legs (2), and outer box (1) upper portion is fixed to be provided with feed inlet (3), feed inlet (3) below is provided with breaker (4), breaker (4) below is provided with conveyer belt (5), conveyer belt (5) top is provided with X-ray projection recognition device (6), and conveyer belt (5) below slope is provided with sorting mechanism (7), sorting mechanism (7) below is provided with concentrate collecting tank (9) and tailing collecting tank (10), its characterized in that: the sorting mechanism (7) comprises a sorting bottom plate (71) and side plates (72);

an annular groove (711) is formed in one end, close to the conveyor belt (5), of the sorting bottom plate (71), side plates (72) are symmetrically and fixedly connected to two sides of the sorting bottom plate (71), moving grooves (721) matched with the annular groove (711) are formed in the side plates (72), magnets (722) are fixedly connected to two ends of each moving groove (721), two magnetic poles of two faces, close to each other, of each magnet (722) are identical, a partition plate (73) is fixedly connected to the lower portion, close to the conveyor belt (5), of the sorting bottom plate (71), a sorting plate (74) is movably connected to the upper portion of the partition plate (73), a moving column (75) is fixedly connected to one end, close to the annular groove (711), of each sorting plate (74), and the moving column (75) movably penetrates through the annular groove (711);

the automatic sorting device is characterized in that a sorting control mechanism (8) is movably arranged in the moving groove (721), the sorting control mechanism (8) comprises a moving rod (81) and a connecting cylinder (83), the moving rod (81) movably penetrates through the two moving grooves (721), a moving groove (82) is formed in one surface, close to the sorting bottom plate (71), of the moving rod (81), a moving column (75) stretches into the moving groove (82), connecting cylinders (83) are fixedly connected to two ends of one surface, far away from the sorting bottom plate (71), of the moving rod (81), an electromagnet (84) is fixedly connected to the inside of the connecting cylinder (83), the electromagnet (84) comprises an iron core (841) and a coil (842), the coil (842) is wound on the periphery of the iron core (841), the two ends of the iron core (841) stretch out of the connecting cylinder (83), and the coil (842) penetrates through the connecting cylinder (83) and is connected with a variable power transmission box (85).

A through groove (831) through which an iron core (841) passes is formed in the connecting cylinder (83), a plurality of fixed grooves (832) are connected to the side wall of the through groove (831), a plurality of fixed rods (843) are fixedly connected to the side wall of the iron core (841), the fixed rods (843) extend into the fixed grooves (832), an extending groove (833) is connected to one side, close to a variable power transmission box (85), of the through groove (831), a coil (842) penetrates through the extending groove (833) and is connected to the variable power transmission box (85), and the variable power transmission box (85) is fixedly connected to one surface, far away from a sorting bottom plate (71), of the moving rod (81);

the separation plate (73) is movably connected with the separation plate (74) through a movable wheel (76);

the separator (73) separates the separation floor (71) into a concentrate channel (712) and a tailings channel (713), and the concentrate channel (712) corresponds to the concentrate collection tank (9) and the tailings channel (713) corresponds to the tailings collection tank (10).

2. An X-ray sorting apparatus for mineral material according to claim 1, characterized in that: the X-ray projection recognition device (6) is provided with a signal transmitting device, and the variable power transmission box (85) is provided with a signal receiving device.