KR101996310B1 - Chlorella culture device - Google Patents

Abstract

The present invention relates to a chlorella culture device which continuously irradiates light to a culture tank having a culture liquid mixed with chlorella seeds to culture chlorella in the culture tank in a large quantity. The present invention comprises: a culture tank which has a culture space therein; and a rotational agitating member which is placed as a rotational structure in the culture tank to be rotated and agitates the culture liquid stored in the culture tank. The rotational agitating member comprises a proximal injecting arm which rotates proximally to the bottom surface and the inner surface of the culture tank and has one or more injecting holes. The proximal injecting arm is formed of a hollow pipe body having one or more injecting holes, and is configured to communicate with an air supply pipe of an air supply pump. The proximal injecting arm rotating proximally to the bottom surface and the inner surface of the culture tank discharges air injected through the air supply pipe to the facing bottom surface and inner surface of the culture tank through the injecting holes to wash chlorella remaining on the bottom surface and inner surface of the culture tank by air pressure.

Description

Chlorella culture device < RTI ID = 0.0 >

The present invention relates to a chlorella culture apparatus, and more particularly, to a chlorella culture apparatus that continuously irradiates light to a culture tank in which a culture medium containing chlorella seeds is stored, thereby allowing a large amount of chlorella to be cultured in a culture tank.

In general, microalgae refers to algae less than 50 ㎛ in size. Chlorella, a typical microalgae, is a freshwater alga belonging to a chlorophyll family of algae, and is utilized as an eco-friendly biologic fertilizer and a dietary supplement for health supplement.

The chlorella proliferate very rapidly, four to eight times every 20 hours, through spherical or elliptical fission of its own cells, and have a very strong vitality.

Recently, chlorella farming method has been developed by using chlorella farming, which is cultivated for 5 ~ 7 days by using an incubator in a farm, and then sprayed directly on crops or soil to promote crop growth It is a farming method that has an excellent effect on the increase of crop production by suppressing disease occurrence, improving quality, improving storability and freshness.

The chlorella is a substance that can be used for organic agricultural products in the Enforcement Decree of the Act on the Promotion of Environmentally Friendly Farming and Management of Organic Foods. It is an organic compound of three nutrients and essential nutrients such as protein, carbohydrate, and fatty acid, and it is an environmentally friendly bioproduct produced from water and light.

In the chlorella treatment, the seed germination rate was improved by 11 to 50%, the effect of inhibiting the occurrence of leaf vegetable disease was 75% (75% of the red pepper disease control, 89% of the control of the strawberry gray mold), and 70% There is a bar.

The use of chlorella for agriculture in agricultural fields has been studied as an important application condition for cultivation of chlorella for agriculture and the number of days for cultivation. In the case of fruit or food crops, since the throughput is high at one time, Large scale microalgae cultivation is required for large scale (for example, 05 t scale).

On the other hand, most of the optical incubators developed in the past often fail to cultivate microalgae or to cultivate the microalgae at desired concentrations due to problems of light efficiency, air circulation and heat generation .

In general, in order to increase the light efficiency and increase the air solubility, existing incubators were found to give physical adverse effects (frictional heat, cell destruction) to the microalgae cultivation by mechanical forced circulation using an impeller or a circulating pump.

In addition, chlorella requires a light source for photosynthesis. It is essential to increase the efficiency of light utilization by increasing the density due to the growth of algae due to growth factors in the water, interference phenomenon and decrease of the transmittance.

In addition, the specific gravity of water is higher than that of water, so that it is pointed out that if the energy is not supplied to continuously float, the growth rate of the population drops considerably when floated to the bottom.

KR 10-1902914 B1 KR 10-1889410 B1 KR 10-2015-0057350 A

It is an object of the present invention, which has been devised to overcome the above-mentioned problems, to provide a culture apparatus in which chlorella is cultured in a large amount in a culture tank by continuously irradiating light to a culture tank in which a culture medium containing chlorella seed- The present invention is to provide a chlorella culture apparatus in which chlorella is prevented from being deposited on the inner wall of a tank, so that the chlorella can be stably cultivated while being flowed in the culture tank.

The above object is achieved by the following constitutions provided in the present invention.

In the chlorella culture apparatus according to the present invention,

A culture tank in which a culture space is formed;

And a rotation stirring member arranged in the culture tank in a rotating structure for stirring the culture liquid stored in the culture tank while being rotated,

Wherein the rotating agitating member is provided with a proximal jetting sand rocking close to a bottom surface and an inner surface of the culture tank and having one or more spray holes formed therein,

Wherein the near-split sandstone is made of a hollow tube body having at least one spray hole formed therein, and is configured to communicate with the air supply tube of the air supply pump,

The close-packed sand rocking in close proximity to the bottom surface and the inner surface of the incubation tank discharges the air injected through the turntable to the bottom surface and the inner surface of the incubation tank facing each other through the injection hole, And washing the remaining chlorella bacteria in air with air.

Preferably, the near-split sandstone is circulated while maintaining a gap of 0.2 mm to 20 mm on the bottom and inner sides of the culture tank, while discharging air supplied to the bottom and inner sides of the culture tank facing through the spray holes .

More preferably, the rotational stirring member is configured to rotate in a culture tank provided with a rotational force provided from a driving unit including an electric motor.

The rotating agitating member is provided with a scraping arm provided with an elastic scraper which is in elastic contact with at least the inner surface of the culture tank.

In addition, it is preferable that a cover for covering the upper part of the incubation tank is provided, and at least one installation hole is formed in the lid, and a rod-like LED lamp member which emits light in the culture space through the installation hole is installed An annular scraper for scraping the outer wall of the LED lamp member loaded along the installation hole is added to the installation hole.

As described above, in the present invention, a cleaning structure for cleaning the inner wall of the culture tank in which the culture medium containing the chlorella seeds are stored is provided through pneumatic pressure to prevent chlorella from being deposited on the inner wall of the culture tank.

With this configuration, it is possible to prevent deposition of chlorella deposited on the inner wall of the culture tank without causing excessive flow of the culture medium (culture medium) stored in the culture space.

Accordingly, the present invention can suppress the deposition of chlorella and provide a sufficient amount of light, and can also provide sufficient air due to the culture of the Clolera by the air to be injected, so that the chlorella can obtain a high-quality chlorella culture .

FIG. 1 shows the overall configuration of a chlorella culture apparatus proposed as a preferred embodiment of the present invention,
FIG. 2 and FIG. 3 show the preparation state of the chlorella culture solution through the chlorella culture apparatus proposed as a preferred embodiment of the present invention,
FIGS. 4 and 5 are enlarged views showing the states of operation of the 'A' portion and the 'B' portion in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a chlorella culture apparatus proposed as a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows the overall outline configuration of a chlorella culture apparatus proposed as a preferred embodiment of the present invention, and FIGS. 2 and 3 show the state of manufacture of a chlorella culture liquid through a chlorella culture apparatus proposed as a preferred embodiment of the present invention FIG. 4 and FIG. 5 are enlarged views showing the operation states of the 'A' portion and the 'B' portion in FIG. 2, respectively.

The chlorella culture apparatus proposed as a preferred embodiment of the present invention is characterized in that a culture medium in which chlorella seeds and nutrients are mixed is cultured in a state of being stored for a predetermined time in a culture vessel secured with temperature, light source, nutrition and air , Which is a device for producing a chlorella culture solution in which a large amount of chlorella is propagated.

1 to 3, the chlorella culture apparatus 1 comprises: a culture tank 10; And a rotation stirring member 20 disposed in the culture tank 10 so as to rotate in one direction so as to circulate the culture liquid (culture liquid) stored in the culture tank 10.

The culture tank 10 is formed of a cylindrical hollow body having a culture space 11 opened at an upper portion thereof and an outlet 12 for discharging the cultured chlorella culture liquid is formed at the lower portion thereof.

The lower part of the culture tank 10 has a multilayer structure and a hollow pocket 13 filled with the fruit oil is formed and an electric heater 14 for heating the fruit oil is installed in the hollow pocket 13, The culture medium stored in the culture space 11 of the tank 10 is heated by the heating oil heated by the electrothermal heater 14 to keep the temperature suitable for chlorella culture.

In this case, distilled water or the like may be generally employed as the above-mentioned fruit oil. If the hot water is heated in this manner, stable heating can be achieved without direct contact between the electrothermal heater 14 and the broth containing the chlorella.

In addition, the divergence of the heat transferred from the electrothermal heater 14 by the chlorella microorganisms deposited by deposition of chlorella on the surface of the electrothermal heater 14 is inhibited and the heating efficiency of the electrothermal heater is lowered, Induced phenomenon is prevented.

The incubation tank 10 is made of a light transmitting material capable of transmitting light so that a light source irradiated from the external light source 50 reaches the culture space 11 and a plurality of installation holes 15a And a lid 15 for closing the upper part of the open culture space 11 is disposed.

Therefore, the worker loads the rod-like LED lamp member 60 through the installation hole 15a formed in the lid 15, so that the light emitted from the loaded LED lamp member 60 flows into the culture space 11 To be diverted.

With this configuration, a stable amount of light can be ensured in the culture liquid stored in the culture space 11 due to the cultivation of chlorella, and furthermore, the liquid cooling of the LED lamp member 60 by the culture liquid and the cooling of the LED lamp member 60 The heating of the medium liquid is accomplished by the radiating heat.

The LED lamp member 60 is taken out through a mounting hole 15a formed in the lid 15 and is continuously and stably placed in the culture space 11 through the stable removal of foreign substances including chlorella remaining on the surface. The amount of light can be provided.

2, an annular scraper 15b is formed in the installation hole 15a in which the LED lamp member 60 is installed, and the LED lamp member 60 Is caused to perform its own cleaning by friction with the scraper 15b.

Therefore, the manager periodically lifts the LED lamp member 60 up and down along the installation hole 15a to scrape off the chlorella deposited on the surface of the LED lamp member 60 through the annular scraper 15b have.

On the other hand, in the present invention, the rotation stirring member 20 is disposed in the culture tank 10 so as to continuously circulate and agitate the medium liquid containing the chlorella, and to provide sufficient air for the growth of chlorella.

Particularly, the inner wall and the bottom surface of the culture tank 10 in which the deposition of chlorella is generated are continuously washed so that the deposition of the chlorella bacteria to be deposited on the inner wall and bottom surface of the culture tank 10 is suppressed do.

2 to 4, the rotation stirring member 20 according to the present invention includes proximal fibrillation arms 21A and 21B which rotate close to a bottom surface and an inner surface of the culture tank 10.

The near-dispersing sand rocks 21A and 21B discharge air to the bottom and inner surfaces of the incubation tank 10 facing each other to clean the remaining chlorella on the bottom and inner surfaces of the culture tank 10 And a hollow tube having pores 22 formed therein.

In the present embodiment, the rotation stirring member 20 provided on the bottom surface of the culture tank 10 in a rotating structure is provided with a floor washing close-up sandstone 21A rotating close to the bottom surface of the culture tank, Shaped hollow tube body integrally formed with the inner side washing close-spacing sandstone 21B which rotates close to the rotating agitator 20 is disposed in a radial manner in the rotating agitator 20. [

The air supplied through the air supply mechanism 20a of the rotation stirring member 20 is supplied to the floor washing unit 20A through the floor washing Through the spray holes 22 formed in the near-distant sandstone 21A for washing and the near-spray sand 21B for washing the inner side, respectively.

The turntable 41 of the air supply pump 40 that supplies air to the proximity dust arms 21A and 21B is connected to the rotary coupling member 42 As shown in Fig.

According to the present embodiment, the near-dispersing sand 21A and 21B are discharged through the spray hole 22 with a relatively narrow gap of 0.2 mm to 20 mm with the bottom surface and the inner surface of the culture tank 10 The air is discharged to the bottom surface and the inner surface of the adjacent incubation tank 10 to suppress the deposition of chlorella bacteria on the bottom surface and the inner surface of the culture tank 10.

As shown in FIG. 3, the rotary stirring member 20 in which the near-split sand stones 21A and 21B are disposed is arranged such that the spray holes 22 of the near-dispersing sand rocks 21A and 21B are inclined in the other direction, It is possible to make the structure self-driving by one-way movement by the reaction force of the air discharged in the direction of the arrow.

2, the rotary stirring member 20 further includes a driving unit 30 including an electric motor 31 for securing a stable rotation state of the rotary stirring member 20, And is rotated in one direction by receiving the rotating force provided by the rotating shaft 31.

According to the present embodiment, the rotation stirring member 20 rotates at a low speed of 1 to 10 RPM to continuously clean and remove the chlorella deposited on the inner wall of the culture tank while the culture solution stored in the culture tank does not excessively flow .

2 to 3 and 5, a scraping arm 23 having an elastic scraper 24 elastically adhered to a bottom surface and an inner surface of the culture tank 10 is installed on the rotation stirring member 20, More.

Of course, it is also possible to further add an elastic scraper 24 elastically adhered to the bottom surface and the inner surface of the incubation tank 10 in the above-mentioned close-packed sandstone 21A, 21B, which is also within the scope of the present invention .

The inside wall and the bottom wall of the incubation tank 10 are pneumatically cleaned by the air discharged through the near-fog dusts 21A and 21B and the air supplied to the elastic scraper 24 provided on the scraping arm 23 And as a result, a large amount of chlorella can be prevented from being deposited on the inner wall and bottom surface of the culture tank 10.

According to the present embodiment, the elevating / shrouding valve 25 is disposed on the inner wall of the incubation tank 10 so as to be vertically movable on the inner wall of the inner wall of the incubator 10, The up-and-down blocking valve 25 is caused to ascend or descend along the inner surface cleaning close-packed sand 21B in accordance with the air pressure supplied through the air supply mechanism 20a of the rotating agitator 20. [

Here, the elevating shielding valve 25 may be configured to be lowered by its own weight, but it is more preferable that the elevating shielding valve 25 is configured to be downwardly biased by a support spring 26 added as shown in Fig.

In this way, when the elevating / shrouding valve 25 is configured to be raised and lowered in accordance with the air pressure supplied through the air supply mechanism 20a, the pressure of the air flowing into the rotation stirring member 20 through the air supply mechanism 20a causes the inner side The amount of opening and closing of the spray holes 22 formed in the close proximity injection sandstone 21B for washing can be organically controlled.

That is, when air having a relatively low pressure flows through the air supply mechanism 20a as shown in FIG. 4A, since the up-and-down shielding valve 25 descends along the inwardly-facing close-eye sandwiched 21B, The spray holes 22 formed on the upper portion of the minute sandstone 21B discharge air through the spray holes 22 formed in the lower and shielded openings.

4B, when the air having a relatively high pressure flows through the air supply mechanism 20a, the up-and-down blocking valve 25 rises along the inner side cleaning close-packed sand 21B, The near-minute sandstone 21B discharges air through the injection holes 22 formed in the lower part and the upper part.

At this time, an adjustment bolt 26a for adjusting the elastic force of the support spring 26 by lifting the up-and-down shielding valve 25 is provided on the upper portion of the inner surface cleaning close-up sandstone 21B, A support piece 26b for supporting the support springs 26 in a pivotal manner is disposed so that the manager rotates the adjustment bolts 26a in forward and reverse directions to adjust the downward support force of the lift control valve 25 by the support springs 26 .

Therefore, the ascending / descending blocking valve 25 ascends and descends in accordance with the air pressure injected into the rotating agitator 20 through the air supply mechanism 20a, and the amount of opening and closing of the upright inwardly- .

Due to such a variable discharge structure, air is discharged at a set pressure or higher on the bottom surface and the inner side surface of the culture tank 10 where at least a large amount of chlorella is expected to deposit due to its own weight, As a result, the deposition of chlorella on the inner wall of the culture tank 10 is suppressed, so that it is possible to produce a high-quality chlorella culture solution through stable propagation of Clara bacterium.

Particularly, when a large amount of deposition of chlorella is generated on the lower inner wall of the incubation tank 10, the worker fixes the ascending / descending shielding valve 25 in a lowered state through the adjustment bolt 26a, The lower inner wall of the culture tank 10 having a large amount of deposition can be stably cleaned to remove chlorella deposited on the inner wall.

1. Chlorella culture apparatus
10. Culture medium 11. Culture space
12. Outlet 13. Hollow pocket
14. Electric heaters 15. Cover
15a. Installation Ball 15b. Scraper
20. Rotating stirring member 20a. Feed mechanism
21A. Close-up sandstone for floor cleaning
21B. Close-up sandstone for internal side cleaning
22. Sprinter 23. Scraping arm
24. Elastic Scraper 25. Elevating Shielding Valve
26. Support spring 26a. Adjusting bolt
26b. Support piece
30. Drive 31. Electric motor
40. Supply air pump
42. Rotating coupling
50. External light source 60. LED lamp member

Claims (4)

A culture tank in which a culture space is formed;
And a rotation stirring member arranged in the culture tank in a rotating structure for stirring the culture liquid stored in the culture tank while being rotated,
Wherein the rotating agitating member is provided with a proximal jetting sand rocking close to a bottom surface and an inner surface of the culture tank and having one or more spray holes formed therein,
The close-packed sand rocking in close proximity to the bottom surface and the inner surface of the incubation tank discharges the air injected through the turntable to the bottom surface and the inner surface of the incubation tank facing each other through the injection hole, To clean the residual chlorella in the air,
An elevating shielding valve for elevating and lowering along a proximate spray sand rocking close to the inner surface of the incubation tank in correspondence with the air pressure injected into the rotating agitating member; a support spring for urging the elevating shielding valve downward; And a support piece for supporting between the adjustment bolt and the support spring,
The amount of opening and closing of the spray holes formed in the proximate spray sand rocking close to the inner surface of the incubation tank is adjusted organically by raising and lowering the ascending / descending shielding valve in accordance with the air pressure injected into the rotating agitating member, Wherein the downward lashing force of the lift valve is controlled by the support spring. 2. The method according to claim 1, wherein the near-dispersoid sand rocks the bottom and inner sides of the incubation tank while keeping a gap of 0.2 mm to 20 mm between the bottom and inner sides of the incubation tank, The chlorella culture device is configured to discharge the chlorella culture device. The LED lamp according to claim 1, further comprising a cover covering an upper portion of the culture tank, wherein at least one installation hole is formed in the cover so as to pass through the installation hole, and a rod-shaped LED lamp member Wherein the installation hole is provided with an annular scraper for scraping the outer wall of the LED lamp member installed along the installation hole. The chlorella culture apparatus according to claim 1, wherein the rotation stirring member is provided with a scraping arm having an elastic scraper which is elastically contacted at least on the inner surface of the culture tank.

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