KR101287757B1 - Microorganism cultivation device - Google Patents

Abstract

PURPOSE: A culture apparatus of microorganisms is provided to micronize air particles and a mixture in a culture tank by separate through-holes, to increase the speed of microorganism proliferation, and to shorten culturing time. CONSTITUTION: A culture apparatus of microorganisms comprises: a culture tank (1) which stands on the ground, and has a medium inlet part (11) at one side of the upper portion and an air inlet part (12) at the lower portion therein; a motor (2) which is formed at the upper center of the culture tank; a stirrer (3); and a plurality of vertical baffle plates which is vertically protruded at the inner circumference of the culture tank in same intervals. The stirrer is formed in the culture tank and has a rotary shaft (31) which is vertically formed at the inner center of the culture tank and is connected to the motor. The rotary shaft has a plurality of rotary disks (32) with a multi-stage structure. A plurality of flat particle separation plates (33) is protruded at the circumference of the rotary disk and is formed in same intervals. The flat particle separation plates have a plurality of through-holes (H) which minutely separates a mixture and air particles.

Description

Microorganism cultivation device

The present invention relates to a microorganism culturing apparatus, and more particularly, to form a separate through-hole through which the mixture and air pass in a rotating plate-shaped particle separation plate and a fixed vertical baffle plate to refine the particles of the mixture and air in the culture tank. It relates to a microbial culture apparatus that can shorten the growth time of microorganisms by speeding up the growth of the microorganisms.

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.

In order to easily and stably utilize the microorganisms, a variety of microbial culture apparatuses have been conventionally proposed. For example, Korean Unexamined Patent Publication No. 2011-0134044 has been proposed.

As shown in FIG. 8, the stirring apparatus for culturing microorganisms includes a culture tank 100 in which a mixture (culture medium) of a culture medium and a spawn (hereinafter, referred to as "microorganism") is stored, and the culture tank. Is disposed in the (100) and the rotating means for stirring the mixture 200, the motor 300 for transmitting power to the stirring means 200, and the air installed on the bottom surface of the culture tank 100 Including a supply unit 120, around the inner wall surface of the culture tank 100 is provided with a fixed plate 130 to bump the mixture flowing from the action of the stirring means 200 to increase the mixing and stirring efficiency.

The stirring means 200 may include a first rotating shaft having an installation space therein, a second rotating shaft fixedly installed in the first rotating shaft 210, and a first bevel gear formed on a circumferential surface of the second rotating shaft. And a blade 230 having a second bevel gear meshed with the first bevel gear.

The blade 230 rotates in the circumferential direction and the direction orthogonal to the circumferential direction by the first rotation shaft 210 and the second rotation shaft.

By the way, the conventional microbial culture stirring device configured as described above has the following problems.

The conventional microbial culture agitation apparatus has a problem that the incubation time is lengthened by slowing down the growth rate of microorganisms as the particle size of the mixture and air introduced into the culture tank is large.

In addition, as each blade rotates while the motor rotates, excessive resistance is generated in the rotation process of the blade, thereby causing damage to the motor and increasing power consumption of the motor.

Republic of Korea Patent Publication No. 2011-0134044 "Agitator for microbial culture" (2011.12.14).

Accordingly, the present invention has been made to solve the conventional problems as described above,

An object of the present invention is to form a separate through-hole through which the mixture and air pass through a rotating plate-shaped particle separator and a fixed vertical baffle plate to refine the mixture and air particles in the culture tank to speed up the growth of the microorganisms. The incubation time can be shortened, and the mixture settled to the top is floated to the top, and the mixture floated to the top is settled to the bottom to create a vortex in the inside of the culture tank, thereby improving the agitation efficiency to further increase the incubation time of the microorganisms. The present invention provides a microorganism culturing apparatus capable of shortening and preventing the mixture from accumulating on the upper surface of the rotating disc by forming a screw-shaped protrusion plate around the rotating shaft to prevent the culture efficiency of the microorganism from being lowered.

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In order to achieve the above object, the "microbial culture apparatus" according to the present invention, the culture tank is built on the ground, the medium is provided on one side of the upper portion, the air is provided in the lower portion of the inside; A motor provided at an upper center of the culture tank; Is provided in the culture tank, the inner center of the culture tank is provided with a rotary shaft connected to the motor vertically, the rotary shaft is provided with a plurality of rotary disks in multiple stages, the upper and lower parts around the respective rotary disk Rotating stirring to form a plurality of plate-shaped particle separation plate is formed at equal intervals to protrude to the outside and the plate-shaped particle separation plate is formed through a plurality of separation holes through the mixture and air to finely separate the particles of the mixture and air Wealth; A plurality of vertical baffle plates vertically formed to protrude at equal intervals on an inner circumferential surface of the culture tank; In a microbial culture apparatus comprising; The rotating disk is installed on the rotating shaft so that the three are spaced up and down, the plate-shaped particle separator is attached to the rotating disk vertically at six equal intervals, the rotating stirring portion, so as to project horizontally to the lower portion of the rotating shaft A lower rotary blade portion having four lower inclined wings formed thereon so as to move the mixture precipitated around the rotary shaft upward, and a mixture mounted to protrude horizontally on the upper portion of the rotary shaft and floating around the rotary shaft; The upper rotary blade portion is formed with four upper inclined wings inclined in the opposite direction to the lower inclined blades to move the lower, along the entire circumference of the rotating shaft between the upper and lower rotary blades; It further comprises a screw-shaped protrusion plate protruding in a sand shape; The lower inclined vanes, upper inclined vanes, screw-shaped protrusions and vertical baffle plates are respectively formed on the lower inclined vanes, upper inclined vanes, screw-shaped protrusions and vertical baffle plates to allow mixture and air to pass through the mixture and air. It characterized in that it comprises a plurality of separation through, which finely separates the particles.

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The present invention as described above, by forming a separate through-hole through which the mixture and air pass through the rotating plate-shaped particle separator and the fixed vertical baffle plate to refine the particles of the mixture and air in the culture tank to speed up the growth of microorganisms It can shorten the incubation time of microorganisms, improve the agitation efficiency by raising the efficiency of agitation by raising the mixture settled to the top and settling the mixture floating up to the bottom to create a vortex inside the culture tank. It is possible to further shorten, by forming a screw-shaped protrusion plate around the rotating shaft to prevent the mixture from accumulating on the upper surface of the rotating disk has the effect of preventing the culture efficiency of the microorganisms is lowered.

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1 is a perspective view showing a microorganism culture apparatus of a first embodiment according to the present invention.
2 is a sectional view taken along the line AA in Fig.
3 is a sectional view taken along line BB of Fig.
Figure 4 is an enlarged perspective view of the rotary stirring portion of the microbial culture apparatus of the first embodiment according to the present invention.
Figure 5 is an enlarged perspective view of the vertical baffle plate of the first embodiment according to the present invention.
Figure 6 is a cross-sectional view showing a microbial culture apparatus of a second embodiment according to the present invention.
7 is an enlarged view of a portion C of FIG. 6;
Figure 8 is a cross-sectional view showing a conventional microbial culture stirring device.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a perspective view showing a microbial culture apparatus of a first embodiment according to the present invention, Figure 2 is a cross-sectional view taken along the line AA of Figure 1, Figure 3 is a cross-sectional view taken along the line BB of Figure 1, Figure 4 5 is a perspective view showing an enlarged rotary agitator of the microbial culture apparatus of the embodiment, and FIG. 5 is an enlarged perspective view of the vertical baffle plate of the first embodiment according to the present invention.

As shown therein, the first embodiment of the present invention is a microbial culture apparatus, a culture tank 1, a motor 2 provided in the upper center of the culture tank 1, and the culture tank 1 It includes a rotary stirring portion (3) provided in the interior and the vertical baffle plate (4) formed to protrude on the inner peripheral surface of the culture tank (1).

The culture tank (1), which is erected vertically through a number of legs on the ground, is configured in the shape of a cylindrical tube is blocked up and down. And the upper one side of the culture tank (1) is provided with a medium inlet for injecting the medium and spawn into the culture tank (1). In addition, the lower portion of the inside of the culture tank 1 is provided with an air inlet 12 for supplying air into the mixture of the culture tank (1).

The motor 2 is to be fixed to the upper portion of the culture tank (1) serves to rotate the rotary stirring unit (3), the configuration of such a motor (2) is already known in the configuration of the motor (2) And operation descriptions are omitted.

In addition, the rotary stirring unit (3) is connected to the motor (2) and is provided in the culture tank (1), the medium and the seed of the liquid to be filled in the culture tank (1) (" And the air introduced from the bottom of the mixture.

The rotary stirring unit 3, which serves as described above, is connected to the motor 2 at the center of the culture tank 1, and is provided in multiple stages on the rotary shaft 31 and the rotary shaft 31. It comprises three rotating disks 32 and six plate-shaped particle separators 33 formed at equal intervals around each of the rotating disks 32.

The rotary shaft 31 is installed to be rotated through the drive of the motor 2 as it is connected to the motor 2 through the upper center of the culture tank (1). In addition, the rotation disc 32 may be inserted into the center of the rotation shaft 31 to be fixed by welding or a fastening element, etc. In the accompanying drawings, a state of being fixed by welding is illustrated.

Each of the plate-shaped particle separation plate 33 is fixed to protrude out and up and down around the rotation disc 32. That is, the plate-shaped particle separator 33 is fixed to stand vertically, it is fixed to the circumference of the rotary disk 32 by welding. And the plate-shaped particle separation plate 33 is formed with a plurality of separation holes (H), the plurality of separation holes (H) while passing the mixture and air filled in the culture tank (1), the mixture and air particles It serves to separate and disperse the separation into fine particles. And the diameter of the separation hole (H) is determined according to the culture microorganism to obtain.

Therefore, by forming a separation hole (H) in the rotating plate-shaped particle separation plate 33, it is possible to speed up the growth rate of microorganisms by finely separating the mixture and air particles in the culture tank (1). In addition, by forming a separation hole (H) in the plate-shaped particle separation plate 33 provided in the rotating disk 32 to reduce the rotational resistance of the rotary stirring unit 3, to prevent damage to the motor (2) While reducing the power consumption of the motor (2).

In addition, the vertical baffle plate 4 is formed vertically to protrude on the inner circumferential surface of the culture tank (1) is formed with a plurality of separation holes (H), and rotates in one direction to pass through the mixture and air spread outwards. To separate and disperse the particles of the mixture and air, thereby miniaturizing the particles of the mixture and air.

The vertical baffle plate 4 having such a role is formed to protrude at equal intervals on the inner circumferential surface of the culture tank 1, and is fixed to the inner circumferential surface of the culture tank 1 by welding or fastening elements. In the figure, the state fixed by welding is shown. The vertical baffle plate 4 is provided with a plurality of separation holes H, and the plurality of separation holes H pass through the mixture and air filled in the culture tank 1, and mix the particles of the mixture and air. It serves to separate and disperse into fine particles. And the diameter of the separation hole (H) is determined according to the culture microorganism to obtain.

Therefore, by forming a separate through-hole (H) through which the mixture and the air passes in the vertical baffle plate (4), the mixture of the mixture and the air in the culture tank (1) to be finely separated by accelerating the growth rate of the microorganism It can shorten the incubation time.

Hereinafter, the process of culturing the microorganism through the microbial culture apparatus of the first embodiment according to the present invention configured as described above is as follows.

1 to 5, when culturing microorganisms through the microbial culture apparatus of the first embodiment according to the present invention, first, the liquid phase into the medium input unit 11 provided on the top of the culture tank (1) The medium and the microorganism are added, air is introduced into the air inlet 12 provided at the lower portion of the culture tank 1, and the air is introduced into the mixture composed of the medium and the microorganism.

Next, when the rotating stirring unit 3 is rotated by rotating the rotating stirring unit 3 in one direction by driving the motor 2, the rotating disc 32 constituting the rotating stirring unit 3 rotates as the rotating disc rotates. As the plate-shaped particle separator 33 provided around the periphery of 32 is rotated, the mixture and the air are stirred.

And when the plate-shaped particle separator 33 is rotated as described above, the liquid mixture and air filled in the culture tank 1 impinges on the plate-shaped particle separator 33 to the plate-shaped particle separator 33 It is separated and dispersed through the formed separation hole (H). As a result, particles of the mixture and air that collide with the plate-shaped particle separation plate 33 and pass through the separation hole H are separated into fine particles.

In addition, as the plate-shaped particle separators 33 of the rotating discs 32 are rotated, the liquid mixture and air filled in the culture tank 1 are rotated in one direction. In addition, centrifugal force is generated as the plate-shaped particle separators 33 of the plurality of rotating discs 32 are rotated. As a result, the liquid mixture and air filled in the culture tank 1 are rotated in one direction and diffused from the center to the outside. . In this way, the mixture and air, which are spread and rotated outward, collide with the plurality of vertical baffle plates 4 and are separated and dispersed through the separation through holes H formed in the vertical baffle plates 4. As a result, particles of the mixture and air that collide with the vertical baffle plate 4 and pass through the separation hole H are separated into fine particles.

Therefore, in the microbial culture apparatus according to the present invention, as the particles of the mixture and the air are refined by the separation holes H formed in the plate-shaped particle separation plate 33 and the vertical baffle plate 4, the food of the microorganism becomes smaller. As the growth of the microorganism is promoted, the growth rate of the microorganism is increased, and thus the incubation time of the microorganism is shortened.

On the other hand, the rotary stirring unit 3 of the microbial culture apparatus of the first embodiment according to the present invention, as shown in Figures 2 and 4, provided in the lower portion of the rotating shaft 31 to move the precipitated mixture to the top It further comprises a lower rotary blade portion 34 to. And the lower rotary blade portion 34 includes a plurality of lower inclined wings 341 formed around the lower portion of the rotary shaft 31.

Each of the lower inclined blades 341 constituting the lower rotary blade part 34 is formed to be inclined in the same direction. That is, the lower inclined blades 341 are inclined in the same direction so as to raise the mixture of the liquid state precipitated in the culture tank 1 upward when the rotation shaft 31 is rotated in one direction. Therefore, the lower rotary blade portion 34 has the advantage that by raising the precipitated mixture to the top, to improve the stirring efficiency of the precipitated mixture to further shorten the culture time of the microorganisms.

And each of the lower inclined wings 341 is formed with a plurality of separation holes (H). The plurality of separation holes H serve to separate and disperse the particles of the mixture and air into fine particles while passing the mixture and air filled in the culture tank 1. And the diameter of the separation hole (H) is determined according to the culture microorganism to obtain. Therefore, by separating the particles of the mixture and air into fine particles through the separation holes (H) formed in each of the lower inclined wings 341, it is possible to speed up the growth of microorganisms more.

In addition, the rotary stirring unit 3 of the microbial culture apparatus of the first embodiment according to the present invention, as shown in Figures 2 and 4, the upper portion of the rotating shaft 31, the floating mixture is moved downward It further comprises an upper rotary blade portion 35 to. And the upper rotary blade portion 35 further includes a plurality of upper inclined wings 351 formed around the upper portion of the rotary shaft 31.

Each of the upper inclined vanes 351 constituting the upper rotary vane 35 is inclined with each other in the opposite direction to the upper inclined vanes 351. That is, the upper inclined wings 351 are inclined in a direction opposite to the lower inclined wings 341 so that the mixture of the liquid state injured in the culture tank 1 can be moved downward when the rotary shaft 31 is rotated in one direction. To be formed

Therefore, the above-mentioned mixture which floats to the bottom through the rotation of the lower rotary blade part 34 is raised to the upper side, and the mixture which floats to the upper side through the rotation of the upper rotary blade part 35 is precipitated to the culture tank. By causing the vortex inside (1), there is also an advantage that the incubation time of the microorganism can be further shortened by improving the stirring efficiency of the mixture and air.

And each of the upper inclined blades 351 is formed with a plurality of separation holes (H), the plurality of separation holes (H) while passing through the mixture and air filled in the culture tank (1), It separates and disperse | distributes particle | grains, and serves to isolate | separate into fine particle | grains. And the diameter of the separation hole (H) is determined according to the culture microorganism to obtain. Therefore, as the separation holes (H) are formed in each of the upper inclined vanes 351, the mixture and the particles of the air in the culture tank 1 can be finely separated to speed up the growth of the microorganisms.

Figure 6 is a cross-sectional view showing a microbial culture apparatus of a second embodiment according to the present invention, Figure 7 is an enlarged view of portion C of FIG.

As shown therein, the microbial culture apparatus of the second embodiment according to the present invention is assumed to include all the configurations of the microbial culture apparatus of the first embodiment.

Accordingly, the microbial culture apparatus of the second embodiment according to the present invention further includes a screw-type protrusion plate 36 formed to protrude in a screw shape around the rotation shaft 31. In addition, the screw-type protrusion plate 36 is formed to protrude in the form of a screw around the rotation shaft 31, and serves to diffuse the mixture and air introduced between the rotation disc 32 to the outside about the rotation shaft 31. Do it.

Therefore, by spreading the mixture and air to the outside in the screw-type protrusion plate 36, the stirring efficiency of the mixture and air is further improved, and the mixture is prevented from accumulating on the upper surface of the rotating disk 32, the culture efficiency of the microorganism There is also an advantage that can be prevented from falling.

On the other hand, the screw-shaped protrusion plate 36 is formed with a plurality of separation holes (H), the plurality of separation holes (H) while passing the mixture and air filled in the culture tank (1), of the mixture and air It separates and disperse | distributes particle | grains, and serves to isolate | separate into fine particle | grains. And the diameter of the separation hole (H) is determined according to the culture microorganism to obtain. Therefore, by forming a plurality of separation holes (H) in the screw-type protrusion plate (36) to finely separate the particles of the mixture and the air in the culture tank (1) it is possible to increase the growth rate of the microorganisms more.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

1: Culture tank
11: medium input unit
12: air input unit
2: motor
3: rotary stirring unit
31: rotating shaft
32: rotating disc
33: plate-shaped particle separator
34: lower rotary blade
341: lower slanted wing
35: upper rotary blade
351: upper inclined wings
36: screw type protrusion plate
4: vertical baffle plate
H: Separation through

Claims (5)

The culture tank (1) is built on the ground, the medium input unit 11 is provided on one side of the upper side, and the air input unit 12 is provided at the bottom of the inside; A motor 2 provided at the upper center of the culture tank 1; It is provided in the culture tank (1), the inner center of the culture tank (1) is provided with a vertical rotation shaft 31 connected to the motor (2), the rotary shaft 31 in a plurality of stages Rotating disk 32 is provided, a plurality of plate-shaped particle separation plate 33 is formed at equal intervals to protrude to the upper and lower portions and the outer periphery of each of the rotating disk 32, the plate-shaped particle separation plate ( 33) includes a rotary stirring unit (3) through which a plurality of separation holes (H) for finely separating the mixture and air particles through the mixture and air; A plurality of vertical baffle plates 4 vertically formed to protrude at equal intervals on the inner circumferential surface of the culture tank 1; In a microbial culture apparatus comprising;
The rotating disk 32 is installed on the rotating shaft so that the three spaced apart up and down, the plate-shaped particle separator 33 is attached to the rotating disk vertically at six equal intervals,
The rotary stirring unit 3,
Four lower slanted blades 341 are formed to be mounted to protrude horizontally below the rotary shaft 31 and to move the mixture precipitated around the rotary shaft 31 to the upper portion to rotate the rotary shaft 31. By lower rotary blade portion 34 to guide the mixture inside the culture tank (1) to the upper side,
Four upper inclined wings mounted on the upper part of the rotating shaft 31 to protrude horizontally and inclined in a direction opposite to the lower inclined blades 341 so as to move the floating mixture around the rotating shaft 31 downward. 351 is formed and the upper rotary blade portion 35 for guiding the mixture in the culture tank 1 to the lower side by the rotation of the rotary shaft 31,
Between the upper rotary blade portion 35 and the lower rotary blade portion 34 is formed to be wound continuously for six revolutions so as to protrude spirally along the entire circumference of the rotary shaft 31 and the rotation of the rotary shaft 31 and And a screw-shaped protrusion plate 36 which rotates together and guides outwardly the mixture accumulated between the rotating disc and the rotating disc;
The lower inclined vanes 341, the upper inclined vanes 351, the screw-type protrusion plate 36 and the vertical baffle plate 4,
The lower inclined vanes 341, the upper inclined vanes 351, the screw-shaped protrusion plate 36 and the vertical baffle plate 4 are each formed in the same size to pass the mixture and air finely to fine particles of the mixture and air A plurality of separation apertures H for separating;
The vertical baffle plate 4,
Four microorganisms are vertically attached to the inner circumferential surface of the culture tank (1) at an angle of 90 degrees and the upper and lower lengths are positioned between the upper rotary blade portion 35 and the lower rotary blade portion 34. .
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