CN112591164A

CN112591164A - Processing and packaging integrated equipment for biological fertilizer

Info

Publication number: CN112591164A
Application number: CN202011520557.XA
Authority: CN
Inventors: 江堂芬
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2021-04-02

Abstract

The utility model provides an integrative equipment of processing packing of bio-feritlizer, includes the box, the feeder hopper, the sieve, caking processing mechanism, quantitative unloading mechanism, motor and capper, and the box upper end is equipped with the feeder hopper, and the feeder hopper below is equipped with the sieve, and sieve right-hand member downward sloping is equipped with caking processing mechanism on the box right wall inner wall, and the sieve below is equipped with first hopper, and first hopper below is equipped with quantitative unloading mechanism, and quantitative unloading mechanism below is equipped with the second and goes out the hopper, and the second goes out the hopper below and is equipped with conveyer, and the conveyer left end is equipped. The invention provides processing and packaging integrated equipment for biological fertilizers, which is characterized in that fertilizers in a feed hopper are screened through a sieve plate, the screened agglomerated fertilizers are sent to an agglomeration treatment mechanism, the treated agglomerated fertilizers are thrown out from a material throwing port for secondary screening, and the screened fertilizers are packaged through a second discharge hopper, so that the quality of packaged fertilizers is improved.

Description

Processing and packaging integrated equipment for biological fertilizer

Technical Field

The invention relates to the technical field of processing of biological fertilizers, in particular to processing and packaging integrated equipment for biological fertilizers.

Background

The biological fertilizer is also called microbial fertilizer, inoculant or bacterial fertilizer, and is a kind of fertilizer products which take the life activity of microbes as the core and make crops obtain specific fertilizer effect. After the production of the biological fertilizer, the biological fertilizer needs to be quantitatively packaged so as to be convenient for marketing. The easy caking of bio-feritlizer before packing causes the decline of product quality easily, influences bio-feritlizer's sale, and at present, traditional packagine machine can not handle the fertilizer of caking, and the manual work is beaten the caking and is wasted time and energy again. Therefore, in view of the current situation, there is an urgent need for a device capable of processing the bulk fertilizer and packaging the processed bio-fertilizer to overcome the shortcomings of the current practical application.

Disclosure of Invention

The invention aims to provide processing and packaging integrated equipment for a biological fertilizer, which aims to solve the technical problems in the background technology.

The embodiment of the invention is realized by the following steps:

a processing and packaging integrated device for bio-fertilizer comprises a box body, a feed hopper, a sieve plate, a caking treatment mechanism, a quantitative blanking mechanism, a motor and a sealing machine, wherein the feed hopper is arranged at the upper end of the box body, the sieve plate is arranged below the feed hopper, the right end of the sieve plate inclines downwards, the caking treatment mechanism is arranged on the inner wall of the right wall of the box body, the caking treatment mechanism comprises a feed inlet, a throwing port, a roller, a first ejector block, a second ejector block, a rack, a first gear, a first stirring blade, a first reset spring, a stirring chamber and a baffle plate, the roller is connected with the right wall of the box body through a bearing, a roller supporting shaft is fixedly connected with the right wall of the box body, the first ejector block is fixedly connected with the roller supporting shaft, a plurality of stirring chambers are uniformly distributed on the circumference in the roller, the front ends of the stirring chambers, the first ejection block is in contact with the second ejection block, a rack is arranged below the second ejection block, the left inner wall and the right inner wall of the stirring chamber are hollow, the rack is connected with the hollow part of the inner wall of the stirring chamber through a slide rail, a first reset spring is arranged at the lower end of the rack, a first gear is arranged at the hollow part of the inner wall of the stirring chamber, the first gear is meshed with the rack, the first stirring blade and the first gear are coaxial, the first stirring blade is fixedly connected with the first gear, the first stirring blade is positioned in the stirring chamber, a shielding plate is arranged at the front end of a roller supporting shaft and fixedly connected with the roller supporting shaft, the shielding plate is tightly attached to an opening of the stirring chamber, a feed inlet is arranged below the shielding plate, a polishing port is arranged above the shielding plate, a first discharge hopper is arranged below the sieve plate, and a quantitative discharging mechanism is arranged below the first discharge hopper, the quantitative discharging mechanism is provided with a second discharging hopper below, a conveying belt is arranged below the second discharging hopper, and a sealing machine is arranged at the left end of the conveying belt.

Further, the quantitative discharging mechanism comprises a rotary hopper, a round shaft, a fixed support, a lever, a first magnet, a second reset spring and a groove, the round shaft is fixedly connected with the rear wall of the box body, a semi-cylindrical notch is hollowed above the front end of the round shaft, the fixed support is arranged on the notch at the front end of the round shaft, the lever is arranged on the fixed support, the left part of the center of the lever is hinged with the fixed support, the right end of the lever is provided with the first magnet which is fixedly connected with the lever, the second magnet is arranged on the notch at the front end of the round shaft and fixedly connected with the round shaft, the first magnet is attached to the second magnet, the second reset spring is arranged below the lever, the lower end of the second reset spring is connected with the round shaft, the upper end of the second reset spring is connected with the lever, the rotary hopper is movably connected with the round shaft through a bearing, four hoppers are uniformly distributed on the outer wall of the rotary hopper in a circumferential mode, four grooves are formed in the inner wall of the rotary hopper, and one part of the left end of the lever extends into the grooves.

Furthermore, an incomplete gear is arranged behind the rotary hopper, the incomplete gear is provided with discontinuous teeth at four positions, the third gear is movably connected with the rear wall of the box body through a bearing, the third gear is meshed with the teeth on the incomplete gear, a third bevel gear with the same axis is arranged on the third gear, the third bevel gear is fixedly connected with the third gear, the second disc is movably connected with the first blanking hopper through the bearing, a round hole is formed in the edge of the second disc, the round hole is matched with the opening of the first blanking hopper, a fourth bevel gear with the same axis is arranged below the second disc, the fourth bevel gear is fixedly connected with the second disc, and the fourth bevel gear is meshed with the third bevel gear.

Further, the sieve plate left end is articulated with the box inner wall, the sieve right-hand member is equipped with the connecting rod, the connecting rod lower extreme is articulated with the sieve, be equipped with first bevel gear on the box back wall, first bevel gear passes through the bearing and is connected with the box back wall, first bevel gear the place ahead is equipped with first disc, first disc passes through the shaft coupling and is connected with first bevel gear, the connecting rod is articulated with first disc edge, cylinder circumference outer wall front end is equipped with the second bevel gear, second bevel gear and cylinder are coaxial, and second bevel gear and cylinder circumference outer wall fixed connection, second bevel gear meshes with first bevel gear.

Further, both ends are equipped with the same rack about the second kicking block, both ends inner wall cavity is equipped with first gear, second gear respectively about the teeter chamber, first gear and second gear all mesh with the rack, and first gear and second gear number of teeth inequality, first gear passes through the first stirring vane of coupling joint, the second gear passes through the second stirring vane of coupling joint, first stirring vane, second stirring vane are located the teeter chamber, and mutually noninterfere.

Furthermore, the edge of the first ejector block is provided with a plurality of bulges and grooves, the surfaces of the bulges and the grooves are smooth, and the upper end of the second ejector block is in a convex shape and has a smooth surface.

Further, the motor is in transmission connection with the roller through a belt and a belt pulley.

The invention provides processing and packaging integrated equipment for a biological fertilizer, which has the following beneficial effects:

(1) the invention provides processing and packaging integrated equipment for biological fertilizers, which is characterized in that fertilizers in a feed hopper are screened through a sieve plate, the screened agglomerated fertilizers are sent to an agglomeration treatment mechanism, the treated agglomerated fertilizers are thrown out from a material throwing port for secondary screening, and the screened fertilizers are packaged through a second discharge hopper, so that the quality of packaged fertilizers is improved.

(2) The invention provides processing and packaging integrated equipment for biological fertilizer, which discharges fertilizer from a first discharge hopper quantitatively through a quantitative discharging mechanism, thereby reducing the burden of manual weighing of workers.

Drawings

Fig. 1 is a front sectional structural view of the present invention.

FIG. 2 is a schematic view of the cake processing mechanism of the present invention.

Fig. 3 is a schematic view of the enlarged structure of a part a in fig. 2 according to the present invention.

Fig. 4 is a schematic structural view of a roller linkage sieve plate of the invention.

Fig. 5 is a schematic structural view of the quantitative blanking mechanism of the present invention.

FIG. 6 is a schematic view of the structure of the rotary hopper linked with the second disc of the present invention.

1-feed hopper, 2-sieve plate, 201-connecting rod, 202-first bevel gear, 203-first disk, 3-caking processing mechanism, 301-feed inlet, 302-throwing port, 303-roller, 304-first top block, 305-second top block, 306-rack, 307-first gear, 308-second gear, 309-first stirring blade, 3010-second stirring blade, 3011-first reset spring, 3012-second bevel gear, 3013-stirring chamber, 3014-baffle plate, 4-motor, 5-first discharge hopper, 6-quantitative discharging mechanism, 601-rotating hopper, 602-circular shaft, 603-fixed support, 604-lever, 605-first magnet, 606-second magnet, 607-second reset spring, 608-groove, 609-incomplete gear, 6010-third gear, 6011-third bevel gear, 6012-fourth bevel gear, 6013-second disc, 6014-round hole, 7-second discharge hopper, 8-conveying belt, 9-sealing machine and 10-box.

Detailed Description

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

Example (b):

referring to fig. 1 to 6, in the embodiment of the present invention, an integrated apparatus for processing and packaging a bio-fertilizer includes a box 10, a feeding hopper 1, a sieve plate 2, a caking processing mechanism 3, a quantitative discharging mechanism 6, a motor 4 and a sealing machine 9, wherein the feeding hopper 1 is disposed at the upper end of the box 10, the sieve plate 2 is disposed below the feeding hopper 1, the right end of the sieve plate 2 is inclined downward, the caking processing mechanism 3 is disposed on the inner wall of the right wall of the box 10, the caking processing mechanism 3 includes a feeding port 301, a material throwing port 302, a roller 303, a first top block 304, a second top block 305, a rack 306, a first gear 307, a first stirring blade 309, a first return spring 3011, a stirring chamber 3013 and a shielding plate 3014, the roller 303 is connected to the right wall of the box 10 through a bearing, a supporting shaft of the roller 303 is fixedly connected to the right wall of the box 10, the first top block 304 is fixedly connected to the supporting, an opening is arranged at the front end of a stirring chamber 3013, a second ejector block 305 is arranged at the upper end of the stirring chamber 3013, a first ejector block 304 is in contact with the second ejector block 305, a rack 306 is arranged below the second ejector block 305, the left inner wall and the right inner wall of the stirring chamber 3013 are hollow, the rack 306 is connected with the hollow part of the inner wall of the stirring chamber 3013 through a sliding rail, a first return spring 3011 is arranged at the lower end of the rack 306, a first gear 307 is arranged at the hollow part of the inner wall of the stirring chamber 3013, the first gear 307 is meshed with the rack 306, a first stirring blade 309 and the first gear 307 are coaxial, the first stirring blade 309 is fixedly connected, the first stirring blade 309 is positioned in the stirring chamber 3013, a baffle 3014 is arranged at the front end of a supporting shaft of a roller 303, the baffle 3014 is fixedly connected with the supporting shaft of the roller 303, the baffle 3014 is tightly attached to the opening of the stirring chamber 3013, a feed inlet 301 is arranged below the baffle 3014, a throwing, the quantitative discharging mechanism 6 is arranged below the first discharging hopper 5, the second discharging hopper 7 is arranged below the quantitative discharging mechanism 6, the conveying belt 8 is arranged below the second discharging hopper 7, and the sealing machine 9 is arranged at the left end of the conveying belt 8.

Preferably, the quantitative feeding mechanism 6 comprises a rotary hopper 601, a circular shaft 602, a fixed support 603, a lever 604, a first magnet 605, a second magnet 606, a second return spring 607 and a groove 608, the circular shaft 602 is fixedly connected with the rear wall of the box 10, a semi-cylindrical notch is hollowed above the front end of the circular shaft 10, the fixed support 603 is arranged on the notch at the front end of the circular shaft 10, the lever 604 is arranged on the fixed support 603, the left part of the center of the lever 604 is hinged with the fixed support 603, the right end of the lever 604 is provided with the first magnet 605, the first magnet 605 is fixedly connected with the lever 604, the second magnet 606 is arranged on the notch at the front end of the circular shaft 602, the second magnet 606 is fixedly connected with the circular shaft 602, the first magnet 605 is attached to the second magnet 606, the second return spring 607 is arranged below the lever 604, the lower end of the second return spring 607 is connected with the circular shaft 602, the upper end is connected with the lever 604, the rotary hopper 601 is, four hoppers are uniformly distributed on the outer wall of the rotary hopper 601 in a circumferential mode, four grooves 608 are formed in the inner wall of the rotary hopper 601, and a part of the left end of the lever 604 extends into the grooves 608. The purpose of quantitative blanking is achieved by the suction force of the first magnet 605 and the second magnet 606.

Preferably, an incomplete gear 609 is arranged behind the rotary hopper 601, the incomplete gear 609 has four discontinuous teeth, a third gear 6010 is movably connected with the rear wall of the box 10 through a bearing, the third gear 6010 is engaged with the teeth on the incomplete gear 609, a third conical gear 6011 coaxial with the axis is arranged on the third gear 6010, the third conical gear 6011 is fixedly connected with the third gear 6010, a second disk 6013 is movably connected with a first discharge hopper 5 through a bearing, a circular hole 6014 is arranged on the edge of the second disk 6013, the circular hole 6014 is engaged with an opening of the first discharge hopper 5, a fourth conical gear 6012 coaxial with the axis is arranged below the second disk 6013, the fourth conical gear 6012 is fixedly connected with the second disk 6013, and the fourth conical gear 6012 is engaged with the third conical gear 6011. The discharging of the first discharging hopper 5 is controlled by the rotation of the rotating hopper 601, so that the aim of automatically controlling the discharging of the first discharging hopper 5 is fulfilled.

Preferably, the left end of the screen plate 2 is hinged to the inner wall of the box 10, the right end of the screen plate 2 is provided with a connecting rod 201, the lower end of the connecting rod 201 is hinged to the screen plate 2, the rear wall of the box 10 is provided with a first bevel gear 202, the first bevel gear 202 is connected with the rear wall of the box 10 through a bearing, a first disc 203 is arranged in front of the first bevel gear 202, the first disc 203 is connected with the first bevel gear 202 through a coupler, the connecting rod 201 is hinged to the edge of the first disc 203, the front end of the circumferential outer wall of the roller 303 is provided with a second bevel gear 3012, the second bevel gear 3012 is coaxial with the roller 303, the second bevel gear 3012 is fixedly connected with the circumferential outer. The rotation of the roller 303 drives the sieve plate 2 to sieve left and right, so that the sieve plate 2 can sieve the biological fertilizer better.

Preferably, the same racks 306 are arranged at the left end and the right end of the second top block 305, the first gear 307 and the second gear 308 are respectively arranged in the inner wall cavities at the left end and the right end of the stirring chamber 3013, the first gear 307 and the second gear 308 are both meshed with the racks 306, the number of teeth of the first gear 307 is not equal to that of the second gear 308, the first gear 307 is connected with the first stirring blade 309 through a coupler, the second gear 308 is connected with the second stirring blade 3010 through a coupler, and the first stirring blade 309 and the second stirring blade 3010 are located in the stirring chamber 3013 and do not interfere with each other. The differential speed between the first stirring blade 309 and the second stirring blade 3010 is realized by the difference between the numbers of teeth of the first gear 307 and the second gear 308, so as to further improve the effect of crushing the bio-fertilizer lumps.

Preferably, the first top block 304 has a plurality of protrusions and grooves on its edge, and the protrusions and grooves have smooth surfaces, and the second top block 305 has a convex upper end and smooth surfaces. The contact surface of the first top block 304 and the second top block 305 is smooth, which is more beneficial to the mutual sliding of the first top block and the second top block.

Preferably, the motor 4 is in transmission connection with the drum 303 through a belt and a pulley.

The working principle is as follows:

on biological fertilizer fell sieve 2 through feeder hopper 1, the fertilizer of caking fell into feed inlet 301 after the fertilizer on the sieve 2 was screened, and then got into teeter chamber 3013. Motor 4 passes through the rotation of belt pulley drive cylinder 303, first kicking block 304 is motionless, because first reset spring 3011's effect, second kicking block 305 slides on first kicking block 304 orbit, and then the upper and lower slip of drive rack 306, and then drive first gear 307, the rotation of second gear 308, and then drive first stirring vane 309, the rotation of second stirring vane 3010, utilize first stirring vane 309 and second stirring vane 3010's differential rotation, stir the piece fertilizer garrulous, stirring vane self rotates also to stir the piece fertilizer simultaneously. The drum 303 rotates to drive the second bevel gear 3012 to rotate, and further drives the first bevel gear 202 to rotate, and further drives the first disc 203 to rotate, and further drives the connecting rod 201 to swing left and right, and further drives the screen plate 2 to sieve left and right. When the stirring chamber 3013 rotates to the feed inlet 301, the stirring blade drives the fertilizer cake to enter the stirring chamber 3013; when the stirring chamber rotates to the throwing port 302, the stirring blades throw the treated agglomerated fertilizer to the sieve plate 2 for secondary screening. The screened biological fertilizer falls into the hopper of the rotary hopper 601 through the first discharging hopper 5, when the fertilizer in the hopper reaches the limit of the magnet suction force, the first magnet 605 and the second magnet 606 are separated, when the rotary hopper 601 rotates for 90 degrees, the lever 604 is reset under the action of the second reset spring 607, the first magnet 605 and the second magnet 606 are attracted, the left end of the lever 604 clamps the groove 608 to stop the rotary hopper 601, and the hopper provided with the fertilizer on the rotary hopper 601 pours quantitative fertilizer into the second discharging hopper 7 through rotation. The rotating hopper 601 rotates to drive the incomplete gear 609 to rotate, and then drives the third gear 6010 to intermittently rotate, and then drives the third bevel gear 6011 to intermittently rotate, and then drives the fourth bevel gear 6012 to intermittently rotate, and then drives the second disc 6013 to intermittently rotate, when the rotating hopper 601 starts to rotate, the round hole 6014 on the second disc 6013 rotates to the other side, the first discharging hopper 5 stops discharging, when the rotating hopper 601 stops rotating, the round hole 6014 rotates back to coincide with the outlet of the first discharging hopper 5, and the first discharging hopper 5 starts discharging. The fertilizer is discharged from the second discharging hopper 7 and packaged, and the packaged fertilizer is conveyed to the sealing machine 9 through the conveying belt 8 for sealing.

Claims

1. A processing and packaging integrated device for biological fertilizer comprises a box body (10), a feed hopper (1), a sieve plate (2), a caking treatment mechanism (3), a quantitative blanking mechanism (6), a motor (4) and a sealing machine (9), and is characterized in that the feed hopper (1) is arranged at the upper end of the box body (10), the sieve plate (2) is arranged below the feed hopper (1), the right end of the sieve plate (2) inclines downwards, the caking treatment mechanism (3) is arranged on the inner wall of the right wall of the box body (10), the caking treatment mechanism (3) comprises a feed inlet (301), a material throwing port (302), a roller (303), a first ejector block (304), a second ejector block (305), a rack (306), a first gear (307), a first stirring blade (309), a first reset spring (3011), a stirring chamber (3013) and a baffle plate (3014), the roller (303) is connected with the right wall of the box body (10) through a bearing, and a supporting shaft of the roller (303) is fixedly connected with the right wall of the box body (10), the first ejector block (304) is fixedly connected with the supporting shaft of the roller (303), a plurality of stirring chambers (3013) are uniformly distributed in the roller (303) in a circumferential manner, the front ends of the stirring chambers (3013) are provided with openings, the upper end of each stirring chamber (3013) is provided with a second ejector block (305), the first ejector block (304) is in contact with the second ejector block (305), a rack (306) is arranged below the second ejector block (305), the left inner wall and the right inner wall of each stirring chamber (3013) are hollow, the rack (306) is connected with the hollow part of the inner wall of each stirring chamber (3013) through a sliding rail, the lower end of the rack (306) is provided with a first reset spring (3011), the hollow part of the inner wall of each stirring chamber (3013) is provided with a first gear (307), the first gear (307) is meshed with the rack (306), and the first stirring blade (309) and the first gear (307, and the first stirring blade (309) is fixedly connected with the first gear (307), the first stirring blade (309) is positioned in the stirring chamber (3013), a shielding plate (3014) is arranged at the front end of the supporting shaft of the roller (303), the shielding plate (3014) is fixedly connected with the supporting shaft of the roller (303), the baffle plate (3014) is tightly attached to the opening of the stirring chamber (3013), a feed inlet (301) is arranged below the baffle plate (3014), a material throwing port (302) is arranged above the baffle plate (3014), a first material discharging hopper (5) is arranged below the sieve plate (2), a quantitative discharging mechanism (6) is arranged below the first discharging hopper (5), a second discharging hopper (7) is arranged below the quantitative discharging mechanism (6), and a conveying belt (8) is arranged below the second discharging hopper (7), and a sealing machine (9) is arranged at the left end of the conveying belt (8).

2. The integrated processing and packaging device for the biofertilizer of claim 1, wherein the quantitative feeding mechanism (6) comprises a rotary hopper (601), a circular shaft (602), a fixed support (603), a lever (604), a first magnet (605), a second magnet (606), a second return spring (607) and a groove (608), the circular shaft (602) is fixedly connected with the rear wall of the box body (10), a semi-cylindrical notch is hollowed out above the front end of the circular shaft (10), the fixed support (603) is arranged on the notch of the front end of the circular shaft (10), the lever (604) is arranged on the fixed support (603), the lever (604) is hinged with the fixed support (603) at the position deviated from the left center, the first magnet (605) is arranged at the right end of the lever (604), the first magnet (605) is fixedly connected with the lever (604), the second magnet (606) is arranged on the notch of the front end of the circular shaft (602), second magnetite (606) and circle axle (602) fixed connection, first magnetite (605) and second magnetite (606) are laminated mutually, lever (604) below is equipped with second reset spring (607), second reset spring (607) lower extreme links to each other with circle axle (602), and the upper end links to each other with lever (604), rotatory hopper (601) pass through bearing and circle axle (602) swing joint, be four hoppers of circumference evenly distributed on rotatory hopper (601) outer wall, rotatory hopper (601) inner wall is equipped with four recess (608), lever (604) left end part stretches into recess (608).

3. The integrated equipment for processing and packaging the bio-fertilizer according to claim 2, wherein an incomplete gear (609) is arranged behind the rotary hopper (601), the incomplete gear (609) has four discontinuous teeth, the third gear (6010) is movably connected with the rear wall of the box body (10) through a bearing, the third gear (6010) is meshed with the teeth on the incomplete gear (609), a coaxial third bevel gear (6011) is arranged on the third gear (6010), the third bevel gear (6011) is fixedly connected with the third gear (6010), the second disc (6013) is movably connected with the first discharging hopper (5) through a bearing, a circular hole (6014) is arranged on the edge of the second disc (6013), the circular hole (6014) is matched with the opening of the first discharging hopper (5), a coaxial fourth bevel gear (6012) is arranged below the second disc (6013), and a fourth bevel gear (6012) is fixedly connected with a second disc (6013), and the fourth bevel gear (6012) is meshed with a third bevel gear (6011).

4. The integrated equipment for processing and packaging the bio-fertilizer as claimed in claim 1, wherein the left end of the sieve plate (2) is hinged with the inner wall of the box body (10), the right end of the sieve plate (2) is provided with a connecting rod (201), the lower end of the connecting rod (201) is hinged with the sieve plate (2), the rear wall of the box body (10) is provided with a first bevel gear (202), the first bevel gear (202) is connected with the rear wall of the box body (10) through a bearing, a first disc (203) is arranged in front of the first bevel gear (202), the first disc (203) is connected with the first bevel gear (202) through a coupler, the connecting rod (201) is hinged with the edge of the first disc (203), the front end of the circumferential outer wall of the roller (303) is provided with a second bevel gear (3012), the second bevel gear (3012) is coaxial with the roller (303), and the second bevel gear (3012) is fixedly connected with the circumferential outer wall of, the second bevel gear (303) is meshed with the first bevel gear (202).

5. The integrated equipment for processing and packaging of biofertilizer according to claim 1, wherein the same racks (306) are arranged at the left and right ends of the second top block (305), the first gear (307) and the second gear (308) are respectively arranged in the cavities of the inner walls of the left and right ends of the stirring chamber (3013), the first gear (307) and the second gear (308) are meshed with the racks (306), the teeth of the first gear (307) and the teeth of the second gear (308) are not equal, the first gear (307) is connected with the first stirring blade (309) through a coupler, the second gear (308) is connected with the second stirring blade (3010) through a coupler, and the first stirring blade (309) and the second stirring blade (3010) are located in the stirring chamber (3013) and do not interfere with each other.

6. The integrated processing and packaging device for biofertilizer of claim 1, wherein the first top block (304) has a plurality of protrusions and grooves on the edge, the surfaces of the protrusions and grooves are smooth, and the upper end of the second top block (305) is convex and smooth.

7. The integrated processing and packaging device for the biofertilizer of claim 1, wherein the motor (4) is in transmission connection with the drum (303) through a belt and a pulley.