KR20190124365A - A Green alga culture medium - Google Patents

Abstract

The present invention relates to a green algae culture medium. Green algae inhabiting the water moving along a tube member undergo photosynthesis through the light emitted from LED lamps, and the culture medium is configured to supply the oxygen produced thereby indoors. Also, the tube member connected from a submersible motor to induce the circulation of water surrounds the LED lamp, and is coupled to an upper outlet hole of an inner cap, thereby enabling water to fall from the top of the inner cap in a waterfall form and to be introduced into a tank. Therefore, the indoor air can be efficiently purified through a simple structure by increasing water circulation and contact with carbon dioxide and oxygen.

Description

Green alga culture medium

The present invention relates to a green algae incubator, and more particularly, the green algae inhabiting water moving along the tube member proceeds with photosynthesis through light emitted from the LED lamps, and thus is configured to supply oxygen to the room. The tube member connected from the submersible motor to induce the circulation of water wraps around the LED lamp and is coupled to the upper outlet hole of the inner cap, so that the water falls from the upper end of the inner cap in a waterfall form and flows into the water tank part. The present invention relates to a green algae incubator capable of efficiently purifying indoor air through a simple structure by increasing circulation, oxygen, and carbon dioxide contact.

Carbon dioxide is a kind of greenhouse gas that causes global warming. As the industrialization of modern society accelerates, the amount of carbon dioxide in the air increases every year as fossil fuel usage increases. Recently, in order to reduce greenhouse gases, studies are being actively conducted to reduce and store approximately carbon dioxide in various countries around the world. Among them, carbon dioxide fixing technology using vegetation such as plants or microalgae, unlike other physical and chemical recovery methods, uses solar energy as a light source, so investment and operation cost are low, and secondary treatment cost due to generation of environmentally harmful substances This does not take, and has the advantage that can greatly contribute to the landscape creation.

Conventionally, the carbon dioxide fixing devices using the microalgae are mostly those of the experimental stage for commercialization, and thus, the harvesting methods of the microalgae are not considered or the whole culture of the microalgae in the collection tank is harvested all at once. Batch harvesting was used to refill and regrow the microalgae. However, when the harvest of the microalgae is made in the above-described batch harvesting method, it takes a lot of time to multiply the microalgae again, and there is a problem in that the carbon dioxide fixing efficiency using the microalgae decreases.

Recently, as interest in green growth, such as carbon dioxide reduction, is increasing, such flows are occurring in homes, and plants are kept in rooms to purify the air and pursue aesthetics. In general, plants absorb carbon dioxide and release oxygen through photosynthesis, thereby increasing the amount of oxygen and reducing the amount of carbon dioxide to provide a more comfortable environment. As it proliferates and has a superior photosynthetic efficiency than other plants, it has been spotlighted in environmentally friendly energy industries such as biomass and biooil, and various attempts have been made to effectively purify the air using such green algae.

The algae incubator as described above is disclosed in Korean Patent Publication No. 10-2016-0098864 (hereinafter referred to as 'Patent Document 1').

Referring to the patent document 1, the conventional green algae incubator is composed of a fish tank (1-2) containing the green algae case, the passage (1-3) to supply carbon dioxide to one side of the fish tank (1-2) ) To supply carbon dioxide, and to install carbon dioxide into the fish tank by installing a filter that can introduce carbon dioxide into the air exchange place (1-4) to effectively remove the carbon dioxide inside the room.

While the patent document 1 sends carbon dioxide to the fish tank (1-2) for photosynthesis of green algae, it is configured to send oxygen generated by photosynthesis from the fish tank to the air to create more comfortable indoor air, but only conceptual content Although only described, since the detailed structure for the green algae culture is not disclosed, it was impossible to determine which structure to perform an efficient air purification function.

Patent Document 1: Republic of Korea Patent Publication No. 10-2016-0098864

The present invention has been made to solve the above problems, an object of the present invention is the green algae inhabiting the water moving along the tube member proceeds photosynthesis through the light emitted from the LED lamp, the oxygen produced thereby indoors Is configured to supply to, but the tube member connected from the underwater motor to induce the circulation of the water is wrapped around the LED lamp and coupled to the upper outlet hole of the inner cap, so that the water falls from the top of the inner cap in the form of a waterfall and flows into the tank It is possible to provide a green algae incubator capable of efficiently purifying indoor air through a simple structure by increasing water circulation and oxygen and carbon dioxide contact.

Green algae incubator according to a preferred embodiment of the present invention to solve the above problems, the tank unit in which water is stored so that the green algae can be inhabited; An underwater motor for inducing circulation of water stored in the tank unit; A body part surrounding the water tank part and having a plurality of lamp coupling holes formed thereon to enable a plurality of LED lamps to be installed at an upper end thereof; A plurality of LED lamps respectively coupled to the plurality of lamp coupling holes to emit light; A tube member positioned surrounding the entire outer circumferential surface of the LED lamp in a longitudinal direction and connected to the underwater motor to form a passage through which water in which green algae inhabits is circulated; An inner cap surrounding the LED lamp and the tube member and coupled to an upper portion of the body portion, an outlet hole having an end portion of the tube member coupled to an upper end thereof to enable the water flowing through the tube member to flow out; And an outer cap surrounding the inner cap and coupled to an upper portion of the body portion, wherein an oxygen discharge hole is formed at an upper end thereof.

Green algae inhabiting the water moving along the tube member proceeds with photosynthesis through the light emitted from the LED lamp, whereby the produced oxygen is configured to move to the outside through the oxygen discharge hole. .

In addition, at the upper end of the body portion, the water flowing out through the outflow hole may move along the upper surface of the inner cap to be introduced into the water tank in the process of falling into the waterfall type through the space between the inner cap and the outer cap. It is characterized in that a plurality of inlet holes to be formed.

The apparatus may further include a partition plate positioned inside the body part to partition a space in which the tube member moves, wherein the partition plate is formed on an inner circumferential surface of the coupling tube protruding upward from a center of the bottom surface of the water tank. The first sealing tube is inserted into a close state, and characterized in that it is composed of a second sealing tube coupled to the extension portion formed to surround the plurality of lamp coupling holes formed in the body portion.

The apparatus may further include a pedestal coupled to a lower portion of the body portion in a state where the water tank portion and the space are separated to form a space for storing a battery for power supply.

Also, the photosynthesis time zone is set in consideration of a general respiration period in which the green algae take a rest according to a natural cycle and consume oxygen and emit carbon dioxide, but the photosynthetic time zone of the green alga is at least 12 hours to produce more oxygen than carbon dioxide. It is characterized in that it is set in excess.

As described above, according to the present invention, green algae inhabiting the water moving along the tube member proceed with photosynthesis through the light emitted from the LED lamps, and are thus configured to supply the produced oxygen to the room. The tube member connected from the induction motor is wrapped around the LED lamp and coupled to the upper outlet hole of the inner cap, so that the water falls from the upper end of the inner cap in a waterfall form and flows into the water tank part, thereby circulating water and oxygen, Increasing the contact of carbon dioxide has the advantage of efficiently purifying the indoor air through a simple structure.

1 is an exploded perspective view showing the configuration of the green algae incubator according to a preferred embodiment of the present invention.
Figure 2 is a perspective view showing the configuration of the green algae incubator according to a preferred embodiment of the present invention.
Figure 3 is a cross-sectional view showing the configuration of the green algae incubator according to a preferred embodiment of the present invention.
Figure 4 is an operating state of the green algae incubator according to a preferred embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. Like reference numerals in the drawings denote like elements.

1 is an exploded perspective view showing the configuration of the green algae incubator according to a preferred embodiment of the present invention, Figure 2 is a perspective view showing a combination of the green algae incubator according to a preferred embodiment of the present invention, Figure 3 is a preferred embodiment of the present invention Coupling cross-sectional view showing the configuration of the green algae incubator according to the example.

1 to 3, the green alga incubator according to a preferred embodiment of the present invention, the water tank unit 100, the underwater motor 200, the body portion 300, LED lamp 400, tube member 500, It includes an inner cap 600, the outer cap 700.

The water tank unit 100 is water is stored so that the green algae (1) can be inhabited, protruding upwardly so that the first sealing tube 810 of the leakage preventing member 800 is inserted in the center of the bottom surface Coupling pipe 110 is provided.

The submersible motor 200 is installed on the bottom surface of the water tank unit 100 to induce circulation of the water stored in the water tank unit 100, and the water inlet 210 into which water stored in the water tank unit 100 is introduced at one side thereof. ) Is provided, and the other side is provided with a water outlet 220 for outflowing water introduced through the water inlet 210.

The submersible motor 200 is preferably installed in such a state that the lower end is exposed to the bottom surface of the water tank unit 100 so that the cable (C) for power supply can be located out of the water.

The body portion 300 is positioned to surround the water tank portion 100, a plurality of lamp coupling holes to be installed on the top of the plurality of LED lamps 400 for emitting light for photosynthesis action of green algae 310 is formed in a spaced apart state.

In the present invention, a plurality of inlet holes 320 are provided at the upper end of the body portion 300 so that water flowing out through the outlet hole 610 of the inner cap 600 can be introduced into the water tank unit 100. Characterized by being formed, the inlet hole 320 is formed in a plurality of spaced apart at a predetermined interval surrounding the coupling groove 350 on the outside of the coupling groove 350 to which the lower end of the inner cap 600 is coupled, Water flowing out through the outlet hole 610 of the inner cap 600 is moved along the upper surface of the inner cap 600 to fall through the space between the inner cap 600 and the outer cap 700 in the form of a waterfall By forming a space to move to the water tank unit 100, natural water circulation is possible.

In addition, an outer circumferential surface of the body 300 includes an operation panel 330 including an operation button 331 including a power button and a display unit 332 for displaying each screen according to the operation of the operation button 331. It is desirable to be.

On the other hand, the inner portion of the body portion 300, the extension portion 340 surrounding the plurality of lamp coupling holes 310 so that the second sealing tube 820 of the leakage preventing member 800 is coupled downwards Is formed extending.

In addition, the lower portion of the body portion 300 is coupled to the water tank unit 100 and the space is separated, the battery (B) for supplying power to the device, the power cable (C) connected to the underwater motor 200 And a pedestal 900 which forms a space in which the control board and the like are stored.

On the other hand, the inner side of the body portion 300 is characterized in that the partition plate 800 for partitioning the space in which the tube member 500 is moved, characterized in that the partition plate 800 is the bottom of the water tank unit 100 The first sealing pipe 810 is inserted in close contact with the inner circumferential surface of the coupling pipe 110 protruding upward from the center of the surface and a plurality of lamp coupling holes 310 formed in the body portion 300. It is composed of a second sealing tube 820 coupled in close contact with the inner circumferential surface of the extension portion 340 is formed to extend downward, through the first sealing tube 810 and the second sealing tube 820 By blocking the water stored in the water tank unit 100 to move to the inner cap 600 or the pedestal 900, the power cable of the LED lamp 400, the battery (B), the power cable connected to the underwater motor 200 (C) and the control board can be prevented from coming into contact with water.

The LED lamp 400 is coupled to each of the plurality of lamp coupling holes 310 to emit light, photosynthesis action of the green alga (1) located inside the tube member 500 surrounding the LED lamp 400 It is preferable that the rod has a long rod shape so as to increase the surface area.

The LED lamp 400 is preferably configured to have a light wavelength capable of efficient photosynthesis of the green alga (1).

The tube member 500 is connected to the underwater motor 200 to form a passage through which the water in which the green algae 1 circulate, one side thereof is coupled to the outlet 220 of the underwater motor 200, The other side is configured to be coupled to the outlet hole 610 of the inner cap 600, in the present invention, the tube member 500 is wrapped around the entire length of the outer peripheral surface of the LED lamp 400 made of a long rod shape It is characterized in that it is configured to.

The tube member 500 is made of a transparent material so that the green algae 1 inhabiting the water moving through the inside of the tube member 500 can proceed with photosynthesis through the light emitted from the LED lamp 400. As it is configured to surround the entire outer circumferential surface of the LED lamp 400 in the longitudinal direction, the surface area where the photosynthetic action is made is widened, thereby enabling the active photosynthesis of the green alga (1).

The inner cap 600 surrounds the LED lamp 400 and the tube member 500 and is coupled to the coupling groove 350 of the body 300, and the water moving through the tube member 500. An outlet hole 610 is formed at an upper end thereof with an end portion of the tube member 500 coupled to the outlet.

The outer cap 700 is to be wrapped around the inner cap 600 and coupled to the upper portion of the body portion 300, the upper end so that the oxygen generated through the photosynthesis action of the green alga (1) can be discharged to the outside An oxygen discharge hole 710 is formed in the oxygen discharge hole 710 of the outer cap 700 to block water flowing out through the outlet hole 610 from flowing out through the outer cap 700. It is preferable to be formed at a predetermined interval spaced along the upper circumference.

The oxygen discharge hole 710 performs a function of a passage through which carbon dioxide is required for photosynthesis of the green algae 1 together with a function of an oxygen discharge passage, in order to smoothly supply carbon dioxide to the tank 100. It is also possible to be provided with a separate means such as a suction pump for sucking carbon dioxide.

Hereinafter, with reference to Figure 4, it will be described the operation of the green algae incubator according to a preferred embodiment of the present invention. 4 is an operating state diagram of the green algae incubator according to a preferred embodiment of the present invention.

Referring to FIG. 4, when the underwater motor 200 is driven, the water stored in the water tank unit 100 flows into the inlet 210 of the underwater motor 200 and flows out to the outlet 220. In this case, the outlet 220 Water flowing out) is moved along the inside of the tube member 500 coupled to the water outlet 220 to be discharged to the upper surface of the inner cap 600 through the outlet hole 610 of the inner cap 600. .

As described above, when water flows out through the outflow hole 610 of the inner cap 600, the outflowing water moves along the upper surface of the inner cap 600 to between the inner cap 600 and the outer cap 700. Falls into a waterfall form through the space, in this process water is introduced into the water tank unit 100 through a plurality of inlet holes 320 formed on the top of the body portion 300, thereby, the water tank unit ( Natural circulation of the water stored in 100 is achieved.

As described above, the green algae (1) inhabiting the water moving through the interior of the tube member 500 in the process of circulating the water along the inside of the tube member 500 through the light emitted from the LED lamp 400. Photosynthesis proceeds, and thus, the generated oxygen is discharged to the outside through the oxygen discharge hole 710 of the outer cap 700 to purify the indoor air.

On the other hand, the present invention is configured to set the photosynthetic time zone in consideration of the general breathing period in which the green algae (1) take a break according to the natural cycle, consume oxygen and discharge carbon dioxide, the photosynthetic time zone of the green alga (1) is oxygen It is preferable to set at least 12 hours so that more is produced than carbon dioxide.

As described above, the green algae 1 inhabiting the water moving into the tube member 500 proceeds with photosynthesis through the light emitted from the LED lamp 400, thereby producing oxygen produced indoors. Is configured to supply to, the tube member 500 connected from the underwater motor 200 to induce the circulation of the water is wrapped around the LED lamp 400 and coupled to the upper outlet hole 610 of the inner cap 600, thereby Since the water falls from the top of the cap 600 in the form of a waterfall and can be introduced into the tank 100, it is possible to efficiently purify the indoor air through a simple structure by increasing the circulation of water and oxygen and carbon dioxide contact. .

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: water tank 110: coupling pipe
200: underwater motor 210: water inlet
220: outlet 300: body
310: lamp coupling hole 320: inlet hole
330: operation panel 331: operation button
332: display unit 340: extension unit
350: coupling groove 400: LED lamp
500: tube member 600: inner cap
610: outflow hole 700: outer cap
710: oxygen discharge hole 800: leakage preventing member
810: first sealing pipe 820: second sealing pipe
900: pedestal

Claims (5)

Tank unit for storing water to enable the green algae to inhabit;
An underwater motor for inducing circulation of water stored in the tank unit;
A body part surrounding the water tank part and having a plurality of lamp coupling holes formed thereon to enable a plurality of LED lamps to be installed at an upper end thereof;
A plurality of LED lamps respectively coupled to the plurality of lamp coupling holes to emit light;
A tube member positioned surrounding the entire outer circumferential surface of the LED lamp in a longitudinal direction and connected to the underwater motor to form a passage through which water in which green algae inhabits is circulated;
An inner cap surrounding the LED lamp and the tube member and coupled to an upper portion of the body portion, an outlet hole having an end portion of the tube member coupled to an upper end thereof to enable the water flowing through the tube member to flow out; And
Includes an outer cap surrounding the inner cap and coupled to the upper portion of the body portion, the oxygen discharge hole is formed on the top of the body cap;
Green algae inhabiting the water moving along the tube member proceeds with photosynthesis through light emitted from the LED lamp, whereby the produced oxygen is configured to move to the outside through the oxygen discharge hole. Green algae incubator.
The method according to claim 1,
Water flowing through the outflow hole on the upper end of the body portion is moved along the upper surface of the inner cap to be introduced into the water tank unit in the process of falling into the waterfall form through the space between the inner cap and the outer cap Green algae incubator, characterized in that the inlet hole is formed.
The method according to claim 2,
A partition plate positioned inside the body to partition a space in which the tube member moves;
The partition plate surrounds the first sealing tube inserted in close contact with the inner circumferential surface of the coupling tube protruding upward from the center of the bottom surface of the water tank, and surrounds a plurality of lamp coupling holes formed in the body portion. Green algae incubator, characterized in that consisting of a second sealing tube coupled to the extending portion is formed to extend.
The method according to claim 3,
The green algae incubator further comprises a pedestal that is coupled to the lower portion of the body portion and the space is separated from the water tank to form a space for storing a battery for power supply.
The method according to claim 2,
The photosynthetic time zone is set in consideration of a general respiration period in which the green algae take a rest according to a natural cycle, consume oxygen, and emit carbon dioxide, but the photosynthetic time zone of the green algae exceeds at least 12 hours to produce more oxygen than carbon dioxide. Green algae incubator, characterized in that set.

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