CN108485957B - Full-automatic separated stainless steel fermentation tank - Google Patents
Full-automatic separated stainless steel fermentation tank Download PDFInfo
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- CN108485957B CN108485957B CN201810630358.0A CN201810630358A CN108485957B CN 108485957 B CN108485957 B CN 108485957B CN 201810630358 A CN201810630358 A CN 201810630358A CN 108485957 B CN108485957 B CN 108485957B
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- C12M41/12—Means for regulation, monitoring, measurement or control, e.g. flow regulation of temperature
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Abstract
The invention discloses a full-automatic separated stainless steel fermentation tank, which comprises a shell, wherein the edge of the bottom end surface of the shell is provided with supporting legs, the lower ends of the supporting legs are respectively provided with a roller, the rollers are respectively provided with a brake, the middle part of the lower end surface of the shell is provided with a coupler, the lower end of the coupler is provided with a motor, the middle part of the inner bottom end of the shell is provided with a rotating shaft, the output shaft of the motor is connected with the rotating shaft through the coupler, and the top end of the rotating shaft is connected with the middle part of the lower end surface of an inner shell.
Description
Technical Field
The invention relates to the technical field of fermentation tanks, in particular to a full-automatic separated stainless steel fermentation tank.
Background
At present, traditional fermentation cylinder is inside to be an integral part, consequently, need more than three fermentation cylinder in carrying out some laboratories, and then satisfy parallel test's demand, so can not only occupy great area, the contrast observation of the different fermentation experiments of being inconvenient for simultaneously, a cellular-type stainless steel fermentation cylinder is disclosed like the patent of application publication number 201520869881.0, but above patent has certain defect in the use, at first the internal structure design of fermentation cylinder is improper in this patent, the experimental environment of each parallel experiment has the difference, the result of parallel experiment is carried out to the influence fermentation cylinder, the fermentation cylinder in this patent can not realize the removal of self and does not satisfy user's special user demand, finally this fermentation cylinder function is too single, can not realize controlling the temperature when fermentation cylinder is fermented.
For this purpose we provide a fully automatic divided stainless steel fermenter.
Disclosure of Invention
The invention aims to overcome the existing defects, provides the full-automatic separated stainless steel fermentation tank, has a more reasonable structure, ensures that the basic environments of parallel experiments of the fermentation tank are consistent when parallel experiments are carried out, can realize the movement of the fermentation tank through the rollers, can realize the control of the temperature in the working process of the fermentation tank, and can effectively solve the problems in the background technology.
In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a full-automatic cellular-type stainless steel fermentation cylinder, includes the shell, the bottom face edge of shell is equipped with the stabilizer blade, the lower extreme of stabilizer blade all is equipped with the gyro wheel, all be equipped with the stopper on the gyro wheel, the lower extreme middle part of shell is equipped with the shaft coupling, the lower extreme of shaft coupling is equipped with the motor, the inside bottom middle part of shell is equipped with the pivot, the output shaft and the pivot of motor pass through the shaft coupling to be connected, the lower terminal surface middle part of inner shell is connected on the top of pivot, be equipped with the spiral evaporating pipe between shell and the inner shell, the upper and lower both ends of spiral evaporating pipe all are connected with the one end of connecting pipe, the other end of connecting pipe of upper end is connected with the compressor, the other end of connecting pipe of lower extreme is connected with the choke valve, be linked together through the condenser pipe between compressor and the choke valve, the bottom face of inner shell is located and all is equipped with temperature-sensing ware between two baffles, the lateral surface of inner shell is equipped with the heating plate, the upper end of shell is equipped with the lid, the outer shell and lid are connected through the shaft coupling, the lower terminal surface middle part is equipped with the sealing bench, sealing bench and inner shell are equipped with the sealing bench, the air inlet and the air cavity are equipped with the air inlet and the air cavity respectively, the air cavity is equipped with the air inlet and the air cavity respectively on the side face of the air inlet and the air outlet, the air inlet and the air outlet respectively, the output end of the singlechip is electrically connected with the input ends of the heating plate, the compressor, the motor and the display.
As a preferable technical scheme of the invention, the number of the supporting legs is not less than four, and the supporting legs are uniformly distributed at the edge of the bottom end surface of the shell.
As a preferable technical scheme of the invention, the shell is provided with a bearing corresponding to the rotating shaft, and the rotating shaft and the bearing are installed in a matched manner.
As a preferable technical scheme of the invention, the upper end and the lower end of the shell are respectively provided with mounting holes corresponding to the connecting pipes at the upper end and the lower end, and the connecting pipes at the upper side and the lower side penetrate through the mounting holes at the upper end and the lower end.
As a preferable technical scheme of the invention, the inner part of the inner shell is provided with at least three partition boards, and the partition boards are distributed in a circular array along the central axis of the inner shell in the inner part of the inner shell.
As a preferable technical scheme of the invention, the number of the heating plates is an integral multiple of the number of the partition plates, and the heating plates are uniformly distributed on the outer side surface of the inner shell.
As a preferable technical scheme of the invention, the blanking openings are communicated with the inside of the inner shell, the number of the blanking openings is an integral multiple of the number of the partition plates, and the blanking openings are distributed in a circular array at the edge of the bottom end surface of the material collecting cavity.
As a preferable technical scheme of the invention, the exhaust holes are communicated with the inside of the inner shell, the number of the exhaust holes is an integral multiple of the number of the partition plates, and the exhaust holes are distributed in a circular array at the bottom end of the gas collecting cavity.
As a preferable technical scheme of the invention, the feeding pipeline is communicated with the material collecting cavity, the upper end of the feeding pipeline is provided with an end cover, and a sealing sheet is arranged between the feeding pipeline and the end cover.
As a preferable technical scheme of the invention, the air outlet pipeline is provided with the electromagnetic valve, and the output end of the singlechip is electrically connected with the input end of the electromagnetic valve.
Compared with the prior art, the invention has the beneficial effects that: the device has a more reasonable structure, ensures that the basic environment of each parallel experiment is consistent when the fermentation tank is subjected to the parallel experiment, further ensures the accuracy of the result of the parallel experiment, can realize the movement of the fermentation tank through the roller, meets the special use requirement of a user, brings great convenience to the user, can realize the control of the temperature in the working process of the fermentation tank, and further controls the fermentation speed in the fermentation tank.
Drawings
FIG. 1 is a schematic diagram of the structure of the present invention;
FIG. 2 is a schematic view of a left side cross-sectional structure of the present invention;
FIG. 3 is a schematic cross-sectional elevation view of the present invention;
fig. 4 is a schematic view of a partial cross-sectional structure of the present invention.
In the figure: 1 outer shell, 2 support legs, 3 roller wheels, 4 brake, 5 cover body, 6 connector, 7 inner shell, 8 air collecting cavity, 9 exhaust hole, 10 material collecting cavity, 11 blanking mouth, 12 sealing table, 13 air outlet pipeline, 14 electromagnetic valve, 15 material feeding pipeline, 16 end cover, 17 heating plate, 18 spiral evaporation pipe, 19 connecting pipe, 20 compressor, 21 throttle valve, 22 condensing pipe, 23 baffle, 24 motor, 25 coupler, 26 rotating shaft, 27 bearing, 28 temperature sensor, 29 mounting plate, 30 singlechip and 31 display.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a full-automatic cellular-type stainless steel fermentation cylinder, including shell 1, shell 1's bottom face edge is equipped with stabilizer blade 2, stabilizer blade 2's quantity is not less than four, stabilizer blade 2 is at shell 1's bottom face edge evenly distributed, stabilizer blade 2's lower extreme all is equipped with gyro wheel 3, gyro wheel 3 can realize the removal to the fermentation cylinder, all be equipped with stopper 4 on the gyro wheel 3, stopper 4 realizes stopping to gyro wheel 3 and then realizes the fixed of fermentation cylinder, shell 1's lower terminal surface middle part is equipped with shaft coupling 25, shaft coupling 25's lower extreme is equipped with motor 24, shell 1's inside bottom middle part is equipped with pivot 26, be equipped with on the shell 1 with the corresponding bearing 27 of pivot 26, pivot 26 and bearing 27 cooperation installation, motor 24's output shaft and pivot 26 are connected through shaft coupling 25, the lower terminal surface middle part of inner shell 7 is connected at the top of pivot 26, be equipped with spiral evaporating pipe 18 between shell 1 and the inner shell 7, the upper and lower ends of the spiral evaporation tube 18 are connected with one end of a connecting tube 19, the upper and lower ends of the outer shell 1 are respectively provided with mounting holes corresponding to the connecting tubes 19 at the upper and lower ends, the connecting tubes 19 at the upper and lower sides penetrate through the mounting holes at the upper and lower ends, the other end of the connecting tube 19 at the upper end is connected with a compressor 20, the other end of the connecting tube 19 at the lower end is connected with a throttle valve 21, the compressor 20 is communicated with the throttle valve 21 through a condensing tube 22, the inside of the inner shell 7 is provided with baffle plates 23, the number of the baffle plates 23 is not less than three, the baffle plates 23 are distributed in a circular array along the central axis of the inner shell 7 in the inside of the inner shell 7, the baffle plates 23 uniformly divide the inside of the inner shell 7 into a plurality of the same spaces so as to facilitate parallel experiments, the bottom end surface of the inner shell 7 is provided with a temperature sensor 28 between the two baffle plates 23 at the same time, the number of the heating plates 17 is integer times of the number of the partition plates 23, the heating plates 17 are uniformly distributed on the outer side surface of the inner shell 7, the upper end of the outer shell 1 is provided with a cover body 5, the outer shell 1 and the cover body 5 are connected through a connecting body 6, the middle part of the lower end surface of the cover body 5 is provided with a sealing table 12, the sealing table 12 is matched with the inner part of the inner shell 7, the center of the inner part of the sealing table 12 is provided with an aggregate cavity 10, the bottom end surface of the aggregate cavity 10 is provided with a blanking port 11, the blanking port 11 is communicated with the inner part of the inner shell 7, the number of the blanking port 11 is integer times of the number of the partition plates 23, the blanking port 11 is distributed in a circular array at the edge of the bottom end surface of the aggregate cavity 10, the inner part of the sealing table 12 is provided with an air collecting cavity 8 around the aggregate cavity 10, the bottom end surface of the air collecting cavity 8 is provided with an air exhaust hole 9, the air exhaust hole 9 is communicated with the inner part of the inner shell 7, the number of the air exhaust holes 9 is integer times of the number of the partition plates 23, the exhaust hole 9 is distributed in a circular array at the bottom end of the gas collection cavity 8, a feeding pipeline 15 is arranged in the middle of the upper end face of the cover body 5, the feeding pipeline 15 is communicated with the gas collection cavity 10, an end cover 16 is arranged at the upper end of the feeding pipeline 15, a sealing piece is arranged between the feeding pipeline 15 and the end cover 16, the sealing piece prevents gas in the fermentation tank from leaking and polluting, an air outlet pipeline 13 is arranged at the upper end face of the cover body 5, an electromagnetic valve 14 is arranged on the air outlet pipeline 13, a mounting plate 29 is arranged on the side face of the shell 1, a singlechip 30 and a display 31 are arranged on the left side face of the mounting plate 29, the input end of the singlechip 30 is electrically connected with the output end of an external power supply, the input end of the singlechip 30 is electrically connected with the output end of a temperature sensor 28, the output end of the singlechip 30 is electrically connected with the input end of the electromagnetic valve 14, the output end of the singlechip 30 is electrically connected with the heating piece 17, the compressor 20, the motor 24 and the input end of the display 31, the temperature sensor 28 detects the temperature information in the inner shell 7 and feeds information back to the singlechip 30, the singlechip 30 controls the display 31 to display the temperature information, and then a user can observe the temperature information conveniently, meanwhile, the singlechip 30 controls the motor 24 to rotate so as to drive the inner shell 7 to rotate, stirring of fermentation broth is realized through inertia of the fermentation broth when the rotation is stopped, and the singlechip 30 controls the electromagnetic valve 14 to work so as to control the emission of gas generated in the fermentation process.
The temperature sensor 28 is controlled by the singlechip 30 according to the prior art, the electromagnetic valve 14, the heating plate 17, the compressor 20, the motor 24 and the display 31 are controlled by the singlechip 30 according to the prior art, and the singlechip 30 is an AT89CXX series singlechip manufactured by Atmel company.
When in use: the temperature sensor 28 detects the temperature information in the inner shell 7 and feeds information back to the singlechip 30, the singlechip 30 controls the display 31 to display the temperature information, and then a user can observe the temperature information conveniently, meanwhile, the singlechip 30 controls the motor 24 to rotate so as to drive the inner shell 7 to rotate, stirring of fermentation broth is realized through inertia of the fermentation broth when the rotation is stopped, and the singlechip 30 controls the electromagnetic valve 14 to work so as to control the emission of gas generated in the fermentation process.
The invention has a more reasonable structure, ensures that the basic environment of each parallel experiment is consistent when the fermentation tank is subjected to the parallel experiment, can realize the movement of the fermentation tank through the roller 3, and can realize the control of the temperature in the working process of the fermentation tank.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (1)
1. The utility model provides a full-automatic cellular-type stainless steel fermentation cylinder, includes shell (1), its characterized in that: the utility model discloses a spiral evaporation tube (18) is characterized in that the bottom end surface edge of the shell (1) is provided with a support leg (2), the lower end of the support leg (2) is provided with a roller (3), the roller (3) is provided with a brake (4), the middle part of the lower end surface of the shell (1) is provided with a coupler (25), the lower end of the coupler (25) is provided with a motor (24), the middle part of the inner bottom end of the shell (1) is provided with a rotating shaft (26), the output shaft of the motor (24) is connected with the rotating shaft (26) through the coupler (25), the top end of the rotating shaft (26) is connected with the middle part of the lower end surface of the inner shell (7), the spiral evaporation tube (18) is arranged between the shell (1) and the inner shell (7), the utility model is characterized in that one end of a connecting pipe (19) is connected to the upper end and the lower end of a spiral evaporation pipe (18), a compressor (20) is connected to the other end of the connecting pipe (19) at the upper end, a throttle valve (21) is connected to the other end of the connecting pipe (19) at the lower end, the compressor (20) is communicated with the throttle valve (21) through a condensing pipe (22), a temperature sensor (28) is arranged between two adjacent partition boards (23) at the bottom end surface of an inner shell (7), a heating plate (17) is arranged on the outer side surface of the inner shell (7), a cover body (5) is arranged at the upper end of an outer shell (1), the shell (1) is connected with the cover body (5) through the connecting body (6), a sealing table (12) is arranged in the middle of the lower end face of the cover body (5), the sealing table (12) is matched with the inside of the inner shell (7), a collecting cavity (10) is arranged in the center of the inside of the sealing table (12), a blanking port (11) is arranged on the bottom face of the collecting cavity (10), an air collecting cavity (8) is arranged around the collecting cavity (10) in the inside of the sealing table (12), an exhaust hole (9) is arranged on the bottom face of the air collecting cavity (8), a feeding pipeline (15) is arranged in the middle of the upper end face of the cover body (5), an air outlet pipeline (13) is arranged on the upper end face of the cover body (5), a mounting plate (29) is arranged on the side face of the shell (1), a singlechip (30) and a display (31) are arranged on the left side face of the mounting plate, the input end of the singlechip (30) is electrically connected with the output end of a power supply, the input end of the singlechip (30) is electrically connected with the output end of a temperature sensor (28), and the output end of the singlechip (30) and the output end of the external compressor (20) are electrically connected with the output end of the motor (24);
the number of the supporting legs (2) is not less than four, the supporting legs (2) are uniformly distributed at the edge of the bottom end surface of the outer shell (1), bearings (27) corresponding to the rotating shafts (26) are arranged on the outer shell (1), the rotating shafts (26) and the bearings (27) are installed in a matched mode, mounting holes corresponding to connecting pipes (19) at the upper end and the lower end are respectively arranged at the upper end and the lower end of the outer shell (1), the connecting pipes (19) at the upper end and the lower end penetrate through the mounting holes at the upper end and the lower end, partition plates (23) are arranged in the inner shell (7), the number of the partition plates (23) is not less than three, the partition plates (23) are distributed in a circular array along the central axis of the inner shell (7) in the inner shell (7), the number of the heating plates (17) is an integral multiple of the number of the partition plates (23), the heating plates (17) are uniformly distributed on the outer side surface of the inner shell (7), the blanking openings (11) are communicated with the inner part of the inner shell (7), the number of the blanking openings (11) is an integral multiple of the number of the partition plates (23), the blanking openings (11) are distributed in a circular array at the edge of the bottom end surface of the aggregate cavity (10), the exhaust holes (9) are communicated with the inner part of the inner shell (7), the number of the exhaust holes (9) is an integral multiple of the number of the partition plates (23), the exhaust hole (9) is distributed in a circular array at the bottom end of the gas collection cavity (8), a feeding pipeline (15) and a material collection cavity (10) are communicated, an end cover (16) is arranged at the upper end of the feeding pipeline (15), a sealing piece is arranged between the feeding pipeline (15) and the end cover (16), an electromagnetic valve (14) is arranged on the gas outlet pipeline (13), and the output end of the singlechip (30) is electrically connected with the input end of the electromagnetic valve (14).
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