KR20160097555A - Apparatus for removing dust - Google Patents

Abstract

The present invention relates to a dust removing device, and to a method for producing the same. More specifically, the present invention relates to a dust removing device capable of effectively adsorbing and removing dust, wherein the dust removing device has a minus charged body and a plus charged body on both surfaces thereof to use the same irrespective of the kinds of dust charges, and the minus charged body and the plus charged body are formed in a lattice pattern, so air resistance is reduced. According to the dust removing device of the present invention, dust is removed without electricity consumption, so economical feasibility is ensured. Moreover, according to the dust removing device of the present invention, a minus charged body and a plus charged body are disposed on both surfaces thereof, the dust removing device can be used irrespective of the kinds of dust charges. Furthermore, according to the dust removing device of the present invention, the minus charged body and the plus charged body are formed in a lattice pattern, so air resistance is reduced and dust is prevented from being scattered.

Description

Apparatus for removing dust

More particularly, the present invention relates to a dust removing apparatus and a method of manufacturing the dust removing apparatus, and more particularly, to a dust removing apparatus and a method of manufacturing the dust removing apparatus, And more particularly, to a dust removing apparatus capable of dust adsorption and removal.

Dust (or dust) is small particles floating off the surface of an object or in the air by physical movement, physical fracturing, etc., and can vary in size from what can only be seen by an electron microscope to an eye.

The particle size range of the dust is 0.001 ~ 1000 ㎛, and most of the dust is distributed between 0.1 ~ 10 ㎛.

The particles having a particle size of 10 μm or less are generally referred to as fine dust particles, and because of the nature of the particle diameter distribution, sedimentation or agglomeration is not easy, so that the residence time in the atmosphere is long.

Fine dust, when we breathe, enters the lungs through the respiratory tract and lowers the function of the lungs and lowers the immune function.

In recent years, micro dusts have been shown to produce inflammatory genetic material and lower cell viability, leading to otitis media and cardiovascular disease in addition to respiratory diseases.

This may be fatal to children and elderly people who are weak in immunity, and the pollution due to rapid industrial growth is getting worse. To prevent this, dust removal and treatment devices are continuously being developed.

Korean Patent No. 10-1338388 (a dust and odor removing system and its removing method) for solving the above problem is a method of removing dust and odor from a porous metal material in order to electrically collect dust or ionize odor molecules to remove odor, Device and the like.

Korean Patent No. 10-0544072 (movable upper and lower dust adsorber for removing fine dust floating in indoor air) provides a suction device for suctioning dust in the air and a dust adsorber equipped with wheels for mobility.

However, the above-described patent documents and conventional air purifiers for removing dust have a problem of high purchase cost and maintenance cost, power supply is required, and cost burden is large.

Korean Patent No. 10-1338388 (dust and odor removal system and its removal method) Korean Patent No. 10-0544072 (movable top and bottom dust adsorber for removing fine dust floating in indoor air)

An object of the present invention is to provide a dust removing apparatus for removing dust without power consumption.

It is another object of the present invention to provide a dust removing apparatus which can be used regardless of the type of dust charge by providing a negative electrode and a positive electrode on both sides.

It is still another object of the present invention to provide a dust removing apparatus for preventing dust from being scattered by reducing the air resistance by forming the entire negative base and the positive base in a lattice pattern.

In order to solve the above problems, the dust removing device of the present invention includes a negative charge layer formed as a whole of a negative (-) band, a positive charge layer formed of the entire positive (+) band, and a positive charge layer formed between the negative charge layer and the positive charge layer And an insulator layer.

The negative charge layer, the positive charge layer and the insulator layer are formed in a lattice pattern, and the insulator layer is formed in a lattice shape having a larger width than the negative charge layer and the positive charge layer.

Wherein the negative (-) band is formed of at least one selected from the group consisting of Teflon, vinyl chloride, cellophane, cellulose, polyethylene, acrylic, and polyester, and the positive (+) band is entirely rayon or nylon.

As described above, according to the dust removing apparatus of the present invention, dust is removed without power consumption, which is economical.

Further, according to the dust removing apparatus of the present invention, it is possible to provide a dust removing device which can be used regardless of the type of dust charge by providing both the minus band and the whole of the plus band on both sides.

In addition, according to the dust removing apparatus of the present invention, it is possible to provide a dust removing apparatus that prevents dust from being scattered by reducing the air resistance by forming the entire negative base and the positive base as a whole.

1 is a flow chart showing a charging column.
2 is a block diagram showing a configuration of a dust removing apparatus according to the present invention;
3 is an optical microscope photograph showing dust collected in the dust removing device according to the present invention.

Specific features and advantages of the present invention will be described in detail below with reference to the accompanying drawings. The detailed description of the functions and configurations of the present invention will be omitted if it is determined that the gist of the present invention may be unnecessarily blurred.

More particularly, the present invention relates to a dust removing apparatus and a method of manufacturing the dust removing apparatus, and more particularly, to a dust removing apparatus and a method of manufacturing the dust removing apparatus, And more particularly, to a dust removing apparatus capable of dust adsorption and removal.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a flow chart showing a charging column, FIG. 2 is a configuration diagram showing a configuration of a dust removing apparatus according to the present invention, and FIG. 3 is an optical microscope photograph showing dust collected in the dust removing apparatus according to the present invention.

Electricity can be divided into electricity that flows largely and electricity that does not flow. Electricity that flows is called current (current), and electricity that does not flow is called electrostatic (electrostatic).

One of the methods for inducing static electricity is to use friction between objects that are charged well, and the resulting static electricity is called triboelectricity.

Triboelectricity is caused by the movement of electrons of one object to another by friction energy generated between two objects.

When two objects are rubbed, one object is charged with (+) electricity and the other with (-) electricity. The same object is charged with (+) or (-) depending on the object of friction.

The order in which objects such as these are experimentally obtained is called charge heat.

Since all materials are composed of atoms, an atom is composed of electrons of a (+) charged atom and a charge (-) of the same charge.

FIG. 1 is a flow chart showing a charging column, which is liable to be positively charged in (a) direction and positively charged in a negative (-) direction in (b) direction.

When the hair and the polyethylene rod are rubbed, the hair is negatively charged (+), and the polyethylene rod is charged with negative (-) electrons.

The phenomenon of transferring electrons to an object is called charging, and the sum of (+) and (-) charges is equal. Therefore, as in the generation of the triboelectric charge, the charging of two objects is not obtained from the outside, but the charging or discharging of the electrons in the course of friction between two objects is not generated or eliminated.

The charge has a law of conservation of charge that does not change its total amount before and after any reaction.

FIG. 2 is a structural view showing a configuration of a dust removing apparatus according to the present invention, wherein (a) is a simplified side sectional view and (b) is a front view.

The dust removing apparatus includes a negative-to-negative (-Ver) layer formed as a whole, a negative to positive whole layer 10 and a positive to positive whole layer 20 formed as a whole, and a negative to positive whole layer 20 formed between the negative major layer and the positive charge layer And an insulator layer (30).

Generally, dust is neutral, but may have (-) charge or (+) charge depending on the surrounding charge. (-) charge will be attached to the whole of the (+) charge, and the dust with (+) charge will be attached to the whole of the (-) charge.

The dust removing apparatus according to the present invention can be used in accordance with the type of material to be adhered, such as dust or the like, having a negative charge layer formed on the negative (-) side and a positive charge /

Further, the insulator layer 30 is provided between the negative (-) major layer 10 and the positive (+) major layer 20 to prevent interference between negative and positive charges So that both sides can be utilized.

When a material which is likely to be positively charged is rubbed to use the negative (-) entire layer 10, a negative (-) large layer existing in a neutral state is negatively charged.

On the contrary, in order to use the positive (+) layer 20, a material which is likely to be charged with (-) is rubbed.

The negative (-) major layer 10 is characterized in that it is at least one of Teflon, vinyl chloride, cellophane, cellulose, polyethylene, acrylic, ) The whole layer 20 is characterized by being a rayon or nylon which is likely to become a plus (+) band.

The positive and negative dielectric layers 30 and 30 are formed in the shape of a lattice pattern and the insulator layer 30 is formed on the negative charge layer 10 and the positive electrode layer 30, And is formed in a lattice shape having a width larger than that of the charging body layer 20. [

The air resistance can be reduced by forming the negative major layer 10, the positive major layer 20, and the insulator layer 30 in a lattice pattern.

Dust can be easily scattered even in the movement of minute air and when the negative whole layer 10, the positive whole layer 20 and the insulator layer 30 are formed in a lattice pattern, A) is generated, and air can be discharged through this space, so that dust scattering due to movement can be minimized.

At this time, the insulator layer 30 has a width larger than that of the negative charge layer 10 and the positive charge layer 20, thereby preventing interference between the negative charge and the positive charge, so that both sides can be utilized.

(A) is a dust on a desk transferred to a glass tape, (b) is Teflon used as a negative-to-total layer, and (c) The dust of the glass tape is blown off and collected on a Teflon plate.

Teflon is an object that is negatively charged, and Teflon in a neutral state rubs nylon that is likely to be charged positively (+) in order to charge it with negative (-).

As a result, it was confirmed that Teflon was charged with negative (-), and it was effective in removing dust when it was seen that other foreign matters were attached to the glass tape.

As described above, according to the dust removing apparatus of the present invention, dust can be removed without consuming power when compared with general air cleaners and dust inhalers used for removing dust, and it is economical, It has a good portability because it is lighter.

This is not used for a long time like a conventional suction type air cleaner, but can be used intensively in a place and a time desired by a user to remove a large amount of dust in a short time and effectively remove dust covered on the surface of the object.

Also, the negative and positive electrodes may be provided on both sides of the positive and negative electrodes, and may be used regardless of the kind of the dust charge. The negative electrode and the positive electrode may be formed in a grid pattern to reduce air resistance, It is effective.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken as a limitation of the scope of the present invention. Or modify it. The scope of the invention should, therefore, be construed in light of the claims set forth to cover many of such variations.

10: Negative vs. entire layer
20: Plus vs. Whole Floor
30: insulator layer

Claims (3)

In the dust removing apparatus,
A minus charge layer formed as a whole in a negative (-) range;
A positive charging body layer formed as a whole with a positive (+) layer;
And an insulator layer formed between the negative charge layer and the positive charge layer
Dust removal device.
The method according to claim 1,
Wherein the negative charge layer, the positive charge layer and the insulator layer are formed in a lattice pattern, and the insulator layer is formed in a lattice shape having a width larger than that of the negative charge layer and the positive charge layer
Dust removal device.
The method according to claim 1,
The minus (-
Teflon, vinyl chloride, cellophane, cellulose, polyethylene, acrylic, polyester
Or more than one,
The plus (+) versus whole
Rayon, and nylon.
Dust removal device.

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