KR102375519B1 - Micro particle collection device - Google Patents

Abstract

The apparatus for collecting fine particles according to the present invention disclosed includes a body unit through which air containing fine particles is introduced and discharged, a discharge unit provided inside the body unit to generate an ion wind by corona discharge, and an electric current is not applied. and a collection unit including a collection fluid, wherein the discharge unit generates an ion wind toward the collection unit to collect fine particles as the collection fluid. According to this configuration, the occurrence of safety accidents such as electric shock is reduced, and safety and accessibility are improved.

Description

Fine particle collection device {MICRO PARTICLE COLLECTION DEVICE}

The present invention relates to a fine particle collecting device, and more particularly, to a fine particle collecting device capable of collecting fine particles in the air with a collecting fluid to which electricity is not applied using ion wind.

Recently, due to continuous industrial development and the inflow of smog from China, fine dust floating in the air is increasing significantly. When particles such as dust in the air are inhaled into the human body, they not only cause respiratory and cardiovascular diseases, but also exacerbate allergic diseases such as asthma and atopic dermatitis. In addition to such outdoor fine dust, fine pollutants generated during food cooking in an indoor space such as a restaurant float in the air and affect the human body. Accordingly, in recent years, the demand for a dust collector having a collecting means for collecting fine pollutants floating in the air is rapidly increasing.

On the other hand, a general electrostatic precipitator that collects pollutants in the air uses relatively less energy and uses bio-aerosol pollution compared to airborne particle collection methods such as an impactor, an impinger, and a cyclone using inertia. It has the advantage of less physical damage to the material. In addition, the electrostatic precipitator has the advantage of efficiently collecting nano-sized particles such as viruses. However, since it is essential to apply electricity to the collection of particles in the air using an electric dust collector, there is a possibility that a safety accident may occur during use, and thus the accessibility of general users is low.

Accordingly, in recent years, research has been continuously conducted to improve the accessibility of the dust collector to general users by improving safety while being advantageous for the collection of nano-sized fine particles.

Domestic Patent Publication No. 10-2012-0086384 (published on August 3, 2012)

An object of the present invention is to provide a fine particle collecting device capable of improving safety and accessibility by collecting fine particles in the air with a collecting fluid to which electricity is not applied.

A device for collecting fine particles according to the present invention for achieving the above object is a body unit through which air containing fine particles is introduced and discharged, provided inside the body unit, and generating an ion wind by corona discharge and a collection unit including a discharge unit and a collection fluid to which electricity is not applied, wherein the discharge unit generates the ion wind toward the collection unit to collect the fine particles into the collection fluid.

In addition, the body unit has a hollow tube shape provided with an inlet through which the air is introduced and an outlet through which the air is discharged facing the inlet, and the discharge unit and the collecting unit intersect with respect to the flow direction of the air. It may be provided between the inlet and the outlet so as to face each other in the direction.

In addition, the collecting unit may be separated and replaced with respect to the body unit.

In addition, it may include a plurality of discharge electrodes having a protrusion shape protruding toward the collection unit and arranged to be parallel to each other, and an application unit for alternately applying positive electrodes (+) and negative electrodes (-) to the plurality of discharge electrodes.

In addition, the plurality of discharge electrodes may be provided in a pin or wire shape, and protruding ends of the plurality of discharge electrodes may have a sharp tip shape.

According to the present invention having the above configuration, first, fine particles in the air are guided to the collection fluid by ion wind generated from a plurality of discharge electrodes and collected, so that the collection rate of fine particles is excellent even if electricity is not applied to the collection fluid Do.

Second, since current is not applied to the collection fluid, it is easy for general users to replace the collection unit, and it is possible to reduce the occurrence of safety accidents such as the risk of electric shock, thereby improving safety of use and accessibility to general users.

Third, as it is unnecessary to apply electricity to the collection fluid, it is possible to collect fine particles 24 hours a day without stopping the operation of the particle collection device, so it is excellent in applicability to various environments and conditions.

Fourth, it is effective to collect fine particles such as oil mist as it can collect particles using ion wind as a collection fluid.

1 is a cross-sectional view schematically showing a particle collecting device according to a preferred embodiment of the present invention. And,
FIG. 2 is a partially enlarged view schematically illustrating an operation of collecting fine particles by an ion wind generated by the discharge unit shown in FIG. 1 .

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

Referring to FIG. 1 , the particle collecting device 1 according to the first preferred embodiment of the present invention includes a body unit 10 , a discharge unit 20 , and a collecting unit 30 .

For reference, the particle collecting device 1 described in the present invention is for collecting fine particles P, which are bio-aerosols, suspended in the air A, and is applicable to indoor or outdoor spaces.

The body unit 10 is a body of the particle collecting device 1 through which air (A) containing fine particles (P) is introduced and discharged. The body unit 10 is provided on the path of the air (A), and has a hollow tube shape having an inlet 11 and an outlet 12 through which the air A is introduced and discharged. Here, the inlet 11 and the outlet 12 are preferably positioned to face each other so as to be parallel to the inflow direction of the air (A).

For reference, the shape and size of the body unit 10 is not limited to the illustrated example, and can be varied according to the collection environment of the fine particles (P).

The discharge unit 20 is provided in the body unit 10 and includes a plurality of discharge electrodes 21 to which positive (+) and negative (-) are applied to generate an ion wind. The discharge unit 20 includes a plurality of discharge electrodes 21 provided on one side of the body unit 10 , and an application unit 23 for applying a high voltage to the discharge electrodes 21 .

The discharge electrode 21 is provided on one side of the body unit 10, and has a protrusion shape protruding toward the inside and is provided in plurality. As shown in FIG. 1 , the discharge electrodes 21 are spaced apart from each other by a predetermined distance and arranged in a line.

On the other hand, as shown in FIGS. 1 and 2, the plurality of discharge electrodes 21 are exemplified as having a protrusion shape such as a pin protruding toward the inside of the body unit 10, but is not limited thereto. Of course. For example, a modification in which the plurality of discharge electrodes 21 has a protrusion shape such as a wire and protrudes toward the inside of the body unit 10 is also possible. In addition, it is natural that a plurality of discharge electrodes 21 are not limited to being arranged in a line parallel to each other, and various modifications are possible, such as being arranged in multiple rows and multiple rows, or provided in a plurality to be radially spaced apart from each other.

The applying unit 23 applies a high voltage to the plurality of discharge electrodes 21 to induce ion wind to be generated. In addition, as shown in FIG. 2 , the application unit 23 alternately applies positive (+) and negative (-) to the plurality of discharge electrodes 21, thereby generating a corona discharge between the plurality of discharge electrodes 21 ( corona discharge). Therefore, the fine particles (P) in the air (A) passing through the plurality of discharge electrodes (21) can be changed in the flow direction by the ion wind, and can be charged by corona discharge to form an electric field.

On the other hand, the plurality of discharge electrodes 21, as shown in Figure 2, the end 22 protruding toward the inside of the body unit 10 has a sharp tip phenomenon. At this time, since the end 22 of the discharge electrode 21 is formed to gradually narrow in diameter toward the collection unit 30 to be described later, it is more advantageous that the ion wind generated from the discharge electrode 21 is concentrated toward the collection unit 30 . .

On the other hand, the fine particles (P) in the air (A) are charged by corona discharge by the positive (+) and negative (-) applied to the discharge electrode 21, thereby inducing an electrostatic force on the collection fluid (W) to induce the collection force. can be further increased.

The collection unit 30 is provided in the body unit 10 in a state in which the collection fluid W in which the fine particles P are collected is supported. As shown in FIG. 1 , the collecting unit 30 is provided in the body unit 10 to face the discharge unit 20 . In this embodiment, the discharge unit 20 is provided on the upper side of the body unit 10 to generate an ion wind in a direction crossing the inflow direction of the air (A), and the collecting unit 30 is the discharge unit 20 ) is exemplified as being provided on the lower side of the body unit 10 to face.

Electricity is not applied to the collection fluid W supported on the collection unit 30 . That is, there is no electrical connection to the collection fluid W, such as the conventional application of a ground current, and the collection unit 30 is provided as a type of collection container supporting the collection fluid W. Due to this configuration, the ion wind generated through the discharge electrode 21 induces the fine particles P in the air A to the collection fluid W, so that the fine particles P are collected in the collection fluid W. At this time, as the fine particles P are charged and ionized by the corona discharge formed by the discharge electrode 21, it is advantageous to be interfered by the ion wind.

In the collection unit 30, the collection rate may be varied according to the spaced distance between the discharge electrodes 21 for generating the ion wind. More specifically, the closer the distance between the discharge electrode 21 and the collection unit 30, the greater the speed of the ion wind, so that the particles P interfering with the ion wind can be more effectively collected as the collection fluid W. . In addition, due to the electrostatic force caused by the corona discharge due to the positive (+) and negative (-) applied to the discharge electrode 21 , the collection fluid W attracts and collects the particles P, which is more advantageous.

Although not shown in detail, the collection unit 30 may be provided to be replaceable with respect to the body unit 10 . Therefore, when the fine particles (P) are collected in the collection fluid (W) at a certain level or more, the user separates the collection unit (30) from the body unit (10), and the collection unit (30) on which the new collection fluid (W) is supported. ) can be replaced with

For reference, the collection unit 30 is not limited to replaceable with respect to the body unit 10, and includes a fluid discharge means such as a pump (not shown) and the collection fluid (W) supported in the collection unit 30 A modified example of supplying a new collection fluid (W) by discharging to the outside is also possible. In addition, the collection unit 30 is provided with a circulation means having a filtering means, and after filtering by discharging the collection fluid (W) in which the fine particles (P) are collected to the outside, and then re-supplying it to the collection unit (30) Further variations are possible.

The collecting operation of the fine particle collecting device 1 according to a preferred embodiment of the present invention having the above configuration will be described with reference to FIGS. 1 and 2 .

1, air (A) is introduced into the inside of the body unit 10 through the inlet 11 of the body unit 10, and the introduced air (A) is the outlet 12 facing the inlet 11 ) flows toward When a high voltage is applied to the plurality of discharge electrodes 21 provided on the flow path of the air A, the plurality of discharge electrodes 21 generate an ion wind by corona discharge.

Here, the plurality of discharge electrodes 21 are provided on the upper surface of the body unit 10 so as to generate an ion wind in a downward direction that intersects with the flow direction of the air A, so that the ion wind is generated by the discharge unit 20 . and facing the collecting unit 30 . Therefore, the plurality of discharge electrodes 21 charge and ionize the fine particles (P) contained in the air (A) by ion generation, and also change the flow direction of the fine particles (P) with the generated ion wind. do. That is, as the ion wind generated from the plurality of discharge electrodes 21 is generated toward the collection unit 30 , the ion wind changes the direction of the fine particles P in the air A toward the collection unit 30 as shown in FIG. 2 . will make it

Here, since the ends 22 of the plurality of discharge electrodes 21 have a pointed tip shape in which the diameter is gradually narrowed, the ion wind generated from the discharge electrodes 21 may be concentrated toward the collection fluid W. In addition, the fine particles P may be induced along the shape of the pointed end 22 of the plurality of discharge electrodes 21 , which is advantageous for direction change toward the collection fluid W side.

In the collection fluid (W) of the collection unit (30), the fine particles (P) whose direction is changed by the ion wind are collected. At this time, the collection unit 30 may be replaced when the fine particles P of a certain level or more are collected with the collection fluid W. On the other hand, the collection unit 30 is the collection fluid (W) is supported in a state in which electricity is not applied, so that the user separates the collection unit 30 from the body unit 10 to collect the new collection fluid (W). It is advantageous in securing safety by replacing the unit 30 with the unit 30 .

As described above, although described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that it can be done.

1: Fine particle collection device
10: body unit
20: discharge unit
21: discharge electrode
23: In-law
30: collection unit
W: Capture fluid
A: Air
P: fine particles

Claims (5)

a body unit through which air including fine particles is introduced and discharged;
a discharge unit provided inside the body unit to generate an ion wind by corona discharge; and
a collection unit including a collection fluid to which electricity is not applied;
includes,
The body unit has a hollow tube shape provided with an inlet through which the air is introduced, and an outlet through which the air is discharged to face the inlet,
The discharge unit and the collection unit are provided between the inlet and the outlet so as to face each other in a direction crossing the flow direction of the air,
The collection unit is separated and replaced with respect to the body unit,
The discharge unit is
a plurality of discharge electrodes having a protrusion shape protruding toward the collecting unit and disposed parallel to each other; and
an applying unit that alternately applies positive (+) and negative (-) to the plurality of discharge electrodes;
includes,
The plurality of discharge electrodes are provided in a pin or wire shape,
The protruding ends of the plurality of discharge electrodes have a pointed tip shape,
The discharge unit generates the ion wind toward the collection unit, charges the fine particles, and moves along the ion wind direction to collect them into the collection fluid by electrostatic force,
Characterized in that the collection rate varies according to the spaced distance between the discharge electrode and the collection unit,
Fine particle collection device.
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