JP2015535331A - Air purification and cooling system using aquatic plants, power generator using flexible tube - Google Patents

Abstract

An air purification and cooling system using an aquatic plant of the present invention is provided with a casing in which a hollow portion is formed in a main body of a square frame, the front portion of the main body is opened, and a front portion of the casing. A vegetation part provided with a mesh net so that plants can be planted, and an upper part of the casing, which sucks external air and flows into the casing and penetrates the vegetation part A ventilation fan that repeatedly circulates the air to the outside, a water tank section that is provided at a lower portion of the housing, has an internal space formed to accommodate water, and is provided with a submersible pump in the internal space, and the housing. A water supply unit that is provided inside the body and selectively supplies water supplied from the water tank unit to the vegetation unit. The power generation device using the flexible tube of the present invention includes a tube having a cylindrical body extending in the length direction and a hollow portion formed so that fluid can flow inside, one end of the tube, and the like. A tube connecting portion connected to the pipe end, a tube extending in the length direction inside the tube, and a rotating shaft for transmitting power; And a rotating fan that is rotated by the flow of the fluid, and a generator that is provided on one side of the tube and that generates power by transmitting power generated from the rotating shaft. To do.

Description

  The present invention relates to an air purification and air-conditioning system using hydrophyte using an aquatic plant. More specifically, the present invention introduces external air and allows air to pass between roots of the aquatic plant. The present invention relates to an air purification and cooling system using an aquatic plant that can not only reduce indoor temperature but also provide purified air.

  The present invention relates to a power generator using a flexible tube {Power generator using flexible tube}, and more particularly, is fastened to a pipe end to provide power generated by fluid flow to various regions. The present invention relates to a power generation device using a flexible tube.

  In general, indoor air not only contains a lot of fine dust due to daily activities, but also adversely affects health due to contamination of microorganisms contained in the fine dust.

  In order to purify the indoor air, you can feel the emotional richness by creating a garden or growing plants in the indoor space of a building such as a veranda, and plants such as trees and flowers from the human body. Although it absorbs the released carbon dioxide and discharges oxygen necessary for the human body, it is expected to have an accompanying effect that if you grow a lot of plants in the garden, you can breathe in fresh air, but it is emotional richness and aesthetic It can function, but the effect on "fresh air" is not so great.

  Furthermore, air conditioners that use a refrigeration cycle that recovers and compresses the vaporized gaseous refrigerant to adjust the indoor temperature in the summer and returns it to liquid are included in the air that is inhaled for the purpose of lowering the indoor temperature. In order to prevent air conditioner performance from being deteriorated by dust, it is equipped with a non-woven form filter that uses polypropylene (PP) resin fiber or polyethylene (PE) resin fiber, and the deodorizing performance is inferior simply by filtering the dust. Moreover, there is a problem that the durability is not excellent and harmful microorganisms contained in the air cannot be sterilized.

  The removal of various floating substances and microorganisms that contain dust and fine dust in the air in everyday life has attracted a lot of attention in the personal health problems that have recently been highlighted, and by solving this, the living space is cleaned. The development and installation of air conditioners equipped with various air purifiers for the health of human beings has continued to increase, but the air purifiers developed and used to date are simple. It has been developed and used for the purpose of removing dust on solid particles and removing bad odors and harmful gases, so that contaminants with a particle size of micron are not practically removed, In order to remove these bacteria, it was necessary to introduce more expensive equipment, so problems that were not realistic were pointed out, so the development of an air conditioner that could solve such problems was sought. Obtained.

  The conventional technology developed based on such a situation is disclosed as follows.

  In Korea Registered Patent No. 10-0955369 'Air Purification Air Conditioner Using Plant Extract as Filtrate' After using a highly viscous plant extract as filtrate and forcibly flowing air through sterilization process As a filtrate, a plant extract that can be dispersed in fine bubbles and let the filtrate pass through to absorb fine dust in the air, various heavy metal components and harmful gases, etc., and exhaust them completely with the filtrate. It relates to air purification air conditioners used.

  The above prior art is equipped with an evaporator, a compressor, a condenser, and a blower separately. The outside air is sucked through the primary filter that sucks in air, and the air flowing in from the bottom inside the filtrate is fine. Including a tertiary filter part that disperses the air that has passed through the secondary filter part that prevents dispersion of the air bubbles that have passed through the filtrate and passed through the filtrate, and exhausts the purified air through the moisture absorption filter to remove moisture. There is a problem that the configuration of the external air purification device becomes complicated by the configuration.

  And there is a problem that device contamination occurs at the time of water leakage by using a vegetable filtrate having a sticky property with some viscosity.

  In general, a fluid power generator converts a flow generated by a fluid flow into rotational energy of a turbine. The turbine is usually connected to a generator, where the rotational force of the turbine acts as a rotational force on the rotor of the generator.

  The rotation of the generator rotor activates the generator. However, the existing generators used in such a technique can be used only in a limited area, and the installation cost is high.

  Furthermore, existing generators will not maximize their ability to generate energy.

  Accordingly, there is a need for an apparatus and method for producing electricity that can be applied to any additional cost and in any region and maximizes the amount of energy produced.

  The present invention not only reduces indoor temperature by flowing in air between the roots of aquatic plants by flowing in external air, but also purifies air using aquatic plants that can provide purified air. And a cooling system.

  The present invention provides an air purification and cooling system using a recyclable aquatic plant by preventing water waste by circulating water contained in a water tank to a closed cycle structure.

  The present invention provides an air purification and cooling system using an aquatic plant that can diversify the size and shape of products according to the environment of the installation site as a simple structure.

  The present invention provides an air purification and cooling system using an aquatic plant in which various aquatic plants can be cultivated so as to provide a comfortable environment for an installation location and the utilization of plant cultivation can be enhanced.

  The present invention is a power that uses a flexible tube that can generate electricity through the power generated by rotating a rotating fan while a fluid flows in and flowing inside, and a number of rotating fans connected coaxially. A generator is provided.

  The present invention provides a power generation device using a flexible tube made of a flexible material and applicable in a straight line, a curved line, and a free region.

  The present invention can be applied to an existing pipe as a simple structure, and provides a power generation apparatus using a flexible tube that can diversify the size and shape of a product depending on the environment.

  An air purification and cooling system using an aquatic plant according to an embodiment of the present invention includes: a case in which a hollow portion is formed in a main body of a square frame, and a front portion of the main body is opened; and a front portion of the case. And a vegetation part provided with a mesh net so that aquatic plants can be planted, and provided at the upper part of the casing, sucking outside air and flowing into the casing, A ventilation fan that circulates the air repeatedly through the vegetation part, and a water tank part that is provided at the lower part of the housing and has an internal space formed to accommodate water and a submersible pump provided in the internal space And a water supply part that is provided inside the casing and selectively supplies water supplied from the water tank part to the vegetation part.

  In an air purification and cooling system using an aquatic plant according to another embodiment of the present invention, a rear surface portion, left and right side portions of the housing are opened, and a mesh net is further formed in the opened portion. It is characterized by that.

  In an air purification and cooling system using an aquatic plant according to another embodiment of the present invention, a plurality of the ventilation fans are provided in any one or more of the upper, lower, left and right sides of the housing. It is characterized by that.

  In an air purification and cooling system using an aquatic plant according to another embodiment of the present invention, the water supply unit is configured to inject water supplied by the submersible pump into the aquatic plant of the vegetation unit. A water supply line, and further includes a water supply nozzle provided at an end of the water supply line, wherein the water supply nozzle is one of the upper, lower and left / right sides of the housing. More than one is provided as described above.

  An air purification and cooling system using an aquatic plant according to another embodiment of the present invention senses the water level and temperature of the aquarium unit, maintains the set water level and temperature, and selectively supplies the water supply unit. It is characterized by further including a control part which controls to supply.

  A power generation apparatus using a flexible tube according to an embodiment of the present invention includes a tube having a cylindrical main body extending in a length direction and a hollow portion formed so that fluid can flow inside the tube and the tube. Provided at one end and the other end, a tube connecting portion connected to the end of the pipe, and extending in the length direction inside the tube, a large number on the same axis of the rotating shaft and the rotating shaft for transmitting power A rotating fan that is rotated by the flow of the fluid, and a generator that is provided on one side of the tube and that generates electricity by transmitting power generated from the rotating shaft. To do.

  In the power generating apparatus using a flexible tube according to an embodiment of the present invention, the tube and the rotating shaft are made of a flexible material.

  The power generating apparatus using a flexible tube according to an embodiment of the present invention further includes support portions that are respectively provided at an upper portion and a lower portion of the rotary fan and are radially formed to support an inner wall surface of the tube. It is characterized by being configured.

  In the power generating apparatus using a flexible tube according to an embodiment of the present invention, spiral portions are formed on the inner wall surface of the tube at regular intervals, and the rotating fan is flowed while the fluid flows along the inner wall surface of the tube. The rotational force of can be increased.

  According to an embodiment of the present invention, outside air is introduced and air passes between the roots of aquatic plants, so that not only the indoor temperature is reduced, but also purified air can be provided. effective.

  According to one embodiment of the present invention, the water stored in the water tank is circulated to the closed cycle structure, thereby preventing the waste of water and recycling.

  According to an embodiment of the present invention, there is an effect that the size and shape of a product can be diversified according to the environment of the installation place as a simple structure.

  According to one embodiment of the present invention, various aquatic plants can be cultivated so as to provide a comfortable environment for the installation location, and there is an effect that utilization of plant cultivation can be improved.

  According to an embodiment of the present invention, a rotating fan is rotated while a fluid flows into the inside and flows, and a large number of coaxially connected rotating fans rotate simultaneously to increase power, thereby improving the efficiency of the generator. There is an effect that can be improved.

  According to one embodiment of the present invention, it is made of a flexible material, and there is an effect that power can be generated even in a straight line, a curved line and a free region.

  According to an embodiment of the present invention, it is easily coupled to an existing pipe as a simple structure, and the size and shape of the product can be diversified according to the environment.

The perspective view which showed the structure of the air purification and cooling system using the aquatic plant by one Example of this invention. The sectional view showing the composition of the air purification and cooling system using the aquatic plant by one example of the present invention. The side sectional view showing the composition of the air purification and cooling system using the aquatic plant by one example of the present invention. The perspective view which showed the structure of the air purification and cooling system using the aquatic plant by the other Example of this invention. The front sectional view showing the composition of the power generator using the flexible tube by one example of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS The plane sectional view which showed the structure of the motive power generator using the flexible tube by one Example of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the contents described in the accompanying drawings. However, the present invention is not limited or limited by the examples. The same reference numerals shown in the drawings indicate the same members.

  FIG. 1 is a perspective view showing a configuration of an air purification and cooling system using an aquatic plant according to an embodiment of the present invention, and FIG. 2 is an air purification and cooling system using an aquatic plant according to an embodiment of the present invention. FIG. 3 is a sectional side view showing the configuration of an air purification and cooling system using an aquatic plant according to one embodiment of the present invention. FIG. 4 is a perspective view showing a configuration of an air purification and cooling system using an aquatic plant according to another embodiment of the present invention.

  Referring to FIG. 1, an air purification and cooling system using aquatic plants according to an embodiment of the present invention is provided with a casing (10) formed with a rectangular frame body and a mesh net for planting aquatic plants. A vegetation unit (11), a ventilation fan (12) for sucking outside air, a water tank unit (20) for storing water, and a water supply unit (22) for supplying the water to the vegetation unit (11) ).

  The casing (10) has a rectangular frame shape and forms a hollow portion inside the main body. The front surface of the main body of the housing (10) is opened, and a vegetation part (11) described below is provided in the opened part. The housing (10) plays a role of supporting each attached device.

  The external shape of the casing (10) can be variously modified in the shape of a square, a triangle, a sphere, or the like.

  The vegetation part (11) is provided so as to shield the opened front part of the casing (10). The vegetation part (11) is provided with a lattice type or zigzag type mesh net, and aquatic plants can be planted on the mesh net. The aquatic plant grows along the surface of the mesh net while the roots are entangled with each other.

  In general, positive plants such as aquatic plants and wild flowers grow smoothly under sufficient light conditions such as in the direct sunlight of the sun, but their growth becomes worse or impossible under low light conditions.

  Among these positive plants, especially herbs (Herb) are plants that grow naturally on the earth, have incense, and humans by using seeds and flowers, leaves, stems, roots, etc. as medicinal and aromatic agents. It is a plant that is useful for living, and when the herb leaves, flowers, stems, etc. are dried and put as decorations everywhere in the house, the natural fragrance of the faint herbs gives the room a refreshing and good fragrance, so the brain It is a plant that is widely used in various fields such as prevention of dementia, enhancement of memory, stress relief, cold prevention, analgesia, anti-inflammation and hemostasis.

  The vegetation part (11) serves as a support frame so that the aquatic plants as described above can be planted and cultivated in various ways.

  A plurality of ventilation fans (12) are continuously provided in the upper part of the casing (10). The ventilation fan (12) sucks outside air and fine dust and guides it to flow into the housing (10). The inflowing air passes between the roots of the aquatic plant in the vegetation part (11), the fine dust is filtered, and the purified air is discharged to the outside to play a role of reducing the indoor temperature.

  The water tank portion (20) has a rectangular parallelepiped shape, and a space is formed so that water is accommodated therein, and is provided in a lower portion of the casing (10). A submersible pump (21) is further provided in the internal space of the water tank part (20), and the water supplied from the water tank part (20) to the aquatic plants of the vegetation part (11) by sucking up the water using a pumping force Fulfill. The water tank part (20) is formed so as to surround the outer surface of the housing (10), and the water supplied to the vegetation part (11) is repeatedly flowed into the water tank so that the water can be circulated. This is to prevent it from being scattered outside.

  The water supply part (22) is provided inside the casing (10). The water supply unit (22) supplies water to the aquatic plants of the vegetation unit (11) through the water supply line (23) that provides a water supply path to the vegetation unit (11) side and the water supply line (23). It is comprised with the water supply nozzle (24) provided in the edge part of the said water supply line (23) so that it may inject.

  Specifically, the water supply unit (22) can be provided on the upper side of the housing (10), and water supplied by the pumping force of the water tank pump is injected along the water supply line (23). It sprays on the upper end part of the said vegetation part (11) through a nozzle, and plays the role which can supply water as a whole, when water falls from the upper end part of the said vegetation part (11) to a lower end part.

  A control unit (30) is further provided on one side of the water tank unit (20). The control unit (30) senses the water level and temperature of the water tank unit (20), maintains the set water level and temperature, and selectively supplies water to the water supply unit (22). To play a role in controlling.

  The control unit (30) can be configured to include a water level sensor that adjusts the water level of the water tank unit (20) and a temperature sensor that adjusts the temperature, and the water level sensor and the temperature sensor are the water tank unit (20). The water level and temperature are measured and output as a sensing signal, and can be configured in various forms such as a remote control and a switch so that the user can operate the set water level and temperature.

  The control unit (30) can control the function setting and the ventilation fan (12), the submersible pump (21), the water supply unit (22), and the like by operating signals from a remote controller, a switch, and the like.

  Referring to FIG. 3, a cooling module (13) may be further provided inside the casing.

  The cooling module (13) is composed of a plate-shaped thermoelectric semiconductor element, and is configured such that when a direct current is supplied, one side absorbs heat (cools) and the other side generates heat. A discharge port (14) formed at the upper end of the casing (10) to reduce the temperature of the heated air by providing a heat sink or a cooling fan to release the heated air on one side of the other side surface It is configured to repeatedly release to the outside.

  The position of the cooling module (13) is arranged such that the heat absorption part (13a) on the one side faces the vegetation part (11), and the air flowing in from the ventilation fan (12) passes through the heat absorption part (13a). It is cooled and repeatedly discharged to the outside through the vegetation part (11).

  Furthermore, if the position of the cooling module (13) is changed and the heat generating part (13b) on the other side surface is arranged toward the vegetation part (11), it can have a heating effect, and the cooling module (13) In addition to the method of changing the position, if the polarity of the current is changed, the heat-absorbing part (13a) can be configured as a heat-generating part and the heat-generating part (13b) can be configured to be changed into a heat-absorbing part.

  The cooling module (13) is configured to absorb heat and generate heat, and plays a role of increasing the efficiency of cooling and heating.

  As shown in FIG. 4, the air purification and cooling system using aquatic plants according to another embodiment of the present invention includes not only the front portion of the housing (110) but also the rear and left / right side portions. In addition, the entire casing (110) is opened, and a mesh net (111) is further formed in the opened portion, so that the efficiency of air purification and indoor temperature reduction can be further increased.

  In addition, the ventilation fan (112) includes a plurality of one or more of the upper part, the lower part, and the left and right side parts of the casing (110) in order to facilitate inflow and exhaust of external air. be able to. A plurality of upper and lower sides or left and right side portions of the housing (110) can be continuously provided, and the upper and lower portions, upper and left and right side portions, the lower portion and the upper side of the housing (110). A plurality of the left and right side portions can be combined and provided.

  The installation position and the number of the ventilation fans 112 can be varied in design depending on the efficiency of air inflow.

  In addition, a plurality of the water supply nozzles (124) may be provided in any one or more of the upper part, the lower part, and the left / right side parts of the casing (110). One or more of the water supply nozzles (124) are combined at each position of the casing (110), and water can be evenly supplied to a detailed region where water is not supplied to the vegetation part.

  The operation of the air purification and cooling system using the aquatic plant according to the present invention will be described with reference to FIGS.

  External air flows into the housing (10) by driving the ventilation fan (12). The inflowed air is between the roots of the aquatic plants in the vegetation part (11) in which the air cooled by the heat absorption part (13a) of the cooling module (13) is planted in the mesh net of the casing (10). The fine dust in the air is filtered through the air, and the air purified by the aquatic plants is repeatedly discharged to the outside.

  Conversely, by changing the position of the cooling module (13) or changing the polarity of the current, hot air is discharged outside through the vegetation part (11) by the heat generating part (13b) of the cooling module (13). By doing so, the effect of heating can be obtained.

  On the other hand, the control unit (30) maintains the preset water level or temperature set by the user through the water level sensor and the temperature sensor, and is supplied to the operation of the ventilation fan (12) and the water supply unit (22). The amount of water produced can also be controlled.

  The water in the aquarium part (20) is supplied to the aquatic plants in the vegetation part (11) through the water supply part (22), and the water that has passed through the vegetation part (11) is repeatedly flowed into the aquarium part (20), By wasting water contained in the water tank section (20) in a closed cycle structure, waste of water can be minimized.

  According to the embodiment of the present invention, various aquatic plants can be cultivated so as to diversify the size and shape of the product according to the environment of the installation location as a simple structure and provide a comfortable environment for the installation location. There is an effect that can improve the utilization of cultivation.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the contents described in the accompanying drawings. However, the present invention is not limited or limited by the examples. The same reference numerals shown in the drawings indicate the same members.

  FIG. 1 is a front sectional view showing a configuration of a power generation device using a flexible tube according to an embodiment of the present invention, and FIG. 2 shows a configuration of a power generation device using a flexible tube according to an embodiment of the present invention. FIG.

  Referring to FIGS. 1 and 2, a power generation apparatus using a flexible tube according to an embodiment of the present invention includes a tube (10) that is a fluid flow passage, and a connection portion of a tube that is connected to an end of a pipe ( 11), a rotating shaft (12) for transmitting power, a rotating fan (13) rotating by the flow of the fluid, and a generator (14) for producing electricity.

  The tube (10) has a cylindrical body extending in the length direction. A hollow portion is formed in the main body so that fluid can flow. The tube (10) is provided in an existing pipe, and tube connecting portions (11) are respectively formed at one end and the other end of the main body so that a flowing fluid can flow in.

  The tube connecting portion (11) can be changed in design in various forms (screw fastening, insertion fastening, etc.) that can be connected to the pipe.

  The tube (10) is made of a flexible material, and the main body can be selectively deformed. Therefore, the tube (10) serves as a passage that can control the flow of the fluid in a straight line, a curved line, and a free region.

  The rotating shaft (12) is provided inside the tube (10). The rotating shaft (12) is formed so as to extend in the length direction of the tube (10) and is disposed on the central axis of the tube (10). When the fluid flows into the tube (10) and flows in one direction, the rotating fan (13) described below rotates and the rotating shaft (12) also rotates at the same time. Become.

  The rotating shaft (12) is made of a flexible material like the tube (10), and can be selectively deformed corresponding to the tube (10), so that any region such as a straight line, a curved line and a free region can be obtained. However, rotational power can be generated when the fluid flows.

  Further, the rotating shaft (12) serves to support the rotating fan (13) and at the same time to transmit a rotational force to a number of rotating fans (13).

  A number of rotating fans (13) are provided on the same axis as the rotating shaft (12). The rotating fan (13) is rotated by the flow of the fluid flowing into the tube (10). Any one of the rotating fans (13) located at the upper end of the tube (10) rotates the rotating shaft (12) while rotating by the fluid flow, and at the same time, the rotating shaft (12) Other rotating fans (13) provided in large numbers at the lower end portion at regular intervals also rotate. The rotating fan (13) plays a role of generating rotational power together with the rotating shaft (12).

  The support part (15) is provided inside the tube (10). The support portion (15) has a plurality of support frames formed radially with respect to the rotating shaft (12), and supports the inner wall surface of the tube (10). The rotating fan (13) is provided at the upper part and the lower part of the rotating fan (13), and the tube (10) flows by supporting the inner wall surface of the tube (10) at the position where the supporting part (15) is provided. Sometimes, the tube (10) and the rotating shaft (12) are not deformed, so that interference such as the rotating fan (13) coming into contact with the tube (10) can be prevented.

  The spiral portion (16) is formed on the inner wall surface of the tube (10) at regular intervals. The spiral portion (16) is provided so as to correspond to the position where the rotary fan (13) is provided, and the fluid flows while moving along the inner wall surface of the tube (10). By increasing the rotational force, the rotational force of the rotary fan (13) can be further increased.

  The generator (14) is provided on one side of the tube (10). The generator (14) is connected to the rotating shaft (12) and is transmitted with rotational power generated from the rotating shaft (12) to produce electricity. The electricity produced from the generator (14) can be used as a power source for motors and various products, and not only produce electricity with the rotational power of the rotating shaft (12), but also store the produced electricity. In addition, a storage device can be further provided to increase the electricity usage efficiency.

  The operation of the power generation apparatus using the flexible tube having the above-described configuration will be described as follows.

  Fluid is supplied to a tube (10) tightly connected to the pipe. The fluid flows in one direction along the tube (10), and operates the rotary fan (13) provided in the tube (10). The rotating fan (13) is provided on the rotating shaft (12) at a regular interval, and any one of the rotating fans (13) located above the rotating shaft (12) while the fluid flows. While rotating, the rotating shaft (12) also rotates.

  The remaining other rotary fan (13) provided coaxially with the rotation of the rotary shaft (12) also rotates at the same time, and a rotational force can be further applied by the flow of the fluid.

  Then, a spiral portion (16) is formed on the inner wall surface of the tube (10), the flow rate is increased while the fluid flows along the inner wall surface of the tube (10), and the flow rate is increased to increase the flow rate. The speed of the rotating fan (13) can also be increased.

  Therefore, since a large number of rotating fans (13) can be driven simultaneously by the operation of only one rotating fan (13), the power generation efficiency can be increased.

  Furthermore, the tube (10) and the rotating shaft (12) connected to the tube (10) are made of a flexible material, and can generate power anywhere in a straight line, a curve or a free region, A support portion (15) for supporting the inner wall surface of the tube (10) is provided in the tube (10), and without interfering with the driving of the rotary fan (13) even when the tube (10) is deformed. Power can be generated.

  In addition, it is easily coupled to existing pipes as a simple structure, and can be diversified in size and shape depending on the working environment.

  Although the embodiments of the present invention have been described with reference to the limited embodiments and drawings, the embodiments of the present invention are not limited to the above-described embodiments, and this belongs to the present invention. A person having ordinary knowledge in the field can make various modifications and variations from such description. Accordingly, the embodiments of the present invention should be understood only by the scope of the claims described below, and all equivalent or equivalent modifications belong to the category of the present invention.

  According to an embodiment of the present invention, outside air is introduced and air passes between the roots of aquatic plants, so that not only the indoor temperature is reduced, but also purified air can be provided. According to one embodiment of the present invention, the rotating fan is rotated while the fluid flows in and flows into the inside, and the power is increased while a plurality of rotating fans connected coaxially rotate simultaneously. There is an advantage that the efficiency of the generator can be improved.

Claims (9)

A hollow part is formed in the main body of the square frame, and a housing in which the front part of the main body is opened,
A vegetation part provided on the front part of the housing, provided with a mesh net so that aquatic plants can be planted,
A ventilation fan that is provided at the top of the housing, sucks outside air and flows into the housing, circulates the air to the outside repeatedly through the vegetation part, and
A water tank part provided in a lower part of the housing, in which an internal space is formed so that water is accommodated, and a submersible pump is provided in the internal space;
Air purification using an aquatic plant, comprising: a water supply unit that is provided inside the casing and selectively supplies water supplied from the water tank unit to the vegetation unit; Air conditioning system. In paragraph 1,
An air purification and cooling system using an aquatic plant, wherein a rear surface portion, left and right side surface portions of the housing are opened, and a mesh net is further formed in the opened portion. In paragraph 1,
An air purification and cooling system using an aquatic plant, wherein a plurality of the ventilation fans are provided in any one or more of an upper part, a lower part, and left and right side parts of the casing. In paragraph 1,
The water supply unit further includes a water supply line provided in the housing so as to inject water supplied by the submersible pump onto the aquatic plant of the vegetation unit, and further includes a water supply nozzle provided in the water supply line. Configured,
An air purification and cooling system using an aquatic plant, wherein a plurality of the water supply nozzles are provided in any one or more of an upper part, a lower part, and left and right side parts of the casing. In paragraph 1,
It further comprises a control unit that senses the water level and temperature of the water tank unit, maintains each set water level and temperature, and selectively supplies the water level to the water supply unit. Air purification and cooling system using aquatic plants. A tube having a cylindrical main body extending in the length direction and having a hollow portion so that fluid can flow inside;
Provided at one end and the other end of the tube, a connecting portion of the tube connected to the end portion of the pipe,
A rotating shaft that extends in the length direction inside the tube and transmits power;
A number of rotation fans provided on the same axis of the rotation shaft, and rotating by the flow of the fluid;
A power generation device using a flexible tube, comprising a generator provided on one side of the tube and configured to generate electricity by transmitting power generated from the rotating shaft. In paragraph 6,
The power generation apparatus using a flexible tube, wherein the tube and the rotating shaft are made of a flexible material. In Section 6,
A power generation apparatus using a flexible tube, further comprising a support portion that is provided at each of an upper portion and a lower portion of the rotary fan and is radially formed so as to support an inner wall surface of the tube. . In Section 6,
A flexible tube characterized in that spiral portions are formed on the inner wall surface of the tube at regular intervals, and the rotational force of the rotary fan can be increased while the fluid flows along the inner wall surface of the tube. Used power generator.

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