KR100906007B1 - Elevation device of room air quality - Google Patents

Abstract

An indoor air quality improvement apparatus is provided, which improves the indoor air quality through the effective purification of aerosol and fine pollutant. An indoor air quality improvement apparatus comprises: an air inlet(2); an air outlet(3); a case(1) receiving the flowerpot(7) placed inside the water tank(9); a fan(4) installed at the air inlet of the case; an air anode ionizer(5) installed at the air outlet side of the case; an air unipolar ionizer(13) installed on the upper case; two metal nets(10,11) installed between the air anode ionizer and the air unipolar ionizer; a stability power provider(12); and an artificial illumination(8) installed outside the case top portion.

Description

Elevation device of room air quality

The present invention relates to an apparatus for improving indoor air quality, and more particularly, to an apparatus for improving indoor air quality by installing in a factory equipped with a production facility or a general living environment, and air contaminated by indoor aerosols and fine bacteria. It is intended to provide an indoor air quality improving device that not only purifies the plant with clean and high quality air through plants, but also maintains the humidity in the room, and provides an optimal environment for the human body through oxygen activation.

Commonly known air purifiers are used to clean indoor polluted aerosols and to improve air quality by supplying oxygen to the room.

For example, in a typical air purifier facility, contaminated aerosols accumulated in an internal electrode of a device may be emitted into a room through a groove or a slot of an outer case.

The disadvantage of such equipment and equipment is the extremely low ability to discharge the aerosol mixture into clean, purified air because there is no fan providing forced air flow to the electrode rods that have accumulated impurities.

In case of maintaining the humidity in the room by applying the ultrasonic humidifier, the aerosol salt is injected into the room even when the droplets are gravity-dropped, and it is ecologically safe because it may cause allergy. Can not.

Therefore, the present invention is to provide an indoor air quality improving apparatus that can eliminate all the problems of the existing indoor air quality improving apparatus as described above.

In other words, the advanced agent of the present invention improves indoor air quality through effective purification of aerosols and fine contaminants, maintains indoor humidity, and increases the concentration of oxygen and yin-yang air ions to make the room saturated with active oxygen. do.

In addition, the present invention uses the components installed in the fan and the suction of the indoor air, the suction inlet, the exhaust port, the anode ion generator, the artificial light irradiation device supplied to the plant and the plant, and the water supply pipe, etc. To provide an indoor air quality improving device that can achieve the desired purpose.

Therefore, the present invention is to provide a new structure of the indoor air quality improving apparatus that can eliminate all the problems of the existing various indoor air quality improving apparatus as described above,

In particular, the present invention installs a pot that is supplied with water through the water tank inside the case in which air can be introduced and discharged, the inlet side is provided with a fan for introducing air, the outlet side is ionized with two polarities It is possible to install an air anode ionizer, and to install an air cathode ionizer for ionizing air to the anode in the upper case of a plant placed in a flower pot, and between the air cathode ionizer and the air cathode ionizer. Two metal meshes electrically connected to the voltage supply are to be installed, and artificial lighting for supplying artificial light to the plant is installed on the upper part of the case, and 3,000 to 10,000 lux intensity illumination with a range of 400 to 700 nm is used. During the artificial light rest cycle, the 25% intensity light that is normally irradiated can be supplied to the plants. The plant to be used is one selected from plants having high dense thin epidermal leaves with high adhesiveness and plants having excellent dissipation ability due to the massive ejection of fatty acid and wax components.

The indoor air quality improving device of the present invention can be installed in a factory equipped with a production facility or a general living environment to improve the quality of indoor air, and in particular, the air contaminated by aerosols and micro bacteria in the room is clean and high. In addition to purifying the air of the vagina, it is possible to provide an indoor air quality improving apparatus capable of maintaining indoor humidity and providing an optimal environment to the human body through oxygen activation.

The indoor air quality improving apparatus provided by the present invention has the following device configuration and features.

That is, the present invention, in the selection of plants, but to use a plant having a high density of thin leaves, the fatty acid and wax components in the epidermis of the leaves to emit a large amount to use as a plant with high adhesiveness.

In addition, additional devices such as metal meshes with at least two holes, air monopole ionizers and stable voltage generators are installed.

The cation of the air is made through the air monopolar ionizer inside the upper sheath of the plant, and then passes through the net and passes through the air anode (two polarity) ionizer to the room.

In addition, each mesh is coupled to the stable voltage generator in galvanic form, so that the polarity and voltage of the mesh surface is chosen according to the temperature of the air due to aerosol contamination within the limits of the enclosure.

And it is provided with an artificial illumination device that provides a time-controlled illumination of intensity 3,000 ~ 10,000lux having a 400 ~ 700nm spectrum provided to improve the divergence of plant leaves.

The leaves of the plant act as a natural air filter with large filtering capabilities and have the ability to purify aerosol contaminants or microorganisms suspended in the air.

Therefore, in the selection of plants, it has a high density thin skin for the role of a more efficient plant, has excellent divergence ability, and contains many adhesive substances such as fatty acid and wax in the skin, so it has excellent adhesion with aerosol and has good purifying ability. Plant selection is necessary.

Aerosol deposition takes place on the leaf surface of the plant due to the operation of the air monopolar ionizer installed on top of the plant inside the outer case.
That is, the air monopolar ionizer 13 used in the indoor air quality improving device provided by the present invention generates a high concentration of monopolar ions, and as a result, the concentration of ions is very high. , Concentration near air monopolar ionizer is about 10,000,000 cm 3)
This high concentration causes the electrostatic repulsion of ions and drift of ions in the electric field to the direction of the plant.
The collision of ions with the aerosol results in the adhesion of charged ions to the aerosol particles, which results in the aerosol being charged (charged) and corona forming electrorod of the ion generator from the direction of the air monopolar ionizer. It begins to move in the leaf direction of the plant 6 under the influence of the electric field produced by the forming electrode.
If the mass of the aerosol particles is large, the movement speed in the direction of the leaves of the plant 6 is not large, but in this case, the air monopolar ionizer 13 is a fan in which a further flow of charged aerosol particles is directed toward the leaves of the plant. (4) is provided.
When the charged aerosol particles are deposited onto the leaves of the plant 6 having adhesion to the aerosol, the deposition is performed with a tight retention on the leaves of the plant 6.

Air monopolar ionizers allow plants to purify ambient air for a long time in the process of allowing cationization of air around the plant.

And in additional devices, such as a stable voltage supply and a metal mesh with two or more holes, the metal mesh and the stable voltage supply are connected in galvanic form to enhance the purification of aerosol contamination.

The mesh is located between the air cathode ionizer and the air anode ionizer, and all air passing through the air cathode ionizer is removed from the aerosol contamination as it passes through the mesh.
The present invention directs the charged aerosols which are not deposited directly on the leaves of the plant 6 by the air flow generated by the influence of the fan 4 to the outlet 3 of the case 1.
Charged aerosols entering the zone between the two nets 10, 11 lead to a strong electric field, and the voltage vector of the electric field gives rise to the concentration of particles under the influence of air flow. It is pointing in the opposite direction of motion.
The value of the electric field is so great that the speed of motion of the particles under the influence of air flow exceeds the speed of movement of the particles under the influence of this field.
This electric field pushes the particles back to the original area where the plant 6 is located, and the aerosol particles are again located around the plant 6 as a result of the strong turbulence of the air flow inside the device. The deposition of aerosol particles on the leaves of the plant 6 is repeatedly realized in the same manner as described above.

By using plants with excellent leaf divergence and providing artificial lighting with 3,000 to 10,000 Lux intensity in the 400 to 700 nm spectrum, the plant's ability to extract moisture from the leaves is improved.

By increasing the amount of water emanating from the leaves of plants, firstly, the amount of aerosol attached to the leaves increases, and secondly, it can maintain humidity in the room.

In addition, the increase in phytoncide due to the supply of artificial light and the increase in the amount of water emitted is also enhanced to remove micro-bacteria from the leaves.

In the course of providing artificial lighting to plants, there should be a period of rest that periodically provides low intensity illumination, and the intensity of the illumination provided during the rest period should not exceed 25% of the general intensity of the illumination.

Experimental results show that the intensity of illumination provided to the plant's rest period has no meaning when it is 25% or more of the general illumination intensity.

The present invention is intended to improve the air quality of offices or general living environment in the factory or non-production area, the air produced through the apparatus of the present invention has a configuration that is very similar to the physical, chemical and natural air Have.

In addition, it provides an optimal environment for the human body in terms of maintaining indoor humidity, and density of cathode air ions and anode air ions.

The present invention will be described in detail with reference to FIGS. 1 to 3.

Figure 1 shows the configuration of the indoor air quality improving apparatus provided by the present invention. 2 and 3 show the effect of air purification on various particle size aerosols in a device operated in connection with various properties of the leaf surface of the plant.

The indoor air quality improving apparatus provided by the present invention includes a plant (6) planted in a case (1), an air inlet (2) and an air outlet (3), a fan (4), an air anode ionizer (5), and a flower pot (7). ), Artificial lighting (8) provided to the plant, water tank (9), metal meshes (10, 11) with holes, stable voltage supply (12), and air polarization ionizer (13).

It is important to select the plants used to make the device more effective.

The criteria for plant selection are thin, high-density epidermis, excellent adhesion of leaves (e.g. Sansevieria) due to the release of fatty acids or waxes (e.g. purple cane, monstera). Good to do.

There is a hole in the bottom of the pot 7 in which the plant 6 is located. The pot 7 is placed at the bottom of the water tank 9.

There is a light emitting body of 400 ~ 700nm spectrum above the plant 6, the air monopolar ionizer 13 is installed above the plant 6 in the case (1).

An air inlet 2 and an air outlet 3 are formed in the case 1, a fan 4 is installed in the air inlet 2, and an air anode ionizer 5 is installed in the air outlet 3. do.

The artificial light 8 is installed outside the case 1.

Two metal meshes are installed parallel to the front of the air anode ionizer 5, and all air passing through the apparatus is excessively over the meshes. The mesh is connected to the stable voltage supply 12, respectively.

According to the present invention constituted as described above, the water tank 9 is filled with water containing nutrients and micromaterials necessary for the general growth of the plant, and the water is supplied to the plant 6 through the hole of the pot 7. .

Operation of the artificial light (8) and the operation of the air monopolar ionizer 13 makes the cation density in the case (1) 100,000 ~ 1,000,000 ion / cm ³ .

The air monopolar ionizer 13 has its own stirrer (micro pan) to allow air ions to flow faster toward the plant.

The metal meshes 10 and 11 are connected to the stable voltage supply 12, respectively, and form an electromagnetic field between the meshes 10 and 11 to cause an interference effect on the aerosol from the case 1.

This interference effect occurs when the positive voltage electrode 12 is connected to the metal mesh 10 and the negative electrode is connected to the metal mesh 11 in connection with the stable voltage supply 12.

As the fan 4 operates, contaminated air enters the case 1, and the aerosol contaminants and microorganisms entering the case 1 mixed with the air stream collide with the cations inside the case 1. Done.

As a result, aerosols and anodic pions create a kind of cluster.

One part is the operation of the microfan of the air monopolar ionizer 13 and the positive aerosol clings onto the leaves of the plant.

The other part is discharged out of the case 1 through the metal meshes 10 and 11 under the influence of the airflow generated from the fan 4.

In this process, the anodic aerosol contaminants (clusters) discharged out of the case 1 are prevented, and they are returned to the place where the plant 6 is placed to prolong the time of stay inside the case 1 so that the plant 6 In order to adhere to the leaves, the voltage Uo of the stable voltage supply 12 is defined as follows.

(V/S)·(D/μ)Uo

(V / S) (D / μ)

In the above formula, (V / S) is the velocity in the area of the metal mesh 10,11 of the air flow generated in the fan 4, V is the amount of air flow generated in the fan 4, S is the fan (4 Cross-sectional area of the air flow generated from) to the metal mesh (10, 11), D is the distance between the metal mesh (10, 11), μ is the activity of the cluster in the electromagnetic field, most (more than 90%) cluster The activity of is equal to or greater than μ = 0.0001 m ² / V · sec.

In the confirmation of the experiment, the volume of wind V = 100 m ³ / h, the cross-sectional area S = 0.2 m ² , the distance D = 5 mm, and the activity μ of the cluster in the electromagnetic field described above, the size of Uo should be 7 kv. Aerosols can be prevented from approaching the limit.

Aerosol clusters sequentially accumulate in the leaves of plants.

Naturally, the larger the leaf cross-section, the faster the removal of aerosol clusters in the wind flow. The depletion of aerosols that accumulate on the leaves is due to the leaf's natural activity.

Experimental results show that plants with high aerosol removal efficiency on leaves have high density and thin epidermis, and high amount of fatty acid or wax is ejected from the surface of the leaves, resulting in high stickiness (e.g. There are some excellent ones (eg purple cob, monstera).

When the plant's ability to divergence is improved by controlling the external environment (providing artificial lighting, raising the temperature environment), the plant makes itself wet, which is often used in the air purification industry.

If the plant 6 is used in consideration of the dissipation capacity of the plant 6, and the artificial light is to be provided to increase the dissipation capacity, the artificial light provided to the plant is planted with 3,000 to 10,000 lux intensity illumination of 400 to 700 nm spectrum. Should be provided. The set spectral range is the most efficient range for plant growth.

The intensity of the artificial light set was chosen for the following reasons. If the intensity of the artificial light is lower than 3,000 lux (under normal conditions), the efficiency of the plant's divergence capacity is reduced.

If the intensity of the artificial light is higher than 10,000 lux, plants that are not accustomed to the continuous supply of strong light will not adapt to the light and will quickly wither and lose their design effect.

Indoor plants do not need more than 10,000 lux to maintain their ability to adapt, maintain their effectiveness, and sustain growth.

Experiments have shown that the time to provide low intensity lighting can be set within 25% of the typical artificial lighting time.

In this process, not only the design aspects but also any indicators of plant growth should not be ignored.

An important feature required of the device of the present invention is the ability to maintain room humidity.

When using plants with highly divergent leaves, the water evaporated as a result of the flow of air flowing around the plant is not in the form of aerosols but in the form of natural water molecules (in this case, evaporation is called 'cool type evaporation'). ) Is achieved.

In consideration of environmental requirements, if it is important to maintain the humidity in the room, it is better to use the plant (6) as the criteria for selecting the plant with excellent divergence capacity.

If the environment does not need to place a great emphasis on maintaining humidity in the room, it is good to use a plant that has excellent adhesive properties of the leaf because a lot of fatty acid or wax is ejected from the leaves of the plant.

Among the indicators for measuring air quality, it is optimal to keep the humidity around 40 to 60%.

Another important indicator of air quality is the composition of air ions in the air.

In order to recover the air ions in the air exiting the air outlet (3) because the air flow exiting the case (1) is also blocked a considerable amount of air ions in the process of blocking the aerosol by the metal mesh (10,11). An air anode (two polarity) ionizer 5 was installed.

The air anode ionizer 5 adjusts the configuration of the anode air ion and the cathode air ion of the air flow that exits the outlet to the place where the human body is located, thereby making the indoor air comply with the regulations.

Figures 2 and 3 show special experimental data on the purification effect for aerosols with different particle sizes of the device given.

The experiment was conducted by incorporating different types of plants with leaves of different properties into the device.

FIG. 2 is experimental data on 'spoon-billed coriander' with excellent divergence ability, and FIG. 3 is experimental data on a plant of 'sansevieria', which is a highly sticky plant of leaves due to the release of fatty acids or wax components.

Measurements for aerosol contamination density are measured for contaminated air and measurements for air purged at the instrument's air inlet represent data measured at the instrument's air outlet.

As shown in FIG. 2, when a plant having excellent divergence at 100 m ³ / h is used, the purification ability for various particle size aerosol contamination dense forms 60 to 90%.

As shown in FIG. 3, when 100m ³ / h of the same conditions were used, plants having high stickiness due to the release of fatty acids and wax components were used to purify various particle size aerosol contamination. To form. As a result, it can be seen that the improvement of indoor air quality has occurred.

As such, the device clearly plays a major role in improving indoor air quality, including the removal of molecular sized water and the saturation of air ion saturated air in compliance with regulations to maintain aerosol contamination and maintain indoor humidity.

Through experiments and research conducted, the device operates 24 hours a day in all indoor environment production facility areas, non-production office areas and residential environments, and can improve the quality of indoor air.

The indoor air quality improving apparatus of the present invention can greatly benefit the development of related industries by being combined with devices for indoor air purification and humidity maintenance.

1 is a cross-sectional view showing the configuration of the indoor air quality improving apparatus provided by the present invention

Figure 2 is a graph showing the results of experiments in the air purification effect when using a purple dog as a plant in the indoor air quality improving apparatus provided by the present invention

Figure 3 is a graph showing the results of experiments in the air purification effect when using the San Severia as a plant in the indoor air quality improving apparatus provided by the present invention

■ Explanation of symbols used in main part of drawing ■

1: case 2: (air) inlet

3: (air) outlet 4: fan

5: air anode ionizer 6: plant

7: flower pot 8: artificial lighting

9: water tank 10,11: netting

12: Stable Voltage Supply 13: Air Pole Ionizer

Claims (3)

A case (1) having an air inlet (2) and an air outlet (3) for accommodating the potted plant (7) placed inside the water tank (9), A fan 4 installed at an air inlet 2 side of the case 1, An air anode ionizer 5 installed at an air outlet 3 side of the case 1, An air polarization ionizer 13 installed on the case 1 on the upper part of the plant 6 placed in the flower pot 7, Two metal meshes 10 and 11 installed between the air cathode electrode ionizer 13 and the air cathode ionizer 5, A stable voltage supplier 12 electrically connected to the metal meshes 10 and 11; Indoor air quality improving device, characterized in that it has an artificial light (8) which is installed on the outer side of the case (1). The method of claim 1; The artificial light (8) uses 3,000 to 10,000 lux intensity illumination with a range of 400 to 700 nm spectrum, and when light is required for the illumination supply, 25% intensity illumination as usual is supplied to the plant (6). Indoor air quality improving device, characterized in that. The method of claim 1; The plant (6) is characterized in that the plant has a high-adhesive, high-density thin epidermal leaf with high adhesiveness due to the large amount of fatty acid and wax components, one of the plants having excellent divergence capacity selected according to the situation Air quality improver.

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