CN109821642B

CN109821642B - Movable building garbage treatment equipment

Info

Publication number: CN109821642B
Application number: CN201910253323.4A
Authority: CN
Inventors: 刘世喆
Original assignee: Shenganlong Environmental Construction Co Ltd
Current assignee: Shenganlong Environmental Construction Co., Ltd
Priority date: 2019-03-29
Filing date: 2019-03-29
Publication date: 2020-06-12
Anticipated expiration: 2039-03-29
Also published as: CN109821642A

Abstract

The invention discloses a mobile construction waste treatment device which comprises a vehicle body, two extrusion modules, a crushing hopper module and a crushing wheel, wherein the two extrusion modules are fixedly arranged on two sides of the upper end surface of the vehicle frame of the vehicle body respectively through respective first fixing supports and second fixing supports; the crushing bucket module is arranged at the end part of a large arm of the vehicle body; two ends of a rotating shaft of an electric roller of the crushing wheel are respectively and fixedly arranged at the inner side end part of the swing arm of the crushing bucket module. The invention adopts wheel type driving, can freely move on a construction site, is convenient for treating large garbage, can crush the construction garbage and cut the construction garbage into small sections, greatly improves the working efficiency and reduces the construction cost.

Description

Movable building garbage treatment equipment

Technical Field

The invention relates to the technical field of building environmental protection, in particular to a movable building garbage treatment device.

Background

Along with the development of urban construction, many areas are reformed and are removed, produce a large amount of building rubbish, demolish the in-process and often have bold building rubbish, extravagant a large amount of spaces in the transportation, also hardly carry during the processing, often need the excavator to carry out the breakage, occupy a large amount of manpower and materials, current refuse handling installation is bulky simultaneously, is difficult to remove, and is with high costs, consequently needs a portable building rubbish treatment facility.

Disclosure of Invention

The invention provides a mobile construction waste treatment device, which adopts wheel type driving, can freely move on a construction site, is convenient for treating large-sized waste, can crush the construction waste and cut the construction waste into small sections, greatly improves the working efficiency and reduces the construction cost.

The technical scheme adopted by the invention is as follows: a mobile construction waste treatment device comprises a vehicle body, two extrusion modules, a crushing bucket module and a crushing wheel; the two extrusion modules are fixedly arranged on two sides of the upper end face of the frame of the vehicle body through respective first fixing supports and second fixing supports, the two extrusion modules are arranged in a staggered mode in tandem, and the extrusion claws are located below the vehicle body; the crushing bucket module is arranged at the end part of a large arm of the vehicle body; two ends of a rotating shaft of an electric roller of the crushing wheel are respectively and fixedly arranged at the inner side end part of the swing arm of the crushing bucket module.

The vehicle body comprises a vehicle frame, an engine, four wheels, two large arms, two first hydraulic cylinders, two second hydraulic cylinders, two small belt pulleys, four first guide rails, four first sliding blocks, a belt pulley seat, a first rotating shaft, a universal connecting shaft, an electric motor, a cross beam, four hydraulic motors and four belt pulley fixing frames; the engine is fixedly arranged on the upper end surface at the rear part of the frame; the four hydraulic motors are fixedly arranged on the four legs below the frame; the four wheels are respectively and fixedly connected with output shafts of the four hydraulic motors; one ends of the two large arms are respectively and rotatably arranged on two sides of the front end of the frame, and the other ends of the two large arms are respectively and rotatably arranged on two sides of the crushing hopper; one ends of the two first hydraulic cylinders are respectively hinged to two sides of the front end of the frame and positioned below the large arms, and the other ends of the two first hydraulic cylinders are respectively hinged to the inner sides of the middle parts of the two large arms; one ends of the two second hydraulic cylinders are respectively hinged to the outer sides of the middle parts of the two large arms, and the other ends of the two second hydraulic cylinders are respectively hinged to the two sides of the crushing hopper and are positioned above the large arms; the four first guide rails are respectively and fixedly arranged in the middle of the upper end face of the frame, the belt pulley seat is slidably arranged on the four first guide rails through four first sliding blocks, the first rotating shaft is rotatably arranged on the belt pulley seat, the two small belt pulleys are fixedly arranged on the first rotating shaft, one end of each of the four belt pulley fixing frames is respectively and rotatably arranged on two sides of the two small belt pulleys, the other end of each of the four belt pulley fixing frames is respectively and rotatably arranged on two sides of the two large belt pulleys, and the small belt pulleys are connected with the large belt pulleys through belts; the motor is fixedly arranged on the bracket above the frame, one end of the universal spindle is fixedly connected with the output shaft of the motor, and the other end of the universal spindle is fixedly connected with the first rotating shaft; and a cross beam with a tooth groove is arranged below the frame.

The extrusion module comprises a first fixed bracket and four second guide rails; the four second sliding blocks, the four third hydraulic cylinders, the second fixed bracket, the large belt pulley, the second rotating shaft, the two crankshafts, the two rocking rods and the two extrusion claws; each second guide rail consists of two optical axes, and the first fixed support is fixedly connected with the second fixed support through four second guide rails which are arranged in parallel; the four second sliding blocks are respectively arranged on the four second guide rails in a sliding manner, the middle parts of the second sliding blocks are provided with rotating shaft seats, hinge supports are arranged at the rear parts of the second sliding blocks, four third hydraulic cylinders are hinged in the second fixed support, the end parts of the four third hydraulic cylinders are hinged on the hinge supports of the four second sliding blocks, the second rotating shafts are rotatably arranged on the rotating shaft seats of the four second sliding blocks, and the large belt pulley is fixedly arranged in the center of the second rotating shafts; two sections of crankshafts are arranged on the second rotating shaft, two rocking bars are respectively hinged on eccentric sections of the two sections of crankshafts, and the other ends of the rocking bars are respectively hinged on the upper ends of two extrusion claws; the middle parts of the two extrusion claws are hinged on a hinged support at the lower end of the first fixed support.

The crushing bucket module comprises a crushing bucket, two fourth hydraulic cylinders, two swing arms, two fifth hydraulic cylinders, a sliding rod, a clamping jaw and a push rod; an opening is formed in the rear of the crushing hopper, the swing arms are two parallel rods, the end parts of the swing arms are fixedly connected through a rotating shaft, the two swing arms are rotatably installed on the upper parts of the front ends of the two sides of the crushing hopper through the rotating shafts of the end parts, one end of each of the two fourth hydraulic cylinders is hinged to the side surface of the crushing hopper, and the other end of each of the two fourth hydraulic cylinders is hinged to the lower ends of the; the crushing hopper is characterized in that a plurality of through guide grooves are formed in the upper end face of the inner part of the crushing hopper, a slide rod is arranged in each guide groove, the rear parts of the slide rods are fixedly connected through a push rod, a plurality of clamping jaws are hinged to each slide rod, the clamping jaws face the rear part, and the rear parts of the clamping jaws are connected with the slide rods through springs; the two fifth hydraulic cylinders are respectively and fixedly installed at the lower parts of the two sides of the crushing hopper, and the end parts of the telescopic rods of the two fifth hydraulic cylinders are fixedly connected with the push rod.

The crushing wheel comprises an electric roller, seven planet carriers, seven pinions, a planet wheel, seven internal gears, crushing nails, a sliding groove and a sliding ring; seven pinion gears are fixedly mounted on the electric roller, seven planet carriers are fixedly connected together, the planet carriers on two sides are fixedly connected with two swing arms, a sliding groove is formed in each planet carrier, three planet gears meshed with the pinion gears are mounted on each planet carrier, seven internal gears are respectively rotatably mounted on the seven planet carriers, sliding rings on the seven internal gears are matched with the sliding grooves in the planet carriers, and each internal gear is meshed with the adjacent planet gear; the gear tooth ratio of the pinion and the planet gear on each planet carrier is different, and a plurality of crushing nails are uniformly distributed on the outer side of the inner gear.

The invention has the beneficial effects that: (1) the invention adopts wheel type driving, can freely move on a construction site, is convenient and fast to move, can quickly transfer a site and is convenient for treating large garbage; (2) the invention can crush the construction waste and cut the construction waste into small sections, is convenient for transportation, greatly improves the working efficiency and reduces the construction cost.

Drawings

Fig. 1 and 2 are schematic overall structural diagrams of the present invention.

Fig. 3 and 4 are schematic structural views of the extrusion-removed module of the present invention.

Fig. 5 is a schematic structural view of an extrusion module of the present invention.

Fig. 6 is a schematic structural view of a crushing bucket module of the present invention.

Fig. 7 is a schematic view of the structure of the crushing wheel of the present invention.

Fig. 8 is a schematic view of the internal structure of the crushing wheel of the present invention.

Fig. 9 is a schematic structural diagram of the planetary carrier of the present invention.

Reference numerals: 1-a vehicle body; 2-extruding the module; 3-a crushing bucket module; 4-a crushing wheel; 101-a frame; 102-an engine; 103-a wheel; 104-big arm; 105-a first hydraulic cylinder; 106-second hydraulic cylinder; 107-small belt pulley; 108 — a first guide rail; 109-a first slider; 110-pulley seat; 111-a first shaft; 112-universal joint shaft; 113-an electric motor; 114-a cross beam; 115-a hydraulic motor; 116-a pulley mount; 201-a first fixed support; 202-a second guide rail; 203-a second slider; 204-a third hydraulic cylinder; 205-a second fixed mount; 206-big belt pulley; 207-a second shaft; 208-a crankshaft; 209-rocker; 210-a pressing jaw; 301-a crushing hopper; 302-a fourth hydraulic cylinder; 303-swing arm; 304-a fifth hydraulic cylinder; 305-a slide bar; 306-a jaw; 307-a push rod; 401-motorized roller; 402-a planet carrier; 403-pinion gear; 404-planet wheel; 405-internal gear; 406-crushing nails; 407-a chute; 408-slip ring.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9, the mobile construction waste treatment equipment comprises a vehicle body 1, two extrusion modules 2, a crushing bucket module 3 and a crushing wheel 4. The two extrusion modules 2 are fixedly mounted on two sides of the upper end face of the frame 101 of the vehicle body 1 through respective first fixing supports 201 and second fixing supports 205, the two extrusion modules 2 are arranged in a staggered mode in tandem, and the extrusion claws 210 are located below the vehicle body 1. The crushing bucket module 3 is mounted at the end of the large arm 104 of the car body 1. Two ends of a rotating shaft of the electric roller 401 of the crushing wheel 4 are respectively and fixedly arranged at the inner side end part of the swing arm 303 of the crushing bucket module 3.

The vehicle body 1 comprises a vehicle frame 101, an engine 102, four wheels 103, two large arms 104, two first hydraulic cylinders 105, two second hydraulic cylinders 106, two small belt pulleys 107, four first guide rails 108, four first sliding blocks 109, a belt pulley seat 110, a first rotating shaft 111, a universal shaft 112, an electric motor 113, a cross beam 114, four hydraulic motors 115 and four belt pulley fixing frames 116. The engine 102 is fixedly mounted on the rear upper end surface of the frame 101. Four hydraulic motors 115 are fixedly mounted on the four legs below the frame 101. The four wheels 103 are fixedly connected with output shafts of four hydraulic motors 115, respectively. One ends of the two large arms 104 are respectively and rotatably installed on two sides of the front end of the frame 101, and the other ends of the two large arms are respectively and rotatably installed on two sides of the crushing bucket 301. One ends of the two first hydraulic cylinders 105 are respectively hinged to two sides of the front end of the frame 101 and are positioned below the large arms 104, and the other ends of the two first hydraulic cylinders 105 are respectively hinged to the inner sides of the middles of the two large arms 104. One ends of the two second hydraulic cylinders 106 are respectively hinged at the outer sides of the middle parts of the two large arms 104, and the other ends are respectively hinged at the two sides of the crushing hopper 301 and are positioned above the large arms 104. Four first guide rails 108 are respectively and fixedly installed in the middle of the upper end face of the frame 101, the pulley seat 110 is slidably installed on the four first guide rails 108 through four first sliders 109, the first rotating shaft 111 is rotatably installed on the pulley seat 110, two small belt pulleys 107 are fixedly installed on the first rotating shaft 111, one ends of four belt pulley fixing frames 116 are respectively and rotatably installed on two sides of the two small belt pulleys 107, the other ends of the four belt pulley fixing frames are respectively and rotatably installed on two sides of the two large belt pulleys 206, and the small belt pulleys 107 and the large belt pulleys 206 are connected through belts. The motor 113 is fixedly mounted on a bracket above the frame 101, one end of the universal joint shaft 112 is fixedly connected with an output shaft of the motor 113, and the other end is fixedly connected with the first rotating shaft 111. A cross beam 114 with a tooth groove is arranged below the frame 101.

The extrusion module 2 comprises a first fixed bracket 201, four second guide rails 202. Four second sliding blocks 203, four third hydraulic cylinders 204, a second fixed bracket 205, a large belt pulley 206, a second rotating shaft 207, two crankshafts 208, two rocker bars 209 and two extrusion claws 210. Each second guide rail 202 is composed of two optical axes, and the first fixing bracket 201 and the second fixing bracket 205 are fixedly connected through four second guide rails 202 arranged in parallel. The four second sliding blocks 203 are respectively slidably mounted on the four second guide rails 202, the middle parts of the second sliding blocks 203 are provided with rotating shaft seats, hinge supports are arranged at the rear parts of the second sliding blocks, the four third hydraulic cylinders 204 are hinged in the second fixed support 205, the end parts of the four third hydraulic cylinders 204 are hinged on the hinge supports of the four second sliding blocks 203, the second rotating shaft 207 is rotatably mounted on the rotating shaft seats of the four second sliding blocks 203, and the large belt pulley 206 is fixedly mounted in the center of the second rotating shaft 207. Two sections of crankshafts 208 are arranged on the second rotating shaft 207, two rocking bars 209 are respectively hinged on the eccentric sections of the two sections of crankshafts 208, and the other ends of the rocking bars are respectively hinged on the upper ends of two extrusion claws 210. The middle parts of the two pressing claws 210 are hinged on the hinge bracket at the lower end of the first fixing bracket 201.

The crushing bucket module 3 comprises a crushing bucket 301, two fourth hydraulic cylinders 302, two swing arms 303, two fifth hydraulic cylinders 304, a slide bar 305, a jaw 306 and a push rod 307. Broken fill 301 rear is equipped with the opening, and swing arm 303 is two parallel bars, and the tip passes through pivot fixed connection, and two swing arms 303 rotate through the pivot of tip and install on the front end upper portion of broken fill 301 both sides, and two fourth pneumatic cylinders 302 one end articulate in broken fill 301 side, and the other end articulates at two swing arm 303 outside lower extremes. The crushing bucket 301 is provided with a plurality of through guide grooves on the upper end surface inside, each guide groove is provided with a sliding rod 305, the rear parts of the sliding rods 305 are fixedly connected through a push rod 307, each sliding rod 305 is hinged with a plurality of clamping jaws 306, the clamping jaws 306 face the rear part, and the rear parts of the clamping jaws 306 are connected with the sliding rods 305 through springs. The two fifth hydraulic cylinders 304 are respectively and fixedly installed at the lower parts of the two sides of the crushing bucket 301, and the end parts of the telescopic rods of the two fifth hydraulic cylinders 304 are fixedly connected with the push rod 307.

The crushing wheel 4 comprises an electric roller 401, seven planet carriers 402, seven pinions 403, planet wheels 404, seven internal gears 405, crushing pins 406, runners 407, slip rings 408. Seven pinion gears 403 are fixedly mounted on the electric roller 401, seven planet carriers 402 are fixedly connected together, the planet carriers 402 on two sides are fixedly connected with two swing arms 303, sliding grooves 407 are formed in the planet carriers 402, three planet gears 404 meshed with the pinion gears 403 are mounted on each planet carrier 402, seven inner gears 405 are rotatably mounted on the seven planet carriers 402 respectively, sliding rings 408 on the seven inner gears 405 are matched with the sliding grooves 407 in the planet carriers 402, and each inner gear 405 is meshed with the adjacent planet gears 404. The gear ratio of the pinion 403 and the planet wheel 404 on each planet carrier 402 is different, so that the rotating speed of the internal gear 405 on each group of planet carriers 402 is different, and a plurality of crushing nails 406 are uniformly distributed on the outer side of the internal gear 405.

The working principle of the invention is as follows: according to the invention, the angle of the crushing bucket module 3 is adjusted through the linkage of the first hydraulic cylinder 105 and the second hydraulic cylinder 106, the fifth hydraulic cylinder 304 is stretched to enable the push rod 307 to drive the slide rod 305 to slide back and forth, the claw 306 pulls large building garbage back when the slide rod 305 slides backwards, the claw 306 is pressed downwards by the garbage when the slide rod 305 slides forwards, and the slide rod 305 slides forwards so as not to push the garbage forwards; the distance between the crushing wheel 4 and the bottom surface of the crushing bucket 301 is telescopically adjusted through a fourth hydraulic cylinder 302; the electric roller 401 at the center of the crushing wheel 4 rotates to drive the inner gear 405 to rotate through the planetary mechanism, so that the crushing nails 406 crush the construction waste, and the inner gear 405 rotates at different speeds due to different gear ratios of each group of planetary mechanisms; the crushing efficiency is improved through differential speed; the extrusion module 2 extends and retracts through the third hydraulic cylinder 204 to enable the second sliding block 203 to slide on the second guide rail, so that the angle of the extrusion claw 210 is changed; the motor 113 drives the first rotating shaft through the universal shaft 112 to rotate the small belt pulley 107; the small belt pulley 107 drives the large belt pulley 206 to rotate, and the crankshaft 208 drives the rocker 209 to vibrate the extrusion claw 210; when the second sliding block 203 slides, the pulley seat 110 is driven to lift through the pulley fixing frame 116; when massive construction waste needs to be cut off, the device runs above the waste, the waste is clamped by the extrusion claws 210, and meanwhile, the construction waste is cut into small blocks by the vibration of the extrusion claws 210.

Claims

1. The utility model provides a portable construction waste treatment equipment, includes automobile body (1), two extrusion module (2), broken fill module (3), broken wheel (4), its characterized in that: the two extrusion modules (2) are fixedly arranged on two sides of the upper end face of the frame (101) of the vehicle body (1) through respective first fixing supports (201) and second fixing supports (205), the two extrusion modules (2) are arranged in a staggered mode in tandem, and the extrusion claws (210) are located below the vehicle body (1); the crushing bucket module (3) is arranged at the end part of a large arm (104) of the car body (1); two ends of a rotating shaft of an electric roller (401) of the crushing wheel (4) are respectively and fixedly arranged at the end part of the inner side of a swing arm (303) of the crushing bucket module (3);

the extrusion module (2) comprises a first fixed bracket (201) and four second guide rails (202); four second sliding blocks (203), four third hydraulic cylinders (204), a second fixed bracket (205), a large belt pulley (206), a second rotating shaft (207), two crankshafts (208), two rocking bars (209) and two extrusion claws (210); each second guide rail (202) consists of two optical axes, and the first fixed bracket (201) is fixedly connected with the second fixed bracket (205) through four second guide rails (202) which are arranged in parallel; four second sliding blocks (203) are respectively arranged on the four second guide rails (202) in a sliding way, a rotating shaft seat is arranged in the middle of each second sliding block (203), a hinged support is arranged at the rear of each second sliding block (203), and four third hydraulic cylinders (204) are hinged on a second fixed support (205)

The end parts of four third hydraulic cylinders (204) are hinged on hinge supports of four second sliding blocks (203), a second rotating shaft (207) is rotatably arranged on rotating shaft seats of the four second sliding blocks (203), and a large belt pulley (206) is fixedly arranged in the center of the second rotating shaft (207); two sections of crankshafts (208) are arranged on the second rotating shaft (207), one ends of two rocking rods (209) are respectively hinged to the eccentric sections of the two sections of crankshafts (208), and the other ends of the two rocking rods are respectively hinged to the upper ends of two extrusion claws (210); the middle parts of the two extrusion claws (210) are hinged on a hinged support at the lower end of the first fixed support (201);

the crushing bucket module (3) comprises a crushing bucket (301), two fourth hydraulic cylinders (302), two swing arms (303), two fifth hydraulic cylinders (304), a sliding rod (305), a clamping jaw (306) and a push rod (307); an opening is formed in the rear of the crushing hopper (301), the swing arms (303) are two parallel rods, the end parts of the two parallel rods are fixedly connected through a rotating shaft, the two swing arms (303) are rotatably installed on the upper parts of the front ends of the two sides of the crushing hopper (301) through the rotating shafts of the end parts, one ends of the two fourth hydraulic cylinders (302) are hinged to the side surface of the crushing hopper (301), and the other ends of the two fourth hydraulic cylinders are hinged to the lower ends of the outer sides of the two swing arms (303; the crushing hopper (301) is characterized in that a plurality of through guide grooves are formed in the upper end face of the inside of the crushing hopper (301), a sliding rod (305) is arranged in each guide groove, the rear parts of the sliding rods (305) are fixedly connected through a push rod (307), a plurality of clamping jaws (306) are hinged to each sliding rod (305), the clamping jaws (306) face the rear parts, and the rear parts of the clamping jaws (306) are connected with the sliding rods (305) through springs; the two fifth hydraulic cylinders (304) are respectively and fixedly arranged at the lower parts of the two sides of the crushing hopper (301), and the end parts of telescopic rods of the two fifth hydraulic cylinders (304) are fixedly connected with a push rod (307);

the crushing wheel (4) comprises an electric roller (401), seven planet carriers (402), seven pinions (403), planet wheels (404), seven internal gears (405), crushing nails (406), a sliding chute (407) and a sliding ring (408); the electric roller (401) is fixedly provided with seven pinions (403), seven planet carriers (402) are fixedly connected together, the planet carriers (402) on two sides are fixedly connected with two swing arms (303), a sliding groove (407) is formed in each planet carrier (402), three planet gears (404) meshed with the pinions (403) are arranged on each planet carrier (402), the seven internal gears (405) are respectively rotatably arranged on the seven planet carriers (402), a sliding ring (408) on the seven internal gears (405) is matched with the sliding groove (407) in the planet carrier (402), and each internal gear (405) is meshed with the adjacent planet gear (404).

2. The mobile construction waste disposal apparatus according to claim 1, wherein: the vehicle body (1) comprises a vehicle frame (101), an engine (102), four wheels (103), two large arms (104), two first hydraulic cylinders (105), two second hydraulic cylinders (106), two small belt pulleys (107), four first guide rails (108), four first sliding blocks (109), a belt pulley seat (110), a first rotating shaft (111), a universal joint shaft (112), an electric motor (113), a cross beam (114), four hydraulic motors (115) and four belt pulley fixing frames (116); the engine (102) is fixedly arranged on the upper end surface of the rear part of the frame (101); the four hydraulic motors (115) are fixedly arranged on the four legs below the frame (101); the four wheels (103) are respectively and fixedly connected with output shafts of the four hydraulic motors (115); one ends of the two large arms (104) are respectively and rotatably arranged on two sides of the front end of the frame (101), and the other ends of the two large arms are respectively and rotatably arranged on two sides of the crushing hopper (301); one ends of the two first hydraulic cylinders (105) are respectively hinged on the frame

(101) The two sides of the front end are positioned below the large arms (104), and the other ends of the two first hydraulic cylinders (105) are respectively hinged to the inner sides of the middles of the two large arms (104); one ends of the two second hydraulic cylinders (106) are respectively hinged to the outer sides of the middle parts of the two large arms (104), and the other ends of the two second hydraulic cylinders are respectively hinged to the two sides of the crushing hopper (301) and are positioned above the large arms (104); the four first guide rails (108) are respectively and fixedly arranged in the middle of the upper end face of the frame (101), the belt wheel seat (110) is slidably arranged on the four first guide rails (108) through four first sliding blocks (109), the first rotating shaft (111) is rotatably arranged on the belt wheel seat (110), the two small belt wheels (107) are fixedly arranged on the first rotating shaft (111), one ends of the four belt wheel fixing frames (116) are respectively and rotatably arranged on two sides of the two small belt wheels (107), the other ends of the four belt wheel fixing frames are respectively and rotatably arranged on two sides of the two large belt wheels (206), and the small belt wheels (107) are connected with the large belt wheels (206) through belts; the motor (113) is fixedly arranged on a bracket above the frame (101), one end of the universal joint shaft (112) is fixedly connected with an output shaft of the motor (113), and the other end of the universal joint shaft is fixedly connected with the first rotating shaft (111); and a cross beam (114) with a tooth groove is arranged below the frame (101).

3. The mobile construction waste disposal apparatus according to claim 1, wherein: the gear ratio of the pinion (403) and the planet wheel (404) on each planet carrier (402) is different.

4. The mobile construction waste disposal apparatus according to claim 1, wherein: a plurality of crushing nails (406) are uniformly distributed on the outer side of the internal gear (405).