KR100729442B1 - Wet scrubber - Google Patents

Abstract

A wet type dust collector of which structure improves the filtering efficiency of alien substances and fine dust contained in contaminated air is provided. A wet type dust collector(100) comprises: a reservoir(200) in which water is stored, and on which an inlet(210) is formed to flow contaminated air in the reservoir through the inlet; a body(300) of which a lower part is in communication with one side of the reservoir, and which has an outlet(310) formed on an upper part thereof to exhaust air; a suction fan(400) which is connected to the outlet of the body and generates suction force such that water stored in the reservoir is ascended into the body by an atmospheric pressure difference between the reservoir and the inside of the body; a nozzle part(500) which is installed at an inner side of the reservoir in a lower part of the body to filter alien substances by promptly flowing contaminated air flown into the reservoir through a passage that is gradually getting narrow, thereby ejecting the contaminated air into the ascended water of the body; a plurality of blocking plates(600) which are installed above the nozzle part and collided with the contaminated air ejected into the water of the body through the nozzle part to form micro-air bubbles; and an alien substance recovery unit(700) that is in communication with a lower part of the reservoir to discharge alien substances to the outside and circulate water into the reservoir by recovering water stored in the reservoir and alien substances settled in the reservoir.

Description

Wet scrubber

1 and 2 are a front view of the wet dust collector according to an embodiment of the present invention,

3 is an enlarged perspective view illustrating the nozzle unit and the blocking plate of FIG. 2;

4 and 5 are front views of another embodiment of the wet precipitator.

<Description of the symbols for the main parts of the drawings>

100 ... Wet Dust Collector 200 ... Reservoir

210 ... Intake 300 ... Body

310 ... Exhaust 320 ... Dripplate

400 ... suction fan 500 ... nozzle section

510 ... support plate 520 ... fixed plate

530 ... Nozzle plate 600 ... Block plate

600a ... 2nd Blocker 600b ... 2nd Blocker

700 ... Foreign material circulation device 710 ... Transfer pipe

720 ... Recovery container 730 ... Pressure tube

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dust collector, and more particularly, to a wet dust collector capable of removing contaminated air and foreign matter, dust, and the like contained in contaminated air and exhaust gas by filtering the contaminated air or exhaust gas with a liquid.

In general, the wet dust collector is used to pass the contaminated air generated in the workplace to the water without filtering the foreign matter and fine dust contained in the contaminated air in the water to clean air is discharged to the atmosphere.

Such a conventional wet precipitator has been previously filed by the same applicant as the applicant of the present invention and has been disclosed in Korean Patent Publication No. 0627886 "Wet Precipitator."

Here, the pre-applied wet dust collector has a problem that the filtration efficiency is lowered because some of the fine foreign matter is not filtered as the contaminated air injected into the water through the nozzle portion passes through the water at a high speed.

The present invention has been made in order to solve the above problems, and relates to a wet dust collector which has improved its structure to improve the filtering efficiency of foreign matter and fine dust contained in contaminated air.

Other objects and advantages of the invention will be described below and will be appreciated by the embodiments of the invention. Furthermore, the objects and advantages of the present invention can be realized by means and combinations indicated in the claims.

Wet dust collector of the present invention for achieving the above object, and the water storage tank is formed in the upper inlet inlet contaminated air in the state stored in the lower; A body having an exhaust port through which air is discharged in a state in which a lower part is in communication with one side of the reservoir; A suction fan generating suction force in a state connected to an exhaust port of the body to allow the water stored in the reservoir to rise by the internal pressure difference between the reservoir and the body; Ascending of the body by rapidly flowing a passage through which the contaminated air introduced into the reservoir gradually narrows due to the pressure difference between the reservoir and the body according to the operation of the suction fan in a state provided inside the reservoir below the body. A nozzle unit which flows into the water and filters foreign substances; A plurality of blocking plates provided on the nozzle part and configured to form fine air bubbles by colliding contaminated air injected into the water of the body through the nozzle part; And a foreign matter recovery device for recovering the water stored in the reservoir and the settled foreign matter in a state in communication with the bottom of the reservoir to discharge the foreign matter to the outside and circulating the water to the reservoir.

Here, the nozzle portion is bent to the other end of the other end is coupled to the upper end of the body, both sides are coupled to the support plate is coupled to the inner surface of the reservoir, both sides are parallel to the bent angle of the support plate in the lower support plate A fixed plate which is coupled to the inner surface of the reservoir to form a passage through which air flows, and a passage gap in which air flows between the support plate and the fixed plate is gradually narrowed in a state in which the upper and lower heights of the support plate are coupled to one end of the support plate. It is desirable to have a nozzle plate to increase the flow rate of air.

In addition, the blocking plate is preferably formed in multiple stages with a predetermined distance from each other along the traveling direction of the contaminated air injected from the nozzle unit.

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

      Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

      Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, these are various alternatives at the time of the present application It should be understood that there may be equivalents and variations.

1 and 2 is a front view showing a wet dust collector according to an embodiment of the present invention.

Referring to the drawings, the wet precipitator 100 according to the preferred embodiment of the present invention includes a reservoir 200 having a suction port 210 through which contaminated air flows into a state where water is stored therein, and the reservoir 200. The body 300 is provided with an exhaust port 310 through which air is discharged in a state in communication with one side.

In addition, a suction fan 400 is connected to the body 300, a nozzle unit 500 through which contaminated air flows inside the reservoir 200, and a blocking plate 600 on the nozzle unit 500. It is provided, the lower portion of the reservoir 200 is provided with a foreign matter circulation device (700).

The reservoir 200 is a member in which polluted air from the outside is sucked in a state in which water is stored therein.

This, the reservoir 200 is formed with a suction port 210 so that the contaminated air flows in the upper state while the water is stored in the inner lower portion.

Here, the foreign matter contained in the contaminated air is precipitated by filtering the water in the bottom surface of the reservoir 200, the shape is not limited to the triangle shown in Figs. 1 and 2, the flat type to facilitate the precipitation of the foreign matter It can be produced in various shapes of phase or oval shape.

The body 300 is a member that allows the polluted air introduced into the reservoir 200 to be discharged to the outside in a filtered state.

The body 300 has an exhaust port 310 through which air is discharged in an upper portion of the body 300 in communication with one side of the reservoir 200.

Here, the inside of the body 300 is provided with a plurality of drip plate 320 to cross each other in multiple stages.

The suction fan 400 is a member that generates a suction force to allow the contaminated air to flow into the body 300 by the pressure difference between the body 300 and the reservoir 200.

The suction fan 400 generates suction force by the rotation of the fan while being connected to the exhaust port 310 of the body 300 to suck the internal air of the body 300 and the inside of the body 300. Generates a pressure difference inside the reservoir 200.

Here, the water stored in the reservoir 200 is raised into the body 300 by the pressure difference between the body 300 and the reservoir 200.

The nozzle unit 500 is a member that allows the polluted air introduced into the reservoir 200 to flow to the body 300.

This, the nozzle unit 500, as shown in Figure 3, one end is coupled to the lower end of the body 300, the other end is bent to the upper side both sides are coupled to the inner surface of the reservoir 200 ( 510 is provided.

A fixing plate 520 is provided at both sides of the support plate 510 so as to be parallel to the curved inclination angle of the support plate 510 so as to be coupled to the inner surface of the reservoir 200 to form a passage through which air flows.

In addition, the air gap between the support plate 510 and the fixed plate 520 is gradually formed in a state where the height of the support plate 510 is coupled to one end of the support plate 510 to increase the flow velocity of the air. A nozzle plate 530 is provided.

Here, the nozzle unit 500 gradually narrows the contaminated air introduced into the reservoir 200 by the pressure difference between the reservoir 200 and the body 300 according to the operation of the suction fan 400. Allows rapid flow through the passage.

The blocking plate 600 is a member that causes the contaminated air injected into the raised water of the body 300 to collide by the injection speed.

 Such, the blocking plate 600 is coupled to both sides of the reservoir 200, the inner side, the lower portion is provided with a support from the nozzle unit 500 in a fixed state coupled to one end surface of the fixing plate 520 The primary blocking plate 600a is first provided to contaminate the contaminated air to be injected therein.

In addition, the secondary blocking plate 600b is provided on the upper portion of the primary blocking plate 600a so that the air bubbles collided by the primary blocking plate 600a and collided again are collided again.

Here, the blocking plate 600 is not limited to the primary blocking plate 600a and the secondary blocking plate 600b, and fine air bubbles due to the impingement of contaminated air injected from the nozzle unit 500 step by step. A plurality of the blocking plate 600 may be formed in multiple stages with a predetermined distance from each other along the spraying direction of the contaminated air to form a.

The foreign matter recovery apparatus 700 is a device for recovering the water and foreign matter stored in the reservoir 200.

This, the foreign matter recovery apparatus 700 is provided with a transport pipe 710 communicated to the lower portion of the reservoir 200 to move the water stored in the reservoir 200 and the settled foreign matter.

In addition, the foreign matter moved from the transfer pipe 710 in a state connected to the transfer pipe 710 is precipitated on the bottom surface and discharged to the outside, the water is stored in the recovery container for circulating to the reservoir 200 ( 720 is provided.

In addition, one side of the transfer pipe 710 maintains the same air pressure as the air pressure of the body 300 in a state in communication with the body 300, so that the water in the water reservoir 200 and the foreign matter precipitated by the pressure difference. A pressure tube 730 is provided to move to the recovery container 720.

As described above, the operation of the wet dust collector 100 according to the preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3.

First, when operating the suction fan 400 connected to the body 300 to suck the contaminated air generated in the workplace, the inside of the body 300 is maintained in a vacuum state and the pressure difference between the reservoir 200 is generated. Done.

Here, the water level of the water stored in the reservoir 200 rises to the inside of the body 300 while being lowered by the pressure difference.

At this time, the internal air pressure of the water tank 200 is lower than the outside, and the polluted air that is introduced into the water tank 200 at a high speed and is introduced into the water tank 200 is brought into contact with the surface of the water, and contaminants of large particles contained in the air polluted air. This precipitates into the reservoir 200.

In addition, the contaminated air introduced into the reservoir 200 flows to the nozzle unit 500 by the pressure difference between the reservoir 200 and the body 300.

Here, the contaminated air is injected into the raised water in the inner direction of the body 300 in a state where the flow rate is rapidly increased by the nozzle portion 500 gradually narrowed.

At this time, the polluted air is dispersed by the nozzle unit 500 to form an air bubble in the water to form a dispersed and fine air bubbles while colliding with the primary blocking plate 600a.

In addition, the air bubbles collided with the primary blocking plate 600a may collide again while being raised to the secondary blocking plate 600b, thereby forming finer air bubbles than the air bubbles formed by the primary collision.

Therefore, the contaminated air injected into the water through the nozzle unit 500 forms a vortex with air bubbles to filter foreign matter contained in the contaminated air in water, and to the plurality of blocking plates 600 formed in multiple stages. As it collides, it transforms into fine air bubbles and filters foreign matter and fine dust contained in air bubbles again in water.

Here, the air bubbles filtered in the water rises to the surface of the body 300, the filtered air is discharged to the exhaust port 310 by the suction force of the suction fan 400.

At this time, the fine water particles contained in the air in the process of the filtered air is discharged to the exhaust port 310 is blocked without being discharged to the exhaust port 310 while being in contact with the plurality of drip plate (320).

On the other hand, the foreign matter and fine dust filtered through the filtration process is settled on the bottom surface of the reservoir 200, the precipitated foreign matter and fine dust together with the stored water in the recovery vessel by the transfer pipe 710 It is moved to 720.

Here, the movement of water and foreign matter stored in the reservoir 200 is inside the transfer pipe 710 by the pressure tube 730 communicated with the transfer pipe 710 and the body 300 is the body 300 Atmospheric pressure equal to the internal air pressure of) is maintained.

Therefore, while the internal pressure of the transfer pipe 710 is maintained lower than that of the reservoir 200, water and foreign substances move to the recovery container 720 according to the pressure difference between the reservoir 200 and the transfer pipe 710. Done.

In addition, the foreign matter stored in the recovery container 720 is discharged to the outside and the water is recycled to the reservoir 200 again.

On the other hand, as another embodiment of the wet dust collector 100, as shown in Figure 4, the nozzle unit 500 so that the contaminated air flowing through the nozzle unit 500 is injected into the reservoir 200 direction. The blocking plate 600 is provided in a state in which the exit direction of the filter is deformed to filter the contaminated air.

In addition, as another embodiment of the wet dust collector 100, as shown in FIG. 5, the wet dust collector of a single body with a pair of the body 300 in accordance with the output of the suction fan 400 The same operation as the 100 can further improve the dust collecting efficiency.

As described above, the wet dust collector according to the present invention provides the following effects.

First, since the vortex phenomenon occurs in the air bubbles as the contaminated air is injected into the water by the nozzle unit, it is easy to filter foreign matter and fine dust contained in the contaminated air.

Second, as air bubbles of contaminated air injected into the water collide with a plurality of blocking plates to form fine air bubbles, foreign matter and fine dust are filtered again to improve filtration efficiency.

Third, the operating cost is reduced and economical by discharging the foreign matter precipitated to the outside by using only the internal pressure of the wet precipitator without having a separate power unit and allowing the water to be recirculated.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

Claims (5)

A reservoir having an intake port through which contaminated air is introduced in a state in which water is stored in the lower portion; A body having an exhaust port through which air is discharged in a state in which a lower part is in communication with one side of the reservoir; A suction fan generating suction force in a state connected to an exhaust port of the body to allow the water stored in the reservoir to rise by the internal pressure difference between the reservoir and the body; Ascending of the body by rapidly flowing a passage through which the contaminated air introduced into the reservoir gradually narrows due to the pressure difference between the reservoir and the body according to the operation of the suction fan in a state provided inside the reservoir below the body. A nozzle unit which flows into the water and filters foreign substances; A plurality of blocking plates provided on the nozzle part and configured to form fine air bubbles by colliding contaminated air injected into the water of the body through the nozzle part; And Wet dust collector, characterized in that it comprises a foreign matter recovery device for recovering the water stored in the reservoir and the settled foreign matter in communication with the bottom of the reservoir to discharge the foreign matter to the outside and the water is circulated to the reservoir. The method of claim 1, The nozzle unit, A support plate having one end coupled to the lower end of the body and the other end bent upward, and both sides coupled to the inner surface of the reservoir; A fixing plate having both sides coupled to the inner surface of the reservoir so as to be parallel to the curved inclination angle of the support plate below the support plate to form a passage through which air flows; Wet type characterized in that it comprises a nozzle plate to gradually increase the flow rate of the air by gradually narrowing the passage interval through which the air flows between the support plate and the fixed plate in a state that the upper and lower height adjustment is coupled to one end of the support plate Dust Collector. The method according to claim 1 or 2, A plurality of drip trays having a plurality of drip plates which are dispersed while generating a humidifying effect by the water sprayed into the body by the air passing through the nozzle portion in the state provided in multiple stages to cross each other in the upper portion of the nozzle inside the body. Wet dust collector, characterized in that. The method of claim 1, The barrier plate is a wet precipitator, characterized in that formed in multiple stages with a predetermined distance from each other along the advancing direction of the contaminated air injected from the nozzle unit. The method of claim 1, The foreign material recovery device, A transfer pipe communicating with a lower portion of the reservoir and settled foreign matter and stored water; A pressure pipe for allowing foreign substances and water precipitated in the reservoir to flow into the transfer pipe by using the air pressure of the body in communication with the transfer pipe and the body; Wet dust collector is connected to the conveying pipe is settled on the bottom surface of the foreign matter moved from the conveying pipe is discharged to the outside, the water is provided with a recovery container for circulating to the reservoir.

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