CN216890983U

CN216890983U - Temperature-adjustable microbial fermentation tank

Info

Publication number: CN216890983U
Application number: CN202121878739.4U
Authority: CN
Inventors: 刘军平
Original assignee: Ningxia Pushiteshan Technology Co ltd
Current assignee: Ningxia Pushiteshan Technology Co ltd
Priority date: 2021-08-12
Filing date: 2021-08-12
Publication date: 2022-07-05
Anticipated expiration: 2031-08-12

Abstract

The utility model provides a temperature-adjustable microbial fermentation tank, which relates to the technical field of microbial fermentation and comprises a tank body, a fermentation tank and a heat preservation assembly, wherein the fermentation tank is arranged in the tank body, a threaded opening is formed in the top of the fermentation tank, a tank cover is in threaded connection with the inside of the threaded opening, handles are arranged on two sides of the top of the tank cover, a control panel is arranged on the front side of the tank body, and the heat preservation assembly is arranged in the tank body and used for preserving heat of the fermentation tank. This kind of temperature-adjustable's microbial fermentation jar cools down and heats the inside heat preservation chamber of seting up of fermentation jar through being provided with refrigeration piece and electrical heating silk to guarantee that the microorganism can ferment under a suitable temperature, and be provided with the puddler and stir the microorganism in the fermentation jar, thereby guarantee that the microorganism can keep warm evenly.

Description

Temperature-adjustable microbial fermentation tank

Technical Field

The utility model relates to the technical field of microbial fermentation, in particular to a temperature-adjustable microbial fermentation tank.

Background

The microbial fermentation is a process of converting raw materials into products required by human beings through a specific metabolic pathway by using microorganisms under a proper condition, the production level of the microbial fermentation mainly depends on the genetic characteristics and culture conditions of strains, microbial fermentation equipment is diversified, and the temperature plays a key role in the microbial fermentation no matter what equipment, because the strains are very sensitive to the temperature, the temperature influences the cell growth, the biosynthesis direction, the product production amount, the physical properties of fermentation liquor and the like of the microorganisms, so that the production strains are required to be at the optimal growth temperature in the fermentation process to obtain the effects of high quality and high yield.

Most of existing fermentation equipment heats the fermentation equipment through a heating device, so that normal fermentation of microorganisms is guaranteed, but the microorganisms can also generate heat during fermentation, the temperature in the fermentation equipment is overhigh, the existing fermentation equipment is not provided with a cooling device, the temperature in the fermentation equipment is not the optimal temperature for microbial fermentation, and the microbial fermentation is uneven due to the fact that the existing heating device heats and preserves heat of the microorganisms in the fermentation equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the background art and provides a temperature-adjustable microbial fermentation tank, wherein a heat preservation cavity arranged in the fermentation tank is cooled and heated by a refrigerating sheet and an electric heating wire, so that the microbes can be fermented at a proper temperature, and the microbes in the fermentation tank are stirred by a stirring rod, so that the microbes can be uniformly preserved.

In order to achieve the aim, the utility model provides the following technical scheme that the temperature-adjustable microbial fermentation tank comprises a tank body, a fermentation tank and a heat insulation component;

a fermentation tank is arranged in the tank body, a threaded opening is formed in the top of the fermentation tank, a tank cover is connected to the inside of the threaded opening in a threaded manner, handles are arranged on two sides of the top of the tank cover, and a control panel is arranged on the front side of the tank body;

the inside heat preservation subassembly that is provided with of box is used for right the fermentation cylinder keeps warm.

Further, the heat preservation subassembly is including heating cabinet, refrigeration case and heat preservation chamber, inside heating cabinet and the refrigeration case of being provided with of box, heating cabinet and refrigeration case are located box inner wall both sides respectively, water has all been deposited to heating cabinet and the inside of refrigeration incasement, the heat preservation chamber has been seted up to fermentation cylinder inside.

Further, the inside electric heating wire that is provided with of heating cabinet, the inside water pump that is provided with of heating cabinet, water pump one side is connected with the raceway, raceway one end link up with the heat preservation chamber mutually, fermentation tank bottom one side is connected with the solenoid valve, solenoid valve one side is connected with the back flow, back flow one end links up with the heating cabinet mutually, control panel respectively with electric heating wire, water pump and solenoid valve electric connection.

Further, the inside refrigeration piece that is provided with of refrigeration incasement portion, the inside suction pump that is provided with of refrigeration incasement portion, suction pump one side is connected with the refrigeration pipe, refrigeration pipe one end link up with the heat preservation chamber mutually, fermentation tank bottom one side is connected with electric valve, electric valve one side is connected with the wet return, wet return one end link up with the refrigeration case mutually, control panel respectively with refrigeration piece, suction pump and electric valve electric connection.

Further, the inside temperature sensor that is provided with of fermentation cylinder, the cover top is provided with the motor, motor one side drive is connected with the dwang, the dwang surface all is provided with a plurality of puddlers, control panel respectively with temperature sensor and motor electric connection, temperature sensor's signal output part control panel's signal reception end signal connection.

Furthermore, the top of the box body is provided with an opening, and one end of the fermentation tank penetrates through the opening and protrudes out of the top of the box body.

The utility model provides a temperature-adjustable microbial fermentation tank, which has the following beneficial effects:

1. the utility model has the advantages of, cool down and heat through being provided with the heat preservation chamber that refrigeration piece and electrical heating silk set up to fermentation tank inside, rethread heat preservation chamber cools down or heats the microorganism in the fermentation tank to guarantee that the microorganism can ferment under an appropriate temperature.

2. Secondly, be provided with the dwang and drive the puddler and rotate for microorganism in the fermentation cylinder is receiving heat preservation chamber heating or when cooling fermentation, and the puddler can stir the microorganism, thereby ensures that the microorganism can keep warm evenly.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an overall cross-sectional view of the present invention.

FIG. 3 is a schematic view of the structure of a fermenter according to the present invention.

In FIGS. 1-3: 1-a box body; 101-a fermentation tank; 102-a threaded port; 103-can lid; 104-a handle; 105-a control panel; 2-heating the box; 201-a refrigeration box; 202-heat preservation cavity; 3-an electric heating wire; 301-a water pump; 302-water conveying pipe; 303-an electromagnetic valve; 304-a return conduit; 4-refrigerating sheet; 401-water pump; 402-a refrigeration pipe; 403-an electrically operated valve; 404-a water return pipe; 5-a temperature sensor; 501-a motor; 502-rotating rods; 503-stirring rod.

Detailed Description

The embodiment is as follows:

referring to figures 1-3 of the drawings,

the temperature-adjustable microbial fermentation tank provided by the embodiment comprises a tank body 1, a fermentation tank 101 and a heat preservation assembly;

a fermentation tank 101 is arranged in the tank body 1, a threaded opening 102 is formed in the top of the fermentation tank 101, a tank cover 103 is connected to the interior of the threaded opening 102 in a threaded manner, handles 104 are arranged on two sides of the top of the tank cover 103, and a control panel 105 is arranged on the front side of the tank body 1;

the inside heat preservation subassembly that is provided with of box 1 for keep warm to fermentation cylinder 101.

The fermentation tank 101 is made of carbon steel, the carbon steel has the advantages of good heat conductivity, corrosion resistance and the like, when the heat preservation cavity 202 preserves the heat of the interior of the fermentation tank 101, the fermentation tank 101 can conduct the temperature in the heat preservation cavity 202 to the fermentation tank 101, and therefore microorganisms in the fermentation tank 101 can be fermented at a proper temperature on one side;

for the fabrication of the fermentation tank 101, a silver material with a high thermal conductivity should be selected, and then a carbon steel material with a low thermal conductivity should be selected, the thermal conductivity of the silver material can be as high as 429W/mK, while the thermal conductivity of the carbon steel can only reach 45W/mK, but due to the large volume of the fermentation tank 101, if the fermentation tank 101 is fabricated by using the silver material, the fabrication cost is too high, while the carbon steel is cheaper than the silver material, and the thermal conductivity of the carbon steel material is enough for the fermentation tank 101.

Further, the heat preservation subassembly is including heating cabinet 2, refrigeration case 201 and heat preservation chamber 202, 1 inside heating cabinet 2 and the refrigeration case 201 of being provided with of box, heating cabinet 2 and refrigeration case 201 are located 1 inner wall both sides of box respectively, heating cabinet 2 and the inside water of all depositing of refrigeration case 201, fermentation cylinder 101 is inside to have seted up heat preservation chamber 202, when using fermentation cylinder 101 to ferment the microorganism, can heat or cool down heat preservation chamber 202 through heating cabinet 2 and refrigeration case 201, thereby keep warm to the microorganism in the fermentation cylinder 101.

Further, an electric heating wire 3 is arranged inside the heating box 2, a water pump 301 is arranged inside the heating box 2, one side of the water pump 301 is connected with a water pipe 302, one end of the water pipe 302 is communicated with the heat preservation cavity 202, one side of the bottom of the fermentation tank 101 is connected with an electromagnetic valve 303, one side of the electromagnetic valve 303 is connected with a return pipe 304, one end of the return pipe 304 is communicated with the heating box 2, and the control panel 105 is respectively electrically connected with the electric heating wire 3, the water pump 301 and the electromagnetic valve 303, when the heating box 2 is used, the electric heating wire 3 is started through the control panel 105, so that the electric heating wire 3 heats water in the heating box 2 for a certain time, the water pump 301 is restarted to pump hot water in the heating box 2 and convey the hot water into the heat preservation cavity 202 from the water pipe 302, so that the hot water transfers the temperature to the inside of the fermentation tank 101, thereby ensuring that microorganisms can be normally fermented, when the fermentation tank 101 does not need to be heated, the water pump 301 is closed through the control panel 105 and the electromagnetic valve 303 is started, so that the hot water in the holding chamber 202 is returned from the return pipe 304 to the heating tank 2 through the solenoid valve 303.

Further, the inside of the refrigeration box 201 is provided with the refrigeration piece 4, the inside of the refrigeration box 201 is provided with the water suction pump 401, one side of the water suction pump 401 is connected with the refrigeration pipe 402, one end of the refrigeration pipe 402 is communicated with the heat preservation cavity 202, one side of the bottom of the fermentation tank 101 is connected with the electric valve 403, one side of the electric valve 403 is connected with the water return pipe 404, one end of the water return pipe 404 is communicated with the refrigeration box 201, the control panel 105 is respectively electrically connected with the refrigeration piece 4, the water suction pump 301 and the electric valve 403, when the refrigeration box 201 is used, the refrigeration piece 4 is started through the control panel 105 to refrigerate the water in the refrigeration box 201 for a certain time, the water suction pump 401 is restarted to extract the heat preservation water in the refrigeration box 201 and convey the heat preservation water into the fermentation tank 202 from the refrigeration pipe 402, so that the frozen water transfers the temperature into the fermentation tank 101, thereby ensuring that the microorganisms can normally ferment, when the fermentation tank 101 does not need to be cooled, the electric valve 403 is closed through the control panel 105, so that the frozen water in the heat preservation chamber 202 flows back to the refrigeration box 201 from the water return pipe 404 through the electric valve 403.

Furthermore, a temperature sensor 5 is arranged inside the fermentation tank 101, a motor 501 is arranged at the top of the tank cover 103, a rotating rod 502 is connected to one side of the motor 501 in a driving manner, a plurality of stirring rods 503 are arranged on the outer surface of the rotating rod 502, the control panel 105 is respectively and electrically connected with the temperature sensor 5 and the motor 501, a signal receiving end of the signal output end of the temperature sensor 5 is in signal connection with a signal receiving end of the control panel 105, when the microorganisms are fermented in the fermenter 101, the temperature of the microorganisms in the fermenter 101 is sensed by the temperature sensor 5, then the output signal is sent to the control panel 105 to automatically control the refrigeration plate 4 or the electric heating wire 3 to start, so that the microorganism can be ensured to ferment at a proper temperature, and when the temperature in the fermentation tank 101 is reduced or heated through the heat preservation cavity 202, can drive dwang 502 through motor 501 and drive puddler 503 slow rotation for the microorganism can evenly receive cooling or heating in the fermentation cylinder.

Furthermore, the top of the box body 1 is provided with an opening, one end of the fermentation tank 101 penetrates through the opening to protrude out of the top of the box body 1, when the device is used, the lifting handle 104 is grasped to rotate the tank cover 103 to rotate with the threaded opening 102 in a threaded manner, then the tank cover 103 is separated from the fermentation tank 101, microorganisms are introduced into the fermentation tank 101, and then the tank cover 103 is rotated to be in threaded connection with the threaded opening 102, so that the tank cover 103 is fixedly connected with the fermentation tank 101.

When the utility model is used, firstly, the lifting handle 104 is grasped to rotate the tank cover 103 to rotate with the threaded port 102, then the tank cover 103 is separated from the fermentation tank 101, then microorganisms are led into the fermentation tank 101, then the tank cover 103 is rotated to be in threaded connection with the threaded port 102, so that the tank cover 103 is fixedly connected with the fermentation tank 101, when the microorganisms are fermented in the fermentation tank 101, the temperature of the microorganisms in the fermentation tank 101 is sensed through the temperature sensor 5, when the detected temperature is overhigh, the temperature sensor 5 outputs a signal to the control panel 105 to start the refrigerating sheet 4, when the refrigerating sheet 4 refrigerates the water in the refrigerating tank 201 for a certain time, the water suction pump 401 is started to pump the frozen water in the refrigerating tank 201 to be conveyed into the heat preservation cavity 202 from the refrigerating pipe 402, so that the frozen water transmits the temperature to the interior of the fermentation tank 101, thereby ensuring that the microorganisms can be normally fermented, when the fermentation tank 101 is not required to be cooled, the refrigeration sheet 4 is closed through the control panel 105 and the electric valve 403 is started, so that frozen water in the heat preservation cavity 202 flows back into the refrigeration box 201 from the water return pipe 404 through the electric valve 403, when the temperature sensor 5 detects that the temperature in the fermentation tank 101 is over-low, the temperature sensor 5 outputs a signal to the control panel 105 to start the electric heating wire 3, so that the electric heating wire 3 heats water in the heating box 2 for a certain time, the water pump 301 is started again to extract hot water in the heating box 2 and convey the hot water into the heat preservation cavity 202 from the water conveying pipe 302, so that the temperature of the hot water is transferred into the fermentation tank 101, and therefore, the normal fermentation of microorganisms can be ensured, when the fermentation tank 101 is not required to be heated, the water pump 301 is closed through the control panel 105 and the electromagnetic valve 303 is started, so that the hot water in the heat preservation cavity 202 flows back into the heating box 2 from the return pipe 304 through the electromagnetic valve 303, and when the fermentation tank 101 is cooled or heated through the heat preservation cavity 202, can drive dwang 502 through motor 501 and drive puddler 503 slow rotation for the microorganism can evenly receive cooling or heating in the fermentation cylinder, the device cools down and heats the inside heat preservation chamber 202 of seting up of fermentation cylinder 101 through being provided with refrigeration piece 4 and electric heating wire 3, thereby guarantees that the microorganism can ferment under a suitable temperature, and is provided with puddler 503 and stirs the microorganism in the fermentation cylinder 101, thereby guarantees that the microorganism can keep warm evenly.

Claims

1. A microbial fermentation tank capable of adjusting temperature is characterized by comprising a tank body, a fermentation tank and a heat insulation component;

2. The temperature-adjustable microbial fermentation tank according to claim 1, wherein the heat preservation assembly comprises a heating box, a refrigerating box and a heat preservation cavity, the heating box and the refrigerating box are arranged inside the tank body and are respectively positioned on two sides of the inner wall of the tank body, water is stored inside the heating box and the refrigerating box, and the heat preservation cavity is formed inside the fermentation tank.

3. The microbial fermentation tank with the adjustable temperature of claim 2, wherein an electric heating wire is arranged inside the heating tank, a water pump is arranged inside the heating tank, one side of the water pump is connected with a water delivery pipe, one end of the water delivery pipe is communicated with the heat preservation cavity, one side of the bottom of the fermentation tank is connected with a solenoid valve, one side of the solenoid valve is connected with a return pipe, one end of the return pipe is communicated with the heating tank, and the control panel is respectively and electrically connected with the electric heating wire, the water pump and the solenoid valve.

4. The microbial fermentation tank with the adjustable temperature of claim 2, wherein a refrigeration piece is arranged inside the refrigeration box, a water suction pump is arranged inside the refrigeration box, one side of the water suction pump is connected with a refrigeration pipe, one end of the refrigeration pipe is communicated with the heat preservation cavity, one side of the bottom of the fermentation tank is connected with an electric valve, one side of the electric valve is connected with a water return pipe, one end of the water return pipe is communicated with the refrigeration box, and the control panel is respectively electrically connected with the refrigeration piece, the water suction pump and the electric valve.

5. The temperature-adjustable microbial fermentation tank of claim 1, wherein a temperature sensor is arranged inside the fermentation tank, a motor is arranged on the top of the tank cover, a rotating rod is connected to one side of the motor in a driving manner, a plurality of stirring rods are arranged on the outer surface of the rotating rod, the control panel is electrically connected with the temperature sensor and the motor respectively, and the signal receiving end of the signal output end of the temperature sensor is connected with the signal receiving end of the control panel.

6. The temperature-adjustable microbial fermentation tank of claim 1, wherein an opening is formed in the top of the tank body, and one end of the fermentation tank protrudes out of the top of the tank body through the opening.