KR20220150166A - Dust scavenger enhanced of scavenging capability - Google Patents

Abstract

The present invention relates to a dust collector with improved collection performance. More specifically, the present invention provides a dust collector with improved collection performance which comprises: a chamber having a shape of upper and lower sides, and having open top and bottom; a dust injection unit formed on one side of the chamber; a droplet injection unit formed on the other side of the chamber; a suction unit installed on the upper part of the chamber, equipped with a filter, and sucking air in the chamber by a motor; and a dust collection unit provided at the lower part of the chamber to recover moist dust flowing along the sidewall of the chamber.

Description

Dust scavenger enhanced of scavenging capability

The present invention relates to a dust collector with improved collection performance, and more particularly, while injecting air containing dust to one side and spraying fine droplets to the other side in a cyclone type collector for collecting dust, the inner wall of the collector chamber Provided is a dust collector that adjusts the injection pressure of air containing dust according to the pressure applied to the air.

Techniques for controlling fine particles in the atmosphere or in a specific environment are widely applied in various scientific and technological fields, and occupy an important industrial position. In particular, fine particles present in the air are air pollutants that lower visibility and have a fatal effect on the human body, so technologies to remove them are continuously being developed. Techniques for removing fine particles include electrically charging dust, converting it into particles of a certain size through artificial agglomeration, and artificially controlling/separating the behavior of particles. This is being used as a basic mechanism of a dust removal device, which has recently been attracting attention along with the existing air pollution prevention technology. That is, the technology for removing fine particles in the atmosphere basically uses the principle of separating the fine particles by artificially applying an external force or installing an obstacle in the air flow.

Among these, as a method of washing and separating dust with water, related devices include a washing tower, a spray tank, a scraper, and the like, and in addition to hydrophilic dust and fume, mist, soluble gas, steam, etc. can be removed. It separates and collects fine particles through droplets, liquid film, and bubbles, and uses inertial force, diffusion force, cohesive force, and gravity. The larger the particle size, the greater the inertial force and gravity, and the greater the diffusion and cohesive force, the better the dust collection efficiency. However, the wet dust collector has a disadvantage in that there is a risk of treatment of the cleaning liquid and corrosion of the apparatus by the cleaning liquid.

Centrifugal force dust collection uses the principle of rotating dust-containing air in a cylinder, separating the dust outward with the centrifugal force and collecting the dust. In general, the amount of treated air increases in proportion to the square of the diameter, and the larger the diameter, the larger the size of the limiting particles that can be collected. Therefore, in order to collect particles, it is necessary to install as many small cyclones in parallel as necessary. Cyclone is widely used because of its relatively simple structure and easy management, but it has the disadvantage of high pressure loss during operation, high energy consumption, and vulnerability to abrasive dust.

The present invention has been devised to solve the problems of the prior art, and the present invention has an effect of agglomeration of dust by adding microdroplets in a cyclone-type collector, and the dust descends by gravity by giving weight. , It provides a dust collector with improved collection performance, which flows along the inner wall of the collector chamber and descends, and increases the effect of collecting dust by adjusting the pressure of the collector chamber in consideration of the pressure of the air containing dust and the pressure of the inner wall of the collector. .

In order to achieve the above object, the present invention has a shape of a sanggwanghahyeop, and the upper and lower chambers are open; a dust injection unit formed on one side of the chamber; a droplet injection unit formed on the other side of the chamber; a suction unit installed in the upper portion of the chamber, provided with a filter, and sucking air in the chamber by a motor; and a dust recovery unit provided at a lower portion of the chamber and configured to recover the moistened dust flowing along the sidewall of the chamber.

In the case of increasing the injection pressure of the dust injection unit, if the internal pressure of the chamber is measured and becomes higher than the reference value, the suction pressure of the suction unit is increased to prevent the backflow of the injected dust. However, it is preferable that the suction pressure of the suction unit is automatically controlled by the control unit according to the internal pressure of the chamber, and the droplet injection amount of the droplet injection unit is linked to the injection pressure of the dust injection unit.

A through hole is formed in the side wall of the chamber to connect a water injection unit, and the water injection unit is controlled to inject water when the injection pressure of the dust injection unit or the internal pressure of the chamber decreases below a reference value to clean the dust stacked on the side wall it is preferable

According to the present invention as described above, by adding microdroplets into the cyclone-type collector, there is an effect of agglomeration of dust, and the dust descends by gravity by imparting a weight, while flowing along the inner wall of the collector chamber, and the dust It is possible to increase the effect of dust collection by adjusting the pressure of the collector chamber in consideration of the pressure of the inner wall of the collector for the injection pressure of the air containing the .

1 is a view showing a dust collector with improved collection performance according to an embodiment of the present invention.
2 is a view showing the pressure of each part in the dust collector with improved collection performance according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated.

In addition, terms such as "... unit" and "... group" described in the specification mean a unit for processing at least one function or operation.

1 is a view showing a dust collector 100 with improved collection performance according to an embodiment of the present invention, and FIG. 2 is a view showing the pressure of each part in the dust collector 100 with improved collection performance according to an embodiment of the present invention. the drawing shown.

As shown, the collector 100 of the present invention has a shape of the upper and lower halves, and the upper and lower chambers 120 are open; a dust injection unit 110 formed on one side of the chamber 120; a droplet injection unit 130 formed on the other side of the chamber 120; a suction unit 140 installed in the upper portion of the chamber 120 , provided with a filter, and sucking air in the chamber 120 by a motor 150 ; and a dust recovery unit 160 provided in the lower portion of the chamber 120 and configured to recover the moistened dust flowing along the sidewall of the chamber 120 .

Here, the collector 100 forms a structure of a cyclone-shaped upper-gwang-ha-hyeok. In addition, the dust is mainly fine dust of 100㎍/m³ or less, but the dust larger than that is not limited.

Air containing dust and droplets may be introduced into the chamber 120 , and the introduced air flows out to the upper part, and the dust collecting unit 160 is installed in the lower part to receive the dust that meets the droplets. A suction device for sucking air is further attached to the upper portion, and a motor 150 is attached to the suction device, so that the suction process is performed by driving the motor 150 .

The droplets meet the dust to agglomerate the dust, and by increasing the weight, move to the side wall of the collector 100 by centrifugal force, and the coarse dust colliding with the side wall naturally descends and is recovered to the dust recovery unit 160 .

The introduced air and dust cause a whirlwind in the center of the cyclone, and the air moves to the upper suction unit 140 through the central part of the collector 100. At this time, the dust is separated by centrifugal force and only very small dust and air is sucked into the upper part. In the case of very small dust contained in the air sucked into the upper part, it is filtered out by the filter and then discharged.

The droplets are preferably micro-droplets used in the humidifier, and when they are introduced into the collector 100, they flow together with the injected dust and air, and are naturally combined with the dust. Then, it moves to the side wall of the collector 100 together with the dust and is discharged to the outside through the lower part.

Meanwhile, as shown in FIG. 2 , a necessary part of the injection pressure of the dust injection unit 110 , the injection amount or force of the droplet injection unit 130 , the suction pressure of the suction unit 140 , and the internal pressure of the chamber 120 . pressure can be measured. Although not shown, various sensors for measuring pressure may be installed, and a control unit receiving a signal therefrom may be further included.

A sensor attached to at least one of the inside of the chamber 120 measures the pressure generated inside the chamber 120 due to the inflow of dust. When the injection pressure of the dust injection unit 110 increases, the internal pressure of the chamber 120 may increase, and in this case, dust may flow back or an excessively large vortex may be formed. Avoid backflow into the dust injection unit 110 . In addition, the droplet injection amount of the droplet injection unit 130 also increases proportionally. The droplet injection amount may be adjusted by measuring the pressure at which the droplet is injected in the droplet injection unit 130 or may be adjusted using a flow meter.

In addition, a through hole is formed in various places of the side wall of the chamber 120 of the present invention, the water injection unit 170 is connected thereto, and a hose is connected to the tube so that water can be injected. The amount of water injected is such that the dust of the sidewall flows downward, and since it may be difficult to completely discharge only the natural flow of the impregnated dust, it serves to wash the sidewall of the chamber 120 with water.

The water injection timing may be, for example, by measuring the pressure measured inside the chamber, water may be injected when the pressure has a value equal to or less than a reference value. Water can also backflow. That is, the operation of the water injection unit 170 and the injection pressure of the dust injection unit 110 or the internal pressure of the chamber 120 are interlocked with each other, and the water injection time of the water injection unit 170 is determined by the dust injection unit 110 . When the injection pressure made in the chamber 120 becomes small or the internal pressure of the chamber 120 becomes smaller than the reference value, it is started, and when it becomes larger than the reference value, water is not supplied.

The water injection unit 170 may be freely disposed without a blind spot in washing the dust from the top to the bottom of the side wall of the chamber 120 .

For example, after the sidewall of the chamber 120 is cleaned by injecting water, the pressure applied to the sidewall of the chamber 120 may increase again. In this case, the dust injection unit 110 , the droplet injection unit 130 , and the suction unit 140 . ), etc., can be adjusted in conjunction with each other.

Since the dust recovered from the recovery unit is in a mixed state with water, there is an advantage in that the dust can be recovered without scattering of the dust. is meaningful in

It should be noted that the above-described embodiment is for illustrative purposes only, and not for its limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

100: dust collector 110: dust injection unit
120: chamber 130: droplet injection unit
140: suction unit 150: motor
160: dust recovery unit 170: water injection unit

Claims (3)

A chamber having a shape of a sanggwanghahyeok, the upper part and the lower part open;
a dust injection unit formed on one side of the chamber;
a droplet injection unit formed on the other side of the chamber;
a suction unit installed in the upper portion of the chamber, provided with a filter, and sucking air in the chamber by a motor; and
a dust recovery unit provided at a lower portion of the chamber and configured to recover moistened dust flowing along a sidewall of the chamber;
Dust collector with improved collection performance comprising a. The method of claim 1,
In the case of increasing the injection pressure of the dust injection part, if the internal pressure of the chamber is measured and higher than the reference value, the suction pressure of the suction part is increased to prevent the backflow of the injected dust, and when it is lower than the reference value, the suction pressure of the suction part is increased to be lowered, so that the suction pressure of the suction part is automatically controlled by the control unit according to the internal pressure of the chamber,
The dust collector with improved collection performance, characterized in that the droplet injection amount of the droplet injection unit is linked to the injection pressure of the dust injection unit. 3. The method of claim 2,
A through hole is formed in the side wall of the chamber to connect a water injection unit, and the water injection unit is controlled to inject water when the injection pressure of the dust injection unit or the internal pressure of the chamber decreases below a reference value to clean the dust stacked on the side wall Dust collector with improved collection performance, characterized in that.

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