CN117483040A - Lepidolite flotation device - Google Patents

Abstract

The invention relates to the technical field of lepidolite ore processing, in particular to a lepidolite flotation device. The invention provides a lepidolite flotation device which comprises a base and a landslide, wherein two ends of one side of the lower part of the base are respectively provided with a discharge hole, the inner side of one side of the base, which is close to the discharge holes, is provided with a floating groove, the landslide is communicated with a feed inlet of the floating groove, and the upper part of one side of the base is connected with a first motor. Double-layer crushing is carried out on the lepidolite ore through the first crushing roller and the second crushing roller, so that the lepidolite ore is crushed into the same size, and the crushing effect is improved by utilizing the mutual cooperation of the first crushing roller and the second crushing roller.

Description

Lepidolite flotation device

Technical Field

The invention relates to the technical field of lepidolite ore processing, in particular to a lepidolite flotation device.

Background

Patent application number 202320817151.0, patent name a flotation device for lepidolite ore purification, including the flotation tank, the equal fixedly connected with seal box in both sides of flotation tank inner wall, the inside of seal box is provided with the cylinder, the output of cylinder is provided with the push rod, the one end fixedly connected with connecting plate of push rod, the inside fixedly connected with waterproof box of connecting plate, the inside of waterproof box is provided with the motor, the output fixedly connected with drive shaft of motor.

However, the existing flotation device realizes single function, the fixed stirring roller is arranged in the device, but the fixed stirring roller cannot repeatedly move in the floating cavity to stir back and forth, so that medicines in the floating cavity cannot be uniformly mixed, the performance of floating foam generation is poor, and further the working efficiency is reduced.

Disclosure of Invention

In order to overcome current flotation device realization function comparatively singlely, the inside fixed stirring roller that is equipped with of device, but because fixed stirring roller, can't make a round trip to stir at the intracavity of floating repeatedly, this point leads to the medicament in the cavity of floating can not misce bene, also consequently the performance that the foam produced is relatively poor, and then reduce work efficiency, and current device when pushing away the material, can glue the foam on the pushing plate, lead to the foam to glue on the pushing plate, inconvenient clearance's shortcoming, technical problem is: a lepidolite flotation apparatus is provided.

The technical proposal is as follows: the lepidolite flotation device comprises a base and a landslide, wherein the upper part of the inner side of the base is provided with the landslide, two ends of one side of the lower part of the base are provided with discharge holes, the inner side of one side of the base, which is close to the discharge holes, is provided with a floatation groove, the landslide is communicated with a feed inlet of the floatation groove, and the upper part of one side of the base is connected with a first motor;

the motor one side is connected with the rotation axis, be connected with first movable belt on the rotation axis, be close to first movable belt one side on the rotation axis and be connected with the second movable belt, rotation axis end-to-end connection has first crushing roller, the rotation axis other end is kept away from to first crushing roller is connected with the left disc, left disc circumference outside is connected with the right disc, be connected with the third movable belt on the right disc, the rotation axis other end is kept away from to first movable belt is connected with the movable disc, be connected with down the depression bar on the movable disc, lower depression bar end-to-end connection has the briquetting, lower briquetting lower part one side is connected with the drive pole, the drive pole both sides all are connected with the drive rack, the drive pole is kept away from drive rack opposite side lower part and is connected with the depression bar, the frame is installed and is connected with the frame outside, the frame inboard has been seted up the piece spout, the frame both sides all are connected with the pressure spout, the inboard is equipped with spring assembly of pressure spout, the inboard upper portion of pressure spout installs and is connected with the briquetting, the briquetting top is connected with the roof, hinged joint has the drive plate on the briquetting, drive plate end hinged joint has the upset board, drive plate and movable disc's shell one side through hinged joint, drive rack one side is connected with the drive gear, drive gear is connected with the fourth movable belt, the other end, the drive gear is connected with the fourth movable belt, the rotation is kept away from the second movable belt, the roll is connected with the broken roll and is connected with the roll, the roll connecting the outside, the side is connected with the broken roll, the roll.

Further, a one-way bearing is arranged on the shaft lever of the rolling disc, so that the rolling disc can be driven to rotate by the forward rotation of the third movable belt; otherwise, the third movable belt rotates reversely, so that the rolling disc is not driven to rotate.

Further, the second movable belt is far away from the other end of the rotating shaft and is connected with a roller, an annular groove is arranged on the outer wall of the roller, one side, close to the semicircular disc, of the roller is provided with a supporting seat, a plate sliding groove is arranged on the supporting seat, one side of the plate sliding groove is connected with a rack plate, a plate sliding block is arranged below the supporting seat and is inlaid in the plate sliding groove to slide back and forth, a rod is connected to the plate sliding block and is inlaid in the annular groove, one side of the plate sliding block is connected with a side plate, the other end, far away from the side plate, of the plate sliding block is connected with a movable plate, a cavity at the lower part of the rod is internally connected with a first inner rotating block, the bottom of the first inner rotating block is connected with a rotating inner rod, a plurality of fan blades are connected with an exhaust plate at the bottom of the rotating inner rod, a rotating cylinder is connected with the outer side of the circumference of the rotating inner rod, a stirring rod is connected with the outer circumference of the lower part of the rotating cylinder, the outer side of the circumference of the lower part of the rotating cylinder is connected with a clamping ring, the lower part of the inner wall of the circumference of the rotating cylinder is connected with a unidirectional turntable, the unidirectional turntable is connected with the lower part of the rotating inner rod through a unidirectional bearing, the upper part of the inner side of the rotating cylinder is connected with an upper cylinder, the circumference of the upper cylinder is connected with a plurality of air inlet pipes, an outer ring is arranged and connected on the upper cylinder near the lower part of the air inlet pipes, both sides of the outer ring are connected with pushing plates, the circumference of the air exhaust plate is connected with an air exhaust plate, the top of the air exhaust plate is connected with a clamping ring, the clamping ring is embedded in the clamping ring of the lower part of the rotating cylinder, the circumference of the air exhaust plate is provided with a plurality of air exhaust holes, the circumference outer wall of the air exhaust plate is connected with a bottom stirring plate, one side of the bottom stirring plate is connected with a second inner rotating block, the other end of the bottom stirring plate far away from the second inner rotating block is connected with a roller, the circumference of the roller is connected with a long plate, the upper part of the movable plate is connected with a driving ring, one side of the driving ring is connected with a pinion, the circumference outside of the pinion is connected with a lower rack, the top of the lower rack is connected with an opening and closing plate, and the outside of the opening and closing plate is connected with a storage box.

Further, the half-discs of the roller are connected through a one-way bearing, so that the roller can drive the rotating edges of the half-discs to rub against the edges of the rotating discs when rotating positively; otherwise, the roller is not rubbed by the edge of the rotating disk when rotating reversely.

Further, the semicircle disc circumference outside is connected with the rotary disk, and rotary disk one side is connected with the pulling rod, and the pulling rod bottom is connected with the connecting plate, and the connecting plate bottom is connected with the otter board, has seted up the opening in the middle of the otter board, and the base both ends are close to the mounting of discharge gate below and are connected with the bin, and base lower part both sides are connected with the water tank, and the water tank top is connected with the suction pump, and the suction pump top is connected with the water pipe, and water pipe end-to-end connection has the flow distribution plate.

Further, the bottom of the inner side of the storage tank is provided with a filter screen.

The beneficial effects of the invention are as follows: 1. double-layer crushing is carried out on the lepidolite ore through the first crushing roller and the second crushing roller, so that the lepidolite ore is crushed into the same size, and the crushing effect is improved by utilizing the mutual cooperation of the first crushing roller and the second crushing roller.

2. Through puddler and end stirring board mutually supporting for the medicament fully stirs and produces sufficient foam, has still improved work efficiency when having improved the effect of flotation.

3. The embedded rod is driven to move along the screen plate in a repeated mode through the forward rotation of the roller, the upper cylinder and the pushing plate are driven to move along the screen plate, lepidolite is lifted out of the concentrate and pushed out from the discharge holes on two sides of the base, the concentrate and the pushing plate are washed by a water source, foam is prevented from adhering to the surfaces of the concentrate and the pushing plate, and the subsequent treatment is inconvenient.

Drawings

Fig. 1 is a schematic perspective view of the device of the present invention.

Fig. 2 is a schematic plan view of the device of the present invention.

Fig. 3 is a schematic perspective view of a crushing assembly according to the present invention.

Fig. 4 is a schematic diagram showing the exploded perspective structure of the movable plate, the pressing block and the outer shell of the invention.

Fig. 5 is an exploded perspective view of the connecting ring and the breaking tank of the present invention.

FIG. 6 is a schematic perspective view of a premix agitation assembly and a discharge assembly according to the present invention.

FIG. 7 is an exploded perspective view of the premix agitation assembly of the present invention.

FIG. 8 is an exploded perspective view of the premix agitation assembly of the present invention.

Fig. 9 is an exploded perspective view of the storage box according to the present invention.

Fig. 10 is an exploded perspective view of the discharge assembly of the present invention.

Part names and serial numbers in the figure: 1_base, 101_landslide, 102_discharge port, 103_float bath, 2_break assembly, 21_motor, 2101_rotary shaft, 2102_first movable belt, 2103_second movable belt, 22_first break roller, 2201_left disk, 2202_right disk, 2203_third movable belt, 2204_roller, 23_movable disk, 2301_hold down bar, 2302_hold down bar, 2303_drive bar, 2304_drive rack, 2305_press plate, 24_outer frame, 2401_block chute, 2402_press plate, 2403_spring assembly, 25_press plate, 2501_top plate, 2502_drive plate, 2503_turn plate, 26_drive gear, 2601_fourth movable belt, 2602_second break roller, 27_link, 2701_rotary baffle, 28_break bath, 2801_feed port, 3_premix agitation assembly, 31_drum, 3101_disc, 3102_half, 31032_support seat, 3201_plate runner, 3202_rack plate, 33_rod, 3301_plate slide, 3302_side plate, 3303_movable plate, 34_rotary inner rod, 3401_first inner rotary block, 3402_rotary gear, 3403_vane, 3404_exhaust plate, 35_upper cylinder, 3501_intake pipe, 3502_outer ring, 3503_push plate, 36_rotary cylinder, 3601_stirring rod, 3602_clamp ring, 3603-unidirectional turntable, 37_exhaust disk, 3701_clamp ring, 3702_exhaust hole, 38_bottom stirring plate, 3801_second inner rotary block, 3802_roller, 3803_long plate, 39_storage box, 3901_opening plate, 3902_lower rack, 3903_pinion, 3904_belt ring, 4_discharge assembly, 41_rotary disk, 42_pull rod, 43_mesh plate, 4302_opening, 44_storage tank, 45_water tank, 46_water pump, 47_water pipe, 48_split flow plate.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

As shown in fig. 1-5, a lepidolite flotation device comprises a base 1 and a landslide 101, wherein the landslide 101 is arranged at the upper part of the inner side of the base 1, discharge holes 102 are arranged at two ends of one side of the lower part of the base 1, a floating groove 103 is arranged at the inner side of one side of the base 1, which is close to the discharge holes 102, the landslide 101 is communicated with a feed inlet of the floating groove 103, and a first motor 21 is connected to the upper part of one side of the base 1;

the crushing assembly 2 comprises a motor 21, a rotary shaft 2101 is connected to one side of the motor 21, a first movable belt 2102 is connected to the rotary shaft 2101, a second movable belt 2103 is connected to one side of the rotary shaft 2101, close to the first movable belt 2102, of the rotary shaft 2101, a first crushing roller 22 is connected to the end of the rotary shaft 2101, a left disc 2201 is connected to the other end, far away from the rotary shaft 2101, of the first crushing roller 22, a right disc 2202 is connected to the outer side, far away from the left disc 2201, of the left disc 2202, a third movable belt 2203 is connected to the right disc 2202, a movable disc 23 is connected to the other end, far away from the rotary shaft 2101, of the first movable belt 2102, a lower pressing rod 2301 is connected to the movable disc 23, a lower pressing rod 2302 is connected to the end of the lower pressing rod 2301, a driving rod 2303 is connected to one side of the lower portion of the lower pressing rod 2302, driving racks 2304 are connected to the lower portion, far away from the driving racks 2304, pressing plates 2305 are connected to the lower portion of the other side of the driving rods 2302, a block chute 2401 is arranged on the inner side of the outer frame 24, pressing chutes 2402 are connected on both sides of the outer frame 24, a spring assembly 2403 is arranged on the inner side of the pressing chutes 2402, a pressing block 25 is arranged on the upper part of the inner side of the pressing chutes 2402, a top plate 2501 is connected on the top of the pressing block 25, a driving plate 2502 is hinged on the pressing block 25, a turnover plate 2503 is hinged on the tail end of the driving plate 2502, the turnover plate 2503 is hinged on one side of the shell of the movable disc 23, a driving gear 26 is connected on one side of the driving rack 2304, a fourth movable belt 2601 is connected on the driving gear 26, a second crushing roller 2602 is connected on the other end of the fourth movable belt 2601 far from the driving gear 26, a rolling disc 2204 is connected on the other end of the third movable belt 2203 far from the right disc 2202 through a one-way bearing, a connecting ring 27 is connected on the circumference outer side of the rolling disc 2204, a rotary baffle 2701 is connected on the connecting ring 27, a crushing groove 28 is arranged under the rotary baffle 2701, a feed opening 2801 is formed below the crushing tank 28.

The shaft lever of the rolling disc 2204 is provided with a one-way bearing, so that the third movable belt 2203 can drive the rolling disc 2204 to rotate when rotating forwards; conversely, the third movable belt 2203 does not rotate the drum 2204 when it is reversed. Firstly, a user inputs lepidolite ore from a top inlet, a rotating shaft 2101 and a first movable belt 2102 are driven to rotate by a motor 21, so that the rotating shaft 2101 rotates to drive a first crushing roller 22 and a left disc 2201 to rotate together, the edges of the left disc 2201 and the right disc 2202 are mutually rubbed, the two crushing rollers are further driven to rotate in the same direction to crush the lepidolite ore for the first time, the crushed lepidolite ore flows into the top of a turnover plate 2503, the right disc 2202 rotates and simultaneously drives a third movable belt 2203 to rotate together, meanwhile, the first movable belt 2102 rotates to drive the two movable discs 23 at two ends to rotate, so that a lower pressing rod 2301 and a lower pressing rod 2302 are driven to move downwards when the two movable discs 23 rotate, the lower pressing rod 2302 moves downwards in a block chute 2401 of an outer frame 24, the lower pressing rod 2302 slides downwards and simultaneously carries a driving rod 2303 downwards, the driving rod 2303 drives the racks 2304 at both ends to move downwards to be meshed with the gears 26 at both ends, so as to drive the fourth movable belts 2601 at both ends to rotate, and when the driving rod 2303 slides downwards for a certain interval, the pressing plate 2305 on the driving rod 2303 collides with the top of the top plate 2501 on the pressing block 25, the pressing block 25 is driven to move downwards along the pressing chute 2402 to press the inner spring assembly 2403, and simultaneously the pressing block 25 moves downwards and simultaneously drives the driving plate 2502 and the turnover plate 2503 to move downwards, so that the two turnover plates 2503 turn downwards, the crushed materials on the turnover plate 2503 flow into the crushing groove 28, the second crushing roller 2602 is driven to rotate by the rotation of the third movable belt 2203, so that the two second crushing rollers 2602 continuously rotate in the crushing groove 28, the crushed materials are crushed for the second time, the crushed lithium mica ores are crushed into the same size, the motor 21 rotates the right plate 2202 reversely, so that the right plate 2202 rotates the roller plate 2204 reversely to rub against the edge of the connecting ring 27, the rotating baffle 2701 is driven to rotate in the crushing tank 28, the rotating baffle 2701 is rotated to the top, the blanking port 2801 in the crushing tank 28 is opened, the crushed lepidolite ore flows into the landslide 101 along the blanking port 2801, and flows into the floatation tank 103 from the opening 4302 of the floatation tank 103 along the landslide 101.

Example 2

As shown in fig. 6 to 9, on the basis of embodiment 1, the other end of the second movable belt 2103 far from the rotary shaft 2101 is connected with a roller 31, the premixing stirring assembly 3 comprises the roller 31, an annular groove 3101 is arranged on the outer wall of the roller 31, half discs 3102 are connected to the two ends of the roller 31 through one-way bearings, a supporting seat 32 is arranged on one side of the roller 31 close to the half discs 3102, a plate sliding groove 3201 is arranged on the supporting seat 32, a rack plate 3202 is connected to one side of the plate sliding groove 3201, a plate sliding block 3301 is arranged below the supporting seat 32, the plate sliding block 3301 is embedded in the plate sliding groove 3201 and slides back and forth, an embedded rod 33 is connected to the plate sliding block 3301, the embedded rod 33 is embedded in the annular groove 3101, a side plate 3302 is connected to one side of the plate sliding block 3301, a movable plate 3303 is connected to the other end of the plate sliding block 3301 far from the side plate 3302, a first inner rotating block 3401 is connected to the bottom of the first inner rotating block 3401, a rotating inner rod 34 is connected to the lower cavity of the embedded rod 33, the rotary inner rod 34 is connected with a plurality of fan blades 3403, the bottom end of the rotary inner rod 34 is connected with an exhaust plate 3404, the circumference outer side of the rotary inner rod 34 is connected with a rotary cylinder 36, the circumference outer side of the lower part of the rotary cylinder 36 is connected with a stirring rod 3601, the circumference outer side of the lower part of the rotary cylinder 36 is connected with a clamping ring 3602, the lower part of the circumference inner wall of the rotary cylinder 36 is connected with a unidirectional turntable 3603, the unidirectional turntable 3603 is connected with the lower part of the rotary inner rod 34 through a unidirectional bearing, the upper part of the inner side of the rotary cylinder 36 is connected with an upper cylinder 35, the circumference outer side of the upper cylinder 35 is connected with a plurality of air inlet pipes 3501, an outer ring 3502 is arranged on the upper cylinder 35 close to the lower part of the air inlet pipe 3501, both sides of the outer ring 3502 are connected with pushing plates 3503, the circumference outer side of the exhaust plate 3404 is connected with an exhaust disc 37, the top of the exhaust disc 37 is connected with a clamping ring 3701, the clamping ring 3701 is embedded in the lower part of the clamping ring 3602 of the rotary cylinder 36, the circumference outer side of the exhaust disc 37 is provided with a plurality of exhaust holes 3702, the exhaust disc 37 circumference outer wall is connected with the bottom stirring board 38, and bottom stirring board 38 one side is connected with the interior rotatory piece 3801 of second, and the last second inner rotatory piece 3801 other end that keeps away from of bottom stirring board 38 is connected with gyro wheel 3802, and gyro wheel 3802 circumference outside is connected with long board 3803, and movable plate 3303 top is connected with drives ring 3904, drives ring 3904 one side and is connected with pinion 3903, and pinion 3903 circumference outside is connected with down rack 3902, and down rack 3902 top is connected with opening and closing plate 3901, and opening and closing plate 3901 outside is connected with bin 39.

The half disk 3102 of the drum 31 is connected through a one-way bearing, so that the drum 31 rotates forward to drive the rotating edge of the half disk 3102 to rub against the edge of the rotating disk 41; conversely, the drum 31 is reversed and does not rub against the edge of the rotating disk 41.

In addition, the motor 21 rotates and simultaneously drives the second motion and the drum 31 to rotate, so that the drum 31 rotates and then drives the annular groove 3101 to rotate together, the inner wall of the annular groove 3101 is utilized to push the embedded rod 33, the plate sliding block 3301 and the movable plate 3303 to move, the plate sliding block 3301 drives the side plate 3302 and the rotary gear 3402 to move leftwards along the inner plate sliding groove 3201 of the supporting seat 32, the rotary gear 3402 moves to be meshed with the rack plate 3202, and then drives the rotary inner rod 34 to drive the first inner rotary block 3401 to rotate in the cavity at the lower part of the embedded rod 33 and simultaneously drive the fan blades 3403 and the exhaust plate 3404 to rotate, so that after the upper air flow is sucked into the upper air flow inlet pipe 3501 of the upper cylinder 35, the sucked air flow is discharged into the exhaust disc 37 through the continuous rotation of the fan blades 3403, the sucked air flow is scattered through the rotation of the exhaust plate 3404, and foam is gradually discharged from the exhaust hole 3702 of the exhaust disc 37 into the bottom of the floating groove 103; conversely, when the roller drives the plate slide block 3301 and the rotary gear 3402 to move rightwards, the inner rod 34 is rotated to drive the unidirectional turntable 3603, the rotary cylinder 36 and the stirring rod 3601 to rotate, meanwhile, the movable plate 3303 moves by one end spacing and then contacts with the edge of the driving ring 3904, so that the movable plate 3303 is meshed with the driving ring 3904, the pinion 3903 is driven to rotate and mesh with the lower gear, the opening and closing plate 3901 in the storage box 39 is driven to slide along the bottom plate groove of the storage box 39, the lower opening of the storage box 39 is opened, the medicine in the medicine flows into the floating groove 103 along the lower opening, the movable plate 3303 is driven to continuously and repeatedly move through the roller 31, the opening and closing plate 3901 of the storage box 39 is opened and closed at intervals, the medicine in the storage box 39 is discharged at intervals, the chemical in the floating tank 103 is repeatedly moved by the stirring rod 3601 rotating reversely to stir back and forth to generate the floating foam, so that the floating foam production efficiency is further improved, meanwhile, the rotating cylinder 36 moves and simultaneously drives the clamping ring 3602 and the clamping ring 3701 to move together, the clamping ring 3701 drives the air exhaust disc 37 and the idler wheel 3802 to move along the upper part of the long plate 3803, the edge of the moving idler wheel 3802 is utilized to rub against the top edge of the long plate 3803, the bottom stirring plate 28 is further driven to rotate with the second inner rotating block 3801, the bottom stirring plate 28 is utilized to stir the lepidolite ore and the concentrate at the bottom of the floating tank 103, the concentrate and the floating foam are more easily adhered together, and then the concentrate is driven to upwards enter the surface of the screen 43 through the floating foam, and the bottom stirring plate 28 is utilized to stir, so that the chemical premixing effect is further improved.

Example 3

On the basis of embodiment 2 as shown in fig. 10, the outer side of the circumference of a half-disc 3102 is connected with a rotary disc 41, a discharging assembly 4 comprises the rotary disc 41, one side of the rotary disc 41 is connected with a pulling rod 42, the bottom of the pulling rod 42 is connected with a connecting plate 4301, the bottom of the connecting plate 4301 is connected with a screen 43, an opening 4302 is arranged in the middle of the screen 43, two ends of a base 1 are close to the lower part of a discharge hole 102 and are provided with storage tanks 44, two sides of the lower part of the base 1 are connected with water tanks 45, the tops of the water tanks 45 are connected with water pumps 46, the tops of the water pumps 46 are connected with water pipes 47, and the tail ends of the water pipes 47 are connected with flow dividing plates 48.

The filter screen is arranged at the bottom of the inner side of the storage tank 44.

In addition, the generated froth drives the concentrate to move upwards to enter the upper part of the mesh plate 43, the separation effect is achieved through the mesh plate 43, other materials are prevented from passing through the mesh plate 43 together when the stirring rod 3601 and the bottom stirring plate 28 stir at the bottom of the floating tank 103, when the froth needs to be discharged, the half disk 3102 is driven by the roller 31 to rotate reversely, the half disk 3102 drives the pulling rod 42 and the connecting plate 4301 to pull upwards, the connecting plate 4301 drives the mesh plate 43 to move upwards to the bottom of the pushing plate 3503, the embedding rod 33, the upper cylinder 35 and the pushing plate 3503 are driven by the roller 31 to repeatedly move along the mesh plate 43, lepidolite is lifted out of the discharge ports 102 at two sides of the base 1, the froth on the mesh plate 43 is simultaneously pushed outwards together, and flows into the storage tank 44, then after the water source inside the water tank 45 is sucked into the water pipe 47 by the water suction pump 46, the sucked water source is discharged into the flow dividing plate 48 by the high-speed rotation of the water suction pump 46, then the water source is divided by the flow dividing plate 48 and flows into the storage tank 44 from the water outlet, concentrate flowing into the storage tank 44 is washed, floating foam on the surface of the concentrate is washed away, washing sewage flows out through the storage tank 44, meanwhile, the pushing plate 3503 also moves between the flow dividing plate 48 and the storage tank 44 from the feeding hole while pushing concentrate is pushed out from the discharging hole 102 by the pushing plate 3503, the surface of the pushing plate 3503 is washed by the water source discharged by the flow dividing plate 48, the foam is prevented from being stuck on the pushing plate 3503, the inconvenient post-treatment is avoided, and the cleaning effect of the pushing plate 3503 and the screen 43 is improved.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. The lepidolite flotation device is characterized by comprising a base (1) and a landslide (101), wherein the landslide (101) is arranged at the upper part of the inner side of the base (1), discharge holes (102) are formed in two ends of one side of the lower part of the base (1), a floatation groove (103) is formed in the inner side of one side, close to the discharge holes (102), of the base (1), the landslide (101) is communicated with a feed inlet of the floatation groove (103), and a first motor (21) is connected to the upper part of one side of the base (1);

a rotary shaft (2101) is connected to one side of a motor (21), a first movable belt (2102) is connected to the rotary shaft (2101), a second movable belt (2103) is connected to one side of the rotary shaft (2101) close to the first movable belt (2102), a first crushing roller (22) is connected to one side of the rotary shaft (2101) in a tail end mode, the first crushing roller (22) is far away from the rotary shaft (2101) and connected with a left disc (2201), a right disc (2202) is connected to the outer side of the circumference of the left disc (2201), a third movable belt (2203) is connected to the right disc (2202), a pressing rod (2302) is connected to the first movable belt (2102) far away from the rotary shaft (2101) and connected with a movable disc (23), a pressing rod (2301) is connected to the movable disc (23), a pressing rod (2302) is connected to the tail end of the lower pressing rod (2301), a driving rod (2303) is connected to one side of the lower portion of the lower pressing rod (2302), driving rods (2304) are connected to two sides of the driving rods (2303), a pressing rod (2305) is connected to the lower portion of the other side of the driving racks (2304), a pressing rod (2305), an inner side (2302) is connected to the inner side (24) of the outer frame (24024), an outer frame (2402) is provided with a sliding groove (2402), an outer frame (2402) is arranged on the inner side, an inner frame (2402) is arranged on the inner side (24), the pressing chute (2402) is characterized in that a pressing block (25) is installed and connected to the upper portion of the inner side of the pressing chute (2402), a top plate (2501) is connected to the top of the pressing block (25), a driving plate (2502) is hinged to the pressing block (25), a turnover plate (2503) is hinged to the tail end of the driving plate (2502), one side of a shell of the turnover plate (2503) and one side of a movable disc (23) are hinged to the other side of the shell of the turnover plate, a driving gear (26) is connected to one side of a driving rack (2304), a fourth movable belt (2601) is connected to the driving gear (26), the fourth movable belt (2601) is far away from the other end of the driving gear (26) and is connected with a second crushing roller (2602), a rolling disc (2204) is connected to the other end of the third movable belt (2203) through a one-way bearing, a connecting ring (27) is connected to the outer side of the circumference of the rolling disc (2204), a rotating baffle (2701) is connected to the connecting ring (27), a crushing groove (28) is installed and a blanking port (2801) is formed below the crushing groove (28).

2. A lepidolite flotation system according to claim 1, wherein the shaft of the pan (2204) is provided with a one-way bearing, such that the third belt (2203) rotates in a forward direction to rotate the pan (2204); otherwise, the third movable belt (2203) is reversed and does not drive the rolling disc (2204) to rotate.

3. The lepidolite flotation device of claim 1, wherein the second movable belt (2103) is connected with a roller (31) at the other end far away from the rotary shaft (2101), an annular groove (3101) is formed in the outer wall of the roller (31), half discs (3102) are connected to one-way bearings at two ends of the roller (31), a supporting seat (32) is mounted on one side, close to the half discs (3102), of the roller (31), a plate sliding groove (3201) is formed in the supporting seat (32), a rack plate (3202) is connected to one side of the plate sliding groove (3201), a plate sliding block (3301) is mounted below the supporting seat (32), the plate sliding block (3301) is embedded in the plate sliding groove (3201) and slides back and forth, an embedded rod (33) is connected to the plate sliding block (3301), the embedded rod (33) is embedded in the annular groove (3101), a side plate sliding block (3302) is connected to one side, a movable plate (3303) is connected to the other end, close to the side of the half discs (3102), a first rotary block (3301) is connected to the lower cavity, a plurality of rotary blocks (3401) are connected to the rotary block (3404), the rotary block (3404) is connected to the rotary block (34), the circumference outside of the rotary inner rod (34) is connected with a rotary cylinder (36), the circumference outside of the lower part of the rotary cylinder (36) is connected with a stirring rod (3601), the circumference outside of the lower part of the rotary cylinder (36) is connected with a clamping ring (3602), the lower part of the circumference inner wall of the rotary cylinder (36) is connected with a unidirectional rotary table (3603), and the unidirectional rotary table (3603) is connected with the lower part of the rotary inner rod (34) through a unidirectional bearing, the upper part of the inner side of the rotary cylinder (36) is connected with an upper cylinder (35), the circumference outside of the upper cylinder (35) is connected with a plurality of air inlet pipes (3501), an outer ring (3502) is installed below the upper cylinder (35) near the air inlet pipe (3501), both sides of the outer ring (3502) are connected with pushing plates (3503), the circumference outside of the air exhaust plate (3404) is connected with an air exhaust plate (37), the top of the air exhaust plate (37) is connected with a clamping ring (3701), the clamping ring (37) is embedded in the lower part of the rotary cylinder (36), the circumference outside of the air exhaust plate (37) is provided with a plurality of air exhaust holes (2), the outer wall (37) is connected with an upper air exhaust plate (3501), the other end (3801) is connected with a second stirring plate (3801) and the inner side of the inner plate (3801) is connected with a second stirring plate (3803), the second stirring plate (3803) and the inner side of the inner plate (3803) is connected with a rotating plate 3803), the movable plate (3303) top is connected with drives ring (3904), drives ring (3904) one side and is connected with pinion (3903), and pinion (3903) circumference outside is connected with down rack (3902), and lower rack (3902) top is connected with opening and closing plate (3901), and opening and closing plate (3901) outside is connected with bin (39).

4. A lepidolite flotation system according to claim 3, characterized in that the half discs (3102) of the drum (31) are connected by unidirectional bearings, such that a forward rotation of the drum (31) will bring the rotating edges of the half discs (3102) into friction with the edges of the rotating discs (41); conversely, the drum (31) is reversed and does not rub against the edge of the rotating disk (41).

5. A lepidolite flotation device according to claim 3, characterized in that the outer side of the circumference of the semicircular disc (3102) is connected with a rotary disc (41), one side of the rotary disc (41) is connected with a pulling rod (42), the bottom of the pulling rod (42) is connected with a connecting plate (4301), the bottom of the connecting plate (4301) is connected with a mesh plate (43), an opening (4302) is formed in the middle of the mesh plate (43), two ends of the base (1) are connected with a storage tank (44) near the lower part of the discharge hole (102), two sides of the lower part of the base (1) are connected with water tanks (45), the tops of the water tanks (45) are connected with a water suction pump (46), the tops of the water suction pump (46) are connected with a water pipe (47), and the tail ends of the water pipe (47) are connected with a splitter plate (48).

6. A lepidolite flotation system according to claim 5, wherein the bottom of the inside of the reservoir (44) is provided with a filter screen.