CN118594716A - Alumina raw material crushing device - Google Patents

Abstract

The invention provides an alumina raw material crushing device, which mainly relates to the technical field of alumina crushing, and comprises a machine body, wherein a motor is arranged on the machine body, a rotating shaft of the motor is connected with a cutting device, the cutting device is rotationally arranged on the machine body, a first synchronous wheel is arranged at the end part of the cutting device, two ends of a first synchronous belt are meshed with the first synchronous wheel and a second synchronous wheel, the second synchronous wheel is fixedly arranged on a power shaft, the power shaft is rotationally arranged on the machine body, a bevel gear I is arranged on the power shaft, the bevel gear I is meshed with the bevel gear II, the bevel gear II is fixedly arranged on a rotating shaft of a screw, the screw is rotationally arranged on a material conveying cylinder, the material conveying cylinder is fixedly arranged on the machine body, a filtering cylinder is arranged on the machine body, the filtering cylinder wraps the cutting device, a reversing device and a lifting device is arranged on the machine body, the reversing device is used for controlling lifting of the lifting device, a through hole device is arranged on the machine body, and the through hole device is used for dredging round holes of the filtering cylinder, and the filtering cylinder is convenient for improving the discharging efficiency of a finished product.

Description

Alumina raw material crushing device

Technical Field

The invention mainly relates to the technical field of alumina crushing, in particular to an alumina raw material crushing device.

Background

The alumina raw material just mined is relatively large and cannot be directly used, and requires additional secondary processing after being crushed by a crusher, so that the crusher is required to crush the alumina raw material.

Among the prior art, the patent application of publication number CN1089568341A discloses a superfine pulverizer for producing alumina micropowder, and the crushing sword of the device is located on the crushing dish, smashes the sword and smashes the raw materials, but the device funnel can't self-cleaning, is inconvenient for simultaneously material loading and discharge.

Disclosure of Invention

Aiming at the technical problems, the invention aims to provide an alumina raw material crushing device, a through hole device of the device dredges and cleans a filter cylinder, raw materials are put into a raw material bin to be conveniently fed, and crushed alumina raw materials are discharged by a screw rod and a material conveying cylinder.

The utility model provides an alumina raw materials reducing mechanism, includes the organism, is equipped with the motor on the organism, and the axis of rotation and the cutting device of motor are connected, and cutting device rotates to locate on the organism, and cutting device's tip is equipped with synchronous wheel one, and synchronous wheel one and synchronous wheel two meshing, synchronous wheel two are fixed to be located on the power shaft, and the power shaft rotate to locate on the organism, the power shaft on be equipped with bevel gear one, bevel gear two meshing with bevel gear two, bevel gear two are fixed to be located in the pivot of screw rod, on the screw rod rotated and locates the transmission feed cylinder, on the transmission feed cylinder is fixed to be located the organism, the organism on be equipped with the filtration drum, filtration drum parcel cutting device, the organism on be equipped with reversing device and hoisting device, reversing device be used for controlling hoisting device's lift, the organism on be equipped with the through-hole device, the through-hole device dredges the round hole of filtration drum.

Further, the reversing device comprises a first driving gear and a second driving gear, the first driving gear and the second driving gear are sequentially arranged on a power shaft, the first driving gear is meshed with a double gear set, the second driving gear is meshed with an intermediate gear, the intermediate gear and the double gear set are rotationally arranged on a machine body, a driven gear is slidingly arranged on an input rotating shaft, the input rotating shaft is rotationally arranged on the machine body, a push plate is slidingly arranged on the machine body, two ends of a first spring are respectively connected with the push plate and the machine body, the push plate contacts the driven gear, the first spring is fixedly arranged on the machine body, a round push cylinder is arranged on a telescopic shaft of the first spring, the round push cylinder is inserted into the input rotating shaft, and the round push cylinder contacts the driven gear.

Further, hoisting device include the synchronizing wheel three, the synchronizing wheel three has two, the synchronizing wheel is three fixed to be located in the input pivot, the hold-in range is two simultaneously with synchronizing wheel three with synchronizing wheel four meshing, synchronizing wheel four is fixed to be located on the synchronizing shaft, the synchronizing shaft rotates to locate on the organism, the hold-in range is two to be connected with translation clamp plate, translation clamp plate and telescoping device's lower translation end rotate to be connected, telescoping device's lower rotating end rotates to locate on the organism, telescoping device's upper rotating end rotates to locate on the lifter plate, telescoping device's upper translation end slides and locates on the lifter plate.

Further, the lifting plate is rotatably provided with a raw material bin and an L-shaped rod, and a transverse straight plate is arranged on a rotating shaft of the raw material bin.

Further, organism upper shed department rotate and be equipped with flip, the both ends of connecting rod are connected with the one end rotation of flip's middle part and bull stick respectively, and the other end rotation of bull stick is located on the organism, L type pole be used for promoting the bull stick and rotate, the organism on be equipped with the fender platform, the fender platform is used for blockking horizontal straight board.

Further, the through hole device include the outsourcing board, locate on the organism of outsourcing board, and the outsourcing board is located the outside of filtering the drum, the below of outsourcing board is equipped with the round hole, the round hole of outsourcing board is used for the ejection of compact, the feed port of passing the feed cylinder is aimed at to the ejection of compact hole of outsourcing board.

Further, the outer wrapper sheet on slide in proper order and be equipped with the through-hole row pole, the through-hole row pole the figure with filter the barrel on the through-hole row the number unanimous, the through-hole row pole is used for dredging the round hole of filtering the barrel, the carousel has two, the carousel rotates the both sides of locating the organism, has a plurality of circular arc grooves on the carousel, the circular arc groove of carousel forms sliding fit with the both ends of through-hole row pole.

Further, the rotary table is rotationally provided with a power rotary rod, two ends of the second spring are respectively connected with the power rotary rod and the rotary table, the rotary table is provided with a blocking table, the blocking table is in contact with the power rotary rod, and the blocking table prevents the power rotary rod from rotating clockwise.

Further, a pull rod is rotatably arranged on the turntable and penetrates through the slotted hole of the pull rod table, and two ends of the spring III are respectively connected with the pull rod and the pull rod table.

Compared with the prior art, the invention has the beneficial effects that: (1) The raw material bin is used for loading the alumina raw material, is transported from a low position to a high position, is turned over and opened automatically, simultaneously, is rotated automatically, and is transported into a machine body for cutting, so that the feeding is simple, the raw material is not required to be lifted by manpower, and then is added into the machine body; (2) According to the dredging device, when the raw material bin ascends and feeds materials each time, the power rotating rod and the rotating disc are automatically stirred to rotate, the through hole bar is driven to move, the filtering and cleaning of the filtering cylinder are completed, and the discharging efficiency of a finished product is conveniently improved; (3) The invention is provided with a filter cylinder, a cutting device cuts and pulverizes alumina raw materials, when the size of alumina is smaller than the size of a round hole of the filter cylinder, the pulverized alumina falls into an inlet of a material conveying cylinder from the round hole of the filter cylinder, particles with the required size are produced, and a screw is used for conveying out finished products.

Drawings

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

Fig. 2 is a schematic view of the whole structure of the lifting device when the lifting device is lifted.

Fig. 3 is a partial enlarged view of fig. 2 at a.

Fig. 4 is a schematic view of the overall bottom structure of the present invention.

Fig. 5 is a partial enlarged view at B in fig. 4.

Fig. 6 is a partial enlarged view of fig. 4 at C.

FIG. 7 shows the present invention the machine body structure is schematically shown.

Fig. 8 is a partial enlarged view at D in fig. 7.

Fig. 9 is a schematic view of a lifting device according to the present invention.

Fig. 10 is a schematic view of a flip mounting structure of the present invention.

Fig. 11 is a schematic view of the mounting structure of the cladding plate of the present invention.

Fig. 12 is a schematic view of a turntable mounting structure according to the present invention.

Fig. 13 is a partial enlarged view of fig. 12 at E.

Reference numerals: 1-a machine body; 2-an electric motor; 3-a cutting device; 4-synchronizing wheel one; 5-synchronizing wheel II; 6-synchronous belt I; 7-a power shaft; 8-a first bevel gear; 9-a bevel gear II; 10-screw rod; 11-a material conveying cylinder; 12-a filter cylinder; 13-first drive gear; 14-a second driving gear; 15-an intermediate gear; 16-double gear set; 17-driven gear; 18-inputting a rotating shaft; 19-a push plate; 20-a guide rod; 21-spring one; 22-a hydraulic rod; 23-a round pushing cylinder; 24-synchronizing wheel III; 25-synchronizing wheel IV; 26-synchronizing shaft; 27-a second synchronous belt; 28-translating the platen; 29-telescoping device; 30-lifting plates; 31-a raw material bin; a 32-L shaped rod; 33-a transverse straight plate; 34-turning rod; 35-connecting rod; 36-flip cover; 37-baffle; 38-wrapping plates; 39-through hole row bars; 40-rotating disc; 41-a power rotating rod; 42-spring II; 43-a blocking table; 44-tie rod; 45-spring III; 46-a pull rod table.

Detailed Description

The invention is further described below in connection with specific embodiments, which are presented by way of illustration of exemplary embodiments of the invention and illustration of the invention, but not by way of limitation.

Example 1: as shown in fig. 1 to 13, an alumina raw material crushing device comprises a machine body 1, a motor 2 is arranged on the machine body 1, a rotating shaft of the motor 2 is connected with a cutting device 3, the cutting device 3 is rotationally arranged on the machine body 1, a synchronous wheel one 4 is arranged at the end part of the cutting device 3, two ends of a synchronous belt one 6 are meshed with the synchronous wheel one 4 and the synchronous wheel two 5, the synchronous wheel two 5 is fixedly arranged on a power shaft 7, the power shaft 7 is rotationally arranged on the machine body 1, a bevel gear one 8 is arranged on the power shaft 7, the bevel gear one 8 is meshed with the bevel gear two 9, the bevel gear two 9 is fixedly arranged on a rotating shaft of a screw 10, the screw 10 is rotationally arranged on a feed cylinder 11, the feed cylinder 11 is fixedly arranged on the machine body 1, a filter cylinder 12 is arranged on the machine body 1, the filter cylinder 12 wraps the cutting device 3, a reversing device and a lifting device is arranged on the machine body 1, the reversing device is used for controlling lifting of the lifting device, a through hole device is arranged on the machine body 1, and a round hole of the filter cylinder 12 is dredged.

Specifically, the motor 2 drives the cutting device 3 to rotate, the cutting device 3 pulverizes alumina raw materials, and when the size of the pulverized raw materials is smaller than that of the round hole of the filter cylinder 12, the pulverized raw materials fall out through the round hole of the filter cylinder 12 and enter the material conveying cylinder 11 from the round hole below the baffle 37; the cutting device 3 drives the first synchronizing wheel 4 to rotate, power is transmitted through the first synchronizing belt 6 and the second synchronizing wheel 5, the power shaft 7 rotates, power is transmitted through the first bevel gear 8 and the second bevel gear 9, the screw 10 rotates in the material transmission barrel 11, and the material transmission barrel 11 conveys crushed raw materials out of an outlet of the material transmission barrel 11.

The reversing device comprises a first driving gear 13 and a second driving gear 14, the first driving gear 13 and the second driving gear 14 are sequentially arranged on a power shaft 7, the first driving gear 13 is meshed with a double gear set 16, the second driving gear 14 is meshed with an intermediate gear 15, the intermediate gear 15 and the double gear set 16 are rotationally arranged on a machine body 1, a driven gear 17 is slidingly arranged on an input rotating shaft 18, the input rotating shaft 18 is rotationally arranged on the machine body 1, a push plate 19 is slidingly arranged on the machine body 1, two ends of a first spring 21 are respectively connected with the push plate 19 and the machine body 1, the push plate 19 contacts the driven gear 17, the first spring 21 is fixedly arranged on the machine body 1, a telescopic shaft of the first spring 21 is provided with a circular push cylinder 23, the circular push cylinder 23 is inserted into the input rotating shaft 18, and the circular push cylinder 23 contacts the driven gear 17.

Specifically, the power shaft 7 drives the first driving gear 13 and the second driving gear 14 to rotate, the first driving gear 13 and the second driving gear 14 respectively drive the double gear set 16 and the intermediate gear 15 to rotate, and the output directions of the double gear set 16 and the intermediate gear 15 are opposite; when the telescopic shaft of the hydraulic rod 22 is in the middle position, the driven gear 17 is not meshed with the double gear set 16 and the intermediate gear 15, and the driven gear 17 does not rotate; when the telescopic shaft of the hydraulic rod 22 extends, the round push cylinder 23 presses, the driven gear 17 is meshed with the double gear set 16, and the driven gear 17 rotates positively; when the telescopic shaft of the hydraulic rod 22 is retracted, the first spring 21 pushes the push plate 19 to move towards the hydraulic rod 22, the push plate 19 pushes the driven gear 17 to be meshed with the intermediate gear 15, and the driven gear 17 is reversed; the driven gear 17 drives the input rotary shaft 18 and the synchronizing wheel three 24 to rotate.

The lifting device comprises a third synchronizing wheel 24, two third synchronizing wheels 24 are fixedly arranged on the input rotating shaft 18, a second synchronizing belt 27 is meshed with a fourth synchronizing wheel 25 simultaneously with the third synchronizing wheel 24, the fourth synchronizing wheel 25 is fixedly arranged on a synchronizing shaft 26, the synchronizing shaft 26 is rotationally arranged on the machine body 1, the second synchronizing belt 27 is connected with a translational pressing plate 28, the translational pressing plate 28 is rotationally connected with a lower translational end of a telescopic device 29, the lower rotational end of the telescopic device 29 is rotationally arranged on the machine body 1, an upper rotational end of the telescopic device 29 is rotationally arranged on a lifting plate 30, and an upper translational end of the telescopic device 29 is slidingly arranged on the lifting plate 30.

Wherein, telescoping device 29 has the link plate to cross in proper order and rotates the connection and form, and two connecting rods of telescoping device 29 lower extreme correspond translation end and lower rotation end respectively, and two connecting rods of telescoping device 29 upper end correspond translation end and upper rotation end respectively, and when translation end was close to the rotation end, telescoping device 29 extended, and when translation end kept away from the rotation end, telescoping device 29 shortened.

Specifically, the third synchronizing wheel 24 drives the second synchronizing belt 27 to rotate, and the second synchronizing belt 27 drives the translation pressing plate 28 to translate, so as to control the extension and shortening of the telescopic device 29.

The lifting plate 30 is rotatably provided with a raw material bin 31 and an L-shaped rod 32, and a transverse straight plate 33 is arranged on a rotating shaft of the raw material bin 31.

The upper opening of the machine body 1 is rotationally provided with a flip cover 36, two ends of a connecting rod 35 are respectively rotationally connected with the middle part of the flip cover 36 and one end of a rotating rod 34, the other end of the rotating rod 34 is rotationally arranged on the machine body 1, an L-shaped rod 32 is used for pushing the rotating rod 34 to rotate, a baffle 37 is arranged on the machine body 1, and the baffle 37 is used for blocking the transverse straight plate 33.

Specifically, the expansion device 29 stretches to drive the lifting plate 30 to lift, the lifting plate 30 drives the raw material bin 31, the L-shaped rod 32 and the transverse straight plate 33 to lift, when the lifting plate rises to the top, the L-shaped rod 32 touches the rotating rod 34, the rotating rod 34 rotates, power is transmitted through the connecting rod 35, the flip cover 36 rotates to be opened, the flip cover 36 and the machine body 1 form an opening, the transverse straight plate 33 contacts the baffle 37, the lifting plate 30 continuously lifts, the baffle 37 rotates the transverse straight plate 33 and synchronously drives the raw material bin 31 to rotate, and raw materials of the raw material bin 31 are poured into the opening.

The through hole device comprises an outer wrapping plate 38, the outer wrapping plate 38 is arranged on the machine body 1, the outer wrapping plate 38 is positioned on the outer side of the filter cylinder 12, a round hole is formed in the lower portion of the outer wrapping plate 38, the round hole of the outer wrapping plate 38 is used for discharging, and a discharging hole of the outer wrapping plate 38 is aligned with a feeding hole of the feed cylinder 11.

The outer wrapping plate 38 is sequentially provided with through hole row bars 39 in a sliding manner, the number of the through hole row bars 39 is consistent with that of the through holes on the filter cylinder 12, the through hole row bars 39 are used for dredging round holes of the filter cylinder 12, two turntables 40 are arranged on the two sides of the machine body 1 in a rotating manner, the turntables 40 are provided with a plurality of circular arc grooves, and the circular arc grooves of the turntables 40 are in sliding fit with the two ends of the through hole row bars 39.

The rotary table 40 is rotatably provided with a power rotary rod 41, two ends of a second spring 42 are respectively connected with the power rotary rod 41 and the rotary table 40, the rotary table 40 is provided with a blocking table 43, the blocking table 43 is in contact with the power rotary rod 41, and the blocking table 43 prevents the power rotary rod 41 from rotating clockwise.

The turntable 40 is rotatably provided with a pull rod 44, the pull rod 44 penetrates through a slot hole of a pull rod table 46, and two ends of a spring III 45 are respectively connected with the pull rod 44 and the pull rod table 46.

Specifically, the expansion device 29 drives the horizontal and vertical plate 33 to rise in the extending process, the horizontal and vertical plate 33 contacts the power rotating rod 41 when passing through the power rotating rod 41, the power rotating rod 41 drives the rotating disc 40 to rotate due to the blocking table 43 preventing the power rotating rod 41 from rotating, the circular arc groove of the rotating disc 40 drives the through hole row rod 39 to slide on the outer cover plate 38, the through hole row rod 39 is inserted into the through hole of the filter cylinder 12 to dredge the filter cylinder 12, the next crushing and filtering are facilitated, and after the horizontal and vertical plate 33 passes through the power rotating rod 41, the spring III 45 provides power to enable the rotating disc 40 to rotate reversely, and the rotating disc 40 is restored to the original state; in the shortening process of the telescopic device 29, the transverse and straight plate 33 descends, when the transverse and straight plate 33 passes through the power rotating rod 41, the transverse and straight plate 33 drives the power rotating rod 41 to rotate, the second spring 42 compresses, and when the transverse and straight plate 33 passes through the power rotating rod 41, the second spring 42 provides power to enable the power rotating rod 41 to touch the blocking table 43 again.

Working principle: when the raw material bin 31 is in a low position, alumina raw materials are put into the raw material bin 31, the motor 2 is started, meanwhile, the telescopic shaft of the hydraulic rod 22 is extended, the motor 2 drives the cutting device 3 to rotate, the cutting device 3 drives the synchronous wheel I4 to rotate, power is transmitted through the synchronous belt I6 and the synchronous wheel II 5 to enable the power shaft 7 to rotate, the power shaft 7 drives the driving gear I13 to rotate, the driving gear I13 drives the double gear set 16 to rotate, the driven gear 17 is meshed with the double gear set 16 like the driven gear 17 pressed by the round push cylinder 23, the driven gear 17 rotates positively, and the driven gear 17 drives the input rotating shaft 18 and the synchronous wheel III 24 to rotate.

The third synchronous wheel 24 drives the second synchronous belt 27 to rotate, the second synchronous belt 27 drives the translation pressing plate 28 to translate, the telescopic device 29 is extended, the lifting plate 30 is driven to lift, the lifting plate 30 drives the raw material bin 31, the L-shaped rod 32 and the transverse straight plate 33 to lift, the transverse straight plate 33 contacts the power rotating rod 41 when passing through the power rotating rod 41, the power rotating rod 41 drives the rotating disc 40 to rotate due to the blocking table 43 preventing the power rotating rod 41 from rotating, the circular arc groove of the rotating disc 40 drives the through hole row rod 39 to slide on the outer cover plate 38, the through hole row rod 39 is inserted into a through hole of the filtering cylinder 12 to dredge the filtering cylinder 12, the next crushing and filtering are facilitated, and when the transverse straight plate 33 passes through the power rotating rod 41, the third spring 45 provides power to enable the rotating disc 40 to reversely rotate, and the rotating disc 40 is restored to an original state.

The expansion device 29 continues to extend, when the lifting plate 30 rises to the top, the L-shaped rod 32 touches the rotating rod 34, so that the rotating rod 34 rotates, power is transmitted through the connecting rod 35, the flip 36 rotates to be opened, the flip 36 and the machine body 1 form an opening, the transverse straight plate 33 contacts the baffle 37, the lifting plate 30 continuously rises, the baffle 37 rotates the transverse straight plate 33, the raw material bin 31 is synchronously driven to rotate, and raw material of the raw material bin 31 is poured into the opening.

The telescopic shaft of the hydraulic rod 22 is retracted, the first spring 21 pushes the push plate 19 to move towards the hydraulic rod 22, the push plate 19 pushes the driven gear 17 to be meshed with the intermediate gear 15, the driven gear 17 is reversed, the telescopic device 29 is shortened by the same principle, the raw material bin 31 is rotated to be in a horizontal state again due to gravity, the transverse straight plate 33 descends, the transverse straight plate 33 drives the power rotating rod 41 to rotate when passing through the power rotating rod 41, the second spring 42 is compressed, and after the transverse straight plate 33 passes through the power rotating rod 41, the second spring 42 provides power to enable the power rotating rod 41 to touch the blocking table 43 again.

When the lifting plate 30 descends to the bottom, the telescopic shaft of the hydraulic rod 22 stretches to the middle position, the driven gear 17 is not meshed with the double gear set 16 and the intermediate gear 15, the driven gear 17 does not rotate, the lifting plate 30 does not move any more, the motor 2 continuously runs, the cutting device 3 pulverizes alumina raw materials, when the size of the pulverized raw materials is smaller than that of a round hole of the filter cylinder 12, the pulverized raw materials fall out through the round hole of the filter cylinder 12, particles with the required size are produced, and the particles enter the feed cylinder 11 from the round hole below the baffle 37; and then the first bevel gear 8 and the second bevel gear 9 transmit power to enable the screw 10 to rotate in the material conveying cylinder 11, and the material conveying cylinder 11 conveys crushed raw materials out of an outlet of the material conveying cylinder 11.

The invention is applicable to the prior art where it is not described.

Claims (9)

1. An alumina raw material crushing device is characterized in that: including organism (1), be equipped with motor (2) on organism (1), the axis of rotation and cutting device (3) of motor (2) are connected, and cutting device (3) rotate and locate on organism (1), and the tip of cutting device (3) is equipped with synchronizing wheel one (4), and the both ends and synchronizing wheel one (4) and synchronizing wheel two (5) meshing of synchronizing wheel one (6), synchronizing wheel two (5) are fixed to be located on power shaft (7), and power shaft (7) rotate and locate on organism (1), power shaft (7) on be equipped with bevel gear one (8), bevel gear one (8) and bevel gear two (9) meshing, bevel gear two (9) are fixed locate in the pivot of screw rod (10), on screw rod (10) rotate and locate on material transmission cylinder (11), material transmission cylinder (11) are fixed to be located on organism (1), organism (1) on be equipped with filter cylinder (12), filter cylinder (12) parcel cutting device (3), organism (1) on be equipped with reversing device and hoisting device for controlling hoisting device on the elevating gear and be equipped with the through-hole (12) on the organism, dredging device.

2. An alumina raw material pulverizing apparatus according to claim 1, wherein: the reversing device comprises a first driving gear (13) and a second driving gear (14), the first driving gear (13) and the second driving gear (14) are sequentially arranged on a power shaft (7), the first driving gear (13) is meshed with a double gear set (16), the second driving gear (14) is meshed with an intermediate gear (15), the intermediate gear (15) and the double gear set (16) are rotationally arranged on a machine body (1), a driven gear (17) is slidingly arranged on an input rotating shaft (18), the input rotating shaft (18) is rotationally arranged on the machine body (1), a push plate (19) is slidingly arranged on the machine body (1), two ends of a first spring (21) are respectively connected with the push plate (19) and the machine body (1), the push plate (19) is in contact with a driven gear (17), the first spring (21) is fixedly arranged on the machine body (1), a telescopic shaft of the first spring (21) is provided with a round push cylinder (23), the round push cylinder (23) is inserted into the input rotating shaft (18), and the round push cylinder (23) is in contact with the driven gear (17).

3. An alumina raw material pulverizing apparatus according to claim 2, wherein: the lifting device comprises a synchronous wheel III (24), the synchronous wheel III (24) is two, the synchronous wheel III (24) is fixedly arranged on the input rotating shaft (18), a synchronous belt II (27) is meshed with a synchronous wheel III (24) and a synchronous wheel IV (25) simultaneously, the synchronous wheel IV (25) is fixedly arranged on a synchronous shaft (26), the synchronous shaft (26) is rotationally arranged on the machine body (1), the synchronous belt II (27) is connected with a translational pressing plate (28), the translational pressing plate (28) is rotationally connected with the lower translational end of the telescopic device (29), the lower rotational end of the telescopic device (29) is rotationally arranged on the machine body (1), the upper rotational end of the telescopic device (29) is rotationally arranged on the lifting plate (30), and the upper translational end of the telescopic device (29) is slidingly arranged on the lifting plate (30).

4. An alumina raw material pulverizing apparatus according to claim 3, wherein: the lifting plate (30) is rotatably provided with a raw material bin (31) and an L-shaped rod (32), and a transverse plate (33) is arranged on a rotating shaft of the raw material bin (31).

5. An alumina raw material pulverizing apparatus according to claim 4, wherein: the utility model discloses a machine body (1) upper shed department rotate and be equipped with flip (36), the both ends of connecting rod (35) rotate with the middle part of flip (36) and the one end of bull stick (34) respectively and be connected, the other end of bull stick (34) rotates to locate on machine body (1), L type pole (32) be used for promoting bull stick (34) rotation, machine body (1) on be equipped with fender platform (37), fender platform (37) are used for blockking horizontal straight board (33).

6. An alumina raw material pulverizing apparatus according to claim 5, wherein: the through hole device comprises an outer wrapping plate (38), the outer wrapping plate (38) is arranged on the machine body (1), the outer wrapping plate (38) is located on the outer side of the filtering cylinder (12), a round hole is formed in the lower portion of the outer wrapping plate (38), the round hole of the outer wrapping plate (38) is used for discharging, and a discharging hole of the outer wrapping plate (38) is aligned with a feeding hole of the feeding cylinder (11).

7. An alumina raw material pulverizing apparatus according to claim 6, wherein: the outer cover plate (38) on slide in proper order and be equipped with through-hole row pole (39), the quantity that through-hole row pole (39) was arranged the same with the through-hole row number on filtering drum (12), through-hole row pole (39) are used for dredging the round hole of filtering drum (12), carousel (40) have two, carousel (40) rotate the both sides of locating organism (1), have a plurality of circular arc grooves on carousel (40), the circular arc groove of carousel (40) forms sliding fit with the both ends of through-hole row pole (39).

8. An alumina raw material pulverizing apparatus according to claim 7, wherein: the rotary table (40) is rotationally provided with a power rotary rod (41), two ends of a spring II (42) are respectively connected with the power rotary rod (41) and the rotary table (40), the rotary table (40) is provided with a blocking table (43), the blocking table (43) is in contact with the power rotary rod (41), and the blocking table (43) prevents the power rotary rod (41) from rotating clockwise.

9. An alumina raw material pulverizing apparatus according to claim 8, wherein: the rotary table (40) is rotatably provided with a pull rod (44), the pull rod (44) penetrates through a slotted hole of the pull rod table (46), and two ends of the spring III (45) are respectively connected with the pull rod (44) and the pull rod table (46).