CN219288697U

CN219288697U - Pig feed production line

Info

Publication number: CN219288697U
Application number: CN202320719070.7U
Authority: CN
Inventors: 朱建盛
Original assignee: Zhejiang Lvshenghui Feed Technology Co ltd
Current assignee: Zhejiang Lvshenghui Feed Technology Co ltd
Priority date: 2023-03-30
Filing date: 2023-03-30
Publication date: 2023-07-04
Anticipated expiration: 2033-03-30

Abstract

The utility model discloses a pig feed production line, which comprises at least one feeding mechanism for conveying feed; the first batching mechanisms are in one-to-one correspondence with the feeding mechanisms; the crushing mechanism is used for crushing the feed after primary batching; the second batching mechanism is used for secondary batching of the crushed feed, the feed in the first batching bin in the first batching mechanism and the feed in the second batching mechanism; the first discharging mechanism comprises a third batching mechanism and a first packing discharging mechanism; and the second discharging mechanism comprises a fourth batching mechanism and a second packing discharging mechanism. The utility model not only can realize quick feed proportioning and crush the feed after proportioning, but also can discharge and convey the crushed feed according to the need, thereby meeting the automatic control of a production line and greatly improving the production efficiency of the feed.

Description

Pig feed production line

Technical Field

The utility model relates to the technical field of production lines, in particular to a pig feed production line.

Background

The raw materials of the pig feed mostly adopt plants as production raw materials, the raw materials contain crops such as soybeans, corns and the like, and the raw materials generally comprise the procedures of crushing, stirring, stewing, granulating and the like during production, so that a certain amount of additives are generally added into the raw materials of the feed to improve the yield of the pig, and the feeding amount of the pig is improved.

In the prior art, raw material additives are generally added in a stirring procedure in the production process, and cannot be added in other processes, so that the production and processing of the pig feed are single, and the production of various pig feeds on the same production line cannot be met.

Disclosure of Invention

The utility model aims to provide a technical scheme of a pig feed production line aiming at the defects in the prior art, which not only can realize quick feed proportioning and crush the feed after proportioning, but also can discharge and convey the crushed feed according to the needs, thereby meeting the automatic control of the production line, greatly improving the production efficiency of the feed, simultaneously adding the required small materials in real time in the feed proportioning crushing process, and having simple operation.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a pig feed production line comprises

At least one feeding mechanism for conveying feed;

the method is characterized in that:

the first batching mechanisms are in one-to-one correspondence with the feeding mechanisms and are used for batching the conveyed feed once;

the crushing mechanism is used for crushing the feed after primary batching;

the second batching mechanism is used for secondarily batching the crushed feed, the feed in the first batching bin in the first batching mechanism and the feed in the second batching mechanism;

the first discharging mechanism comprises a third batching mechanism and a first packing discharging mechanism, and is used for batching the secondarily batched feed for three times and packing and discharging finished products by the first packing discharging mechanism;

and the second discharging mechanism comprises a fourth batching mechanism and a second packing discharging mechanism and is used for carrying out four times of batching on the secondarily-batched feed and carrying out finished product packing discharging by the second packing discharging mechanism.

Through the design of above-mentioned structure, not only can realize the quick batching of fodder to smash the fodder after the batching, can carry out ejection of compact with the fodder after smashing moreover as required and carry, satisfy the automatic control of production line, improved the production efficiency of fodder greatly, can add required small powder in real time at the batching crushing in-process simultaneously, easy operation.

Further, first batching mechanism includes first batching storehouse, first batching auger, the batching scale, first mixer, first scraper conveyor and third bucket elevator, first batching storehouse is equipped with first material loading level and first material discharging level, feeding mechanism is connected to first material loading level, first batching auger is connected to first material discharging level, the fodder of first batching auger output is input second batching mechanism or is input first mixer after weighing through the batching scale, mix through first mixer after first scraper conveyor by third bucket elevator input crushing mechanism, feeding mechanism can send the fodder into corresponding first batching storehouse through first material loading level respectively, control accuracy when carrying through first batching auger again improves fodder, the batching scale can weigh the fodder, and carry out mixing treatment with the fodder after weighing input first mixer, first mixer sends the fodder through first buffer hopper into first scraper conveyor, get rid of iron impurity through manual three-way feeding into first permanent magnetism section of thick bamboo again by third bucket elevator, finally input crushing mechanism carries out crushing treatment.

Further, the mixer is connected with a first small feed opening pulse dust collector through a first small feed opening, is used for conveying small feed to the first mixer, and can add the small feed to the feed after the ingredients according to the requirements, and the operation is flexible and convenient.

Further, crushing mechanism includes waiting crushing storehouse, first feeder, rubbing crusher, the auger of unloading, first air-lock, third pulse dust remover and fourth bucket elevator, the rubbing crusher is connected to first feeder, the rubbing crusher passes through the sedimentation chamber and connects the auger of unloading, the fodder in waiting crushing storehouse is input rubbing crusher through first feeder, get into the auger of unloading through the sedimentation chamber after the rubbing crusher is smashed and export, and send into buffer gear by fourth bucket elevator, the dust that produces when the rubbing crusher is smashed gets into third pulse dust remover through first air-lock and removes dust, third pulse dust remover is connected with the fan, first air-lock communicates fourth bucket elevator, first air-lock can adopt the saxalone air-lock for collect powder, and carry the powder after collecting input fourth bucket elevator.

Further, the second batching mechanism comprises a second batching bin, a second batching auger, a quantitative scale, a second mixer, a second scraper, a fifth lifter and a first pneumatic tee, the second batching bin is connected with a third distributor through a second feeding level, the third distributor is connected with a fourth pulse dust collector, the feed output by the first batching auger, the crushed feed and the feed in the second batching bin are all input into the quantitative scale for weighing through the second batching auger, the weighed feed is input into the second mixer for mixing, the second mixer is connected with the second small feed opening pulse dust collector through a second small feed gate, the mixed feed is input into the fifth lifter through the second scraper, the feed is respectively input into the first discharging mechanism and the second discharging mechanism through the fifth lifter through the first pneumatic tee, the crushed feed can be subjected to secondary batching through the second batching mechanism, and the batching is added according to the addition requirement of the small feed, so that the production requirement is met.

Further, the third batching mechanism comprises a third batching bin, a second feeder, a first conditioner, a first granulator, a first cooler, a second air-lock, a sixth lifting machine, a first classifying screen, a second pneumatic tee joint, a third scraper and a third pneumatic tee joint, the third batching bin is provided with a third feeding level and a fourth discharging level, the fourth discharging level is connected with the first conditioner through the second feeder, the first conditioner is connected with the first granulator, feed in the third batching bin is input into the first conditioner through the second feeder, the first cooler is connected with a first cooling fan through the second air-lock, the feed after the tempering treatment enters the first granulator to form particles, the feed after the classifying treatment is input into the first classifying screen through the first cooler, and the feed after the classifying treatment is respectively input into the third pneumatic tee joint and the third scraper through the second pneumatic tee joint.

Further, the first packing and discharging mechanism comprises a fourth proportioning bin, a second pneumatic gate, a first converging hopper and a first finished product packing scale, the fourth proportioning bin is provided with a fourth feeding level and a fifth discharging level, and feed in the fourth proportioning bin enters the first converging hopper through the second pneumatic gate through the fifth discharging level and is input into the first finished product packing scale for packing and conveying.

Further, the fourth batching mechanism comprises a fifth batching bin, a third feeder, a second conditioner, a second granulator, a second cooler, a third air-stop device, a seventh hoister, a second classifying screen, a fourth pneumatic tee joint and a fourth pneumatic tee joint, the fifth batching bin is provided with a fifth feeding level and a sixth discharging level, the sixth discharging level is connected with the second conditioner through the third feeder, the second conditioner is connected with the second granulator, the feed in the fifth batching bin is input into the second conditioner through the third feeder, the second cooler is connected with a second cooling fan through the third air-stop device, the feed after the tempering treatment enters the second granulator to form particles, the feed after the classifying treatment is input into the second classifying screen through the second cooler, and the feed after the classifying treatment is input into the second packing and discharging mechanism through the fourth pneumatic tee joint.

Further, the second packing discharge mechanism comprises a sixth proportioning bin, a third pneumatic gate, a second converging hopper and a second finished product packing scale, the sixth proportioning bin is provided with a sixth feeding level and a seventh discharging level, and feed in the sixth proportioning bin enters the second converging hopper through the third pneumatic gate through the seventh discharging level and is input into the second finished product packing scale for packing and conveying.

Further, the feeding mechanism comprises a pulse dust collector, a bucket elevator, a cylinder primary cleaning sieve and a distributor, wherein the pulse dust collector is connected with the cylinder primary cleaning sieve through the bucket elevator, the cylinder primary cleaning sieve is connected with the first batching mechanism through the distributor, and feed enters the bucket elevator through the pulse dust collector, is conveyed to the cylinder primary cleaning sieve through the bucket elevator and enters the first batching mechanism through the distributor.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

the utility model not only can realize quick batching of feed and crush the feed after batching, but also can discharge and convey the crushed feed according to the needs, thereby meeting the automatic control of a production line, greatly improving the production efficiency of the feed, simultaneously adding the required small feed in real time in the batching crushing process, and having simple operation.

Description of the drawings:

the utility model is further described below with reference to the accompanying drawings:

FIG. 1 is an effect diagram of a pig feed production line of the present utility model;

FIG. 2 is a schematic illustration of the connection between the feed mechanism and the first dispensing mechanism in accordance with the present utility model;

FIG. 3 is a schematic view of the connections between the pulverizing mechanism, the buffer mechanism and the second dosing mechanism of the present utility model;

FIG. 4 is a schematic diagram of the connection between the first discharging mechanism and the second discharging mechanism in the present utility model;

FIG. 5 is a schematic structural view of a first packing and discharging mechanism according to the present utility model;

fig. 6 is a schematic structural view of a second packing and discharging mechanism in the present utility model.

In the figure: 1-a feeding mechanism; 101-a first pulse dust collector; 102-a first bucket elevator; 103-first cylinder primary cleaning; 104-a first dispenser; 105-a second pulse dust collector; 106-a second bucket elevator; 107-a second cylinder primary screen; 108-a second dispenser;

2-a first batching mechanism; 201-a first loading level; 202-a first proportioning bin; 203-a first blanking level; 204-a first batching auger; 205-a first batching scale; 206-a second batching scale; 207-a first small-material-opening pulse dust collector; 208-a first small gate; 209-a first mixer; 210-a first buffer bucket; 211-a first scraper machine; 212-a third bucket elevator; 213-manual tee; 214-a first permanent magnet cartridge;

3-a crushing mechanism; 301-a bin to be crushed; 302-a second blanking level; 303-a first feeder; 304-a pulverizer; 305-settling chamber; 306-a first air shutter; 307-third pulse dust collector; 308-a fan; 309-a discharge auger; 310-fourth bucket elevator;

4-a buffer mechanism; 401-a surge bin; 402-a third blanking level; 403-a first pneumatic gate; 404-fourth pulse dust collector; 405-a third dispenser;

5-a second batching mechanism; 501-a second loading level; 502-a second proportioning bin; 503-a second batching auger; 504-a quantitative scale; 505-a second small feed inlet pulse dust collector; 506-a second small bin gate; 507-a second mixer; 508-a second buffer bucket; 509-a second scraper; 510-a fifth elevator; 511-a first pneumatic tee; 512-a second permanent magnet cylinder; 513-a third permanent magnet drum;

6-a third batching mechanism; 601-a third loading level; 602-a third proportioning bin; 603-fourth blanking level; 604-a second feeder; 605-a first conditioner; 606-a first granulator; 607-a first cooler; 608-a second air shutter; 609-a first cooling fan; 610-a sixth elevator; 611-a first classifying screen; 612-a second pneumatic tee; 613-a third scraper; 614-third pneumatic tee;

7-a first packing and discharging mechanism; 701-fourth loading level; 702-a fourth proportioning bin; 703-a fifth blanking level; 704-a second pneumatic gate; 705-first collection hopper; 706-a first finished product packing scale;

8-a fourth batching mechanism; 801-fifth loading level; 802-a fifth proportioning bin; 803-sixth blanking level; 804-a third feeder; 805-a second conditioner; 806-a second granulator; 807-a second cooler; 808-a third air shutter; 809-a second cooling fan; 810-seventh elevator; 811-a second classifying screen; 812-fourth pneumatic tee;

9-a second packing and discharging mechanism; 901-sixth loading level; 902-a sixth proportioning bin; 903-seventh blanking level; 904-a third pneumatic gate; 905-a second collection hopper; 906-second finished product packing scale.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, shall fall within the scope of the utility model.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

As shown in fig. 1 to 6, a pig feed production line according to the present utility model includes at least one feeding mechanism 1 for feeding feed. This application adopts two sets of feeding mechanism 1 to be the example, and feeding mechanism 1 includes pulse dust collector, bucket elevator, drum primary cleaning sieve and distributor, and pulse dust collector passes through bucket elevator and connects drum primary cleaning sieve, and drum primary cleaning sieve passes through distributor and connects first feed proportioning mechanism 2, and fodder gets into bucket elevator through pulse dust collector, carries to drum primary cleaning sieve by bucket elevator to get into first feed proportioning mechanism 2 through the distributor. The pulse dust collector specifically comprises a first pulse dust collector 101 and a second pulse dust collector 105, the bucket elevator specifically comprises a first bucket elevator 102 and a second bucket elevator 106, the cylindrical primary screen specifically comprises a first cylindrical primary screen 103 and a second cylindrical primary screen 107, and the distributor specifically comprises a first distributor 104 and a second distributor 108. The feed processed by the first pulse dust collector 101 and the second pulse dust collector 105 is respectively conveyed to the first cylinder primary cleaning sieve 103 and the second cylinder primary cleaning sieve 107 through the first bucket elevator 102 and the second bucket elevator 106 for primary cleaning and cleaning, the cleaning of feeds with different sizes is met, the cleaning effect is good, and the cleaned feed is conveyed to each first batching mechanism 2 through the first distributor 104 and the second distributor 108.

The production line also comprises first batching mechanisms 2 which are in one-to-one correspondence with the feeding mechanisms 1, wherein the first batching mechanisms 2 are used for batching the conveyed feed once. The application adopts two sets of first batching mechanism 2, every first batching mechanism 2 of group all includes a plurality of first batching storehouse 202, a plurality of first batching auger 204, the batching scale, first mixer 209, first scraper machine 211 and third bucket elevator 212, first batching mechanism in this application adopts 10 first batching storehouse 202, corresponds P01, P02, P03, P04, P05, P06, P07, P08, P09 and P10 respectively, second batching mechanism adopts 10 first batching storehouse 202, corresponds P11, P12, P13, P14, P15, P16, P17, P18, P19 and P20 respectively. Each first proportioning bin 202 is provided with a first feeding level 201 and a first discharging level 203, the first feeding level 201 is connected with the feeding mechanism 1, the first discharging level 203 is connected with the first proportioning auger 204, and feed output by the first proportioning auger 204 is input into the second proportioning mechanism 5 through an A1 channel or is input into the first mixer 209 after being weighed by the proportioning scale. The batching scale specifically comprises a first batching scale 205 and a second batching scale 206, the first batching scale 205 and the second batching scale 206 are mixed by a first mixer 209, then the mixed materials are input into a crushing mechanism 3 through a first scraper 211 by a third bucket elevator 212, the feed mechanism 1 can respectively feed the feed into a corresponding first batching bin 202 through a first feeding level 201, then the feed is conveyed through a first batching auger 204, the control precision of feed conveying is improved, the batching scale can weigh the feed, the weighed feed is input into the first mixer 209 for mixing treatment, the first mixer 209 feeds the feed into the first scraper 211 through a first buffer hopper 210, the feed is fed into a first permanent magnet barrel 214 through a third bucket elevator 212 by a manual tee 213 to remove iron impurities, and finally the feed is input into the crushing mechanism 3 for crushing treatment. The mixer is connected with a first small feed opening pulse dust remover 207 through a first small feed opening 208, and is used for conveying small feed to the first mixer 209, and small feed can be added into the feed after the ingredients according to the requirements, so that the operation is flexible and convenient.

The production line also comprises a crushing mechanism 3 for crushing the feed after primary batching; the crushing mechanism 3 specifically comprises a to-be-crushed bin 301, a first feeder 303, a crusher 304, a discharging auger 309, a first air-stop 306, a third pulse dust collector 307 and a fourth bucket elevator 310, wherein a second discharging position 302 is arranged at the bottom of the to-be-crushed bin 301, the first feeder 303 is connected with the crusher 304, the crusher 304 is connected with the discharging auger 309 through a settling chamber 305, feed in the to-be-crushed bin 301 is input into the crusher 304 through the first feeder 303, crushed through the crusher 304 and then enters the discharging auger 309 through the settling chamber 305 to be output, and is sent into the buffer mechanism 4 by the fourth bucket elevator 310, the buffer mechanism 4 specifically comprises a buffer bin 401, a third discharging position 402 and a first air-stop 403, the third discharging position 402 is arranged at the bottom of the buffer bin 401, and the fourth bucket elevator 310 inputs the feed into the buffer bin 401.

Dust generated during crushing of the crusher 304 enters the third pulse dust collector 307 through the first air seal 306 to be removed, the third pulse dust collector 307 is connected with a fan 308, the first air seal 306 is communicated with the fourth bucket elevator 310, the first air seal 306 can adopt a saxophone air seal for collecting powder, and the collected powder is input into the fourth bucket elevator 310 to be conveyed.

The production line further comprises a second batching mechanism 5 for secondary batching of the crushed feed, the feed in the first batching bin 202 in the first batching mechanism 2 and the feed in the second batching mechanism 5. The second batching mechanism 5 comprises a second batching bin 502, a second batching auger 503, a dosing scale 504, a second mixer 507, a second scraper 509, a fifth elevator 510 and a first pneumatic tee 511. The second proportioning bins 502 in this application adopt 4, mark respectively as D1, D2, D3 and D4, every second proportioning bins 502 is connected third distributor 405 through second material loading level 501, fourth pulse dust collector 404 is connected to third distributor 405, the bottom of second proportioning bins 502 all is equipped with second proportioning auger 503, the fodder of first proportioning auger 204 output is through A1 passageway, fodder after smashing and the fodder in the second proportioning bins 502 all input ration balance 504 through second proportioning auger 503 and weigh, the fodder after weighing is input second mixer 507 and is mixed, second mixer 507 is connected second smallmouth pulse dust collector 505 through second smallness gate 506 for add required smalls to second mixer 507. The second mixer 507 is connected with a second scraper 509 through a second buffer hopper 508, the second mixer 507 inputs mixed feed into a fifth lifter 510 through the second scraper 509, the feed is respectively input into a first discharging mechanism and a second discharging mechanism through a first pneumatic tee 511 by the fifth lifter 510, the crushed feed can be subjected to secondary batching through a second batching mechanism 5, and the batching is added according to the adding requirement of small feed, so that the feed meets the production requirement.

The production line also comprises a first discharging mechanism, wherein the first discharging mechanism comprises a third batching mechanism 6 and a first packing discharging mechanism 7 and is used for carrying out tertiary batching on the feed after secondary batching and carrying out finished product packing discharging by the first packing discharging mechanism 7.

The third batching mechanism 6 comprises a third batching bin 602, a second feeder 604, a first conditioner 605, a first granulator 606, a first cooler 607, a second air shutter 608, a sixth lifter 610, a first grading sieve 611, a second pneumatic tee 612, a third scraper 613 and a third pneumatic tee 614, wherein the third batching bin 602 is Z1, the third batching bin 602 is provided with a third feeding position 601 and a fourth discharging position 603, the third feeding position 601 is connected with the first pneumatic tee 511 through a second permanent magnet cylinder 512, the fourth discharging position 603 is connected with the first conditioner 605 through the second feeder 604, the first conditioner 605 is connected with the first granulator 606, the feed in the third batching bin 602 is input into the first conditioner 605 through the second feeder 604 and is formed into particles through the first granulator 606, the first cooler is connected with the first cooling fan 609 through the second air shutter 608, the second air shutter 608 is connected with the fifth lifter 510, the second shutter 608 is connected with the fifth lifter 607, the fourth discharging position 603 is connected with the second air shutter 607 through the second air shutter Long Guanfeng, the filtered feed is input into the third conditioner 613 through the third air shutter 604, and is input into the third conditioner 605 and is graded through the third air shutter 614, and is processed through the third air shutter 614, and the third air shutter is processed through the third air shutter is input into the third conditioner 614, and is graded and processed through the third air shutter is processed.

The first packing discharge mechanism 7 includes fourth proportioning bins 702, the second pneumatic gate 704, first collection fill 705 and first finished product packing scale 706, this application adopts two fourth proportioning bins 702, be C1 and C2 respectively, every fourth proportioning bins 702 is equipped with fourth material loading position 701 and fifth material unloading position 703, the third pneumatic tee bend 614 is connected to fourth material loading position 701, be equipped with the second pneumatic gate 704 between fifth material unloading position 703 and the first collection fill 705, fodder in the fourth proportioning bins 702 gets into first collection fill 705 through the second pneumatic gate 704 under through fifth material unloading position 703, and the packing is carried to input first finished product packing scale 706.

The production line also comprises a second discharging mechanism, wherein the second discharging mechanism comprises a fourth batching mechanism 8 and a second packing discharging mechanism 9 and is used for carrying out four times batching on the secondarily batched feed and carrying out finished product packing discharging by the second packing discharging mechanism 9.

The fourth batching mechanism 8 comprises a fifth batching bin 802, a third feeder 804, a second conditioner 805, a second granulator 806, a second cooler 807, a third air-lock 808, a seventh lifter 810, a second classifying screen 811, a fourth pneumatic tee 812 and a fourth

pneumatic tee

812, 1 fifth batching bin 802 is adopted, Z2 is adopted in the application, the fifth batching bin 802 is provided with a fifth feeding level 801 and a sixth discharging level 803, the fifth feeding level 801 is connected with the first pneumatic tee 511 through a third permanent magnet drum 513, the sixth discharging level 803 is connected with the second conditioner 805 through the third feeder 804, the second conditioner 805 is connected with the second granulator 806, the feed in the fifth batching bin 802 is input into the second conditioner 805 through the third feeder 804, the second cooler 807 is connected with the second cooling fan 809 through the third air-lock 808, the feed after the conditioning treatment enters the second granulator 806 to form particles, the second classifying screen 811 is input into the second classifying screen through the second cooler 807 through the seventh lifter 810, and the classified feed is input into the second pneumatic packing mechanism 812.

The second packing discharge mechanism 9 comprises a sixth proportioning bin 902, a third pneumatic gate 904, a second convergence bucket 905 and a second finished product packing scale 906, wherein the two sixth proportioning bins 902 are respectively C3 and C4, the sixth proportioning bin 902 is provided with a sixth feeding level 901 and a seventh discharging level 903, the sixth feeding level 901 is connected with a fourth pneumatic tee 812, a third pneumatic gate 904 is arranged between the seventh discharging level 903 and the second convergence bucket 905, and feed in the sixth proportioning bin 902 enters the second convergence bucket 905 through the seventh discharging level 903 and enters the second convergence bucket 905 through the third pneumatic gate 904, and is packed and conveyed by the second finished product packing scale 906.

The above is only a specific embodiment of the present utility model, but the technical features of the present utility model are not limited thereto. Any simple changes, equivalent substitutions or modifications made on the basis of the present utility model to achieve substantially the same technical effects are included in the scope of the present utility model.

Claims

1. A pig feed production line comprises

At least one feeding mechanism for conveying feed;

the method is characterized in that:

the crushing mechanism is used for crushing the feed after primary batching;

and the second discharging mechanism comprises a fourth batching mechanism and a second packing discharging mechanism and is used for batching the secondarily-batched feed for four times and packing and discharging finished products by the second packing discharging mechanism.

2. A pig feed line according to claim 1, characterized in that: the first batching mechanism comprises a first batching bin, a first batching auger, a batching scale, a first mixer, a first scraper and a third bucket elevator, wherein the first batching bin is provided with a first feeding level and a first discharging level, the first feeding level is connected with the feeding mechanism, the first discharging level is connected with the first batching auger, the feed output by the first batching auger is input into the second batching mechanism or is input into the first mixer after being weighed by the batching scale, and is input into the crushing mechanism through the first scraper after being mixed by the first mixer.

3. A pig feed line according to claim 2, characterized in that: the mixer is connected with a first small feed opening pulse dust remover through a first small feed door and is used for conveying small feed to the first mixer.

4. A pig feed line according to claim 1, characterized in that: the crushing mechanism comprises a crushing bin, a first feeder, a crusher, a discharging auger, a first air-stop device, a third pulse dust remover and a fourth bucket elevator, wherein the first feeder is connected with the crusher, the crusher is connected with the discharging auger through a settling chamber, feed in the crushing bin is input into the crusher through the first feeder, enters the discharging auger through the settling chamber after being crushed by the crusher, and is sent into the buffer mechanism by the fourth bucket elevator, and dust generated during crushing of the crusher enters the third pulse dust remover through the first air-stop device for dust removal, and the third pulse dust remover is connected with a fan.

5. A pig feed line according to claim 2, characterized in that: the second batching mechanism comprises a second batching bin, a second batching auger, a quantitative scale, a second mixer, a second scraper, a fifth lifter and a first pneumatic tee, wherein the second batching bin is connected with a third distributor through a second feeding level, the third distributor is connected with a fourth pulse dust collector, the feed output by the first batching auger, the crushed feed and the feed in the second batching bin are input into the quantitative scale for weighing through the second batching auger, the weighed feed is input into the second mixer for mixing, the second mixer is connected with the second small-size inlet pulse dust collector through a second small-size inlet, the mixed feed is input into the fifth lifter through the second scraper, and the feed is input into the first discharging mechanism and the second discharging mechanism through the fifth lifter through the first pneumatic tee respectively.

6. A pig feed line according to claim 1, characterized in that: the third batching mechanism comprises a third batching bin, a second feeder, a first conditioner, a first granulator, a first cooler, a second air-lock, a sixth hoister, a first classifying screen, a second pneumatic tee joint, a third scraper and a third pneumatic tee joint, wherein the third batching bin is provided with a third feeding position and a fourth discharging position, the fourth discharging position is connected with the first conditioner through the second feeder, the first conditioner is connected with the first granulator, feed in the third batching bin is input into the first conditioner through the second feeder, the first cooler is connected with the first cooling fan through the second air-lock, the feed after tempering treatment enters the first granulator to form particles, the feed after the classifying treatment is input into the first classifying screen through the first cooler, and the feed after the classifying treatment is respectively input into the third pneumatic tee joint and the third scraper through the second pneumatic tee joint.

7. The pig feed production line of claim 6, wherein: the first packing and discharging mechanism comprises a fourth proportioning bin, a second pneumatic gate, a first converging hopper and a first finished product packing scale, wherein a fourth feeding level and a fifth discharging level are arranged in the fourth proportioning bin, and feed in the fourth proportioning bin enters the first converging hopper through the second pneumatic gate through the fifth discharging level and is input into the first finished product packing scale for packing and conveying.

8. A pig feed line according to claim 1, characterized in that: the fourth batching mechanism comprises a fifth batching bin, a third feeder, a second conditioner, a second granulator, a second cooler, a third air-stop device, a seventh hoister, a second classifying screen, a fourth pneumatic tee joint and a fourth pneumatic tee joint, wherein the fifth batching bin is provided with a fifth feeding position and a sixth discharging position, the sixth discharging position is connected with the second conditioner through the third feeder, the second conditioner is connected with the second granulator, feed in the fifth batching bin is input into the second conditioner through the third feeder, the second cooler is connected with a second cooling fan through the third air-stop device, the conditioned feed enters the second granulator to form particles, the conditioned feed is input into the second classifying screen through the second tee joint through the second cooler, and the classified feed is input into the second discharging mechanism through the fourth pneumatic packing.

9. A pig feed line according to claim 8, characterized in that: the second packing and discharging mechanism comprises a sixth proportioning bin, a third pneumatic gate, a second converging hopper and a second finished product packing scale, wherein a sixth feeding level and a seventh discharging level are arranged in the sixth proportioning bin, and feed in the sixth proportioning bin enters the second converging hopper through the seventh discharging level via the third pneumatic gate and is input into the second finished product packing scale for packing and conveying.

10. A pig feed line according to claim 1, characterized in that: the feeding mechanism comprises a pulse dust collector, a bucket elevator, a cylinder primary cleaning sieve and a distributor, wherein the pulse dust collector is connected with the cylinder primary cleaning sieve through the bucket elevator, the cylinder primary cleaning sieve is connected with the first batching mechanism through the distributor, and feed enters the bucket elevator through the pulse dust collector, is conveyed to the cylinder primary cleaning sieve through the bucket elevator and enters the first batching mechanism through the distributor.