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CN-224227028-U - Control device for high-density fermentation

CN224227028UCN 224227028 UCN224227028 UCN 224227028UCN-224227028-U

Abstract

The utility model belongs to the technical field of high-density fermentation, and particularly relates to a control device for high-density fermentation, which comprises a fermentation tank, a motor, a power assembly, two groups of driving assemblies and a worker, wherein the motor is fixedly arranged at the top of the fermentation tank, an output shaft of the motor penetrates through the fermentation tank and is fixedly provided with a rotating column, a plurality of stirring blades are fixedly arranged on the rotating column, a sampling tube is inserted in the fermentation tank, a plurality of collecting tanks are arranged in the sampling tube, sliding plates are slidably arranged in the collecting tanks, two storage tanks are fixedly arranged at the top of the fermentation tank, discs are fixedly arranged in the two storage tanks, a plurality of fixing columns are inserted in the two storage tanks, the power assembly is positioned in the sampling tube and is used for driving the sliding plates to slide, the worker can control the adding amount of additives, and meanwhile, the worker can sample and check materials at different layers in the fermentation tank, so that the worker can control the fermentation process conveniently.

Inventors

  • LIU ZHIBIN
  • ZHOU DUNXIU
  • LIU JINGHUI

Assignees

  • 南京普瑞特生物科技有限公司

Dates

Publication Date
20260512
Application Date
20250723

Claims (7)

  1. 1. A control device for high-density fermentation, comprising a fermenter (1), characterized in that it further comprises: The fermentation device comprises a motor (2), wherein the motor (2) is fixedly arranged at the top of a fermentation tank (1), an output shaft of the motor (2) penetrates through the fermentation tank (1) and is fixedly provided with a rotating column (3), a plurality of stirring blades (4) are fixedly arranged on the rotating column (3), a sampling tube (5) is inserted and arranged in the fermentation tank (1), a plurality of collecting tanks (6) are arranged in the sampling tube (5), and sliding plates (7) are slidably arranged in the collecting tanks (6); The fermentation device comprises two storage tanks (8), wherein the two storage tanks (8) are fixedly arranged at the top of the fermentation tank (1), discs (9) are fixedly arranged in the two storage tanks (8), and a plurality of fixing columns (10) are inserted in the two discs (9); The power assembly is positioned in the sampling tube (5) and used for driving the sliding plates (7) to slide; The two groups of driving assemblies are respectively positioned in the two storage tanks (8) and are respectively used for driving the fixed columns (10) to slide.
  2. 2. The control device for high-density fermentation according to claim 1, wherein the power assembly comprises: A plurality of gears (11), a plurality of gears (11) rotate respectively and install in a plurality of collecting vat (6), a plurality of one side of gears (11) is all meshed and is installed rack (12), a plurality of rack (12) respectively with a plurality of sliding plate (7) fixed connection, a plurality of one end of gears (11) is all fixed mounting has worm wheel (13), a plurality of worm (14) are all meshed and are installed to one side of worm wheel (13), a plurality of worm (14) coaxial coupling, the top worm (14) the upper end runs through sampling tube (5) and fixed mounting have handle (22).
  3. 3. The control device for high-density fermentation according to claim 2, wherein the driving assembly comprises: the sliding column (15), sliding column (15) slidable mounting is in holding vessel (8), and a plurality of fixed column (10) all are located the bottom of sliding column (15), and is a plurality of fixed column (10) all with sliding column (15) fixed connection, the upper end of sliding column (15) runs through holding vessel (8) and extends to the external world, the cover is equipped with extension spring (16) on sliding column (15), the both ends of extension spring (16) respectively with holding vessel (8) and sliding column (15) fixed connection.
  4. 4. A control device for high-density fermentation according to claim 1, characterized in that both storage tanks (8) are engraved with graduation marks (17).
  5. 5. The control device for high-density fermentation according to claim 1, wherein a discharging pipe (20) is fixedly installed on the fermentation tank (1), a valve is fixedly installed on the discharging pipe (20), a first sealing plug (19) is installed at the top of the fermentation tank (1) in a plug-in manner, and a second sealing plug (21) is installed at the tops of the two storage tanks (8) in a plug-in manner.
  6. 6. A control device for high-density fermentation according to claim 3, characterized in that sealing rubber pads (18) are fixedly mounted at the bottom ends of the two sliding columns (15) and at the tops of the two discs (9).
  7. 7. The control device for high-density fermentation according to claim 2, wherein a plurality of gears (11), a plurality of worm gears (13) and a plurality of worms (14) are respectively and rotatably connected with a plurality of collecting tanks (6), a plurality of racks (12) are respectively and slidably connected with a plurality of collecting tanks (6), and an output shaft of the motor (2) and the rotating column (3) are respectively and rotatably connected with the fermentation tank (1).

Description

Control device for high-density fermentation Technical Field The utility model belongs to the technical field of high-density fermentation, and particularly relates to a control device for high-density fermentation. Background The fermentation device is special equipment for realizing the biological reaction process of microorganisms, cells or enzymes, and has the core functions of providing proper environmental conditions for biological reaction and finally efficiently producing target products. Most of the control devices for high-density fermentation have some disadvantages when in use, such as that when materials are fermented, workers are required to manually add additives to ensure the activity of microorganisms, the manual addition cannot control the quantity of the additives, so that the addition of the additives can excessively influence the fermentation effect of the materials, and meanwhile, the materials are inconvenient to sample and check when being fermented, so that the workers cannot timely master the fermentation process of the materials, and the fermentation effect is influenced. In view of this, we propose a control device for high-density fermentation. Disclosure of utility model The present utility model is directed to a control device for high-density fermentation, so as to solve the problems set forth in the background art. In view of the above, the present utility model provides a control device for high-density fermentation, including a fermentation tank, further including: The motor is fixedly arranged at the top of the fermentation tank, an output shaft of the motor penetrates through the fermentation tank and is fixedly provided with a rotating column, a plurality of stirring blades are fixedly arranged on the rotating column, sampling pipes are inserted into the fermentation tank, a plurality of collecting tanks are arranged in the sampling pipes, and sliding plates are slidably arranged in the collecting tanks; The two storage tanks are fixedly arranged at the top of the fermentation tank, the discs are fixedly arranged in the two storage tanks, and a plurality of fixing columns are inserted and arranged in the two discs; The power assembly is positioned in the sampling tube and used for driving the sliding plates to slide; the two groups of driving assemblies are respectively positioned in the two storage tanks and are respectively used for driving the fixed columns to slide. In the technical scheme, when materials are required to be fermented, the materials are poured into a fermentation tank, a plurality of fixing columns can be driven to move upwards through a driving assembly, after the fixing columns are separated from a disc, additives in a storage tank can enter the disc, then the additives enter the fermentation tank through the disc, when the quantity of the additives is enough, the fixing columns can be driven to move downwards through the driving assembly, and finally the fixing columns are inserted into the disc, so that the additives can not continuously enter the fermentation tank, a motor is started, the motor is electrified to work and drives a rotating column to rotate, the rotating column drives a plurality of stirring blades to rotate, and the stirring blades can uniformly mix the materials with the additives, so that the materials can be fermented normally; When the material needs to be sampled, firstly, the sampling tube is inserted into the fermentation tank, the power assembly is arranged, the sliding plates can be driven to slide downwards, then fermented material respectively enters the collecting tanks, the sliding plates can be driven to slide upwards through the reverse operation, then the sampling tube is taken out, the materials of different layers in the fermentation tank can be sampled and checked, and the fermentation process is controlled by staff conveniently. In the above technical solution, further, the power assembly includes: The device comprises a plurality of gears, a plurality of racks, a plurality of sliding plates, a plurality of worm wheels, a plurality of worm shafts, a plurality of worm coaxial connections, a plurality of sampling pipes, a handle, a plurality of sliding plates, a plurality of worm wheels, a plurality of handles and a plurality of sampling pipes, wherein the gears are respectively installed in the plurality of collecting tanks in a rotating mode, the racks are respectively installed on one sides of the gears in a meshed mode, the worm wheels are fixedly installed on one ends of the gears, the worm wheels are respectively fixedly installed on the plurality of worm wheels in a meshed mode, the worm shafts are respectively installed on one sides of the worm wheels in a meshed mode, and the upper ends of the worm shafts penetrate through sampling pipes and are fixedly installed on the handles. In this technical scheme, when needs ferment the material, firstly pour the material into the fermentation cylinder in, then t