CN112342123A

CN112342123A - Fermenting installation is used in microbial cultivation

Info

Publication number: CN112342123A
Application number: CN202011253118.7A
Authority: CN
Inventors: 赖仕川
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-02-09

Abstract

The invention discloses a fermentation device for microbial culture, which comprises an outer frame, wherein a culture cylinder with an opening at the upper end and an opening at the lower end is rotatably arranged in the outer frame. According to the invention, the culture cylinder capable of horizontally rotating is arranged by utilizing the limiting flange and the arc-shaped chute which are sleeved and connected, and the transmission shaft driven by the motor is arranged through the main transmission crawler belt, so that the culture cylinder can drive the culture material to stably rotate clockwise; the outer frame is used for arranging a lower rotating shaft positioned in the lower end of the culture cylinder, and the lower rotating shaft is used for arranging an inner cylinder and a wind wheel positioned in the culture cylinder, so that the inner cylinder and the wind wheel are driven by the transmission crawler belt to rotate in a direction opposite to the direction of the culture cylinder, and the culture material in the culture cylinder is driven to rotate in an anticlockwise direction; through set up the lid and the upper bracket of an organic whole structure on last pivot to utilize the tertiary gear of meshing connection and level four gear setting to be located the (mixing) shaft of inner tube, make the (mixing) shaft carry out synchronous revolution under the drive action of last pivot.

Description

Fermenting installation is used in microbial cultivation

Technical Field

The invention relates to the technical field of biological culture, in particular to a fermentation device for microbial culture.

Background

Biological science has a crucial influence as an important item among many scientific subjects, and biological culture has attracted much attention as one of important items in biological science research. Fermentation is one of the important processes in the research of biological culture, and the biological culture medium is usually an artificially prepared nutrient medium suitable for the growth and reproduction of microorganisms or the accumulation of metabolites. To a certain extent, all media or materials supporting the growth and propagation of microorganisms can be used as culture media of the microorganisms, and a proper culture medium formula has great influence on the yield and quality of fermentation products.

Under the current technical conditions, fermentation processing of biological culture has certain technical defects:

firstly, in the aspect of fermentation efficiency, because the types and the quantity of the culture materials are huge, the mixing of various culture materials is difficult, and the uniform mixing of various biological culture materials is difficult to realize;

secondly, in the fermentation process, because of the self-volume of part of the biological culture materials, the biological culture materials are difficult to wet and rot in a short time, the fermentation speed is reduced, and the mixing level among various biological ingredients is influenced.

Disclosure of Invention

The invention aims to solve the problem that culture materials for biological culture are difficult to ferment efficiently in the prior art, and provides a fermentation device for microbial culture.

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

a fermentation device for microbial culture comprises an outer frame, wherein a culture cylinder with an opening at the upper end and an opening at the lower end is rotatably arranged in the outer frame, and a primary mixing mechanism and a secondary mixing mechanism are arranged between the outer frame and the culture cylinder;

the primary mixing mechanism comprises a motor and an upper rotating shaft which are respectively arranged in the upper end of an outer frame, a transmission shaft is rotatably arranged in the inner side of the outer frame, a main transmission crawler belt is sleeved and connected between the upper rotating shaft and the transmission shaft, a primary gear and a secondary gear which are meshed and connected are respectively fixedly sleeved on the transmission shaft and the culture cylinder, a lower rotating shaft extending into the culture cylinder is rotatably arranged at the lower end of the outer frame, a secondary transmission crawler belt is sleeved and connected between the transmission shaft and the lower rotating shaft, and an inner cylinder and a wind wheel are respectively fixedly connected on the lower rotating shaft;

second grade mixing mechanism including rotate the cover locate the upper rotating shaft and with the corresponding lid of culture section of thick bamboo upper end opening, and the welding of lid lower extreme has the upper bracket, the direction annular has been seted up in the inner tube lower extreme, and the slip cover is equipped with the lower carriage in the direction annular, it is connected with two (mixing) shafts to rotate between upper bracket and the lower carriage, and fixed cover respectively on upper rotating shaft and the (mixing) shaft is equipped with the tertiary gear and the level four gear that the meshing is connected.

Preferably, the horizontal side of the inner wall of the outer frame is provided with an arc-shaped chute, and the outer wall of the culture cylinder is integrally connected with a limiting flange which is sleeved in the arc-shaped chute in a sliding manner.

Preferably, motor fixed mounting is in the outrigger upper end, and the last pivot that is connected with the motor output sets up perpendicularly in the culture section of thick bamboo upper end, the infrapivot sets up perpendicularly in the culture section of thick bamboo lower extreme, and goes up the pivot and corresponds from top to bottom with the infrapivot.

Preferably, the inner cylinder and the wind wheel are distributed in the lower end of the culture cylinder from top to bottom.

Preferably, the horizontal opening in the inner wall of the culture cylinder is provided with a limit ring groove for slidably sleeving the inner cylinder.

Preferably, the two stirring shafts are symmetrically positioned on two sides of the upper rotating shaft, and the two stirring shafts are vertically positioned in the inner cylinder.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the culture cylinder capable of horizontally rotating is arranged in the outer frame by utilizing the limiting flange and the arc-shaped sliding chute which are sleeved and connected, the transmission shaft driven by the motor is arranged through the main transmission crawler, and the primary gear and the secondary gear which are meshed and connected are arranged on the transmission shaft and the culture cylinder, so that the culture cylinder can drive the culture material to stably rotate clockwise.

2. The outer frame is provided with a lower rotating shaft positioned in the lower end of the culture cylinder, and the lower rotating shaft is provided with an inner cylinder and a wind wheel positioned in the culture cylinder, so that the inner cylinder and the wind wheel are driven by the transmission crawler belt to rotate in a direction opposite to the direction of the culture cylinder, and culture materials in the culture cylinder are driven to rotate in an anticlockwise direction.

3. The invention utilizes the upper rotating shaft to arrange the cover body and the upper bracket which are integrally structured, and utilizes the three-stage gear and the four-stage gear which are connected in a meshing way to arrange the stirring shaft positioned in the inner cylinder, so that the stirring shaft synchronously rotates under the driving action of the upper rotating shaft, and the culture materials positioned in the inner cylinder are comprehensively stirred and mixed.

In summary, the culture cylinder capable of horizontally rotating is arranged by the limiting flange and the arc-shaped chute which are sleeved and connected, and the transmission shaft driven by the motor is arranged through the main transmission crawler belt, so that the culture cylinder can drive the culture material to stably rotate clockwise; the outer frame is used for arranging a lower rotating shaft positioned in the lower end of the culture cylinder, and the lower rotating shaft is used for arranging an inner cylinder and a wind wheel positioned in the culture cylinder, so that the inner cylinder and the wind wheel are driven by the transmission crawler belt to rotate in a direction opposite to the direction of the culture cylinder, and the culture material in the culture cylinder is driven to rotate in an anticlockwise direction; through set up the lid and the upper bracket of an organic whole structure on last pivot to utilize the tertiary gear of meshing connection and level four gear setting to be located the (mixing) shaft of inner tube, make the (mixing) shaft carry out synchronous revolution under the drive action of last pivot.

Drawings

FIG. 1 is a schematic view of a fermentation apparatus for culturing microorganisms according to the present invention;

FIG. 2 is an enlarged view of the structure of part A of a fermentation apparatus for culturing microorganisms according to the present invention;

FIG. 3 is an enlarged view of the structure of part B of a fermentation apparatus for culturing microorganisms according to the present invention;

FIG. 4 is a schematic view of a connection structure between a transmission shaft and a culture cylinder of a fermentation device for culturing microorganisms according to the present invention;

FIG. 5 is a schematic view of an inner cylinder structure of a fermentation apparatus for culturing microorganisms according to the present invention;

FIG. 6 is a schematic view of the connection structure of the upper rotating shaft and the stirring shaft of the fermentation device for culturing microorganisms according to the present invention.

In the figure: the device comprises an outer frame 1, a motor 2, an upper rotating shaft 3, a transmission shaft 4, a main transmission crawler belt 5, a culture cylinder 6, a first-level gear 7, a second-level gear 8, a limit flange 9, an arc-shaped sliding groove 10, a lower rotating shaft 11, a driven transmission crawler belt 12, an inner cylinder 13, a limit ring groove 14, a wind wheel 15, a cover body 16, an upper support 17, a guide ring groove 18, a lower support 19, a stirring shaft 20, a third-level gear 21 and a fourth-level gear 22.

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.

Referring to fig. 1-6, a fermentation device for microbial cultivation comprises an external frame 1, as can be seen by referring to fig. 1 and fig. 3 of the specification, a cultivation cylinder 6 with an opening at the upper end and an opening at the lower end is rotatably installed in the external frame 1, and a primary mixing mechanism and a secondary mixing mechanism are arranged between the external frame 1 and the cultivation cylinder 6;

the primary mixing mechanism comprises a motor 2 and an upper rotating shaft 3 which are respectively arranged in the upper end of an outer frame 1, the motor 2 adopts a servo motor with the product model of HC-SFS121, a transmission shaft 4 is rotatably arranged in the inner side of the outer frame 1, the transmission shaft 4 is positioned outside one side of a culture cylinder 6, a main transmission crawler 5 is sleeved and connected between the upper rotating shaft 3 and the transmission shaft 4, a primary gear 7 and a secondary gear 8 which are meshed and connected are respectively fixedly sleeved on the transmission shaft 4 and the culture cylinder 6, the primary gear 7 and the secondary gear 8 are flat gears, the culture cylinder 6 can carry out reverse rotating motion of the rotation direction of the upper rotating shaft 3 under the transmission action of the primary gear and the secondary gear, a lower rotating shaft 11 which extends into the culture cylinder 6 is rotatably arranged at the lower end of the outer frame 1, a secondary transmission crawler 12 is sleeved and connected between the transmission shaft 4 and the lower rotating shaft 11, and an inner cylinder 13, the wind wheel 15 can accelerate the air flow inside and outside the culture cylinder 6, thereby ensuring that the conditions of temperature and oxygen content in the culture cylinder 6 are suitable;

the second-stage mixing mechanism comprises a cover body 16 which is rotatably sleeved on the upper rotating shaft 3 and corresponds to an opening at the upper end of the culture cylinder 6, a detachable connection mode is adopted between the cover body 16 and the opening at the upper end of the culture cylinder 6, an upper support 17 is welded at the lower end of the cover body 16, a guide ring groove 18 is formed in the lower end of the inner cylinder 13, a lower support 19 is slidably sleeved in the guide ring groove 18, the lower support 19 can keep relatively static in the rotating process of the inner cylinder 13, two stirring shafts 20 are rotatably connected between the upper support 17 and the lower support 19, a third gear 21 and a fourth gear 22 which are in meshed connection are fixedly sleeved on the upper rotating shaft 3 and the stirring shafts 20 respectively, the third gear 21 and the fourth gear 22 are flat gears, and under the transmission action of the third gear and the fourth gear 20, the rotation in different directions can be carried out, so as.

The water level in the inner wall of the outer frame 1 is provided with an arc-shaped sliding groove 10, and the outer wall of the culture cylinder 6 is integrally connected with a limiting flange 9 which is sleeved in the arc-shaped sliding groove 10 in a sliding manner so as to ensure the stability of the horizontal rotation of the culture cylinder 6.

Motor 2 fixed mounting is in 1 upper end of outrigger, and sets up perpendicularly in culture cylinder 6 upper end with last pivot 3 that the output of motor 2 is connected, can make the synchronous revolution of two (mixing) shafts 20 through the drive of last pivot 3, and lower pivot 11 sets up perpendicularly in culture cylinder 6 lower extreme to it corresponds about pivot 3 and lower pivot 11 to drive and go up.

The inner cylinder 13 and the wind wheel 15 are distributed in the lower end of the culture cylinder 6 from top to bottom.

The horizontal plane in the inner wall of the culture cylinder 6 is provided with a limit ring groove 14 which is sleeved with the inner cylinder 13 in a sliding manner, and the inner cylinder 13 rotates horizontally in a direction opposite to the direction of the culture cylinder 6 under the driving action of the lower rotating shaft 11.

Two stirring shafts 20 are symmetrically arranged at two sides of the upper rotating shaft 3, and the two stirring shafts 20 are both vertically arranged in the inner cylinder 13, and the culture materials in the inner cylinder 6 can be comprehensively stirred and mixed through the rotating motion of the two stirring shafts 20.

The invention can be illustrated by the following operating modes:

the motor 2 is driven to operate, and the output end of the motor 2 drives the upper rotating shaft 3 to rotate;

the upper rotating shaft 3 drives the transmission shaft 4 to rotate through the main transmission crawler 5, and the transmission shaft 5 drives the culture cylinder 6 to rotate clockwise through a primary gear 7 and a secondary gear 8 which are connected in a meshed mode;

in the process, the culture cylinder 6 drives the limiting flange 9 to horizontally rotate in the arc-shaped sliding groove 10 so as to ensure that the culture cylinder 6 drives the culture materials to stably and horizontally rotate;

the transmission shaft 4 drives the lower rotating shaft 11 to rotate in the lower end of the culture cylinder 6 through the secondary transmission crawler 12, so that the inner cylinder 13 rotates in the counter-time direction synchronous with the wind wheel 15 by taking the limiting ring groove 13 as a guide;

meanwhile, the wind wheel 15 rotates to enable the air inside and outside the culture cylinder 6 to realize convection replacement through the opening at the lower end of the culture cylinder so as to ensure that enough oxygen is always in the culture cylinder 6;

it should be noted that: in the rotating process of the inner cylinder 13, the lower bracket 19 is always positioned in the guide ring groove 18, so that the lower bracket 19 is kept relatively static;

the upper rotating shaft 3 drives two stirring shafts 20 to rotate through a third-level gear 21 and a fourth-level gear 22 which are connected in a meshed mode, so that the culture materials in the inner cylinder 13 are subjected to bidirectional stirring driving.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A fermentation device for microbial cultivation comprises an outer frame (1) and is characterized in that a cultivation cylinder (6) with an opening at the upper end and a hole at the lower end is rotatably arranged in the outer frame (1), and a primary mixing mechanism and a secondary mixing mechanism are arranged between the outer frame (1) and the cultivation cylinder (6);

the primary mixing mechanism comprises a motor (2) and an upper rotating shaft (3) which are respectively arranged in the upper end of an outer frame (1), a transmission shaft (4) is rotatably arranged in the inner side of the outer frame (1), a main transmission crawler belt (5) is sleeved between the upper rotating shaft (3) and the transmission shaft (4), a primary gear (7) and a secondary gear (8) which are connected in a meshed mode are respectively fixedly sleeved on the transmission shaft (4) and a culture cylinder (6), a lower rotating shaft (11) which extends into the culture cylinder (6) is rotatably arranged at the lower end of the outer frame (1), a secondary transmission crawler belt (12) is sleeved between the transmission shaft (4) and the lower rotating shaft (11), and an inner cylinder (13) and a wind wheel (15) are respectively and fixedly connected on the lower rotating shaft (11);

second grade mixing mechanism locates last pivot (3) and with culture cylinder (6) upper end opening corresponding lid (16) including rotating the cover, and lid (16) lower extreme welding has upper bracket (17), guide ring groove (18) have been seted up in inner tube (13) lower extreme, and the slip cap is equipped with lower carriage (19) in guide ring groove (18), rotate between upper bracket (17) and lower carriage (19) and be connected with two (mixing) shaft (20), and go up pivot (3) and (mixing) shaft (20) and go up respectively fixed cap and be equipped with tertiary gear (21) and level four gear (22) that the meshing is connected.

2. The fermentation device for culturing microorganisms according to claim 1, wherein an arc-shaped chute (10) is horizontally arranged in the inner wall of the outer frame (1), and the outer wall of the culture cylinder (6) is integrally connected with a limiting flange (9) which is slidably sleeved in the arc-shaped chute (10).

3. The fermentation device for culturing microorganisms according to claim 2, wherein the motor (2) is fixedly installed at the upper end of the outer frame (1), the upper rotating shaft (3) connected with the output end of the motor (2) is vertically arranged in the upper end of the culture cylinder (6), the lower rotating shaft (11) is vertically arranged in the lower end of the culture cylinder (6), and the upper rotating shaft (3) and the lower rotating shaft (11) vertically correspond.

4. The fermentation device for culturing microorganisms according to claim 3, wherein the inner cylinder (13) and the wind wheel (15) are distributed in the lower end of the culture cylinder (6) from top to bottom.

5. The fermentation device for culturing microorganisms according to claim 4, wherein the inner wall of the culture cylinder (6) is horizontally provided with a limit ring groove (14) which is sleeved with the inner cylinder (13) in a sliding manner.

6. A fermentation device for culturing microorganisms according to claim 5, wherein the two stirring shafts (20) are symmetrically arranged at both sides of the upper rotating shaft (3), and the two stirring shafts (20) are vertically arranged in the inner cylinder (13).