CN217856417U - Efficient dust removal mineral processing equipment has - Google Patents

Abstract

The utility model discloses a mineral processing equipment with high-efficient dust removal relates to the mineral processing equipment field, including handling the main tank, the even welding in bottom surface of handling the main tank has the support bottom block, one side oblique welding of handling the main tank has the discharge tube, the one end bolted connection who handles the main tank has fixed box, the top surface of handling the main tank has evenly seted up a logical groove, handle the vertical bolted connection of one end to the processing case of fixed box keeping away from of main tank, the top welding of processing case has a batch hopper, has adopted the spraying water body structure to make the dust that produces when smashing the mineral aggregate can not spread the polluted environment, makes the further dust condition of splashing when smashing of having guaranteed simultaneously under the structure of sealed, and the screening structure at drum-type makes can be more high efficiency carry out the screening processing, and has combined the fan air-drying structure to make the drying can be more quick, helps filtering collection processing to the mineral aggregate.

Description

Efficient dust removal mineral processing equipment has

Technical Field

The utility model relates to a mineral processing equipment technical field specifically is a mineral processing equipment with high-efficient dust removal.

Background

Mineral separation is a process of crushing and grinding ores according to physical and chemical properties of different minerals in the ores, separating useful minerals from gangue minerals by methods such as a gravity separation method, a flotation method, a magnetic separation method, an electric separation method and the like, separating various symbiotic (associated) useful minerals from each other as much as possible, and removing or reducing harmful impurities to obtain raw materials required by smelting or other industries.

When carrying out the crushing to present mineral processing equipment, carry out shredding to the ore, traditional ore crushing has just adopted open form crushing structure, make the dust that produces when smashing can cause to splash the outdiffusion, caused the environment to around and formed the pollution, and let can't carry out other work in the environment again, and the screen cloth structure that carries on of directness when screening screens, make the processing of screening of carrying on of one deck, let the efficiency of screening can't improve, and also there is the dust outdiffusion and influence the environment during the screening.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a have high-efficient dust removal mineral processing equipment, in order to solve to present mineral processing equipment that proposes in the above-mentioned background art when smashing, carry out shredding to the ore, traditional ore is smashed and has just adopted and has opened form crushing structure, the dust that produces when making smash can cause the outdiffusion that splashes, the environment to around has been caused to form the pollution, and can't carry out other work in letting the environment again, and the screen cloth structure that carries on of directness when screening screens, make the carrying out screening process of one deck, the efficiency of letting the screening can't improve, and also there is the dust outdiffusion and influence the problem of environment when screening.

In order to achieve the above object, the utility model provides a following technical scheme:

a high-efficiency dust-removing mineral processing device comprises a processing main box, wherein a supporting bottom block is uniformly welded on the bottom surface of the processing main box, a material discharging pipeline is obliquely welded on one side edge of the processing main box, a fixed box is bolted on one end of the processing main box, a top through groove is uniformly formed in the top surface of the processing main box, a processing box is vertically bolted on one end of the processing main box far away from the fixed box, a top feeding hopper is welded on the top end of the processing box, a supporting block is welded on the top surface of the top feeding hopper, a feeding top opening is horizontally formed in the top surface of the processing box, a guide hopper is horizontally welded on the inner side edge of the processing box, crushing rollers are horizontally inserted into the inner side edge of the processing box, and a guide inclined plate is obliquely welded on the inner side bottom surface of the processing box, the side through connection hole has been seted up to a side of handling the case, the horizontal bolted connection of a side of handling the case has a grafting box, the fixed transmission gear that has cup jointed in inboard side of grafting box, a side bolted connection that the grafting box was keeping away from handling the case has the seal box, the inboard side bolted connection of seal box has crushing motor, the even threaded connection in bottom surface of supporting shoe has the sprinkler head, the side of handling the main case is opened to one side and is equipped with oblique import, the inboard side oblique grafting of handling the main case has the support king-rod, the outside limit welding of supporting king-rod has the screening outer tube, the inboard top surface horizontal bolted connection of handling the main case has the fan STB, the inboard bottom surface oblique welding of handling the main case has interior deflector, the inboard side bolted connection of fixed box has main motor.

As a preferred embodiment of the present invention: the number of the supporting bottom blocks is four, the four supporting bottom blocks are respectively and fixedly arranged at four corner positions of the bottom surface of the main box, the bottom fixing of the four supporting bottom blocks is provided with a rubber plate, the number of the discharging pipelines is multiple, one end of each discharging pipeline is fixedly arranged at the open end position of the side discharging port of the main box in a one-to-one correspondence mode, and the plurality of discharging pipelines are arranged in a line shape and are arranged at one side edge of the main box to be close to the bottom surface position.

As a preferred embodiment of the present invention: the fixed box of end is fixed to be set up in the one end central line bottom position of handling the main tank, and the inside that the groove was led to on the top keeps leading to with the inside of handling the main tank and connects the setting, and the bottom welding of top batch hopper sets up in the top open end position of feeding top mouth, and the inside of top batch hopper keeps leading to with the inside of feeding top mouth and connects the setting.

As a preferred embodiment of the present invention: the supporting shoe is U font lock joint and sets up the top open center line position at a batch hopper, and feeding top open level runs through the formula and sets up in the top surface center line position of handling the case, and the horizontal welding of direction fill sets up in the inboard top surface position of handling the case, and crushing roller parallel arrangement each other.

As a preferred embodiment of the present invention: the oblique downwardly extending butt joint in bottom of direction swash plate sets up the opening bottom surface position in the hole is led to the side, and the open end butt joint setting of leading the swash plate keeping away from to the side is led to the hole and is kept leading to the setting at the open end of oblique import, and transmission gear one-to-one respectively cup joints the one end axle head position that sets up at crushing roller, and the fixed side that sets up at the cover box of seal box is close to one end position.

As a preferred embodiment of the present invention: the output end of the crushing motor is horizontally welded at the central position of a transmission gear, one end of an oblique inlet is obliquely and downwards butted at an opening position at one end of the screening outer pipe, one end of a support middle rod is obliquely and downwards extended and welded at the output end position of the main motor, and the bottom end of the inner guide plate is obliquely and downwards butted at the bottom surface position at one end of the discharging pipeline.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model feeds mineral aggregate to the inner side of the top feeding hopper, the water body is sprayed downwards by the spray head on the bottom surface of the supporting block, the sprayed water body covers the surface of the mineral aggregate, then the mineral aggregate falls into the guiding hopper downwards through the feeding top port, the mineral aggregate falls into the position between the crushing rollers under the guiding of the guiding hopper, the rotation of the crushing motor drives the rotation of the transmission gear, thereby the mineral aggregate at the position between the crushing rollers is crushed by the rolling action, the water body is sprayed downwards by the spray head at the top part while crushing, the dust diffusion cannot be formed, the crushed mineral aggregate falls into the top surface of the guiding inclined plate downwards, the mineral aggregate falls into the inner side of the screening outer pipe downwards from the side through hole and the inclined inlet under the guiding of the mineral aggregate, the support middle rod drives the rotation of the screening outer pipe under the rotation of the main motor, let inside crushing mineral aggregate roll over the screening effect, let the water just fall into downwards at the position of getting into and derive downwards through interior deflector, make the mineral aggregate to the upset simultaneously under the effect of the inside fan of the fan STB at top weathers the processing, then through rotating the screening from the outside discharge collection processing of a plurality of discharge tube ways, it can not spread the polluted environment to have adopted the dust that sprays the water structure and make when smashing the mineral aggregate to produce, make the further dust condition of splashing when smashing under the structure of sealed simultaneously, and the screening structure at drum-type makes can be more high efficiency carry out screening process, and make the drying can be more quick when having combined fan air-drying structure, help carrying out screening collection processing to the mineral aggregate.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of a high-efficiency dedusting and beneficiation plant;

FIG. 2 is a schematic structural diagram of a front section connection detail of a treatment box with a high-efficiency dust-removing mineral processing device;

FIG. 3 is a schematic diagram of a connection detail of a side view section of a treatment tank with a high efficiency dust removal beneficiation plant;

FIG. 4 is a schematic structural diagram of a top hopper side view section connection detail of a high-efficiency dust-removing mineral processing device;

fig. 5 is a schematic structural diagram of a connection detail of a front section of a processing main box with a high-efficiency dust-removing mineral processing device.

In the figure: 1. processing the main box; 2. a support bottom block; 3. a discharge conduit; 4. fixing a box at the end; 5. a top through groove; 6. a treatment tank; 7. a feeding hopper is pushed; 8. a supporting block; 9. a feed top opening; 10. a guide hopper; 11. a crushing roller; 12. a guide sloping plate; 13. a side through hole; 14. sleeving a box; 15. a transmission gear; 16. a sealing box; 17. a grinding motor; 18. a sprinkler head; 19. an inclined inlet; 20. supporting the middle rod; 21. screening the outer tube; 22. a fan set-top box; 23. an inner guide plate; 24. a main motor.

Detailed Description

Referring to fig. 1-2, in the embodiment of the present invention, a high-efficiency dust-removing mineral processing apparatus comprises a processing main box 1, wherein a supporting bottom block 2 is welded on the bottom surface of the processing main box 1 uniformly, a plurality of discharging pipes 3 are welded on one side edge of the processing main box 1 obliquely, the number of the supporting bottom blocks 2 is four, the four supporting bottom blocks 2 are respectively and fixedly arranged at the four side corner positions of the bottom surface of the processing main box 1, a rubber plate is fixedly arranged at the bottom end of the four supporting bottom blocks 2, the number of the discharging pipes 3 is multiple, one end of each of the discharging pipes 3 is fixedly arranged at the opening end position of the side edge discharging port of the processing main box 1 in a one-to-one correspondence manner, the plurality of discharging pipes 3 are arranged at a position close to the bottom surface at one side edge of the processing main box 1 in a linear manner, a fixed box 4 is connected to one end of the processing main box 1 by bolts, a top through groove 5 is uniformly arranged on the top surface of the processing main box 1, the processing main box 1 is vertically connected with a processing box 6 through a bolt at one end far away from a fixed box 4, the top end of the processing box 6 is welded with a top feeding hopper 7, the fixed box 4 is fixedly arranged at the bottom position of the center line at one end of the processing main box 1, the inside of a top through groove 5 is communicated with the inside of the processing main box 1, the bottom end of the top feeding hopper 7 is welded at the top opening end position of a feeding top opening 9, the inside of the top feeding hopper 7 is communicated with the inside of the feeding top opening 9, the top surface of the top feeding hopper 7 is welded with a supporting block 8, the top surface of the processing box 6 is horizontally provided with the feeding top opening 9, the inside edge of the processing box 6 is horizontally welded with a guide hopper 10, the inside edge of the processing box 6 is horizontally inserted with a crushing roller 11, the supporting block 8 is buckled and arranged at the center line position of the top opening of the top feeding hopper 7 in a U-shaped manner, the feeding top opening 9 is horizontally penetrated and arranged at the center line position of the top surface of the processing box 6, the guide hopper 10 is horizontally welded at the inner top surface of the treatment box 6, the crushing rollers 11 are arranged in parallel, the inner bottom surface of the treatment box 6 is obliquely welded with a guide inclined plate 12, one side edge of the treatment box 6 is provided with a side through connection hole 13, the bottom end of the guide inclined plate 12 extends downwards obliquely and is in butt joint with the opening bottom surface of the side through connection hole 13, and the opening end of the side through connection hole 13 far away from the guide inclined plate 12 is in butt joint with one opening end of an inclined inlet 19 and keeps in through connection;

referring to fig. 3-5, in an embodiment of the present invention, a high-efficiency dust-removing mineral separation equipment, wherein a horizontal bolt at one side of a processing box 6 is connected to a sleeve box 14, a transmission gear 15 is fixedly sleeved at an inner side of the sleeve box 14, the sleeve box 14 is bolted to a sealing box 16 at one side far away from the processing box 6, the transmission gear 15 is sleeved at an end of a shaft of a crushing roller 11 in a one-to-one correspondence manner, the sealing box 16 is fixedly arranged at a side of the sleeve box 14 close to one end, the inner side of the sealing box 16 is bolted to a crushing motor 17, a uniform thread on a bottom surface of the supporting block 8 is connected to a sprinkler 18, a slant inlet 19 is formed at one side of the processing box 1, an inner side of the processing box 1 is obliquely inserted with an inner side support middle rod 20, a screening outer tube 21 is welded at an outer side of the support middle rod 20, a horizontal bolt on an inner top surface of the processing box 1 is connected to a fan top box 22, an inner side bottom surface of the processing box 1 is obliquely welded with an inner guide plate 23, an output end of the crushing motor 17 is welded at a center position of the transmission gear 15, an end of a slant inlet 19 is welded to an opening of a main rod 21, an inner end of the main box is welded at a bottom end of the screening box, an inner end of the main rod 24, an inner end of the main rod is welded at a bottom end of the main rod 24, and a slant support box is fixed to an output end of the main rod 24, and a main rod is connected to a main rod.

The utility model discloses a theory of operation is:

mineral aggregate is thrown into the inner side of the top feeding hopper 7, a water body is downwards sprayed by a spraying head 18 on the bottom surface of a supporting block 8, the sprayed water body covers the surface of the mineral aggregate, then the mineral aggregate downwards falls into the guide hopper 10 through a feeding top opening 9, the mineral aggregate falls into the position between the crushing rollers 11 under the guide of the guide hopper 10, the transmission gear 15 is driven to rotate under the rotation of the crushing motor 17, the mineral aggregate at the position between the crushing rollers 11 is crushed through the rolling action between the crushing rollers, the crushed mineral aggregate is downwards sprayed by the spraying head 18 at the top at the same time of crushing, dust diffusion cannot be formed, the crushed mineral aggregate downwards falls into the top surface of the guide inclined plate 12, the mineral aggregate downwards falls into the inner side edge of the screening outer pipe 21 from the side through hole 13 and the inclined inlet 19 under the guide of the crushing motor, the supporting middle rod 20 drives the screening outer pipe 21 to rotate under the rotation of the main motor 24, the inside crushed mineral aggregate is overturned and screened, the water body is downwards led out through the inner guide plate 23, and is discharged from the top of the screening outer pipe through the fan 22, and dried by the top box, and dried.

The above-mentioned, only be the embodiment of the preferred of the present invention, nevertheless the utility model discloses a protection scope is not limited to this, and any technical personnel familiar with this technical field is in the technical scope of the utility model discloses an according to the utility model discloses a technical scheme and utility model design in addition the replacement of equality or change, all should be covered within the protection scope of the utility model.

Claims (6)

1. The utility model provides a mineral processing equipment with high-efficient dust removal, is including handling main tank (1), its characterized in that, the even welding in bottom surface of handling main tank (1) has support bottom block (2), one side oblique welding of handling main tank (1) has discharge pipeline (3), the one end bolted connection who handles main tank (1) has fixed box (4), the top surface of handling main tank (1) has evenly seted up a logical groove (5), handle the vertical bolted connection in the one end of keeping away from fixed box (4) of main tank (1) and handle case (6), the top welding of handling case (6) has a material hopper (7), the top surface welding of top material hopper (7) has supporting shoe (8), feeding top (9) have been seted up to the top surface level of handling case (6), the inboard side horizontal welding of handling case (6) has guide hopper (10), the inboard side level of handling case (6) is pegged graft and is had crushing roller (11), the inboard side oblique guide swash plate (12) of handling case (6), the side through-hole (13) has been seted up to the side through-connection of handling case (6) the bolt cover (14) and has a bolt cover (14) and handle the side bolt cover (14) and handle the horizontal welding of case (14) and handle the side bolt cover (14) and connect the case (14) and connect the side of case (14) and connect the case (14) and handle case (14) and connect the side of handling case (14) The utility model discloses a screening machine, the inboard side bolted connection of seal box (16) has crushing motor (17), the even threaded connection in bottom surface of supporting shoe (8) has sprinkler head (18), one side of handling main tank (1) is opened to one side and is equipped with oblique import (19), the inboard side oblique plug-in of handling main tank (1) has support king-rod (20), the outside limit welding of support king-rod (20) has screening outer tube (21), the inboard top surface level even bolted connection of handling main tank (1) has fan STB (22), the inboard bottom surface oblique welding of handling main tank (1) has interior deflector (23), the inboard side bolted connection of end fixing box (4) has main motor (24).

2. The efficient dust removal ore dressing equipment according to claim 1, wherein the number of the supporting bottom blocks (2) is four, the four supporting bottom blocks (2) are respectively and fixedly arranged at four corner positions of the bottom surface of the main processing box (1), rubber plates are fixedly arranged at the bottom ends of the four supporting bottom blocks (2), a plurality of discharging pipelines (3) are arranged, one end of each discharging pipeline (3) is fixedly arranged at the position of an opening of a discharging port at the side edge of the main processing box (1) in a one-to-one correspondence manner, and the plurality of discharging pipelines (3) are arranged in a line at the position close to the bottom surface at one side edge of the main processing box (1).

3. The efficient dust removal ore dressing equipment according to claim 1, wherein the fixed box (4) is fixedly arranged at the bottom end of the center line of one end of the main processing box (1), the inside of the top through groove (5) is in communication with the inside of the main processing box (1), the bottom end of the top feeding hopper (7) is welded at the top opening end of the feeding top opening (9), and the inside of the top feeding hopper (7) is in communication with the inside of the feeding top opening (9).

4. The efficient dust removal ore dressing equipment according to claim 1, wherein the supporting blocks (8) are fastened and arranged at the top opening center line position of the top feeding hopper (7) in a U shape, the feeding top opening (9) is arranged at the top surface center line position of the treatment box (6) in a horizontal penetrating mode, the guide hopper (10) is arranged at the inner side top surface position of the treatment box (6) in a horizontal welding mode, and the crushing rollers (11) are arranged in parallel with each other.

5. The ore dressing equipment with the function of high-efficiency dust removal according to claim 1, wherein the bottom end of the inclined guide plate (12) extends downwards obliquely and is in butt joint with the bottom surface of an opening of the inclined through hole (13), the inclined through hole (13) is in butt joint with an opening end of the inclined inlet (19) far away from the inclined guide plate (12) and is in through joint with the opening end, the transmission gears (15) are respectively in one-to-one correspondence with one end shaft end position of the crushing roller (11), and the sealing box (16) is fixedly arranged on the side edge of the sleeve box (14) and is close to one end position.

6. The ore dressing equipment with high-efficiency dust removal according to claim 1, wherein the output end of the crushing motor (17) is horizontally welded and arranged at the central position of a transmission gear (15), one end of the inclined inlet (19) is obliquely and downwards butted and arranged at the opening position of one end of the screening outer pipe (21), one end of the support middle rod (20) is obliquely and downwards extended and welded and arranged at the output end position of the main motor (24), and the bottom end of the inner guide plate (23) is obliquely and downwards butted and arranged at the bottom position of one end of the discharging pipeline (3).

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