KR101615740B1 - Culture Medium Of Partition - Google Patents

Abstract

The present invention relates to an incubator which artificially culturing microorganisms and, more specifically, to a multi-temperature partitioning incubator which can be opened and closed by having an air-forwarding pipe to prevent evaporating or dead materials inside the incubator and a body of the incubator from burning by high temperature steam flowing in the air-forwarding pipe enclosing the body of the incubator and to minimize heat consumption, when culturing microorganisms, bacteria, and the like inside the body of the incubator.

Description

{Culture Medium Of Partition}

The present invention relates to an incubator for artificially culturing microorganisms. When cultivating microorganisms, bacteria, and the like in an incubator body, the evaporated or dead material inside the incubator and the body of the incubator are heated to a high temperature To a multi-temperature fractionation incubator for preventing burning due to steam of steam and reducing heat consumption.

An incubator, also called a medium, is a device made to artificially multiply bacteria or microorganisms. Cultured materials include animal and plant matter and chemical compounds, and various cultures are widely used for agriculture and animal husbandry. In the case of agriculture or livestock, the selective cultivation of microorganisms is spread on the soil to promote the production of crops, to prevent pests and diseases, to feed the livestock to promote growth, to prevent diseases, to improve meat quality, Effect.

Normally, when the microorganism is cultured, the inside of the incubator tank main body is maintained at a proper temperature. The conventional microorganism incubator is composed of a single air circulation system which surrounds the entirety of the incubator tank main body at a suitable temperature for culturing. The microorganisms inside the tank body are evaporated when they are cultured by high temperature steam. As the material evaporates and the amount of culture decreases, a space is formed inside the tank body. The air circulation system is wrapped around the whole body to provide continuous high-temperature steam to the space without the culture, so that heat is consumed. When the incubator tank body burns or the dead culture is burned due to the high temperature inside the incubator tank body There was a problem.

Patent Document 10-2010-0121346 (indirect heating type microorganism incubator)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a multi-temperature fractionation incubator for preventing burning of dead materials in the incubator main body and incubator during cultivation of microorganisms or bacteria inside the incubator, will be.

The incubator includes a cylindrical tank body, a lid provided on an upper surface of the tank body for introducing microorganisms for culturing the tank body therein, a lid provided on an upper surface of the tank body, A steam generator for generating steam for supplying heat suitable for culturing the microorganisms injected into the tank main body, and a steam generator for generating heat of steam supplied from the steam generator, the steam generator being configured to surround the outer circumferential surface of the tank main body, A steam injector for supplying the steam generated from the steam generator to the gas engine, a steam generator for discharging steam from the gas engine to the outside, Further comprising valve means for controlling the opening and closing of the discharge portion, wherein the steam injecting portion and the steam discharging portion Wherein the steam injection unit and the steam discharge unit are installed at both ends of the tank body so as to be spaced apart from each other, One end of the steam injector is connected to a steam generator formed at a lower side of the tank body and the other end is divided and connected to each of a plurality of divided air conveyance engines, one end of the steam discharger is connected to the outside, The other end of the steam discharging portion connected to the lowermost one of the plurality of divided steam engines and connected to the lowermost one of the plurality of divided steam engines is positioned at the same height, The other end of the steam injection unit connected to the air supply source excluding the lowermost one of the four air supply sources is connected to the other end of the corresponding steam discharge unit And a fan for forcibly moving the steam flowing into the air circulating the outer circumferential surface of the tank body is provided in the divided plurality of air ducts, Or the low temperature steam, and the control unit controls the control unit to set a preset reference time in consideration of the amount of the cultured product evaporated and consumed, so that steam is not supplied to the air supply unit higher than the level of the culture liquid inside the tank body, And stops the supply of steam by sequentially closing the steam injection unit of the air conditioner arranged at the upper portion of the air conditioner according to the inputted reference time to the steam inserting unit of the air conditioner arranged at the lower portion.

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As described above, according to the present invention, the inner space of the tank body where the microorganisms and the like are cultured is surrounded by the outer circumferential surface, and the microorganisms and the like in the interior are evaporated due to the high-temperature steam inside the airtight vessel. At this time, the upper part of the tank main body, which becomes empty due to evaporation, is damaged by the continuous steam, and the heat is consumed. In addition, indirect heating is performed with high temperature steam to cause the culture inside the tank body to die. There is a problem in that the culture that has been dying at this time burns in the inside of the incubator tank body when the steam of high temperature is continuously received.

In order to prevent such a phenomenon, a plurality of air ducts formed by enclosing the outer circumferential surface are formed and stacked in the vertical direction. The steam injection unit formed at one side of the air circulation passage is closed so that the steam is not sequentially injected from the air supply duct located at the upper part of the tank main body to the lower air supply duct according to the time inputted to the control unit provided outside the incubator, The steam injection part of the air supply tube located above the liquid level of the culture liquid inside the main body is closed. This is effective in reducing heat dissipation and preventing the internal material or the tank body itself from burning.

1 is an overall perspective view of a preferred embodiment of the present invention.
2 is a perspective view in accordance with a preferred embodiment of the present invention;
3 is a flow diagram of steam according to a preferred embodiment of the present invention.
FIG. 4 is a state diagram of a steam injector according to a preferred embodiment of the present invention; FIG.
FIG. 5 is a state diagram of a steam injector according to a preferred embodiment of the present invention; FIG.
6 is a state diagram of a steam injector according to an amount of culture according to a preferred embodiment of the present invention.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It should be understood that there may be cultures and variations.

2 is a perspective view of a preferred embodiment of the present invention, FIG. 3 is a flowchart of steam according to a preferred embodiment of the present invention, and FIGS. 4 and 5 And FIG. 6 is a state diagram of a steam injector according to an embodiment of the present invention.

Referring to FIG. 1 and FIG. 2, the multi-temperature dividing incubator according to an embodiment of the present invention includes a tank body 100, a transmitter 300, and a controller 700.

The tank body 100 is formed with an internal space for culturing microorganisms or bacteria therein, and is formed in a cylindrical shape as a whole. The tank body 100 may be formed of a stainless steel material having high corrosion resistance. On the upper surface of the tank body 100, a lid 200 for introducing microorganisms or the like into the tank body 100 is formed. The lid 200 is detachably provided to be in communication with the tank body 100, so that the microorganism or bacteria can enter and exit the lid 200.

In addition, when the internal capacity of the tank main body 100 is small, a wheel may be provided at the lower end to facilitate movement, and a fixing member may be provided at the lower end to securely fix the internal capacity when the internal capacity is large.

The air supply conduit 300 is formed by surrounding the outer peripheral surface of the tank body 100. As the microorganisms in the tank main body 100 are cultivated, the upper part of the inside of the tank main body 100 is empty due to evaporation or death of microorganisms. In the conventional microorganism incubator, the air supply duct 300 is integrally formed from the upper part to the lower part of the tank main body 100. This is because when the upper part of the inside of the tank body 100 becomes a hollow space due to the evaporation of the culture or the death of the culture and becomes a hollow state in which there is no material to be cultured, So that the upper part of the empty tank main body 100 rides on the inside thereof, or the dead material rushes in the course of the culture and the heat is consumed.

In order to solve the above-described problem, a plurality of air purifiers 300 surrounding the outer circumferential surface of the tank main body 100 are vertically stacked. That is, each of the air conveying units 300 stacked and formed can be independently formed into a toroidal annular shape. A steam injection unit 400 is provided at one side of the air supply pipe 300 and a steam discharge unit 600 is provided at the other side. In addition, the incubator includes a controller 700 for controlling the opening and closing of the steam injector 400 and the steam discharger 600.

The steam injector 400 is provided at one side of each of the plurality of air lines 300 stacked in the vertical direction and is provided with valve means (not shown) for controlling the supply of steam. The steam injector 400 is for injecting steam and is connected to a steam generator 500 provided outside the tank body 100.

The steam discharging unit 600 discharges the steam introduced from the steam generator 500 through the steam injecting unit 400 into the air supplying apparatus 300 through the air supplying apparatus 300, And opening / closing valve means (not shown) is provided to control the discharge of steam. The steam discharging unit 600 is provided on the other side of each of the plurality of stacked charging units 300 to discharge the steam. At this time, a fan 310 for forced movement of steam may be provided in the air supply duct 300 to facilitate the movement of steam.

In culturing a microorganism or a bacterium, an appropriate temperature of a high temperature or a low temperature is required depending on the culture. The steam generator 500 can selectively generate high temperature or low temperature steam depending on the type of culture inside the tank body 100 and inject the steam into the air supply duct 300.

The steam injector 400 and the steam generator 500 may be formed of a stainless steel material having high corrosion resistance and capable of withstanding high temperature steam.

The tank body 100 is provided with a control unit 700. The control unit 700 controls the opening and closing of the steam injecting unit 400 and the steam discharging unit 600.

When the reference time is input to the control unit 700, the opening and closing of the valve means (not shown) is sequentially performed based on the time from the steam injection unit 400 provided at the upper portion to the steam injection unit 400 provided at the lower portion And closed. This is to prevent the steam generated from the steam generator 500 from entering and exiting the steam engine 300. The heat from the air supply pipe 300 is no longer transferred to the space above the tank body 100, which is an empty space. At this time, the reference time is preset in consideration of the amount of the cultured product that is evaporated and consumed.

4 and 5 to 6, the controller 700 senses the level of the tank body 100 and detects the level of the culture medium inside the tank body 100, The steam injector 400 of the steam generator 300 may be controlled to open and close the valve means to close the valve.

Due to the closing of the steam injection unit 400, the tank body 100 in the portion where the steam pipe 300 is not wrapped around the steam pipe can not transfer heat to the inside of the tank body 100, Or the tank body 100 itself does not burn and the heat consumption is reduced.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: tank body
200: Lid
300: Song agency
310: Fan
400: steam injection section
500: Steam generator
600: steam discharge portion
700:

Claims (4)

In an incubator for artificially culturing microorganisms,
The incubator comprises a cylindrical tank body 100;
A lid 200 provided on the upper surface of the tank main body 100 for introducing microorganisms for culturing the tank main body 100;
A steam generator 500 formed at a lower portion of the tank body 100 to generate steam for supplying heat suitable for culturing the microorganisms injected into the tank body 100;
A transfer organ (300) for transferring the heat of steam supplied from the steam generator (500) to the inside of the tank main body (100) formed to surround the outer circumferential surface of the tank main body (100);
A steam injector 400 for supplying the steam generated by the steam generator 500 to the air feeder 300;
A steam discharging part 600 for discharging the steam of the air conveying engine 300 to the outside; And
The control unit 700 further includes valve means for controlling the opening and closing of the steam injection unit 400 and the steam discharge unit 600 and for controlling the opening and closing of the steam injection unit 400 and the steam discharge unit 600, , ≪ / RTI &
The air duct 300 is formed in a donut-like annular shape and is arranged in a plurality of vertically stacked layers,
The steam injection unit 400 and the steam discharge unit 600 are installed at both ends of the tank body 100,
One end of the steam injector 400 is connected to a steam generator 500 formed at a lower portion of one side of the tank body 100 and the other end of the steam injector 400 is dividedly connected to each of a plurality of divided air lines 300,
One end of the steam discharging part 600 is connected to the outside and the other end of the steam discharging part 600 is dividedly connected to each of the plurality of divided air conveying engines 300,
The other end of the steam discharging part 600 corresponding to the other end of the steam injecting part 400 connected to the lowermost one of the plurality of divided transmission engines 300 is located at the same height,
The other end of the steam injection unit 400 connected to the air line 300 excluding the lowermost end of the plurality of divided air lines 300 is formed at a higher position than the other end of the corresponding steam discharge unit 600,
And a fan 310 for forcibly moving the steam introduced into the air conveyance pipe 300 surrounding the outer circumferential surface of the tank body 100 is disposed in the plurality of divided air ducts 300,
The steam generator 500 selectively generates high temperature or low temperature steam depending on the type of microorganism to be cultured,
The control unit 700 receives a preset reference time from the user in consideration of the amount of the culture that is evaporated and consumed so that steam is not supplied to the air supply duct 300 at a higher level than the level of the culture liquid in the tank main body, The steam supply unit 400 is sequentially closed to the steam injection unit 400 of the transfer engine 300 disposed at the lower part from the steam injection unit 400 of the air supply unit 300 disposed at the upper part according to the inputted reference time, Lt; RTI ID = 0.0 > 1, < / RTI > delete delete delete

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