KR101839556B1 - A air cleaning system - Google Patents

Abstract

The position of the intake port is set so as to effectively collect various pollutants floating in the air, and the air circulation efficiency is considered by maximizing the distance between the intake port and the exhaust port in order to prevent the turbulence, and the ionization capacity is about 10 times An air purifying system capable of expanding the usable area of the air cleaner through a method of compacting the entire volume of the product and increasing the air permeability while allowing a large amount of ionization emission. To achieve the above object, according to a preferred embodiment of the present invention, an air purifying system of the present invention comprises: an inlet (3) for introducing polluted air; A first filter element (10) formed of a metal mesh structure; An ionization section 20a in which a discharge electrode p is arranged in a spiral shape is formed on the inner upper end and a plurality of helical wrinkles w are formed on the outer wall at intervals of 3 mm at an inner lower end thereof, and a dust collection section 20b, And the outer housing 20c includes a second filter member 20 having a plurality of helical wrinkles w formed on outer walls at intervals of 3 mm and formed into a cylindrical shape having negative electrodes; A high voltage generating member (30) generating 13,500 V; An absorbing member 40 formed of a low density polyether to absorb noise and vibration; An air blowing member 50 formed with a radial fan F; A third filter member 60 formed by shaping the granular activated carbon into polyethylene wax; And an outlet 70 for discharging the purified air.

Description

[0001] The present invention relates to an air cleaning system,

The present invention relates to an air purification system, and more particularly, to a structure for increasing an ionization interval in a large amount, thereby effectively removing air pollution sources and harmful sources, increasing the air permeability of the filter, The present invention relates to a practical air purification system capable of exhibiting the above-described functions in a compact structure while treating a large amount of pollution sources by effectively solving the ozone generation problem due to the adoption of the plasma system.

Generally, outdoor air does not have a high concentration of carbon dioxide, and indoor air can increase the concentration of carbon dioxide due to respiration of indoor residents. Therefore, it is necessary to periodically draw outdoor air into the room while ventilating work do. Also, in recent years, fine dusts are often contained in the room air, so that an active air cleaning operation for removing fine dust is also required. Pollutants such as fine dust, pollen, viruses, bacteria, ultrafine dust, fungi, polychlorinated biphenyls and volatile organic compounds are always floating and do not fall on the floor. Therefore, a structure capable of capturing the suspended substances in the air most effectively is required. Also, most of the air purification systems are arranged at a distance not far from the intake port and the exhaust port, so turbulence is generated and effective air inflow is hindered. In addition, since the air purification system in a home or office usually has only one room in a certain indoor area, the difference in air purification capability is considered to be the most important technical part in the technical field. In view of this, Japanese Patent Laid-Open No. 10-1808116 proposes an air cleaning system having a ventilation unit for venting contaminated indoor air to the outside and fresh indoor air to suck indoor air, The air purifying efficiency in the field of air cleaning is deteriorated. Most air cleaners use HEPA-H13 class HEPA filters, and the degree of fine dust reduction by grade is as follows. H10: 85%, H11: 95%, H12: 99.50%, H13: 99.75%, H14: 99.98% (data according to the HEPA filter classification prescribed by EPA) In case of H12 grade or more, fine dust removal rate is not more than 99%, but the price difference is bigger as the step goes up. Therefore, price and performance are important for efficient use and maintenance of air purifier. The higher grade does not guarantee the practical efficiency of fine dust removal when applied to real products, but it does not guarantee that the material, shape, and interrelationship between components of the system, the spacing between the frame and the components surrounding the filter Resulting in a large difference in the actual efficiency. Therefore, the technical characteristics of the air cleaner should be judged based on the filtering method, the filtering structure, the assembled state of each component, the arrangement and the durability of the components. Accordingly, it is an object of the present invention to provide an air purification system capable of efficiently and compactly starting a structure.

An object of the present invention is to set the position of the suction port so as to effectively collect various pollution sources floating in the air unlike the conventional air purification system described above and to maximize the distance between the suction port and the discharge port in order to prevent turbulence, And to provide an air purification system in consideration thereof.

It is another object of the present invention to provide an air purification system capable of providing an ionization capability 10 times higher than that of conventional air purification products and capable of providing a large volume of ionization emission while providing a compact product volume.

Another object of the present invention is to provide an air purifying system capable of enlarging a use area of an air purifier through a method of increasing an air permeability.

It is another object of the present invention to provide an air purification system capable of filtering all the bacteria such as viruses and bacteria by allowing filtering to a particle size of 1 nmm, thereby providing enhanced filter function over general air purifiers.

It is another object of the present invention to provide an air purification system capable of effectively attenuating ozone generated in an ionization process.

Yet another object of the present invention is to provide a space-specific air purification system by providing a linear structure capable of providing the above functions and minimizing the space in which the air purification system is installed.

To achieve the above object, according to a preferred embodiment of the present invention, an air purifying system of the present invention comprises: an inlet (3) for introducing polluted air; A first filter element (10) formed of a metal mesh structure; An ionization section 20a in which a discharge electrode p is arranged in a spiral shape is formed on the inner upper end and a plurality of helical wrinkles w are formed on the outer wall at intervals of 3 mm at an inner lower end thereof, and a dust collection section 20b, And the outer housing 20c includes a second filter member 20 having a plurality of helical wrinkles w formed on outer walls at intervals of 3 mm and formed into a cylindrical shape having negative electrodes; A high voltage generating member (30) generating 13,500 V; An absorbing member 40 formed of a low density polyether to absorb noise and vibration; An air blowing member 50 formed with a radial fan F; A third filter member 60 formed by shaping the granular activated carbon into polyethylene wax; And an outlet 70 for discharging the purified air.

According to another embodiment of the present invention, the air purifying system of the present invention is characterized in that the air inlet 3, the first filter member 10, the second filter member 20, the high voltage generating member 30, The first filter member 40, the air blowing member 50, the third filter member 60 and the discharge port 70 are sequentially connected and arranged in a straight line, and the suction port 3 is formed at a height of 145 to 165 cm from the ground .

Through the above-described configuration, the air cleaning system of the present invention provides a large amount of air cleaning capability and provides the above-mentioned function beyond the limit of the conventional air purifier.

Considering these effects from a functional point of view, the ionization process of the air purification system employed in the present invention can treat a large amount of suspended substances by expanding the ionization interval by about 10 times, unlike the ionization process of the conventional air cleaner. The pollutant can be efficiently collected through the filter member adopted in the invention, thereby improving the air purification ability.

Also, considering from a health point of view, there was a limit in not filtering the bacterial virus because the filter particle size of the conventional air cleaner is 300 nm or more and the size of the bacterial virus is much smaller than 300 nmm. However, It is possible to filter up to a particle size of 1 nm and since the bacterial virus is larger than 1 nm, it is advantageous to effectively remove the bacterial virus.

The air purifying system according to the present invention improves the air permeability of the filter member, so that a large amount of air inflow and outflow can be prevented. So that it is possible to provide a purified area of 35 to 40 pyeong.

In addition, ozone generated during the ionization process is effectively removed, thereby providing pleasant and fresh air continuously.

The air purifying system according to the present invention that exhibits the above-described functions and efficiency can be effectively provided with a compact structure while being able to effectively remove airborne substances and contaminants from the air, thus requiring an environmentally-friendly and enhanced air purifying capability. It can be used in any place where customized space is needed.

1 is an explanatory diagram of an installation environment according to an embodiment of the present invention.
2 is an explanatory view for explaining the flow of the air purification system of the present invention.
FIG. 3A is an ionization section of a conventional air cleaner, and FIG. 3B is an ionization section of an air cleaning system according to the present invention.
FIG. 4A is an explanatory view for explaining a second filter member of the present invention, and FIG. 4B is a cross-sectional view taken along line A of FIG. 4A to explain its cross-sectional structure.
5 is a perspective view of the high-voltage generating member of the present invention.
6 is an explanatory view for explaining the absorption member of the present invention.
7 is a perspective view of the air blowing member of the present invention.

1 and 2, the air purifying system according to an embodiment of the present invention purifies contaminants floating in the air more efficiently through a total of six stages of purification systems. Respectively.

In order to prevent polluted air from entering through the inlet port 30 and to prevent formation of turbulence, the outlet port 70 through which the purified air is discharged is structurally positioned so as to be spaced apart from the inlet port as much as possible.

 The first filter element 10 is a network structure of metal, which pre-purifies thick dust, fibers, insects, animal hair and human hair, and long fibers in the air. When these substances are introduced into the air purification system, the life of the filter is shortened and the performance of the air purification is affected. Therefore, the desired mesh interval is 1 mm to perform this operation.

The second filter member 20 is largely divided into an ionization section 20a and a dust collection section 20b, 20c. As shown in FIG. 3A, in the conventional air cleaner, a discharge electrode (p) is arranged in a substantially straight shape, so that the ionization period is short and the ionization period is short The ionization period according to the present invention of FIG. 3B has an effect that the ionization interval is increased ten times as the discharge electrodes p are arranged in a spiral manner. As shown in FIG. 4, a cylindrical dust collecting section 20b is formed at the lower end of the ionization section 20a, and a plurality of helical wirings w are formed at intervals of 3 mm on the outer wall of the cylindrical body. . The outer housing 20c constituting the outermost wall surrounding the ionization section 20b and the triple dust collection section 20b is cylindrical and has a plurality of helical wrinkles w formed on the outer wall at intervals of 3 mm and has a negative electrode . That is, the dust collecting section is composed of a dust collecting section 20b located at the lower end of the ionization section 20a and a dust collecting section constituting the outer housing 20c, so that a total of four dust collecting sections are formed. The gap is fixed through the bracket (b). In other words, after the air particles including dust and harmful substances are charged in the ionization section, the pollutants having a plus (+) are adsorbed on the dust collecting plate having negative electrodes, and the negative ions Release.

The high-voltage generating member 30 is for providing a voltage to the ionization section 20a at the upper end, generating 13,500 V, and discharging a high voltage to the pin 33 in Fig.

Figure 6 illustrates the absorbent member 40, which is formed of a low density polyether to absorb noise and vibration that may occur in an air purification system.

7 shows the air blowing member 50. The motor M is mounted at the lower end to enable the motor to rotate, and the fan at the upper end has a radial shape to reduce noise generated during operation.

The third filter member 60 is formed by shaping the granular activated carbon with polyethylene wax and serves to remove ozone generated in the second filter member 20. The purified air having undergone the above process is discharged through the outlet 70 ≪ / RTI > The recommended value of the ozone generation product is 0.06 ppm, but the amount of ozone generated in the air purification system according to the present invention is not more than 0.01 ppm as determined by the test method SPS KACA002-132: 2006.

That is, the air purifying system according to the present invention is subjected to six filtering processes in total. The filtering process is performed once in the first filter member 10, four times in the second filter member 20, once in the third filter member 60 It is possible to perform systematic filtering by purifying step by step in total 6 steps.

According to another embodiment of the present invention, the suction port 3, the first filter member 10, the second filter member 20, the high voltage generating member 30, the absorber 40, The member 50, the third filter member 60 and the discharge port 70 are sequentially connected and arranged in a straight line, and the suction port 3 is formed at a height of 145 to 165 cm from the ground. The position of the inlet 3 according to the present invention has a critical significance because the suspended matter in the air is distributed most from the ground to the above-mentioned height.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

3: inlet 10: first filter element
20: second filter member 30: high voltage generating member
40: absorbing member 50: air blowing member
60: third filter member 70: outlet

Claims (2)

An inlet (3) for introducing polluted air;
A first filter element (10) formed of a metal mesh structure;
An ionization section 20a in which a discharge electrode p is arranged in a spiral shape is formed on the inner upper end and a plurality of helical wrinkles w are formed on the outer wall at intervals of 3 mm at an inner lower end thereof, and a dust collection section 20b, And the outer housing 20c includes a second filter member 20 having a plurality of helical wrinkles w formed on outer walls at intervals of 3 mm and formed into a cylindrical shape having negative electrodes;
A high voltage generating member (30) generating 13,500 V;
An absorbing member 40 formed of a low density polyether to absorb noise and vibration;
An air blowing member 50 formed with a radial fan F;
A third filter member 60 formed by shaping the granular activated carbon into polyethylene wax; And
And an outlet (70) for discharging the purified air. The air filtering apparatus according to claim 1, wherein the suction port (3), the first filter member (10), the second filter member (20), the high voltage generating member (30) ), The third filter member (60), and the discharge port (70) are sequentially connected and arranged in a straight line, and the suction port (3) is formed at a height of 145 to 165 cm from the ground surface.

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