KR101639413B1 - The microbial culture medium equipped with auto supply - Google Patents

Abstract

The present invention relates to a microorganism culturing device having an automatic microorganism supply unit. More specifically, the microorganism culturing device comprises: a culturing chamber (110) for feeding a culture medium, supplying microorganisms in the culture medium, and culturing the microorganisms; and an automatic microorganism supply unit (120) for automatically supplying the microorganisms into the culturing chamber (110) in which the culture medium is fed. The automatic microorganism supply unit (120) comprises: a storing container (121) for storing the microorganisms mixed in the culture medium; a microorganism feeding port (122) disposed in an upper side of the storing container (121), and feeding the microorganisms into the storing container (121); a microorganism water level confirming means (123) disposed in the storing container (121), and confirming the quantity of the fed microorganisms; a microorganism supply pipe (124) for supplying the microorganisms stored in the storing container (121) to the culturing chamber (110); and an opening and closing valve (125) disposed in the microorganism supply pipe (124), and automatically supplying the microorganisms to the culturing chamber (110). According to the present invention, microorganisms for cultivation may be supplied to the culturing chamber in which the culture medium is prepared without contamination and accidents regarding safety.

Description

[0001] The present invention relates to a microbial culture apparatus having an automatic microbial culture unit,

The present invention relates to a microorganism incubator having an automatic microorganism feeder, and more particularly, to a microorganism incubator having an automatic microorganism feeder capable of supplying a microorganism to be cultivated easily and easily into a culture chamber through the microorganism automatic feeder, And more particularly, to a microorganism incubator having an automatic microbial supply unit capable of cleaning the automatic microbial supply unit in a short period of time in a cleaner and easier manner and shortening the subsequent incubation time.

In recent years, technologies for utilizing microorganisms in industry have been widely developed. As a method of using these microorganisms, microorganisms are cultured and sprayed on the soil to promote the production of crops, to prevent pests and diseases, to promote the growth of livestock, And contributes to obtaining high quality meat quality.

In the aquaculture industry, it can also be used for water purification, organic waste fermentation, and industrial waste purification. These microorganisms are also effective in reducing odor and pollution.

Therefore, in order to easily and stably utilize microorganisms, a microorganism culture apparatus is conventionally used.

The conventional microorganism culturing apparatus is configured to be capable of stirring and air injection as well as feeding of the medium.

A conventional conventional microorganism culture apparatus includes a culture tank in which a mixture (culture liquid) of a culture medium and a seed culture (hereinafter, referred to as "microorganism") is stored, a culture tank disposed in the culture tank, A motor for transmitting power by the stirring means, and an air supply unit installed on a bottom surface of the culture tank.

At the upper part of the culture tank, an inoculation port is formed for inoculating the culture medium and seed culture.

The culture medium inlet is composed of a charging tube having a thread formed on the outer peripheral surface thereof and a cap which is fastened to the charging tube and blocks the upper part of the charging tube.

Conventionally, when the culture medium is introduced into the culture tank through the culture medium inlet, the culture medium is flame-treated through the ignition of alcohol around the inlet of the injection tube so as to block contaminants in the air, Is used.

However, when the culture medium is flame-treated in the flame-treated surroundings as described above, there is a risk of burns, contamination of the periphery of the injection tube, contamination of microorganisms in the culture tank, I had a problem.

In order to solve such a problem, Korean Patent Registration No. 0767569 "incubator" has been proposed in the past.

However, such an incubator requires a lot of time for inoculation because the inoculation port of the seedling must be connected to the inoculation line, the sterilization supply line, and the steam supply line of the seedling inoculation line, and the structure of the medium feeding part is complicated, .

It is an object of the present invention to provide a microorganism incubator having an automatic microorganism feeder capable of feeding microorganisms for culturing to a culture chamber prepared without the risk of pollution and safety accidents.

Another object of the present invention is to provide a microorganism incubator having an automatic microbial supply unit capable of cleaning the automatic microbial supply unit after the microbial supply and before culturing another microbial cell in a clean and simple manner in a short period of time, thereby shortening the next incubation time.

In the meantime, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

A microorganism incubator having an automatic microbial supply unit according to the present invention includes a culture chamber for supplying a microorganism to the culture medium injected with a culture medium to culture the microbe, And a microorganism automatic supply unit for automatically supplying the microorganisms to the inside of the chamber, wherein the microorganism automatic supply unit comprises a storage container for storing the microorganisms mixed in the culture liquid, A microorganism inlet port for injecting the microorganisms into the storage container, a microorganism level checking means for checking the amount of the microorganisms injected into the storage container, a microorganism supply pipe for supplying the microorganisms stored in the storage container to the culture chamber, And a microorganism supply pipe A may include a first switching valve for supplying the microorganisms with the culture chamber.

Preferably, the automatic microorganism supply unit may be connected to the interior of the storage container and the washing unit for washing and sterilizing the microorganism supply pipe.

Preferably, the cleaning part includes a washing pipe provided on the upper part of the storage container, a steam generator for injecting high temperature and high pressure steam into the storage container through the washing pipe, A spray nozzle provided at one end of the washing tube for spraying the steam and the washing water to the inner circumferential surface of the storage vessel, a steam nozzle provided at the steam generator and the water dispenser, A second opening / closing valve provided in the steam generator for controlling whether the steam is injected or not, and a second opening / closing valve provided in the water supply device for supplying water to the steam generator, A third open / close valve for controlling the microorganisms, a third open / close valve connected to the microorganism supply pipe, May include a fourth switching valve for controlling the opening if the water pipe and the drain pipe for discharging the steam and the wash water.

Preferably, the culture chamber may be provided with a temperature sensor for measuring the internal temperature of the culture chamber, and the storage container may be made of a transparent material so that the amount of the stored microorganism can be visually confirmed.

The present invention has the following excellent effects.

First, the microorganism for culturing can be supplied to the culture chamber prepared with the culture liquid without risk of contamination and safety accidents.

In addition, there is an excellent effect that the automatic microorganism supply portion can be cleaned and cleaned more quickly and quickly after the microorganisms are supplied and before the other microorganisms are cultured, so that the subsequent culture time can be shortened.

1 is a perspective view showing the entire structure of a microorganism incubator having an automatic microorganism feeder according to an embodiment of the present invention.
Fig. 2 is a perspective view showing the entire configuration of the culture chamber shown in Fig. 1; Fig.
FIG. 3 is an enlarged view of the main part of the automatic microorganism supply unit shown in FIG. 1, and FIG. 4 is an enlarged view of the main part shown in FIG.

The term used in the present invention is a general term that is widely used at present. However, in some cases, there is a term selected arbitrarily by the applicant. In this case, the term used in the present invention It is necessary to understand the meaning.

Hereinafter, the technical structure of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

FIG. 1 is a perspective view showing the entire structure of a microorganism incubator having an automatic microorganism feeder according to an embodiment of the present invention, FIG. 2 is a perspective view showing the entire configuration of the culture chamber shown in FIG. 1, 3 is an enlarged view of the main part of the automatic microorganism supply unit shown in Fig. 1, and Fig. 4 is an enlarged view of the main part shown in Fig.

1 to 4, a microorganism incubator 100 having an automatic microorganism supply unit according to an embodiment of the present invention includes a microorganism culture unit 100 for supplying a microorganism to the culture medium into which the culture medium is injected, And includes a chamber 110.

Hereinafter, the culture chamber 110 will be described in detail with reference to FIG.

First, the culture chamber 110 includes a main body 110a formed with a space for culturing the microorganisms by mixing the culture medium injected into the culture chamber and the microorganisms supplied through the automatic microorganism supply unit 120 to be described later.

In this case, the main body 110a may have various shapes, and thus the main body 110a is not particularly limited. However, in the preferred embodiment of the present invention, the main body 110a has a cylindrical shape with an inner space formed therein.

A plurality of pedestals 119 for supporting the main body 110a are provided on the lower portion of the main body 110a.

Meanwhile, the culture chamber 110 according to an embodiment of the present invention is provided with a culture solution inlet 117 for injecting a prepared culture solution into the upper part of the main body 110a.

In addition, a light source unit 118 for irradiating light into the culture chamber 110 is provided at an upper portion of the main body 110a.

The reason why the light source device 118 is provided is for photosynthetic action of the cultured microorganisms and the light source device 118 may be provided inside the culture chamber 110. However, And the light source device 118 is installed outside the culture chamber 110.

The reason why the light source device 118 is installed outside the culture chamber 110 is to prevent the temperature change in the culture chamber 110 due to the light source device 118 and to prevent the temperature inside the culture chamber 110 So that the microorganisms can be uniformly cultured.

The light source device 118 may be a variety of light sources including LEDs and halogen lamps. Therefore, the light source device 118 may be installed at least as needed.

On the other hand, a driving motor 114 for rotating the stirring blade 113 for stirring the microorganisms and the culture liquid, which is connected to the rotation shaft 112 and inserted into the culture chamber 110, is provided on the upper part of the culture chamber 110 do.

On the other hand, the outer surface of the culture chamber 110 is provided with a goggle eyepiece 115 for visually checking the agitation of the inside of the culture chamber 110 and the culture condition of the microorganism.

At this time, the eyeball 115 is made of transparent reinforced plastic or tempered glass so that the interior of the culture chamber 110 can be visually confirmed.

A heating unit 116 is provided outside the incubation chamber 110 to maintain the internal temperature of the incubation chamber 110 at a temperature suitable for culturing the microorganism (about 35 ° C or so). The incubation chamber 110 And a temperature sensor 111 for controlling the heating unit 116 is provided.

As a result, the incubation chamber 110 can control the heating unit 116 through the temperature sensor 111 to maintain the inside of the incubation chamber 110 at a temperature suitable for microbial cultivation.

Meanwhile, the microorganism incubator 100 having an automatic microorganism supply unit according to an embodiment of the present invention includes an automatic microorganism supply unit 120 for automatically supplying the microorganisms into the culture chamber 110 into which the culture liquid is injected do.

Hereinafter, the automatic microorganism supply unit 120 will be described in detail with reference to FIG.

First, the automatic microorganism supply unit 120 includes a storage container 121 for storing the microorganisms mixed in the culture liquid.

In this case, the storage container 121 may be formed of various shapes and materials, and the storage container 121 may be formed of a variety of shapes and materials, It is made of transparent material so that the amount of microorganism can be visually confirmed.

The upper portion of the storage container 121 is provided with a microorganism inlet 122 for injecting the microorganisms into the storage container 121. The amount of the microorganisms injected into the storage container 121 And a microorganism level checking means 123 for checking the microorganism level.

At this time, the water level confirmation means 123 may use various means such as various water pressure sensors or scales on which the capacity is indicated.

In addition, a microorganism supply pipe 124 for supplying microorganisms in liquid form stored in the storage container 121 to the above-described culture chamber 110 is connected to the lower part of the storage container 121.

At this time, the microorganism supply pipe 124 is provided with a first opening / closing valve 125 for automatically supplying the microorganism to the culture chamber 110.

The microorganism incubator 100 having an automatic microorganism feeder according to an embodiment of the present invention may be configured such that a microorganism incubator 100 having an automatic microorganism feeder The first open / close valve 125 is automatically opened to automatically supply the microorganisms into the culture chamber 110.

The microorganism incubator 100 having the microorganism automatic feeder according to an embodiment of the present invention may be configured such that the microorganism automatic feeder 120 feeds the inside of the storage container 121 and the microorganism feed pipe 124 for washing and sterilizing And is connected to the cleaning unit 130. Hereinafter, the cleaning unit 130 will be described in detail with reference to FIG.

First, the cleaning part 130 is provided at one end of the washing pipe 131 and the washing pipe 131 provided at the upper part of the storage container 121, and the steam and washing water, And a spray nozzle 134 for spraying the ink onto the inner circumferential surface.

At this time, as shown in FIG. 4, the spray nozzle 134 protrudes from the upper part of the storage container 121 to the inside of the storage container 121.

The washing unit 130 includes a steam generator 132 connected to the washing pipe 131 and for injecting high temperature and high pressure steam into the storage vessel 121 through the washing pipe 131, .

The steam generator 1320 has a function of washing and sterilizing the storage container 121 in which the microorganisms have been supplied, and the inside of the storage container 121 is maintained sterilized through the steam generator 132 .

The steam generated in the steam generator 132 passes through the filter 135 connected to the steam generator 132 before being injected into the storage vessel 121.

The reason why the steam is passed through the filter 135 is to prevent the contaminated material contained in the steam from flowing into the interior of the storage vessel 121.

On the other hand, a second opening / closing valve 136 for controlling whether steam is injected into the steam generator 132, more specifically, a certain portion of the washing pipe 131 is provided.

The second on-off valve 136 serves to inject or block the steam generated through the steam generator 136 into the storage vessel 121, as described above.

The washing unit 130 includes a water dispenser 133 for washing the inside of the storage vessel 121, which has been firstly cleaned by steam of the steam generator 132, with washing water.

4, the water dispenser 133 is connected to the washing pipe 131 to supply washing water to the inside of the storage container 121, and the supplied washing water is supplied through the spray nozzle 134 And is sprayed on the inner peripheral surface of the storage container 121.

 As shown in FIG. 4, the washing pipe 131 is a pipe branched into two bifurcations. One end of the branched pipe is connected to the steam generator 132 and the water dispenser 133 are respectively connected.

On the other hand, the water supply device 133 is provided with a third opening / closing valve 137 for controlling whether the washing water is supplied or not.

The third on-off valve 137 controls whether or not the wash water is always supplied, similar to the second on-off valve 136 described above.

1, the washing unit 130 according to an embodiment of the present invention is connected to the microorganism supply pipe 124 to discharge the steam and washing water injected and supplied to the storage container 121, And a fourth opening / closing valve 139 for controlling whether the drain pipe 138 is open or not.

In order to prevent the contaminated water from flowing into the culture chamber 110, when the polluted water is discharged, the fourth open / The first open / close valve 125 is closed and the contaminated water is prevented from flowing into the culture chamber 110.

1, a microbial incubator 100 having an automatic microbial supply unit according to an embodiment of the present invention includes a check valve 131 for preventing backflow of a certain portion of the washing pipe 131 and a microbial supply pipe 124, (140) may be further provided.

At this time, the check valve 140 can use various types of check valves, so that it is not limited thereto.

As a result, the microorganism incubator 100 having an automatic microorganism feeder according to an embodiment of the present invention operates as follows.

First, a mixed solution of a microorganism and a culture medium to be cultured is injected into the storage container 121.

At this time, the culture medium for culturing the microorganisms is filled in the culture chamber 110, and is preheated to the optimal culture temperature of the microorganisms through the heating unit 116.

When the inside of the incubation chamber 110 reaches the optimum microorganism culture temperature, the temperature sensor 111 senses it and opens the first on-off valve 125 to remove microorganisms For example.

When the microorganism supply is completed, the first on-off valve 125 is closed and the storage vessel 121 is cleaned through the cleaner 130. The polluted water generated at this time is discharged to the drain pipe 138, Closing valve (139) provided in the first opening / closing valve (139).

As a result, the microorganism incubator having the microorganism automatic feeder according to an embodiment of the present invention can supply the microorganisms for culturing through the above-described technical configurations to the culture chamber prepared without the risk of contamination and safety accident, The microorganism automatic feeder can be cleaned and cleaned in a short period of time before the cultivation of another microorganism, so that the subsequent culture time can be shortened.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications may be made by those skilled in the art.

100: Microorganism culturing with automatic supply of microorganisms
110: culture chamber
110a:
111: Temperature sensor
112:
113: blade
114: drive motor
115: Sword eyeball
116:
117: Culture medium inlet
118: Light source device
119: Stand
120: Automatic microorganism supply unit
121: Storage container
122: Microorganism inlet
123: Water level checking means
124: microorganism supply pipe
125: first opening / closing valve
130: The three governments
131: Cleaning pipe
132: Steam generator
133: Watering machine
134: Spray nozzle
135: Filter
136: second opening / closing valve
137: Third open / close valve
138: Water pipe
139: fourth opening / closing valve
140: Check valve

Claims (5)

In a microorganism incubator,
A culture chamber 110 for supplying a culture solution into the inside of the incubator, which includes a heating unit 116 and a temperature sensor 111 and is maintained at a proper temperature while being heated, for culturing the microorganisms therein by supplying microorganisms to the culture solution; And an automatic microorganism supply unit (120) for automatically supplying the microorganisms into the culture chamber (110) into which the culture liquid is injected,
The automatic microorganism supply unit 120 includes a storage container 121 for storing the microorganisms mixed in the culture liquid; A microorganism inlet 122 provided at an upper portion of the storage container 121 to inject the microorganisms into the storage container 121; A microorganism supply pipe (124) for supplying the microorganisms stored in the storage container (121) to the culture chamber (110); A first opening and closing valve 125 provided in the microorganism feed pipe 124 for automatically feeding the microorganism into the incubation chamber 110 and a second open and close valve 125 for washing the inside of the storage container 121 and the microorganism feed pipe 124 And a drain pipe 138 is connected to the microorganism supply pipe 124 for supplying steam or washing water for sterilizing and discharging contaminated water that has washed the storage container 121 and the microorganism supply pipe 124, ) Comprises a cleaning part (130) which is opened or closed by a fourth opening / closing valve (139)
The inside of the culture chamber 110 filled with the culture medium in the state where microorganisms are injected into the storage container 121 of the automatic microorganism supply unit 120 is preheated to a temperature suitable for culturing microorganisms by the heating unit 116,
The automatic microorganism supply unit 120 opens the first on-off valve 125 when the culture chamber 110 is preheated to a proper temperature and is sensed by the temperature sensor 111, The microorganism is automatically supplied to the culture chamber 110,
When the supply of the microorganisms from the storage container 121 to the culture chamber 110 is completed, the first opening and closing valve 125 is closed and the steam or the washing water is supplied to the storage container 121 and the microorganism supply pipe 124 are cleaned and the polluted water generated by the cleaning is discharged through the drain pipe 138 by opening the fourth opening and closing valve 139. [ Microbiological incubator.
The method according to claim 1,
The automatic microorganism supply unit 120 further includes a microorganism level checking unit 123 provided in the storage vessel 121 for checking the amount of the microorganisms to be injected. Incubator.
3. The method of claim 2,
The cleaner 130:
A washing pipe 131 provided at an upper portion of the storage container 121;
A steam generator 132 for injecting high-temperature and high-pressure steam into the storage vessel 121 through the washing pipe 131;
A water dispenser 133 connected to the washing pipe 131 and supplying washing water to the inside of the storage container 121;
A spray nozzle 134 provided at one end of the wash tube 131 for spraying the steam and wash water onto the inner circumferential surface of the storage vessel 121;
A filter 135 installed in the steam generator 132 and the water dispenser 133 to prevent contaminants present in the steam and the wash water from flowing into the interior of the storage vessel 121;
A second on-off valve (136) provided on the steam generator (132) for controlling whether the steam is injected or not; And
And a third on-off valve (137) provided on the water supply unit (133) for controlling whether the wash water is supplied or not.
4. The method according to any one of claims 1 to 3,
Wherein the storage vessel (121) is made of a transparent material so that the amount of the stored microorganism can be visually confirmed.
delete

Images