CN216303810U - Microbial cultivation gas release device - Google Patents

Abstract

The utility model provides a microbial cultivation gas release device, which relates to the technical field of microorganisms and comprises a base, a cultivation chamber, a feeding port, a sealing cover, a discharging port, a metering pump, a support frame A and a culture dish. According to the utility model, when a worker turns on a water pump to spray the nutrient in the nutrient water tank onto the surface of the microorganism in the water of the culture chamber from a water spray head through a water pipe, the servo motor is turned on to drive the stirring blade A and the stirring blade B on the outer side of the stirring rod to stir the microorganism and the nutrient in the water, so that the microorganism and the nutrient are uniformly mixed, and simultaneously, the worker turns on the electric heating pipe to slightly heat and keep the temperature of the microorganism cultured in the culture chamber at a proper value.

Description

Microbial cultivation gas release device

Technical Field

The utility model relates to the technical field of microorganisms, in particular to a microbial culture gas release device.

Background

Microorganisms are some small protists, including: bacteria, viruses, fungi, etc., some of which are visible to the naked eye, such as fungi mushrooms, ganoderma lucidum, lentinus edodes, etc.

The microorganism culture device is provided with a water inlet pipeline, a water outlet pipeline and a cooling cavity, the temperature of the interior of the culture cylinder is regulated, the microorganism culture device is suitable for the microorganism life of a low-temperature culture environment, the temperature of the interior of the culture cylinder is regulated through the arrangement of a steam input pipeline, a steam output pipeline and a steam cavity, the temperature of the interior of the culture cylinder is regulated, the microorganism life of a high-temperature culture environment is suitable, the rotating handle, the stirring main shaft and the U-shaped stirring rod are matched for use, the microorganisms are stirred, the phenomenon that a large number of microorganisms are gathered together and are not beneficial to culture is avoided, and the arrangement of the discharge pipe, the double-head inclined through pipe and the output pipeline enables the microorganisms to enter the U-shaped culture extraction box more uniformly; wherein, the deficiency points are as follows:

this kind of microbial cultivation device is when the staff uses, because only single manual rotatory handle that uses drives stirring main shaft and U-shaped stirring rod and mixes the stirring cultivation to microorganism and nutrition material, make partial local stirring can not arrive, and need consume a large amount of manpowers, make this kind of microbial cultivation device stirring effect than poor, and this kind of microbial cultivation device is when mixing the stirring cultivation with microorganism and nutrition material, the outside air can directly be derived to the massive gas of production, cause the influence to the ambient air environment easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that the stirring effect of the microbial culture device is poor and a large amount of gas easily affects the ambient air in the background, thereby providing a microbial culture gas release device.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a microbial cultivation gas release device, includes base, cultivation room, pan feeding mouth, sealed lid, discharge gate, measuring pump, support frame A, culture dish, base top fixed mounting has the cultivation room, it is provided with the pan feeding mouth to cultivate room top one end embedding, there is sealed lid at pan feeding mouth top through bolted connection, it is provided with the discharge gate to cultivate room bottom embedding, the nested measuring pump that is provided with in the discharge gate outside, it has support frame A to cultivate room top outside other end fixed mounting, the base bottom is close to the discharge gate bottom and is provided with the culture dish, the inside impurity filtering mechanism that is provided with of pan feeding mouth, it is provided with gas release filtering mechanism to cultivate room top one end.

Preferably, the impurity filtering mechanism comprises a support frame B and a filter screen, the support frame B is arranged on the inner side of the feeding port in a sliding mode, the filter screen is fixedly mounted at the upper end and the lower end of the support frame B, and the thickness of the filter screen is three millimeters.

Preferably, the embedding of cultivateing the indoor wall is provided with the electrothermal tube, the electrothermal tube is the heliciform and encircles the setting, it has servo motor to cultivate room top fixed mounting, there is the puddler servo motor bottom through output shaft connection, puddler outside fixed mounting has stirring leaf A, stirring leaf A has a plurality of, and is the central symmetry setting side by side, the equal fixed mounting in both ends has stirring leaf B about the stirring leaf A, stirring leaf B has a plurality of, and is and sets up side by side, base top one end fixed mounting has the nutrient solution water tank, nutrient solution water tank top embedding is provided with the water pump, it is provided with the water shower nozzle to cultivate indoor side top near pan feeding mouth outer end embedding, through water piping connection between water shower nozzle and the water pump.

Preferably, gaseous release filter mechanism is by the aspirator pump, go into gas port, gas outlet, filter chamber, airstrainer, support frame A top one end fixed mounting has the aspirator pump, it is provided with into the gas port to cultivate the embedding of the indoor side top other end, support frame A top other end fixed mounting has the filter chamber, the embedding of filter chamber inboard bottom one end is provided with the gas outlet, the gas outlet all is connected through the air duct with going into between gas port and the aspirator pump, both ends all slide about in the filter chamber and are provided with airstrainer, and pass through bolted connection between airstrainer and the filter chamber, airstrainer is active carbon materials airstrainer.

Preferably, the inner wall of the culture chamber is embedded with a heat insulation plate close to the outer side of the electric heating tube, and the heat insulation plate is made of polystyrene.

Preferably, the heat insulation board is made of rock wool.

The utility model provides a microbial cultivation gas release device, which has the following beneficial effects:

1. this kind of gaseous release of microbial cultivation is through being provided with stirring leaf A and stirring leaf B, can make the staff open the water pump and spout the microbial surface of culture room aquatic with the nutritional agent in the nutritional agent water tank through the water pipe from the water shower nozzle, open servo motor and drive puddler outside stirring leaf A and stirring leaf B and stir microorganism and nutritional agent in the aquatic.

2. This kind of gaseous release of microbial cultivation is through being provided with airstrainer, can make the staff open the aspirator pump will cultivate the indoor a large amount of gas of production and inhale into the gas port, behind the leading-in gas outlet of rethread air duct, when the rethread gas outlet will gaseous leading-in filter chamber, a large amount of gas will contact the airstrainer surface of active carbon material, and when through airstrainer, the airstrainer of active carbon material can adsorb the harmful gas in the gas, make the gas after the filtration pass through the filter chamber top and discharge to the external world.

Drawings

FIG. 1 is a schematic front sectional view of a microorganism culture apparatus according to the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention;

fig. 3 is a schematic perspective view of the air filter of the present invention.

In FIGS. 1-3: 1. a base; 2. a culture chamber; 201. a feeding port; 2011. a sealing cover; 202. a discharge port; 2021. a metering pump; 203. a thermal insulation board; 204. a support frame A; 3. a support frame B; 301. a filter screen; 4. a servo motor; 401. a stirring rod; 402. stirring the leaves A; 403. a stirring blade B; 5. an electric heating tube; 6. A culture dish; 7. a nutrient water tank; 701. a water pump; 702. a water spray head; 8. a getter pump; 801. an air inlet; 802. an air outlet; 9. a filtering chamber; 901. an air filter screen.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, in the embodiment of the present invention, a microbial culture gas release apparatus includes a base 1, a culture chamber 2, a material inlet 201, a sealing cover 2011, a material outlet 202, a metering pump 2021, a support frame a204, and a culture dish 6, wherein the culture chamber 2 is fixedly installed on the top of the base 1, the material inlet 201 is embedded in one end of the top of the culture chamber 2, the sealing cover 2011 is connected to the top of the material inlet 201 through a bolt, the material outlet 202 is embedded in the bottom of the culture chamber 2, the metering pump 2021 is nested outside the material outlet 202, the support frame a204 is fixedly installed at the other end of the top of the culture chamber 2, the culture dish 6 is installed at the bottom of the base 1 near the material outlet 202, an impurity filtering mechanism is installed inside the material inlet 201, and a gas release filtering mechanism is installed at one end of the top of the culture chamber 2.

Referring to fig. 1 and 2, in the present embodiment: the impurity filtering mechanism consists of a supporting frame B3 and a filter screen 301;

pan feeding mouth 201 inboard slides and is provided with support frame B3, equal fixed mounting in both ends has filter screen 301 about in the support frame B3, filter screen 301 thickness is three millimeters, when the staff need cultivate the microorganism, the microorganism that will need to cultivate carries the work place, and screw out sealed lid 2011 back with sealed lid 2011 top bolt, when pouring the microorganism into cultivateing room 2 from pan feeding mouth 201, a large amount of microorganisms will pass filter screen 301, at this moment filter screen 301 can block debris etc. that carry in a large amount of microorganisms, prevent that external debris etc. from causing the pollution to the microorganism raw materials in dropping cultivateing room 2 through pan feeding mouth 201.

Referring to fig. 1, in the present embodiment: cultivate 2 inner walls embeddings in room and be provided with electrothermal tube 5, electrothermal tube 5 is the heliciform and encircles the setting, cultivate 2 top fixed mounting in room and have servo motor 4, there is puddler 401 servo motor 4 bottom through output shaft connection, puddler 401 outside fixed mounting has stirring leaf A402, stirring leaf A402 has a plurality of, and be side by side central symmetry setting, the equal fixed mounting in both ends has stirring leaf B403 about stirring leaf A402, stirring leaf B403 has a plurality of, and be the setting side by side, base 1 top one end fixed mounting has nutrient water tank 7, 7 top embeddings in nutrient water tank are provided with water pump 701, 2 inboard tops of cultivation room are close to pan feeding mouth 201 outer end embedding and are provided with water shower nozzle 702, through water piping connection between water shower nozzle 702 and the water pump 701, when the staff pour the microorganism into cultivation room 2, and pour the clear water into cultivation room 2 through pan feeding mouth 201 after, the staff opens the water pump and spouts the nutrient in the nutrient water tank 7 from water shower nozzle 702 to through the water pipe through the water shower nozzle, the staff When the surface of the microorganism in the water of the culture chamber 2 is cultured, the servo motor 4 is started to drive the stirring blade A402 and the stirring blade B403 on the outer side of the stirring rod 401 to stir the microorganism and the nutritional agents in the water, so that the microorganism and the nutritional agents are uniformly mixed, meanwhile, the electrothermal tube 5 is started by a worker, the microorganism in the culture chamber 2 is subjected to micro-heating constant-temperature treatment, and the microorganism in the culture reaches a proper temperature.

Referring to fig. 1 and 3, in the present embodiment: the gas releasing and filtering mechanism comprises an air suction pump 8, an air inlet 801, an air outlet 802, a filtering chamber 9 and an air filtering screen 901.

An air suction pump 8 is fixedly installed at one end of the top of a support frame A204, an air inlet 801 is embedded at the other end of the top of the inner side of a culture chamber 2, a filter chamber 9 is fixedly installed at the other end of the top of the support frame A204, an air outlet 802 is embedded at one end of the bottom of the inner side of the filter chamber 9, the air outlet 802 and the air inlet 801 are connected with the air suction pump 8 through air ducts, an air filter 901 is arranged at the upper end and the lower end of the inner side of the filter chamber 9 in a sliding mode, the air filter 901 is connected with the filter chamber 9 through bolts, the air filter 901 is an air filter made of activated carbon, when a worker opens a servo motor 4 to drive a stirring blade A402 and a stirring blade B403 on the outer side of a stirring rod 401 to stir microorganisms and nutrients in water, a large amount of gas is generated after the microorganisms and the nutrients are uniformly mixed, when the gas needs to be released, the worker opens the air suction pump 8 to suck a large amount of gas generated in the culture chamber 2 into the air inlet 801, after the air is introduced into the air outlet 802 through the air duct, when the air is introduced into the filtering chamber 9 through the air outlet 802, a large amount of air will contact the surface of the air filter 901 made of activated carbon, and when the air passes through the air filter 901, the air filter 901 made of activated carbon can adsorb harmful gas in the air, so that the filtered air is discharged to the outside through the top of the filtering chamber 9, and after the bolt on the outer side of the air filter 901 is screwed out by a worker, the air filter 901 is pulled out of the filtering chamber 9 for cleaning or replacement.

Referring to fig. 1, in the present embodiment: the metering pump 2021, the servo motor 4, the electric heating tube 5, the water pump 701 and the air suction pump 8 are all electrically connected with an external power supply through a control panel.

Referring to fig. 1, in the present embodiment: cultivate 2 inner walls of room and be provided with heated board 203 near the embedding of 5 outsides of electrothermal tube, heated board 203 material is polystyrene, opens electrothermal tube 5 again when the staff, will cultivate the microorganism of 2 inside cultivations of room and carry out micro-heating constant temperature treatment, when making the microorganism of cultivateing reach suitable temperature, has dampproofing, not influenced by the gas temperature, the polystyrene of heat preservation thermal-insulated characteristic, can make ambient temperature can not lead to the fact the influence to the temperature of cultivateing in the room 2.

As shown in fig. 1, in the present invention, in addition to the embodiment in which the heat insulation board 203 is made of polystyrene, another embodiment exists in which the heat insulation board 203 is made of rock wool, and since the rock wool has the characteristics of light weight and small heat conductivity coefficient, the temperature in the culture chamber 2 is not affected by the external temperature, and meanwhile, the rock wool having the waterproof and anti-corrosion effects prevents the heat insulation board 203 from being corroded by microorganisms cultured in the culture chamber 2.

When the microbial culture gas release device is used, firstly, when a worker needs to culture microbes, the microbes to be cultured are carried to a work site, the top bolt of the sealing cover 2011 is screwed out, the sealing cover 2011 is opened, and then the microbes are poured into the culture chamber 2 from the material inlet 201, a large amount of microbes pass through the filter screen 301, at the moment, the filter screen 301 can block sundries and the like carried in the large amount of microbes to prevent the external sundries and the like from falling into the culture chamber 2 through the material inlet 201 to pollute microbial raw materials, then, the worker pours the microbes into the culture chamber 2, and after clear water is poured into the culture chamber 2 through the material inlet 201, the worker opens the water pump 701 to spray nutrient in the nutrient water tank 7 from the water spray head 702 to the surfaces of the microbes in the water of the culture chamber 2 through the water pipe, and opens the servo motor 4 to drive the stirring blades A402 and the stirring blades B403 outside the stirring rod 401 to stir the microbes and the nutrient in the water When the microorganism and the nutrient are uniformly mixed, the electric heating tube 5 is turned on by the operator, the microorganism cultured in the culture chamber 2 is subjected to micro-heating constant temperature treatment, the microorganism in the culture reaches a proper temperature, finally, the microorganism and the nutrient are uniformly mixed to generate a large amount of gas, when the gas needs to be released, the operator turns on the air suction pump 8 to suck the large amount of gas generated in the culture chamber 2 into the air inlet 801, then the gas is guided into the air outlet 802 through the air duct, and then the gas is guided into the filter chamber 9 through the air outlet 802, the large amount of gas contacts the surface of the air filter screen 901 made of the activated carbon material, and when the gas passes through the air filter screen 901, the air filter screen 901 made of the activated carbon material can absorb harmful gas in the gas, so that the filtered gas is discharged to the outside through the top of the filter chamber 9, after the worker unscrews the bolts outside the air filter 901, the air filter 901 is pulled out of the filter chamber 9 for cleaning or replacement.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several variations and modifications without departing from the concept of the present invention, and these should be considered as the protection scope of the present invention, which will not affect the effect of the implementation of the present invention and the utility of the patent.

Claims (6)

1. The utility model provides a gaseous release unit of microbial cultivation, includes base (1), cultivates room (2), pan feeding mouth (201), sealed lid (2011), discharge gate (202), measuring pump (2021), support frame A (204), culture dish (6), base (1) top fixed mounting has cultivates room (2), it is provided with pan feeding mouth (201) to cultivate room (2) top one end embedding, there is sealed lid (2011) pan feeding mouth (201) top through bolted connection, it is provided with discharge gate (202) to cultivate room (2) bottom embedding, discharge gate (202) outside nestification is provided with measuring pump (2021), it has support frame A (204) to cultivate room (2) top outside other end fixed mounting, base (1) bottom is close to discharge gate (202) bottom and is provided with culture dish (6), its characterized in that: the inside impurity filtering mechanism that is provided with of pan feeding mouth (201), cultivate room (2) top one end and be provided with gas release filtering mechanism.

2. The microbial culture gas release apparatus of claim 1, wherein: the impurity filtering mechanism consists of a support frame B (3) and a filter screen (301);

the feeding device is characterized in that a support frame B (3) is movably arranged on the inner side of the feeding port (201), a filter screen (301) is fixedly arranged at the upper end and the lower end in the support frame B (3), and the thickness of the filter screen (301) is three millimeters.

3. The microbial culture gas release apparatus of claim 1, wherein: cultivate room (2) inner wall embedding and be provided with electrothermal tube (5), electrothermal tube (5) are the heliciform and encircle the setting, it is provided with servo motor (4) to cultivate room (2) top, servo motor (4) bottom has puddler (401) through output shaft connection, the puddler (401) outside is provided with stirring leaf A (402), stirring leaf A (402) have a plurality of, and be side by side central symmetry setting, both ends all are provided with stirring leaf B (403) about stirring leaf A (402), stirring leaf B (403) have a plurality of, and be the setting side by side, base (1) top one end fixed mounting has nutrient solution tank (7), nutrient solution tank (7) top embedding is provided with water pump (701), it is provided with water shower nozzle (702) to cultivate room (2) inboard top and be close to pan feeding mouth (201) outer end embedding, the water spray head (702) is connected with the water pump (701) through a water pipe.

4. The microbial culture gas release apparatus of claim 1, wherein: the gas release filtering mechanism consists of an air suction pump (8), an air inlet (801), an air outlet (802), a filtering chamber (9) and an air filtering screen (901);

support frame A (204) top one end is provided with aspirator pump (8), it is provided with into gas port (801) to cultivate the inboard top other end embedding of room (2), the support frame A (204) top other end is provided with filter chamber (9), the inboard bottom one end embedding of filter chamber (9) is provided with gas outlet (802), all be connected through the air duct between gas outlet (802) and income gas port (801) and aspirator pump (8), filter chamber (9) inboard both ends are all movable about is provided with airstrainer (901), and passes through bolted connection between airstrainer (901) and filter chamber (9), airstrainer (901) is activated carbon material airstrainer (901).

5. The microbial culture gas release apparatus of claim 1, wherein: an insulation board (203) is embedded in the inner wall of the culture chamber (2) and close to the outer side of the electric heating pipe (5), and the insulation board (203) is made of polystyrene.

6. A microbial culture gas release apparatus according to claim 5, wherein: the heat insulation board (203) is made of rock wool.

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