CN118022957B

CN118022957B - Vertical stone crusher

Info

Publication number: CN118022957B
Application number: CN202410212347.6A
Authority: CN
Inventors: 周涛山
Original assignee: Poly Orica Jiangsu Mining Machinery Co ltd
Current assignee: Poly Orica Jiangsu Mining Machinery Co ltd
Priority date: 2024-02-27
Filing date: 2024-02-27
Publication date: 2024-08-16
Anticipated expiration: 2044-02-27
Also published as: CN118022957A

Abstract

The invention discloses a vertical stone crusher, which belongs to the technical field of crushers and comprises a shaking device, wherein a base device is used for screening crushed stone according to size, a feeding device and a crushing device are arranged on the base device, the feeding device is used for feeding the stone into the crushing device, the crushing device is used for crushing the stone, and an auxiliary crushing device is used for further crushing the crushed stone with overlarge volume. The feeding device provided by the invention can realize periodic feeding, prevent too much stone from entering at one time, cause accumulation of the stone in the crushing device and prevent incomplete stone crushing; the stone between the movable crushing plate and the fixed crushing plate is crushed through the special motion trail of the movable crushing plate by the crushing device, so that the crushing efficiency is high, and meanwhile, the crushing device, the feeding device and the shaking mechanism share one power source, so that the efficiency is high.

Description

Vertical stone crusher

Technical Field

The invention relates to the technical field of crushers, in particular to a vertical stone crusher.

Background

The stone materials of different kinds are widely applied in the fields of life and industry, sometimes the stone materials are required to be crushed into small blocks or powder for further processing or direct use, the crushing of the stone materials is mainly carried out through a crusher, crushing equipment is generally divided into four main categories of a mechanical crusher, an air flow crusher, a grinder and a low-temperature crusher, wherein the mechanical crusher is most common, the use of the mechanical crusher in various fields is wide, chinese patent application publication No. CN218796473U discloses a stone waste crushing equipment, and the prior art is convenient for pre-screening out super-particle-size materials and dregs, so that the normal use of the crusher and the quality of finished products after crushing stone waste are effectively ensured. But this prior art can not guarantee the size of stone material after smashing, and can't discern and draw to the stone material that does not smash thoroughly.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a vertical stone crusher, includes shaking device, base device include the bottom plate, the bottom plate is placed subaerial, base device be used for screening the stone material after smashing according to the size, base device on be provided with feed arrangement, feed arrangement include the feeding frame, feeding frame fixed mounting is on the bottom plate, base device on be provided with reducing mechanism, reducing mechanism include back frame and side bearer, back frame and side bearer and bottom plate fixed mounting, feed arrangement be used for sending into reducing mechanism with the stone material, reducing mechanism be used for smashing the stone material, base device on be provided with vice reducing mechanism, vice reducing mechanism include preceding side bearer, preceding side bearer fixed mounting is on the bottom plate, vice reducing mechanism be used for still volumetric too big stone material after smashing further smash.

Putting stone to be crushed into the crushing device from the feeding device, crushing the stone by entering the crushing device through the feeding device, enabling the crushed stone to reach the base device, and further crushing the crushed stone with overlarge volume through the auxiliary crushing device.

Further, the base device comprises a bottom motor fixedly arranged on the bottom plate, a motor bevel gear is fixedly arranged on a motor shaft of the bottom motor, a butt joint shaft is rotatably arranged on the bottom plate, a butt joint bevel gear, a cam block, an inner driving wheel and an outer driving wheel are fixedly arranged on the butt joint shaft, the butt joint bevel gear is meshed with the motor bevel gear, and a shaking mechanism is arranged on the bottom plate.

Further, the shaking mechanism comprises a rotating support frame and a fixed vertical frame which are fixedly arranged on the bottom plate, a shaking frame is rotatably arranged on the rotating support frame, an upper transmission shaft is rotatably arranged on the fixed vertical frame, a sector wheel and an upper transmission wheel are fixedly arranged on the upper transmission shaft, shaking transmission belts are wound outside the upper transmission wheel and the outer transmission wheel, a screen is fixedly arranged on the shaking frame, a side discharging plate is fixedly arranged on the screen, and a positive discharging plate is fixedly arranged on the shaking frame.

The stone material after smashing through reducing mechanism falls on the screen cloth, bottom motor rotates and drives motor bevel gear and rotate, thereby drive butt joint bevel gear and butt joint axle and rotate, thereby drive outer driving wheel and rotate, thereby drive the drive wheel through the shake drive belt and rotate, thereby drive shake the frame and shake for rotating the support frame and shake in a small circle in succession, thereby shake the stone material of smaller volume on the screen cloth on the shake frame, owing to shake frame and bottom plate directly there is certain contained angle, shake out the device with little stone material through positive flitch, the hole of the bigger stone material unable through the screen cloth, further smash through vice reducing mechanism, if can pass through the hole of screen cloth, then drop on shake frame, if still can not pass through, discharge from the side flitch, continue to put into feed arrangement and smash again through reducing mechanism.

Further, feed arrangement include the feeder hopper of fixed mounting on the feeding frame, the feeder hopper below rotates and installs the baffle disc, fixed mounting has medium plate and lower medium plate on the feeding frame, slidable mounting has the lifter on last medium plate and the lower medium plate, rotates on the lifter and installs the slip inner column, the slip inner column slides in the waist hole that blocks the dish, lifter bottom fixed mounting has down to push away and collude, the outer winding of outer transmission wheel has the upright drive belt.

The stone material to be crushed is put into from the feeder hopper, blocks the dish and can prevent stone material to fall into reducing mechanism, and bottom motor rotates and can drive the epaxial outer driving wheel of butt joint simultaneously and rotate to drive reducing mechanism action through standing the drive belt, the butt joint axle rotates simultaneously and can drive the cam piece and rotate, thereby drives push down and colludes and lifter constantly rises and descends along last medium plate, thereby drives through the slip inner column and blocks the dish and constantly rotate relative to the feeder hopper, makes the stone material in the feeder hopper periodically slide into in the reducing mechanism along blocking the dish.

Further, the smashing device comprises a smashing frame fixedly arranged on the rear frame and the side frame, an eccentric wheel is rotatably arranged on the smashing frame, a smashing driving wheel is fixedly arranged on the eccentric wheel, a vertical driving belt is wound outside the smashing driving wheel, a smashing shaft is eccentrically rotatably arranged on the eccentric wheel, a movable smashing plate is fixedly arranged on the smashing shaft, a fixed smashing plate is fixedly arranged on the inner side of the smashing frame, a connecting rod is rotatably arranged on the movable smashing plate, and the connecting rod is rotatably arranged with the smashing frame.

Further, the fixed crushing plate and the movable crushing plate are provided with mutually staggered protruding crushing strips.

The stone material falls between fixed crushing board and the movable crushing board, drives the external transmission wheel through the butt joint axle and rotates to drive through standing the drive belt and smash drive wheel and eccentric wheel rotation, thereby drive crushing axle and rotate for the eccentric wheel is eccentric, thereby cooperates the rotation of connecting rod, drives the continuous motion of movable crushing board, extrudees crushing to the direct stone material of movable crushing board and fixed crushing board, and the stone material after smashing falls on the screen cloth.

Further, vice reducing mechanism include fixed mounting in the electric jar on the preceding side bearer, electric jar top fixed mounting has the lift commentaries on classics piece, fixed mounting has diaphragm and crushing seat on the preceding side bearer, the last lift connecting rod that rotates of lift commentaries on classics piece, fixed mounting has down the pressure frame on the lift connecting rod, fixed mounting has the upright revolving rack on the diaphragm, the lift connecting rod rotates with the upright revolving rack and installs, sliding mounting has down the pressure post in the diaphragm, fixed mounting has the projection on the pressure post down, projection and pressure frame slidable mounting down, pressure post bottom fixed mounting has crushing board down.

The stone material passes through the vibrations of screen cloth, and the great stone material of volume can reach between smashing the seat and smashing the board, thereby the electric jar goes up and down to drive the lift commentaries on classics piece and go up and down, thereby drive the lift connecting rod and rotate, thereby drive down the pressure frame and rotate, thereby drive down the pressure post and smash the board and go up and down, thereby smash the seat through smashing the board and further smash the stone material, and fall on the screen cloth again.

Compared with the prior art, the invention has the beneficial effects that: (1) The feeding device provided by the invention can realize periodic feeding, prevent too much stone from entering at one time, cause accumulation of the stone in the crushing device and prevent incomplete stone crushing; (2) The crushing device provided by the invention crushes stone between the movable crushing plate and the fixed crushing plate through the special motion track of the movable crushing plate, the crushing efficiency is high, and meanwhile, the crushing device, the feeding device and the shaking mechanism share one power source, so that the efficiency is high; (3) The shaking device provided by the invention can effectively screen crushed stones with smaller sizes, and further crush or re-crush stones with unsatisfactory sizes.

Drawings

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

Fig. 2 is a schematic diagram of the overall structure of the present invention.

Fig. 3 is a schematic structural view of a base device of the present invention.

Fig. 4 is a schematic structural diagram of a dithering mechanism according to the present invention.

Fig. 5 is a schematic structural diagram of a feeding device according to the present invention.

Fig. 6 is a schematic diagram of a feeding device according to a second embodiment of the present invention.

FIG. 7 is a schematic view of the fit of the feed hopper and the blocking plate of the present invention.

Fig. 8 is a schematic structural view of the pulverizing apparatus according to the present invention.

Fig. 9 is a schematic structural diagram of a pulverizing apparatus according to the present invention.

Fig. 10 is a schematic view of the structure of the secondary pulverizing apparatus of the present invention.

Reference numerals: 101-a bottom plate; 102-rotating a supporting frame; 103-dithering; 104-a bottom motor; 105-motor bevel gear; 106, butting a shaft; 107-butting bevel gears; 108-a cam block; 109-an inner driving wheel; 110-an outer drive wheel; 111-shaking a driving belt; 112-upper driving wheel; 113-upper drive shaft; 114-sector wheel; 115-screen; 116-side discharge plate; 117-positive take-off plate; 118-fixing the stand; 201-a feeding frame; 202-a feed hopper; 203-a blocking disk; 204-lifting rod; 205-vertical transmission belt; 206-upper middle plate; 207-lower middle plate; 208-pushing down the hook; 209-sliding inner column; 301-a rear frame; 302-side frames; 303-crushing a frame; 304-eccentric wheel; 305-crushing a driving wheel; 306-crushing shaft; 307-movable pulverizing plate; 308-fixing the crushing plate; 309-a connecting rod; 401-front side frames; 402-electric cylinder; 403-lifting rotating block; 404-lifting connecting rod; 405-a cross plate; 406-standing rotating frame; 407-pressing down a frame; 408-pressing down the column; 409-posts; 410-crushing the plate; 411-crushing seat.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

Examples: referring to fig. 1 to 10, a vertical stone crusher comprises a shaking device, a base device comprises a base plate 101, the base plate 101 is placed on the ground, the base device is used for screening crushed stone according to size, a feeding device is arranged on the base device, the feeding device comprises a feeding frame 201, the feeding frame 201 is fixedly arranged on the base plate 101, a crushing device is arranged on the base device, the crushing device comprises a rear frame 301 and a side frame 302, the rear frame 301 and the side frame 302 are fixedly arranged on the base device, the feeding device is used for conveying stone into the crushing device, the crushing device is used for crushing stone, a secondary crushing device is arranged on the base device, the secondary crushing device comprises a front side frame 401, the front side frame 401 is fixedly arranged on the base plate 101, and the secondary crushing device is used for further crushing the crushed stone with overlarge volume.

As shown in fig. 3 and 4, the base device comprises a bottom motor 104 fixedly mounted on a bottom plate 101, a motor bevel gear 105 is fixedly mounted on a motor shaft of the bottom motor 104, a docking shaft 106 is rotatably mounted on the bottom plate 101, a docking bevel gear 107, a cam block 108, an inner driving wheel 109 and an outer driving wheel 110 are fixedly mounted on the docking shaft 106, the docking bevel gear 107 is meshed with the motor bevel gear 105, and a shaking mechanism is arranged on the bottom plate 101.

As shown in fig. 3 and 4, the shaking mechanism comprises a rotating support frame 102 and a fixed vertical frame 118 which are fixedly installed on the bottom plate 101, a shaking frame 103 is rotatably installed on the rotating support frame 102, an upper transmission shaft 113 is rotatably installed on the fixed vertical frame 118, a sector wheel 114 and an upper transmission wheel 112 are fixedly installed on the upper transmission shaft 113, a shaking transmission belt 111 is wound outside the upper transmission wheel 112 and the outer transmission wheel 110, a screen 115 is fixedly installed on the shaking frame 103, a side discharging plate 116 is fixedly installed on the screen 115, and a positive discharging plate 117 is fixedly installed on the shaking frame 103.

The crushed stone falls onto the screen 115 through the crushing device, the motor 104 at the bottom rotates to drive the bevel gear 105 at the motor to rotate, thereby drive the bevel gear 107 and the butt shaft 106 to rotate, thereby drive the outer driving wheel 110 to rotate, thereby drive the upper driving wheel 112 to rotate through the shaking driving belt 111, thereby drive the upper driving shaft 113 and the sector wheel 114 to rotate, thereby drive the shaking frame 103 to shake slightly continuously, thereby shaking off the stone with smaller volume on the screen 115 onto the shaking frame 103, as the shaking frame 103 and the bottom plate 101 directly have a certain included angle, the small stone is shaken out of the device through the positive discharging plate 117, the stone with larger volume can not pass through the holes of the screen 115, further crushed through the auxiliary crushing device, and if the stone can pass through the holes of the screen 115, then fall onto the shaking frame 103, if the stone still can not pass through, then be discharged from the side discharging plate 116, continue to be put into the feeding device and crushed again through the crushing device.

As shown in fig. 5 to 7, the feeding device comprises a feeding hopper 202 fixedly installed on a feeding frame 201, a blocking disc 203 is rotatably installed below the feeding hopper 202, an upper middle plate 206 and a lower middle plate 207 are fixedly installed on the feeding frame 201, lifting rods 204 are slidably installed on the upper middle plate 206 and the lower middle plate 207, sliding inner columns 209 are rotatably installed on the lifting rods 204, the sliding inner columns 209 slide in waist holes of the blocking disc 203, a pushing down hook 208 is fixedly installed at the bottom of the lifting rods 204, and a vertical driving belt 205 is wound outside the outer driving wheel 110.

The stone to be crushed is put into the crushing device from the feeding hopper 202, the blocking disc 203 can prevent the stone from falling into the crushing device, the bottom motor 104 rotates to drive the outer driving wheel 110 on the butt joint shaft 106 to rotate simultaneously, so that the crushing device is driven to act through the vertical driving belt 205, meanwhile, the butt joint shaft 106 rotates to drive the cam block 108 to rotate, so that the lower pushing hook 208 and the lifting rod 204 are driven to continuously ascend and descend along the upper middle plate 206, the blocking disc 203 is driven to continuously rotate relative to the feeding hopper 202 through the sliding inner column 209, and the stone in the feeding hopper 202 periodically slides into the crushing device along the blocking disc 203.

As shown in fig. 8 and 9, the crushing device comprises a crushing frame 303 fixedly installed on a rear frame 301 and a side frame 302, an eccentric wheel 304 is rotatably installed on the crushing frame 303, a crushing driving wheel 305 is fixedly installed on the eccentric wheel 304, a vertical driving belt 205 is wound outside the crushing driving wheel 305, a crushing shaft 306 is eccentrically rotatably installed on the eccentric wheel 304, a movable crushing plate 307 is fixedly installed on the crushing shaft 306, a fixed crushing plate 308 is fixedly installed on the inner side of the crushing frame 303, a connecting rod 309 is rotatably installed on the movable crushing plate 307, and the connecting rod 309 and the crushing frame 303 are rotatably installed.

The fixed crushing plate 308 and the movable crushing plate 307 are provided with mutually staggered raised crushing strips.

The stone material falls between the fixed crushing plate 308 and the movable crushing plate 307, and the outer transmission wheel 110 is driven to rotate through the butt joint shaft 106, so that the crushing transmission wheel 305 and the eccentric wheel 304 are driven to rotate through the vertical transmission belt 205, the crushing shaft 306 is driven to eccentrically rotate relative to the eccentric wheel 304, and the movable crushing plate 307 is driven to continuously move in cooperation with the rotation of the connecting rod 309, the stone material directly arranged between the movable crushing plate 307 and the fixed crushing plate 308 is extruded and crushed, and the crushed stone material falls on the screen 115.

As shown in fig. 10, the secondary crushing device comprises a front side frame 401, an electric cylinder 402 is fixedly arranged on the front side frame 401, a lifting rotating block 403 is fixedly arranged at the top of the electric cylinder 402, a transverse plate 405 and a crushing seat 411 are fixedly arranged on the front side frame 401, a lifting connecting rod 404 is rotatably arranged on the lifting rotating block 403, a lower pressing frame 407 is fixedly arranged on the lifting connecting rod 404, a vertical rotating frame 406 is fixedly arranged on the transverse plate 405, the lifting connecting rod 404 and the vertical rotating frame 406 are rotatably arranged, a lower pressing column 408 is slidably arranged on the transverse plate 405, a convex column 409 is fixedly arranged on the lower pressing column 408, the convex column 409 and the lower pressing frame 407 are slidably arranged, and a crushing plate 410 is fixedly arranged at the bottom of the lower pressing column 408.

The stone material passes through the vibrations of screen cloth 115, and the great stone material of volume can reach between smashing seat 411 and the crushing board 410, thereby the jar 402 goes up and down to drive lift commentaries on classics piece 403 and go up and down to drive lift connecting rod 404 and rotate, thereby drive down frame 407 and rotate, thereby drive down post 408 and crushing board 410 go up and down, thereby further smash the stone material through crushing board 410 and smashing seat 411, and fall on screen cloth 115 again.

The invention discloses a working principle of a vertical stone crusher, which comprises the following steps: the stone to be crushed is put into the crushing device from the feeding hopper 202, the blocking disc 203 can prevent the stone from falling into the crushing device, the bottom motor 104 rotates to drive the outer driving wheel 110 on the butt joint shaft 106 to rotate simultaneously, so that the crushing device is driven to act through the vertical driving belt 205, meanwhile, the butt joint shaft 106 rotates to drive the cam block 108 to rotate, so that the lower pushing hook 208 and the lifting rod 204 are driven to continuously ascend and descend along the upper middle plate 206, the blocking disc 203 is driven to continuously rotate relative to the feeding hopper 202 through the sliding inner column 209, and the stone in the feeding hopper 202 periodically slides into the crushing device along the blocking disc 203. The stone material falls between the fixed crushing plate 308 and the movable crushing plate 307, and the outer transmission wheel 110 is driven to rotate through the butt joint shaft 106, so that the crushing transmission wheel 305 and the eccentric wheel 304 are driven to rotate through the vertical transmission belt 205, the crushing shaft 306 is driven to eccentrically rotate relative to the eccentric wheel 304, and the movable crushing plate 307 is driven to continuously move in cooperation with the rotation of the connecting rod 309, the stone material directly arranged between the movable crushing plate 307 and the fixed crushing plate 308 is extruded and crushed, and the crushed stone material falls on the screen 115. The crushed stone falls onto the screen 115 through the crushing device, the bottom motor 104 rotates to drive the motor bevel gear 105 to rotate, thereby drive the docking bevel gear 107 and the docking shaft 106 to rotate, thereby drive the outer driving wheel 110 to rotate, thereby drive the upper driving wheel 112 to rotate through the shaking driving belt 111, thereby drive the upper driving shaft 113 and the sector wheel 114 to rotate, thereby drive the shaking frame 103 to shake continuously and slightly relative to the rotating support frame 102, thereby shaking the stone with smaller volume on the screen 115 onto the shaking frame 103, as the shaking frame 103 and the bottom plate 101 directly have a certain included angle, small stone is shaken out of the device through the positive discharging plate 117, the stone with larger volume can not pass through the hole of the screen 115, can reach between the crushing seat 411 and the crushing plate 410, the electric cylinder 402 is lifted to drive the lifting rotating block 403 to rotate, thereby drive the lifting connecting rod 404 to rotate, thereby drive the lower pressing frame 407 to rotate, thereby drive the lower pressing column 408 and the crushing plate 410 to lift, thereby further crush the stone through the crushing plate 410 and the crushing seat 411, and fall onto the screen 115 again, if still fall onto the shaking frame 103, the small stone can pass through the hole of the shaking frame 115, the discharging plate can pass through the discharging plate and can pass through the hole of the screen 115, and can pass through the discharging plate 116 and then pass through the crushing device again.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the technical scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a vertical stone crusher, includes shake device, its characterized in that: the base device comprises a base plate (101), the base device is arranged on the ground, the base device is used for screening crushed stones according to the size, the base device is provided with a feeding device, the feeding device comprises a feeding frame (201), the feeding frame (201) is fixedly arranged on the base plate (101), the base device is provided with a crushing device, the crushing device comprises a rear frame (301) and a side frame (302), the rear frame (301) and the side frame (302) are fixedly arranged on the base plate (101), the feeding device is used for conveying the stones into the crushing device, the crushing device is used for crushing the stones, the base device is provided with a secondary crushing device, the secondary crushing device comprises a front side frame (401), the front side frame (401) is fixedly arranged on the base plate (101), and the secondary crushing device is used for further crushing the stones which are still oversized after being crushed;

The base device comprises a bottom motor (104) fixedly arranged on a bottom plate (101), a motor bevel gear (105) is fixedly arranged on a motor shaft of the bottom motor (104), a docking shaft (106) is rotatably arranged on the bottom plate (101), a docking bevel gear (107), a cam block (108), an inner driving wheel (109) and an outer driving wheel (110) are fixedly arranged on the docking shaft (106), the docking bevel gear (107) is meshed with the motor bevel gear (105), and a shaking mechanism is arranged on the bottom plate (101);

The shaking mechanism comprises a rotating support frame (102) and a fixed vertical frame (118) which are fixedly arranged on a bottom plate (101), a shaking frame (103) is rotatably arranged on the rotating support frame (102), an upper transmission shaft (113) is rotatably arranged on the fixed vertical frame (118), a sector wheel (114) and an upper transmission wheel (112) are fixedly arranged on the upper transmission shaft (113), shaking transmission belts (111) are wound outside the upper transmission wheel (112) and the outer transmission wheel (110), a screen (115) is fixedly arranged on the shaking frame (103), a side discharging plate (116) is fixedly arranged on the screen (115), and a positive discharging plate (117) is fixedly arranged on the shaking frame (103);

the feeding device comprises a feeding hopper (202) fixedly arranged on a feeding frame (201), a blocking disc (203) is rotatably arranged below the feeding hopper (202), an upper middle plate (206) and a lower middle plate (207) are fixedly arranged on the feeding frame (201), lifting rods (204) are slidably arranged on the upper middle plate (206) and the lower middle plate (207), sliding inner columns (209) are rotatably arranged on the lifting rods (204), the sliding inner columns (209) slide in waist holes of the blocking disc (203), a lower pushing hook (208) is fixedly arranged at the bottom of the lifting rods (204), and a vertical transmission belt (205) is wound outside an outer transmission wheel (110);

The crushing device comprises a crushing frame (303) fixedly arranged on a rear frame (301) and a side frame (302), wherein an eccentric wheel (304) is rotatably arranged on the crushing frame (303), a crushing driving wheel (305) is fixedly arranged on the eccentric wheel (304), a vertical driving belt (205) is wound outside the crushing driving wheel (305), a crushing shaft (306) is eccentrically rotatably arranged on the eccentric wheel (304), a movable crushing plate (307) is fixedly arranged on the crushing shaft (306), a fixed crushing plate (308) is fixedly arranged on the inner side of the crushing frame (303), a connecting rod (309) is rotatably arranged on the movable crushing plate (307), and the connecting rod (309) and the crushing frame (303) are rotatably arranged;

The fixed crushing plate (308) and the movable crushing plate (307) are provided with mutually staggered convex crushing strips;

The auxiliary crushing device comprises an electric cylinder (402) fixedly arranged on a front side frame (401), a lifting rotating block (403) is fixedly arranged at the top of the electric cylinder (402), a transverse plate (405) and a crushing seat (411) are fixedly arranged on the front side frame (401), a lifting connecting rod (404) is rotatably arranged on the lifting rotating block (403), a lower pressing frame (407) is fixedly arranged on the lifting connecting rod (404), a vertical rotating frame (406) is fixedly arranged on the transverse plate (405), a lower pressing column (408) is rotatably arranged in the transverse plate (405), a convex column (409) is fixedly arranged on the lower pressing column (408), and a crushing plate (410) is fixedly arranged at the bottom of the lower pressing column (408).