KR200280705Y1 - Cultivator for Micro-Organism Medium - Google Patents

Abstract

The present invention relates to a microorganism incubator, the electric heater is installed in the lower part of the container made of a circular tube to control the temperature, and the culture medium discharged to the lower part of the container by installing a circulation pump on one side of the electric heater, the upper part of the container Air vent at the top of the container to discharge the gas generated by the fermentation of microorganisms, and when the incubation is completed, it can be discharged using the ball valve attached to the next part of the circulation pump. It is characterized by a microbial incubator.

The microbial incubator according to the present invention has a function of culturing all anaerobic, aerobic and photosynthetic microorganisms, which has the advantage of reducing the burden to be purchased separately according to the characteristics of the microorganisms.

Description

Microbial incubator {Cultivator for Micro-Organism Medium}

The present invention relates to a microorganism incubator, and relates to a microorganism incubator capable of culturing various microorganisms such as aerobic, anaerobic and photosynthetic microorganisms.

Microorganisms are produced using incubators for a variety of purposes, such as agriculture, food, or removal of pollutants or measurement of pollution levels.

In particular, microorganisms are increasing in demand for agriculture and are recognized as an essential resource for agricultural technologies that promote agricultural productivity, such as promoting compost maturity, improving soil quality, inactivating residual pesticides, and preventing harmful microorganisms. It is spreading, and thus the use and demand in general farms are increasing.

In addition, since water treatment plants such as wastewater treatment use a wide range of biological water treatment methods using anaerobic and aerobic microorganisms, the demand for this is expected to increase further.

In general, the microbial incubators used so far are divided into aerobic and anaerobic microbial incubators and photosynthetic microbial incubators because of their different preferences for oxygen and light, which are microorganisms.

Therefore, in order to cultivate both aerobic, anaerobic and photosynthetic bacteria, it is necessary to purchase two incubators, and the burden on the user is great. Has the problem of increasing.

Therefore, in order to solve the above problems, the present invention is able to meet the culture conditions of anaerobic, aerobic and photosynthetic microorganisms, in the case of anaerobic microorganisms in an environment of suppressing the supply of oxygen, and in the case of aerobic microorganisms, Oxygen is supplied through circulation of the culture medium in the incubator without the installation of oxygen supply device. In the case of photosynthetic microorganism, fermentation is effected by light action of halogen lamp installed inside the incubator. Therefore, the purpose is to provide a microbial incubator that can reduce the inconvenience of purchasing and using a separate microbial incubator.

Figure 1 shows a perspective view of the microorganism incubator according to the present invention,

Figure 2 shows a cross-sectional view of the microorganism incubator according to the present invention,

3 is a cross-sectional view of the air vent of the microorganism incubator according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: container 20: air vent (handle)

30: container lid 40: halogen lamp

50: culture medium 60: electric heater

70: circulation pump 80: circulation pipe

90: valve C: control box

S: temperature sensor

In order to achieve the above object, the present invention is made of a cylindrical container 10 having an inclined portion capable of inducing a culture medium to the bottom, and the upper part of the container 10 is generated during the culturing of microorganisms. It has a container lid 30 formed at the center of the air vent 20 to discharge the gas, one side of the upper container 10 is installed a halogen lamp 40 for supplying light for the culture of photosynthetic bacteria Using the electric heater 60 installed in the lower part of the container, the culture solution 50 introduced into the container from the top, temperature control is made, and a circulation pump on one side of the electric heater 60 for the culture of aerobic microorganisms ( 70) and the culture medium discharged to the lower part of the container 10 is moved to the upper part of the container 10 through the circulation pipe 80 and put into the container 10 again to release the oxygen into the culture medium by dropping a certain height. Supply And, that the culture is completed when the circulation pump 70 so that the microorganism can use the valve 90 is attached to the next part to be discharged out of the incubator and its features.

Hereinafter, the microorganism incubator of the present invention will be described in detail.

1 is a perspective view of a microbial incubator according to the present invention, Figure 2 is a cross-sectional view of the microbial incubator according to the present invention, showing a structure capable of culturing both anaerobic, aerobic and photosynthetic microorganisms on the top of the cylindrical container (10) The container lid 30 is provided to be opened and closed, and the center of the container lid is shown in FIG. 3 so that the gas generated during the microbial culture in the container 10 can be continuously discharged without opening the container lid 30. As described above, the handle and the air vent 20 made by welding two T-shaped pipes can be attached and used, and the material of the container 10 and the container lid 30 is not particularly limited, but is preferably stainless steel. Use

When the microorganisms contained in the culture medium 50 introduced into the container are anaerobic microorganisms, a constant temperature is maintained by the electric heater 60 installed below the container 10 so as to maintain a temperature suitable for the culture conditions of the microorganisms included. At this time, the maintenance of the temperature is detected by the temperature sensor (S) located on the bottom inclined surface inside the container 10 can be maintained a constant temperature by the automatic temperature control function of the control box (C). . In the case of anaerobic microorganisms, the supply of oxygen is not necessary, so the anaerobic microorganisms cultured can be obtained only by maintaining a constant temperature and the culture composition in the microorganism incubator of the present invention.

In the case of aerobic microorganisms, in order to impart aerobic conditions, the culture medium 50, the temperature of which is controlled by the electric heater 60, to the upper portion of the container 10 along the circulation pipe 80 by the operation of the circulation pump 70. By moving the culture medium (50) to drop a certain height drop from the surface of the culture medium (50) to supply the oxygen, and by repeating this process continuously, a sufficient amount without installing the oxygen supply device installed in the existing microorganism incubator It is possible to supply the oxygen supply to the aerobic microorganisms in the culture medium (50) to have the advantage of simplifying the operation and operation of the microorganism incubator.

In the case of photosynthetic microorganisms, the halogen lamp 40 is installed on one side of the inside of the container 10 to satisfy the culture conditions of the photosynthetic microorganisms so that the photosynthetic microorganisms can also be cultured.

When each microorganism incubation in the microorganism incubator with the above structure and function is completed, the culture medium flows in one place along the inclined surface formed on the bottom of the container 10 to exit the container, the culture medium 50 is the bottom of the container A valve 90, preferably a ball valve, attached to the circulation pump 70 can be easily discharged.

As described above, the microbial incubator of the present invention is a multi-purpose microbial incubator capable of meeting all of the anaerobic, aerobic and photosynthetic microbial culture conditions, thereby reducing the burden of purchasing a separate microbial incubator according to the microorganism. In this case, there is no need to install a complicated and expensive device such as an oxygen supply device, which has the advantage of economically supplying microorganisms used in various industries.

Claims (1)

The bottom is made of a cylindrical container having a inclined portion 10 to guide the culture solution to the center, the upper portion of the vessel 10, the air vent 20 for discharging the gas generated in the culture process of the microorganisms Has a container lid 30 formed in the center, one side of the upper container is installed a halogen lamp 40 for supplying light for cultivation of photosynthetic bacteria, the culture medium 50 is introduced into the container from the top of the container Temperature control is performed using the electric heater 60 installed on the lower part, and a circulation pump 70 is installed on one side of the electric heater for cultivation of aerobic microorganisms and the culture solution discharged to the lower part of the container is circulated. By moving to the upper part of the container through the back) to supply the oxygen to the culture medium by drop of a certain height, and when the culture is completed, the bell attached to the next portion of the circulation pump 70 Microbial culture medium, characterized in that the one to be discharged by using (90).