KR20120036022A - Useful microbe culture apparatus and culture systems - Google Patents

Abstract

PURPOSE: An apparatus for culturing an effective microorganism group and a culture system are provided to ensure convenient culture. CONSTITUTION: An apparatus(100) for culturing an effective microorganisms: a tank having an inner tank surrounded by a insulating material and an outer tank for covering the inner tank; an ingredient feeding hole for supplying ingredients for culturing; a water feeding hole for supplying water for culturing the effective microorganisms to the inside of the tank; a heater for maintaining predetermined temperature by sensing temperature of water and water; a circulation motor which mixes water up and down or left and right; a pressure controller for controlling pressure of the inside of the tank; a drainage hole for discharging culture liquid cultured in the tank; and a washing head for washing residues by spraying water from the inside the tank.

Description

Useful microbial culture apparatus and integrated culture system using same {USEFUL MICROBE CULTURE APPARATUS AND CULTURE SYSTEMS}

The present invention relates to an improved culture apparatus for culturing useful microorganisms, and to an integrated culture system using a plurality of improved culture apparatuses.

In general, effective micro-organisms (EM) contain about 80 kinds of microorganisms such as yeast, lactic acid bacteria, yeast bacteria, photosynthetic bacteria, actinomycetes, and have excellent effects on removing odors and purifying water. By using microbial groups, the quality of water can be improved by removing nitrogen from wastewater.

Thus, there is provided an integrated culture device (hereinafter referred to as useful microbial group culture apparatus) for propagation and supply of useful microorganisms for culturing the useful microorganism group.

Looking at the conventional useful microbial group culture apparatus as shown in Figure 1 the cylindrical tank (10); A first supply port 20 for supplying a useful microbial group into the tank; A second supply port 30 for supplying water into the tank; A heater 40 for maintaining a constant temperature inside the tank; Agitation blade (50) for mixing the useful microorganisms and water in the tank; A first outlet 60 for discharging the gas generated during the culture in the tank to the outside; A second outlet 70 formed of a discharge tube for discharging the culture solution cultured in the tank to the outside; And a controller installed at one side of the tank to control opening and closing of each component.

The present invention is difficult to install the stirring blade for mixing the useful microorganisms and water when culturing the useful microorganisms and the conventional problem that is difficult to wash the culture solution or sludge remaining in the tank after culturing the useful microorganisms To solve it. In addition, it is to solve the conventional problem that it is difficult to ignite the culture state or the water level in the tank during the culture process.

The present invention is to solve the conventional problem that each control device is installed in each of the useful microbial group culture apparatus, each culture apparatus is operated individually when operating a plurality of useful microbial group culture apparatus is difficult to integrate and manage.

Useful microorganism culture apparatus of the present invention is a tank formed of an inner cylinder and an outer cylinder covering the inner cylinder wrapped with a heat insulating material; A raw material supply port formed to supply raw materials for culturing useful microorganisms into the tank; A water supply port configured to supply water necessary for culturing the useful microorganism group into the tank; A heater formed to maintain a constant temperature by sensing the temperature of the raw material and the water cultured in the tank; A circulation motor configured to mix the raw material and water cultured in the tank while circulating up and down or left and right; A pressure regulator configured to regulate the pressure inside the tank; A culture solution outlet formed to discharge the culture solution cultured in the tank; A washing head configured to wash residue by spraying water into the tank; And a residue outlet formed to discharge the residue washed in the tank.

It is formed on one side of the tank, the level gauge tube of transparent material connected in a state penetrating the upper and lower portions of the inner cylinder; is configured to include.

The pressure regulator includes a first regulator for releasing the air pressure inflating the tank by the gas generated during the culture; And a second regulator for releasing the vacuum pressure generated when the culture solution, the washing water and the sludge are discharged.

The culture system using the useful microorganism group culture apparatus of the present invention is to cultivate the useful microorganism group, the raw material supply port for supplying the raw material, the water supply port for supplying water, the heater for maintaining a constant temperature, the culture Circulation motor for mixing raw material and water, pressure regulator for adjusting internal pressure, culture outlet for discharging cultured medium, washing head for washing residue and residue for discharging washed residue A plurality of useful microbial culture apparatus comprising an outlet; A main water supply line connected to the water supply and provided with a first solenoid valve for opening and closing a water supply; A first water supply line branched from the main water supply line to each of the useful microorganism culture apparatuses, and having a second solenoid valve installed to open and close the water supply through the water supply port; A raw material hopper provided with a first pump to store at least one raw material including the useful microbial group, and supply the same to the useful microbial group culture apparatus; A raw material supply line branched from the raw material hopper to each of the useful microorganism culture apparatuses, and having a third solenoid valve installed to open and close the supply of raw materials through the raw material supply port; A first discharge line provided with a fourth solenoid valve for opening and closing the discharge of the culture solution cultured in the useful microbial group culture apparatus; A second water supply line branched from the main water supply line to each of the useful microorganism culture apparatuses, and provided with a second pump for increasing a supply pressure of water, and a fifth solenoid valve installed with a fifth solenoid valve for opening and closing water injection through the washing head; A second discharge line provided with a sixth solenoid valve for opening and closing the discharge of the residue remaining therein with the water injected into the useful microbial group culture apparatus; And a control panel installed to control the solenoid valve and the pump and to control the heater and the circulation motor.

It receives water from the main water supply line and heated to a constant temperature, a water heater for supplying the heated water to the raw material hopper; comprises.

According to the useful microbial group culture apparatus of the present invention by using a circulation motor to form the raw material and the water inside the tank, there is an effect that the installation is easy and the space utilization is easy. In addition, by culturing is carried out in a state in which the remaining culture solution or sludge is completely washed through the washing head installed inside the tank, there is an effect that can produce a culture medium of optimum quality. In addition, through the water level measuring tube formed on one side of the tank, it is easy to check the culture state and the water level inside the tank, so that the management is convenient and there is an effect that can quickly cope with an abnormal occurrence.

According to the culture system using the useful microbial group culture apparatus of the present invention, by integrating a plurality of useful microbial group culture apparatus to be automatically managed, there is an effect of convenient operation and management.

1 is a cross-sectional view showing a conventional useful microbial group culture apparatus.
Figure 2 is a cross-sectional view showing a useful microbial group culture apparatus to which the present invention is applied.
Figure 3 is a perspective view showing a useful microbial group culture apparatus to which the present invention is applied.
Figure 4 is a plan view showing a system using a useful microorganism culture apparatus applied to the present invention.
Figure 5 is a panel configuration showing a control unit of the system using the useful microbial group culture apparatus to which the present invention is applied.

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The microorganism group culture apparatus 100 of the present invention has a tank 110, a raw material supply port 120, a water supply port 130, a heater 140, a circulation motor 150, as shown in Figs. ), The pressure regulator 160, the culture medium outlet 170, the washing head 180 and the residue outlet 190.

The tank 110 is formed of an inner cylinder wrapped with a heat insulating material and an outer cylinder covering the inner cylinder. That is, the inner cylinder stores the raw material and water including the useful microorganism group, and the outer cylinder covers the inner cylinder, for example, the raw material supply port 120, water installed in the upper portion as shown in Figs. While covering the supply port 130, the circulation motor 150, the pressure regulator 160, and covers the residue outlet 190 is installed in the lower portion.

On one side of the tank 110 is formed a water level measuring tube 111 of the transparent material connected in a state penetrating the upper and lower portions of the inner cylinder. The water level measuring tube 111 is formed in a transparent tube and communicates with the inside of the tank 110, so that the raw material and water are filled in the tank 110 and at the same time, the raw material and water are introduced to the outside of the tank 110. You can check the water level visually at. In addition, it is possible to easily check the culture state inside the tank 110 through the water level measurement tube (111). At this time, the water level measuring tube 111 is protected by a transparent case to prevent breakage.

The raw material supply port 120 is formed to supply raw materials for cultivation of the useful microorganism group into the tank 110. The raw material supply port 120 is installed on the tank 110, for example, as shown in Figure 2 and 3, the solenoid valve for automatically opening and closing the raw material supply on the pipe connected to supply the raw material Can be installed.

The raw material supplied through the raw material supply port 120 may include, for example, molasses or a small amount of salt required for cultivation, including a useful microorganism group.

The water supply port 130 is formed to supply the water necessary for culturing the useful microorganism group into the tank 110. The water supply port 130 is installed on the tank 110, for example, as shown in Figures 2 and 3, the solenoid valve for automatically opening and closing the supply of water on the pipe connected to supply water Can be installed.

The heater 140 is formed to maintain a constant temperature by sensing the temperature of the raw material and the water cultured in the tank (110). For example, the heater 140 is installed in the lower part of the tank as shown in FIGS. 2 and 3, and the raw material stored in the tank 110 using a general temperature sensor installed inside the tank 110. It senses the temperature of the water and continues to run automatically to keep it constant at the set value. The fermentation temperature inside the tank is maintained at, for example, 25 ~ 40 ℃.

The circulation motor 150 is formed to mix the raw material and water cultured in the tank 110 while circulating up and down or left and right. The circulation motor 150 is installed above the tank 110, for example, as shown in FIGS. 2 and 3, and an inlet and an outlet are connected to the tank 110, and the inlet is a tank 110. The outlet at the bottom is to be positioned above the tank 110 so that the culture medium cultured therein is mixed evenly while being circulated up and down.

The pressure regulator 160 is formed to adjust the pressure inside the tank 110. The pressure regulator 160 is installed on the tank 110, for example, as shown in Figures 2 and 3, a pressure control valve for adjusting the pressure is installed.

The pressure regulator 160 is the first regulator (160a) for releasing the air pressure inflating the tank 110 by the gas generated during the cultivation and releasing the vacuum pressure generated when discharging the culture solution, washing water and sludge It consists of a second control mechanism (160b) for.

The culture solution outlet 170 is formed to discharge the culture solution cultured in the tank 110. The culture medium outlet 170 is installed to penetrate through the outside from one side of the inner cylinder of the tank 110, for example, as shown in Figures 2 and 3, the pipe of the liquid solution on the pipe connected to the culture medium outlet 170 Solenoid valves may be installed to automatically open and close the discharge.

The washing head 180 is formed to spray residue into the tank 110 to wash the residue. The washing head 180 is installed in the upper part of the inner cylinder so as to wash off all the culture debris or foreign matter attached to the inner surface of the inner cylinder when spraying water, as shown in Figure 2 and 3, for example. In addition to the solenoid valve for automatically opening and closing the water supply on the pipe for supplying water connected to the washing head 180, a pump for increasing water pressure to spray water strongly into the tank 110 may be installed. Can be.

The residue outlet 190 is formed to discharge the residue washed in the tank (110). The residue outlet 190 is installed to penetrate outward from the bottom of the inner cylinder of the tank 110 as shown in FIGS. 2 and 3, for example, on a pipe connected to the residue outlet 190. Solenoid valves may be installed to automatically open and close the discharge.

According to the configuration of the present invention by using the circulation motor 150 by mixing the raw material and the water in the tank 110, it is more simple to install than the configuration using a conventional stirring blade and the inside of the tank 110 Space utilization is easy.

In addition, by culturing is carried out in a state in which the remaining culture solution or sludge is completely washed through the washing head 180 installed inside the tank 110, it is possible to always produce a culture medium of optimum quality.

In addition, through the water level measurement pipe 110 formed on one side of the tank 110, the culture state or the water level inside the tank 110 can be easily confirmed, so that the management is convenient and can quickly cope with an abnormal occurrence.

The culture system using the useful microbial group culture apparatus of the present invention is a plurality of useful microbial group culture apparatus 100, the main water supply line 200, the first water supply line 300, the raw material hopper as shown in FIG. 400, a raw material supply line 500, a first discharge line 600, a second water supply line 700, a second discharge line 800, and a control panel 900.

The useful microorganism group culturing apparatus is to cultivate the useful microorganism group as described above, the raw material supply port 120 for supplying the raw material, the water supply port 130 for supplying water, to maintain a constant temperature Heater 140, circulating motor 150 for mixing the raw material and water for cultivation, pressure regulator 160 for adjusting the internal pressure, culture medium outlet 170 for discharging the culture medium, residue It consists of a washing head 180 for washing the residue and a discharge port 190 for discharging the washed residue. Figure 4 shows a number of the upper surface of such a useful microbial group culture apparatus 100, the number constituting the useful microbial group culture apparatus 100 can be set according to the amount of culture solution required.

The main water supply line 200 is connected to the water supply, and the first solenoid valve 210 for opening and closing the water supply is installed. That is, the main water supply line 200 is for supplying water through the first and second water supply lines 300 and 700, and the first solenoid valve 210 is opened and closed automatically by the control panel 900. .

The first water supply line 300 is branched from the main water supply line 200 to each of the useful microbial group culture apparatus 100, the second solenoid valve for opening and closing the supply of water through the water supply port 120 ( 310 is installed. The second solenoid valve 310 is to be opened and closed automatically by the control panel 900, for example, by opening all the second solenoid valve 310 to supply water to all useful microbial culture apparatus 100. Alternatively, the second solenoid valve 310 may be sequentially opened by the hourly date to supply water to each of the useful microbial group culture apparatus 100 step by step.

The raw material hopper 400 stores one or more kinds of raw materials including the useful microbial group, and a first pump 410 is installed to supply the raw material hopper to the useful microbial group culture apparatus 100. In the raw material hopper 400, for example, a useful microorganism group which is a main raw material can be stored to uniformly supply a predetermined amount to each useful microorganism group culture apparatus 100, and each of the useful microorganisms is mixed with the raw materials of molasses or salt necessary for cultivation. The group culture apparatus 100 can be uniformly supplied with a certain amount. Therefore, the raw material hopper 400 may be installed in one or a plurality depending on the type of raw material as shown in FIG.

The raw material hopper 400 is supplied with water from the main water supply line 200 and heated to a predetermined temperature, the water heater 420 for supplying the heated water to the raw material hopper 400 is installed. For example, the water heater 420 supplies warm water prior to mixing molasses and salt, which is an auxiliary material, in the raw material hopper 400 to mix molasses and salt.

The raw material supply line 500 is branched from the raw material hopper 400 to each of the useful microorganism group culture apparatus 100, a third solenoid valve 510 for opening and closing the supply of raw materials through the raw material supply port is installed do. The third solenoid valve 210 is automatically opened and closed by the control panel 900, as described above in the first water supply line to sequentially open to supply the raw material step by step to each useful microbial group culture apparatus (100). Can be.

On the other hand, the raw material supply line 500 may be composed of a plurality of connected to each useful microorganism group culture apparatus 100 from each raw material hopper 400 according to the type of raw material.

The first discharge line 600 is provided with a fourth solenoid valve 610 for opening and closing the discharge of the culture medium cultured in the useful microbial group culture apparatus 100. The fourth solenoid valve 610 is automatically opened and closed by the control panel 900, as described above in the first water supply line sequentially open to discharge the culture solution step by step from each useful microbial group culture apparatus 100 can do.

The second water supply line 700 is branched from the main water supply line 200 to each of the useful microorganism group culture apparatus 100, and a second pump 710 is installed to increase the supply pressure of water. A fifth solenoid valve 720 for opening and closing the injection of water is installed. The second pump 710 and the fifth solenoid valve 720 is opened and closed automatically by the control panel 900, the second pump is operated in conjunction with the fifth solenoid valve 720 The fifth solenoid valve 720 may be sequentially opened as described above in the first feedwater unit 300 so that the fifth solenoid valve 720 may be washed stepwise from the useful microorganism group culture apparatus 100 in which the culture solution is discharged.

The second discharge line 800 is provided with a sixth solenoid valve 810 for opening and closing the discharge of the residue remaining therein with the water injected into the useful microbial group culture apparatus 100. The sixth solenoid valve 810 is automatically opened and closed by the control panel 900, as described above in the first water supply line is sequentially opened after washing to wash step by step from each useful microbial group culture apparatus 100 Can be discharged.

The control panel 900 is installed to control the solenoid valve and the pump of each line, and to control the heater 140 and the circulation motor 150 of the useful microbial group culture apparatus 100. 5 illustrates an example of the front panel of the control panel 900, and displays an operating state by lighting and may describe a date, etc., of culturing according to each useful microbial group culture apparatus 100. FIG.

Looking at the operation of the culture system using such a useful microorganism culture apparatus as follows.

All operations of each configuration are made automatically by the control panel 900.

The first solenoid valve 210 of the main water supply line 200 was opened, and the second solenoid valve 310 of the first water supply line 300 was opened to fill water in each useful microbial group culture apparatus 100. After operating the heater 140 is heated to 25 ~ 40 ℃. When the supply of water is completed, the second solenoid valve 310 is closed. At this time, the first solenoid valve 210 may be left open.

The first pump 410 of the raw material hopper 400 is operated, and the third solenoid valve 510 of the raw material supply line 500 is opened to supply raw materials to each useful microbial group culture apparatus. In this case, the raw material hopper 400 may supply not only the useful microorganism group that is the main raw material, but also a subsidiary material in which molasses and salt are mixed with water. In the case of supplying the subsidiary materials, the water heater 420 is operated to put warm water and then supplied as a mixture of molasses 1 mal and a handful of salt. At this time, it is preferable to form an agitator in the raw material hopper 400 for mixing molasses and salt in the water, the operator can directly mix using a hand drill mixer. When the supply of the raw material is completed, the first pump 410 is stopped and the third solenoid valve 510 is closed.

When water and raw materials are supplied to the useful microbial group culture apparatus 100, the circulation pump 150 is operated together with the operation of the heater 140. The heater 140 is to maintain a constant temperature of the useful microbial group culture apparatus 100 at 25 ~ 40 ℃, the circulation pump 150 is mixed evenly through the process of suction and discharge the stored water and raw materials. . As such, incubate for 5 to 10 days while mixing the water and raw materials in the tank under a certain temperature. When the culture is completed, the operation of the heater 140 and the purifying pump 150 is stopped.

When the culture of the useful microorganisms is completed, the fourth solenoid valve 610 of the first discharge line 600 is opened to discharge the culture solution, and when the discharge of the culture solution is completed, the fourth solenoid valve 610 is closed.

When the discharge of the culture solution is completed, while operating the second pump 710 of the second water supply line 700 while opening the fifth solenoid valve 720, the high-pressure washing water is injected through the washing head 180, useful microorganism group The culture medium or sludge remaining in the culture apparatus 100 is washed. When the washing is completed, the second pump 710 and the fifth solenoid valve 720 are closed.

When the washing is completed or at the same time as the washing, the sixth solenoid valve 810 of the second discharge line 800 is opened to discharge the residue with the washing water, and when the discharge is completed, the sixth solenoid valve 810 is closed.

According to the system structure of the present invention as described above, by integrating a plurality of useful microbial group culture apparatus 100 to be automatically managed, work and management becomes more convenient.

100: useful microorganism culture apparatus
110: tank 120: water supply port
130: raw material supply port 140: heater
150: circulation motor 160: pressure regulator
170: culture medium outlet 180: washing head
190: residue outlet
200: main water supply line 210: the first solenoid valve
300: first water supply line 310: second solenoid valve
400: raw material hopper 410: first pump
500: raw material supply line 510: third solenoid valve
600: first discharge line 610: fourth solenoid valve
700: second water supply line 710: second pump
720: fifth solenoid valve
800: second discharge line 810: sixth solenoid valve
900: control panel

Claims (5)

A tank formed of an inner cylinder wrapped with a heat insulating material and an outer cylinder covering the inner cylinder;
A raw material supply port formed to supply raw materials for culturing useful microorganisms into the tank;
A water supply port configured to supply water necessary for culturing the useful microorganism group into the tank;
A heater formed to maintain a constant temperature by sensing the temperature of the raw material and the water cultured in the tank;
A circulation motor configured to mix the raw material and water cultured in the tank while circulating up and down or left and right;
A pressure regulator configured to regulate the pressure inside the tank;
A culture solution outlet formed to discharge the culture solution cultured in the tank;
A washing head configured to wash residue by spraying water into the tank; And
Useful microorganism group culture apparatus comprising a; a discharge outlet formed to discharge the residue washed in the tank.
The microorganism group culture apparatus according to claim 1, wherein the tank is formed on one side of the tank and is connected to the upper and lower portions of the inner cylinder and is connected to a level gauge.
The method of claim 1, wherein the pressure regulator,
A first regulator for releasing the air pressure in which the tank expands by the gas generated during the culture; And
Useful microorganism group culture apparatus comprising a; a second regulator for releasing the vacuum pressure generated when the culture solution, washing water and sludge discharged.
To cultivate useful microorganisms, including feed source for supplying raw materials, water supply for supplying water, heaters to maintain a constant temperature, circulation motors for mixing raw material and water for cultivation, and internal pressure A plurality of useful microbial culture apparatus comprising a pressure regulator for adjusting the pressure, a culture medium outlet for discharging the cultured culture, a washing head for washing the residue, and a residue outlet for discharging the washed residue;
A main water supply line connected to the water supply and provided with a first solenoid valve for opening and closing a water supply;
A first water supply line branched from the main water supply line to each of the useful microorganism culture apparatuses, and having a second solenoid valve installed to open and close the water supply through the water supply port;
A raw material hopper provided with a first pump to store at least one raw material including the useful microbial group, and supply the same to the useful microbial group culture apparatus;
A raw material supply line branched from the raw material hopper to each of the useful microorganism culture apparatuses, and having a third solenoid valve installed to open and close the supply of raw materials through the raw material supply port;
A first discharge line provided with a fourth solenoid valve for opening and closing the discharge of the culture solution cultured in the useful microbial group culture apparatus;
A second water supply line branched from the main water supply line to each of the useful microorganism culture apparatuses, and provided with a second pump for increasing a supply pressure of water, and a fifth solenoid valve installed with a fifth solenoid valve for opening and closing water injection through the washing head;
A second discharge line provided with a sixth solenoid valve for opening and closing the discharge of the residue remaining therein with the water injected into the useful microbial group culture apparatus; And
And a control panel installed to control each of the solenoid valves and the pump and to control the heater and the circulating motor.
The method of claim 5, wherein the water supplied from the main water supply line is heated to a constant temperature, the integrated culture using the useful microorganism group culture apparatus comprising a; water heater for supplying the heated water to the raw material hopper system.

Images