CN108554628B - Multifunctional mineral resource comprehensive utilization equipment - Google Patents

Abstract

The invention provides multifunctional mineral resource comprehensive utilization equipment which comprises a primary support, a cross column, a secondary support, a strong magnetic iron separation lifter, a sliding pipe, an adjusting bolt, a primary switch, a secondary switch, a tertiary switch, a mineral guide conveyor, a mineral guide hopper, an impurity removal filter hopper structure, a scraper structure, a sliding block, a sliding chute, a bottom block, a fastening bolt, a mineral conveyor and a sampling rod structure, wherein the longitudinal bolt of the primary support is arranged at the lower left part of the cross column; and the longitudinal bolt of the secondary bracket is arranged at the right lower part of the transverse column. The connecting rope with the hook, the reel, the winding motor, the mooring rope and the strong magnetic iron plate are arranged, so that the height of the strong magnetic iron plate can be adjusted according to the magnetic selection requirement, and the magnetic selection work can be smoothly carried out; the strong magnetic iron plate is a circular stainless steel plate; the strong magnetic sheet is a circular permanent magnet sheet, which is beneficial to rapidly sucking out the miscellaneous iron impurities in the ore resources, so that the purity of the ore resources is ensured.

Description

Multifunctional mineral resource comprehensive utilization equipment

Technical Field

The invention belongs to the technical field of mineral resources, and particularly relates to multifunctional mineral resource comprehensive utilization equipment.

Background

Mineral resources refer to aggregates of minerals or useful elements which are formed through geological mineralization, naturally exist in the earth crust or are buried underground or exposed on the earth surface, are in a solid state, a liquid state or a gaseous state, and have development and utilization values. Mineral resources are non-renewable resources, and their reserves are limited. There are over 160 mineral products known in the world, and over 80 are widely used. According to its characteristics and uses, it is generally divided into four categories: 11 kinds of energy minerals; 59 kinds of metal mineral products; 92 kinds of non-metal minerals; the water gas mineral products are 6. There are 168 kinds of ore.

Mineral resources are important natural resources, which are not the empire's entitlements but formed through geological changes for millions of years or even hundreds of millions of years, which are important material bases for social production development, and people in modern society cannot leave mineral resources in production and life.

According to the provisions of article 2 of the mineral resource law, mineral resources are solid, liquid and gaseous natural resources which are formed by geological action and have a utilization value.

At present, 168 mineral species are found in China and can be divided into four categories of energy mineral products (such as coal, petroleum and geothermal), metal mineral products (such as iron, manganese and copper), nonmetal mineral products (such as diamond, limestone and clay) and water gas mineral products (such as underground water, mineral water and carbon dioxide).

According to the tenth regulation of the mineral resource law of the people's republic of China, the geological mineral administrative department of the State department is in charge of the supervision and management work of the exploration and exploitation of mineral resources in China. The relevant departments in the state department assist the geological and mineral departments in the state department to carry out the supervision and management work of mineral resource exploration and exploitation.

And geological mineral product administrative departments of provinces, autonomous regions and direct governance cities supervise the supervision and management work of mineral resource exploration and exploitation in the administrative regions. Relevant administrative departments of the governments of the provincial, the autonomous region and the direct municipality government assist the geological mineral administrative departments at the same level to carry out the supervision and management work of mineral resource exploration and exploitation.

However, the existing mineral resource comprehensive utilization equipment has the problems that the magnetic separation function is lacked, impurities cannot be filtered, and mineral resources cannot be transferred.

Therefore, the invention of a multifunctional mineral resource comprehensive utilization device is very necessary.

Disclosure of Invention

In order to solve the technical problems, the invention provides multifunctional mineral resource comprehensive utilization equipment to solve the problems that the conventional mineral resource comprehensive utilization equipment lacks a magnetic separation function, cannot filter impurities and cannot transfer mineral resources. A multifunctional mineral resource comprehensive utilization device comprises a primary support, a transverse column, a secondary support, a strong magnetic iron separation lifter, a sliding pipe, an adjusting bolt, a primary switch, a secondary switch, a tertiary switch, an ore guide conveyor, an ore guide hopper, an impurity removal filter hopper structure, a scraper structure, a sliding block, a sliding chute, a bottom block, a fastening bolt, an ore conveyor and a sampling rod structure, wherein the longitudinal bolt of the primary support is arranged at the lower left part of the transverse column; the longitudinal bolt of the secondary bracket is arranged at the right lower part of the transverse column; the anchor ear of the strong magnetic iron-selecting lifter is arranged in the middle of the front surface of the sliding pipe; the sliding pipe is sleeved in the middle of the outer wall of the transverse column in a sliding manner; the adjusting bolt is in threaded connection with the connecting part of the sliding pipe and the transverse column; the primary switch, the secondary switch and the tertiary switch are sequentially arranged on the upper left part of the primary support from top to bottom through bolts; the transverse bolt of the ore guiding conveyor is arranged at the middle lower part between the first-stage bracket and the second-stage bracket; the ore guide bucket bolt is arranged at the middle lower part of the inner side of the primary support; the right side of the ore guide hopper is opposite to the left side of the ore guide conveyor; the impurity removal filter hopper structure is connected with the ore guide hopper through bolts and nuts; the impurity removing filter hopper structure is arranged at the middle lower part of the outer side of the primary support; the scraper plate structure bolt is arranged at the upper part of the sliding block; the sliding block is slidably clamped in a sliding groove transversely formed in the middle of the upper part of the inner side of the bottom block; the bottom block transverse bolt is arranged at the bottom between the primary support and the secondary support; the fastening bolt is in threaded connection with the clamping position of the sliding block and the sliding groove; the scraper structure is arranged in the middle of the lower part of the ore guide conveyor; one end of the ore transporting machine is connected to the middle upper part of the inner side of the secondary bracket in a shaft mode, and the other end of the ore transporting machine is installed at the lower position of the outer side of the secondary bracket in a longitudinal mode; the sampling rod structure is longitudinally hung on a hook welded at the left lower part of the transverse column; the high-intensity magnetic iron selection elevator comprises a connecting rope with a hook, a reel, a winding motor, a mooring rope and a high-intensity magnetic iron plate, wherein one end of the connecting rope with the hook is wound on the inner wall of the reel, and the other end of the connecting rope with the hook is connected with the mooring rope; the cable is tied to the four corners of the upper surface of the strong magnetic iron plate; the winding wheel is connected to the output shaft of the winding motor in a key mode.

Preferably, the strong magnetic iron plate bolt is provided with a strong magnetic sheet.

Preferably, the strong magnetic iron plate is a circular stainless steel plate; the strong magnetic sheet is a circular permanent magnet sheet.

Preferably, the sampling rod structure comprises a pull ring, a hollow handle, a telescopic rod, a locking bolt and a sampling telescopic sheet, wherein the pull ring is welded at the upper end of the hollow handle; the hollow handle is longitudinally sleeved on the upper part of the outer wall of the telescopic rod; the locking bolt is in threaded connection with the connecting part of the hollow handle and the telescopic rod; the sampling telescopic sheet is welded at the lower end of the telescopic rod.

Preferably, the sampling telescopic sheet is a rhombic steel sheet with a hollow stainless steel ball at the lower part.

Preferably, an anti-slip sleeve is sleeved in the middle of the outer wall of the hollow handle; the anti-skid sleeve is a cylindrical rubber sleeve with cross anti-skid lines on the outer wall.

Preferably, the sample selecting telescopic piece is provided with a sample guiding piece, a sample outlet pipe and a rubber plug, and the sample guiding piece is connected to the middle position inside the sample selecting telescopic piece through a screw; the sample outlet pipe is in threaded connection with the middle position of the bottom of the sample selection telescopic sheet; the rubber plug is inserted at the outlet at the lower part of the sampling tube.

Preferably, the sample guide sheet is a diamond-shaped stainless steel sheet with an opening at the lower part.

Preferably, the ore conveying machine comprises a connecting seat, an ore conveying plate, a flat-head movable rod, an air cylinder, a movable clamping block, a guide rail and a square-head bolt, wherein the connecting seat is connected to the right lower part of the ore conveying plate through the bolt; one end of the flat head movable rod is connected with an output rod of the air cylinder through a bolt, and the other end of the flat head movable rod is connected with a connecting seat through a shaft; the cylinder is connected with a movable clamping block through a bolt; the movable clamping block is clamped at the middle lower part of the inner side of the guide rail in a sliding manner; the square head bolt is in threaded connection with the joint of the movable clamping block and the guide rail.

Preferably, the middle lower part of the inner side of the ore conveying plate is provided with an axle hole.

Preferably, the impurity removal filter hopper structure comprises an ore discharge hopper, a drag ring, an impurity removal net, a ball type slide rail and an impurity collection box, wherein the ore discharge hopper is connected to the upper part of the impurity collection box through bolts and nuts; the ball type sliding rails are respectively and transversely installed on the front wall and the rear wall of the inner side of the impurity collecting box through bolts; the impurity removing net is connected to the upper part between the ball type slide rail and the ball type slide rail in a sliding and clamping way; the towing ring is welded at the left lower end of the impurity removing net; the left lower part of the impurity removing net penetrates through the left upper part of the impurity collecting box; and a wing-shaped screw is arranged at the joint of the impurity removing net and the impurity collecting box.

Preferably, the impurity collecting box comprises a box door, a connecting shaft and a puller bolt, wherein the left end of the box door is arranged at the left position of an outlet at the lower part of the impurity collecting box through the connecting shaft; the jacking bolt is in threaded connection with the connection part of the box door and the impurity collecting box; the box door is buckled with the outlet at the lower part of the impurity collecting box.

Preferably, the impurity removing net adopts a stainless steel net with ten to sixteen meshes; the impurity removing net is arranged in a double-layer mode; the impurity removing nets are connected through bolts and nuts.

Preferably, the ore guiding conveyor comprises driven rollers, driving rollers, a conveying belt, a conveying frame, driven gears, a driving gear and a conveying motor, wherein the driven rollers are connected to the left part of the inner side of the conveying frame in a shaft mode; the driving roller is axially connected to the right part of the inner side of the transportation frame; one end of the conveyer belt is connected with the driven roller, and the other end of the conveyer belt is connected with the driving roller; the driven gear is connected to the middle position of the front surface of the driving roller through a bolt; the driving gear is connected to an output shaft of the transport motor in a key manner; the driven gear is meshed with the driving gear; the transport motor is installed at the right lower part of the transport frame through a bolt.

Preferably, the scraper structure comprises a screw, a locking nut, an internal threaded pipe, a sundry dropping box and a scraper main body, wherein the longitudinal lower end of the screw penetrates through the locking nut and is in threaded connection with the upper part of the inner side of the internal threaded pipe; the longitudinal lower end of the internal thread pipe is welded in the middle of the bottom of the inner side of the impurity dropping box; the middle position in the scraper main body is in threaded connection with the upper end of the screw; the screw rod and the locking nut are in threaded connection.

Preferably, the scraper is connected to the upper surface of the scraper main body through screws.

Preferably, the scraper is a rectangular stainless steel knife.

Preferably, the primary switch is connected with a wire of the winding motor.

Preferably, the secondary switch is connected with a cylinder wire.

Preferably, the three-stage switch is connected with a lead of the transport motor.

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

1. according to the invention, the connecting rope with the hook, the reel, the winding motor, the mooring rope and the strong magnetic separator plate are arranged, so that the height of the strong magnetic separator plate can be adjusted according to the magnetic separation requirement, and the magnetic separation work can be smoothly carried out.

2. In the invention, the strong magnetic iron plate is a circular stainless steel plate; the strong magnetic sheet is a circular permanent magnet sheet, which is beneficial to rapidly sucking out the miscellaneous iron impurities in the ore resources, so that the purity of the ore resources is ensured.

3. According to the sampling device, the pull ring, the hollow handle, the telescopic rod, the locking bolt and the sampling telescopic piece are beneficial to adjusting the flexibility of the sampling telescopic piece according to sampling requirements, and sampling work is facilitated.

4. In the invention, the sample guide sheet, the sample outlet pipe and the rubber plug are arranged, and the sample selection telescopic sheet body adopts a rhombic steel sheet with a hollow stainless steel ball at the lower part, so that the sampling work is facilitated, and the mineral resource sampling and detecting work can be facilitated.

5. In the invention, the connecting seat, the ore conveying plate, the flat-head movable rod, the air cylinder, the movable clamping block, the guide rail and the square-head bolt are beneficial to the guiding and conveying work of ore resources and can be convenient for the smooth operation of magnetic separation and impurity removal.

6. According to the invention, the ore removal hopper, the towing ring, the impurity removal net, the ball type slide rail and the impurity collection box are arranged, so that the impurity removal and guide operation of ore resources is facilitated, and the operation is convenient.

7. According to the invention, the arrangement of the box door, the connecting shaft and the jacking bolt is beneficial to releasing impurities and convenient to operate.

8. According to the invention, the driven roller, the driving roller, the conveying belt, the conveying frame, the driven gear, the driving gear and the conveying motor are arranged, so that the ore resource transferring and exporting work can be rapidly carried out, and the transfer efficiency can be improved.

9. According to the invention, the arrangement of the screw, the locking nut, the internal thread pipe, the impurity dropping box and the scraper main body is beneficial to adjusting the height of the scraper main body according to the scraping requirement, and is convenient for scraping impurities on the outer surface of the conveyor belt or adhering slag.

10. According to the invention, the scraper is a rectangular stainless steel knife, so that impurities on the outer surface of the conveyor belt or slag adhered to the outer surface of the conveyor belt can be quickly scraped, and the conveying efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the strong magnetic iron separation elevator of the present invention.

Fig. 3 is a schematic structural view of the sampling rod structure of the present invention.

Fig. 4 is a schematic structural view of the ore conveyor of the present invention.

FIG. 5 is a schematic structural view of the trash hopper structure of the present invention.

Fig. 6 is a schematic structural view of the ore-guiding conveyor of the present invention.

Fig. 7 is a schematic view of the structure of the squeegee structure of the invention.

In the figure:

1. a primary support; 2. a cross post; 3. a secondary scaffold; 4. a ferromagnetic iron separation elevator; 41. a connecting rope with a hook; 42. a reel; 43. a winding motor; 44. a cable; 45. a strong magnetic iron plate; 451. a strong magnetic sheet; 5. a slide pipe; 6. adjusting the bolt; 7. a primary switch; 8. a secondary switch; 9. a three-level switch; 10. a mine guide conveyor; 101. a driven roller; 102. a driving roller; 103. a conveyor belt; 104. a transport rack; 105. a driven gear; 106. a driving gear; 107. a transport motor; 11. an ore guide hopper; 12. an impurity removal filter hopper structure; 121. discharging ore from an ore hopper; 122. a drag ring; 123. removing impurities by a net; 124. a ball-type slide rail; 125. a trash collection box; 1251. a box door; 1252. a connecting shaft; 1253. jacking the bolt; 13. a scraper structure; 131. a screw; 132. locking the nut; 133. an internally threaded tube; 134. dropping the sundry box; 135. a squeegee body; 1351. a scraper; 14. a slider; 15. a chute; 16. a bottom block; 17. fastening a bolt; 18. conveying an ore machine; 181. a connecting seat; 182. carrying the ore plate; 183. a flat head movable rod; 184. a cylinder; 185. a movable clamping block; 186. a guide rail; 187. a square head bolt; 19. a sampling rod structure; 191. a pull ring; 192. a hollow handle; 1921. an anti-slip sleeve; 193. a telescopic rod; 194. locking the bolt; 195. selecting a sample expansion sheet; 1951. a sample guide sheet; 1952. a sample outlet pipe; 1953. and a rubber plug.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7

The invention provides multifunctional mineral resource comprehensive utilization equipment, which comprises a primary support 1, a cross column 2, a secondary support 3, a strong magnetic iron separation lifter 4, a sliding pipe 5, an adjusting bolt 6, a primary switch 7, a secondary switch 8, a tertiary switch 9, an ore guide conveyor 10, an ore guide hopper 11, an impurity removal filter hopper structure 12, a scraper structure 13, a sliding block 14, a sliding groove 15, a bottom block 16, a fastening bolt 17, an ore conveyor 18 and a sampling rod structure 19, wherein a longitudinal bolt of the primary support 1 is arranged at the lower left part of the cross column 2; the longitudinal bolt of the secondary bracket 3 is arranged at the right lower part of the transverse column 2; the anchor ear of the strong magnetic iron separation lifter 4 is arranged in the middle of the front surface of the slide pipe 5; the sliding pipe 5 is sleeved in the middle of the outer wall of the transverse column 2 in a sliding manner; the adjusting bolt 6 is in threaded connection with the connecting part of the sliding pipe 5 and the transverse column 2; the primary switch 7, the secondary switch 8 and the tertiary switch 9 are sequentially arranged on the upper left part of the primary support 1 from top to bottom through bolts; the horizontal bolt of the ore guiding conveyor 10 is arranged at the middle lower part between the primary bracket 1 and the secondary bracket 3; the ore guide hopper 11 is arranged at the middle lower part of the inner side of the primary bracket 1 through bolts; the right side of the ore guide hopper 11 is opposite to the left side of the ore guide conveyor 10; the impurity removal filter hopper structure 12 is connected with the ore guide hopper 11 through bolts and nuts; the impurity removing filter hopper structure 12 is arranged at the middle lower part of the outer side of the primary bracket 1; the scraper structure 13 is mounted on the upper part of the sliding block 14 through bolts; the sliding block 14 is slidably clamped in a sliding groove 15 transversely formed in the middle of the upper part of the inner side of the bottom block 16; the bottom block 16 is transversely bolted at the bottom between the primary bracket 1 and the secondary bracket 3; the fastening bolt 17 is in threaded connection with the clamping position of the sliding block 14 and the sliding groove 15; the scraper structure 13 is arranged in the middle of the lower part of the ore guide conveyor 10; one end of the ore transporting machine 18 is coupled to the middle upper part of the inner side of the secondary bracket 3, and the other end is mounted at the lower part of the outer side of the secondary bracket 3 through a longitudinal bolt; the sampling rod structure 19 is longitudinally hung on a hook welded at the lower left part of the transverse column 2; the high-intensity magnetic iron-selecting lifter 4 comprises a connecting rope 41 with a hook, a reel 42, a winding motor 43, a cable 44 and a high-intensity magnetic iron plate 45, wherein one end of the connecting rope 41 with the hook is wound on the inner wall of the reel 42, and the other end of the connecting rope 44 with the hook is hung on the cable; the cable 44 is tied at four corners of the upper surface of the strong magnetic iron plate 45; the reel 42 is keyed to the output shaft of a wound-rotor motor 43.

In the above embodiment, the ferromagnetic plate 45 is bolted with the ferromagnetic piece 451.

In the above embodiment, specifically, the strong magnetic separator plate 45 is a circular stainless steel plate; the strong magnetic piece 451 is a circular permanent magnet piece.

In the above embodiment, specifically, the sampling rod structure 19 includes a pull ring 191, a hollow handle 192, a telescopic rod 193, a locking bolt 194 and a sampling telescopic plate 195, wherein the pull ring 191 is welded at the upper end of the hollow handle 192; the hollow handle 192 is longitudinally sleeved on the upper part of the outer wall of the telescopic rod 193; the locking bolt 194 is in threaded connection with the connecting part of the hollow handle 192 and the telescopic rod 193; the sampling expansion piece 195 is welded at the lower end of the expansion rod 193.

In the above embodiment, the sampling telescopic plate 195 is a rhombic steel plate with a hollow stainless steel ball at the lower part.

In the above embodiment, specifically, the anti-slip sleeve 1921 is sleeved at the middle position of the outer wall of the hollow handle 192; the anti-slip sleeve 1921 is a cylindrical rubber sleeve with cross-shaped anti-slip lines on the outer wall.

In the above embodiment, specifically, the sampling telescopic plate 195 is provided with a sampling guide plate 1951, a sampling outlet pipe 1952 and a rubber plug 1953, and the sampling guide plate 1951 is screwed in the middle of the sampling telescopic plate 195; the sampling tube 1952 is in threaded connection with the middle position of the bottom of the sampling telescopic sheet 195; the rubber plug 1953 is inserted at the lower outlet of the sampling tube 1952.

In the above embodiment, the sample guide 1951 is made of a diamond-shaped stainless steel plate with an opening at the bottom.

In the above embodiment, specifically, the ore transporting machine 18 includes a connecting seat 181, an ore transporting plate 182, a flat-head movable rod 183, an air cylinder 184, a movable clamping block 185, a guide rail 186 and a square-head bolt 187, and the connecting seat 181 is bolted to the lower right portion of the ore transporting plate 182; one end of the flat head movable rod 183 is connected with an output rod of the air cylinder 184 through a bolt, and the other end of the flat head movable rod is connected with the connecting seat 181 through a shaft; the cylinder 184 is connected with a movable fixture block 185 through bolts; the movable fixture block 185 is slidably clamped at the middle lower part of the inner side of the guide rail 186; the square head bolt 187 is screwed at the joint of the movable clamping block 185 and the guide rail 186.

In the above embodiment, specifically, the middle lower portion of the inner side of the ore transporting plate 182 is provided with an axle hole.

In the above embodiment, specifically, the impurity removing filter structure 12 includes an ore discharging hopper 121, a towing ring 122, an impurity removing net 123, a ball-type slide rail 124 and an impurity collecting box 125, wherein the ore discharging hopper 121 is connected to the upper part of the impurity collecting box 125 by bolts and nuts; the ball-type sliding rails 124 are respectively installed on the front wall and the rear wall of the inner side of the impurity collecting box 125 by transverse bolts; the impurity removing net 123 is slidably clamped at the upper part between the ball type slide rail 124 and the ball type slide rail 124; the towing ring 122 is welded at the left lower end of the impurity removing net 123; the left lower part of the impurity removing net 123 penetrates through the left upper part of the impurity collecting box 125; the connection part of the impurity removing net 123 and the impurity collecting box 125 is provided with a wing screw.

In the above embodiment, specifically, the impurity collecting box 125 includes a box door 1251, a connecting shaft 1252 and a tightening bolt 1253, and the left end of the box door 1251 is installed at the left position of the lower outlet of the impurity collecting box 125 through the connecting shaft 1252; the jacking bolt 1253 is in threaded connection with the connection position of the box door 1251 and the impurity collecting box 125; the box door 1251 is fastened to the outlet at the lower part of the impurity collecting box 125.

In the above embodiment, specifically, the trash removal mesh 123 is a stainless steel mesh with ten to sixteen meshes; the impurity removing net 123 is arranged in a double-layer mode; the impurity removing nets 123 are connected through bolts and nuts.

In the above embodiment, specifically, the ore guiding conveyor 10 includes a driven roller 101, a driving roller 102, a conveying belt 103, a conveying frame 104, a driven gear 105, a driving gear 106 and a conveying motor 107, wherein the driven roller 101 is coupled to the left portion of the inner side of the conveying frame 104; the driving roller 102 is coupled to the right part of the inner side of the transport frame 104; one end of the conveyer belt 103 is connected with the driven roller 101, and the other end is connected with the driving roller 102; the driven gear 105 is bolted on the middle position of the front surface of the driving roller 102; the driving gear 106 is connected with an output shaft of a transport motor 107 in a key way; the driven gear 105 is meshed with the driving gear 106; the transportation motor 107 is bolted to the lower right portion of the transportation frame 104.

In the above embodiment, specifically, the scraper structure 13 includes a screw 131, a lock nut 132, an internally threaded tube 133, a trash box 134 and a scraper body 135, wherein the lower longitudinal end of the screw 131 is threaded through the lock nut 132 and connected to the upper inner portion of the internally threaded tube 133; the longitudinal lower end of the internal thread pipe 133 is welded at the middle position of the bottom of the inner side of the impurity dropping box 134; the middle position in the scraper main body 135 is connected with the upper end of the screw 131 by screw thread; the screw 131 and the locking nut 132 are connected by screw threads.

In the above embodiment, specifically, the scraper 1351 is screwed to the upper surface of the scraper main body 135.

In the above embodiment, specifically, the scraper 1351 is specifically a rectangular stainless steel knife.

In the above embodiment, specifically, the primary switch 7 is connected to the winding motor 43 through a wire.

In the above embodiment, specifically, the secondary switch 8 is connected to the cylinder 184 through a wire.

In the above embodiment, specifically, the three-stage switch 9 is connected to the transportation motor 107 through a wire.

Principle of operation

In the invention, when the mineral resources are utilized, the cylinder 184 is controlled to act by the secondary switch 8, the mineral conveying plate 182 is put down, mineral substances are placed on the mineral conveying plate 182, the cylinder 184 is controlled to act by the secondary switch 8 again, the mineral conveying plate 182 is lifted up, the mineral substances can be guided into the upper part of the conveying belt 103, the primary switch 7 is started immediately, so that the winding motor 43 drives the reel 42 to act, the proper magnetic selection position of the strong magnetic selection iron plate 45 is adjusted, the iron impurities in the mineral substances are sucked out by the strong magnetic sheet 451, the magnetic selection work can be completed, finally, the action state of the conveying motor 107 is controlled by the tertiary switch 9, the driving gear 106 is driven to rotate by the driving gear 106, so that the driving roller 102 drives the driven roller 101 to act by the conveying belt 103, the magnetic selection work is carried out while the mineral substances are guided out by the mineral guiding hopper 11, the impurities are filtered into the impurity collecting box 125 by the impurity removing net 123, then the impurity removal work can be carried out; during the process, the scraper 1351 scrapes off impurities on the surface of the conveyer belt 103 and drops into the impurity dropping box 134 for temporary storage, and the locking nut 132 can be loosened, the screw 131 can be rotated, the height of the scraper main body 135 can be changed, and the locking nut 132 can be locked; through handheld hollow handle 192, can carry out the sample work through the flexible piece 195 of choosing a kind, can lead into the ore sample through leading appearance piece 1951, be convenient for carry out the sample work, make things convenient for later stage to detect.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (10)

1. The multifunctional mineral resource comprehensive utilization equipment is characterized by comprising a primary support (1), a transverse column (2), a secondary support (3), a strong-magnetic iron separation lifter (4), a sliding pipe (5), an adjusting bolt (6), a primary switch (7), a secondary switch (8), a tertiary switch (9), an ore guiding conveyor (10), an ore guiding hopper (11), an impurity removing filter hopper structure (12), a scraper structure (13), a sliding block (14), a sliding chute (15), a bottom block (16), a fastening bolt (17), an ore conveyor (18) and a sampling rod structure (19), wherein the longitudinal bolt of the primary support (1) is installed on the lower left part of the transverse column (2); the longitudinal bolt of the secondary bracket (3) is arranged at the right lower part of the transverse column (2); the anchor ear of the strong magnetic iron separation lifter (4) is arranged in the middle of the front surface of the sliding pipe (5); the sliding pipe (5) is sleeved in the middle of the outer wall of the transverse column (2) in a sliding manner; the adjusting bolt (6) is in threaded connection with the connecting part of the sliding pipe (5) and the transverse column (2); the primary switch (7), the secondary switch (8) and the tertiary switch (9) are sequentially mounted on the left upper part of the primary support (1) through bolts from top to bottom; the horizontal bolt of the ore guiding conveyor (10) is arranged at the middle lower part between the first-stage bracket (1) and the second-stage bracket (3); the ore guide hopper (11) is arranged at the middle lower part of the inner side of the first-stage bracket (1) through bolts; the right side of the ore guide hopper (11) is opposite to the left side of the ore guide conveyor (10); the impurity removal filter hopper structure (12) is connected with the ore guide hopper (11) through bolts and nuts; the impurity removal filter hopper structure (12) is arranged at the middle lower part of the outer side of the primary support (1); the scraper structure (13) is arranged on the upper part of the sliding block (14) through bolts; the sliding block (14) is slidably clamped in a sliding groove (15) transversely formed in the middle of the upper part of the inner side of the bottom block (16); the bottom block (16) is transversely installed at the bottom between the primary support (1) and the secondary support (3) through bolts; the fastening bolt (17) is in threaded connection with the clamping position of the sliding block (14) and the sliding groove (15); the scraper structure (13) is arranged in the middle of the lower part of the ore guide conveyor (10); one end of the ore conveyor (18) is coupled to the middle upper part of the inner side of the secondary support (3) in a shaft mode, and the other end of the ore conveyor is mounted at the lower position of the outer side of the secondary support (3) in a longitudinal mode through a bolt; the sampling rod structure (19) is longitudinally hung on a hook welded at the lower left part of the cross column (2); the high-intensity magnetic iron selection lifter (4) comprises a connecting rope (41) with a hook, a reel (42), a winding motor (43), a mooring rope (44) and a high-intensity magnetic iron plate (45), wherein one end of the connecting rope (41) with the hook is wound on the inner wall of the reel (42), and the other end of the connecting rope (44) with the hook is hung on the inner wall of the reel; the cable (44) is tied at the four-angle position of the upper surface of the strong magnetic iron plate (45); the winding wheel (42) is connected to the output shaft of the winding motor (43) in a key mode.

2. The multifunctional mineral resource comprehensive utilization device as claimed in claim 1, wherein the sampling rod structure (19) comprises a pull ring (191), a hollow handle (192), a telescopic rod (193), a locking bolt (194) and a sampling telescopic plate (195), the pull ring (191) is welded at the upper end of the hollow handle (192); the hollow handle (192) is longitudinally sleeved on the upper part of the outer wall of the telescopic rod (193); the locking bolt (194) is in threaded connection with the connecting part of the hollow handle (192) and the telescopic rod (193); the sampling telescopic sheet (195) is welded at the lower end of the telescopic rod (193).

3. The multifunctional mineral resource comprehensive utilization device according to claim 2, wherein the sampling expansion piece (195) is provided with a sample guide piece (1951), a sample outlet pipe (1952) and a rubber plug (1953), and the sample guide piece (1951) is screwed in the middle inside the sampling expansion piece (195); the sampling tube (1952) is in threaded connection with the middle position of the bottom of the sampling telescopic sheet (195); the rubber plug (1953) is inserted at the lower outlet of the sampling tube (1952).

4. The multifunctional mineral resource comprehensive utilization equipment as claimed in claim 1, wherein the ore conveyor (18) comprises a connecting seat (181), an ore conveying plate (182), a flat-head movable rod (183), a cylinder (184), a movable clamping block (185), a guide rail (186) and a square-head bolt (187), the connecting seat (181) is bolted to the lower right part of the ore conveying plate (182); one end of the flat head movable rod (183) is connected with an output rod of the cylinder (184) through a bolt, and the other end of the flat head movable rod is connected with the connecting seat (181) through a shaft; the cylinder (184) is connected with a movable fixture block (185) through a bolt; the movable fixture block (185) is slidably clamped at the middle lower part of the inner side of the guide rail (186); the square head bolt (187) is in threaded connection with the connecting position of the movable clamping block (185) and the guide rail (186).

5. The multifunctional mineral resource comprehensive utilization equipment according to claim 1, wherein the impurity removal filter hopper structure (12) comprises a mineral hopper (121), a towing ring (122), an impurity removal net (123), a ball type slide rail (124) and an impurity collection box (125), wherein the mineral hopper (121) is connected to the upper part of the impurity collection box (125) through bolts and nuts; the ball type sliding rails (124) are respectively and transversely installed on the front wall and the rear wall of the inner side of the impurity collecting box (125) through bolts; the impurity removing net (123) is slidably clamped at the upper part between the ball type slide rail (124) and the ball type slide rail (124); the towing ring (122) is welded at the left lower end of the impurity removing net (123); the left lower part of the impurity removing net (123) penetrates through the left upper part of the impurity collecting box (125); and a wing-shaped screw is arranged at the joint of the impurity removing net (123) and the impurity collecting box (125).

6. The multifunctional mineral resources comprehensive utilization device according to claim 5, wherein said impurity collecting box (125) comprises a box door (1251), a connecting shaft (1252) and a tightening bolt (1253), the left end of said box door (1251) is mounted at the left position of the lower outlet of the impurity collecting box (125) through the connecting shaft (1252); the puller bolt (1253) is in threaded connection with the connection part of the box door (1251) and the impurity collecting box (125); the box door (1251) and the outlet at the lower part of the impurity collecting box (125) are buckled.

7. The multifunctional mineral resource comprehensive utilization equipment according to claim 1, wherein the ore-guiding conveyor (10) comprises a driven roller (101), a driving roller (102), a conveying belt (103), a conveying frame (104), a driven gear (105), a driving gear (106) and a conveying motor (107), wherein the driven roller (101) is coupled to the left inner part of the conveying frame (104); the driving roller (102) is coupled to the right part of the inner side of the transport frame (104); one end of the conveyer belt (103) is connected with the driven roller (101), and the other end is connected with the driving roller (102); the driven gear (105) is in bolted connection with the middle position of the front surface of the driving roller (102); the driving gear (106) is connected to an output shaft of the transportation motor (107) in a key mode; the driven gear (105) is meshed with the driving gear (106); the transport motor (107) is mounted at the right lower part of the transport frame (104) through bolts.

8. The multifunctional mineral resource comprehensive utilization equipment as claimed in claim 1, wherein the scraper structure (13) comprises a screw (131), a locking nut (132), an internally threaded pipe (133), a trash box (134) and a scraper main body (135), and the lower longitudinal end of the screw (131) is connected to the upper inner side of the internally threaded pipe (133) through the locking nut (132); the longitudinal lower end of the internal thread pipe (133) is welded at the middle position of the bottom of the inner side of the impurity dropping box (134); the middle position in the scraper blade main body (135) is in threaded connection with the upper end of the screw rod (131); the screw rod (131) and the locking nut (132) are in threaded connection.

9. The multifunctional mineral resource comprehensive utilization equipment as claimed in claim 1, wherein the strong magnetic plate (451) is bolt-installed on the strong magnetic iron plate (45).

10. The multifunctional mineral resource recycling apparatus according to claim 8, wherein the scraper (1351) is screwed to the upper surface of the scraper body (135).

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