KR101935688B1 - Effective Microorgani in the culture device - Google Patents

Abstract

The present invention relates to a device for culturing aerobic microorganisms, which is designed to culture aerobic microorganisms used by being mixed with secretions and feeds of a livestock farm. The device of the present invention can easily obtain distilled water which disinfects a tank and cultivates microorganisms; improve the efficiency of culturing microorganisms by removing impurities and gas generated during microbial culture; and prevent the destruction of microorganisms through instant cooling. The device comprises a tank portion, an inserting portion, a heating portion, a stirring portion, an air supply portion, a foreign matter removing portion, a cooling portion, and a control portion.

Description

[0001] The present invention relates to an apparatus for culturing aerobic microorganisms,

The present invention relates to a device for culturing aerobic microorganisms, and more particularly, to an aerobic microorganism which is mixed with feeds and secretions of livestock farms. It disinfects tanks and easily obtain distilled water for culturing microorganisms. To a culture apparatus for aerobic microorganisms capable of preventing the destruction of microorganisms by increasing the efficiency of microorganism cultivation by removing gas and water purities and by instant cooling.

In general, useful microorganisms (EMs) are useful microorganisms in which a plurality of useful microorganisms, including lactic acid bacteria, yeast, and photosynthetic bacteria, are symbiotic.

Technology utilizing these beneficial microorganisms keeps the balance of the microorganism environment that is the basis of the ecosystem and maximizes natural revitalization power in all aspects of living environment.

When the beneficial microorganisms fermented by combining the lactic acid bacteria, yeast and photosynthetic bacteria among the utilization techniques of the useful microorganisms are absorbed into the soil or the river, the activity of the existing useful microorganisms existing in the soil or water is activated, Thereby improving sugar content, coloring and storage stability, which are standards for the quality of crops.

Such useful microorganisms are supplied to agriculture, livestock and fishery industry and used variously, but they have a problem that productivity is deteriorated due to a long time for cultivation of useful microorganisms.

In order to solve the above problems, a microorganism incubator useful for utility model registration No. 367951 has been proposed.

The useful microorganism incubator can cultivate a useful microorganism in a short period of time and can provide a large amount of the microorganism. Since the inside of the incubator can be disinfected, only the useful microorganism can be cultured. In addition to the temperature suitable for culturing the useful microorganism, Thereby promoting microbial culture.

However, when the useful microorganism incubator is maintained at a proper temperature of the useful microorganism, the useful microorganisms contacting with the heater are destroyed by directly heating the heated microorganisms through the heater, so that the useful microorganisms can not be cultured smoothly.

Further, in order to smoothly cultivate the useful microorganisms due to the problems of direct heating, circulation of the culture liquid by the circulation pump is complicated and the cultivation of useful microorganisms is not efficient.

In addition, the apparatus for culturing a microorganism useful in the Utility Model Laid-Open Publication No. 2017-0000417 proposed by the present applicant can induce indirect fermentation of the fermentation broth by indirect heating and air injection, but disinfection of the distilled water or tank necessary for cultivation is not smooth, Was not efficient.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above-mentioned problems of the prior art, and it is an object of the present invention to provide a distillation column for easily removing distilled water for easily cultivating microorganisms while easily disinfecting a tank for culturing aerobic microorganisms, The present invention also provides an apparatus for culturing aerobic microorganisms which can increase the efficiency of microbial cultivation and prevent microbial destruction by instantaneous cooling of aerobic microorganisms.

In order to accomplish the above object, the present invention provides a method of controlling an evaporator, comprising: a tank portion formed of a tank having a predetermined capacity, the tank portion having an evaporation pressure control side and an outlet for a check port and a tank; A chlorine removal filter and an iron removal electromagnet are formed in order to remove chlorine and iron contained in the culture water to be introduced into the input pipe, and an aerobic microorganism input pipe is connected to the end of the input pipe inside the tank A heating unit in which a heating heater is provided in the tank at a lower side, a center and an upper side so as to heat the culture water and the aerobic microorganism introduced through the inlet pipe of the charging unit to an appropriate temperature; To increase the degree of saturation of oxygen by transferring the heat of the liquid, a rotating shaft which is rotated by a motor formed on the upper side of the tank A pair of stirring vanes formed at the center of the tank, and an air supply pipe having an air discharge pipe formed at the bottom of the tank so as to supply air by an air compressor to supply oxygen to the aerobic microorganisms which are stirred and cultured through the stirring portion A blocking plate is formed at the upper center of the tank in order to remove bubbles and foreign substances generated when the aerobic microorganisms are cultured due to the air supplied through the air supplying unit, and a foreign matter discharge port, through which the foreign substances blocked by the blocking plate are discharged, And a cooling unit connected to the bottom of the tank through a connection pipe for heat exchange so as to lower the temperature of the culture water or the aerobic microorganism in the tank from which the foreign substance is removed through the foreign matter removing unit through the foreign matter removing unit, Or a cooling inlet pipe for injecting aerobic microorganisms is connected to the inlet pipe And a control section for controlling the temperature of the cooling section, the control of the amount of culture of the inlet section and the amount of aerobic microorganisms, the temperature control of the heating section, the operation of the stirring section, and the air supply of the air supply section, To a culture apparatus for aerobic microorganisms.

As described above, the present invention can easily obtain distilled water for culturing a microorganism while easily disinfecting a tank for cultivating aerobic microorganisms. In addition, it is possible to improve the efficiency of culturing microorganisms by removing gas and impurities generated during microorganism culture, It is possible to prevent microbial destruction by cooling.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various changes and modifications may be made by those skilled in the art.

1 is a cross-sectional view of a culture apparatus for aerobic microorganisms according to the present invention,
FIG. 2 is an explanatory view showing a state for sterilizing the tank of the apparatus for culturing aerobic microorganisms and obtaining the culture water according to the present invention;
FIG. 3 is an explanatory view showing a state where the culture water and the aerobic microorganism are introduced into the tank of the apparatus for culturing aerobic microorganisms according to the present invention,
FIG. 4 is an explanatory view showing a state of discharging impurities generated when an aerobic microorganism is cultured in the apparatus for culturing aerobic microorganisms according to the present invention. FIG.
FIG. 5 is an explanatory view showing a state where the aerobic microorganisms cultured in the apparatus for culturing aerobic microorganisms according to the present invention are cooled and discharged.

In order to fully understand the advantages of the present invention and the advantages of the present invention and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings, which show preferred embodiments of the present invention, and the contents of the accompanying drawings.

Hereinafter, the present invention will be described in more detail with reference to specific examples of the present invention. The following examples are provided to further illustrate the present invention, but the technical scope of the present invention is not limited thereto.

(Example)

FIG. 1 is a cross-sectional view of a culture apparatus for aerobic microorganisms according to the present invention.

As shown therein, the apparatus for cultivating aerobic microorganisms according to the present invention comprises a tank 10 for cultivating culture water and aerobic microorganisms, a charging unit 20 for charging culture water and aerobic microorganisms into the tank 10, A heating unit 30 for heating the culture water and the aerobic microorganism introduced into the charging unit 20, an agitating unit 40 for agitating the cultured water to be heated and the aerobic microorganism, A cooling unit 70 for cooling the produced aerobic microorganisms, and a cooling unit 70 for cooling the produced aerobic microorganisms by supplying, heating, stirring, And a control unit 80 for controlling oxygen supply, exhaustion, and the like.

The tank unit 10 is formed of a tank 11 having a predetermined capacity and is provided at the upper side of the tank 11 with a vapor pressure control valve An inspection port 13 for inspecting internal operations of the sides 12 and the tank 11 is formed and an outlet 14 for discharging the cultured aerobic microorganisms is formed on the lower side.

At the side of the tank (11) of the tank part (10), a charging part (20) capable of inputting culture water and aerobic microorganisms is formed.

The charging unit 20 is provided with a chlorine and iron powder contained in the culture water to be supplied by the pump 25 to the charging pipe 21 formed so as to be able to supply the culture water and the aerobic microorganism to one side of the tank 11 A chlorine removal filter 22 and an iron removal electromagnet 23 are formed in order to remove an aerobic microorganism input pipe 24 and an aerobic microorganism input pipe 24 is connected to the end of the injection pipe 21 inside the tank 11.

The heating unit 30 is formed to heat the cultivated water and the aerobic microorganisms introduced through the inlet pipe 21 of the charging unit 20 to an appropriate temperature.

The heating unit 30 is formed in the tank 11 by a plurality of heating heaters 31. The heating heater 31 is installed at a lower portion and a central portion of the tank 11 in order to operate according to the temperature inside the tank 11. [ Are formed on the upper side with a height difference.

The agitating unit 40 is formed so that the heat of the heated water heated through the heating unit 30 and the aerobic microorganisms can be efficiently transferred and the oxygenated microorganisms can be mixed with the cultured water.

The stirring section 40 forms a pair of upper and lower stirring vanes 42 at the center of the inner part of the tank 11 on the rotating shaft rotated by the motor 41 formed on the upper side of the tank 11.

An air supply unit 50 is formed to supply oxygen to the aerobic microorganisms which are stirred and cultured through the agitator unit 40. The air supply unit 50 is installed at the bottom of the tank 11 by the air compressor 51, An air injection pipe 52 connected to the air compressor 51 is formed on the inner bottom surface of the tank 11 so as to inject the air.

The foreign substance removing unit 60 is formed to remove foreign substances generated when the aerobic microorganisms are cultured under the air supply by the air supplying unit 50.

The foreign substance removing unit 60 may include a blocking plate 61 to prevent bubbles or foreign matter from rising to the upper end of the tank 11 at the center of the upper side of the tank 11, A foreign matter discharge port 62 formed with a valve 63 is formed on the side surface of the tank 11 so that the foreign matter is discharged to one side.

On the other hand, the cooling unit 70 is formed to appropriately maintain the temperature of the disinfection water or the culture water inside the tank 11.

The cooling unit 70 is connected to a bottom surface of the tank 11 by a connection pipe 71 to form a cooler 72 for performing heat exchange and a cooling input pipe 73 for inputting the cooled culture water or aerobic microorganisms, (21).

The control unit 80 forms a control unit 80 for controlling the above components and controls the circulation through the cooling unit 70 and the temperature by the heating unit 30 according to the temperature sensed through the temperature sensor 300. [ And controls the operation of the stirring blade 42 of the stirring section 40 and the operation of the oxygen sensor 500 by the oxygen sensor 500 to control the amount of aerobic microorganism The saturation degree is measured to control the air supply by the set value of the air supply of the air supply unit 50, and the acidic concentration to be cultured is measured through the PH concentration sensor 600.

The operation and effect of the present invention constructed as described above will be described below.

The chlorine and iron components are introduced into the chlorine removal filter 22 and the iron removing magnet 23 through the inlet pipe 21 of the inlet 20 in order to maximize the fermentation efficiency of the aerobic microorganisms by disinfecting the inside of the tank 11, As shown in Fig. 2.

In this state, all of the heating heaters 31 of the heating unit 30 are operated to raise the temperature of the culture water to 95 to 100 DEG C, and then the inside of the tank 11 and the number of culture water And sterilize the piping.

In this state, the culture water is passed through the cooling pipe 72 of the cooling unit 70 through the connection pipe 71 to perform heat exchange so that the temperature of the culture water becomes 35 to 36 ° C.

At this time, when steam is generated due to the increased temperature of the culture water and the pressure inside the tank 11 becomes high, the internal pressure is regulated through the evaporation pressure control knob 12.

When the temperature of the culture water reaches an appropriate level, aerobic microorganisms are introduced into the tank 11 through the aerobic microorganism feed pipe 24 as shown in FIG.

After the culture water at an appropriate temperature and the aerobic microorganism are introduced into the tank 11 and the amount of oxygen in the culture water is measured by the oxygen sensor 500 and the oxygen amount is less than the set oxygen amount, The stirring blade 42 rotates while the motor 41 of the stirring section 40 rotates to increase the oxygen saturation in the culture water.

At this time, as the culture water is being cultured, bubbles of gas generation and culture water are generated, and bubbles and foreign matter float to the upper side. Such a floating matter is moved upward by the blocking plate 61 of the foreign substance removing unit 60 The foreign matter is discharged through the foreign matter outlet 62 while preventing the foreign matter from moving.

After the aerobic microorganisms are cultured in the same manner as described above, the aerobic microorganisms are cooled by passing through the cooler 72 of the cooling unit 70 as shown in FIG. 5, lowering certain aerobic microorganisms to a predetermined temperature, To the aerobic microorganism storage tank (not shown).

The thus cultured aerobic microorganisms control all operations by the control unit 80 and also store the culture record.

These aerobic microorganisms can easily change the temperature through the heating unit 30 during the culturing process and improve the efficiency of cultivation by adjusting the speed of the stirring unit 40 as well as supplying oxygen smoothly. Thereby shortening the incubation time.

The thus cultured aerobic microorganisms are preferably kept at 3 DEG C by momentary cooling.

10: tank part 11: tank
12: Evaporative pressure control valve 13: Check port
14: Exhaust port 20:
21: inlet pipe 22: chlorine removal filter
23: iron removing magnet 24: aerobic microorganism input tube
30: heating section 31: heating heater
40: stir portion 41: motor
42: stirring blade 50: air supply part
51: Air Compressor 52: Air Injection Pipe
60: foreign matter removing unit 61:
62: Foreign matter outlet port 70: Cooling section
71: Connector 72: Cooler
73: cooling inlet 80:

Claims (4)

A tank unit 10 formed with a tank 11 of a predetermined capacity and provided with an evacuation pressure control valve 12 and an outlet 14 below the tank 11 and the tank 11,
A charging unit 20 in which a charging pipe 21 is formed so that the culture water and aerobic microorganisms can be introduced into the tank 11 of the tank unit 10,
A heating unit 30 in which a heating heater 31 is formed in the tank 11 so that the culture water and the aerobic microorganism introduced through the inlet pipe 21 of the charging unit 20 can be heated to an appropriate temperature,
A stirring blade 42 which is rotated by a motor 41 formed on the upper side of the tank 11 is disposed in the center of the tank 11 in order to transmit the heat of the heated liquid through the heating unit 30 and increase the degree of saturation of oxygen. A stirring part 40 formed,
An air supply unit 50 having an air injection pipe 52 formed on the inner bottom surface of the tank 11 so as to supply air by an air compressor 51 to supply oxygen to aerobic microorganisms that are stirred and cultured through the agitation unit 40 )Wow,
A blocking plate 61 is formed at the upper center of the tank 11 in order to remove bubbles and foreign substances generated when the aerobic microorganisms are cultured due to the air supplied through the air supplying unit 50, A foreign matter removing unit 60 formed on a side surface of the tank 11 to discharge a foreign matter discharged from the tank 11,
A cooler 72 is connected to the bottom surface of the tank 11 by a connection pipe 71 to lower the temperature of the culture water or aerobic microorganisms in the tank 11 from which the foreign substance is removed through the foreign material removing unit 60, A cooling unit 70 connected to the inlet tube 21 for supplying the cooled culture water or aerobic microorganisms to the cooling inlet pipe 73,
The control of the temperature of the cooling unit 70 and the control of the amount of the culture water and the aerobic microorganism of the charging unit 20 and the temperature control of the heating unit 30 and the operation of the stirring unit 40 and the operation of the air supply unit 50 And a control unit (80) for controlling the air supply based on the set value. The apparatus for cultivating aerobic microorganisms according to claim 1,
A chlorine removing filter 22 and an iron removing electromagnet 23 are formed in the charging pipe 21 of the charging unit 20 in order to remove chlorine and iron contained in the culture water to be introduced, The aerobic microorganism feed pipe 24 is connected to the end of the pipe 21 and the heating heater 31 of the heating unit 30 is connected to the bottom of the tank 11, Wherein the aerobic microorganisms are formed in succession at a height difference.
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