CN114164099A - Microorganism culture device based on carbon neutralization and use method thereof - Google Patents

Abstract

The invention discloses a microorganism culture device based on carbon neutralization and a use method thereof, and the microorganism culture device based on carbon neutralization comprises a protective box and also comprises: the device comprises a breeding box, wherein an upright post is fixedly arranged inside the protection box, a plurality of supporting plates are slidably sleeved outside the upright post, the lateral wall of each supporting plate is fixedly provided with the breeding box for breeding microorganisms, a plurality of biological light supplement lamps are arranged inside the protection box, and an air suction bottle for absorbing carbon dioxide is arranged outside the protection box; the stirring drum is arranged on the side wall of the protective box, a feeding pipe communicated with the interior of the protective box is arranged at the bottom end of the stirring drum, a movable block is arranged on the inner side wall of the protective box, and a magnet block for adsorbing the movable block is arranged outside the protective box; microorganism breeding device based on carbon neutralization carries out ventilation to the microorganism of breeding incasement portion through inlet fan, and the bottle of breathing in absorbs the carbon dioxide that microorganism produced.

Description

Microorganism culture device based on carbon neutralization and use method thereof

Technical Field

The invention relates to the field of microorganism culture equipment, in particular to a microorganism culture device based on carbon neutralization and a use method thereof.

Background

In the process of culturing the microorganisms, the microorganisms need to be in a proper environment to perform normal life activities such as growth and reproduction, and therefore, the culture device is required to be used for controlling the environmental factors of the microorganisms; carbon neutralization means that enterprises, groups or individuals counteract carbon dioxide emission generated by themselves through forms of energy conservation, emission reduction and the like, so that zero emission of carbon dioxide is realized, and the problem of global warming can be solved to a great extent by the carbon neutralization mode. Therefore, in the case of microbial cultivation, it is necessary to absorb carbon dioxide emitted from the microorganisms.

The existing microorganism culture device only carries out inoculation and propagation on microorganisms, does not treat carbon dioxide discharged by the microorganisms, does not meet relevant standards of carbon neutralization, is inconvenient to operate when in use, needs a hose or a test tube to add nutrient solution, is not thorough in test tube disinfection, is easy to pollute a culture medium in use, and affects normal culture of the microorganisms.

Disclosure of Invention

The invention aims to provide a microorganism culture device based on carbon neutralization and a using method thereof, so as to solve the problems in the background technology.

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

a microorganism breeding device based on carbon neutralization, includes the guard box, still includes:

the device comprises a breeding box, wherein an upright post is fixedly arranged inside the protection box, a plurality of supporting plates are slidably sleeved outside the upright post, the lateral wall of each supporting plate is fixedly provided with the breeding box for breeding microorganisms, a plurality of biological light supplement lamps are arranged inside the protection box, and an air suction bottle for absorbing carbon dioxide is arranged outside the protection box;

the stirring drum is arranged on the side wall of the protective box, a feeding pipe communicated with the interior of the protective box is arranged at the bottom end of the stirring drum, a movable block is arranged on the inner side wall of the protective box, the feeding pipe is arranged on the movable block, and a magnet block for adsorbing the movable block is arranged outside the protective box;

the air inlet mechanism is arranged outside the protective box and can ventilate and exchange air for microorganisms in the culture box;

the supporting mechanism is arranged inside the protective box and can support and fix a plurality of cultivation boxes placed inside the protective box.

On the basis of the technical scheme, the invention also provides the following optional technical scheme:

in one alternative: air inlet mechanism includes seal box, inlet fan, double-shaft motor and heater strip, the seal box is fixed to be set up at the protective box top, the seal box outside is provided with double-shaft motor, double-shaft motor rotates the end and penetrates the seal box inside and is provided with inlet fan, the seal box lateral wall is provided with intake pipe and outlet duct, the heater strip sets up at the seal box inner wall and is located the inlet fan below.

In one alternative: the supporting mechanism comprises a spring, a baffle, a lifting plate and a driving assembly capable of driving the lifting plate to move up and down, the spring is arranged between the cultivation boxes, one end of the lifting plate is slidably sleeved on the stand column, a plurality of reset springs are arranged on the lifting plate, one end of each reset spring is provided with the baffle, and the baffle is in contact with the bottom of the cultivation box.

In one alternative: drive assembly includes dwang, screw thread piece, transfer line and slider, the slider slides and sets up inside the lifter plate, the dwang sets up in protective housing inner chamber bottom, the cover is equipped with two screw thread pieces on the dwang, the transfer line both ends are articulated mutually with screw thread piece and slider respectively, two transfer line central point puts mutually and articulates.

In one alternative: the lifting plate is internally provided with a square groove, a sliding rod is fixedly arranged in the square groove, and the two sliding blocks are all slidably sleeved on the sliding rod.

In one alternative: the air suction bottle is provided with an exhaust pipe and a connecting pipe, and one end of the connecting pipe penetrates into the protective box.

In one alternative: the use method of the microorganism culture device based on carbon neutralization comprises the following steps:

1) inoculating with microorganisms: sterilizing the bacteria receiving environment and related personnel, brushing and sterilizing the protective box and the culture box, and putting a substrate for culturing microorganisms and microorganism strains into the culture box;

2) and (3) microorganism culture: placing a plurality of cultivation boxes in the protective box in sequence, placing springs between the cultivation boxes for separation, performing proper illumination on microorganisms through a biological light supplement lamp according to the types of the microorganisms, and sequentially adding nutrient solution into the cultivation boxes through a mixing drum;

3) ventilation of microorganisms: introducing air into the protective box through the air inlet mechanism, controlling the environmental temperature of microorganism growth and the PH value of the culture medium, opening the heating wire when the temperature in the protective box is lower, and introducing warm air into the protective box for heating; carbon dioxide generated by the microorganisms enters the air suction bottle through the connecting pipe to absorb the carbon dioxide.

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

microorganism breeding device based on in carbon and pass through double-shaft motor and drive inlet fan and montant rotation simultaneously, inlet fan carries out ventilation to the microorganism of breeding incasement portion, the outside puddler of montant stirs the nutrient solution that the microorganism was bred and is used, accelerate the speed of preparation of nutrient solution, the carbon dioxide that the bottle of breathing in produced the microorganism is absorbed, offset the carbon dioxide that microorganism self produced, realize the zero release of carbon dioxide, the magnet piece can drive movable block and inlet pipe up-and-down motion through magnetism, thereby add a plurality of breed casees with the nutrient solution in proper order, high durability and convenient use, the pollution of culture medium has effectively been avoided.

Drawings

Fig. 1 is a schematic structural diagram of a microorganism culture device based on carbon neutralization.

Fig. 2 is a cross-sectional view of a protective enclosure in a carbon neutralization-based microbial breeding apparatus.

Fig. 3 is a schematic structural diagram of a lifting plate in a microorganism culture device based on carbon neutralization.

Fig. 4 is a schematic structural diagram of a movable plate in the microorganism culture device based on carbon neutralization.

Fig. 5 is a cross-sectional view of a mixing drum in a microorganism culture apparatus based on carbon neutralization.

Notations for reference numerals: 1-protective box, 101-mounting groove, 2-breeding box, 3-support plate, 4-upright post, 5-spring, 6-biological light supplement lamp, 7-baffle, 8-reset spring, 9-lifting plate, 901-square groove, 10-sliding rod, 11-thread block, 111-thread hole, 12-rotating rod, 121-external thread, 13-driving rod, 14-air suction bottle, 15-sliding block, 16-exhaust pipe, 17-magnet block, 18-pull ring, 19-movable block, 20-feeding pipe, 21-discharging pipe, 22-stirring barrel, 23-vertical rod, 24-mounting plate, 25-connecting pipe, 26-stirring rod, 27-heating wire, 28-driving belt, 29-belt pulley, 3-supporting plate, 4-upright post, 23-vertical rod, 24-mounting plate, 25-connecting pipe, 26-stirring rod, 27-heating wire, 28-driving belt, 29-belt pulley, 3-biological light supplement lamp, 7-baffle, 9-reset spring, 9-lifting plate, 901-square groove, 10-sliding rod, 11-thread block, 111-threaded block, 12-rotating rod, 21-rotating rod, 23-external thread, 24-stirring barrel, and 24-stirring barrel, 30-double-shaft motor, 31-seal box, 32-air inlet fan, 33-air inlet pipe, 34-air outlet pipe, 35-rocker and 36-cover plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 4, a carbon neutralization-based microorganism culture apparatus provided for one embodiment of the present invention includes a protective box 1, and further includes:

the biological light supplement device comprises a cultivation box 2, a cover plate 36 is arranged at the top of the protection box 1, a stand column 4 is fixedly arranged inside the protection box 1, a plurality of support plates 3 are slidably sleeved outside the stand column 4, the cultivation box 2 for cultivating microorganisms is fixedly arranged on the side wall of each support plate 3, a plurality of biological light supplement lamps 6 are arranged inside the protection box 1, an air suction bottle 14 for absorbing carbon dioxide is arranged outside the protection box 1, and chemicals for absorbing carbon dioxide, such as calcium carbonate or soda lime, are arranged inside the air suction bottle 14 and are unlimited in type;

the stirring cylinder 22 is arranged on the side wall of the protective box 1, the mounting plate 24 is arranged on the side wall of the protective box 1, the stirring cylinder 22 is fixedly arranged on the mounting plate 24, a vertical rod 23 is arranged in the stirring cylinder 22 in a rotating mode, a stirring rod 26 used for stirring nutrient solution is arranged outside the vertical rod 23, a discharging pipe 21 and a feeding pipe 20 are arranged at the bottom end of the stirring cylinder 22, two corresponding mounting grooves 101 are formed in the side wall of the protective box 1, a movable block 19 and a magnet block 17 are arranged on the mounting grooves 101, the magnet block 17 can drive the movable block 19 to move upwards through magnetism, a pull ring 18 is arranged on the side wall of the magnet block 17, the feeding pipe 20 is arranged on the movable block 19, one end of the discharging pipe 21 penetrates into the inner part 2 of the protective box 1 and is communicated with the feeding pipe 20, the feeding pipe 20 is made of a plastic hose, and a switch valve is arranged on the discharging pipe 21;

the air inlet mechanism is arranged outside the protective box 1 and can ventilate and exchange the microorganisms in the culture box 2;

the supporting mechanism is arranged inside the protective box 1 and can support and fix a plurality of cultivation boxes 2 placed inside the protective box 1.

Microorganism breeding device based on carbon neutralization carries out ventilation to the microorganism of breeding 2 insides through mechanism of admitting air, the carbon dioxide that bottle 14 of breathing in produced the microorganism absorbs, offset the carbon dioxide of microorganism self production, realize the zero release of carbon dioxide, magnet block 17 can drive movable block 19 through magnetism upward movement, movable block 19 drives inlet pipe 20 up-and-down motion, thereby add a plurality of breed casees 2 with the nutrient solution in proper order, high durability and convenient use, the pollution of culture medium has effectively been avoided, as an embodiment, the upper and lower position is only a mode of arranging about each part that gives in the drawing, specific position is set for according to concrete needs.

As shown in fig. 1, as a preferred embodiment of the present invention, the air intake mechanism includes a sealing box 31, an intake fan 32, a biaxial motor 30 and a heating wire 27, the sealing box 31 is fixedly arranged at the top of the protective box 1, the double-shaft motor 30 is arranged outside the sealing box 31, the rotating end of the double-shaft motor 30 penetrates the inside of the hermetic container 31 and is provided with an intake fan 32, the side wall of the sealing box 31 is provided with an air inlet pipe 33 and an air outlet pipe 34, the heating wire 27 is arranged on the inner wall of the sealing box 31 and is positioned below the air inlet fan 32, the double-shaft motor 30 drives the air inlet fan 32 to rotate, the air inlet fan 32 sucks the outside air into the protective box 1 and is matched with the heating wire 27 for use, can produce hot-blast and heat to protective housing 1 is inside, intake pipe 33 can external disinfection bottle or degassing unit, prevents that external bacterium from getting into protective housing 1 inside, pollutes the culture medium of breeding 2 insides.

As shown in fig. 1, as a preferred embodiment of the present invention, one end of the vertical rod 23 penetrates through the mixing drum 3 and is provided with a belt pulley 29, the rotating end of the dual-shaft motor 30 is connected with the belt pulley 29 through a transmission belt 28, when the nutrient solution is prepared, the dual-shaft motor 30 can simultaneously drive the vertical rod 23 to rotate when the dual-shaft motor 30 and the air intake fan 32 perform ventilation, and the stirring rod 26 outside the vertical rod 23 stirs the nutrient solution used for microorganism cultivation, so as to prevent the nutrient solution from solidifying and accelerate the preparation speed of the nutrient solution.

As shown in fig. 1, as a preferred embodiment of the present invention, the supporting mechanism includes a spring 5, a baffle 7, a lifting plate 9 and a driving assembly capable of driving the lifting plate 9 to move up and down, the springs 5 are disposed between the cultivation boxes 2, one end of the lifting plate 9 is slidably sleeved on the column 4, the lifting plate 9 is provided with a plurality of return springs 8, one end of each return spring 8 is provided with the baffle 7, the baffle 7 contacts with the bottoms of the cultivation boxes 2, the baffle 7 and the springs 5 support the cultivation boxes 2, the cultivation boxes 2 are spaced apart by the springs 5, and the bottoms of the cultivation boxes 2 and the cover plate 36 are provided with biological light supplement lamps 6.

As shown in fig. 1, as a preferred embodiment of the present invention, the driving assembly includes a rotating rod 12, a thread block 11, a transmission rod 13 and a sliding block 15, the sliding block 15 is slidably disposed inside the lifting plate 9, the rotating rod 12 is disposed at the bottom end of the inner cavity of the protective box 1, the thread block 11 is sleeved on the rotating rod 12 through a threaded hole 111 formed therein, an external thread 121 matched with the threaded hole 111 is formed on the rotating rod 12, two ends of the transmission rod 13 are respectively hinged to the thread block 11 and the sliding block 15, the central positions of the two transmission rods 13 are hinged to each other, one end of the rotating rod 12 penetrates through the protective box 1 and is provided with a rocker 35, the rocker 35 drives the rotating rod 12 to rotate, the rotating rod 12 drives the two thread blocks 11 to approach or separate from each other, the thread block 11 drives the lifting plate 9 to move up and down through the cooperation of the transmission rod 13 and the sliding block 15, the lifting plate 9 upwardly extrudes the cultivation box 2 through the baffle 7, thereby adjusting the space between the cultivation boxes 2, and when the cultivation boxes 2 are mutually closed, the anaerobic bacteria can be cultivated.

As shown in fig. 3, as a preferred embodiment of the present invention, a square groove 901 is formed in the lifting plate 9, a sliding rod 10 is fixedly disposed in the square groove 901, and both the two sliding blocks 15 are slidably sleeved on the sliding rod 10.

As shown in fig. 1, as a preferred embodiment of the present invention, the air suction bottle 14 is provided with an air discharge pipe 16 and a connection pipe 25, and one end of the connection pipe 25 penetrates into the interior of the protection box 1.

As shown in fig. 1, as a preferred embodiment of the present invention, a method for using a microorganism culture apparatus based on carbon neutralization comprises the following steps:

1) inoculating with microorganisms: sterilizing the bacteria receiving environment and related personnel, brushing and sterilizing the protective box 1 and the culture box 2, and putting a substrate for culturing microorganisms and microorganism strains into the culture box 2;

2) and (3) microorganism culture: a plurality of cultivation boxes 2 are sequentially placed in the protection box 1, springs 5 are placed between the cultivation boxes 2 for separation, microorganisms are appropriately illuminated through biological light supplement lamps 6 according to the types of the microorganisms, and nutrient solution is sequentially added into the cultivation boxes 2 through a mixing drum 22;

3) ventilation of microorganisms: air is introduced into the protective box 1 through the air inlet mechanism, the environmental temperature of microorganism growth and the PH value of the culture medium are controlled, when the temperature in the protective box 1 is low, the heating wire 27 is opened, and warm air is introduced into the protective box 1 for heating; carbon dioxide generated by the microorganisms enters the inside of the inhalation bottle 14 through the connection tube 25, and is absorbed.

The embodiment of the invention provides a carbon-neutralization-based microorganism culture device and a use method thereof, wherein a double-shaft motor 30 drives an air inlet fan 32 and a vertical rod 23 to rotate, the air inlet fan 32 ventilates microorganisms in a culture box 2, a stirring rod 26 outside the vertical rod 23 stirs nutrient solution used for microorganism culture, the preparation speed of the nutrient solution is increased, an air suction bottle 14 absorbs carbon dioxide generated by the microorganisms, the carbon dioxide generated by the microorganisms is counteracted, and zero emission of the carbon dioxide is realized.

The above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present disclosure, and all the changes or substitutions should be covered within the scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims (7)

1. The utility model provides a microorganism breeding device based on carbon neutralization, includes the guard box, its characterized in that still includes:

the device comprises a breeding box, wherein an upright post is fixedly arranged inside the protection box, a plurality of supporting plates are slidably sleeved outside the upright post, the lateral wall of each supporting plate is fixedly provided with the breeding box for breeding microorganisms, a plurality of biological light supplement lamps are arranged inside the protection box, and an air suction bottle for absorbing carbon dioxide is arranged outside the protection box;

the stirring drum is arranged on the side wall of the protective box, a feeding pipe communicated with the interior of the protective box is arranged at the bottom end of the stirring drum, a movable block is arranged on the inner side wall of the protective box, the feeding pipe is arranged on the movable block, and a magnet block for adsorbing the movable block is arranged outside the protective box;

the air inlet mechanism is arranged outside the protective box and can ventilate and exchange air for microorganisms in the culture box;

the supporting mechanism is arranged inside the protective box and can support and fix a plurality of cultivation boxes placed inside the protective box.

2. The carbon neutralization-based microorganism culture device according to claim 1, wherein the air inlet mechanism comprises a seal box, an air inlet fan, a double-shaft motor and a heating wire, the seal box is fixedly arranged at the top of the protective box, the double-shaft motor is arranged outside the seal box, the rotating end of the double-shaft motor penetrates into the interior of the seal box and is provided with the air inlet fan, the side wall of the seal box is provided with an air inlet pipe and an air outlet pipe, and the heating wire is arranged on the inner wall of the seal box and is positioned below the air inlet fan.

3. The carbon neutralization-based microorganism culture device according to claim 1, wherein the support mechanism comprises a spring, a baffle plate, a lifting plate and a driving component capable of driving the lifting plate to move up and down, the spring is arranged between the culture boxes, one end of the lifting plate is slidably sleeved on the upright post, the lifting plate is provided with a plurality of return springs, one end of each return spring is provided with the baffle plate, and the baffle plate is in contact with the bottoms of the culture boxes.

4. The carbon neutralization-based microorganism culture device according to claim 3, wherein the driving assembly comprises a rotating rod, a thread block, a transmission rod and a sliding block, the sliding block is arranged inside the lifting plate in a sliding manner, the rotating rod is arranged at the bottom end of the inner cavity of the protective box, the rotating rod is sleeved with two thread blocks, two ends of the transmission rod are respectively hinged with the thread block and the sliding block, and the center positions of the two transmission rods are hinged with each other.

5. The carbon neutralization-based microorganism culture device according to claim 4, wherein a square groove is formed in the lifting plate, a sliding rod is fixedly arranged in the square groove, and both the sliding blocks are slidably sleeved on the sliding rod.

6. The carbon neutralization-based microorganism culture apparatus according to claim 1, wherein the air suction bottle is provided with an exhaust pipe and a connecting pipe, and one end of the connecting pipe penetrates into the interior of the protective box.

7. Use of a carbon neutralization-based microorganism culture apparatus according to any one of claims 1 to 6, comprising the steps of:

1) inoculating with microorganisms: sterilizing the bacteria receiving environment and related personnel, brushing and sterilizing the protective box and the culture box, and putting a substrate for culturing microorganisms and microorganism strains into the culture box;

2) and (3) microorganism culture: placing a plurality of cultivation boxes in the protective box in sequence, placing springs between the cultivation boxes for separation, performing proper illumination on microorganisms through a biological light supplement lamp according to the types of the microorganisms, and sequentially adding nutrient solution into the cultivation boxes through a mixing drum;

3) ventilation of microorganisms: introducing air into the protective box through the air inlet mechanism, controlling the environmental temperature of microorganism growth and the PH value of the culture medium, opening the heating wire when the temperature in the protective box is lower, and introducing warm air into the protective box for heating; carbon dioxide generated by the microorganisms enters the air suction bottle through the connecting pipe to absorb the carbon dioxide.

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