CN114306080A

CN114306080A - Integrated preparation system based on earthworm capsules

Info

Publication number: CN114306080A
Application number: CN202111548566.4A
Authority: CN
Inventors: 芮娟; 芮国力
Original assignee: Nanjing Longfu New Technology Industry Co ltd
Current assignee: Nanjing Longfu New Technology Industry Co ltd
Priority date: 2021-12-17
Filing date: 2021-12-17
Publication date: 2022-04-12
Anticipated expiration: 2041-12-17
Also published as: CN114306080B

Abstract

The invention discloses an integrated preparation system based on earthworm capsules, wherein a processing cylinder is arranged at the top end of a support frame, a vibrating motor is arranged at the top end of a screening screen frame, an upper baffle cover is connected at the bottom end of a top collection cover, air injection holes are uniformly formed in the inner wall of an annular tube, a pretreatment component is arranged at the top end of an inner top cylinder, a filling component is arranged at the bottom end of the processing cylinder, filling boxes are welded at two ends of a fixture block plate, an output shaft of a dispersion motor penetrates through a bottom motor frame and is connected with a scraper plate, and a recovery component is arranged at the bottom end of the processing cylinder. More convenient to be matched with the subsequent processing steps, thereby improving the processing efficiency.

Description

Integrated preparation system based on earthworm capsules

Technical Field

The invention relates to the technical field of earthworm processing, in particular to an integrated preparation system based on earthworm capsules.

Background

Earthworm is one of the important Chinese medicinal materials. Has effects of clearing heat, arresting convulsion, dredging collaterals, relieving asthma, and promoting urination. After being stir-fried, the medicine is used for treating high fever, unconsciousness, convulsive epilepsy and convulsion, arthralgia, lung heat and cough with dyspnea, oliguria and edema, hypertension and the like, and the earthworm is mixed with other auxiliary materials to prepare capsules for use when the medicine is conveniently taken.

But present earthworm when the preparation capsule, in order to make things convenient for the misce bene, can use the stirring part to stir, this process can make granular medicinal material more broken, and occupation space is more, is unfavorable for coordinating follow-up processing part to use for machining efficiency step-down.

Disclosure of Invention

The invention provides an integrated preparation system based on earthworm capsules, which can effectively solve the problem that when earthworms are prepared into capsules in the background art, a stirring part is used for stirring in order to facilitate uniform mixing, granular medicinal materials are crushed more in the process, the occupied space is large, the earthworms are not suitable for being matched with a subsequent processing part, and the processing efficiency is low.

In order to achieve the purpose, the invention provides the following technical scheme: the air mixing device comprises a dispersing and mixing component, wherein air blown out by an upper air pump is mixed between an upper shield and a lower shield by utilizing flowing air, so that the mixing effect is good and the volume is smaller;

the pretreatment component is used for assisting the dispersing and mixing component to ensure that the raw materials to be mixed are more dispersed and fine;

the filling assembly is used for converting the filling boxes at two ends by using the conversion pipe, is rapidly assembled and replaced, and is continuously filled without stopping, so that the filling efficiency is high;

the recovery assembly collects redundant raw materials to the recovery cover, and the redundant raw materials are automatically returned through the auger, so that waste is avoided.

Preferably, a processing barrel is mounted at the top end of the supporting frame, a dispersing and mixing assembly is mounted at the top end inside the processing barrel, and the dispersing and mixing assembly comprises an inner top barrel, a spring, a supporting ring, a screening net frame, a vibrating motor, a collecting cover, an upper blocking cover, an annular pipe, a hose, an upper air pump, an air jet hole, a lower blocking cover, a carbon fiber cloth barrel and an inner bottom barrel;

the utility model discloses a screening net frame, including an interior top section of thick bamboo, support ring top surface movable inlay has the screening net frame, vibrating motor is installed on screening net frame top, support ring top underrun has the top to collect the cover through the screw installation, the top is collected the cover bottom and is connected with and is kept off the cover, interior top section of thick bamboo inner wall is in and keeps off cover below position department and installs the annular tube, the hose is all installed at annular tube top surface both ends, the hose runs through interior top section of thick bamboo and processing section of thick bamboo and connects the air pump, the fumarole has evenly been seted up to the annular tube inner wall, the annular tube bottom has down to keep off the cover through the screw connection, keep off the cover bottom down and be connected with interior bottom section of thick bamboo through the carbon fiber cloth section of thick bamboo, interior bottom section of thick bamboo top end fixed connection processing section of thick bamboo inner wall.

Preferably, a plurality of the springs are distributed in a circumferential array mode, and the two ends of each spring are respectively connected with the processing cylinder and the inner top cylinder in a spot welding mode.

Preferably, the vibration motor and the input end of the upper air pump are electrically connected with the output end of an external power supply respectively, and the upper air pump is connected with the outer side of the processing cylinder through screws.

Preferably, the top end of the inner top cylinder is provided with a pretreatment assembly, and the pretreatment assembly comprises an installation rod, a rotating pipe, a pretreatment box, a top motor frame, a rubber stirring frame, a pretreatment net and a pretreatment motor;

the installation pole welded connection top of the inner top cylinder one side, the installation pole top is rotated and is cup jointed with the rotating tube, the rotating tube outside is welded and is connected with the pretreatment box, the pretreatment box top is welded and is connected with the top motor frame, the pretreatment motor is installed on the top motor frame top, the pretreatment motor output shaft runs through the top motor frame and is connected with the rubber stirring frame, and the pretreatment net is installed on the bottom end of the pretreatment box.

Preferably, the input end of the pretreatment motor is electrically connected with the output end of the external power supply, the rubber stirring frame is L-shaped, and the bottom surface of the rubber stirring frame is in contact with the top surface of the pretreatment net.

Preferably, the bottom end of the processing cylinder is provided with a filling assembly, and the filling assembly comprises a rotary outlet, a magnetic suction sealing plate, a central column, a conversion pipe, a clamping groove plate, a clamping plate, a filling box, a capsule hole, a jacking plate, a bottom motor frame, a dispersion motor, a scraper, a sealing ring and a discharge hole;

the rotary outlet is arranged at one side of the bottom end of the processing cylinder, both ends of the rotary outlet are provided with magnetic suction seal plates through rotating shafts, a middle post is welded in the middle of the rotary outlet, a conversion pipe is rotatably sleeved outside the middle post, two sides of the conversion pipe are welded with a slot plate, the inside of the card slot plate is slidably clamped with a card plate, both ends of the card plate are welded with filling boxes, the top surface of the filling box is uniformly provided with capsule holes, the bottom end inside the filling box is embedded with a jacking plate in a sliding way, a bottom motor frame is arranged at the bottom end in the inner bottom cylinder through a screw, a dispersion motor is arranged in the middle of the top surface of the bottom motor frame, the output shaft of the dispersion motor penetrates through the bottom motor frame to be connected with a scraper, the bottom end of the inner bottom cylinder close to the top surface of the filling box is fixedly sleeved with a sealing ring, the inner bottom cylinder is characterized in that a discharge hole is formed in one side of the bottom end of the inner bottom cylinder, and the input end of the dispersion motor is electrically connected with the output end of the external power supply.

Preferably, the inner wall of the magnetic attraction sealing plate is an arc-shaped plate matched with the outer side of the processing cylinder, the width of the magnetic attraction sealing plate is larger than the height of the rotary outlet, and the height of the filling box is equal to the height of the rotary outlet.

Preferably, the bottom end of the processing cylinder is provided with a recovery assembly, and the recovery assembly comprises a recovery cover, a recovery pipe, a packing auger, a cleaning pipe, a valve, a cleaning air pump and an inclined pipe;

the utility model discloses a cleaning machine, including processing bobbin, recovery cover, valve, clearance air pump, clearance pipe, valve, recovery cover, processing bobbin bottom welded connection recovery tube, recovery tube one end welded connection auger, the auger bottom runs through the welding and has the clearance pipe, the clearance pipe is close to auger one end and installs the valve, the clearance air pump is installed to the clearance pipe other end, the welding has the pipe chute in auger top one side.

Preferably, the auger and the input end of the cleaning air pump are electrically connected with the output end of an external power supply respectively, and the included angle between the central axis of the recovery pipe and the horizontal plane is 10 degrees.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use;

1. be provided with the dispersion and mix the subassembly, pour the raw materials into to screening screen frame top surface, sieve, the raw materials slides along collecting the cover and gets into supreme keeping off between the cover and keeping off the cover down, the air that blows off through last air pump drives the air and flows for the raw materials is kept off at last and is mixed between the cover down, and this kind of hybrid is difficult for making the medicinal material granule broken, the medicinal material is more complete, and occupation space is littleer, more convenient and follow-up processing step cooperation, thereby improve the treatment effeciency.

2. Be provided with the preliminary treatment subassembly, before the raw materials got into the screening net frame, rotate through the rubber stirring frame that the preliminary treatment motor drove and disperse the raw materials of caking to make the raw materials of screening net frame top surface more even, improve the treatment effeciency of dispersion mixed subassembly.

3. Be provided with the filling subassembly, the filling subassembly is direct to link to each other with the dispersion mixing assembly, and the raw materials that get into can be evenly filled to the capsule by the scraper blade that the dispersion motor drove, and open the magnetism of commentaries on classics export and inhale the shrouding back, utilize the filling box at conversion pipe conversion both ends, the dress changes rapidly, fills in succession under the situation of not shutting down and the unloading, and filling efficiency is high.

4. Be provided with the recovery subassembly, fill the unnecessary raw materials of box top surface and can be promoted to retrieving inside the cover by the scraper blade, can loop through and retrieve cover and recovery tube under the action of gravity, reach the auger bottom, return automatically and carry to screening screen frame top surface, avoid extravagant, and can open the valve, through the clearance of blowing rapidly of clearance air pump, the clearance is simple and convenient.

To sum up, the preliminary treatment subassembly will get into the preliminary treatment that carries on of dispersion mixing subassembly for dispersion mixing subassembly is handled more rapidly, and dispersion mixing subassembly cooperation is filled the subassembly, and convenient quick completion capsule is filled the work, retrieves the subassembly and retrieves unnecessary raw materials, prevents extravagantly, and a plurality of subassemblies are used jointly, fill the effect.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic structural view of a dispersive mixing assembly according to the invention;

FIG. 3 is a schematic view of the structure of area A of FIG. 2 according to the present invention;

FIG. 4 is a schematic diagram of the pre-processing assembly of the present invention;

FIG. 5 is a schematic structural view of the fill assembly of the present invention;

FIG. 6 is a schematic view of the structure of area A of FIG. 5 according to the present invention;

FIG. 7 is a schematic structural view of the recovery assembly of the present invention;

reference numbers in the figures: 1. a support frame; 2. processing the cylinder;

3. a dispersive mixing assembly; 301. an inner top cylinder; 302. a spring; 303. a support ring; 304. screening the screen frame; 305. a vibration motor; 306. a collection hood; 307. an upper shield; 308. an annular tube; 309. a hose; 310. an air feeding pump; 311. a gas injection hole; 312. a lower shield; 313. a carbon fiber cloth tube; 314. an inner bottom cylinder;

4. a pre-processing assembly; 401. mounting a rod; 402. rotating the tube; 403. a pre-processing box; 404. a top motor frame; 405. a rubber stirring frame; 406. pre-treating the web; 407. pre-treating the motor;

5. a fill assembly; 501. an outlet transfer port; 502. a magnetic suction sealing plate; 503. a center pillar; 504. a transfer tube; 505. a slot clamping plate; 506. a chuck plate; 507. filling the box; 508. a capsule aperture; 509. jacking up the plate; 510. a bottom motor frame; 511. a decentralized motor; 512. a squeegee; 513. a seal ring; 514. a discharge hole;

6. a recovery assembly; 601. a recovery cover; 602. a recovery pipe; 603. a packing auger; 604. cleaning the pipe; 605. a valve; 606. cleaning the air pump; 607. and (4) an inclined tube.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-7, the present invention provides an integrated preparation system solution based on earthworm capsule, comprising a dispersive mixing component 3, wherein the air blown out by an upper air pump 310 is mixed between an upper shield 307 and a lower shield 312 by flowing air, the mixing effect is good and the volume is smaller;

the pretreatment component 4 is used for assisting the dispersing and mixing component 3, so that the raw materials to be mixed are more dispersed and fine;

the filling assembly 5 utilizes the conversion pipe 504 to convert the filling boxes 507 at two ends, is quickly assembled and replaced, and is continuously filled without stopping the machine, so that the filling efficiency is high;

and the recovery component 6 collects redundant raw materials to the recovery cover 601, and then automatically returns through the auger 603, so that waste is avoided.

As shown in fig. 2-3, a processing cylinder 2 is mounted at the top end of a support frame 1, a dispersing and mixing assembly 3 is mounted at the top end of the interior of the processing cylinder 2, and the dispersing and mixing assembly 3 comprises an inner top cylinder 301, a spring 302, a support ring 303, a screening frame 304, a vibrating motor 305, a collecting cover 306, an upper baffle cover 307, a ring pipe 308, a hose 309, an upper air pump 310, an air injection hole 311, a lower baffle cover 312, a carbon fiber cloth cylinder 313 and an inner bottom cylinder 314;

the outer side of the inner top cylinder 301 is connected with the inner wall of the processing cylinder 2 through a plurality of springs 302, the plurality of springs 302 are distributed in a circumferential array, the two ends of each spring 302 are respectively connected with the processing cylinder 2 and the inner top cylinder 301 in a spot welding manner, the springs 302 are convenient to be connected with the processing cylinder 2 and the inner top cylinder 301, the middle part inside the inner top cylinder 301 is provided with a support ring 303 through screws, the top surface of the support ring 303 is movably embedded with a screening net frame 304, the top end of the screening net frame 304 is provided with a vibrating motor 305, the top bottom surface of the support ring 303 is provided with a top collecting cover 306 through screws, the bottom end of the top collecting cover 306 is connected with an upper blocking cover 307, the inner wall of the inner top cylinder 301 is arranged at the position below the upper blocking cover 307 and is provided with an annular pipe 308, the two ends of the top surface of the annular pipe 308 are provided with hoses 309, the hoses penetrate through the inner top cylinder 301 and the processing cylinder 2 to connect with an upper air pump 310, the input ends of the vibrating motor 305 and the upper air pump 310 are respectively electrically connected with the output end of an external power supply, the outer side of the processing cylinder 2 through screws, the upper air pump 310 is fixedly installed to ensure that the vibration motor 305 and the upper air pump 310 work normally, the inner wall of the annular tube 308 is provided with air injection holes 311 uniformly, the bottom end of the annular tube 308 is connected with a lower baffle cover 312 through screws, the bottom end of the lower baffle cover 312 is connected with an inner bottom tube 314 through a carbon fiber cloth tube 313, and the top end of the inner bottom tube 314 is fixedly connected with the inner wall of the processing tube 2.

As shown in fig. 4, a pretreatment assembly 4 is installed at the top end of the inner top cylinder 301, and the pretreatment assembly 4 comprises an installation rod 401, a rotating pipe 402, a pretreatment box 403, a top motor frame 404, a rubber stirring frame 405, a pretreatment net 406 and a pretreatment motor 407;

top cylinder 301 top one side in installation pole 401 welded connection, installation pole 401 top is rotated and is cup jointed rotating tube 402, rotating tube 402 outside welded connection preliminary treatment box 403, preliminary treatment box 403 top welded connection top motor frame 404, preliminary treatment motor 407 is installed on top motor frame 404 top, preliminary treatment motor 407 input and external power supply output electrical property link to each other, rubber stirring frame 405 is the L type, rubber stirring frame 405 bottom surface contact preliminary treatment net 406 top surface, it slides along the net 406 top surface of preliminary treatment to be convenient for rubber stirring frame 405 promotes the raw materials, preliminary treatment motor 407 output shaft runs through top motor frame 404 and is connected with rubber stirring frame 405, preliminary treatment net 406 is installed to preliminary treatment box 403 bottom.

As shown in fig. 5 to 6, the bottom end of the processing drum 2 is provided with a filling assembly 5, and the filling assembly 5 comprises a rotary outlet 501, a magnetic closing plate 502, a central column 503, a switching tube 504, a slot plate 505, a latch plate 506, a filling box 507, a capsule hole 508, a jacking plate 509, a bottom motor frame 510, a dispersion motor 511, a scraping plate 512, a sealing ring 513 and a discharge hole 514;

the rotary outlet 501 is arranged at one side of the bottom end of the processing cylinder 2, both ends of the rotary outlet 501 are provided with magnetic attraction seal plates 502 through rotating shafts, the inner wall of the magnetic attraction seal plate 502 is an arc-shaped plate matched with the outer side of the processing cylinder 2, the width of the magnetic attraction seal plate 502 is larger than the height of the rotary outlet 501, the height of the filling box 507 is equal to the height of the rotary outlet 501, so that the magnetic attraction seal plate 502 can seal the rotary outlet 501, the middle part of the rotary outlet 501 is welded with a middle column 503, the outer side of the middle column 503 is rotatably sleeved with a conversion pipe 504, both sides of the conversion pipe 504 are welded with clamping groove plates 505, the clamping plate 505 is slidably clamped and connected with a clamping plate 506, both ends of the clamping plate 506 are welded with filling boxes 507, the top surfaces of the filling boxes 507 are uniformly provided with capsule holes 508, the bottom ends inside the filling boxes 507 are slidably embedded with jacking plates 509, the bottom ends inside the inner bottom end of the inner bottom cylinder 314 are provided with a bottom motor frame 510 through screws, the middle part of the top surface of the bottom motor frame 510 is provided with a dispersion motor 511, the output shaft of the dispersion motor 511 is connected with a scraper 512, the bottom end of the inner bottom cylinder 314 close to the top surface of the filling box 507 is fixedly sleeved with a sealing ring 513, one side of the bottom end of the inner bottom cylinder 314 is provided with a discharge hole 514, and the input end of the dispersion motor 511 is electrically connected with the output end of an external power supply.

As shown in fig. 7, the bottom end of the processing cylinder 2 is provided with a recovery assembly 6, and the recovery assembly 6 comprises a recovery cover 601, a recovery pipe 602, an auger 603, a cleaning pipe 604, a valve 605, a cleaning air pump 606 and an inclined pipe 607;

the recovery cover 601 is installed at the bottom end of the processing cylinder 2, the bottom end of the processing cylinder 2 is welded with the recovery pipe 602, one end of the recovery pipe 602 is welded with the auger 603, the input ends of the auger 603 and the cleaning air pump 606 are electrically connected with the output end of an external power supply respectively, the included angle between the central axis of the recovery pipe 602 and the horizontal plane is 10 degrees, raw materials convenient to recover slide to the bottom end of the auger 603 along the recovery pipe 602 and are convenient to convey, the cleaning pipe 604 is welded at the bottom end of the auger 603 in a penetrating manner, a valve 605 is installed at one end, close to the auger 603, of the cleaning pipe 604, the cleaning air pump 606 is installed at the other end of the cleaning pipe 604, and an inclined pipe 607 is welded at one side of the top end of the auger 603.

The working principle and the using process of the invention are as follows: sleeving the rotating pipe 402 at the installation rod 401, installing the pretreatment box 403, pouring raw materials into the pretreatment box 403, starting the top surface of the pretreatment net 406, rotating the rubber stirring frame 405 driven by the pretreatment motor 407 and dispersing the agglomerated raw materials, so that the raw materials which are about to enter the top surface of the screening net frame 304 are more uniform, and the treatment efficiency of the dispersing and mixing assembly 3 is improved;

when the raw materials are poured onto the top surface of the screening screen frame 304 through the pretreatment screen 406, the vibration motor 305 is started for screening, then the raw materials slide along the collection cover 306 and enter between the upper shield 307 and the lower shield 312, because of the structure formed by combining the upper shield 307, the lower shield 312 and the annular pipe 308, the two ends are small, the middle is large, the air blown out by the upper air pump 310 enters the annular pipe 308 and then is ejected out of the air jet holes 311 to drive the air to flow, so that the raw materials flow randomly between the upper shield 307 and the lower shield 312 for mixing, and the mixing mode is not easy to break the medicinal material particles, so that the medicinal materials are more complete, the occupied space is smaller, and the mixing mode is more convenient to match with the subsequent processing steps, thereby improving the treatment efficiency;

the filling component 5 is directly connected with the dispersing and mixing component 3, the vibrating inner top cylinder 301 cannot transmit vibration to the inner bottom cylinder 314 after passing through the carbon fiber cloth cylinder 313, the inner bottom cylinder 314 is kept stable, the entered raw materials can be uniformly filled into capsules of the capsule hole 508 by the scraper 512 driven by the dispersing motor 511, the redundant raw materials are pushed by the scraper 512 and enter the recovery cover 601 from the discharge hole 514, then filling boxes 507 with the hole capsules arranged in the capsule hole 508 are embedded into the slot clamping plate 505 through the slot clamping plate 506 for fixation, after the magnetic closing plate 502 of the transfer port 501 is opened, the transfer pipe 504 is rotated by taking the central column 503 as the axis, the filling boxes 507 at two ends are transferred, the top plate 509 is pushed, the closed capsules are ejected, and continuous filling and blanking are carried out under the condition of no machine halt, and the filling efficiency is high;

the unnecessary raw materials of packing box 507 top surface can be promoted by scraper blade 512 and to retrieve inside cover 601, can loop through under the action of gravity and retrieve cover 601 and recovery tube 602, reachs auger 603 bottom, returns automatically and carries to screening screen frame 304 top surface, avoids extravagant, and can open valve 605, through the clearance air pump 606 clearance of blowing fast, the clearance is simple and convenient.

To sum up, the preliminary treatment subassembly will get into the preliminary treatment that carries on of dispersion mixing subassembly for dispersion mixing subassembly is handled more rapidly, and dispersion mixing subassembly cooperation is filled the subassembly, and convenient quick completion capsule is filled the work, retrieves the subassembly and retrieves unnecessary raw materials, prevents extravagantly, and a plurality of subassemblies are used jointly, fill the effect

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An integration preparation system based on earthworm capsule which characterized in that: the method comprises the following steps:

the dispersion mixing assembly (3) utilizes flowing air to mix air blown out by the upper air pump (310) between the upper shield cover (307) and the lower shield cover (312), so that the mixing effect is good and the volume is smaller;

the pretreatment component (4) is used for assisting the dispersion and mixing component (3) to ensure that the raw materials to be mixed are more dispersed and fine;

the filling assembly (5) utilizes the conversion tube (504) to convert the filling boxes (507) at two ends, is quickly assembled and replaced, and is continuously filled without stopping, so that the filling efficiency is high;

and the recovery component (6) collects redundant raw materials to the recovery cover (601), and then automatically returns through the auger (603), so that waste is avoided.

2. The integrated earthworm capsule-based preparation system according to claim 1, wherein a processing barrel (2) is mounted at the top end of the support frame (1), a dispersing and mixing component (3) is mounted at the top end of the interior of the processing barrel (2), and the dispersing and mixing component (3) comprises an inner top barrel (301), a spring (302), a support ring (303), a screening net frame (304), a vibrating motor (305), a collection cover (306), an upper baffle cover (307), an annular pipe (308), a hose (309), an upper air pump (310), an air injection hole (311), a lower baffle cover (312), a carbon fiber cloth barrel (313) and an inner bottom barrel (314);

the inner top cylinder (301) is connected with the inner wall of the processing cylinder (2) through a plurality of springs (302) at the outer side, a support ring (303) is mounted at the middle part inside the inner top cylinder (301) through screws, a screening net frame (304) is movably embedded on the top surface of the support ring (303), a vibrating motor (305) is mounted at the top end of the screening net frame (304), a top collection cover (306) is mounted at the bottom surface of the top surface of the support ring (303) through screws, an upper blocking cover (307) is connected to the bottom end of the top collection cover (306), an annular pipe (308) is mounted at the position below the upper blocking cover (307) on the inner wall of the inner top cylinder (301), hoses (309) are mounted at both ends of the top surface of the annular pipe (308), the inner top cylinder (301) and the processing cylinder (2) are penetrated through the hoses (309), air injection holes (311) are uniformly formed in the inner wall of the annular pipe (308), the bottom end of the annular pipe (308) is connected with a lower blocking cover (312) through screws, the bottom end of the lower shield cover (312) is connected with an inner bottom cylinder (314) through a carbon fiber cloth cylinder (313), and the top end of the inner bottom cylinder (314) is fixedly connected with the inner wall of the processing cylinder (2).

3. The integrated earthworm capsule-based preparation system according to claim 2, wherein a plurality of the springs (302) are distributed in a circumferential array, and the springs (302) are respectively connected with the processing cylinder (2) and the inner top cylinder (301) at two ends by spot welding.

4. The integrated earthworm capsule-based preparation system according to claim 2, wherein the vibration motor (305) and the upper air pump (310) are electrically connected with an external power supply output end respectively at input ends, and the upper air pump (310) is connected with the outer side of the processing cylinder (2) through screws.

5. The integrated earthworm capsule-based preparation system according to claim 2, wherein the top end of the inner top cylinder (301) is provided with a pretreatment assembly (4), and the pretreatment assembly (4) comprises a mounting rod (401), a rotating pipe (402), a pretreatment box (403), a top motor rack (404), a rubber stirring rack (405), a pretreatment net (406) and a pretreatment motor (407);

install a section of thick bamboo (301) top one side in pole (401) welded connection, installation pole (401) top is rotated and has been cup jointed rotating tube (402), rotating tube (402) outside welded connection preliminary treatment box (403), preliminary treatment box (403) top welded connection top motor frame (404), preliminary treatment motor (407) are installed on top motor frame (404) top, preliminary treatment motor (407) output shaft runs through top motor frame (404) and is connected with rubber stirring frame (405), preliminary treatment net (406) are installed to preliminary treatment box (403) bottom.

6. The integrated earthworm capsule-based preparation system according to claim 5, wherein the input end of the pretreatment motor (407) is electrically connected with the output end of an external power supply, the rubber stirring frame (405) is L-shaped, and the bottom surface of the rubber stirring frame (405) contacts the top surface of the pretreatment screen (406).

7. The integrated earthworm capsule-based preparation system according to claim 2, wherein a filling component (5) is arranged at the bottom end of the processing cylinder (2), and the filling component (5) comprises a rotary outlet (501), a magnetic attraction closing plate (502), a central column (503), a conversion pipe (504), a clamping groove plate (505), a clamping block plate (506), a filling box (507), a capsule hole (508), a jacking plate (509), a bottom motor frame (510), a dispersion motor (511), a scraping plate (512), a sealing ring (513) and a discharge hole (514);

the rotary outlet (501) is arranged on one side of the bottom end of the processing barrel (2), magnetic suction sealing plates (502) are mounted at two ends of the rotary outlet (501) through rotating shafts, a center pillar (503) is welded in the middle of the rotary outlet (501), a conversion pipe (504) is rotatably sleeved on the outer side of the center pillar (503), slot plates (505) are welded on two sides of the conversion pipe (504), a slot plate (506) is slidably clamped in the slot plate (505), filling boxes (507) are welded at two ends of the slot plate (506), capsule holes (508) are uniformly formed in the top surface of each filling box (507), a jacking plate (509) is inlaid in the bottom end of each filling box (507) in a sliding mode, a bottom motor frame (510) is mounted at the bottom end of the inner bottom barrel (314) through screws, a dispersion motor (511) is mounted in the middle of the top surface of the bottom motor frame (510), an output shaft of the dispersion motor (511) penetrates through the bottom motor frame (510) and is connected with a scraper (512), the bottom end of the inner bottom cylinder (314) is fixedly sleeved with a sealing ring (513) close to the top surface of the filling box (507), a discharge hole (514) is formed in one side of the bottom end of the inner bottom cylinder (314), and the input end of the dispersion motor (511) is electrically connected with the output end of an external power supply.

8. The integrated earthworm capsule-based preparation system according to claim 7, wherein the magnetic attraction sealing plate (502) has an inner wall which is an arc-shaped plate matching with the outer side of the processing cylinder (2), the width of the magnetic attraction sealing plate (502) is greater than the height of the rotary outlet (501), and the height of the filling box (507) is equal to the height of the rotary outlet (501).

9. The integrated earthworm capsule-based preparation system according to claim 2, wherein a recovery assembly (6) is mounted at the bottom end of the processing cylinder (2), and the recovery assembly (6) comprises a recovery cover (601), a recovery pipe (602), an auger (603), a cleaning pipe (604), a valve (605), a cleaning air pump (606) and an inclined pipe (607);

retrieve cover (601) and install in a processing section of thick bamboo (2) bottom, a processing section of thick bamboo (2) bottom welded connection collector tube (602), collector tube (602) one end welded connection auger (603), auger (603) bottom through-welding has clearance pipe (604), clearance pipe (604) are close to auger (603) one end and install valve (605), clearance air pump (606) are installed to the clearance pipe (604) other end, auger (603) top one side through-welding has pipe chute (607).

10. The integrated earthworm capsule-based preparation system according to claim 9, wherein the input ends of the auger (603) and the cleaning air pump (606) are electrically connected to the output end of an external power supply, respectively, and the included angle between the central axis of the recovery pipe (602) and the horizontal plane is 10 °.