KR100859840B1 - Air cleaning device - Google Patents

Abstract

An electric precipitation-type air cleaning device equipped with an ion generator at an ejecting port is provided to collect and remove dust of the rooms within a short time by ionizing the dust by increasing the quantity of ions emitted into the room as the operation time of the air cleaning device is elapsed. An electric precipitation-type air cleaning device equipped with an ion generator(40) at an ejecting port is composed of: air inlets through which the air flows in; a charging unit unipolar-charging the dust included in the air; a dust collecting unit(80) collecting the dust; a blower fan for sucking the air and discharging the air purified by the dust collecting unit, to the outside; an ejecting port functioning as a passage for the clean air exhausted to the outside by the blower fan; and the ion generator installed at the ejecting port to emit a great quantity of ions. The dust collecting unit comprises a roll-type electrode plate for high-pressure side connected to a high voltage applying device to keep a predetermined inner gap; a bent grounding plate installed in the inner gap; and an insulating member formed at the end of the electrode plate.

Description

Electrostatic precipitating air purifier equipped with ion generator on discharge side {Air cleaning device}

1 is a view showing the dust collection principle of a conventional filter type air cleaner,

2 is a view showing the dust collection principle of the conventional electric air cleaner,

Figure 3 is a schematic diagram showing the principle of dust collection of the air purifying apparatus according to an embodiment of the present invention,

4 is a view schematically showing the configuration of a dust collector according to an embodiment of the present invention,

5a to 5d is a view showing the configuration of the ion generator of the present invention for each embodiment,

6 is a schematic view showing the overall dust collection process of the air purifying apparatus according to an embodiment of the present invention,

7 is a graph showing the cleaning capacity of the air purifier according to the presence or absence of the ion generator of the present invention.

<Description of Symbols for Major Parts of Drawings>

10: charge part 11: discharge part

20: ground portion 40: ion generator

50: high voltage application device 80: dust collector

101: blower fan 90: discharge port

The present invention relates to an electrostatic precipitating air purifier having a low ozone generation amount and an improved purifying capacity, having an ion generator mounted on the air discharge portion of the electrostatic precipitating air purifier, having a high purifying performance but having a high pressure loss. Instead of using, the electrostatic precipitating air cleaning method with low pressure loss is applied, and the ion generating part is installed in the air discharge part of the air purifying device to generate a large amount of ions into the indoor space, and then collected in the dust collecting part of the electric precipitating air purifying device The present invention relates to an air purifier, characterized in that the fine dust is not ionized continuously by these ions, thereby improving the cleaning ability of the electrostatic precipitating air purifier.

In the case of the conventional filter type air cleaner, since the high efficiency particulate air (HEPA) filter of high efficiency is used as shown in FIG. 1 to increase the cleansing ability, the pressure loss caused by the filter is considerably large, and the power consumption is large. Therefore, there is a limit in making a large capacity air cleaner. In addition, it is difficult to clean the filter contaminated by dust, the faster the replacement cycle of the filter, the higher the maintenance cost, the higher the filter efficiency is the cause of the increase in the price of the air cleaner.

On the other hand, in the case of the electrostatic precipitating air cleaner, as shown in FIG. 2, the monopole (positive or negative) is composed of a gentle part and a dust collecting part, and the charged particles in the ionizer are collected using the principle of collecting from the dust collecting part to which an electric field is applied. As a result, the pressure loss due to the filter is hardly generated, but there is a disadvantage in that the cleansing ability is significantly lower than that of the filter type air cleaner equipped with the HEPA filter. In order to improve the cleaning ability of the electrostatic precipitating type air cleaner, a high applied voltage is required in the ionization unit. Since this method increases the amount of ozone generated, the method of increasing the applied voltage has a limitation in improving the cleaning ability.

Therefore, the present invention has been made to solve the above problems, the object of the present invention is to adopt an electrostatic precipitating method with almost no pressure loss, and by additionally installing an ion generator on the discharge port side dust not collected initially The present invention provides an air purifier that is ionized indoors and collected in a recycling process.

An object of the present invention as described above, the air inlet air is introduced; A charging unit configured to monopolar charge dust contained in the air; A dust collecting part for collecting the monopolar charged dust from the charged part; A blowing fan for discharging the clean air by the suction and dust collector of the air to the outside; A discharge port that is a distribution path of clean air discharged to the outside by the blowing fan; And an ion generator provided with the discharge port and emitting a large amount of ions. The air purifier of the electrostatic precipitating method has an ion generator mounted on the discharge port side.

Further features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

Hereinafter, with reference to the accompanying drawings showing a preferred embodiment of the present invention will be described in detail, in adding reference numerals to the components of each drawing, the same components are possible even if displayed on different drawings It should be noted that the same reference numerals are used. In describing the present invention, when it is determined that the detailed description of the related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Referring to FIGS. 3 to 7, the present invention is characterized in that the charged portion 10 and the charged portion 10 are charged with a single pole to charge the dust in the air to the positive or negative pole. It is composed of a dust collector (80) for collecting dust and the ion generator (40) for charging the dust not collected in the dust collector (80).

The dust collecting part 80 is connected to the high voltage applying device 50 for applying a high voltage and maintains a constant internal interval to form a high-pressure side electrode plate 80a formed in a roll, and a bending ground provided at the internal interval. An end of the plate 80b and the high-pressure side electrode plate 80a is composed of an insulating member 80c,

It may be connected to a high voltage applying device 50 for applying a high voltage and may be composed of a metal plate 80d and a ground plate 80e parallel to the charged portion 10.

Here, it is preferable to coat a dielectric film on the surface of the high voltage electrode plate 80a of the above-mentioned dust collector 80 among the configuration of the dust collector 80, and one example of the dielectric film may be polypropylene. The dielectric film used in the present invention refers to a dielectric film, that is, a film made of a material that causes an electric polarization when an electrostatic field is applied, but does not allow a direct current to flow therethrough. Do not allow direct current to flow. Therefore, a potential difference is formed between the high voltage electrode plate 80a and the ground plate 80b through which high voltage flows, thereby collecting dust charged to the positive electrode or the negative electrode. The dust collector 80 is applied with a voltage having the same polarity as the voltage applied to the charged portion 10a to the high voltage electrode plate 80a so that the charged dust is collected on the ground plate 80b. The insulating member 80c may be coated with a conventional insulating material (silicon, rubber, etc.).

The charging unit 10 is composed of a discharge unit 11 and a ground unit 20 for charging the dust to the positive (+) or negative (-) pole. The discharge part 11 is provided to charge the inflow dust by generating a corona discharge to the + pole or-pole. When the positive voltage of several kV is applied in the high voltage applying device 50, the dust is charged to the + pole and the cathode is discharged. Applying can charge the dust to the negative pole.

5A to 5D, the ion generator 40 is provided at a position where dust passes through the dust collecting unit 80 and passes through the blower fan 101. The configuration of the ion generator 40 is applied with a high voltage. The device 50 includes a plurality of discharge portions 11 that are applied with a high voltage to charge the dust to the positive (+) or negative (-).

The ion generator 40 is provided to charge the dust is not collected in the dust collector 80, the dust is not charged in the charged portion 10 due to the fast passage speed of the fine dust, the uncharged dust is Although discharged to the outside through the discharge port 90, it is charged in the indoor space by the ion generator 40 serves to improve the collection performance of the air purifier when recycled.

Hereinafter will be described the operation of the air purifier according to an embodiment of the present invention.

As shown in FIGS. 3 to 7, the dust introduced from the air inlets 70a and 70b is charged to particles having positive or negative polarity through corona discharge (diffusion) of the charged portion 10.

Some of the charged dust is collected in the dust collector 80 by the principle of inertia, interception, and electrostatic force by the charged portion 10. However, some fine dust having a small size passes through the dust collector 80 and is discharged. Therefore, in the present invention, the ion generator 40 is additionally installed near the discharge port 90 to discharge a plurality of ions into the indoor space to charge some fine dust from the indoor space to the anode or the cathode.

Particles charged in the indoor space by the above method is smoothly collected by the dust collecting part 80 when the particles are introduced into the air inlets 70a and 70b.

5A to 5D, the discharge unit 11 of the ion generator 40 may be provided by connecting the carbon fibers or the metal fibers in a bundle horizontally or vertically to the dust movement direction of the air purifier, or may be a metal pin. The high voltage applying device 50 is applied to the discharge part 11, a direct current high voltage of several kV and the polarity may be a positive (+) or a negative (-) pole.

6 is a schematic view showing the case where the air purifier is used indoors, when the air purifier is operated in the indoor space, the indoor air circulates, and as the operating time of the air purifier increases, the discharge port of the air purifier 90 By the ion generator 40 provided in the vicinity of the ion, the amount of ions is continuously increased, thereby activating the charge of the indoor fine dust, thereby improving the cleaning ability of the electrostatic precipitating air purifier.

The discharge unit 11 of the ion generator 40 may be a positive electrode or a negative electrode, but the polarity may be a negative electrode, which may increase the amount of negative ions generated in the indoor space.

7 is a graph illustrating the cleaning capability of the electrostatic precipitating air purifying device according to whether the ion generator 40 is installed or not, according to the time of fine dust having a size of 0.3 μm when the air purifying device is operated in a test chamber of 30 m 3. We looked at the rate of decline. Looking at the graph, it can be seen that the case of the electrostatic precipitating air purifier equipped with the ion generator 40 reduces the indoor fine dust concentration faster than the case of the electrostatic precipitating air purifier that is not.

As described above, in the present invention, dusts which are not initially collected by the charged part and the dust collector are electrically charged from the outside by a plurality of ions released to the outside through the ion generator. In addition, since charged dust can be smoothly collected when it is introduced into the recirculation process to the air purifier, the purifying capacity of the air purifier according to the present invention is improved, and the pressure loss is increased instead of using a high-performance filter having a large pressure loss. Since the electric dust collection method is used, the maintenance cost of the air purifier is reduced.

In addition, when the air purifier is operated in the indoor space, the indoor air circulates, and as the operating time of the air purifier increases, the amount of ions released into the indoor space increases, thereby making ionization of the dust more active, thereby rapidly recovering the indoor dust within a short time. It is effective to capture and remove.

Although the present invention has been described in connection with a preferred embodiment, those of ordinary skill in the art will be able to easily make various changes and modifications without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation, and the true scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the equivalent scope are included in the present invention. Should be interpreted as.

Claims (9)

Air inlets 70a and 70b through which air is introduced; A charging unit (10) for monopolar charging the dust contained in the air; A dust collecting part 80 collecting dust with a unipolar charge in the charged part 10; A blowing fan 101 for discharging clean air by the suction and dust collecting unit 80 of the air to the outside; A discharge port 90 which is a distribution path of clean air discharged to the outside by the blowing fan 101; And An ion generator 40 provided at the discharge port 90 and releasing a large amount of ions; Including but not limited to The dust collecting part 80 is connected to the high voltage applying device 50 for applying a high voltage and maintains a predetermined internal gap in the form of a high pressure side electrode plate 80a, a folded ground plate 80b provided at the internal gap, And an ion generator on the discharge port side, the end of the high pressure side electrode plate (80a) having an insulating member (80c). Air inlets 70a and 70b through which air is introduced; A charging unit (10) for monopolar charging the dust contained in the air; A dust collecting part 80 collecting dust with a unipolar charge in the charged part 10; A blowing fan 101 for discharging clean air by the suction and dust collecting unit 80 of the air to the outside; A discharge port 90 which is a distribution path of clean air discharged to the outside by the blowing fan 101; And An ion generator 40 provided at the discharge port 90 and releasing a large amount of ions; Including but not limited to The dust collecting unit 80 is provided in the vicinity of a predetermined distance from the charged portion 10, the electric power is mounted on the discharge port side, characterized in that the same polarity applied to the charged portion 10 is applied Dust collector air purifier. The method according to claim 1 or 2, The electric charge unit 10 includes an electric discharge unit equipped with an ion generator on a discharge port side, characterized in that it is composed of a discharge unit 11 and a ground unit 20 which charge dust to a single pole of a positive (+) or a negative (-) pole. Dust collector air purifier. The method of claim 1, The surface of the high-pressure side electrode plate (80a) is an electrostatic precipitating type air purifier equipped with an ion generator on the discharge port side, characterized in that coated with a dielectric film. The method of claim 4, wherein The dielectric film is an electrostatic precipitating type air purifier equipped with an ion generator on the discharge port side, characterized in that the polypropylene. The method of claim 1, The ion generator 40 includes an electric discharge device equipped with an ion generator on the discharge port side, characterized in that it comprises a discharge unit 11 for applying a high voltage from the high voltage applying device 50 to change the polarity of the dust into an anode or a cathode. Dust collector air purifier. The method of claim 6, The discharge unit (11) is an electric dust collecting method of the electric dust collecting method equipped with an ion generator on the discharge port side characterized in that the discharge pin or bundle of carbon fiber or metal fiber. delete delete

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