CN112138817A

CN112138817A - Multistage high-efficient breaker is used to marsh gas engineering

Info

Publication number: CN112138817A
Application number: CN202011103217.7A
Authority: CN
Inventors: 肖舒澎
Original assignee: Longyan Dongtu Technology Co ltd
Current assignee: Longyan Dongtu Technology Co ltd
Priority date: 2020-10-15
Filing date: 2020-10-15
Publication date: 2020-12-29

Abstract

The invention discloses a multistage high-efficiency crushing device for biogas engineering, which comprises a base, a servo motor, a transmission case, a crushing case, an auxiliary feeding device, a collecting case and an auxiliary screening device, wherein the auxiliary feeding device is arranged in the middle of the top end surface of the crushing case, a first motor drives a first transmission mechanism to rotate, the transmission mechanism drives a reciprocating motion to reciprocate, so that biological materials in a feeding hopper sequentially and quantitatively enter the storage case, the one-time addition can be controlled, the work is improved, the auxiliary screening device is arranged in the middle of the rear end of the top end surface of the crushing case, a second motor drives a second transmission mechanism to rotate, the second transmission mechanism drives an impacting mechanism to move leftwards, so that the impacting mechanism impacts a filtering mechanism, and the filtering mechanism screens sand stones in raw materials, avoid the material after the crushing processing to contain too much impurity.

Description

Multistage high-efficient breaker is used to marsh gas engineering

Technical Field

The invention relates to the related field of crushing devices, in particular to a multistage efficient crushing device for biogas engineering.

Background

The large and medium-sized biogas engineering technology is a rural energy engineering technology which aims at developing and utilizing the feces of a farm to obtain energy and treat environmental pollution and realize virtuous cycle of agricultural ecology, the biogas technologies researched and developed at present in China are divided into three types, namely CSTR, USR and UASB process engineering, and a multistage crushing device is required to be used for crushing biological raw materials in the biogas production process.

When the multistage crushing device is used, because a worker cannot well master the one-time feeding amount during feeding, the device is blocked due to excessive feeding amount, the crushing efficiency is reduced due to too little feeding amount, and the working efficiency is reduced; and the biological raw materials often contain part of sand and stones, so that the methane production rate is reduced, the workload of workers is increased, and the qualification rate of methane production is reduced.

Disclosure of Invention

Therefore, in order to solve the above disadvantages, the present invention provides a multistage high-efficiency crushing device for biogas engineering.

The invention is realized in such a way, a multistage efficient crushing device for biogas engineering is constructed, the device comprises a base, the middle part of the rear end of the top end surface of the base is fixed with the bottom end surface of a crushing box by welding, the middle part of the front end of the top end surface of the crushing box is welded with the bottom end surface of an auxiliary feeding device, the middle part of the rear end of the top end surface of the crushing box is fixed with the bottom end surface of an auxiliary screening device by welding, the auxiliary feeding device comprises a storage box, a first motor, a first power wire, a feeding hopper, a first transmission mechanism, a reciprocating mechanism, a supporting plate, a filtering mechanism and a strip-shaped through hole, the bottom end surface of the storage box is welded with the middle part of the front end of the top end surface of the crushing box, the middle part of the left side of the top end surface of the storage box is fixed with the bottom end surface of, the storage box top end face right-hand member middle part is fixed through the welding with feeder hopper bottom end face, first motor front end output shaft is connected with first drive mechanism top end face left side middle part, first drive mechanism bottom end face right side middle part is connected with reciprocating mechanism top end face left side middle part, reciprocating mechanism bottom end face left side middle part and backup pad top end face right side middle part welded fastening, the inside bottom middle part of storage box is provided with filter equipment, storage box left surface bottom middle part is provided with the bar through-hole.

Preferably, the left side of the front end of the top end face of the base and the bottom end face of the servo motor are fixed through bolts, the output shaft at the front end of the servo motor is connected with the middle part of the front end of the right side surface of the transmission case, the middle part of the top end of the right side surface of the crushing case is connected with the left side surface of the first coupler, the middle part of the bottom end of the right side surface of the crushing box is fixedly connected with the left side surface of the second coupler, the base is internally provided with a collecting box, the middle part of the top end of the right side surface of the collecting box is welded with the left side surface of the handle, the middle part of the left side surface of the first coupling is connected with the right end of the first belt pulley, the middle part of the left side surface of the first belt pulley is rotationally connected with the right end of the coarse crushing cutter, the outer side surface of the first belt pulley is provided with a first belt, the first belt pulley is rotatably connected with a first driven wheel through a first belt, and the middle of the left side face of the first driven wheel is connected with the right end of the fine crushing cutter.

Preferably, supplementary sieving mechanism includes casing, fixing base, second motor, second power cord, second drive mechanism and striking mechanism, casing bottom face and broken case top end face rear end middle part welding, the inside bottom face right side middle part of casing welds mutually with the fixing base bottom face, fixing base top end face middle part is fixed through the bolt with second motor bottom face, second motor right flank is connected with the second power cord to the second motor is connected with the second power cord electricity, terminal surface is connected with second drive mechanism back right side middle part before the second motor, terminal surface left side middle part and striking mechanism back top middle part fixed connection before the second drive mechanism.

Preferably, the first transmission mechanism comprises a second belt pulley, a second belt and a second driven wheel, the middle of the top end face of the second belt pulley is connected with an output shaft at the front end of the first motor, the second belt is arranged on the outer side face of the second belt pulley, and the second belt pulley is rotatably connected with the second driven wheel through the second belt.

Preferably, reciprocating mechanism includes connecting rod, C type connecting rod, movable rod and first fixed sleeve, connecting rod back right side middle part is connected from the preceding terminal surface middle part of driving wheel with the second, terminal surface left side middle part is articulated with C type connecting rod back top middle part before the connecting rod, terminal surface left side swing joint before C type connecting rod back left side middle part and the movable rod, movable rod lateral surface middle part is provided with first fixed sleeve to first fixed sleeve back and the welding of storage box inner wall.

Preferably, filtering mechanism includes filter screen and spring, the filter screen lateral surface is connected with the inside bottom face middle part of material storage box, filter screen left and right sides face middle part and the inboard elastic fixation of spring.

Preferably, the second transmission mechanism comprises a third belt pulley, a third belt and a third driven wheel, the middle of the back of the third belt pulley is connected with an output shaft at the front end of the second motor, the third belt is arranged on the outer side surface of the third belt pulley, and the third belt pulley is rotatably connected with the third driven wheel through the third belt.

Preferably, striking mechanism includes disc, fixed column, movable frame, the teeth of a cogwheel, rack, the fixed sleeve of second and striking rod, disc back middle part is connected from the preceding terminal surface middle part of driving wheel with the third, the terminal surface outside is fixed with fixed column back welded before the disc, the fixed column lateral surface is provided with movable frame, movable frame bottom end face is provided with the teeth of a cogwheel, movable frame bottom end face is provided with the rack, both ends respectively are provided with the fixed sleeve of second about the rack lateral surface to the fixed sleeve bottom end face of second and the inside bottom end face welded fastening of casing, rack left surface middle part and striking rod right-hand member pass through welded fastening.

Preferably, the striking rod is of a cuboid structure, and the movable length range of the striking rod is 0-15 cm.

Preferably, the spring is of a cylindrical structure, and the telescopic length of the spring ranges from 0cm to 5 cm.

Preferably, the spring is made of carbon steel.

Preferably, the striking rod is made of 45-grade steel.

The invention has the following advantages: the invention provides a multistage efficient crushing device for biogas engineering through improvement, which has the following improvements compared with the same type of equipment:

the method has the advantages that: according to the multistage efficient crushing device for the biogas engineering, the auxiliary feeding device is arranged in the middle of the top end face of the crushing box, the first motor drives the first transmission mechanism to rotate, the first transmission mechanism drives the first transmission mechanism to reciprocate, and then biological materials in the feeding hopper sequentially and quantitatively enter the storage box, so that one-time feeding can be controlled, and the working efficiency is improved.

The method has the advantages that: according to the multistage efficient crushing device for the biogas engineering, the auxiliary screening device is arranged in the middle of the rear end of the top end face of the crushing box, the second motor drives the second transmission mechanism to rotate, the second transmission mechanism drives the impact mechanism to move leftwards, and then the impact mechanism impacts the filtering mechanism, so that sand and stones in raw materials can be screened out by the filtering mechanism, and the crushed materials are prevented from containing excessive impurities.

The method has the advantages that: according to the multistage efficient crushing device for the biogas engineering, the filtering mechanism is arranged at the bottom end inside the material storage box, the filter screen can shake under the elastic action of the spring when being impacted, the filter screen can further perform screening work on materials to be crushed, sand and stones in the materials are screened and filtered, and the biogas yield is improved conveniently.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front cross-sectional structural schematic view of the present invention;

FIG. 3 is a schematic view of the auxiliary charging device according to the present invention;

FIG. 4 is a front sectional structural schematic view of the auxiliary charging device of the present invention;

FIG. 5 is a side cross-sectional structural schematic view of the auxiliary screening apparatus of the present invention;

fig. 6 is a front view structure schematic diagram of the reciprocating mechanism of the invention.

Wherein: a base-1, a servo motor-2, a transmission case-3, a crushing case-4, an auxiliary feeding device-5, a storage case-51, a first motor-52, a first power line-53, a feed hopper-54, a first transmission mechanism-55, a second belt pulley-551, a second belt pulley-552, a second driven wheel-553, a reciprocating mechanism-56, a connecting rod-561, a C-shaped connecting rod-562, a movable rod-563, a first fixed sleeve-564, a supporting plate-57, a filtering mechanism-58, a filter screen-581, a spring-582, a strip through hole-59, a first coupling-6, a second coupling-7, a collecting box-8, a handle-9, a first belt pulley-10, a rough crushing knife-11, The device comprises a first belt-12, a first driven wheel-13, a fine crushing cutter-14, an auxiliary screening device-15, a shell-151, a fixed seat-152, a second motor-153, a second power line-154, a second transmission mechanism-155, a third belt pulley-1551, a third belt-1552, a third driven wheel-1553, an impact mechanism-156, a disc-1561, a fixed column-1562, a movable frame-1563, a gear tooth-1564, a rack-1565, a second fixed sleeve-1566 and an impact rod-1567.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 6, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1, 2 and 5, the invention provides a multistage efficient crushing device for biogas engineering by improvement, comprising a base 1, wherein the middle part of the rear end of the top surface of the base 1 is fixed with the bottom surface of a crushing box 4 by welding, the middle part of the front end of the top surface of the crushing box 4 is welded with the bottom surface of an auxiliary feeding device 5, the middle part of the rear end of the top surface of the crushing box 4 is fixed with the bottom surface of an auxiliary screening device 15 by welding, the left side of the front end of the top surface of the base 1 is fixed with the bottom surface of a servo motor 2 by bolts, the front output shaft of the servo motor 2 is connected with the middle part of the front end of the right side surface of a transmission box 3, the middle part of the top end of the right side surface of the crushing box 4 is connected with the left side surface of a first coupler 6, the middle part of the bottom end of the right side surface of the crushing box 4 is fixedly connected with, first shaft coupling 6 left surface middle part is connected with first belt pulley 10 right-hand member, and first belt pulley 10 left surface middle part is connected with the rotation of coarse crushing sword 11 right-hand member, and first belt pulley 10 lateral surface is provided with first belt 12, and first belt pulley 10 rotates with first from driving wheel 13 through first belt 12 to be connected, and first from driving wheel 13 left surface middle part is connected with fine crushing sword 14 right-hand member.

Referring to fig. 3 and 4, the present invention provides a multistage high efficiency crushing device for biogas engineering through improvement, the auxiliary feeding device 5 comprises a storage box 51, a first motor 52, a first power line 53, a feed hopper 54, a first transmission mechanism 55, a reciprocating mechanism 56, a support plate 57, a filter mechanism 58 and a strip-shaped through hole 59, the bottom end face of the storage box 51 is welded with the middle part of the front end of the top end face of the crushing box 4, the middle part of the left side of the top end face of the storage box 51 is fixed with the bottom end face of the first motor 52 through a bolt, the top end face of the first motor 52 is connected with the first power line 53, the first motor 52 is electrically connected with the first power line 53, the middle part of the right end face of the storage box 51 is fixed with the bottom end face of the feed hopper 54 through welding, the front output shaft of the first motor 52 is connected with the middle part of the left side of the top end face of the first transmission mechanism 55, the middle part of the left side of the bottom end face of the reciprocating mechanism 56 is welded and fixed with the middle part of the right side of the top end face of the supporting plate 57, the middle part of the bottom end inside the storage box 51 is provided with a filtering mechanism 58, and the middle part of the bottom end of the left side face of the storage box 51 is provided with a strip-shaped through hole 59.

Referring to fig. 4, the multistage efficient crushing device for biogas engineering provided by the invention is improved, wherein the filtering mechanism 58 comprises a filter screen 581 and a spring 582, the outer side surface of the filter screen 581 is connected with the middle part of the bottom end surface in the storage box 51, the middle parts of the left side surface and the right side surface of the filter screen 581 are elastically fixed with the inner side of the spring 582, the spring 582 is of a cylindrical structure, the telescopic length range of the spring 582 is 0-5cm, the telescopic length range is large, the screening range can be enlarged, the screening is convenient, the spring 582 is made of carbon steel, the carbon steel is high in hardness and toughness, and the service life of the device can.

Referring to fig. 5, the multistage high-efficiency crushing device for biogas engineering is provided by improving the multistage high-efficiency crushing device for biogas engineering, the second transmission mechanism 155 comprises a third belt pulley 1551, a third belt 1552 and a third driven wheel 1553, the middle of the back of the third belt pulley 1551 is connected with the output shaft at the front end of the second motor 153, the outer side surface of the third belt pulley 1551 is provided with the third belt 1552, and the third belt pulley 1551 is rotatably connected with the third driven wheel 1553 through the third belt 1552.

Referring to fig. 5, the present invention provides a multistage high efficiency crushing apparatus for biogas engineering through improvement, wherein an impact mechanism 156 includes a disc 1561, a fixed column 1562, a movable frame 1563, a gear tooth 1564, a rack 1565, a second fixed sleeve 1566 and an impact bar 1567, the middle of the back of the disc 1561 is connected with the middle of the front end surface of a third driven wheel 1553, the outer side of the front end surface of the disc 1561 is welded and fixed with the back of the fixed column 1562, the outer side surface of the fixed column 1562 is provided with the movable frame 1563, the bottom end surface of the movable frame 1563 is provided with the gear tooth 1564, the bottom end surface of the movable frame 1563 is provided with the rack 1565, the left and right ends of the outer side surface of the rack 1565 are respectively provided with the second fixed sleeve 1566, the bottom end surface of the second fixed sleeve 1566 is welded and fixed with the inner surface of a housing 151, the middle of the left side surface of the rack 1565 is, the large impact force to the filter screen 581 can be increased by the large range of the movable length, the screening is convenient, the impact rod 1567 is No. 45 steel, the strength of the No. 45 steel is high, the strength is high, and the service life of the device can be prolonged.

Referring to fig. 5, the present invention provides a multistage high efficiency crushing device for biogas engineering through improvement, wherein the auxiliary screening device 15 includes a casing 151, a fixing seat 152, a second motor 153, a second power line 154, a second transmission mechanism 155 and an impact mechanism 156, a bottom end surface of the casing 151 is welded to a middle portion of a rear end of a top end surface of the crushing box 4, a right middle portion of a bottom end surface of the inside of the casing 151 is welded to a bottom end surface of the fixing seat 152, a middle portion of the top end surface of the fixing seat 152 is fixed to a bottom end surface of the second motor 153 through a bolt, a right side surface of the second motor 153 is connected to the second power line 154, the second motor 153 is electrically connected to the second power line 154, a front end surface of the second motor 153 is connected to a right middle portion of a back of the second transmission mechanism 155, and a left middle portion of a.

Referring to fig. 6, the first transmission mechanism 55 of the multistage high-efficiency crushing device for biogas engineering provided by the present invention comprises a second pulley 551, a second belt 552 and a second driven wheel 553, wherein the middle of the top end surface of the second pulley 551 is connected to the front output shaft of the first motor 52, the second belt 552 is disposed on the outer side surface of the second pulley 551, and the second pulley 551 is rotatably connected to the second driven wheel 553 through the second belt 552.

Referring to fig. 6, the present invention provides a multistage high efficiency crushing device for biogas engineering through improvement, wherein the reciprocating mechanism 56 includes a connecting rod 561, a C-shaped connecting rod 562, a movable rod 563, and a first fixed sleeve 564, the middle of the right side of the back of the connecting rod 561 is connected to the middle of the front end face of the second driven wheel 553, the middle of the left side of the front end face of the connecting rod 561 is hinged to the middle of the top end of the back of the C-shaped connecting rod 562, the middle of the left side of the back of the C-shaped connecting rod 562 is movably connected to the left side of the front end face of the movable rod 563, the middle of the outer side face of the movable rod 563 is provided with the first.

Example two

The invention provides a multistage efficient crushing device for biogas engineering through improvement, wherein a second belt pulley 551 is of a cylindrical structure with a concave middle part, and the concave depth of the middle part is 5mm longer than the thickness of a second belt 552, so that the second belt 552 is prevented from falling off; the diameter of the movable rod 563 is 5mm shorter than the width of the inside of the first fixed sleeve 564, and the movable length range of the movable rod 563 is 0-20cm, so that the material feeding is conveniently controlled; the gear teeth 1564 are matched with the middle of the top end face of the rack 1565, and the contact faces of the gear teeth 1564 and the rack 1565 are completely overlapped, so that the gear teeth 1564 can drive the rack 1565 to move in a meshing manner.

The invention provides a multistage efficient crushing device for biogas engineering through improvement, and the working principle is as follows;

firstly, placing a multistage efficient crushing device for a biogas project on the ground;

secondly, the user then pours the material to be crushed into the hopper 54, through which the material enters the bin 51;

thirdly, in order to control the amount of the disposable material feeding, the user connects the first power line 53 to the power source, the first motor 52 starts to work, the output shaft at the front end of the first motor 52 drives the second belt pulley 551 to rotate, and the second belt pulley 551 drives the second driven wheel 553 to rotate through the second belt 552;

fourthly, the second driven wheel 553 drives the connecting rod 561 to rotate, then the connecting rod 561 drives the C-shaped connecting rod 562 to rotate around the left end of the connecting rod 561, the C-shaped connecting rod 562 drives the movable rod 563 to move rightwards along the first fixed sleeve 564, and then the movable rod 564 penetrates through the feeding hopper 54, so that quantitative feeding of materials by the feeding hopper 54 is facilitated;

fifthly, the material to be processed falls on the top end of the filter screen 581, and sand and stones in the material are screened out;

sixthly, when the user turns on the second power line 154, the second motor 153 starts to work, the output shaft at the front end of the second motor 153 drives the third belt pulley 1551 to rotate, and then the third belt pulley 1551 drives the third driven wheel 1553 to rotate through the third belt 1552;

seventh, the third driven wheel 1553 drives the disc 1561 to rotate, the disc 1561 drives the fixed column 1562 to rotate, the fixed column 1562 drives the gear teeth 1564 to move leftward through the movable frame 1563, and then the gear teeth 1564 drives the rack 1565 to move leftward along the second fixed sleeve 1565, so that the second fixed sleeve 1565 impacts the filter screen 581, and then the filter screen 581 can screen out sand and stones under the elastic action of the spring 582, thereby preventing the sand and stones from being mixed into the material;

eighth, the last user is with 2 switch on power supplies of servo motor, and servo motor 2 begins work, and 2 front end output shafts of servo motor drive transmission case 3 and rotate, and then drive coarse crushing sword 11 and rotate, then drive first belt pulley 10 and rotate, then first belt pulley 10 is beaten first from driving wheel 13 through first belt 12 and is rotated to drive thin crushing sword 14 and rotate, can carry out multistage processing to the material.

The invention provides a multistage efficient crushing device for biogas engineering through improvement, an auxiliary feeding device 5 is arranged in the middle of the top end face of a crushing box 4, a first motor 52 drives a first transmission mechanism 55 to rotate, the first transmission mechanism 55 drives the reciprocating motion to carry out reciprocating motion, and then biological materials in a feed hopper 54 enter a storage box 51 in a successive quantitative mode, so that one-time feeding can be controlled, and the working efficiency is improved; by arranging the auxiliary screening device 15 in the middle of the rear end of the top end face of the crushing box 4, the second motor 153 drives the second transmission mechanism 155 to rotate, the second transmission mechanism 155 drives the impact mechanism 156 to move leftwards, and then the impact mechanism 156 impacts the filtering mechanism 58, so that the filtering mechanism 58 can screen sand and stones in raw materials, and the crushed and processed materials are prevented from containing excessive impurities; through having set up filtering mechanism 58 in the inside bottom of material storage box 51, filter screen 581 receives the striking and can produce under the elastic action of spring 581 and rock, and then makes filter screen 581 treat broken material and carry out screening work, screens the gravel and sand in the material and filters out, is convenient for improve the marsh gas qualification rate.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A multistage efficient crushing device for biogas engineering comprises a base (1), wherein the middle part of the rear end of the top end surface of the base (1) is fixed with the bottom end surface of a crushing box (4) through welding;

the method is characterized in that: still include supplementary feeding device (5) and supplementary sieving mechanism (15), broken case (4) top end front end middle part and supplementary feeding device (5) bottom face welding, broken case (4) top end rear end middle part is fixed through the welding with supplementary sieving mechanism (15) bottom face, supplementary feeding device (5) are including storage box (51), first motor (52), first power cord (53), feeder hopper (54), first drive mechanism (55), reciprocating mechanism (56), backup pad (57), filtering mechanism (58) and bar through-hole (59), storage box (51) bottom end face and broken case (4) top end front end middle part welding, storage box (51) top end left side middle part is fixed through the bolt with first motor (52) bottom face, first motor (52) top end face is connected with first power cord (53), and first motor (52) are connected with first power cord (53) electricity, material storage box (51) top terminal surface right-hand member middle part is fixed through the welding with feeder hopper (54) bottom face, first motor (52) front end output shaft is connected with first drive mechanism (55) top terminal surface left side middle part, first drive mechanism (55) bottom terminal surface right side middle part is connected with reciprocating mechanism (56) top terminal surface left side middle part, reciprocating mechanism (56) bottom terminal surface left side middle part and backup pad (57) top terminal surface right side middle part welded fastening, the inside bottom middle part of material storage box (51) is provided with filtering mechanism (58), material storage box (51) left side bottom middle part is provided with bar through-hole (59).

2. The multistage efficient crushing device for the biogas engineering according to claim 1, which is characterized in that: the front end left side of the top end face of the base (1) is fixed with the bottom end face of a servo motor (2) through bolts, the front end output shaft of the servo motor (2) is connected with the front end middle part of the right side face of a transmission case (3), the top middle part of the right side face of a crushing case (4) is connected with the left side face of a first coupler (6), the bottom middle part of the right side face of the crushing case (4) is fixedly connected with the left side face of a second coupler (7), a collecting box (8) is arranged inside the base (1), the top middle part of the right side face of the collecting box (8) is welded with the left side face of a handle (9), the middle part of the left side face of the first coupler (6) is connected with the right end of a first belt pulley (10), the middle part of the left side face of the first belt pulley (10) is rotatably connected with the right end of a coarse crushing cutter, the first belt pulley (10) is rotatably connected with a first driven wheel (13) through a first belt (12), and the middle of the left side face of the first driven wheel (13) is connected with the right end of a fine crushing cutter (14).

3. The multistage efficient crushing device for the biogas engineering according to claim 1, which is characterized in that: the auxiliary screening device (15) comprises a shell (151), a fixed seat (152), a second motor (153), a second power line (154), a second transmission mechanism (155) and an impact mechanism (156), the bottom end surface of the shell (151) is welded with the middle part of the rear end of the top end surface of the crushing box (4), the right middle part of the bottom end surface inside the shell (151) is welded with the bottom end surface of the fixed seat (152), the middle part of the top end surface of the fixed seat (152) and the bottom end surface of the second motor (153) are fixed through bolts, the right side surface of the second motor (153) is connected with a second power line (154), the second motor (153) is electrically connected with a second power line (154), the front end surface of the second motor (153) is connected with the middle part of the right side of the back of the second transmission mechanism (155), the middle part of the left side of the front end surface of the second transmission mechanism (155) is fixedly connected with the middle part of the top end of the back of the impact mechanism (156).

4. The multistage efficient crushing device for the biogas engineering according to claim 1, which is characterized in that: the first transmission mechanism (55) comprises a second belt wheel (551), a second belt (552) and a second driven wheel (553), the middle of the top end face of the second belt wheel (551) is connected with an output shaft at the front end of the first motor (52), the second belt (552) is arranged on the outer side face of the second belt wheel (551), and the second belt wheel (551) is rotatably connected with the second driven wheel (553) through the second belt (552).

5. The multistage efficient crushing device for the biogas engineering according to claim 1, which is characterized in that: reciprocating mechanism (56) is including connecting rod (561), C type connecting rod (562), movable rod (563) and first fixed sleeve (564), connecting rod (561) back right side middle part is connected with second follow driving wheel (553) preceding terminal surface middle part, connecting rod (561) preceding terminal surface left side middle part is articulated with C type connecting rod (562) back top middle part, C type connecting rod (562) back left side middle part and movable rod (563) preceding terminal surface left side swing joint, movable rod (563) lateral surface middle part is provided with first fixed sleeve (564) to first fixed sleeve (564) back and bin (51) inner wall welding.

6. The multistage efficient crushing device for the biogas engineering according to claim 1, which is characterized in that: the filtering mechanism (58) comprises a filter screen (581) and a spring (582), the outer side face of the filter screen (581) is connected with the middle part of the bottom end face in the storage box (51), and the middle parts of the left side face and the right side face of the filter screen (581) are elastically fixed with the inner side of the spring (582).

7. The multistage efficient crushing device for the biogas engineering according to claim 3, wherein the multistage efficient crushing device comprises: second drive mechanism (155) include third belt pulley (1551), third belt (1552) and third from driving wheel (1553), third belt pulley (1551) back middle part is connected with second motor (153) front end output shaft, third belt pulley (1551) lateral surface is provided with third belt (1552), third belt pulley (1551) is connected with third from driving wheel (1553) rotation through third belt (1552).

8. The multistage efficient crushing device for the biogas engineering according to claim 3, wherein the multistage efficient crushing device comprises: the striking mechanism (156) comprises a disc (1561), a fixed column (1562), a movable frame (1563), gear teeth (1564), a rack (1565), a second fixed sleeve (1566) and a striking rod (1567), the middle part of the back of the disc (1561) is connected with the middle part of the front end surface of a third driven wheel (1553), the outer side of the front end face of the disc (1561) is welded and fixed with the back of the fixed column (1562), a movable frame (1563) is arranged on the outer side surface of the fixed column (1562), gear teeth (1564) are arranged on the bottom end surface of the movable frame (1563), a rack (1565) is arranged on the bottom end surface of the movable frame (1563), second fixed sleeves (1566) are respectively arranged at the left end and the right end of the outer side surface of the rack (1565), and the bottom end face of the second fixed sleeve (1566) is welded and fixed with the bottom end face of the inner part of the shell (151), the middle of the left side face of the rack (1565) is fixed with the right end of the impact rod (1567) by welding.

9. The multistage efficient crushing device for the biogas engineering according to claim 8, wherein: the striking rod (1567) is of a cuboid structure, and the movable length range of the striking rod (1567) is 0-15 cm.

10. The multistage efficient crushing device for the biogas engineering according to claim 6, wherein: the spring (582) is of a cylindrical structure, and the telescopic length range of the spring (582) is 0-5 cm.