CN115007027A

CN115007027A - Production equipment of microbial preparation

Info

Publication number: CN115007027A
Application number: CN202210392483.9A
Authority: CN
Inventors: 陈海锋; 范建辉; 佘伟斌; 杨坚
Original assignee: Huzhou Shandieji Technology Co ltd
Current assignee: Huzhou Shandieji Technology Co ltd
Priority date: 2022-04-15
Filing date: 2022-04-15
Publication date: 2022-09-06

Abstract

The invention discloses a production device of a microbial preparation, and aims to provide a production device of a microbial preparation with a good stirring effect. It includes churn, driven shaft and driving shaft are vertical setting, the driven shaft is parallel with the driving shaft, the lower extreme of driven shaft is connected with the lower extreme transmission of driving shaft, the churn cup joints with the upper end of driven shaft slides from top to bottom, the top demountable installation of churn has the cover, demountable installation has a plurality of flabellums on the cover, the flabellum uses the axis of cover to become circumference align to grid distribution on the cover as the center. The invention has the beneficial effects that: the purpose of good stirring effect is achieved; the circular mixing and stirring effect is good; the preparation is easy to pour out, and the preparation is completely and cleanly poured out; the leakage prevention effect is good.

Description

Production equipment of microbial preparation

Technical Field

The invention relates to the technical field related to production, in particular to a production device of a microbial preparation.

Background

The microbial preparation product is commonly called active probiotics. The preparation needs to be stirred in the preparation production process, the stirring cylinder filled with the preparation rotates in the existing stirring mode, most of the preparation in the actual stirring cylinder is in a relatively static state, and the stirring effect is poor.

Chinese patent grant publication no: CN210656951U, Notice date 20200602, discloses a production system for microbial preparation, which comprises a production box, a mixing drum, a motor, a water pump and a control panel, wherein a box cavity is arranged in the production box, a through hole is formed in one side of the box cavity of the production box, a pair of support frames are fixedly connected in the box cavity, mounting holes are formed in the two support frames, the mixing drum is sleeved between the mounting holes of the two support frames, the motor is arranged on the outer side of the production box through the arrangement of the production box and the mixing drum, and the mixing drum is driven to rotate at a high speed through meshing transmission of a gear and a toothed ring; the technical scheme has the defects that the stirring cylinder is simply rotated, the internal preparation is in a static state relatively, and the stirring effect is poor.

In conclusion, in the production of the microbial preparation, the preparation is relatively in a static state due to the fact that the stirring cylinder is only rotated to stir the microbial preparation, and the stirring effect is poor.

Disclosure of Invention

The invention provides a production device of a microbial preparation with good stirring effect, aiming at overcoming the defect of poor stirring effect in the production of the microbial preparation.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a microbial preparation's production facility, includes churn, driven shaft and driving shaft are vertical setting, the driven shaft is parallel with the driving shaft, the lower extreme of driven shaft is connected with the lower extreme transmission of driving shaft, the churn slides from top to bottom with the upper end of driven shaft and cup joints, the top demountable installation of churn has the cover, demountable installation has a plurality of flabellums on the cover, the flabellum uses the axis of cover to become circumference align to grid distribution on the cover as the center.

The driving shaft drives the driven shaft to rotate, the driven shaft drives the mixing drum to rotate to carry out rotary stirring on the inside of the mixing drum, the mixing drum rotates to drive the fan blades, the fan blades rotate to drive the mixing drum to move upwards, the driving shaft stops driving the driven shaft after the mixing drum rises for a period of time, the mixing drum falls back, the mixing drum moves up and down to stir the inside of the mixing drum in the vertical direction, the mixing drum rotates repeatedly and moves up and down, the inside of the mixing drum is fully stirred, and the purpose of good stirring effect is achieved.

Preferably, the mixing drum is in a cylindrical shape, a channel used for being sleeved on the driven shaft is arranged in the middle of the mixing drum, a containing cavity is arranged in the side wall of the mixing drum, the containing cavity is in an annular shape, the containing cavity is coaxial with the axis of the mixing drum, the containing cavity penetrates through the top surface of the side wall of the mixing drum, the drum cover is in an annular shape, and the drum cover is arranged at an annular opening at the upper end of the containing cavity. The mixing drum is cylindrical and is sleeved on the driven shaft, the accommodating cavity is used for accommodating biological agents, the agents are circularly mixed and stirred in the annular accommodating cavity, and the circular mixing and stirring effect is good.

Preferably, the cross section of the cylinder cover is T-shaped, the diameter of the upper part of the cylinder cover is larger than that of the lower part of the cylinder cover, an internal thread is arranged at the lower end of the inner cylindrical surface of the lower part of the cylinder cover, an external thread is arranged at the upper end of the inner cylindrical surface of the accommodating cavity, close to the axis of the accommodating cavity, and at the opening of the accommodating cavity, the cylinder cover and the stirring cylinder form a threaded detachable connection through the internal thread and the external thread. The lower part of cover is inserted and is held on the opening that holds the chamber, and internal thread and external screw thread connection hold the inboard cylinder of the opposite side in chamber and do not have the screw thread and be convenient for pour out biological agent, if there is the screw thread preparation to pour out the time have remain on the screw thread, the preparation is poured out easily and pour out the preparation cleanly thoroughly.

Preferably, the inner side and the outer side of the upper end of the lower part of the cylinder cover are both provided with sealing rings, and the sealing rings are coaxial with the cylinder cover. The sealing washer prevents to hold the preparation in the chamber and reveals to the inside and outside both sides that hold the chamber of churn simultaneously, prevents to reveal effectually.

Preferably, a sliding strip is arranged on the outer side cylindrical surface of the upper end of the driven shaft, the sliding strip is parallel to the axis of the driven shaft, a guide sliding groove is arranged on the cylindrical surface of the channel of the mixing drum, the guide sliding groove is parallel to the axis of the mixing drum, and the mixing drum is connected with the driven shaft in a sliding mode through the guide sliding groove and the sliding strip. The slide bar can drive the mixing drum to rotate, and is matched with the guide chute to guide the mixing drum to move upwards, and the mixing drum moves upwards while rotating, so that the mixing is uniform.

Preferably, a driven bottom gear is fixedly sleeved on the lower end of the driven shaft, a driving bottom turntable is fixedly sleeved on the lower end of the driving shaft, driving bottom meshing teeth are arranged on an outer side column surface of one side of the driving bottom turntable and meshed with the driven bottom gear, the driven shaft is in transmission connection with the driving shaft through the driving bottom gear and the driving bottom turntable which are matched with the driving bottom meshing teeth, the diameter of the driving bottom turntable is larger than that of the driven bottom gear, and the diameter of the driving top turntable is smaller than that of the driven top gear. The outer side column face of one side of initiative bottom rotary table is equipped with initiative bottom meshing tooth, carries out intermittent type meshing rotation to driven bottom gear, and churn upward movement during the meshing, when not meshing, the churn falls back downwards, realizes the churn up-and-down motion, and the direction stirring is effectual from top to bottom, and the diameter of initiative bottom rotary table is greater than the diameter of driven bottom gear, can obtain high-speed rotation at the churn at the driven shaft lower extreme originally to can rise fast, accelerate the stirring.

Preferably, a plurality of blades are arranged in the accommodating cavity, the blades are movably connected with the stirring cylinder, and the blades are circumferentially and uniformly distributed in the stirring cylinder by taking the axis of the stirring cylinder as the center. When the mixing drum rotates and moves up and down, the blades directly mix the inside of the mixing drum, and the mixing is rapid and uniform.

Preferably, a clamping sliding groove is formed in the inner side face, close to the axis, of the accommodating cavity, the clamping sliding groove is in a spiral shape, the cross section of the clamping sliding groove is in a T shape, the opening width of the clamping sliding groove is smaller than the bottom width of the clamping sliding groove, one end of each blade is installed in the clamping sliding groove in a matched mode, the other end of each blade is suspended, and each blade is movably connected with the stirring barrel through the clamping sliding groove. The mixing drum moves up and down to drive the blades to rotate, the blades move up and down through the clamping sliding grooves, and each blade can move up and down independently.

As preferred, be equipped with a plurality of screw holes on the outside column face of cover, install the screw thread post on the flabellum, the flabellum passes through screw thread post and screw hole and the cover is for dismantling the connection, the shape of flabellum is triangle-shaped, install the screw thread post on the tip of flabellum, the terminal surface of the tip of flabellum and the terminal surface of its tip are the cambered surface, the cambered surface of the tip of flabellum and the cambered surface of its tip set up for carrying on the back mutually, the bottom surface of flabellum is the inclined plane, the bottom surface of flabellum with form the acute angle with the horizontal plane, the top surface shape of flabellum and the shape of its bottom surface are fan-shaped, be equipped with a plurality of gas pockets on the flabellum, it link up the top surface of flabellum and the side of flabellum to cross the gas pocket. The flabellum is threaded connection with the churn, flabellum easy dismounting, the terminal surface of flabellum for the cambered surface can reduce with the resistance of air, the flabellum can rotate fast and save power, the flabellum rises the process can form pressure with the air of its top, hinder the churn to rise, cross the gas pocket and can be smoothly through subtracting the hindrance to the air of flabellum top, the flabellum rotates smoothly and can provide stable quick rising speed.

Preferably, the cylinder cover is provided with positioning columns on one sides of the threaded holes, and the tops of the positioning columns are in contact with the bottoms of the fan blades on one sides. During the rotatory installation flabellum of screw thread, the reference column is touch to the flabellum bottom, and the flabellum just stabilizes the installation to angle, the degree of depth that the reference column guaranteed every flabellum are unanimous, and the flabellum installation is even, and the churn rotates and the rising speed is stable even.

The invention has the beneficial effects that: the purpose of good stirring effect is achieved; the circular mixing and stirring effect is good; the preparation is easy to pour out, and the preparation is completely and cleanly poured out; the leakage prevention effect is good; the blade directly stirs the inside of the mixing drum, and the stirring is rapid and uniform; the blades can rotate and move up and down through the clamping sliding grooves, and the direct stirring effect in the stirring cylinder is good; the fan blades can rotate quickly to save power, and the stable and quick rising speed can be provided by smooth rotation of the fan blades; the fan blades are uniformly installed, and the rotation and rising speed of the mixing drum are stable and uniform.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1 at A-A;

FIG. 3 is an enlarged view of FIG. 2 at B;

FIG. 4 is an enlarged view of FIG. 2 at C;

FIG. 5 is a schematic view of the connection structure of the blade and the mixing drum;

FIG. 6 is a schematic view showing the internal structure of the accommodating chamber;

in the figure: 1. the stirring cylinder comprises a stirring cylinder, 2 parts of a driven shaft, 3 parts of a driving shaft, 4 parts of a cylinder cover, 5 parts of fan blades, 6 parts of a containing cavity, 7 parts of internal threads, 8 parts of external threads, 9 parts of a sealing ring, 10 parts of a sliding strip, 11 parts of a guide sliding chute, 12 parts of a driven bottom gear, 13 parts of a driving bottom rotating disc, 14 parts of driving bottom meshing teeth, 15 parts of blades, 16 parts of a clamping sliding chute, 17 parts of a threaded hole, 18 parts of a threaded column, 19 parts of an arc surface, 20 parts of an inclined surface, 21 parts of an air passing hole and 22 parts of a positioning column.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

In the embodiment shown in fig. 1 and 2, a production facility for microbial agents comprises a mixing drum 1, a driven shaft 2 and a driving shaft 3, wherein the driven shaft 2 and the driving shaft 3 are both arranged vertically, the driven shaft 2 is parallel to the driving shaft 3, the lower end of the driven shaft 2 is in transmission connection with the lower end of the driving shaft 3, the mixing drum 1 is in up-and-down sliding sleeve connection with the upper end of the driven shaft 2, a drum cover 4 is detachably mounted at the top of the mixing drum 1, a plurality of fan blades 5 are detachably mounted on the drum cover 4, and the fan blades 5 are circumferentially and uniformly distributed on the drum cover 4 by taking the axis of the drum cover 4 as the center.

The shape of churn 1 is the tube-shape, and the centre of churn 1 has the passageway that is used for cup jointing on driven shaft 2, is equipped with in the lateral wall of churn 1 and holds chamber 6, and the shape that holds chamber 6 is cyclic annular, holds the axis of chamber 6 and churn 1 coaxial, holds the top surface that chamber 6 link up the lateral wall of churn 1, and the shape of cover 4 is cyclic annular, and cover 4 is installed and is being held the annular opening part of chamber 6 upper end.

As shown in fig. 2 and 3, the cross section of the drum cover 4 is T-shaped, the diameter of the upper part of the drum cover 4 is larger than that of the lower part of the drum cover, the lower end of the inner cylindrical surface of the lower part of the drum cover 4 is provided with an internal thread 7, the upper end of the inner cylindrical surface of the containing cavity 6 close to the axis of the containing cavity and the opening of the containing cavity 6 are provided with an external thread 8, and the drum cover 4 and the mixing drum 1 form a threaded detachable connection through the internal thread 7 and the external thread 8.

Sealing rings 9 are arranged on the inner side and the outer side of the upper end of the lower part of the cylinder cover 4, and the sealing rings 9 are coaxial with the cylinder cover 4.

As shown in fig. 4, a slide bar 10 is arranged on the outer side cylindrical surface of the upper end of the driven shaft 2, the slide bar 10 is parallel to the axis of the driven shaft 2, a guide chute 11 is arranged on the cylindrical surface of the channel of the mixing drum 1, the guide chute 11 is parallel to the axis of the mixing drum 1, and the mixing drum 1 is connected with the driven shaft 2 in a sliding manner through the guide chute 11 and the slide bar 10.

As shown in fig. 1, driven bottom gear 12 is fixedly sleeved on the lower end of driven shaft 2, driving bottom rotary table 13 is fixedly sleeved on the lower end of driving shaft 3, driving bottom meshing teeth 14 are arranged on the outer side column surface of one side of driving bottom rotary table 13, driving bottom meshing teeth 14 are meshed with driven bottom gear 12, driven shaft 2 is in transmission connection with driving shaft 3 through driven bottom gear 12 and driving bottom rotary table 13 matched driving bottom meshing teeth 14, the diameter of driving bottom rotary table 13 is greater than that of driven bottom gear 12, and the diameter of driving top rotary table is smaller than that of driven top gear.

As shown in fig. 5 and 6, a plurality of blades 15 are arranged in the accommodating cavity 6, the blades 15 are movably connected with the mixing drum 1, and the blades 15 are circumferentially and uniformly distributed in the mixing drum 1 on the mixing drum 1 by taking the axis of the mixing drum 1 as the center.

The inner side surface of the accommodating cavity 6 close to the axis thereof is provided with a clamping sliding groove 16, the clamping sliding groove 16 is spiral, the cross section of the clamping sliding groove 16 is T-shaped, the opening width of the clamping sliding groove 16 is smaller than the bottom width of the clamping sliding groove, one end of a blade 15 is matched and installed in the clamping sliding groove 16, the other end of the blade 15 is suspended, and the blade 15 is movably connected with the stirring cylinder 1 through the clamping sliding groove 16.

As shown in fig. 2, a plurality of threaded holes 17 are formed in the outer side column surface of the cylinder cover 4, threaded columns 18 are installed on the fan blades 5, the fan blades 5 are detachably connected with the cylinder cover 4 through the threaded columns 18 and the threaded holes 17, the fan blades 5 are triangular, the threaded columns 18 are installed on the small ends of the fan blades 5, the end surfaces of the small ends of the fan blades 5 and the end surfaces of the large ends of the fan blades 5 are arc surfaces 19, the arc surfaces 19 of the large ends of the fan blades 5 and the arc surfaces 19 of the small ends of the fan blades 5 are arranged in a back-to-back mode, the bottom surface of the fan blades 5 is an inclined surface 20, acute angles are formed between the bottom surface of the fan blades 5 and the horizontal plane, the top surface of the fan blades 5 and the bottom surface of the fan blades 5 are fan-shaped, a plurality of air passing holes 21 are formed in the fan blades 5, and the air passing holes 21 penetrate through the top surface of the fan blades 5 and the side surfaces of the fan blades 5.

As shown in fig. 1, positioning posts 22 are disposed on the cover 4 and on one side of the threaded holes 17, and the tops of the positioning posts 22 contact the bottoms of the fan blades 5.

As shown in fig. 1, the driven shaft 2 and the driving shaft 3 are vertically arranged in parallel in a front-back position relationship, the lower end of the driven shaft 2 is provided with a driven bottom gear 12, the upper end of the driven shaft 2 is provided with a mixing drum 1, the bottom of the mixing drum 1 is in contact with the driven bottom gear 12, the top of the mixing drum 1 is provided with a drum cover 4, the mixing drum 1 and the drum cover 4 are both in an annular cylindrical shape, the cylindrical surface outside the drum cover 4 is uniformly provided with fan blades 5, the fan blades 5 are provided with air passing holes 21 penetrating through the top surface and one side surface, the fan blades 5 are triangular, the small ends of the fan blades 5 are arranged on the drum cover 4, the end surfaces of the two ends of the fan blades 5 are cambered surfaces 19, the bottom surface of the fan blades 5 is an inclined surface 20, the cylindrical surface outside the drum cover 4 is provided with positioning columns 22, each fan blade 5 is provided with one positioning column 22, the driving bottom turntable 13 is arranged on the lower end of the driving shaft 3, and one section of the driving bottom turntable 13 is provided with one section of driving bottom meshing teeth 14.

As shown in fig. 2, the driving bottom mesh teeth 14 and the driven bottom gear 12 may be meshed together or may be non-meshed with a component. An annular accommodating cavity 6 is arranged on the side wall of the mixing drum 1.

As shown in fig. 3, the cross section of the cylinder cover 4 is T-shaped, the inner and outer cylindrical surfaces of the upper end of the lower part of the cylinder cover 4 are sleeved with sealing rings 9, the inner cylindrical surface of the lower end of the lower part of the cylinder cover 4 is provided with inner threads 7, and the upper end of the inner cylindrical surface of the accommodating cavity 6 close to the mixing drum 1 is provided with outer threads 8.

As shown in fig. 4, a guide chute 11 is provided on the inner cylindrical surface of the mixing drum 1, a slide bar 10 is mounted on the outer cylindrical surface of the driven shaft 2, and the slide bar 10 is slidably mounted in the guide chute 11.

As shown in fig. 5, the blades 15 are arranged in the accommodating cavity 6, the blades 15 are uniformly arranged in the accommodating cavity 6 around the circumference of the axis of the mixing drum 1, the clamping sliding grooves 16 are uniformly arranged on the inner cylindrical surface of the accommodating cavity 6 close to the mixing drum 1, and the blades 15 are correspondingly arranged on the clamping sliding grooves 16 one by one.

As shown in fig. 6, the card slide groove 16 is provided in a spiral shape on the inner cylindrical surface of the accommodation chamber 6.

The use principle is as follows: putting the microbial preparation into the accommodating cavity 6 of the mixing drum 1, then rotatably inserting the lower part of the drum cover 4 opposite to the accommodating cavity 6, and connecting the internal thread 7 and the external thread 8 until the sealing ring 9 is tightly pressed with the top of the mixing drum 1 to finish the installation of the drum cover 4; the threaded post 18 on the blade 15 is inserted into the threaded hole 17 in a rotating mode, when the small end of the fan blade 5 rotates to touch the positioning post 22, the blade 15 is screwed, and meanwhile the position of the blade 15, which is installed on the cylinder cover 4, is also accurately fixed; then the bottom of the mixing drum 1 is inserted opposite to the top of the driven shaft 2, and the slide bar 10 is inserted opposite to the guide chute 11 during the insertion; the driving shaft 3 is started, when the driving bottom meshing teeth 14 on the driving bottom rotary table 13 are meshed with the driven bottom gear 12, the driven shaft 2 starts to rotate, the slide bar 10 drives the stirring cylinder 1 to rotate through the guide chute 11, the bottom surface of the fan blade 5 is an inclined surface 20, due to the action of air, the rotation of the fan blade 5 can drive the stirring cylinder 1 to slide on the slide bar 10 through the guide chute 11, the stirring cylinder 1 can move upwards while rotating, the stirring cylinder 1 rotates to move upwards, and microbial preparations filled in the accommodating cavity 6 are stirred; when the driving bottom meshing gear 14 and the driven bottom gear 12 are not meshed, the stirring cylinder 1 stops rotating and rising slowly, then the stirring cylinder 1 begins to fall back downwards, the blades 15 in the accommodating cavity 6 move up and down along the clamping sliding grooves 16 and rotate in the rising and falling processes of the stirring cylinder 1, and the blades 15 are used for directly stirring the microbial preparation in the accommodating cavity 6; when the fan blade 5 drives the mixing drum 1 to ascend, the air passing holes 21 in the fan blade 5 play a role in dredging air above the fan blade 5, air cannot generate too large resistance on the fan blade 5, the ascending speed of the mixing drum 1 is high, and the air resistance can be reduced due to the fact that the end face of the fan blade 5 is the cambered surface 19; the mixing drum 1 repeatedly moves up and down to have good mixing effect on the microbial preparation, and after the mixing is finished, the drum cover 4 is opened to take out the microbial preparation.

Claims

1. The utility model provides a microbial preparation's production facility, characterized by, includes churn (1), driven shaft (2) and driving shaft (3) are vertical setting, driven shaft (2) are parallel with driving shaft (3), the lower extreme of driven shaft (2) is connected with the lower extreme transmission of driving shaft (3), churn (1) slides from top to bottom with the upper end of driven shaft (2) and cup joints, the top demountable installation of churn (1) has cover (4), demountable installation has a plurality of flabellums (5) on cover (4), flabellum (5) use the axis of cover (4) to become circumference align to grid and distribute on cover (4) as the center.

2. The production equipment of the microbial preparation according to claim 1, wherein the mixing drum (1) is in a cylindrical shape, a channel for being sleeved on the driven shaft (2) is arranged in the middle of the mixing drum (1), an accommodating cavity (6) is arranged in the side wall of the mixing drum (1), the accommodating cavity (6) is in an annular shape, the accommodating cavity (6) is coaxial with the axis of the mixing drum (1), the accommodating cavity (6) penetrates through the top surface of the side wall of the mixing drum (1), the drum cover (4) is in an annular shape, and the drum cover (4) is installed at an annular opening at the upper end of the accommodating cavity (6).

3. The production equipment of the microbial preparation according to claim 2, wherein the cross section of the cylinder cover (4) is T-shaped, the diameter of the upper part of the cylinder cover (4) is larger than that of the lower part of the cylinder cover, the lower end of the inner cylindrical surface of the lower part of the cylinder cover (4) is provided with an internal thread (7), the upper end of the inner cylindrical surface of the containing cavity (6) close to the axis of the containing cavity and the opening of the containing cavity (6) are provided with an external thread (8), and the cylinder cover (4) and the stirring cylinder (1) form a threaded detachable connection through the internal thread (7) and the external thread (8).

4. A production facility for a microbial preparation according to claim 3, wherein the upper end of the lower part of the cylinder cover (4) is provided with sealing rings (9) on both the inside and outside, and the sealing rings (9) are coaxial with the cylinder cover (4).

5. The production equipment of the microbial preparation according to claim 2, wherein a slide bar (10) is arranged on the outer side column surface of the upper end of the driven shaft (2), the slide bar (10) is parallel to the axis of the driven shaft (2), a guide chute (11) is arranged on the column surface of the channel of the mixing drum (1), the guide chute (11) is parallel to the axis of the mixing drum (1), and the mixing drum (1) is in sliding connection with the driven shaft (2) through the guide chute (11) and the slide bar (10).

6. The microbial preparation production equipment according to claim 1, wherein the driven shaft (2) is fixedly sleeved with a driven bottom gear (12) at the lower end thereof, the driving shaft (3) is fixedly sleeved with a driving bottom turntable (13) at the lower end thereof, the driving bottom meshing teeth (14) are arranged on the outer cylindrical surface of one side of the driving bottom turntable (13), the driving bottom meshing teeth (14) are meshed with the driven bottom gear (12), the driven shaft (2) is in transmission connection with the driving shaft (3) through the driven bottom gear (12) and the driving bottom turntable (13) matched with the driving bottom meshing teeth (14), the diameter of the driving bottom turntable (13) is larger than that of the driven bottom gear (12), and the diameter of the driving top turntable is smaller than that of the driven top gear.

7. The apparatus for producing the microbial preparation according to claim 2, wherein a plurality of blades (15) are arranged in the accommodating cavity (6), the blades (15) are movably connected with the stirring cylinder (1), and the blades (15) are circumferentially and uniformly distributed in the stirring cylinder (1) on the stirring cylinder (1) by taking the axis of the stirring cylinder (1) as the center.

8. The production equipment of the microbial preparation according to claim 7, wherein a card sliding groove (16) is arranged on the inner side surface of the accommodating cavity (6) close to the axis of the accommodating cavity, the card sliding groove (16) is in a spiral shape, the cross section of the card sliding groove (16) is in a T shape, the opening width of the card sliding groove (16) is smaller than the bottom width of the card sliding groove, one end of the blade (15) is installed in the card sliding groove (16) in a matching manner, the other end of the blade (15) is suspended, and the blade (15) is movably connected with the stirring cylinder (1) through the card sliding groove (16).

9. The microbial preparation production equipment according to claim 1, wherein a plurality of threaded holes (17) are formed in the outer cylindrical surface of the cylinder cover (4), threaded columns (18) are installed on the fan blades (5), the fan blades (5) are detachably connected with the cylinder cover (4) through the threaded columns (18) and the threaded holes (17), the fan blades (5) are triangular, the threaded columns (18) are installed on the small ends of the fan blades (5), the end surfaces of the small ends and the large ends of the fan blades (5) are arc surfaces (19), the arc surfaces (19) of the large ends and the arc surfaces (19) of the small ends of the fan blades (5) are arranged in a back-to-back manner, the bottom surfaces of the fan blades (5) are inclined surfaces (20), the bottom surfaces of the fan blades (5) form acute angles with a horizontal plane, and the top surfaces and the bottom surfaces of the fan blades (5) are fan-shaped, the fan blade (5) is provided with a plurality of air passing holes (21), and the air passing holes (21) penetrate through the top surface of the fan blade (5) and the side surface of the fan blade (5).

10. The production equipment of the microbial preparation according to claim 9, wherein the cylinder cover (4) is provided with positioning columns (22) on one side of the threaded holes (17), and the tops of the positioning columns (22) are in contact with the bottoms of the fan blades (5).