CN116176902A

CN116176902A - Quantitative packaging equipment for piglet feed processing

Info

Publication number: CN116176902A
Application number: CN202310259715.8A
Authority: CN
Inventors: 孙善武
Original assignee: Huaibei Jintaiyang Animal Husbandry Technology Development Co ltd
Current assignee: Huaibei Jintaiyang Animal Husbandry Technology Development Co ltd
Priority date: 2023-03-17
Filing date: 2023-03-17
Publication date: 2023-05-30

Abstract

The invention relates to the technical field of piglet feed processing and packaging tools, in particular to quantitative packaging equipment for piglet feed processing, which comprises a supporting substrate, a conveying assembly, a sub-packaging assembly, a feeding assembly and a sealing assembly, wherein the quantitative packaged piglet feed is weighed by using a wagon balance and the quality of the feed in the packaging bag is supplemented by the feeding assembly, so that on one hand, the error between the quality of the feed quantitatively packaged by the equipment and the standard quality is smaller, on the other hand, the quantitative packaging of the equipment is more accurate, and on the other hand, the lacking quality is supplemented by the feeding assembly, so that the feed which is already packaged in the packaging bag by the sub-packaging assembly does not need to be poured out or returned to the sub-packaging assembly for secondary packaging, further the occurrence of reworking condition is avoided, and the efficiency of quantitatively packaging the piglet feed by the equipment is further improved.

Description

Quantitative packaging equipment for piglet feed processing

Technical Field

The invention relates to the technical field of piglet feed processing and packaging tools, in particular to quantitative packaging equipment for piglet feed processing.

Background

Along with the development of live pig cultivation, the demand to piglet feed is also more and more in the market, in order to be able to satisfy the demand of cultivation market to piglet feed, more and more fodder enterprises can use a ration encapsulation equipment to carry out ration encapsulation to piglet feed, through this ration encapsulation equipment, with piglet feed according to certain quality bagging-off sealedly to the convenience is sold in the market.

However, the existing quantitative packaging equipment has great defects in the use process, the existing quantitative packaging equipment weighs when bagging, the speed of the weighing process is low, and then the speed of bagging is slow, so that the efficiency of quantitatively packaging and processing piglet feeds by the equipment is low, the existing quantitative packaging equipment weighs only when bagging, the follow-up secondary weighing verification is not carried out, once the bagging is carried out, the quality of the packaged piglet feeds does not meet the standard due to error in weighing, and meanwhile, once the bagging and weighing parts are not accurate enough, the quality of the piglet feeds packaged by the equipment is enabled to deviate from the standard quality all, the existing quantitative packaging equipment weighs, bagging, sealing and other processing links share a conveying belt, so that the packaging bags for packaging piglet feeds can only be positioned at one position on the conveying belt, a plurality of packaging bags on the conveying belt cannot be simultaneously positioned at each processing link, and further the plurality of processing links cannot be simultaneously operated, and the parallelism of the whole processing link of the equipment is low.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides quantitative packaging equipment for piglet feed processing.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a piglet feed processing is with ration encapsulation equipment, including supporting base plate, conveying component, partial shipment subassembly, feed supplement subassembly and seal the subassembly, conveying component includes first support frame, one section conveyer belt, two section conveyer belts and three section conveyer belts, first support frame passes through the bolt mounting at supporting base plate top, one section conveyer belt, two section conveyer belts and three section conveyer belts are fixed gradually at first support frame top, two section conveyer belts are located between one section conveyer belt and the three section conveyer belt, the bottom of two section conveyer belts is provided with the wagon balance, weighs the piglet feed of ration bagging-off through setting up the wagon balance, judges whether the quality of partial shipment subassembly bagging-off reaches the standard, on the one hand, can avoid the piglet feed quality of partial shipment subassembly bagging-off to appear great difference with predetermined standard, and then avoid the quantitative encapsulation product of quality non-standard to pass through this equipment production line, on the other hand, can check-up weighing in the partial shipment subassembly, judge whether weighing part in the partial shipment subassembly exists the defect that this equipment causes more production error, simultaneously, through the weighing to partial shipment subassembly, can reduce the partial shipment subassembly and fill the error, the partial shipment subassembly is located the one side of the feed supplement subassembly and the feed supplement subassembly is located on one side of the filling and sealing the top of the side of the conveyer belt, and the quality of partial shipment subassembly is located the one side of the filling and sealing the side of the filling subassembly, and the quality is located in the filling and sealing the subassembly, and the quality is located on the side of the filling and sealing the part, the feed filled in the packaging bag by the sub-packaging assembly does not need to be poured out or returned to the sub-packaging assembly for secondary filling, so that reworking is avoided, the sub-packaging assembly is used for packaging, the feed supplementing assembly is used for supplementing materials, the sealing assembly is used for sealing, the conveying assembly is matched for conveying, the whole quantitative packaging process of the device is more streamlined, each processing link is independent by using the first-stage conveying belt, the second-stage conveying belt and the third-stage conveying belt for matching, each processing link does not affect each other, the device can position products in different states in different links, and the parallelism capacity of each processing link of the device is stronger;

Wherein the split charging assembly comprises a second supporting frame, a storage hopper and a weighing sensor, the second supporting frame is fixed with a supporting substrate through bolts, the mounting frame is fixed at the top of the second supporting frame, the storage hopper is fixed at the top of the mounting frame, a large amount of piglet feeds are stored in advance through arranging the storage hopper, so that the equipment can continuously process and produce after being charged once, further the feeding times of the equipment are reduced, meanwhile, the piglet feeds are stored in advance through the storage hopper, the packaging and processing process of the equipment on the piglet feeds can be continuously carried out, two feed distribution openings capable of controlling the discharge are arranged at the bottom of the storage hopper, two weighing boxes corresponding to the two feed distribution openings are arranged below the two feed distribution openings on the mounting frame through the weighing sensor, the equipment is provided with two weighing boxes, when one weighing box loads piglet feed into the packaging bag through the discharging hopper, the other weighing box can weigh the piglet feed amount needed to be loaded by the next packaging bag in advance, when the split charging assembly loads piglet feed into the packaging bag, the speed of loading piglet feed into the packaging bag through the packaging hopper by the split charging assembly is faster because of weighing delay time of the piglet feed, meanwhile, when one weighing box loads piglet feed into the packaging bag through the discharging hopper, the other weighing box takes piglet feed from the storing hopper for enough time, the quality of the feed finally loaded in the weighing box is more close to the preset packaging standard quality, the bottoms of the two weighing boxes are both provided with controllable discharging ports, the discharging hopper in a funnel shape is installed below the two weighing boxes on the mounting frame, the bottom opening of the discharging hopper is opposite to the middle part of a section of conveying belt, the discharging hopper is arranged, the piglet fodder after will weighing is packed into the encapsulation bagging-off, on the one hand, the hopper corresponds two weighing boxes down, and the bottom opening of hopper is fixed down, no matter which weighing incasement piglet fodder need pack into the encapsulation bagging-off, the position that the encapsulation bagging-off was parked all need not change, and then make this equipment simpler to the control logic of encapsulation bagging-off, on the other hand, through hopper down, make the piglet fodder can pour into the encapsulation bagging-off more easily, and then can reduce spilling and leaking when piglet fodder bagging-off, simultaneously, also reduced the burden that clearance spilled and leak fodder after this equipment used.

Preferably, two feed inlets are all hinged with sealing plates capable of blocking the bottom opening of the feed inlet, two sides of the mounting frame are all hinged with first hydraulic cylinders, one ends of the two first hydraulic cylinders, which are far away from the mounting frame, are all provided with first hydraulic rods, one ends of the two first hydraulic rods, which are far away from the first hydraulic cylinders, are respectively hinged with the two sealing plates, the sealing plates are driven by the first hydraulic cylinders to drive the sealing plates to rotate, and the discharging of the storage hopper is controlled by rotating the sealing plates.

Preferably, the two weighing box bottoms are all articulated to have the striker plate that can seal weighing box bottom opening, and the mounting bracket both sides are all articulated to have two second pneumatic cylinders, and the one end of two second pneumatic cylinders of mounting bracket each side all is equipped with the second hydraulic stem, and the one end that the second pneumatic stem was kept away from to the second pneumatic stem of mounting bracket both sides is articulated with two striker plates respectively, drives through the second pneumatic cylinder, drives the striker plate and rotates, through the ejection of compact of rotation striker plate control weighing box.

Preferably, the feeding assembly comprises a bottom plate, a third support frame and a feeding hopper, wherein the bottom plate is fixed at the top of a supporting substrate through bolts, the third support frame is movably matched with the top of the bottom plate, the feeding hopper is fixed at the upper half part of the third support frame, a conveying cylinder is fixed on the upper slope of the third support frame, the bottom end of the conveying cylinder is communicated with the bottom of the feeding hopper, and one end of the conveying cylinder, far away from the feeding hopper, is located right above the two-section conveying belt.

Preferably, the auger is rotationally matched with in the conveying cylinder, one end outer wall of the conveying cylinder, which is far away from the supplementing hopper, is downwards communicated with a discharging pipe, the discharging pipe is downwards opposite to the middle part of the two-section conveying belt, one end part of the conveying cylinder, which is far away from the supplementing hopper, is provided with a first motor for driving the auger to rotate, the position of the third supporting frame is moved by using the first motor, the position of the third supporting frame is moved, the position of the discharging pipe is adjusted, and the discharging pipe can be aligned with the bag opening of the packaging bag more accurately, so that the scattering and leakage during material supplementing can be reduced.

Preferably, the equal horizontal welding in bottom plate top both sides has the slide rail, and the gyro wheel is all installed to the bottom both sides of third support frame, and the gyro wheel cross-section is "worker" style of calligraphy structure, and the gyro wheel roll cooperation is on the slide rail, and the third support frame passes through the gyro wheel and removes the cooperation at the bottom plate top, through using the gyro wheel to roll the cooperation on the slide rail, makes the more steady that the feed supplement subassembly removed.

Preferably, the top of the bottom plate is positioned between the two sliding rails and is in running fit with a screw rod, a second motor for driving the screw rod to rotate is horizontally arranged at one end of the top of the bottom plate, a nut is welded in the middle of the bottom of the third support frame, and the nut is in threaded fit with the screw rod.

Preferably, the seal assembly comprises a fourth support frame, a rotary suspender and two clamping plates, wherein the fourth support frame is arranged at the top of a support substrate through bolts, the rotary suspender penetrates through the top of the fourth support frame and is in running fit with the fourth support frame, the bottom of the rotary suspender is fixedly provided with a connecting plate, the two clamping plates are respectively hinged to the two ends of the connecting plate, the two clamping plates and the connecting plate are integrally in an H-shaped structure, one clamping plate top is hinged to a third hydraulic cylinder, one end of the third hydraulic cylinder is provided with a third hydraulic rod, one end of the third hydraulic rod, far away from the third hydraulic cylinder, is hinged to the top of the other clamping plate, a heat sealing head is arranged on one side of the bottom of the two clamping plates, the heat sealing head is a rod-shaped mold which can be heated inside, and after the heat sealing head is heated, the bag opening of the packaging bag is bonded by heating.

Preferably, the top welding of rotatory jib has circular carousel, and the top level of fourth support frame articulates there is the fourth pneumatic cylinder, and fourth pneumatic cylinder one end is equipped with the fourth hydraulic stem, and the one end that the fourth pneumatic cylinder was kept away from to the fourth hydraulic stem articulates with the carousel top, drives through the fourth pneumatic cylinder, makes the fourth hydraulic stem remove, and the fourth hydraulic stem passes through the carousel and drives rotatory jib rotation, and then drives two splint rotations, through rotating two splint, makes and seals the subassembly and can seal the encapsulation bag of sack slope under the condition of not adjusting encapsulation bag angle, and then makes this equipment when sealing the encapsulation bag, need not adjust the encapsulation bag.

Preferably, the processing method of the quantitative packaging equipment for processing the piglet feed specifically comprises the following steps:

step one: the method comprises the steps of loading piglet feed into a storage hopper and a feed supplement hopper, placing a packaging bag on a section of conveying belt, conveying the packaging bag to the lower part of a lower hopper of a split charging assembly through the section of conveying belt, driving a first hydraulic rod to move through a first hydraulic cylinder, driving a sealing plate to rotate through the first hydraulic rod, enabling piglet feed in the storage hopper to enter a weighing box through a feed dividing opening through rotation of the sealing plate, monitoring the quality of the piglet feed loaded in the weighing box through a weighing sensor, driving the sealing plate to rotate through the first hydraulic cylinder when the piglet feed in the weighing box reaches bagging standard, blocking the feed dividing opening, driving a second hydraulic rod to move through the second hydraulic cylinder, driving a stop plate to rotate through rotation of the stop plate, and enabling the piglet feed in the weighing box to be loaded into the packaging bag through the lower hopper;

Step two: the packaging bag filled with piglet feed is conveyed to a second conveyor belt through a first conveyor belt, the feed in the packaging bag is weighed through a wagon balance, when the feed in the packaging bag is far lower than the standard feed of the packaging bag, the first motor drives the screw rod to rotate, the screw rod is rotated to drive the nut to move, the nut drives the third support frame to move, the discharging pipe is opposite to the bag opening of the packaging bag through the movement of the third support frame, the second motor drives the auger to rotate, the piglet feed in the feeding hopper is conveyed to the discharging pipe through the conveying cylinder and falls into the packaging bag through the discharging pipe, and after the weighing result of the wagon balance on the feed in the packaging bag reaches the standard feed of the packaging bag, the feeding assembly stops supplementing the piglet feed into the packaging bag;

step three: the packaging bag filled with piglet feed is conveyed onto the three-section conveying belt through the two-section conveying belt, the packaging bag filled with piglet feed is conveyed to the sealing assembly through the three-section conveying belt, the bag opening of the packaging bag is located between the two clamping plates, the packaging bag is driven by the third hydraulic cylinder, the third hydraulic rod is moved, the two clamping plates are driven by the third hydraulic cylinder and the third hydraulic rod to be close to each other, the two heat-sealing heads are enabled to press the bag opening, the bag opening of the packaging bag is heat-sealed through the two heat-sealing heads, and at the moment, quantitative packaging of piglet feed is completed.

The invention has the beneficial effects that:

(1) In the invention, a large amount of piglet feed is prestored by arranging the storage hopper, so that the device can continuously process and produce after one-time feeding, further, the feeding frequency of the device is reduced, thereby improving the using convenience of the device, simultaneously, the piglet feed is prestored by the storage hopper, the piglet feed packaging processing process of the device can be continuously carried out, thereby ensuring that the piglet feed packaging processing capacity of the device is stronger, the device is provided with two weighing boxes, when one weighing box loads piglet feed into the packaging bag through the lower hopper, the other weighing box can weigh the piglet feed amount required to be loaded by the next packaging bag in advance, when the packaging assembly loads piglet feed into the packaging bag, the packaging assembly can not weigh the piglet feed for a delay time, thereby ensuring that the packaging assembly loads piglet feed into the packaging bag more quickly, thereby improving the efficiency of the device for quantifying the piglet feed, simultaneously, when one weighing box loads piglet feed into the packaging bag through the lower hopper, the other weighing box has sufficient time to take piglet feed from the storage hopper, the next weighing box is arranged in advance, the packaging box is more easily controlled to be close to the packaging box through the lower hopper, the packaging box is more convenient, the packaging quality is required to be more accurate, the packaging box is not required to be loaded into the packaging bag through the packaging box, the packaging box is more flexible, the packaging box is more convenient to be more opened, the packaging quality is more required to be more accurately packaged into the packaging box through the packaging box, the packaging box is more required to be more convenient to be packaged into the packaging box, and the packaging box is more required to be packaged into the packaging with the packaging bag, and has a high quality with a packaging box for packaging feed with a high quality for packaging feed for packaging and has a quality for packaging and a quality for packaging piglet feed. Make the piglet fodder can pour into the encapsulation bag more easily, and then can reduce spilling hourglass when piglet fodder bagging-off to reduce the waste to the fodder when this equipment bagging-off, simultaneously, also reduced the burden that clearance spilled hourglass fodder after this equipment uses, thereby further improved the convenience of this equipment use.

(2) In the invention, the weight is arranged to weigh the piglet feed quantitatively packaged, so as to judge whether the packaged quality of the sub-packaging assembly meets the standard, on one hand, the large gap between the packaged piglet feed quality of the sub-packaging assembly and the preset standard can be avoided, and further, the quantitative packaged product with the quality not meeting the standard can be prevented from passing through the production line of the equipment, so that the reject rate of the quantitative packaged product of the equipment is reduced, on the other hand, the weight in the sub-packaging assembly can be checked, whether the weighing component in the sub-packaging assembly has defects is judged, and further, the greater production error caused by the equipment can be avoided, so that the equipment is more reliable to use, meanwhile, the error of the sub-packaging assembly can be reduced through checking the weight of the sub-packaging assembly, so that the accuracy of the quantitative packaged piglet feed by the equipment is further improved, and the quantitative packaged piglet feed is weighed by using the weight, the quality of the feed which is quantitatively packaged by the device is smaller than the error of standard quality, so that the device is more accurate in quantification, on the other hand, the missing quality is complemented by the feeding component, so that the feed which is already packaged in the packaging bag by the packaging component does not need to be poured out or returned to the packaging component for secondary packaging, the reworking condition is avoided, the device is further improved in quantitative packaging efficiency of piglet feed, the position of the third supporting frame is moved by using the first motor to drive, the position of the blanking pipe is adjusted by moving the position of the third supporting frame, the blanking pipe can be aligned with the bag mouth of the packaging bag more accurately, and the scattering and leakage during feeding can be reduced, thereby further reducing the waste of piglet feed when the device is quantitatively packaged.

(3) According to the invention, the fourth hydraulic rod is driven by the fourth hydraulic cylinder to move, the rotary boom is driven by the rotary table to rotate by the fourth hydraulic rod, and then the two clamping plates are driven to rotate, so that the sealing assembly can seal the sealing bag with the inclined bag opening under the condition that the angle of the sealing bag is not regulated, the sealing bag is not required to be regulated when the sealing bag is sealed by the equipment, the equipment is more convenient to use, the bagging is carried out by the split charging assembly, the feeding is carried out by the feeding assembly, the sealing is carried out by the sealing assembly and the conveying assembly is matched, the whole quantitative packaging process of the equipment is more streamlined, the automation degree of the equipment is higher, each processing link is mutually independent by using the first-section conveying belt, the second-section conveying belt and the third-section conveying belt to be matched, each processing link is not influenced by each other, the equipment can position products in different states in different links, and the parallelism capacity of each processing link of the equipment is stronger, and the processing efficiency of the equipment is higher.

Drawings

The invention will be further described with reference to the drawings and examples.

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

Fig. 2 is a schematic view of a conveying assembly according to the present invention.

FIG. 3 is a schematic view of the split charging assembly of the present invention.

Fig. 4 is an enlarged view of the detail of the area a in fig. 3.

Fig. 5 is an enlarged view of the detail of region B in fig. 3.

FIG. 6 is a schematic diagram of a feeding assembly according to the present invention.

Fig. 7 is a schematic diagram of an assembly structure of a second motor and a packing auger according to the present invention.

FIG. 8 is a schematic view of a seal assembly according to the present invention.

In the figure: 1. a support substrate; 2. a transport assembly; 201. a first support frame; 202. a length of conveyor belt; 203. a two-stage conveyor belt; 204. a wagon balance; 205. a three-section conveyor belt; 3. split charging components; 301. a second support frame; 302. a mounting frame; 303. a storage hopper; 304. a material distributing port; 305. sealing plate; 306. a first hydraulic cylinder; 307. a first hydraulic lever; 308. a weighing box; 309. a weighing sensor; 310. a striker plate; 311. a second hydraulic cylinder; 312. a second hydraulic lever; 313. discharging a hopper; 4. a feed supplement assembly; 401. a bottom plate; 402. a slide rail; 403. a screw rod; 404. a first motor; 405. a third support frame; 406. a roller; 407. a nut; 408. a supplementing hopper; 409. a delivery cylinder; 410. discharging pipes; 411. a second motor; 412. an auger; 5. a seal assembly; 501. a fourth support frame; 502. rotating the boom; 503. a connecting plate; 504. a clamping plate; 505. a thermal head; 506. a third hydraulic cylinder; 507. a third hydraulic lever; 508. a turntable; 509. a fourth hydraulic cylinder; 510. and a fourth hydraulic rod.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-8, the quantitative packaging device for piglet feed processing comprises a supporting substrate 1, a conveying component 2, a sub-packaging component 3, a feeding component 4 and a sealing component 5, wherein the conveying component 2 comprises a first supporting frame 201, a first section of conveying belt 202, a second section of conveying belt 203 and a third section of conveying belt 205, the first supporting frame 201 is arranged at the top of the supporting substrate 1 through bolts, the first section of conveying belt 202, the second section of conveying belt 203 and the third section of conveying belt 205 are sequentially fixed at the top of the first supporting frame 201, the second section of conveying belt 203 is positioned between the first section of conveying belt 202 and the third section of conveying belt 205, a wagon balance 204 is arranged at the bottom of the second section of conveying belt 203, the quantitative packaged piglet feed is weighed by the wagon balance 204, whether the packaged quality of the sub-packaging component 3 meets the standard or not is judged, on one hand, a large difference between the packaged piglet feed quality of the sub-packaging component 3 and the preset standard can be avoided, and further avoid the quality of the quantitative packaging products not up to standard to pass through the production line of the equipment, thereby reducing the reject ratio of the quantitative packaging products of the equipment, on the other hand, the weighing in the split packaging assembly 3 can be checked, whether the weighing component in the split packaging assembly 3 has defects or not can be judged, and further the larger production errors caused by the equipment can be avoided, so that the equipment is more reliable in use, and meanwhile, the error of the split packaging assembly 3 can be reduced by checking the weighing of the split packaging assembly 3, so that the accuracy of the equipment for quantitatively packaging piglet feeds can be further improved, the split packaging assembly 3, the material supplementing assembly 4 and the sealing assembly 5 are all arranged at the top of the supporting substrate 1, the split packaging assembly 3 is positioned on one side of the first conveyor belt 202, the material supplementing assembly 4 is positioned on one side of the second conveyor belt 203, the sealing assembly 5 is positioned above the third conveyor belt 205, the quality of the quantitatively packaged feed of the piglets is balanced by using the wagon balance 204, and the quality of the feed lack in the packaging bag is supplemented by the feeding component 4, so that on one hand, the error between the quality of the quantitatively packaged feed of the equipment and the standard quality is smaller, and on the other hand, the quality lack is supplemented by the feeding component 4, so that the feed filled in the packaging bag by the packaging component 3 does not need to be poured out or returned to the packaging component 3 for secondary filling, the occurrence of reworking condition is avoided, the efficiency of quantitatively packaging the feed of the piglets by the equipment is further improved, the packaging is carried out by using the packaging component 3, the feeding is carried out by using the feeding component 4, the sealing is carried out by using the sealing component 5, the conveying component 2 is matched, the whole quantitative packaging process of the equipment is more streamlined, and the automation degree of the equipment is higher, the first-stage conveying belt 202, the second-stage conveying belt 203 and the third-stage conveying belt 205 are matched, each processing link is independent from each other, each processing link is different from each other, the equipment is further positioned at different positions, and the processing efficiency of the equipment is further improved, and the processing links are further positioned;

Wherein, the sub-packaging assembly 3 includes a second support 301, a hopper 303, and a load cell 309 (model: CYT 202), the second support 301 is fixed with the support base plate 1 through bolts, the mounting bracket 302 is fixed at the top of the second support 301, the storage hopper 303 is fixed at the top of the mounting bracket 302, a large amount of piglet feeds are stored in advance through the storage hopper 303, so that the equipment can be continuously processed and produced after being charged once, the feeding times of the equipment are further reduced, the use convenience of the equipment is improved, simultaneously, the piglet feeds are pre-stored through the storage hopper 303, the piglet feed packaging and processing process of the equipment can be continuously carried out, the piglet feed packaging and processing capability of the equipment is higher, two feed distribution openings 304 capable of controlling the discharge are arranged at the bottom of the storage hopper 303, two weighing boxes 308 respectively corresponding to the two feed distribution openings 304 are arranged below the two feed distribution openings 304 on the mounting bracket 302 through weighing sensors 309, the device is provided with two weighing boxes 308, when one weighing box 308 loads piglet feed into the packaging bag through the discharging hopper 313, the other weighing box 308 can weigh the piglet feed amount needed to be loaded by the next packaging bag in advance, when the split charging assembly 3 loads piglet feed into the packaging bag, the speed of the split charging assembly 3 loading piglet feed into the packaging bag is faster because of weighing delay time of piglet feed, thereby improving the efficiency of the device for quantitatively packaging piglet feed, meanwhile, when one weighing box 308 loads piglet feed into the packaging bag through the discharging hopper 313, the other weighing box 308 has enough time to take piglet feed from the storage hopper 303, and the quality of the feed finally loaded in the weighing box 308 is closer to the preset packaging standard quality, the quantitative packaging accuracy of the equipment can be improved, the bottoms of the weighing boxes 308 are provided with controllable discharge ports, a funnel-shaped lower hopper 313 is arranged below the two weighing boxes 308 on the mounting frame 302, the bottom opening of the lower hopper 313 is opposite to the middle of the first section of conveying belt 202, the weighed piglet feed is filled into the packaging bags through the lower hopper 313, on one hand, the lower hopper 313 corresponds to the two weighing boxes 308, the bottom opening of the lower hopper 313 is fixed, no matter which weighing box 308 is required to be filled into the packaging bags, the position where the packaging bags are parked does not need to be changed, and then the equipment is simpler to control logic of the packaging bags, so that the operation process of the equipment is not easy to make mistakes, on the other hand, the piglet feed can be more easy to fill into the packaging bags through the lower hopper 313, and further the scattering and leaking of the piglet feed can be reduced when the equipment is packaged, meanwhile, the burden of scattering and leaking feed after the equipment is used is reduced, the convenience of the equipment is further improved, the first section of equipment is provided with a photoelectric sensor 201, and the photoelectric sensor 205 is arranged at the position of the first section of equipment back support frame, and the photoelectric sensor (2) is provided with a photoelectric sensor (2, and the photoelectric sensor is arranged at the position of the same section 2) of the packaging section, and the photoelectric sensor (2) of the photoelectric sensor is arranged at the same time) and the position of the packaging section 2, and the photoelectric sensor is provided with the photoelectric sensor.

In an alternative implementation manner of the embodiment, two material distributing openings 304 are hinged with sealing plates 305 capable of blocking the bottom openings of the material distributing openings 304, two sides of a mounting frame 302 are hinged with first hydraulic cylinders 306, one ends of the two first hydraulic cylinders 306, which are far away from the mounting frame 302, are provided with first hydraulic rods 307, one ends of the two first hydraulic rods 307, which are far away from the first hydraulic cylinders 306, are respectively hinged with the two sealing plates 305, and are driven by the first hydraulic cylinders 306 to drive the sealing plates 305 to rotate, and the discharging of the storage hopper 303 is controlled by rotating the sealing plates 305.

In an alternative implementation manner of this embodiment, the bottom of the two weighing boxes 308 are hinged with a striker plate 310 capable of sealing the bottom opening of the weighing box 308, two sides of the mounting frame 302 are hinged with two second hydraulic cylinders 311, one end of each of the two second hydraulic cylinders 311 on each side of the mounting frame 302 is provided with a second hydraulic rod 312, one end, away from the second hydraulic cylinders 311, of each of the two sides of the mounting frame 302 is hinged with the two striker plates 310 respectively, and the striker plates 310 are driven by the second hydraulic cylinders 311 to rotate, so that the discharge of the weighing boxes 308 is controlled by rotating the striker plates 310.

In an alternative implementation manner of this embodiment, the feeding assembly 4 includes a bottom plate 401, a third supporting frame 405 and a feeding hopper 408, the bottom plate 401 is fixed on the top of the supporting substrate 1 through bolts, the third supporting frame 405 is movably matched with the top of the bottom plate 401, the feeding hopper 408 is fixed on the upper half part of the third supporting frame 405, a conveying cylinder 409 is fixed on the upper slope of the third supporting frame 405, the bottom end of the conveying cylinder 409 is communicated with the bottom of the feeding hopper 408, and one end of the conveying cylinder 409 away from the feeding hopper 408 is located right above the two-stage conveyor belt 203.

In an alternative implementation manner of this embodiment, the auger 412 is rotationally matched with the conveying cylinder 409, the outer wall of one end of the conveying cylinder 409, which is far away from the feeding hopper 408, is downwardly communicated with the blanking pipe 410, the blanking pipe 410 is downwardly opposite to the middle part of the two-section conveyor belt 203, the first motor 404 for driving the auger 412 to rotate is installed at one end of the conveying cylinder 409, which is far away from the feeding hopper 408, and is driven by the first motor 404, the position of the third supporting frame 405 is moved, and the position of the blanking pipe 410 is adjusted by moving the position of the third supporting frame 405, so that the blanking pipe 410 can be aligned with the bag opening of the packaging bag more accurately, and scattering and leakage during feeding can be reduced, thereby further reducing the waste of piglet feed during quantitative packaging of the device.

In an optional implementation manner of this embodiment, the two sides of the top of the bottom plate 401 are horizontally welded with the sliding rails 402, the two sides of the bottom of the third supporting frame 405 are both provided with the rollers 406, the section of the rollers 406 is in an "i" shape structure, the rollers 406 are in rolling fit on the sliding rails 402, the third supporting frame 405 is in moving fit on the top of the bottom plate 401 through the rollers 406, and the rollers 406 are in rolling fit on the sliding rails 402, so that the movement of the material supplementing assembly 4 is smoother.

In an alternative implementation manner of this embodiment, a screw rod 403 is rotatably matched between two sliding rails 402 at the top of the bottom plate 401, a second motor 411 for driving the screw rod 403 to rotate is horizontally installed at one end of the top of the bottom plate 401, a nut 407 is welded in the middle of the bottom of the third supporting frame 405, and the nut 407 is in threaded fit on the screw rod 403.

In an alternative implementation manner of this embodiment, the sealing assembly 5 includes a fourth supporting frame 501, a rotary boom 502 and two clamping plates 504, the fourth supporting frame 501 is mounted on the top of the supporting substrate 1 through bolts, the rotary boom 502 penetrates through the top of the fourth supporting frame 501, the rotary boom 502 is in running fit with the fourth supporting frame 501, a connecting plate 503 is fixed at the bottom of the rotary boom 502, the two clamping plates 504 are respectively hinged and matched at two ends of the connecting plate 503, the two clamping plates 504 and the connecting plate 503 are in an H-shaped structure integrally, a third hydraulic cylinder 506 is hinged at the top of one clamping plate 504, a third hydraulic rod 507 is arranged at one end of the third hydraulic cylinder 506, one end of the third hydraulic rod 507, far away from the third hydraulic cylinder 506, is hinged at the top of the other clamping plate 504, a thermal sealing head 505 is mounted at one side of the bottom of the two clamping plates 504, the thermal sealing head 505 is a rod-shaped mold which can be heated inside, and after the thermal sealing head 505 is heated, the bag mouth of the packaging bag is heated and bonded.

In an alternative implementation manner of this embodiment, the top of the rotary boom 502 is welded with a circular turntable 508, the top of the fourth support frame 501 is horizontally hinged with a fourth hydraulic cylinder 509, one end of the fourth hydraulic cylinder 509 is provided with a fourth hydraulic rod 510, one end of the fourth hydraulic rod 510, which is far away from the fourth hydraulic cylinder 509, is hinged with the top of the turntable 508, and is driven by the fourth hydraulic cylinder 509 to move the fourth hydraulic rod 510, and the fourth hydraulic rod 510 drives the rotary boom 502 to rotate through the turntable 508, so as to drive the two clamping plates 504 to rotate, and the sealing assembly 5 can seal the packaging bag with the inclined bag opening under the condition of not adjusting the angle of the packaging bag, so that the packaging bag is not required to be adjusted when the packaging bag is sealed, and the packaging bag sealing device is more convenient to use.

In an alternative implementation manner of the embodiment, the processing method of the quantitative packaging device for processing the piglet feed specifically comprises the following steps:

step one: the piglet feed is filled into the storage hopper 303 and the supplementing hopper 408, the packaging bag is placed on the section of the conveying belt 202, the packaging bag is conveyed to the lower portion of the lower hopper 313 of the split charging assembly 3 through the section of the conveying belt 202, the first hydraulic rod 307 is driven by the first hydraulic cylinder 306 to move, the first hydraulic rod 307 drives the sealing plate 305 to rotate, the piglet feed in the storage hopper 303 enters the weighing box 308 through the feed dividing opening 304 through the rotating sealing plate 305, the quality of the piglet feed filled in the weighing box 308 is monitored through the weighing sensor 309, when the piglet feed in the weighing box 308 reaches the bagging standard, the sealing plate 305 is driven by the first hydraulic cylinder 306 to rotate, the feed dividing opening 304 is blocked, the second hydraulic rod 312 is driven by the second hydraulic cylinder 311 to move, the second hydraulic rod 312 drives the baffle plate 310 to rotate, and the piglet feed in the weighing box 308 is filled in the sealing bag through the lower hopper 313 through the rotating baffle plate 310;

step two: the packaging bag filled with piglet feed is conveyed to the two-stage conveying belt 203 through the one-stage conveying belt 202, the feed in the packaging bag is weighed through the wagon balance 204, when the feed in the packaging bag is far lower than the standard feed of the packaging bag, the first motor 404 drives the screw rod 403 to rotate, the screw rod 403 rotates, the nut 407 moves, the nut 407 drives the third support frame 405 to move, the third support frame 405 moves, the blanking pipe 410 is opposite to the bag opening of the packaging bag, the second motor 411 drives the auger 412 to rotate, the piglet feed in the supplementing hopper 408 is conveyed to the blanking pipe 410 through the conveying cylinder 409, and falls into the packaging bag through the blanking pipe 410, until the weighing result of the feed in the packaging bag by the wagon balance 204 reaches the standard feed of the packaging bag, and then the supplementing feed component 4 stops supplementing the piglet feed into the packaging bag;

Step three: the packaging bag filled with piglet feed is conveyed onto the three-section conveying belt 205 through the two-section conveying belt 203, the packaging bag filled with piglet feed is conveyed to the sealing assembly 5 through the three-section conveying belt 205, the bag opening of the packaging bag is located between the two clamping plates 504, the third hydraulic rod 507 is driven by the third hydraulic cylinder 506, the third hydraulic rod 506 and the third hydraulic rod 507 drive the two clamping plates 504 to be close to each other, the two heat sealing heads 505 compress the bag opening, and the bag opening of the packaging bag is heat-sealed through the two heat sealing heads 505, so that quantitative packaging of piglet feed is completed.

When in use, firstly, piglet feed is loaded into the storage hopper 303 and the supplementing hopper 408, the packaging bag is placed on the section of the conveying belt 202, the packaging bag is conveyed to the lower part of the lower hopper 313 of the split charging assembly 3 through the section of the conveying belt 202, the first hydraulic rod 307 is driven by the first hydraulic cylinder 306 to move, the first hydraulic rod 307 drives the sealing plate 305 to rotate, the piglet feed in the storage hopper 303 enters the weighing box 308 through the feed dividing opening 304 by rotating the sealing plate 305, the quality of the piglet feed loaded in the weighing box 308 is monitored through the weighing sensor 309, when the piglet feed in the weighing box 308 reaches the bagging standard, the sealing plate 305 is driven by the first hydraulic cylinder 306 to rotate, the feed dividing opening 304 is blocked, the second hydraulic rod 312 is driven by the second hydraulic cylinder 311 to move, the second hydraulic rod 312 drives the stop plate 310 to rotate, the stop plate 310 is rotated, the piglet feed in the weighing boxes 308 is all filled into the packaging bags through the discharging hopper 313, a large amount of piglet feed is pre-stored through the storage hopper 303, so that the device can be continuously processed and produced after being filled once, the feeding times of the device are further reduced, the using convenience of the device is improved, meanwhile, the piglet feed is pre-stored through the storage hopper 303, the packaging and processing process of the device on the piglet feed can be continuously performed, the piglet feed packaging and processing capacity of the device is higher, the two weighing boxes 308 are arranged, when one weighing box 308 loads piglet feed into the packaging bags through the discharging hopper 313, the other weighing box 308 can pre-weigh the piglet feed amount required to be loaded by the next packaging bag, when the piglet feed is filled into the packaging bags through the packaging assembly 3, the weighing and placing time of the piglet feed is not delayed, the speed of filling the piglet feed into the packaging bags by the split charging assembly 3 is further increased, so that the efficiency of quantitatively packaging the piglet feed by the device is improved, meanwhile, when one weighing box 308 is used for filling the piglet feed into the packaging bags by the discharging hopper 313, the other weighing box 308 has enough time to take the piglet feed from the storage hopper 303, the quality of the feed finally filled in the weighing box 308 is more close to the preset packaging standard quality, the accuracy of quantitatively packaging the device can be improved, the weighed piglet feed is filled into the packaging bags by arranging the discharging hopper 313, on one hand, the discharging hopper 313 corresponds to the two weighing boxes 308, the bottom opening of the discharging hopper 313 is fixed, no matter which piglet feed in the weighing box 308 needs to be filled into the packaging bags, the position where the packaging bags are parked does not need to be changed, and the control logic of the device on the packaging bags is simpler, so that the operation process of the device is less prone to error, on the other hand, the piglet feed can be poured into the packaging bag more easily through the discharging hopper 313, and then the scattering and leaking of the piglet feed in bagging can be reduced, thereby reducing the waste of the feed in bagging of the device, and simultaneously, the burden of cleaning the scattering and leaking feed after the device is used is reduced, thereby further improving the use convenience of the device, then, the packaging bag filled with the piglet feed is conveyed onto the two-section conveying belt 203 through the one-section conveying belt 202, the feed in the packaging bag is weighed through the wagon balance 204, when the quality of the feed in the packaging bag is far lower than the standard quality of the packaging bag, the screw rod 403 is driven by the first motor 404 to rotate, the nut 407 is driven to move by the rotating screw rod 403, the nut 407 drives the third supporting frame 405 to move, the third supporting frame 405 is driven by the moving, the blanking pipe 410 is opposite to the bag mouth of the packaging bag, the auger 412 is driven to rotate by the second motor 411, piglet feed in the feed supplement hopper 408 is conveyed to the blanking pipe 410 through the conveying cylinder 409 and falls into the packaging bag through the blanking pipe 410 until the weighing result of the feed in the packaging bag by the wagon balance 204 reaches the standard quality of the packaging bag, the feed supplement assembly 4 stops supplementing piglet feed to the packaging bag, the wagon balance 204 is arranged to weigh the piglet feed quantitatively packaged, whether the bagging quality of the packaging assembly 3 reaches the standard is judged, on one hand, a larger gap between the piglet feed quality packaged by the packaging assembly 3 and the preset standard can be avoided, further, quantitative packaging products with unqualified quality can be prevented from passing through the equipment production line, the unqualified rate of the quantitative packaging products of the equipment can be reduced, on the other hand, the weighing in the packaging assembly 3 can be checked, judging whether the weighing component in the split charging assembly 3 has defects or not, further avoiding larger production errors caused by the equipment, further ensuring more reliable use of the equipment, simultaneously, by checking weighing of the split charging assembly 3, reducing errors of the split charging assembly 3, further improving the accuracy of the equipment in quantitatively packaging piglet feed, weighing the quantitatively packaged piglet feed by using the wagon balance 204 and supplementing the quality lacking in the packaged feed by matching with the feeding assembly 4, on one hand, ensuring that the quality of the quantitatively packaged feed of the equipment is smaller than the error of the standard quality, further ensuring more accurate quantification of the equipment, on the other hand, supplementing the lacking quality by arranging the feeding assembly 4, ensuring that the feed which is already packaged in the packaged bag by the split charging assembly 3 does not need to be poured out or does not need to return to the position below the split charging assembly 3 for secondary filling, further avoiding the occurrence of reworking conditions, further improving the efficiency of the device for quantitatively packaging piglet feed, driving the device by using a first motor 404, moving the position of a third support frame 405, adjusting the position of a blanking pipe 410, enabling the blanking pipe 410 to be aligned with the mouth of a packaging bag more accurately, further reducing the scattering and leaking during feed supplement, further reducing the waste of piglet feed during quantitative packaging of the device, finally, conveying the packaging bag filled with piglet feed to a three-section conveying belt 205 by using a two-section conveying belt 203, conveying the packaging bag filled with piglet feed to a sealing assembly 5 by using the three-section conveying belt 205, enabling the mouth of the packaging bag to be positioned between two clamping plates 504, driving the third hydraulic rod 507 by using a third hydraulic cylinder 506, driving the third hydraulic rod 507 by using the third hydraulic cylinder 506 and the third hydraulic rod 507, the two clamping plates 504 are mutually close, the two heat sealing heads 505 are pressed tightly against the bag mouth, the bag mouth of the packaging bag is heat-sealed through the two heat sealing heads 505, at the moment, the quantitative packaging of piglet feed is completed, the fourth hydraulic rod 510 is driven by the fourth hydraulic cylinder 509 to move, the fourth hydraulic rod 510 drives the rotary boom 502 to rotate through the rotary disc 508, the two clamping plates 504 are further driven to rotate, the sealing assembly 5 can seal the packaging bag with the inclined bag mouth under the condition that the angle of the packaging bag is not adjusted through rotating the two clamping plates 504, the packaging bag is not required to be adjusted when the packaging bag is sealed by the packaging device, so that the packaging bag is more convenient to use, the packaging bag is packaged through the packaging assembly 3, the packaging material is supplemented through the packaging assembly 4, the packaging bag is sealed through the sealing assembly 5, and the packaging bag is conveyed through the conveying assembly 2, the whole quantitative packaging process of the equipment is enabled to be more streamlined, so that the automation degree of the equipment is higher, each processing link is independent of each other by matching the first-stage conveying belt 202, the second-stage conveying belt 203 and the third-stage conveying belt 205, each processing link is not affected by the corresponding processing link, the equipment can position products in different states in different links, the parallel capacity of each processing link of the equipment is higher, and the processing efficiency of the equipment is higher.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a ration encapsulation equipment is used in piglet feed processing, includes supporting substrate (1), conveying component (2), partial shipment subassembly (3), feed supplement subassembly (4) and seals subassembly (5), its characterized in that: the conveying assembly (2) comprises a first supporting frame (201), a first section of conveying belt (202), a second section of conveying belt (203) and a third section of conveying belt (205), wherein the first supporting frame (201) is installed at the top of a supporting substrate (1) through bolts, the first section of conveying belt (202), the second section of conveying belt (203) and the third section of conveying belt (205) are sequentially fixed at the top of the first supporting frame (201), the second section of conveying belt (203) is located between the first section of conveying belt (202) and the third section of conveying belt (205), a wagon balance (204) is arranged at the bottom of the second section of conveying belt (203), the sub-packaging assembly (3), the feeding assembly (4) and the sealing assembly (5) are all installed at the top of the supporting substrate (1), the sub-packaging assembly (3) is located at one side of the first section of conveying belt (202), the feeding assembly (4) is located at one side of the second section of conveying belt (203), and the sealing assembly (5) is located above the third section of conveying belt (205).

Wherein, partial shipment subassembly 3 includes second support frame (301), storage hopper (303) and weighing sensor (309), second support frame (301) are fixed with supporting baseplate (1) through the bolt, mounting bracket (302) are fixed at second support frame (301) top, storage hopper (303) are fixed at mounting bracket (302) top, the bottom of storage hopper (303) is provided with two branch material mouths (304) that can control the ejection of compact, two weighing boxes (308) that correspond respectively with two branch material mouths (304) are installed through weighing sensor (309) in the below that are located two branch material mouths (304) on mounting bracket (302), two the bottom of weighing boxes (308) all is provided with the discharge gate that can control, hopper (313) under hopper (313) are installed to be located two weighing boxes (308) below on mounting bracket (302), the bottom opening of hopper (313) just to one section conveyer belt (202) middle part.

2. The quantitative packaging device for piglet feed processing according to claim 1, wherein: the two material distributing openings (304) are hinged with sealing plates (305) capable of blocking the bottom openings of the material distributing openings (304), the two sides of the mounting frame (302) are hinged with first hydraulic cylinders (306), one ends, far away from the mounting frame (302), of the two first hydraulic cylinders (306) are provided with first hydraulic rods (307), and one ends, far away from the first hydraulic cylinders (306), of the two first hydraulic rods (307) are hinged with the two sealing plates (305) respectively.

3. The quantitative packaging device for piglet feed processing according to claim 1, wherein: the blanking plate (310) capable of sealing the bottom opening of the weighing box (308) is hinged to the bottom of the weighing box (308), two second hydraulic cylinders (311) are hinged to two sides of the mounting frame (302), second hydraulic rods (312) are arranged at one ends of the two second hydraulic cylinders (311) on each side of the mounting frame (302), and one ends, away from the second hydraulic cylinders (311), of the second hydraulic rods (312) on two sides of the mounting frame (302) are hinged to the two blanking plates (310) respectively.

4. The quantitative packaging device for piglet feed processing according to claim 1, wherein: the feeding component (4) comprises a bottom plate (401), a third supporting frame (405) and a feeding hopper (408), wherein the bottom plate (401) is fixed at the top of a supporting substrate (1) through bolts, the third supporting frame (405) is movably matched with the top of the bottom plate (401), the feeding hopper (408) is fixed at the upper half part of the third supporting frame (405), a conveying cylinder (409) is fixed on the upper slope of the third supporting frame (405), the bottom end of the conveying cylinder (409) is communicated with the bottom of the feeding hopper (408), and one end of the conveying cylinder (409) away from the feeding hopper (408) is located right above the two-section conveying belt (203).

5. The quantitative packaging device for piglet feed processing according to claim 4, wherein: the conveyer tube (409) is rotatably matched with an auger (412), the outer wall of one end of the conveyer tube (409) far away from the supplementing hopper (408) is downwards communicated with a blanking tube (410), the blanking tube (410) is downwards opposite to the middle part of the two-section conveyor belt (203), and the end part of one end of the conveyer tube (409) far away from the supplementing hopper (408) is provided with a first motor (404) for driving the auger (412) to rotate.

6. The quantitative packaging device for piglet feed processing according to claim 4, wherein: slide rails (402) are horizontally welded on two sides of the top of the bottom plate (401), rollers (406) are mounted on two sides of the bottom of the third support frame (405), the sections of the rollers (406) are of an I-shaped structure, the rollers (406) are in rolling fit on the slide rails (402), and the third support frame (405) is in moving fit on the top of the bottom plate (401) through the rollers (406).

7. The quantitative packaging device for piglet feed processing according to claim 6, wherein: the top of the bottom plate (401) is positioned between the two sliding rails (402) and is in running fit with a screw rod (403), one end of the top of the bottom plate (401) is horizontally provided with a second motor (411) for driving the screw rod (403) to rotate, a nut (407) is welded in the middle of the bottom of the third supporting frame (405), and the nut (407) is in threaded fit with the screw rod (403).

8. The quantitative packaging device for piglet feed processing according to claim 1, wherein: seal assembly (5) include fourth support frame (501), rotatory jib (502) and two splint (504), fourth support frame (501) are installed at support base plate (1) top through the bolt, rotatory jib (502) run through fourth support frame (501) top, and rotatory jib (502) and fourth support frame (501) normal running fit, the bottom of rotatory jib (502) is fixed with connecting plate (503), two splint (504) are articulated cooperation respectively at connecting plate (503) both ends, two splint (504) are "H" type structure with connecting plate (503) is whole, one of them splint (504) top articulates there is third pneumatic cylinder (506), one end of third pneumatic cylinder (506) is equipped with third hydraulic stem (507), the one end that third pneumatic stem (507) were kept away from third pneumatic cylinder (506) is articulated with the top of another splint (504), heat head (505) are all installed to two splint (504) bottom one side.

9. The quantitative packaging device for piglet feed processing according to claim 8, wherein: the top welding of rotatory jib (502) has circular carousel (508), and the top level of fourth support frame (501) articulates there is fourth pneumatic cylinder (509), and fourth pneumatic cylinder (509) one end is equipped with fourth hydraulic stem (510), and the one end that fourth hydraulic stem (510) kept away from fourth pneumatic cylinder (509) articulates with carousel (508) top.

10. The quantitative packaging device for piglet feed processing according to claim 1, wherein: the processing method of the quantitative packaging equipment for piglet feed processing specifically comprises the following steps:

step one: the piglet feed is filled into a storage hopper (303) and a supplementing hopper (408), a packaging bag is placed on a section of conveying belt (202), the packaging bag is conveyed to the lower portion of a discharging hopper (313) of a sub-packaging assembly (3) through the section of conveying belt (202), the first hydraulic rod (307) is driven by a first hydraulic cylinder (306), the first hydraulic rod (307) drives a sealing plate (305) to rotate, the piglet feed in the storage hopper (303) enters a weighing box (308) through a feed dividing opening (304) by rotating the sealing plate (305), the quality of the piglet feed filled in the weighing box (308) is monitored through a weighing sensor (309), when the piglet feed in the weighing box (308) reaches the standard for bagging, the sealing plate (305) is driven by the first hydraulic cylinder (306), the material dividing opening (304) is blocked, the second hydraulic rod (312) is driven by a second hydraulic cylinder (311), the second hydraulic rod (312) drives a stop plate (310) to rotate, and all the piglet feed in the weighing box (308) is filled into the weighing box (308) by rotating the stop plate (310);

Step two: conveying packaging bags filled with piglet feed onto a two-stage conveying belt (203) through a one-stage conveying belt (202), weighing the feed in the packaging bags through a wagon balance (204), driving a screw rod (403) to rotate through a first motor (404) when the feed quality in the packaging bags is far lower than the standard feed quality of the packaging bags, enabling a nut (407) to move through rotating the screw rod (403), enabling the nut (407) to drive a third supporting frame (405) to move, enabling a blanking pipe (410) to face the bag opening of the packaging bags through moving the third supporting frame (405), driving a packing auger (412) to rotate through a second motor (411), conveying the piglet feed in a supplementing hopper (408) to the position of the blanking pipe (410) through a conveying cylinder (409), and falling into the packaging bags through the blanking pipe (410), and enabling a supplementing material component (4) to stop supplementing the piglet feed into the packaging bags after the weighing result of the feed in the packaging bags through the wagon balance (204) reaches the standard feed quality of the packaging bags;

step three: the packaging bag filled with piglet feed is conveyed onto the three-section conveying belt (205) through the two-section conveying belt (203), the packaging bag filled with piglet feed is conveyed to the sealing assembly (5) through the three-section conveying belt (205), the bag opening of the packaging bag is located between the two clamping plates (504), the third hydraulic cylinder (506) drives the third hydraulic rod (507), the third hydraulic cylinder (506) and the third hydraulic rod (507) drive the two clamping plates (504) to be close to each other, the two heat sealing heads (505) compress the bag opening, and the bag opening of the packaging bag is heat-sealed through the two heat sealing heads (505), so that quantitative packaging of piglet feed is completed.