CN210411049U - Automatic mesh-separating grinding and collecting device for raw ore - Google Patents

Automatic mesh-separating grinding and collecting device for raw ore Download PDF

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Publication number
CN210411049U
CN210411049U CN201920717388.5U CN201920717388U CN210411049U CN 210411049 U CN210411049 U CN 210411049U CN 201920717388 U CN201920717388 U CN 201920717388U CN 210411049 U CN210411049 U CN 210411049U
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China
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screw
grinding
box body
motor
sliding block
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Expired - Fee Related
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CN201920717388.5U
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Chinese (zh)
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陈益敏
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Individual
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Individual
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Abstract

The utility model provides an automatic mesh grinding collection device that divides of raw ore deposit, the power distribution box comprises a box body, the left party is equipped with the dust catcher with ground fixed connection around the box, the right-hand front and back both ends of box are equipped with the motor one with ground fixed connection, the utility model discloses profitable effect is: the utility model discloses simple structure, it is easy and simple to handle, directly skip crushing step and carry out the grinding, practiced thrift the cost to can carry out the grinding of multinomization to former ore, can collect former ore powder automatically at the grinding in-process, solved in the existing equipment can only the condition of the single regulation mesh number of grinding to former ore single, avoided the circumstances of a lot of material loading and unloading and more different mesh number grinding apparatus, full automation, simple high-efficient convenient and fast.

Description

Automatic mesh-separating grinding and collecting device for raw ore
Technical Field
The utility model relates to a mineral separation grinding technical field especially relates to an automatic mesh grinding collection device that divides of raw ore.
Background
The mineral separation is a process of separating useful minerals from gangue minerals, separating various symbiotic (associated) useful minerals from each other as much as possible, removing or reducing harmful impurities to obtain raw materials required by smelting or other industries by adopting methods such as a gravity separation method, a flotation method, a magnetic separation method, an electric separation method and the like after crushing and grinding the ores according to physical and chemical properties of different minerals in the ores, wherein the mineral separation treatment process of the ores is completed in a mineral separation plant and generally comprises the following three basic process processes of preparation operation, separation operation and treatment operation, wherein the preparation operation is further divided into crushing, grinding, screening and grading and washing, the crushing is a process of crushing ore blocks with the particle size of 500-1500 mm, which are mined from mines, to the particle size of 5-25 mm, the crushing, chopping and the like are generally carried out according to three sections of coarse crushing, medium crushing and fine crushing, grinding mainly comprises grinding and impacting, a crushed product is ground to the particle size of 10-300 mu m, the ground particle size is determined according to the dip-dyeing particle size of useful minerals in ores and the adopted sorting method, the grinding operation energy consumption is high and generally accounts for about half of the total energy consumption of mineral separation, the existing mined ores can be ground only after being crushed because the existing grinding machine such as a ball mill can only grind small-particle ores, but the equipment purchase, processing, energy consumption and other costs are increased, the crushed raw ores are moved to grinding equipment to be manually operated, the raw ores are ground into different meshes for different purposes of the raw ores in the grinding link for mineral separation, the existing equipment can only grind the raw ores into single meshes, the quantity of the raw ores is small, but the situation of large demand is not friendly, and the repeated feeding and discharging are very inconvenient, at present, no fully automatic production line device which can directly grind raw ores by skipping a crushing step and can grind various meshes in a single time exists on the market.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the problem that above-mentioned prior art exists, the utility model provides an automatic minute mesh grinding collection device of former ore, can do not need directly to carry out the grinding to former ore through the crushing step in the preparation operation to the former ore after opening the mining, and can accomplish continuous full-automatic material loading, the grinding, arrange the material, and the single can carry out the grinding of multinomization to former ore, solved, it is less to former ore quantity, but the condition that the demand mesh is too much, and unnecessary equipment purchase spending has been exempted from, the artificial consumption has been reduced, the ore dressing efficiency is greatly improved, full automation, simple high-efficient convenient and fast.
The utility model provides a technical scheme that its technical problem adopted: the automatic mesh-dividing grinding and collecting device for the raw ores comprises a box body, wherein a dust collector fixedly connected with the ground is arranged at the front and the rear left sides of the box body, a motor I fixedly connected with the ground is arranged at the front and the rear ends of the right side of the box body, an inlet and an outlet communicated with the outside are arranged on the inner wall at the right end of the box body, a dust collection box is fixedly arranged in the middle of the inner walls at the front and the rear left ends of the box body, a grinding layer is fixedly arranged at one end, close to the center of the box body, of the dust collection box, through holes I which are distributed in an array manner and are mutually communicated are arranged at one end, close to the box body, of the dust collector, a guide pipe is arranged at one end, close to the box body, of the dust collector sequentially penetrates through the inner wall of the box body and the inner wall of the end, far away from the center, the right ends of the first screw and the second screw penetrate through the inlet and the outlet and are respectively connected with the first motor, the outer sides of the first screw and the second screw are respectively connected with the first sliding block and the second sliding block in a sliding manner, the top of the first sliding block is fixedly provided with a third motor, the rear end of the third motor is provided with a first double screw, the rear end of the first double screw is movably connected with the second sliding block, the outer side of the first double screw is connected with a third sliding block in a sliding manner, the top of the third sliding block is fixedly provided with a fixed box, the center of the bottom of the inner wall of the fixed box is fixedly provided with a first air cylinder, the top of the first air cylinder is fixedly provided with a first support plate, the top of the first support plate is fixedly provided with a fourth motor, the top of the fourth motor is fixedly provided with a first drill, the, the top of the inner wall of the fixed box is respectively provided with a through hole II and a through hole III, the diameters of the through holes II and the through holes III are slightly larger than those of the side wings and the telescopic rods, and the axes of the through holes II and the through holes III are aligned with the side wings and the telescopic rods.
For further perfection, the front half part and the rear half part of the top of the dust collector on the left side are fixedly provided with a second motor, the dust collection box is respectively provided with a third screw and a fourth screw which are positioned in the front half part and the rear half part inside the box body above, the third screw and the fourth screw are movably connected with the inner wall of the right end of the box body, the third screw and the fourth screw left end are respectively connected with the second motor after passing through the inner wall of the left end of the box body, the third screw and the fourth outer side of the screw are respectively and slidably connected with a fourth sliding block and a fifth sliding block, the fourth top of the sliding block is fixedly provided with a fifth motor, the fifth rear end of the motor is provided with a second double screw, the second rear end of the double screw is movably connected with a fifth sliding block, the six outer sides of the double screw are movably connected with a sixth sliding block, and a second drill bit is fixedly arranged at the bottom of the third cylinder.
The utility model discloses profitable effect is: the utility model discloses simple structure, it is easy and simple to handle, directly skip crushing step and carry out the grinding, practiced thrift the cost to can carry out the grinding of multinomization to former ore, can collect former ore powder automatically at the grinding in-process, solved in the existing equipment can only the condition of the single regulation mesh number of grinding to former ore single, avoided the circumstances of a lot of material loading and unloading and more different mesh number grinding apparatus, full automation, simple high-efficient convenient and fast.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a sectional view taken along line A-A of FIG. 1;
FIG. 3 is a sectional view taken along line B-B of FIG. 1;
FIG. 4 is a partial enlarged view of the second twin-screw, the sixth sliding block and the fifth motor in FIG. 1;
FIG. 5 is a partial, enlarged view of the grinding bed and through-hole one of FIG. 1;
FIG. 6 is an enlarged view of a portion of the holding tank of FIG. 1;
FIG. 7 is an enlarged view of a portion of the first bit, the shoulder, and the third through hole 22 of FIG. 3;
fig. 8 is a left side view of the first drill of the present invention.
Description of reference numerals: the dust collector comprises a box body 1, a control chip 2, a motor II 3, a dust collector 4, a guide pipe 5, a dust collection box 6, a sliding block IV 7, an inlet and outlet 8, a cylinder III 9, a motor I10, a drill bit I11, a fixed box 12, a motor IV 13, a support plate I14, a cylinder I15, a screw I16, a screw I17, a sliding block III 18, a sliding block I19, a motor III 20, a cylinder II 21, a through hole III 22, a through hole II 23, a screw II 24, a sliding block VI 25, a motor V26, a screw III 27, a support plate II 28, a motor VI 29, a grinding layer 30, a through hole I31, a drill bit II 32, a screw IV 33, a sliding block II 34, a sliding block V35, a screw II 36.
Detailed Description
The present invention will be further explained with reference to the accompanying drawings:
referring to figures 1, 2, 3, 4, 5, 6, 7, 8: the automatic mesh-dividing grinding and collecting device for the raw ores in the embodiment comprises a box body 1, a dust collector 4 fixedly connected with the ground is arranged on the front, back and left sides of the box body 1, a motor I10 fixedly connected with the ground is arranged on the front, back and right ends of the box body 1, an inlet and outlet 8 communicated with the outside is arranged on the inner wall of the right end of the box body 1, a dust collecting box 6 is fixedly arranged in the middle of the inner wall of the front, back and left ends of the box body 1, a grinding layer 30 is fixedly arranged at one end, close to the center of the box body 1, of the dust collecting box 6, through holes I31 which are distributed in an array and are communicated with each other are arranged in the grinding layer 30, a guide pipe 5 is arranged at one end, close to the box body 1, of the dust collector 4, the guide pipe 5 sequentially penetrates through the inner wall of the box body 1 and the inner wall of the end, far away from the center of the, the left ends of the first screw 16 and the second screw 36 are movably connected with the inner wall of the left end of the box body 1, the right ends of the first screw 16 and the second screw 36 penetrate through the inlet and outlet 8 and then are respectively connected with the first motor 10, the outer sides of the first screw 16 and the second screw 36 are respectively connected with the first sliding block 19 and the second sliding block 34 in a sliding manner, the top of the first sliding block 19 is fixedly provided with the third motor 20, the rear end of the third motor 20 is provided with the first double screw 17, the rear end of the first double screw 17 is movably connected with the second sliding block 34, the outer side of the first double screw 17 is connected with the third sliding block 18 in a sliding manner, the top of the third sliding block 18 is fixedly provided with the fixed box 12, the center of the bottom of the inner wall of the fixed box 12 is fixedly provided with the first air cylinder 15, the top of the, the outside of the middle part of the drill bit 11 is provided with a side wing 38 extending outwards, a cylinder II 21 fixedly connected with the bottom of the inner wall of the fixed box 12 is arranged around the cylinder I15, an expansion link 37 is installed at the top of the cylinder II 21, and the top of the inner wall of the fixed box 12 is respectively provided with a through hole II 23 and a through hole III 22, the diameters of which are slightly larger than the side wing 38 and the expansion link 37, and the axes of which are aligned with each other.
Referring to figures 1, 4: a motor II 3 is fixedly arranged at the front half part and the rear half part of the top of the left dust collector 4, a screw rod III 27 and a screw rod IV 33 which are positioned at the front half part and the rear half part in the box body 1 are respectively arranged above the dust collection box 6, the right ends of the screw rod III 27 and the screw rod IV 33 are movably connected with the inner wall of the right end of the box body 1, the left ends of the screw rod III 27 and the screw rod IV 33 penetrate through the inner wall of the left end of the box body 1 and are respectively connected with the motor II 3, the outer sides of the screw rod III 27 and the screw rod IV 33 are respectively connected with a sliding block IV 7 and a sliding block IV 35 in a sliding way, a motor V26 is fixedly arranged at the top of the sliding block IV 7, a motor II 24 is arranged at the rear end of the motor V26, the rear end of the double screw rod II 24 is movably connected with the double screw rod IV 35, and a third air cylinder 9 is fixedly arranged at the bottom of the second supporting plate 28, and a second drill bit 32 is fixedly arranged at the bottom of the third air cylinder 9.
Referring to figures 1, 2, 3, 4, 5, 6, 7, 8: a use method of an automatic mesh-dividing grinding and collecting device for raw ores comprises the following steps:
firstly, early preparation: a control chip 2 is arranged in the top of the box body 1, and a dust collection box 6 in the box body 1 is provided with grinding layers with different meshes;
firstly, feeding: the control chip 2 controls the motor I10 to rotate to drive the screw rod I16 and the screw rod II 36 to rotate, so that the sliding block III 18 slides out of the box body 1 through the inlet and outlet 8, the center of the raw ore to be ground is approximately aligned with the through hole II 23 and placed at the top of the fixed box 12, the control chip 2 controls the cylinder II 21 to lift the telescopic rod 37 to prevent the raw ore from falling off, and then the motor I10 rotates reversely to enable the sliding block III 18 to return to the interior of the box body through the inlet and outlet 8;
secondly, fixing the bottom: the control chip 2 controls the motor IV 13 to continuously rotate forwards and backwards to drive the drill bit I11 and the side wing 38 to rotate back and forth within an angle of 30 degrees, meanwhile, the air cylinder I15 slowly rises, so that the top of the drill bit I11 is contacted with the bottom of the raw ore through the through hole II 23, the side wing 38 slots the bottom of the raw ore after the top of the drill bit I11 drills into the raw ore, when the air cylinder I15 rises to the maximum stroke, the motor IV 13 stops rotating back and forth to rotate clockwise normally, and at the moment, the side wing 32 can drive the raw ore to rotate through the slot at the bottom of the raw ore;
thirdly, fixing the top: the control chip 2 controls the sliding block six 25 to move, so that the drill bit two 32 is aligned with the axis of the drill bit one 11, then the control chip 2 simultaneously controls the motor six 29 to rotate anticlockwise and the air cylinder three 9 to extend, so that the drill bit two 32 drills downwards anticlockwise into the top of the raw ore, when half of the drill bit two 32 drills into the top of the raw ore, the motor six 29 and the air cylinder three 9 stop running, two-point fixation is formed on the top and the bottom of the raw ore at the moment, and then the telescopic rod 37 retracts into the air cylinder two 21;
fourthly, grinding: the control chip 2 controls the dust collector 4 to be opened, the control chip 2 controls the sliding block III 18 and the sliding block VI 25 to use the drill bit I11 and the drill bit II 32 as planetary points, the vertical point between the grinding layers 30 as a star point, the drill bit I11 and the drill bit II 32 rotate around the vertical point between the grinding layers 30 to perform outward slow diffusion escape revolution, the maximum revolution radius of the drill bit I11 and the drill bit II 32 is smaller than the distance from the vertical point between the grinding layers 30 to the grinding layers 30, so that the raw ore can be ground while rotating clockwise, the surface of the raw ore can be attached to the grinding layers 30 with different meshes, the raw ore powder ground with different meshes is sucked into the dust collection box 6 through the through hole I31, and then the raw ore powder is sucked into the dust collector 4 to be stored.
While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims (1)

1. The utility model provides an automatic mesh grinding collection device that divides of raw ore, includes box (1), characterized by: the dust collector is characterized in that a dust collector (4) fixedly connected with the ground is arranged on the front and rear left sides of the box body (1), a motor I (10) fixedly connected with the ground is arranged on the front and rear right ends of the box body (1), an inlet and outlet (8) communicated with the outside is arranged on the inner wall of the right end of the box body (1), a dust collection box (6) is fixedly arranged in the middle of the inner wall of the front and rear left ends of the box body (1), a grinding layer (30) is fixedly arranged at one end, close to the center of the box body (1), of the dust collection box (6), through holes I (31) which are distributed in an array manner and are communicated with each other are arranged in the inner part of the grinding layer (30), a guide pipe (5) is arranged at one end, close to the box body (1), of the dust collector (4), and the guide pipe (5) sequentially penetrates through the inner wall of the box, a first screw (16) and a second screw (36) which are positioned at the front half part and the rear half part inside the box body (1) are respectively arranged below the dust collection box (6), the left ends of the first screw (16) and the second screw (36) are movably connected with the inner wall of the left end of the box body (1), the right ends of the first screw (16) and the second screw (36) penetrate through the inlet and outlet (8) and are respectively connected with a first motor (10), the outer sides of the first screw (16) and the second screw (36) are respectively and slidably connected with a first sliding block (19) and a second sliding block (34), a third motor (20) is fixedly installed at the top of the first sliding block (19), a first double screw (17) is installed at the rear end of the third motor (20), the rear end of the first double screw (17) is movably connected with the second sliding block (34), a third sliding block (18) is slidably connected with the outer side of the first double screw (17), fixed case (12) inner wall bottom center fixed mounting has cylinder (15), cylinder (15) top fixed mounting has backup pad (14), backup pad (14) top fixed mounting has motor four (13), motor four (13) top fixed mounting has drill bit (11), drill bit (11) middle part outside is equipped with outside flank (38) that extends, cylinder (15) are equipped with all around with fixed case (12) inner wall bottom fixed connection's cylinder two (21), telescopic link (37) are installed at cylinder two (21) top, fixed case (12) inner wall top is equipped with diameter flank (38) and telescopic link (37) respectively and the axis slightly is greater than two (23) and three (22) of through-hole with it is aligned.
CN201920717388.5U 2019-05-18 2019-05-18 Automatic mesh-separating grinding and collecting device for raw ore Expired - Fee Related CN210411049U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920717388.5U CN210411049U (en) 2019-05-18 2019-05-18 Automatic mesh-separating grinding and collecting device for raw ore

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920717388.5U CN210411049U (en) 2019-05-18 2019-05-18 Automatic mesh-separating grinding and collecting device for raw ore

Publications (1)

Publication Number Publication Date
CN210411049U true CN210411049U (en) 2020-04-28

Family

ID=70371954

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920717388.5U Expired - Fee Related CN210411049U (en) 2019-05-18 2019-05-18 Automatic mesh-separating grinding and collecting device for raw ore

Country Status (1)

Country Link
CN (1) CN210411049U (en)

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20200428

Termination date: 20210518

CF01 Termination of patent right due to non-payment of annual fee