CN114699945A

CN114699945A - Intelligent vertical high-efficient fermenting installation

Info

Publication number: CN114699945A
Application number: CN202111486506.4A
Authority: CN
Inventors: 薛正楷
Original assignee: Luzhou Vocational and Technical College
Current assignee: Luzhou Vocational and Technical College
Priority date: 2021-12-07
Filing date: 2021-12-07
Publication date: 2022-07-05

Abstract

The invention discloses an intelligent vertical high-efficiency fermentation device, which comprises a tank body, a mixing and turning mechanism and a control device, wherein the mixing and turning mechanism is installed on the tank body, the control device is used for intelligently controlling the mixing and turning mechanism, and the mixing and turning mechanism comprises: stirring axostylus axostyle, the oar subassembly and the conversion drive assembly that rises turn, the oar subassembly that turns can stir the axostylus axostyle relatively and turn on in the axial direction, and turn the oar subassembly and follow the synchronous rotation of stirring axostylus axostyle, the stirring axostylus axostyle is through the one end that the oar subassembly that turns of rising conversion drive assembly connection, the stirring axostylus axostyle with rise conversion drive assembly screwed connection, it turns with jar material from top to bottom to thoughtlessly move tilting mechanism, utilize the effect that turns, the material in the lower floor is replaced from top to bottom, thereby the inhomogeneous possibility of fermented material fermentation has been reduced, and thoughtlessly move tilting mechanism and also can stir the miscover mixture, and the stirring.

Description

Intelligent vertical high-efficient fermenting installation

Technical Field

The invention relates to the field of wine brewing and fermenting devices, in particular to an intelligent vertical efficient fermenting device.

Background

Brewing is a process for producing alcoholic beverages with a certain concentration by utilizing microbial fermentation, and brewing raw materials and a brewing container are two prerequisites for grain brewing. The brewing process of the white spirit mainly comprises the following two steps of: firstly, decomposing starch into saccharides by using aspergillus oryzae, aspergillus niger, aspergillus flavus and the like, which is called a saccharification process; in the second step, the yeast is used for fermenting the glucose to generate the alcohol, so that the brewing of the white spirit is completed, but the following problems also exist in the white spirit fermentation process.

In the fermentation process, the bottom at the fermentation cylinder is piled up easily to the fermentation raw materials in the fermentation cylinder, the zymophyte of being convenient for breeds in the accumulational precipitate, consequently there is great quantity difference in the quantity of the zymophyte in the middle and upper three-layer in the end of fermentation cylinder, thereby cause the layering of fermentation, the quality of the wine product of making is relatively poor, even be provided with agitating unit in the fermentation cylinder, utilize agitating unit to stir the material of mixing, agitating unit in the fermentation cylinder is the rotation in single dimension usually, can not be fine solution fermentation layering's problem.

Therefore, in order to solve the above problems, an intelligent three-dimensional high-efficiency fermentation device is designed.

Disclosure of Invention

The invention aims to provide an intelligent vertical efficient fermentation device to solve the technical problem of fermentation layering in the prior art.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

the utility model provides an intelligent vertical high-efficient fermenting installation, includes a jar body, installs thoughtlessly move tilting mechanism on the jar body to and be used for intelligent control thoughtlessly move tilting mechanism's controlling means, thoughtlessly move tilting mechanism includes:

the stirring shaft rod is vertically arranged in the tank body and can rotate in a reciprocating manner under the driving action;

the stirring paddle assembly is hinged to the stirring shaft rod along the axial direction of the stirring shaft rod, can be stirred in the axial direction relative to the stirring shaft rod, and synchronously rotates along with the stirring shaft rod;

the stirring shaft rod is connected with one end of the turning paddle component through the rotating and lifting conversion driving component, the stirring shaft rod is spirally connected with the rotating and lifting conversion driving component, and the rotating and lifting conversion driving component moves back and forth along the stirring shaft rod under the action of the reciprocating rotation of the stirring shaft rod.

As a preferred scheme of the invention, the stirring paddle assembly comprises a plurality of stirring blades and a connecting rod, the connecting rod connects the stirring blades far away from the stirring shaft rod in sequence, the connecting rod is pulled to move under the driving of the rotation conversion driving assembly so as to drive the stirring blades to stir in a reciprocating manner along the axial direction of the stirring shaft rod, the stirring blades are hinged with the stirring shaft rod, and the stirring blades synchronously rotate along with the stirring shaft rod under the rotation action of the stirring shaft rod.

As a preferable scheme of the present invention, the rotation-lift conversion driving assembly includes a rotary table, a sliding hinge rod, and a limiting rod, a screw hole, a limiting hole, and an annular groove are provided on the rotary table, the screw hole is located at a central position of the rotary table, the limiting hole is provided on an outer circumferential side of the rotary table, and the annular groove is provided on an outer circumferential side of the limiting hole;

the stirring shaft rod is provided with a threaded section, the threaded section penetrates through the threaded hole to be in threaded connection with the rotary table, and the rotary table moves back and forth along the stirring shaft rod under the action of the back and forth rotation of the stirring shaft rod;

the limiting rod is fixedly arranged on the periphery of the stirring shaft rod, the limiting rod penetrates through the limiting hole, and the turntable can move along the limiting rod and cannot rotate;

one end of the sliding hinge rod is provided with the annular sliding block which is connected in the annular groove in a sliding mode, and the annular sliding block can slide along the circumferential direction of the annular groove;

the other end of the sliding hinge rod is hinged with the end of the connecting rod, and the sliding hinge rod drives the turning paddle component to turn in a reciprocating mode along the axial direction under the reciprocating motion of the rotary table.

As a preferable scheme of the present invention, the annular groove is formed in a T-shaped arc groove shape, an inner cavity of the annular groove is connected with a roller in a rolling manner along a self arc direction, a rotating shaft is connected to a rotating shaft of the roller, one end of the rotating shaft, which is far away from the roller, is connected with an annular slider, the sliding hinge rod is driven to rotate under the rotation action of the stirring shaft rod so as to drive the annular slider to slide along the annular groove, and the annular slider drives the roller to rotate along the annular groove so as to adjust a rotation angle of the annular slider.

As a preferable scheme of the invention, one end of the stirring shaft rod is connected to the bottom in the tank body through a fixed support, the other end of the stirring shaft rod is connected with a driving device, the stirring shaft rod comprises a main rotating shaft connected with an electric driving device, and an auxiliary rotating shaft is connected in a sliding manner along the length direction of an inner cavity of the main rotating shaft, one end of the auxiliary rotating shaft, which is far away from the main rotating shaft, is rotatably connected with the surface of the fixed support, and the auxiliary rotating shaft reciprocates along the main rotating shaft and the fixed support under the action of liquid material flowing in the tank body.

As a preferable scheme of the present invention, the auxiliary rotating shaft includes a smooth section and a threaded section, the bottom of the smooth section is connected to the threaded section, a first limit groove matched with the smooth section is disposed in an inner cavity of the main rotating shaft close to one end of the smooth section, a second limit groove matched with the threaded section is disposed on the surface of the fixing support, couplers are disposed at ends of the smooth section and the threaded section, and the couplers are driven by the auxiliary rotating shaft to reciprocate along axial directions of the first limit groove and the second limit groove respectively.

As a preferred scheme of the invention, two ends of the side wall of the coupler extending into the first limiting groove and the second limiting groove are respectively provided with a limiting block, and the side walls of the first limiting groove and the second limiting groove are respectively provided with a guide groove matched with the limiting blocks.

As a preferred aspect of the present invention, a groove depth of the first limiting groove is the same as a groove depth of the second limiting groove, a distance between the bottom of the main rotating shaft and a groove bottom of the second limiting groove is smaller than a length of the auxiliary rotating shaft, and the smooth section and the threaded section on the auxiliary rotating shaft respectively slide along inner cavities of the first limiting groove and the second limiting groove.

As a preferable scheme of the invention, the stirring blades are arranged at equal intervals, the stirring blades positioned at two sides of the auxiliary rotating shaft are symmetrically arranged about the vertical symmetric axis of the auxiliary rotating shaft, and the length of each stirring blade is smaller than the horizontal distance between the auxiliary rotating shaft and the tank body.

According to a preferable scheme of the invention, the bottom of the inner cavity of the tank body is in a downward-sunken arc-shaped structure, the top of the tank body is provided with a feeding hole, the center of the bottom of the inner cavity of the tank body is provided with a discharging hole, the fixed support is erected right above the discharging hole, and materials in the tank body are discharged along the discharging hole under the supporting action of the fixed support.

In order to solve the above technical problems, the present invention further provides the following technical solutions:

compared with the prior art, the invention has the following beneficial effects:

mix and move tilting mechanism and turn the material about in with jar body, utilize the effect that turns, the material in the lower floor is displaced about in will to reduced the inhomogeneous possibility of fermentation, and mix and move tilting mechanism and also can stir the misce bene, and the stirring, the temperature that makes the misce bene ectonexine keeps roughly the same, provides suitable growing environment for the yeast, thereby improves the content of alcohol, and then improves the effect of fermentation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and other characteristics of the present disclosure are only used for matching with the contents disclosed in the present disclosure, so as to be understood and read by those skilled in the art, and the present disclosure is not limited by the conditions of the present disclosure, so that the present disclosure has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the efficacy and the achievable purpose of the present disclosure, should still fall within the scope of the present disclosure

FIG. 1 is a front view of the overall structure provided by the present invention;

FIG. 2 is a schematic view of a stirring shaft according to the present invention;

FIG. 3 is an enlarged schematic view of part A of the present invention;

FIG. 4 is a schematic structural view of a hybrid turnover mechanism provided by the present invention;

FIG. 5 is a schematic view of a connection structure between the stirring shaft and the rotary-lift switching driving assembly according to the present invention;

FIG. 6 is a schematic view of a turntable structure provided in the present invention;

the reference numerals in the drawings denote the following, respectively:

1. a tank body; 2. stirring the shaft lever; 3. a paddle assembly is turned; 4. a lifting conversion drive assembly; 5. a feed inlet; 6. a discharge port;

21. a main rotating shaft; 22. a first limit groove; 23. a smooth section; 24. a second limit groove; 25. fixing a bracket; 26. a coupling; 27. a guide groove; 28. a limiting block; 29. a threaded segment; .

31. A stirring blade; 32. a connecting rod; 33. a sliding hinge rod;

41. a turntable; 42. a limiting rod; 44. a feeler lever; 45. an annular groove; 46. a screw hole; 47. a limiting hole; 48. a roller; 49. an annular slider; 410. and rotating the shaft.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. 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.

As shown in fig. 1, the invention provides an intelligent vertical high-efficiency fermentation device, which comprises a tank body 1, a mixing and turning mechanism arranged on the tank body 1, and a control device for intelligently controlling the mixing and turning mechanism, wherein the mixing and turning mechanism comprises: stirring axostylus axostyle 2, the oar subassembly 3 and the conversion drive assembly 4 that rises turn, the oar subassembly 3 that turns can stir relatively axostylus axostyle 2 and turn on axial direction, and turn oar subassembly 3 and follow stirring axostylus axostyle 2 synchronous rotation, stirring axostylus axostyle 2 is through the one end that the oar subassembly 3 that turns is connected to the conversion drive assembly 4 that rises, stirring axostylus axostyle 2 with change 4 screwed connection of conversion drive assembly.

The invention mainly turns the materials in the upper, middle and lower layers of the tank body through the mixing and turning mechanism, the rotating and lifting conversion driving component 4 reciprocates along the stirring shaft rod 2 under the reciprocating rotation action of the stirring shaft rod 2, the turning paddle component 3 is hinged on the stirring shaft rod 2 along the axial direction of the stirring shaft rod 2, and the materials in the upper, middle and lower layers are replaced by utilizing the turning effect, so that the possibility of uneven fermentation of fermented products is reduced, the mixed materials can be uniformly stirred by the mixing and turning mechanism, the temperature of the inner and outer layers of the mixed materials can be kept approximately the same by the reciprocating rotation of the stirring shaft rod 2 vertically arranged in the tank body 1 under the driving action, a proper growth environment is provided for yeast, and the yield of alcohol is improved.

The stirring mode of stirring from top to bottom is adopted, and relative to the stirring mode of axial one-way, the stirring is more even, can make the mixed material in the jar body stir from top to bottom, therefore, the mode of stirring has reduced the mixed material layering inhomogeneous, can make the mixed material in jar upper and middle lower floor homogeneous fermentation in the body.

Specifically, as shown in fig. 2 to 5, the lifting conversion driving assembly 4 includes a rotary disc 41, a sliding hinge rod 33 and a limiting rod 42, a screw hole 46, a limiting hole 47 and an annular groove 45 are provided on the rotary disc 41, the screw hole 46 is located at the center of the rotary disc 41, the limiting hole 47 is provided at the outer periphery of the rotary disc 41, and the annular groove 45 is provided at the outer periphery of the limiting hole 47;

the stirring shaft rod 2 is provided with a threaded section 29, the threaded section 29 passes through the screw hole 46 to be in threaded connection with the turntable 41, and the turntable 41 moves back and forth along the stirring shaft rod 2 under the action of the back and forth rotation of the stirring shaft rod 2;

the limiting rod 42 is fixedly arranged on the peripheral side of the stirring shaft rod 2, the limiting rod 42 penetrates through the limiting hole 47, and the turntable 41 can move along the limiting rod 42 and cannot rotate;

as shown in fig. 4, a contact rod 44 is disposed at the top of the limiting rod 42, and the contact rod 44 limits the sliding distance of the rotating disc 41 on the limiting rod 42, so as to reduce the possibility of separation between the rotating disc 41 and the limiting rod 42.

One end of the sliding hinge rod 33 is provided with an annular sliding block 49 which is connected in the annular groove 45 in a sliding manner, and the annular sliding block 49 can slide along the circumferential direction of the annular groove 45;

the other end of the sliding hinge rod 33 is hinged with the end of the connecting rod 32, and the sliding hinge rod 33 drives the flipping paddle component 3 to flip back and forth along the axial direction under the reciprocating motion of the turntable 41.

Further, as shown in fig. 2, the flipping paddle assembly 3 includes a plurality of stirring blades 31 and a connecting rod 32, the connecting rod 32 connects the plurality of stirring blades 31 away from the stirring shaft 2, and the stirring blades 31 are hinged to the stirring shaft 2,

stirring vane 31 is at the angle of the transform stirring that pivoted process can not stop, promote under the drive of conversion drive assembly 4 that the connecting rod 32 removes and reciprocates in order to drive stirring vane 31 along stirring axostylus axostyle 2's axial direction and turn, the mixture material mobility reinforcing, and be convenient for mix the material of inlayer and outmost material, make the material of ectonexine can carry out thermal exchange, stirring vane 31 follows stirring axostylus axostyle 2 synchronous rotation under stirring axostylus axostyle 2 and thereby make the temperature of each component of mixture keep roughly the same, and then the reproduction of yeast provides suitable environment, the influence of temperature to the fermentation has been reduced.

Since the sliding connection between the sliding hinge rod 33 and the rotary disk 41 is required, the angle between the sliding hinge rod 33 and the annular sliding block 49 changes when the rotary disk 41 rotates, and in order not to affect the sliding of the annular sliding block 49, an embodiment of an annular groove is provided.

Specifically, as shown in fig. 4-6, the annular groove 45 is formed in a T-arc groove shape, the inner cavity of the annular groove 45 is connected with a roller 48 in a rolling manner along the self arc direction, a rotating shaft 410 is connected to the rotating shaft of the roller 48, one end of the rotating shaft 410, which is far away from the roller 48, is connected with an annular slider 49, the sliding hinge rod 33 is driven to rotate under the rotation action of the stirring shaft rod 2 so as to drive the annular slider 49 to slide along the annular groove 45, the annular slider 49 drives the roller 48 to rotate along the annular groove 45 so as to adjust the rotation angle of the annular slider 49, and because the roller 48 moves along the annular groove 45, the angle between the roller 48 and the annular groove 45 can be adjusted, so that the sliding hinge rod 33 can move towards the direction close to the side wall of the can body 1.

In this embodiment, as shown in fig. 2, one end of the stirring shaft rod 2 is connected to the bottom of the tank body 1 through the fixing support 25, the other end of the stirring shaft rod 2 is connected to the driving device, the stirring shaft rod 2 includes a main rotating shaft 21 connected to the electric driving device, an auxiliary rotating shaft is connected to the inner cavity length direction along the main rotating shaft 21 in a sliding manner, one end of the auxiliary rotating shaft away from the main rotating shaft 21 is rotatably connected to the surface of the fixing support 25, and the auxiliary rotating shaft reciprocates along the main rotating shaft 21 and the fixing support 25 under the action of liquid material flowing in the tank body 1.

Because the main rotating shaft 21, the auxiliary rotating shaft and the fixed support 25 can slide up and down, the stirring blade 31 is impacted by the inertia of the flowing materials under the condition that the mixed materials flow, the stirring blade 31 is convenient to turn over, and the power is saved.

Further, as shown in fig. 2-3, the auxiliary rotating shaft includes a smooth section 23 and a threaded section 29, the bottom of the smooth section 23 is connected with the threaded section 29, a first limiting groove 22 matched with the smooth section 23 is arranged in an inner cavity of the main rotating shaft 21 close to one end of the smooth section 23, a second limiting groove 24 matched with the threaded section 29 is arranged on the surface of the fixing support 25, and a coupler 26 is arranged at one end of the smooth section 23 far away from the threaded section 29.

The coupling 26 is driven by the auxiliary rotating shaft to reciprocate along the axial directions of the first limiting groove 22 and the second limiting groove 24 respectively.

In order to ensure the rotation of the stirring shaft rod 2 and also ensure the sliding between the main rotating shaft and the auxiliary rotating shaft, the connection between the main rotating shaft and the auxiliary rotating shaft and the fixed bracket needs to be limited.

Specifically, as shown in fig. 3, the two ends of the side wall of the coupling 26 extending into the first limiting groove 22 and the second limiting groove 24 are both provided with limiting blocks 28, and the side walls of the first limiting groove 22 and the second limiting groove 24 are both provided with guide grooves 27 matched with the limiting blocks 28.

In the sliding process of the main rotating shaft and the auxiliary rotating shaft, the main rotating shaft and the auxiliary rotating shaft may be separated in a sliding mode.

Specifically, as shown in fig. 3, the groove depth of the first limiting groove 22 is the same as the groove depth of the second limiting groove 24, the distance between the bottom of the main rotating shaft 21 and the groove bottom of the second limiting groove 24 is smaller than the length of the auxiliary rotating shaft, and the smooth section and the threaded section on the auxiliary rotating shaft respectively slide along the inner cavities of the first limiting groove 22 and the second limiting groove 24, so that the sliding distance of the auxiliary rotating shaft between the main rotating shaft 21 and the fixed bracket 25 is limited, and the possibility of separation between the auxiliary rotating shaft and the main rotating shaft 21 and the fixed bracket 25 is reduced.

Because the stirring paddle component needs to be stirred at a large angle in the stirring process, the scraping possibility between the stirring blade 31 and the side wall of the tank body 1 should be reduced as much as possible in the stirring process.

Specifically, as shown in fig. 4, the stirring blades 31 are disposed at equal intervals, the stirring blades 31 disposed at two sides of the secondary rotating shaft are disposed symmetrically with respect to the vertical symmetry axis of the secondary rotating shaft, and the length of the stirring blades 31 is smaller than the horizontal distance between the secondary rotating shaft and the tank 1.

In this embodiment, as shown in fig. 1, the inner chamber bottom of the jar body 1 is the arc column structure setting of undercut, the top of the jar body 1 is provided with feed inlet 5, the inner chamber bottom center department of the jar body 1 is provided with discharge gate 6, fixed bolster 25 erects directly over discharge gate 6, the material in the jar body 1 is discharged along discharge gate 6 under the supporting role of fixed bolster 25, so can enough guarantee the rotation of stirring axostylus axostyle 2, also do not influence the ejection of compact of discharge gate 6 simultaneously, and the accumulation of material also can be reduced to curved tank bottoms.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims

1. The utility model provides an intelligent vertical high-efficient fermenting installation, its characterized in that, includes jar body (1), installs thoughtlessly move tilting mechanism on the jar body (1) to and be used for intelligent control thoughtlessly move tilting mechanism's controlling means, thoughtlessly move tilting mechanism includes:

the stirring shaft lever (2) is vertically arranged in the tank body (1) and can rotate in a reciprocating manner under the driving action;

the stirring paddle component (3) is hinged to the stirring shaft lever (2) along the axial direction of the stirring shaft lever (2), the stirring paddle component (3) can be stirred in the axial direction relative to the stirring shaft lever (2), and the stirring paddle component (3) synchronously rotates along with the stirring shaft lever (2);

the stirring device comprises a rotating and lifting conversion driving assembly (4), a stirring shaft rod (2) is connected with one end of the turning paddle assembly (3) through the rotating and lifting conversion driving assembly (4), the stirring shaft rod (2) is in spiral connection with the rotating and lifting conversion driving assembly (4), and the rotating and lifting conversion driving assembly (4) moves in a reciprocating mode along the stirring shaft rod (2) under the reciprocating rotation effect of the stirring shaft rod (2).

2. The intelligent vertical type efficient fermentation device according to claim 1, wherein: the stirring paddle component (3) comprises a plurality of stirring blades (31) and a connecting rod (32), the connecting rod (32) is used for sequentially connecting the plurality of stirring blades (31) with the stirring shaft rod (2), the stirring blades (31) are driven to move along the axial direction of the stirring shaft rod (2) to be stirred in a reciprocating mode under the driving of the rotation conversion driving component (4), the stirring blades (31) are hinged to the stirring shaft rod (2), and the stirring blades (31) rotate synchronously along with the stirring shaft rod (2) under the rotating action of the stirring shaft rod (2).

3. The intelligent vertical type efficient fermentation device according to claim 2, wherein: the rotary lifting conversion driving assembly (4) comprises a rotary table (41), a sliding hinge rod (33) and a limiting rod (42), wherein a screw hole (46), a limiting hole (47) and an annular groove (45) are formed in the rotary table (41), the screw hole (46) is located in the center of the rotary table (41), the limiting hole (47) is formed in the outer peripheral side of the rotary table (41), and the annular groove (45) is formed in the outer peripheral side of the limiting hole (47);

a threaded section (29) is arranged on the stirring shaft rod (2), the threaded section (29) penetrates through the threaded hole (46) to be in threaded connection with the turntable (41), and the turntable (41) moves in a reciprocating manner along the stirring shaft rod (2) under the reciprocating rotation action of the stirring shaft rod (2);

the limiting rod (42) is fixedly arranged on the peripheral side of the stirring shaft rod (2), the limiting rod (42) penetrates through the limiting hole (47), and the turntable (41) can move along the limiting rod (42) and cannot rotate;

one end of the sliding hinge rod (33) is provided with the annular sliding block (49) which is connected in the annular groove (45) in a sliding mode, and the annular sliding block (49) can slide along the circumferential direction of the annular groove (45);

the other end of the sliding hinge rod (33) is hinged with the end of the connecting rod (32), and the sliding hinge rod (33) drives the turning paddle component (3) to turn in a reciprocating manner along the axial direction under the reciprocating motion of the turntable (41).

4. The intelligent vertical type efficient fermentation device according to claim 3, wherein: annular groove (45) become the setting of T word arc groove shape, the inner chamber of annular groove (45) has gyro wheel (48) along the roll connection in self cambered surface direction, the pivot department of gyro wheel (48) is connected with axis of rotation (410), the one end that gyro wheel (48) were kept away from in axis of rotation (410) is connected with annular slider (49) drive slip hinge pole (33) under the rotation effect of stirring axostylus axostyle (2) and rotate and slide along annular groove (45) in order to drive annular slider (49), annular slider (49) drive gyro wheel (48) rotate along annular groove (45) in order to adjust the turned angle of annular slider (49).

5. The intelligent vertical type efficient fermentation device according to claim 4, wherein: one end of the stirring shaft rod (2) is connected with the bottom in the tank body (1) through a fixing support (25), the other end of the stirring shaft rod (2) is connected with a driving device, the stirring shaft rod (2) comprises a main rotating shaft (21) connected with an electric driving device, and an auxiliary rotating shaft is connected to the length direction of an inner cavity of the main rotating shaft (21) in a sliding mode, one end, far away from the main rotating shaft (21), of the auxiliary rotating shaft is rotatably connected with the surface of the fixing support (25), and the auxiliary rotating shaft moves back and forth between the main rotating shaft (21) and the fixing support (25) under the action of liquid material flowing in the tank body (1).

6. The intelligent vertical type efficient fermentation device according to claim 5, wherein: vice pivot includes smooth section (23) and screw thread section (29), the bottom of smooth section (23) is connected with screw thread section (29), presses close to smooth section (23) one end the inner chamber setting of main pivot (21) and smooth section (23) matched with first spacing groove (22), fixed bolster (25) the surface seted up with screw thread section (29) matched with second spacing groove (24), smooth section (23) all are provided with shaft coupling (26) with the one end that screw thread section (29) kept away from mutually, round trip movement on the axial direction of shaft coupling (26) along first spacing groove (22) and second spacing groove (24) respectively under the drive of vice pivot.

7. The intelligent vertical type efficient fermentation device according to claim 6, wherein: the lateral wall both ends that shaft coupling (26) stretched into in first spacing groove (22) and second spacing groove (24) all are provided with stopper (28), the lateral wall of first spacing groove (22) and second spacing groove (24) all is provided with guide way (27) with stopper (28) matched with.

8. The intelligent vertical type efficient fermentation device according to claim 7, wherein: the groove depth of the first limiting groove (22) is the same as that of the second limiting groove (24), the distance between the bottom of the main rotating shaft (21) and the groove bottom of the second limiting groove (24) is smaller than the length of the auxiliary rotating shaft, and the smooth part (23) and the threaded part (29) on the auxiliary rotating shaft respectively slide along the inner cavities of the first limiting groove (22) and the second limiting groove (24).

9. The intelligent vertical type efficient fermentation device according to claim 2, wherein: several stirring vane (31) equidistant setting, and stirring vane (31) that are located the auxiliary rotating shaft both sides set up about the vertical symmetry axis symmetry of auxiliary rotating shaft, the length of stirring vane (31) is less than the horizontal distance between auxiliary rotating shaft and the jar body (1).

10. The intelligent vertical type efficient fermentation device according to claim 5, wherein: the inner chamber bottom of the jar body (1) is the arc column structure setting of undercut, the top of the jar body (1) is provided with feed inlet (5), the inner chamber bottom center department of the jar body (1) is provided with discharge gate (6), erect directly over discharge gate (6) fixed bolster (25), the material in the jar body (1) is in under the supporting role of fixed bolster (25) along discharge gate (6) discharge.