KR20130102813A - Ventilating system for living space with plant factory - Google Patents

Abstract

PURPOSE: A living space ventilation system is provided to supply carbon dioxide generated in a living space of an apartment house to a plant factory, and supplying oxygen generated from the plant photosynthesis in the plant factory to the living space. CONSTITUTION: A carbon dioxide supplying unit (20) is installed on one end of a plant factory (10) for supplying carbon dioxide to the plant factory. A living space (30) is connected to the plant factory using an oxygen transfer duct (D1) and a carbon dioxide transfer duct (D2). The plant factory includes a plant cultivation shelf (11) and a concentration sensor for measuring the concentration of carbon dioxide in the plant factory. A carbon dioxide collector (21) includes an external air suction pipe (21b) on one side, and an oxygen air duct (21c) on the other side. A solar heat boiler (22) is connected to the carbon dioxide collector using a hot water supply pipe and a hot water collecting pipe. The oxygen transfer duct includes an oxygen suction device (D1a) on the plant factory side, and an oxygen distribution device (D1b) on the living space side. A solar heat vacuum tube heat collector (22d) heats water inside a hot water tank.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a ventilation system for a living space,

The present invention relates to a living space ventilation system using a plant plant, and more particularly to a living space ventilation system using plant plants, in which, by using the photosynthesis action of plants, in order to improve a living space, To capture the carbon dioxide generated in the residential space of the apartment building and introduce it to the plant factory and to supply the oxygen generated from the plant photosynthesis to the living space to evacuate the carbon dioxide and other contaminants in the living space To a living space ventilation system using a plant factory.

In general, plant plants are controlled by artificial environment under controlled environmental conditions such as light, temperature and humidity, carbon dioxide concentration, and culture medium, and are continuously produced without being influenced by season and place. Recently, BT (bio technology) , And IT (information technology), and it is attracting attention as a key technology of next generation agriculture in that it can dramatically increase productivity by scientifically managing the growth status of crops. As a related art, Patent Document 1 Japanese Patent Laid-Open Publication No. 10-1113913, Japanese Patent Laid-Open Publication No. 10-0098723, Japanese Patent Laid-Open No. 10-1051607, Japanese Patent Laid-Open No. 10-2004 -0010426.

On the other hand, a general plant plant system as described above includes a light source portion, an air conditioning portion, and a nutrient solution supply portion. To maximize plant photosynthesis, it is necessary to maintain a constant environment (temperature 21 ~ 25 ℃, relative humidity 70 ~ 80%, wind speed 50 ~ 60cm / sec, carbon dioxide concentration 1000 ~ 2000ppm) Maintaining a constant concentration of carbon dioxide becomes a more important factor in plant photosynthesis.

In particular, it is necessary to maintain the carbon dioxide concentration at 2000 ppm due to oxygen generated from plant photosynthesis. However, in the residential space, the concentration of carbon dioxide is instantaneously increased to about 2000 ppm and the concentration of oxygen is reduced due to the use of human respiration, electronic devices, and heating devices.

Accordingly, research has been conducted on technologies for improving the living environment by fusing residential space and plant factories using the role of carbon dioxide and oxygen in plant factories and residential spaces. As related prior arts, Patent Document 5 There is a 10-2010-0136024.

1, the housing space 100 and the plastic house 110 for greenhousing are connected to each other by a pipe, and the housing space 100 (see FIG. 1) Is introduced into the greenhouse 110 to generate oxygen by the photosynthesis action of the plant, and then introduced into the residential space 100 through the pipe.

However, in the conventional technology as described above, the residential space and the vinyl house are simply connected to each other through piping. As a means for maintaining the optimum concentration of carbon dioxide is not available, the use efficiency is remarkably lowered, And the exchange of carbon dioxide is not realized.

: Domestic Registration Patent No. 10-1113913 "Plant-Based Plant Growing System" : Korean Registered Patent No. 10-0098723 entitled "Plant Cultivation Method" : Domestic Registration Patent No. 10-1051607 entitled "Plant Plant of Amount Circulation Method for Plant Growth" : Korean Patent Laid-Open Publication No. 10-2004-0010426 "Plant for dyeing plants using LED light source and apparatus thereof" : Korean Patent Publication No. 10-2010-0136024 "Eco-Friendly Farmhouse House &

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method for improving the living environment of a residential space, Carbon dioxide generated by the plant plant is collected and supplied to a plant plant and oxygen generated in plant photosynthesis is supplied to a residence space to evacuate carbon dioxide and other pollutants in the residence space to constitute carbon dioxide supply means for supplying carbon dioxide to the plant plant The present invention aims to provide a system for ventilating a living space using a plant factory that maximizes the use efficiency by optimally maintaining the concentration of carbon dioxide in a plant plant.

The present invention relates to a living room ventilation system using a plant factory,

Plant plant;

A carbon dioxide supply means installed at one end of the plant plant for supplying carbon dioxide to the plant plant; And

And a living space communicating with the plant plant through an oxygen transfer duct and a carbon dioxide transfer duct. The system for ventilating a living space using a plant plant is provided.

On the other hand, the plant plant includes a plant cultivation shelf; And a concentration sensor for measuring the concentration of carbon dioxide in the plant plant.

The carbon dioxide supply unit may include a carbon dioxide collector configured to include a plurality of filters in which a carbon dioxide absorbent is deposited, an outer air intake tube at one end and an oxygen-containing organs at the other end. And a solar boiler communicating with the carbon dioxide collector via a hot water supply pipe and a hot water return pipe.

It is preferable that the oxygen transfer duct has an oxygen suction device on the plant plant side and an oxygen supply device on the living space side.

Preferably, the residence space includes a concentration sensor for measuring an oxygen concentration in the residence space.

It is preferable that the carbon dioxide collector is provided with a concentration sensor at a portion where the outside air intake tube and the oxygen air intake tube are installed.

The solar-heating boiler may include a hot water tank; And a solar collecting tube for heating the water in the hot water tank.

The present invention relates to a method for collecting carbon dioxide generated in a residential space of a multi-family house using a cycle of generating oxygen by sucking carbon dioxide, which is a basic function of plant photosynthesis, CO2, and other pollutants in the residential space are ventilated by supplying oxygen generated from plant photosynthesis to the residential space and using the pressure difference and specific gravity difference between oxygen and carbon dioxide, and the carbon dioxide By optimizing the carbon dioxide concentration in the plant plant by constructing the supply means, it is possible to maximize the use efficiency, to increase the comfort of the residential space due to the introduction of oxygen in the apartment housing space, The effect of eliminating pollutants, responding to carbon trading There are advantages to increasing the economic competitiveness of the dynamic effects houses and public housing, and only by the House of Commons to implement eco-friendly to maximize the effect caused by the specific introduction efficiently.

1 is a perspective view showing an environmentally friendly farm house according to the prior art;
2 is a schematic view showing a configuration of a living space ventilation system using a plant plant according to an embodiment of the present invention;
3 is a perspective view illustrating a configuration of a living space ventilation system using a plant plant according to an embodiment of the present invention.
Fig. 4 is a perspective view showing the carbon dioxide supply means of Fig.
FIG. 5 is a perspective view showing the carbon dioxide collector of FIG.
6 is a perspective view showing a ventilation flow according to an embodiment of the present invention;

The above objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and effect of the preferred embodiment of the present invention.

Hereinafter, the ventilation principle and concept of the present invention will be described with reference to FIG. 2, and the construction for implementing the principle and concept will be described with reference to FIG. 3 to FIG.

FIG. 2 is a schematic view showing the construction of a residential space ventilation system using a plant plant according to an embodiment of the present invention. The plant plant 10 according to the present invention is a completely closed type plant plant (10), the plant plant (10) maintains an optimal concentration of carbon dioxide of 2000 ppm in order to promote plant photosynthesis in the plant (10).

At this time, the carbon dioxide used in the plant 10 is supplied from the living space 30. When the concentration of the carbon dioxide in the plant 10 is less than 2000 ppm, air is introduced from the outside air, If the concentration of carbon dioxide is not maintained at 2000 ppm even when the outside air is introduced, carbon dioxide is additionally supplied from the carbon dioxide supplying means 20 to maintain the concentration.

On the other hand, the carbon dioxide and oxygen concentrations of the plant 10 and the living space 30 are maintained and managed by the concentration sensor, and the photosynthetic rate is controlled by measuring the amount of light.

The flow of air in the plant plant 10 and the living space 30 can be controlled by maintaining the inside of the plant 10 at a constant pressure so that the oxygen generated by the plant photosynthesis is converted into oxygen by using a pressure difference and a specific gravity difference, To the residential space of the

Here, the two-way ventilation means a ventilation system consisting of a combination of forced air supply and natural air exhaust.

That is, the oxygen generated in the plant 10 is supplied to the residence 30, the oxygen supplied to the residence 30 is exchanged for carbon dioxide, and the exchanged carbon dioxide is transferred to the plant.

At this time, the room temperature in the plant plant 10 is maintained at 24 to 27 ° C by using the hot water heated by the solar boiler included in the carbon dioxide supply means 30.

Meanwhile, the carbon dioxide collecting device applied to the carbon dioxide supplying means 30 according to the present invention is a carbon dioxide collecting device used in an absorption reaction (K ₂ CO ₃ + CO ₂ + H ₂ O → 2KHCO ₃ ) and a regeneration reaction (2KHCO ₃ → K ₂ CO ₃ + CO ₂ + H ₂ O) to collect and release carbon dioxide.

The absorption reaction absorbs carbon dioxide by blowing outside air (60 to 70 ° C) to a filter in which a carbon dioxide absorbent (MOH) and carbonic acid salt (KCO ₃ , Na ₂ CO ₃ ) are used.

On the other hand, a concentration sensor is attached to a portion where the outside air is sucked and a portion to be discharged after the adsorption of carbon dioxide, so that the concentration of each portion can be confirmed.

At this time, the concentration of carbon dioxide generated by the carbon dioxide capture device is checked by the sensor of the carbon dioxide supply part and supplied to the plant 10.

Therefore, when the concentration of carbon dioxide in the plant 10 is insufficient, the hot water and steam (150 ° C) heated by the solar boiler heat the filter of the collecting device to supply the carbon dioxide generated by the regeneration reaction of the absorbent to the plant 10 Supply. The water produced in the regeneration reaction is recovered and sent to the solar boiler for reuse.

That is, the outside air is forced into the carbon dioxide collector to absorb carbon dioxide and moisture in the absorbent, and the remaining oxygen is supplied to the housing space 30. [

FIG. 3 is a perspective view illustrating a structure of a living space ventilation system using a plant plant according to an embodiment of the present invention, FIG. 4 is a perspective view of the carbon dioxide supplying means of FIG. 3, and FIG. 6 is a perspective view showing a ventilation flow according to an embodiment of the present invention. The present invention comprises a plant plant 10, a carbon dioxide supply means 20, and a living space 30.

The plant plant 10 is a means for growing plants and producing oxygen through photosynthesis by plants. The plant plant 10 includes a plant cultivation shelf 11 in which the plant can be grown and a carbon dioxide concentration in the plant plant 10 And a concentration sensor for measuring the concentration.

At this time, it is preferable that the plant cultivation shelves 11 are arranged in a multi-stage manner in consideration of space utilization efficiency and the like.

On the other hand, the flow of the air flow in the plant plant 10 and the living space 30 is controlled by maintaining the inside of the plant 10 at a constant pressure so that the oxygen generated by the plant photosynthesis is divided into two- To the living space 30 of the user.

In order to maintain the optimum concentration of carbon dioxide in the plant plant 10 according to the present invention, the concentration of carbon dioxide in the plant plant 10 When the concentration of carbon dioxide is 2000 ppm or less, the concentration of carbon dioxide is maintained at 2000 ppm by introducing air from outside air. If the concentration of carbon dioxide is not maintained at 2000 ppm by introducing outside air, the carbon dioxide is supplied additionally And the concentration is maintained.

The carbon dioxide supplying means 20 is installed at one end of the plant 10 to supply carbon dioxide to the plant 10. The carbon dioxide collecting device 21 includes a carbon dioxide collector 21 and a solar boiler 22, do.

The carbon dioxide collector 21 includes a plurality of filters 21a in which a carbon dioxide absorbent is deposited. The outer air intake pipe 21b is provided at one end and the oxygen supply pipe 21c is provided at the other end.

At this time, the carbon dioxide sorter 21 applied to the carbon dioxide supply means 30 according to the present invention is a carbon dioxide sorter for recovering carbon dioxide from the absorption reaction (K ₂ CO ₃ + CO ₂ + H ₂ O → 2KHCO ₃ ) and the regeneration reaction (2KHCO ₃ → K ₂ CO ₃ + CO ₂ + H ₂ O) absorption of carbon dioxide by the emission and the absorption reaction is a filter in which the deposition of carbon dioxide absorber using (hydroxide (MOH of alkali metals) and the carbonate (KCO _3, Na ₂ CO ₃₎₎ Air is blown to absorb carbon dioxide.

That is, the outside air is forced into the carbon dioxide collector to absorb carbon dioxide and moisture in the absorbent, and the remaining oxygen is supplied to the housing space 30. [

The carbon dioxide collector 21 configured as described above is preferably provided with a concentration sensor at a portion where the outside air intake pipe 21b and the oxygen air intake pipe 21c are installed so that the concentration of each portion can be confirmed .

Therefore, the concentration of the high concentration carbon dioxide generated in the carbon dioxide sorter 21 is checked and supplied to the plant 10.

The solar boiler 22 communicates with the carbon dioxide collector 21 via a hot water supply pipe 22a and a hot water return pipe 22b and is configured to heat water in the hot water tank 22c and the hot water tank 22c And a solar cell vacuum tube collector 22d.

Therefore, when the concentration of carbon dioxide in the plant 10 is insufficient, the hot water and steam (150 ° C) heated by the solar boiler heat the filter of the collecting device to supply the carbon dioxide generated by the regeneration reaction of the absorbent to the plant 10 Supply. The water produced in the regeneration reaction is recovered and sent to the solar boiler for reuse.

In addition, the room temperature in the plant plant 10 is maintained at 24 to 27 ° C by using the hot water heated by the solar boiler 22 included in the carbon dioxide supplying means 30.

The residence space 30 is an area communicating with the plant plant 10 through the oxygen transfer duct D1 and the carbon dioxide transfer duct D2 and the oxygen transfer duct D1 is connected to the plant plant 10 side And the oxygen supply device D1b is provided on the side of the residence space 30 and a concentration sensor capable of measuring the concentration of carbon dioxide and oxygen in the residence space 30 is provided desirable.

Therefore, the oxygen generated in the plant 10 is supplied to the residence 30, the oxygen supplied to the residence 30 is exchanged for carbon dioxide, and the exchanged carbon dioxide is transferred to the plant ).

The present invention is not limited to the above-described embodiments and the accompanying drawings, and various changes, modifications and variations may be made without departing from the scope of the present invention. Will be apparent to those of ordinary skill in the art.

10: Plant Plant 11: Plant Growing Lathes
20: Carbon dioxide supply means 21: Carbon dioxide capture device
21a: filter 21b: outdoor air intake tube
21c: Oxygen-powered organs 22: Solar boiler
22a: hot water supply pipe 22b: hot water return pipe
22c: Hot Water Tank 22d: Solar Collector
30: Residential space D1: Oxygen transfer duct
D1a: Oxygen suction device D1b: Oxygen supply device
D2: Carbon dioxide moving duct

Claims (7)

A system for ventilating a living space using a plant plant,
Plant plant;
A carbon dioxide supply means installed at one end of the plant plant for supplying carbon dioxide to the plant plant; And
A living space ventilation system using a plant factory comprising a; living space in communication with the plant factory through the oxygen movement duct and carbon dioxide movement duct;
The method of claim 1,
The plant factory,
Plant cultivation shelves; And
A concentration sensor for measuring the carbon dioxide concentration in the plant factory; residential space ventilation system using a plant factory comprising a
The method of claim 1,
The carbon dioxide supply means,
A carbon dioxide collector configured to include a plurality of filters in which a carbon dioxide absorbent is deposited, one end of which is provided with an outside air intake pipe, and the other end of which is provided with an oxygen air supply pipe; And
Residual space ventilation system using a plant factory, characterized in that it comprises a; solar boiler in communication with the carbon dioxide collector via a hot water supply pipe and hot water collection pipe
The method of claim 1,
The oxygen transfer duct,
Oxygen suction device is configured on the plant factory side, oxygen supply device is installed on the living space side ventilation system using the plant factory
The method of claim 1,
The living space is,
Residual space ventilation system using a plant factory comprising a; concentration sensor for measuring the oxygen concentration in the living space;
The method of claim 3, wherein
The carbon dioxide collector,
Residual space ventilation system using a plant factory, characterized in that the concentration sensor is provided in the portion where the outside air intake pipe and the oxygen supply pipe is installed
The method of claim 3, wherein
The solar boiler,
Hot water tank; And
Solar vacuum tube collector for heating the water in the hot water tank; residential space ventilation system using a plant factory comprising a

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