KR101137507B1 - Solid fermentor - Google Patents

Abstract

PURPOSE: A solid culture apparatus using a solid medium is provided to enhance yield of microorganism culture and to ensure culture simplicity. CONSTITUTION: A solid culture apparatus(1) for culturing microorganism comprises: a space(13) placed at the upper portion of a culture chamber(12); an outlet port(14) which is covered with an outlet cover(14a); an opening/closing door mounted at the front of the culture chamber; a main body(10) having a moving device(16) mounted at the lower portion of the culture chamber; a heater(20) which is placed the lower portion of the culture chamber and supplies heat to the culture chamber; and a ventilation fan(30) for discharging the air of the culture chamber by being mounted at the boundary of the space and culture chamber.

Description

Solid incubator {SOLID FERMENTOR}

The present invention relates to a solid incubator capable of culturing microorganisms using a solid medium, and more particularly, comprising a culture base, a heater, a blower fan, a blower tube, a nozzle, and a controller, and a culture chamber through a blower tube and a nozzle on the side of the culture chamber. The present invention relates to a solid incubator capable of increasing the yield of microorganisms by uniformly supplying warm air to the whole to uniformly match the inside of the culture chamber to a temperature suitable for microbial growth.

Recently, technology using microorganisms in agriculture, livestock, fisheries, etc. has been developed and widely used. Microorganisms applied to agriculture include photosynthetic bacteria, lactic acid bacteria, Bacillus bacteria, yeast bacteria and cyanobacteria, and these microorganisms are cultured to promote crop growth or soil improvement by means of seed disinfection, soil spraying, irrigation or foliar spraying. We use for. And these microorganisms have the effect of helping beneficial bacteria and inhibiting harmful bacteria. In the livestock industry, microbes can be fed into livestock feed or drinking water to increase feed efficiency, suppress disease infection, improve digestibility, purify manure, remove odors, and inhibit the growth of pathogens. When used in aquaculture, it can be effective in purifying water, suppressing pathogens, and improving disease resistance.

As such, most of the microorganisms used in various fields of agriculture and the like are inoculated and cultured in a liquid medium to obtain a liquid microbial agent, resulting in inconvenience in distribution and use. Recently, after inoculating microorganisms into a solid medium and incubating the drying process, the dried microorganisms are powdered and used.

For example, Korean Patent Publication No. 10-0386831 discloses a cover 5 that is opened and closed by inserting a heating wire 8 into a square hole 7 installed in a ceiling 6, and an internal culture chamber 2 of the cover 5. A culture plate 11 is installed in the tank) to connect the stirrer 20 to stir the culture material 12 to the motor 21 through the stirring chain 25 and to reciprocate from the rail 19 to the sprocket 22. Connect the apparatus 4 and the circulating duct 18 connected to the culture chamber 2 to the air conditioner 13 in which the heater 15 is installed, and receive hot water from the water supply tank 16 to adjust temperature and humidity, 14) is described in the technology related to the solid incubator consisting of the incubator (1) for supplying to the supply chamber (3), the solid incubator as described above to agitate the culture material by reciprocating the stirring device through the perforation of the culture plate Although there is an advantage that the uniform temperature and humidity can be maintained in the culture material, the culture plate ( 11) There is a disadvantage that can not culture a large amount of microorganisms because only one.

In addition, the general microbial incubator and solid incubator has a disadvantage that the culture of microorganisms in the culture chamber may not be uniform even because the flow of hot air from the blower fan is concentrated in the center.

The present invention is invented to solve the problems as described above,

A culture chamber in which a culture plate is installed, a space portion formed in an upper portion of the culture chamber, an outlet formed in an upper portion of the space portion and covered by an outlet cover, an opening / closing door installed in front of the culture chamber, and a mobile water unit installed in the lower surface of the culture chamber. Cultured main body; A heater installed in the culture chamber; At least one blowing fan installed in the space part; A blower pipe connected to the blower fan and installed at a side portion of the culture chamber; A nozzle mounted on the blowing pipe; And a control device for controlling the driving of the heater and the blower fan, and the purpose thereof is to supply the warm air supplied from the blower fan to each culture plate from the culture chamber side through a nozzle connected to the blower tube. It is to provide a solid incubator to solve the problem that the warm air is not easily supplied to the entire culture plate by uniformly supplying the warm air to the entire culture chamber to increase the yield of microbial culture.

Solid incubator according to the present invention for achieving the above object,

At least one culture chamber having a culture plate installed therein, a space portion formed at an upper portion of the culture chamber, an outlet formed at an upper portion of the space portion and covered by an outlet cover, an opening / closing door installed at the front of the culture chamber, and a movable water on the lower surface of the culture chamber. Culture base consisting of a group; A heater installed in the culture chamber; At least one blowing fan installed in the space part; A blower tube connected to the blower fan and extended to a side surface of the culture chamber; a plurality of nozzles mounted on the blower tube to uniformly supply the warm air to the culture plate; and a control device to control driving of the heater and the blower fan. It is characterized by consisting of;

In addition, the solid incubator of the present invention further includes a temperature sensor installed in the culture chamber to sense the internal temperature of the culture chamber.

In addition, the solid incubator of the present invention further comprises a culture plate placed in the holder in the culture chamber and the microorganism is cultured.

According to the solid incubator of the present invention, when the heater is heated and the blower fan is operated, a flow of warm air is generated from the heater to the upper part of the culture chamber, and the elevated hot air is circulated and supplied to the lower part of the culture chamber through the blower fan. Through the warm air flows. The blower tube is provided with a plurality of nozzles for supplying warm air, and as warm air is supplied from the nozzle on the side of the culture chamber, the warm air is uniformly supplied to the entire culture chamber, and the temperature around the culture plate is uniform, so that the microbial cultivation is constant to increase microbial yield. It can be effective.

In addition, the solid incubator according to the present invention can be cultured and dried at the same time, the microbial manufacturing process is simple by culturing and drying the microorganisms in the solid incubator, it is possible to overcome the problems in distribution and use when using a liquid microbial agent It works.

1 shows an overall perspective view of a solid incubator according to the present invention.
Figure 2 shows a partial cross-sectional perspective view of a solid incubator according to the present invention.
Figure 3 shows a cross-sectional view of a solid incubator according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of a solid incubator according to the present invention will be described in detail. The present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, only this embodiment to make the disclosure of the present invention complete and to those skilled in the art to fully understand the scope of the invention It is provided to inform you.

1 is an overall perspective view of a solid incubator according to the present invention, FIG. 2 is a partial cross-sectional perspective view of the solid incubator according to the present invention, and FIG. 3 shows a cross-sectional view of the solid incubator according to the present invention.

As shown in Figures 1 to 3, the solid incubator 1 according to the present invention is a culture incubator for culturing microorganisms by inoculating microorganisms cultured in a liquid medium, the culture main body 10, the heater 20 ), A blowing fan 30, a blowing pipe 40, a nozzle 41, and a controller 50.

The culture main body 10 has a rectangular box shape such as an iron plate or a panel, and has at least one culture chamber 12 (two in the figure) and a space separate from each other on an upper portion of the culture chamber 12. A discharge port 14 formed of a space 13 and covered with an outlet cover 14a is formed on an upper portion of the space 12, that is, an upper surface of the culture main body 10, and of the culture chamber 12. An opening and closing door 15 including a handle 15a is installed on the front surface, and a moving water unit 16 is installed on the lower surface of the culture chamber 12 to facilitate the movement of the culture base 10.

The culture chamber 12 is provided with a plurality of holders (11a) at regular intervals up and down on both side walls are configured so that each culture plate 11 is easily mounted on the holder (11a).

The space 13 is formed as a separate space on the upper portion of the culture chamber 11 to discharge the warm air supplied from the culture chamber 11 to the outside, or to circulate back to the culture chamber 11.

 The outlet 14 is formed in the upper portion of the space portion 13, and includes an outlet cover 14a, the hot air is not discharged out in the state in which the outlet cover 14a is closed, the outlet bucket 14a In the open state), the warm air of the culture chamber 12 is discharged outside.

The opening and closing door 15 is installed to open and close the front of the culture chamber 12, and includes a handle 15a to facilitate opening and closing.

The movable water unit 16 is installed at both corners of the lower surface of the culture chamber 12 to facilitate movement, and a representative example of the movable water unit 16 is a wheel.

The heater 20 is installed at the lower end of the culture chamber 12 of the culture main body 10 to supply warm air toward the upper portion of the culture chamber 12, thereby increasing the temperature of the entire culture chamber 12.

The blowing fan 30 is installed at the lower end of the space 13 of the culture main body 10 to discharge the warm air discharged from the heater 20 to the culture chamber 11 through the blower tube 40 and the nozzle 41. By circulating, the temperature and humidity of the culture chamber 12 are kept uniform.

The blower tube 40 is connected to the blowing fan 30 of the space 13 and is installed at the side of the culture chamber 12, and the nozzle 41 is installed at the side of the culture chamber 12 A plurality of blower pipes 40 are installed at regular intervals.

The blower tube 40 and the nozzle 41 solved the problem that the warm air was not supplied to the side part of the existing incubator by introducing the warm air supplied from the blower fan 30 to the side surface of the culture chamber 12.

The nozzle 41 is installed in the blower pipe 40, and installs a coupling member 41b having a central hole in the blower pipe 40 so that warm air is easily supplied, and the coupling member 41b and the nozzle head 41a are installed. ) Is combined to discharge the warm air supplied from the blower tube 40 through the coupling member 41b and the nozzle head 41a.

In addition, the nozzle 41 is provided in each of both side plates of each culture plate 11 to discharge the warm air, even if a plurality of culture plates 11 are used, the warm air is evenly supplied to the culture plate.

The control device 50 is installed outside the culture main body 10 to control the driving of the heater 20 and the blower fan 30, the on / off operation control device, the time control device according to the temperature Include.

In addition, when at least two or more temperature sensors 60 are installed inside the culture chamber 12 and rise above the temperature set by the control device 50, the temperature sensors 60 detect the set temperature. You can keep it.

Hereinafter, the operation and effects of the solid incubator 1 of the present invention will be described in more detail.

The microorganisms cultured in the liquid medium are inoculated in a solid medium, and a plurality of culture plates 11 containing the microorganisms inoculated in the solid medium are mounted on the holder 11a of the culture chamber 12 to culture the inoculated microorganisms.

Then, the control device 50 is electrically connected, the culture temperature and the incubation time set in accordance with the culture conditions of the microorganisms used, and the heater 20 and the blower fan 30 are operated.

Then, while the control device 50 is operated, the outlet 14 formed on the upper surface of the space 13 to close the outlet 14 (14a) in order to maintain a constant temperature and humidity for culturing the microorganisms.

Then, the warm air flows toward the upper part of the culture chamber 12 by the operation of the heater 20 and the blower fan 13, and the warm air is circulated toward the lower part of the culture chamber 12 through the blower tube 40. Conventional incubators tend to flow only to the central portion of the culture chamber 12, not evenly flowing, but in the solid incubator 1 of the present invention, the warm air flows through the blower tube 41 connected to the blower fan 30, and the blower tube A plurality of nozzles 41 are provided in the 41, and warm air flows into the culture chamber from the side of the culture chamber 12. Therefore, unlike the conventional incubator, the warm air is supplied evenly to the entire culture chamber 12, so that microbial culture is smoothly performed.

When the microorganisms grow in the culture plate, the temperature of the heater 20 is increased to dry the microorganisms, and the warm air is discharged to the outside of the solid incubator 1. That is, the outlet cover 14a of the closed outlet port 14 formed on the upper surface of the space 13 is opened to dry the cultured microorganisms.

The solid incubator 1 according to the present invention can overcome the disadvantages in distribution and use when using a liquid microbial agent as a device capable of simultaneously culturing and drying microorganisms, and the blower tube 40 and the nozzle 41 are Since the warm air is introduced into the side of the culture chamber 12 so that the warm air flows evenly throughout the culture chamber 12, the yield of microbial culture can be improved.

It will be described in detail the culture method of the microorganism according to the action of the solid incubator (1).

Each culture plate 11 is inoculated with 20 to 40% by weight of microorganisms in 60 to 80% by weight of the solid medium, and the outlet 14 formed on the upper surface of the space 13 is closed by the outlet cover 14a. After that, it is maintained for 1 to 2 days at a temperature of 37 ~ 40 ℃, humidity of 60 ~ 95%. Then, the outlet 14 formed on the upper surface of the space 13 is opened and closed by the outlet cover 14a and maintained at a temperature of 40 to 45 ° C. for 1 to 2 days to incubate microorganisms.

At this time, the solid medium is composed of wheat products such as wheat and wheat flour, the ratio is preferably from 60 to 80% by weight of wheat, and 20 to 40% by weight wheat flour.

The microorganism is a microorganism that forms spores, a typical example of which is Bacillus subtilis.

Here, closing the outlet 14 formed on the upper surface of the space portion 13 by the outlet cover 14a prevents the temperature and humidity in the culture chamber from being discharged to the outside to maintain a predetermined culture temperature and culture humidity. To do this.

Then, opening and closing the outlet 14 formed on the upper surface of the space 13 by the outlet cover 14a is a solid incubator to warm the air to dry the microorganisms when the microorganisms are grown in the culture plate 11 (1) This is to discharge to the outside.

As described above with reference to the drawings exemplified for the solid incubator according to the present invention, the present invention is not limited by the embodiments and drawings disclosed herein, but to those skilled in the art within the scope of the technical idea of the present invention Of course, various modifications can be made.

1: solid incubator 10: culture base
11: culture plate 11a: holder
12: culture chamber 13: space
14 outlet 14a: outlet cover
15: opening and closing door 15a: handle
16: moving water group 20: heater 30: blowing fan 40: blowing pipe
41: nozzle 41a: nozzle head
41b: coupling member 50: control device
60: temperature sensor

Claims (5)

In the solid incubator for culturing microorganisms,
Comprising a space portion located in the upper portion of the culture chamber protruding the cradle, the discharge port formed on the upper surface of the space portion covered with the outlet cover, the opening and closing door installed in the front of the culture chamber, and the mobile water unit installed on the lower surface of the culture chamber Culture base;
A heater positioned below the culture chamber to supply heat to the culture chamber;
A blowing fan installed at an interface between the space and the culture chamber to discharge air from the culture chamber;
A blower pipe connected to the blower fan and installed at a side portion of the culture chamber;
A plurality of nozzles installed in the blower pipe and supplying air introduced from the blower fan to the culture chamber;
A controller for controlling driving of the heater and the blower fan;
A temperature sensor installed in the culture chamber and detecting an internal temperature of the culture chamber;
A culture plate placed in a holder of the culture chamber and cultured with microorganisms;
Solid incubator, characterized in that consisting of.
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