KR102191454B1 - Circulating fluid culture system of air purifier using microalgae - Google Patents

Abstract

The present invention relates to a culture medium circulation system of an air purifier using microalgae. More specifically, the culture medium circulation system of an air purifier using microalgae is installed with an air purifier which purifies air by allowing external air to come in contact with a culture medium where microalgae are cultured. The culture medium circulation system comprises: a culture medium filter unit filtering the culture medium stored in a culture tank of the air purifier; and a culture medium filling unit filling the culture tank with the culture medium.

Description

Circulating fluid culture system of air purifier using microalgae}

The present invention relates to a culture solution circulation system of an air purifier using microalgae, and more particularly, to a culture solution circulation system of an air purifier using microalgae that purifies the air by contacting outside air with a culture solution in which microalgae are cultured.

The reckless development of urban areas has caused many problems such as extreme air pollution and a heat island phenomenon in which the temperature inside the city rises. In particular, the issue of air quality including fine dust, which is a problem, has recently emerged.

Fine dust refers to particulate matter that floats or scatters in the atmosphere, and occurs a lot when burning fossil fuels such as coal or petroleum, or from exhaust gases such as factories or automobiles. Therefore, as the development of urban areas progresses, the problem of fine dust caused by air pollution is getting worse.

Therefore, various technologies have been proposed to solve the above problems related to air quality including fine dust. In particular, interest in eco-friendly technologies using bio is increasing. A technology for purifying

The proposed technique is as follows.

The proposed technology is an oxygen generator for purifying indoor air using microalgae (Korean Laid-Open Patent Publication No. 10-2010-0010921), which captures oxygen generated during photosynthetic reaction of microalgae and improves contaminated indoor air quality. Excess carbon dioxide existing indoors can be removed, and microalgae that are fully grown after drying are configured to be reused as animal feed or fertilizer. Therefore, they can be used as fertilizer or feed using microalgae obtained as a by-product as well as purifying indoor air. It has an eco-friendly advantage because it can be supplied.

However, the prior art is similar to the present invention in that it purifies the air by removing carbon dioxide from the external air introduced by the photosynthetic reaction of microalgae and supplying oxygen, but purifying the air by contacting the outside air with the culture medium in which the microalgae are cultured. The culture medium circulation structure is different, and there is a disadvantage that the survival rate of microalgae is reduced due to contamination of the culture medium in the culture tank.

Korean Patent Application Publication No. 10-2010-0010921

The present invention was devised to solve the above problems, and the air purifier using microalgae capable of reducing the contamination level of the culture medium in which microalgae in contact with the outside air is cultured, or increasing the survival rate of microalgae cultured in the culture medium It is an object to provide a culture medium circulation system.

In the culture medium circulation system of the air purifier using microalgae according to the present invention for achieving the above object, an air purifier that purifies the air by contacting the outside air with the culture medium in which the microalgae are cultured is installed, in the culture tank of the air purifier. And a culture solution filtering unit for filtering the received culture solution, and a culture solution filling unit for filling the culture solution in the culture tank.

The culture solution filter unit includes a filter container, a culture solution collection unit for introducing the culture solution from the culture tank into the filter container, and a first nutrient solution filter unit installed inside the filter container through which the culture solution introduced from the culture solution collection unit is passed and filtered. And, a culture solution injection unit for injecting the culture solution filtered by the first nutrient solution filter unit into the culture tank.

The culture solution filling unit includes a culture solution container containing the culture solution, a culture solution supply unit supplying the culture solution contained in the culture solution container to the culture tank, a water level sensor installed in the culture tank to measure the level of the culture solution in the culture tank, and the When the level of the culture solution in the culture tank is less than a preset reference level based on the measurement data provided by the water level sensor, a chemical solution control unit is provided to control the culture solution supply unit so that the culture solution is supplied to the culture tank.

Further comprising a liquid medium filling portion to supply a liquid medium to the culture tank, the liquid medium filling portion a liquid medium container in which a liquid medium for the growth of microalgae is accommodated, and the liquid medium contained in the liquid medium container It has a medium supply unit for supplying the culture tank.

The culture solution filter unit has a first magnet unit rotatably installed on the inner bottom surface of the filter container, and the culture solution flowing in from the culture solution collection unit by rotating the first magnet unit flows in a circumferential direction along the inner wall surface of the filter container. And a nutrient solution filter unit provided with a plurality of unit filters spaced apart from each other along the circumferential direction on the inner wall surface of the filter container so that the culture liquid flowing in the rotation drive unit can be filtered through multiple stages.

The rotation driving part is rotatably installed on the outer surface of the filter container opposite the first magnet part, a second magnet part having a predetermined magnetism so as to be magnetically coupled to the first magnet part, and the second magnet It is installed in the unit and includes a rotary motor to rotate the second magnet.

The culture medium filtering unit is installed in the filtration container to reciprocate in the vertical direction, and a mesh network that compresses and compacts foreign substances or precipitates contained in the culture solution flowing into the filter container, and separates foreign substances or precipitates from the mesh network. A vibrator for applying vibration so as to be possible, an actuator installed on the mesh network and reciprocating motion, and a brush installed on the bottom surface of the filter container and constraining the sediment compacted by compression of the mesh network.

The culture medium circulation system of the air purifier using microalgae according to the present invention has the effect of reducing the contamination degree of the culture liquid in contact with the outside air through the culture liquid filtering part and the culture liquid filling part, or increasing the survival rate of microalgae cultured in the culture medium. .

1 is a perspective view showing an air purifier according to an embodiment of the present invention.
2 is a cross-sectional view showing an air purifier according to an embodiment of the present invention.
3 is a cross-sectional view showing a culture medium circulation system of an air purifier using microalgae according to a preferred embodiment of the present invention.
Figure 4 is a cross-sectional view showing a culture medium filter according to another embodiment of the present invention.
5 is a perspective view showing a culture medium filtration unit according to another embodiment of the present invention.
6 is a perspective view showing a culture medium filter unit according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail "the culture medium circulation system of the air purifier using microalgae" according to an embodiment of the present invention. In the present invention, various modifications may be made and various forms may be applied, and specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific form of disclosure, it is to be understood as including all changes, equivalents, or substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals have been used for similar elements. In the accompanying drawings, the dimensions of the structures are shown to be enlarged compared to the actual size for clarity of the present invention.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are used only for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element.

The terms used in the present application are used only to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance the possibility of being added.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. Does not.

1 to 3 illustrate a culture solution circulation system of an air purifier using microalgae.

Referring to the drawings, the culture solution circulation system of the air purifier using microalgae is installed in the air purifier to circulate the culture solution. The air purifier is as follows.

The air purifier 100 has a flow space 201 therein, and an inlet 202 and an outlet 203 formed therein so as to allow outside air to flow into the flow space 201, and the main body ( A blowing unit 300 installed in 200 to forcibly blow outside air into the inlet 202 to be discharged to the outlet 203, and installed in the flow space 201, where microalgae grow therein. The culture unit 400 in which the culture solution is accommodated, and the outside air passing through the flow space 201 with some of the culture solution accommodated in the culture unit 400 to filter out foreign substances from the outside air introduced into the flow space 201 Then, the contact unit 500 for returning to the culture unit 400 and the outside air introduced into the flow space 201 through the inlet 202 to the upper portion of the culture tank 410 opened. A plurality of guide members 600 installed in the main body 200 to guide the main body 200 between the culture unit 400 and the outlet 203 based on the flow direction of the outside air in the flow space 201 ) Installed in the filter unit 700 to filter foreign substances contained in the outside air that has passed through the culture unit 400, and filter the culture solution of the culture unit 400 or supply a culture agent to the culture unit 400 It has a supply unit (800).

The main body 200 is formed of a rectangular structure in which a flow space 201 is provided therein. In addition, the main body 200 is provided with a storage space 204 below the flow space 201 so that the supply unit 800 can be installed. A plurality of inlet ports 202 are formed on the left and right sides of the main body 200, respectively, and are formed at positions corresponding to the flow space 201 so as to communicate with the flow space 201. In addition, the outlet 203 is formed on the upper surface of the main body 200.

On the other hand, although the main body 200 is not shown in the drawing, the front is formed to be open so that the operator can set the culture unit 400 in the flow space 201, and an opening door is installed to open and close the open front. Has been. In addition, the main body 200 is provided with a plurality of rails extending in the front and rear directions on the bottom surface of the flow space 201. The rails are arranged to be spaced apart from each other along the left and right directions.

The blowing unit 300 is installed inside the upper side of the main body 200 adjacent to the outlet 203, and a blowing fan is applied to force the air in the flow space 201 to blow to the outside. Meanwhile, the blowing unit 300 is not limited thereto, and any blowing means capable of forcibly blowing air so that outside air can pass through the flow space 201 of the main body 200 may be applied.

The culture unit 400 is installed in the flow space 201, a culture tank 410 provided with a storage space 411 in which the culture medium in which microalgae grows is accommodated, and a culture tank 410 flowing into the flow space 201 A light source unit 420 that irradiates light in the culture tank 410 so that the microalgae can photosynthesize to generate oxygen by consuming carbon dioxide in the outside air, and the culture tank 410 installed in the receiving space. It includes a bubble generating unit 430 for generating bubbles in the culture medium.

The culture tank 410 is installed on the bottom surface of the flow space 201 below the inlet 202, so that the outside air introduced into the flow space 201 comes into contact with the culture solution to filter out foreign substances contained in the outside air. The top is formed to be open. Here, as the culture solution, a nutrient solution in which photobioorganisms, which are microalgae, are cultured is applied.

Meanwhile, the culture tank 410 is provided with a plurality of moving wheels 412 on its lower surface so as to be movable in the front-rear direction along the rail. Since the culture tank 410 is moved in the front-rear direction by the moving wheel 412, the operator can more easily install or separate the culture tank 410 from the main body 200. In addition, although the culture tank 410 is not shown in the drawing, a discharge pipe may be installed at the lower part so as to discharge the culture solution accommodated therein to the outside.

The light source unit 420 is installed under the storage space 411 of the culture tank 410 and includes a plurality of LEDs capable of irradiating light in the storage space 411. At this time, the lower portion of the culture tank 410 is preferably formed of a light-transmitting material so that the light irradiated from the light source unit 420 can be transmitted. Although the LED is not shown in the drawing, a plurality of the LEDs are arranged to be spaced apart from each other along the front-rear direction. It is preferable that the light source unit 420 generates light of a predetermined wavelength so that the microalgae cultured in the culture tank 410 can photosynthesize. Microalgae in the culture tank 410 are photosynthesized by the light generated from the light source unit 420 to absorb carbon dioxide from the air introduced into the flow space 201 to supply oxygen to the air.

The bubble generator 430 is installed on the bottom surface of the storage space 411 of the culture tank 410, and the nozzle member 431 generates bubbles in the culture solution in the culture tank 410, and the nozzle member 431 An air supply unit (not shown) for supplying air is provided.

The nozzle member 431 is installed in the center of the bottom surface of the storage space 411 of the culture tank 410, and an inlet space through which air is introduced is provided, and a plurality of injection holes through which air is injected are formed in the upper surface.

Although not shown in the drawing, the air supply unit includes an air supply pipe having one end installed on the nozzle member 431 and a compressor that is connected to the other end of the air supply pipe and supplies air to the inlet space of the nozzle member 431 through the air supply pipe. Equipped. The above-described bubble generation unit 430 generates bubbles in the culture solution in the culture tank 410 to agitate the culture solution.

The contact unit 500 contacts a portion of the culture solution accommodated in the culture tank 410 with the outside air passing through the flow space 201 so as to filter out foreign substances from the outside air introduced into the flow space 201, As to return to the culture tank 410, it is installed in the culture tank 410.

The guide member 600 has a communication passage 601 formed therein so as to communicate with the inlet 202, and extends to be adjacent to the upper portion of the culture tank 410 opened from the inlet 202, the end of the The outlet 602 is formed so that the outside air that has passed through the communication passage 601 is discharged to the upper portion of the culture tank 410.

The guide member 600 protrudes from the inlet 202 toward the culture tank 410, and the end thereof is formed to be curved downward. Although not shown in the drawings, it is preferable that the guide member 600 has an end edge formed in a corrugated shape so as to more firmly maintain its appearance against the flow of air.

The filter unit 700 is installed inside the main body 200 between the culture tank 410 and the outlet 203 based on the flow direction of the outside air in the flow space 201, and the first and the first air through which the outside air passes. Filter frame 710 in which two passages 711 and 712 are formed, and external air passing through the first passage 711 by being installed on the filter frame 710 so as to cover the first passage 711 And an opening/closing damper 730 installed on the filter frame 710 so as to open and close the second passage hole 712.

The filter frame 710 is installed inside the main body 200 between the inlet 202 and the outlet 203 and is formed to have an area corresponding to the inner cross section of the main body 200. The filter frame 710 has a second through hole formed in the central portion to penetrate in the vertical direction. First through holes are formed on the left and right sides of the filter frame 710 based on the second through holes. It is preferable that the first through hole is formed to penetrate the filter frame 710 in the vertical direction.

A plurality of filter members 720 are installed on the filter frame 710 so as to cover the first through holes. The filter member 720 is for filtering foreign substances in air, and a Hepa filter or the like is applied.

The opening/closing damper 730 is installed on the opening/closing plate 731 rotatably installed in the second penetration opening to open/close the second penetration opening, and the opening/closing plate 731 installed on the opening/closing plate 731 to rotate the opening/closing plate 731 It is provided with a rotating motor (not shown). It is preferable that the opening/closing plate 731 is formed to have an area corresponding to the second through hole.

When the administrator operates the opening/closing damper 730 to close the second through-hole, the air in the flow space 201 passes through the filter member 720, so the air discharged to the outside of the main body 200 through the outlet 203 While the amount of is decreased, foreign matter contained in the air is reduced. Accordingly, the administrator may close the second through-hole when the air condition in the installation space in which the main body 200 is installed is relatively poor. In addition, when the administrator operates the opening/closing damper 730 to open the second through hole, air is discharged to the discharge port 203 without passing through the filter member 720 through the second through hole. Air rich in oxygen is discharged to the outside of the main body 200 by the algae culture. Accordingly, the administrator can open the second through hole when the air in the installation space is in good condition.

The culture solution circulation system 800 of the air purifier using microalgae according to an embodiment of the present invention is installed in an air purifier that purifies the air by contacting the outside air with the culture solution in which the microalgae are cultured, and the culture tank of the air purifier A culture solution filtering unit 810 for filtering the culture solution accommodated in 410, a liquid medium filling unit 820 for supplying a liquid medium to the culture tank 410, and filling the culture solution in the culture tank 410 A culture medium filling part 830 is provided.

The culture solution filtering unit 810 is installed in the filter container 811, a culture solution recovery unit 812 for introducing the culture solution of the culture water tank 410 into the filter container 811, and the filter container 811 A first nutrient solution filter unit (not shown) through which the culture solution introduced from the culture solution collection unit 812 is passed and filtered, and a culture solution injection unit for injecting the culture solution filtered into the first nutrient solution filter unit into the culture tank 410 (814).

The filtering container 811 is installed in the storage space 204 of the main body 200, and an internal space in which the culture solution is accommodated is provided. The culture solution collection unit 812 includes a collection pipe 815 connected to the lower portion of the culture tank 410 and the filter container 811 at both ends so that the culture solution in the culture tank 410 can be supplied to the filter container 811, It is provided with a recovery pump 818 that is installed in the recovery pipe 815 and pumps the culture solution in the culture tank 410 to the filter container 811.

The first nutrient solution filter unit is installed inside the filtration container 811, and is installed in communication with the collection pipe 815 so that the culture solution including the dead body of microalgae can be filtered through. Here, although the first nutrient solution filter unit is not shown in the drawing, it is preferable that the culture solution is passed, and the dead body and foreign matter are filtered. The culture solution that has passed through the first nutrient solution filter unit is accommodated in the filter container 811.

The culture solution injection unit 814 is a first injection pipe 816 connected at both ends to be in communication with the filter container 811 and the culture tank 410 so that the culture solution accommodated in the filter container 811 can be supplied to the culture tank 410 And, a first injection pump 817 that is installed in the first injection pipe 816 and pumps the filtered culture solution received in the filter container 811 to the culture tank 410. On the other hand, the culture solution filtering unit 810 is a filtration that turns on and off the recovery pump 818 and the first injection pump 817 at predetermined first reference time intervals so that the culture solution accommodated in the culture tank 410 can be periodically filtered. A control module (not shown) may be further provided.

The liquid medium filling unit 820 includes a liquid medium container 821 accommodating a liquid medium for the growth of microalgae, and a medium supplying the liquid medium accommodated in the liquid medium container 821 to the culture tank 410 It has a supply part 822.

The liquid discharge container 821 is installed in the storage space 204 of the main body 200, and a space in which the liquid medium is accommodated is provided. The liquid medium is a liquid medium for growing microalgae.

The medium supply unit 822 is a second infusion pipe connected at both ends in communication with the liquid medium container 821 and the culture water tank 410 so that the liquid medium contained in the liquid medium container 821 can be supplied to the culture tank 410. 823), a second infusion pump 824 installed in the second infusion pipe 823 and pumping the liquid medium accommodated in the liquid medium container 821 to the culture tank 410, and a culture tank 410 periodically A medium control module (not shown) is provided to turn on and off the second injection pump 824 at predetermined second reference time intervals so as to supply the liquid medium to the liquid medium.

The culture solution filling unit 830 includes a culture solution container 831 in which the culture solution is accommodated, a culture solution supply unit 832 for supplying the culture solution accommodated in the culture solution container 831 to the culture tank 410, and the culture tank 410 ), a liquid level sensor 833 installed in the culture water tank 410 to measure the level of the culture medium in), and a chemical liquid control part 834 that controls the culture liquid supply part 832 based on the measurement data provided from the water level sensor 833 Equipped.

The culture solution container 831 is installed in the storage space 204 of the main body 200, and a predetermined culture solution is filled therein. The culture solution supply unit 832 includes a third infusion pipe 835 connected at both ends in communication with the culture solution container 831 and the culture tank 410 so that the culture solution contained in the culture solution container 831 can be supplied to the culture tank 410. , And a third infusion pump 836 installed in the third infusion pipe 835 and pumping the culture solution accommodated in the culture solution container 831 to the culture tank 410.

The water level sensor 833 is installed on the inner wall surface of the culture tank 410 to measure the level of the culture solution in the culture tank 410. Since the water level sensor 833 is a water level measuring means generally used in the related art to measure the water level, a detailed description will be omitted.

When the level of the culture solution in the culture tank 410 is less than a preset reference level based on the measurement data provided by the water level sensor 833, the chemical solution control unit 834 may supply the culture solution to the culture tank 410. Controls the supply unit 832.

The operation of the culture medium circulation system 800 of the air purifier using microalgae according to an embodiment of the present invention is as follows.

The culture medium in the culture tank 410 is pumped by the recovery pump 818, and the inside of the filtration container 811 through the bottom of the culture tank 410 and a recovery pipe 815 connected to the filtration container 811 It is introduced into, and the introduced culture solution is filtered through a first nutrient solution filter unit installed in the filter container 811.

In addition, the first injection pump 817 pumps the culture solution filtered by the culture solution injection unit 814 in the filter container 811 so that both ends are connected to be in communication with the filter container 811 and the culture tank 410, respectively. It is supplied to the culture tank 410 through an injection tube.

On the other hand, the liquid medium accommodated in the liquid medium container 821 of the medium supply unit 822 is pumped by the second injection pump 824 so that both ends are connected in communication with the liquid medium container 821 and the culture tank 410, respectively. It is supplied to the culture tank 410 through the injection tube 823.

In addition, the third injection pump 836 pumps the culture solution contained in the culture solution container 831 of the culture solution filling unit 830 so that both ends are connected to each other in communication with the culture solution container 831 and the culture tank 410. It is supplied to the culture tank 410 through 835.

At this time, the water level sensor 833 installed on the inner wall of the culture tank 410 measures the level of the culture solution, and at this time, the chemical solution control unit 834 measures the culture based on the measurement data provided by the water level sensor 833 When the level of the culture solution in the water tank 410 is less than the preset reference level, the culture solution supply unit 832 is controlled so that the culture solution is supplied to the culture tank 410.

On the other hand, Figure 4 shows a culture medium filtering unit 900 according to another embodiment of the present invention.

Elements having the same function as in the drawings shown above are denoted by the same reference numerals.

Referring to the drawings, the culture solution filtering unit 900 includes a first magnet unit 910, a rotation driving unit 920, and a second nutrient solution filter unit 930.

The first magnet part 910 is rotatably installed on the inner bottom surface of the filtering container 811 and is formed in a disc shape.

Although the first magnet part 910 is not shown in the drawing, magnets having magnetism on the upper surface thereof are arranged radially with respect to the center of rotation so as to interfere with the culture medium.

The filtering vessel 811 has a protruding protrusion 813 protruding a predetermined length upward on the bottom surface to prevent the first magnet portion 910 from being separated from the initial installation position of the first magnet portion 910 Has been.

The protruding protrusion 813 is formed in an annular shape having a predetermined radius based on the rotation center of the first magnet part 910, and in order to prevent interference with the edge of the first magnet part 910, the first magnet part ( It is preferable to form a larger radius than the radius of 910).

The rotation drive unit 920 rotates the first magnet unit 910 to induce the culture solution introduced from the culture solution collection unit to flow in a circumferential direction along the inner wall surface of the filtration container 811, and the second magnet unit It includes (922) and a rotary motor (924).

The second magnet part 922 is rotatably installed on an outer lower surface of the filtering container 811 opposed to the first magnet part 910 and is formed in a disk shape. In the second magnet part 922, magnets having magnetism on the upper surface of the second magnet part 922 are arranged radially with respect to the center of rotation so as to magnetically couple with the first magnet part 910. The rotation motor 924 is installed in the second magnet part 922 to rotate the second magnet part 922.

The second nutrient solution filter unit 930 is provided with a plurality of unit filters spaced apart from each other along the circumferential direction on the inner wall surface of the filter container so that the culture solution flowing in the rotation drive unit 920 can be filtered through multiple stages. .

Therefore, when the rotation motor 924 installed in the second magnet part 910 of the rotation drive part 920 rotates, the first magnet part 910 that is magnetically coupled rotates so that the culture solution is transferred to the filter container 811 It flows in the circumferential direction along the inner wall surface of and passes through the unit filter provided in the second nutrient solution filter unit 930 to be filtered.

Meanwhile, in FIGS. 5 to 6, a culture solution filtering unit 1000 according to another embodiment of the present invention is illustrated.

Referring to the drawings, the culture medium filtering unit 1000 includes a mesh network 1100, a vibrator 1200, an actuator 1300, and a brush 1400.

The mesh network 1100 is installed in the filtration container 811 so as to reciprocate in the vertical direction, and a plurality of filtering holes are formed so that the culture medium is passed but the foreign matter contained in the culture medium can be filtered. In addition, the mesh network 1100 is preferably formed to have an area corresponding to the inner space of the filter container 811.

The vibrator 1200 is installed in the mesh network 1100 and applies vibration to separate foreign substances or deposits from the mesh network 1100.

The actuator 1300 is installed in the mesh network 1100 and makes the mesh network 1100 reciprocate in the vertical direction. Accordingly, the actuator 1300 compresses and compacts foreign substances or precipitates contained in the culture medium flowing into the filter container 811 through the reciprocating motion of the mesh network 1100.

A plurality of brushes 1400 are installed on the bottom surface of the filtration container 811, and confine the precipitate compacted by compression of the mesh net 1100.

Therefore, as shown in FIG. 6, in the culture solution filtering unit 1000, the mesh network 1100 reciprocates in the vertical direction to compress foreign substances or precipitates of the culture solution, and the brush 1400 compresses the mesh network 1100. By restraining the minced sediment, foreign matter or sediment contained in the culture solution can be separated.

Description of the presented embodiments is provided to enable any person skilled in the art to use or practice the present invention. Various modifications to these embodiments will be apparent to those of ordinary skill in the art, and the general principles defined herein can be applied to other embodiments without departing from the scope of the present invention. Thus, the present invention is not to be limited to the embodiments presented herein, but is to be interpreted in the widest scope consistent with the principles and novel features presented herein.

100: air purifier using microalgae
200: main body 201: flow space
202: inlet 203: outlet
204: storage space 300: blowing unit
400: culture unit 410: culture tank
420: light source unit 430: bubble generating unit
500: contact unit 600: guide member
700: filter unit 710: filter frame
720: filter member 730: opening and closing damper
800: culture medium circulation system of air purifier using microalgae
810: culture medium filtration unit 811: filtration container
812: culture solution recovery unit 814: culture solution injection unit
815: recovery pipe 818: recovery pump
816: first injection pipe 817: first injection pump
820: liquid medium filling unit 821: liquid medium container
822: medium supply unit 823: second injection pipe
824: second injection pump 830: culture medium filling unit
831: culture solution container 832: culture solution supply unit
833: water level sensor 834: chemical liquid control unit
835: third injection pipe 836: third injection pump

Claims (7)

An air purifier for purifying air by contacting the culture medium in which the microalgae are cultured, and comprising: a culture solution filtering unit for filtering the culture solution contained in the culture tank of the air purifier;
It has a culture solution filling part for filling the culture solution in the culture tank,
The culture medium filtration unit
A filter container;
A culture solution recovery unit for introducing the culture solution from the culture tank into the filter container;
A first nutrient solution filter unit installed inside the filtration container through which the culture solution introduced from the culture solution collection unit is passed and filtered;
A culture solution injection unit for injecting the culture solution filtered by the first nutrient solution filter unit into the culture tank;
A first magnet part rotatably installed on the inner bottom surface of the filter container;
A rotation driving part which rotates the first magnet part to induce the culture liquid introduced from the culture liquid recovery part to flow in a circumferential direction along the inner wall surface of the filter container;
It characterized in that it comprises a nutrient solution filter unit provided with a plurality of unit filters spaced apart from each other along the circumferential direction on the inner wall surface of the filter container so that the culture solution flowing in the rotation drive unit can be filtered through multiple stages.
The culture medium circulation system of the air purifier using microalgae.
delete The method of claim 1,
The culture medium filling part
A culture solution container in which the culture solution is accommodated;
A culture solution supply unit for supplying the culture solution accommodated in the culture solution container to the culture tank;
A water level sensor installed in the culture tank to measure the level of the culture medium in the culture tank;
When the level of the culture solution in the culture tank is less than a preset reference level based on the measurement data provided by the water level sensor, it comprises a chemical solution control unit for controlling the culture solution supply unit so that the culture solution is supplied to the culture tank.
The culture medium circulation system of the air purifier using microalgae.
The method of claim 1,
Further comprising a liquid medium filling part to supply the liquid medium to the culture tank,
The liquid medium filling part
A liquid medium container accommodating a liquid medium for the growth of microalgae;
And a medium supply unit for supplying the liquid medium accommodated in the liquid medium container to the culture water tank.
The culture medium circulation system of the air purifier using microalgae.
delete The method of claim 1,
The rotation drive unit
A second magnet portion rotatably installed on an outer surface of the filter vessel opposed to the first magnet portion and having a predetermined magnetism so as to be magnetically coupled to the first magnet portion;
It characterized in that it comprises a rotary motor installed on the second magnet to rotate the second magnet
The culture medium circulation system of the air purifier using microalgae.
An air purifier for purifying air by contacting the culture medium in which the microalgae are cultured, and comprising: a culture solution filtering unit for filtering the culture solution contained in the culture tank of the air purifier;
It has a culture solution filling part for filling the culture solution in the culture tank,
The culture medium filtration unit
A filter container;
A culture solution recovery unit for introducing the culture solution from the culture tank into the filter container;
A first nutrient solution filter unit installed inside the filtration container through which the culture solution introduced from the culture solution collection unit is passed and filtered;
A culture solution injection unit for injecting the culture solution filtered by the first nutrient solution filter unit into the culture tank;
A mesh network installed in the filtration container to be reciprocated in an up-down direction, and compacted by compressing foreign substances or precipitates contained in the culture medium flowing into the filtration container;
A vibrator for applying vibration to separate foreign substances or precipitates from the mesh network;
An actuator installed on the mesh and reciprocating;
It is installed on the bottom surface of the filtration container, characterized in that it comprises a brush for restraining the sediment compacted by the compression of the mesh net.
The culture medium circulation system of the air purifier using microalgae.

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