KR20020097444A - Wet type dust collector - Google Patents

Abstract

A wet scrubber is disclosed which can purify gas efficiently by using a combination of driving, cleaning and filter units. The apparatus may include a housing having a box shape, a cover installed at an upper portion of the housing, a first chamber formed at an upper portion of the housing, a drive unit installed in the first chamber, and a second formed at the other upper portion of the housing. A chamber, a third chamber formed under the first and second chambers in the housing, between the third chamber and the second chamber, and a filter unit installed in the second chamber, and stored in the third chamber. Cleaning liquid. Dust, dust or other contaminants contained in the contaminated gas can be removed remarkably efficiently, and since the first and second filter members are sequentially installed, dust removal efficiency regardless of the variation in the amount of dust contained in the gas Can greatly improve. In addition, since the third chamber can be opened and closed through the cover and the front surface of the housing, the components can be easily assembled or detached from the housing when the various components installed in the housing are replaced or repaired.

Description

Wet dust collector {Wet type dust collector}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wet dust collector, and more particularly, to a wet dust collector capable of efficiently purifying gas by collecting impurities such as fine dust or dust in a gas by using a drive unit, a cleaning unit, and a filter unit together. will be.

Through economic growth, urbanization, and industrialization, which have been continuously made up to now, Korea has also become a social problem due to the pollution of air, water, and waste due to the deepening of environmental pollution. The public's perception of these environmental issues leads to the government's strengthening environmental regulations, which in turn has heightened corporate interest in the environment. Despite the increasing interest in the environment, it is widely known that various problems are accumulated when examining the current state of Korea's environmental science and technology. In recent years, the public's awareness of the environment has been gradually established in Korea, including water quality inspection centers, automotive pollution research institutes, and Korea Environmental Technology Development Institute, and environmental problems have spread rapidly. A comprehensive research system has been set up to actively cope with the problem. Moreover, the development of environmental technology is expected to shift from pre-treatment technology to pre-treatment technology in the future, so that technology demand for clean technology is expected to increase rapidly.

The definition of air pollution varies slightly depending on the group or individual, but it is not defined separately in Korea. The definition of air pollution as defined by the World Health Organization (WHO) is the amount of pollutants caused by one or more of the pollutants that are artificially released into the atmosphere. Concentration and duration are unpleasant to an unspecified number of people in an area, harm public health in the area, and impede their right to enjoy life and property by harming human, animal, or plant activities. It is defined.

The damage to the human body, animals and plants caused by dust and smoke emitted to the atmosphere is not only epidemic, but also more harmful by coexisting harmful gas, and the finer the particles, the greater the effect. . In addition, since the so-called floating particles of several micrometers or less do not easily fall to the ground and are suspended in the air for a long time, it becomes a cause of visibility disorder, pneumoconiosis, or smog occurrence. Therefore, in order to prevent environmental pollution by air pollution, it is important to suppress the air emission of these fine particles. Solids or liquids are present as particulates in the exhaust gas generated from fuel and other substances generated by combustion, automobiles, etc., and crushing of materials, mechanical treatment of sorting, etc. It is a dust collector that separates and collects gas from a gas.

The particle size distribution of dust in the air is about 0.001 to 500 µm in total, but most of the particles have a size of 0.1 to 10 µm. Among them, the Brown movement, which is free to move by colliding with gas molecules similar to molecules, is performed. Dust mainly has a particle size of about 1 to 20 mu m. The size of dust generated in the workplace, which is the source of dust, varies widely, but mainly has a size of about 0.01 to 100㎛, so that dust collectors are installed to remove them, especially in workplaces and workers and living environments. Dust particles having a size of 0.5 to 5 μm, which may affect human lung tissue, are required to be collected.

At present, apparatuses for removing particulate contaminants include cyclone dust collectors, filter dust collectors, electric dust collectors to wet dust removal apparatuses, and the like.

The cyclone dust collector, which is most commonly used as a particulate pollutant removal device, is a device that uses centrifugal force, and moves the pollutant to both walls to precipitate. Cyclone dust collector is widely used as air pollution prevention device because it can effectively collect dust at relatively low cost. The main advantages of cyclone dust collectors are their simple structure, design, economics, low pressure drop and handling of high dust loads.

The bag filter is the oldest and most widely used method of separating dust particles from gas. In the bag filter, filtration proceeds while passing the exhaust gas containing dust through several filter media installed side by side. At this time, the filtration is the filtration of the filter medium alone in the initial stage, but as time passes, a dust layer is formed, the dust layer accumulated on the filter medium acts as a support, the filtration phenomenon by the dust layer appears. Fine dust is collected more efficiently by this dust layer, and the filtration effect of this dust is more important in textile filter media than in pentose filter media.

The electrostatic precipitator, which is another device for removing the particulate contaminants, is a machine that discharges electric charges to particles such as dust and collects the loaded particles in the dust collecting pole, and removes the dust collected in the dust collecting pole after dust collection. When the electrostatic precipitator is used, particles smaller than 20 μm in size can be removed, so that 99% or more of the dust can be removed. It's quite efficient, but it's expensive.

A cleaning dust collector, commonly referred to as a wet dust collector, is a device that cleans the gas impregnated by droplets, liquid films, or bubbles, adheres to the particles, promotes aggregation between the particles, and separates the particles from the direct gas flow. Such scrubbers generally have particle collision adhesion to droplets, intergranular aggregation by particulate diffusion, intergranular aggregation by evaporation of exhaust gases, promotion of coagulation and cohesion of vapors with particles as nuclei, and liquid film and bubbles. The dust is collected according to the collection principle such as contact adhesion of particles. The cleaning dust collector is largely filled with a predetermined amount of liquid in the dust collector and flowing water to clean the impregnated gas to clean the impregnated gas, pressurized water to clean the impregnated gas by pressurizing and supplying water, and water droplets using the rotation of the blower. It is classified into a rotary type for forming and washing water film bubbles. This cleaning dust collector is presented in Korean Patent No. 10-0216137 (name of the invention: cleaning dust collector).

Figure 1 shows a cross-sectional view of the cleaning dust collector disclosed in the registered patent.

Referring to FIG. 1, the cleaning dust collector has a dust collector body 10, a gas inlet 15, a base outlet 20, a suction fan 25, a gas flow path 30, an upper member 35 for forming a flow path, The lower member 40 for forming a flow path, the cleaning liquid discharge valve 45, the cleaning liquid supply valve 50, and the dust discharge valve 55 are provided.

A gas inlet 15 is connected to an upper side of the outer side of the dust collector body 10 having a structure in which a lower portion of the rectangular parallelepiped is narrowed, and a gas flow passage 30 communicating with the gas inlet 15 is a dust collector body ( 10) is formed downward from the upper side of one side. The gas flow path 30 is bent upward again by the upper and lower flow path forming members 35 and 40 inside the dust collector body 10, and is connected to the gas outlet 20 connected to the other upper portion outside the dust collector body 10. ). The suction fan 25 is connected to the gas outlet 20 to suck gas including dust through the gas inlet 15, the gas flow path 30, and the gas outlet 20.

The cleaning liquid 60 is introduced to the inside of the dust collector body 10 at a predetermined height from the bottom, and the cleaning liquid supply valve 50 for the introduction of the cleaning liquid 60 is formed at the other upper portion of the dust collector body 10. On the other side lower part of the dust collector body 10, a cleaning liquid discharge valve 45 for flowing out the cleaning liquid 60 is formed. A dust discharge valve 55 for discharging the collected dust is installed at the lower end of the dust collector body 10.

However, the cleaning dust collector having the above-described configuration has the advantage that the construction is relatively simple and easy to manufacture, but the dust collection efficiency is improved because the dust is collected in the gas simply by colliding the dust with the cleaning liquid stored in the body of the dust collector. The disadvantage is low. Therefore, when the gas contains fine dust, it is very difficult to collect dust in the gas using such a scrubber. In order to overcome this problem, even in the conventional cleaning dust collector, by agitating or spraying the liquid stored in the liquid tank to generate droplets or bubbles, the dust collecting efficiency of the dust from the gas containing the fine dust can be improved. An apparatus is required, which complicates the construction and at the same time increases the manufacturing cost.

On the other hand, the conventional washing dust collector having a pressurized water and a rotary cleaning unit has a good dust collection efficiency, but has a disadvantage that the configuration of the apparatus is relatively complicated, and therefore, the manufacturing of the dust collector is difficult and the manufacturing cost increases.

The present invention has been made to solve the above problems of the conventional wet dust collecting device, one object of the present invention by applying a cleaning unit and a filter unit together a wet dust collecting device that can efficiently collect the dust contained in the gas To provide.

It is another object of the present invention to provide a wet dust collecting device which is composed of a plurality of chambers in which a cleaning unit, a filter unit and a driving unit are accommodated, and which can be easily manufactured and managed at low maintenance cost.

Still another object of the present invention is to provide a wet dust collecting device that is easy to transport and install, and that each component of the device can be easily replaced.

1 is a cross-sectional view of a conventional cleaning dust collector.

2 is a perspective view of a wet dust collecting apparatus according to an embodiment of the present invention.

3 is a front view of the apparatus shown in FIG.

4 is a side view of the apparatus shown in FIG. 2.

5 is a plan view of the apparatus shown in FIG.

6 is a plan view of the inside of the apparatus shown in FIG.

FIG. 7 is a rear view of the apparatus shown in FIG. 2.

8 is an exploded perspective view of the third fixing member.

9 is a partial cross-sectional view of the wet dust collecting device shown in FIG.

10 is a perspective view of the sound absorbing member of the apparatus shown in FIGS. 6 and 9.

It is a perspective view which shows the state which opened the 3rd chamber from the housing.

12A is a front view of the first filter member.

12B is a perspective view of the first filter member viewed from the rear side.

13 is an exploded perspective view of the second filter member.

14 is a conceptual view for explaining a process of cleaning the gas containing dust by the operation of the wet dust collector according to the present invention.

<Explanation of symbols of main parts in drawings>

100: wet dust collector 110: housing

115: Cover 117: First sealing member

120: 1st chamber 125: 2nd chamber

130: third chamber 135: drive member

140: first filter member 145: second filter member

150: control panel 160: switch

165: Handle 170: First fixing member

175: Second fixing member 180: First hinge

185: Second hinge 190: Third fixing member

195: fourth fixing member 200: base

205: Binding unit 210: Support plate

215: fixing plate 220: first connection hole

230: fixed protrusion 235: through hole

240: 1st fixed shaft 245: 2nd connection hole

250: fixing hole 255: second fixed shaft

260: Spring 270: Moving member

280: suction port 290: exhaust port

300: Sound absorption member 310: Blower fan

315: First bulkhead 320: Support stand

330: Cleaning amount 335: The second bulkhead

340: First filter member mounting portion 350: Windshield

360: separation member 365: second sealing member

380: frame 395: support rod

400: net 405: first filter coupling member

410: first flow hole 420: second flow hole

425: Protection member 430: Filter holder

435: Third sealing member 440: Filter case

450: fixed rod 455: second filter coupling member

470: rotary shaft

In order to achieve the above object of the present invention, according to a preferred embodiment of the present invention, a wet dust collecting apparatus for cleaning a gas containing dust, dust, and other contaminants, the housing having a box shape, the housing of the housing A cover installed in an upper portion, a first chamber formed in an upper portion of the housing, a drive unit installed in the first chamber, a second chamber formed in an upper portion of the other side in the housing, and the first and second chambers in the housing There is provided a wet dust collecting device including a third chamber formed below, a filter unit installed between the third chamber and the second chamber and in the second chamber, and cleaning means stored in the third chamber.

Between the housing and the cover is formed a first sealing member made of synthetic resin or rubber and attached to the top of the housing to induce airtightness of the first and second chambers.

Fixing members corresponding to each other are formed on both upper sides of the housing and on both sides of the cover, and the fixing members are rotatably supported on the support plate and the support plate, respectively, fixed to the housing. A base to be mounted, a binding portion that is rotatably installed on the base and a fixing plate fixed to the cover is fastened to the binding portion. In this case, a pair of first connection holes corresponding to each other are formed on both sides of the central portion of the base, and a pair of second connection holes are formed on both sides of one side of the base, and the other side of the base is bent upwards. The base is spaced apart from the housing. In addition, a fixing protrusion which is fastened to the fixing plate is formed at one side of the binding part, and the other side of the binding part is branched, and a pair of through holes corresponding to the first connection hole of the base are formed at both ends of the other side, respectively. Therefore, the through-hole of the binding part is aligned with the first connection hole of the base, and a first fixing shaft is inserted into the through-hole and the first connection hole to fasten the binding part on the base, One side of the support plate is bent upwards, a pair of fixing holes corresponding to the second connection hole of the base is formed in the bent portion, the fixing hole of the support plate and the second connection of the base A second fixing shaft having a spring fastened to the center portion is inserted into the hole to rotatably fix the base to the support plate. Preferably, one end of the spring is in contact with the base, and the other end of the spring is bound to a spring mounting protrusion formed at the center of the support plate, so that the base is elastically fastened to the support plate.

A control panel having an operation indicator light and an on / off switch is formed at an upper portion of the front surface of the housing to adjust an operation of the wet dust collector, and a lower portion of the housing front is opened by sliding the third chamber from the housing. In order to bind the third chamber to the housing, fixing members are formed at both lower portions of the housing.

The upper portion of the rear surface of the housing is in communication with the first chamber, a plurality of exhaust holes having a circular or relatively long or relatively short track-like shape are arranged at uniform intervals, respectively, the lower portion of the rear of the housing A suction port is formed to communicate with the third chamber, and the cover is rotatably installed at an upper portion of the housing by first and second hinges formed at one side of the cover and a rear surface of the housing.

The first and second chambers and the third chamber are separated by a first partition wall installed horizontally, and the first and second chambers are separated from each other by a second partition wall vertically installed.

The driving unit includes a support fixed on the first partition wall in the first chamber, a driving member installed on the support, and a blowing fan connected to the driving member, and the first cooling unit protects the blowing fan. A protective member protruding horizontally from the second partition into the first chamber is formed, and a circular flow hole is formed at the central portion of the second partition to be coaxial with the blower fan. In addition, after the projecting horizontally from the rear surface of the housing into the first chamber, the windshield is formed to extend vertically downward and connected to the first partition wall. In this case, a sound absorbing member, which is a plate made of a porous material and formed with a plurality of protrusions at regular intervals, is attached to both inner walls of the first chamber and the lower portion of the cover or the front surface of the windshield.

In order to maintain the airtightness of the third chamber, a second sealing member is formed at a periphery of the third chamber below the front surface of the housing.

The filter unit includes a first filter member installed between the third chamber and the second chamber and a second filter member installed in the second chamber. At this time, the first filter member is a frame for accommodating a filter cloth as a filter, a pair of support rods installed on the frame, a pair of meshes installed on the front and rear of the filter and the filter, the support rod and the net And a first filter coupling member configured to be formed of the frame aluminum or iron to have a rectangular shape, and the support rod is intersected in a U-shape on one side of the mesh, and the first filter coupling member is formed of a metal ring. It is composed. In order to accommodate the first filter member, a first filter member mounting part having a groove in a central portion is formed inside both sides of the housing between the third chamber and the second chamber.

In addition, a rectangular flow hole is formed in the first partition wall between the second and third chambers, and the second filter member is a pair of filter holders and filters installed in the first partition walls on both sides of the flow hole. And a filter case accommodating the filter cloth, a third sealing member for sealing the flow hole and the filter case, a fixing rod for fixing the filter case, and a second filter coupling member for coupling the filter case to the filter holder. In this case, a pair of grooves in which the filter holders in the center of the fixing rod are respectively exposed are formed, and each thread is formed on the outer circumferential surface of the filter holder, and the thread of the filter holder is formed on the inner circumferential surface of the second filter coupling member. Threads corresponding to the respective threads are formed to position the fixing rod on the filter case and to couple the second filter coupling member to the filter holder to fix the second filter member on the first partition wall.

Separation members having grooves having a predetermined width are formed in the central portion to separate the third chamber into at least two unit chambers on both sides of the central portion of the third chamber. The chamber may be separated into at least two unit chambers.

According to the present invention, dust, dust or other contaminants contained in the contaminated gas are transferred to a conventional dust collector because the first chamber includes a first chamber in which a drive unit is installed, a second chamber in which a filter unit is installed, and a third chamber in which a cleaning liquid is stored. On the contrary, it can remove remarkably efficiently. In addition, since the first and second filter members are installed in sequence, even if the amount of dust contained in the gas is very large, the efficiency of removing dust contained in the gas can be greatly improved regardless of the variation in the amount of dust. Dust, dust and other materials can be recovered dry. In addition, since the third chamber can be opened and closed through the cover installed on the upper part of the housing and the front surface of the housing, the parts can be easily assembled or detached from the housing when the various parts installed in the housing are replaced or repaired. Moreover, the wet dust collecting device according to the present invention is composed of a plurality of chambers, but because the structure is simple, not only the members can be easily installed in each chamber, but also the members can be easily replaced, thereby reducing the maintenance and maintenance cost of the apparatus. You can save a lot.

Hereinafter, a wet dust collecting apparatus according to preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the following embodiments.

Figure 2 shows a perspective view of a wet dust collecting device according to an embodiment of the present invention, Figure 3 is a front view of the device shown in Figure 2, Figure 4 is a side view of the device shown in Figure 2, Figure 5 2 is a plan view of the device shown in FIG. 2, FIG. 6 is an internal plan view of the device shown in FIG. 2, and FIG. 7 is a back view of the device shown in FIG. 2.

2 to 6, the wet dust collecting device 100 according to an exemplary embodiment of the present invention may include a box-shaped housing 110, a cover 115 on an upper portion of the housing 110, and an inside of the housing 110. First to third chambers 120, 125, and 130 to be formed, the driving member 135 installed in the third chamber 130, and the first and the third to be mounted in the second and third chambers 125 and 130, respectively. Two filter elements 140, 145.

2 and 3, a control panel 150 for controlling the operation of the wet dust collecting device 100 according to the present embodiment is formed on an upper portion of the front of the housing 110, and such a control panel 150 is provided. An operation indicator 155 indicating an operation state of the wet dust collector 100 and an on / off switch 160 for starting or stopping the wet dust collector 100 are installed in the wet dust collector 100. The control panel 150 is fastened to the front of the housing 110 using a plurality of screws. The housing 110 has a width of about 65 to 75 cm and a height of about 55 to 65 cm. The cover 115 installed on the upper portion of the housing 110 has the same width as that of the housing 110, and the height of the cover 115 is about 3 to 8 cm.

A handle 165 is attached to a lower portion of the front surface of the housing 110 to open the third chamber 130 installed at the inner lower portion of the housing 110. As shown in FIG. 9 to be described later, the third chamber 130 in which the cleaning liquid 330 such as water is accommodated at a predetermined water level H therein may be pulled forward by pulling the handle 165 in front of the housing ( 110 in a sliding manner. In order to fix the third chamber 130 to the housing 110, first and second fixing members 170 and 175 corresponding to each other are installed at lower portions of both sides of the housing 110.

4 and 7, a suction port 280 communicating with the third chamber 130 installed in the housing 110 is formed at the center of the lower portion of the rear of the housing 110. The suction port 280 is provided with a gas containing dust, dust or other contaminants from the outside for cleaning. The suction port 280 is installed at a height higher than that of the cleaning liquid 330 stored in the third chamber 130. Preferably, the suction port 280 is about 19 to 20 cm from the bottom of the housing 110. Is located at the height of. In addition, the suction port 280 is provided in a cylindrical shape having an inner diameter of about 5 to 6 cm.

As shown in FIG. 7, a plurality of exhaust ports 290 having different shapes are formed at the upper portion of the rear surface of the housing 110 at uniform intervals, and the rear surface of the housing 110 under the plurality of exhaust holes 290 is formed. The suction port 280 is located. The plurality of exhaust ports 290 are each formed to have a length in the range of 2 to 5 cm and a width of about 1 to 3 cm.

The exhaust ports 290 are each formed in a circular or relatively long or relatively short track shape arranged at even intervals, but the shape of the plurality of exhaust ports 290 shown in FIG. 7 is merely exemplary, and the present wet dust collector ( The shape and arrangement of the exhaust port 290 may be variously modified according to the beauty of the appearance of the 100 or the environment in which the wet dust collecting device 100 is installed.

A detailed description of the operation of the wet dust collecting device 100 will be described later, but the gas containing dust, dust, or other contaminants may be discharged from the wet dust collecting device 100 through the suction port 280 formed under the rear surface of the housing 110. ) And completely purged while sequentially passing through the third chamber 130, the second chamber 125, and the first chamber 120, and then, a plurality of exhaust ports 290 formed on the rear surface of the housing 110. Is discharged to the outside through.

2 to 4, the cover 115 is installed on the upper portion of the housing 110 to open and close the housing 110. The cover 115 is rotatably installed at an upper side of the housing 110 by one side of the first and second hinges 180 and 185 (see FIGS. 5 and 7), and the other side of the cover 115 may include a housing ( 110) It is fixed to the housing 110 by third and fourth fixing members 190 and 195 which are installed to correspond to each other on the upper sides. While the wet dust collecting device 100 according to the present invention is in operation, the third and fourth fixing members 190 and 195 may be fastened to fix the cover 115 to the upper portion of the housing 110 and to repair internal components. In the case of replacing or replacing, the housing 110 is opened by opening the cover 115 by opening the third and fourth fixing members 190 and 195.

In addition, between the cover 115 and the housing 110, an agent having an elastic force to maintain the airtightness of the first and second chambers 120 and 125 in the housing 110 while the wet dust collecting device 100 is in operation. 1 sealing member 117 is formed. As illustrated in FIG. 6, the first sealing member 117 is attached to the upper end of the housing 110 and the second partition 335 separating the first chamber 120 and the second chamber 125. The first sealing member 117 is made of synthetic resin or rubber having a thickness of about 0.5 to 1.0 cm and a width of about 1.5 to 2.5 cm to seal between the cover 115 and the housing 110. The maintenance of airtight between the same cover 115 and the housing 110 is more fully achieved by the third and fourth fixing members 190 and 195 which bind the cover 115 and the housing 110.

8 is an exploded perspective view of the third fixing member 190. In FIG. 8, only the third fixing member 190 for binding the cover 115 to the housing 110 is illustrated, but the first and second fixing members 170 and 175 and the fourth fixing member 195 described above are also illustrated. It has the same structure as the 3rd fixing member 190 as shown in FIG. However, the third and fourth fixing members 190 and 195 are installed on the upper sides of the housing 110 in the height direction of the housing 110, but the first and second fixing members 170 and 175 are disposed in the housing. There is a difference in that it is mounted in the width direction of the housing 110 on both lower sides of the (110).

Referring to FIG. 8, the third fixing member 190 may include a support plate 210, a base 200 rotatably mounted on the support plate 210, and a binding part installed rotatably on the base 200 ( 205 and the fixing plate 215 to which the binding unit 205 is fixed.

A pair of first connection holes 220 corresponding to each other are formed on both sides of the central portion of the base 200, and a pair of second connection holes 245 are formed on both sides of one side of the base 200. In addition, the other side of the base 200 is slightly bent upwards so that the base 200 is spaced apart from the outer surface of the housing 110 by a predetermined distance, thereby lifting the other side of the base 200, thereby providing a third fixing member ( 190 can be easily opened.

One end of the base 200 is bent at a predetermined angle to surround the spring 260 mounted between the base 200 and the support plate 210 to open and close the third fixing member 190. ) To prevent it from falling out.

One side of the binding unit 205 is formed with a fixing protrusion 230 which is fastened to the protrusion of the fixing plate 215 attached through the screw 249 on one side of the cover 115, the other of the binding unit 205 Sides are branched, and a pair of through holes 235 having sizes corresponding to the first connection holes 220 of the base 200 are formed at both ends of the other side, respectively. After arranging the through holes 235 of the binding unit 205 to correspond to the first connection holes 220 of the base 200, the first fixing shaft 240 is connected to the through holes 235 and the first connection holes. When inserted into the hole 220, the binding unit 205 is rotatably fastened on the base 200.

A fixing plate 215 having one side protruded upward is attached to one outside of the cover 115 so that the fixing protrusion 230 of the binding unit 205 is caught. The fixing plate 215 is fixed to the cover 115 through a plurality of screws 249. In this embodiment, as shown in FIG. 8, the fixing plate 215 is attached to the cover 115 using three screws 249, but the size of the cover 115 or the housing 110 and the cover 115 are different. The number of screws 249 may be increased or decreased in consideration of the fastening stability of the housing 110.

The fixing protrusion 230 formed at one end of the binding unit 205 is caught by the protrusion of the fixing plate 215 installed on the outer surface of the cover 115, so that the cover 115 is connected to the housing through the third fixing member 190. Bound to 110.

The second connection hole 245 of the base 200 has a size corresponding to a pair of fixing holes 250 formed on both sides of one side of the support plate 210 attached to the outer wall of the housing 110. One side of the support plate 210 is bent upwards at both sides, and the fixing hole 250 is formed in this portion. The support plate 210 is installed between the base 200 and the outer surface of the housing 110 to rotatably support the base 200 and the binding unit 205. When the second fixing shaft 255 in which the spring 260 is fastened is inserted into the fixing hole 250 of the support plate 210 and the second connection hole 245 of the base 200, the fixing hole 250 is provided. The base 200 is rotatably fixed to the support plate 210 through the second connection hole 245 and the second fixing shaft 255.

One end of the spring 260 bound to the second fixed shaft 255 is in contact with the base 200, the other end of the spring 260 is bound to the spring mounting protrusion 257 formed in the center of the support plate 210 do. Therefore, when the fixing protrusion 230 of the binding unit 205 is pressed on the other side of the base 200 in a state of being caught by the protrusion of the fixing plate 215, the base 200 is supported while the spring 260 has elastic force. The cover 115 is attached to the housing 110 by being seated on the plate 210. On the contrary, when the other side of the base 200 is pushed up, the base 200 is easily separated from the support plate 210 by the elastic force of the spring 260, and the fixing protrusion 230 of the binding part 205 is fixed to the fixing plate 215. By releasing from the protrusion of), the cover 115 can be easily detached from the housing 110.

According to the same principle as described above, the third chamber 130 also fastens or releases the first and second fixing members 170 and 175 installed on both lower sides of the housing 110, and pulls the handle 165 to obtain the third chamber 130. The three chambers 130 may be opened from the housing 110 or bound to the housing 100. When the housing 110 has the size described above, the first to fourth fixing members 170, 175, 190, and 195 each have a width of about 2.5 to 3.5 cm and a length of about 7.0 to 8.0 cm.

3, 4 and 7 again, the lower end of the housing 110, the moving member 270 is installed to improve the convenience of installation and movement of the present wet dust collector 100. The moving member 270 is preferably composed of four wheels mounted on the lower portion of the housing 110 with a diameter of about 3.5 to 4.5 cm. In this embodiment, the movable member 270 is installed at the bottom of the housing 110, but in an environment where the movement of the apparatus is not required, four or more fixed legs may be mounted to improve the installation stability of the apparatus. will be.

FIG. 9 illustrates a partial cross-sectional view of the wet dust collecting device of FIG. 2.

6 and 9, the first chamber 120 inside the housing 110 is provided with a driving member 135 and a blowing fan 310 operated by the driving member 135. Preferably, the drive member 135 is a three-phase induction motor having a power consumption of about 0.75 kW and about 1 to 2 hp (HP), wherein the rotation speed of the motor is about 3400 to 3,500 RPM. . The electric motor uses a combination of 220 kW and 380 kW to improve the adaptability of the wet dust collector 100 according to the condition where the wet dust collector 100 is installed.

FIG. 10 is a perspective view of the sound absorbing member 300 of the apparatus shown in FIGS. 6 and 9.

6, 9, and 10, the sound absorbing member 300 is installed on both inner walls of the first chamber 120, the lower portion of the cover 115, and the front surface of the windbreak plate 350.

The sound absorbing member 300 has a structure of a plate 203 in which a plurality of protrusions 305 are formed at regular intervals. Each of the plurality of protrusions 305 protrudes from the plate 303 at a height of about 1 to 2 cm, and the height of the entire plate 303 including the protrusion 305 is about 2 to 3 cm. Since the plurality of protrusions 305 described above are formed vertically and horizontally on the sound absorbing member 300, noise generated during the operation of the wet dust collecting device 100 may be effectively absorbed. The sound absorbing member 300 is made of a porous material such as a sponge, and the sound absorbing member 300 absorbs noise due to the operation of the wet dust collecting device 100 through the sound absorbing member 300, and thus occurs while the wet dust collecting device 100 is used. Loud noise can be minimized to the outside. In addition, since the air intake member 300 includes a plurality of fine pores, the sound absorbing member 300 having such a configuration may include both inner walls of the first chamber 120, a lower portion of the cover 115, and a front surface of the windshield plate 350. By adhering to, the removal efficiency of the dust contained in the gas to be cleaned can be further improved.

6 and 9, the first and second chambers 120 and 125 and the third chamber 130 are separated from each other by a first partition wall 315 horizontally installed inside the housing 110. The first chamber 120 and the second chamber 125 are separated from each other by the second partition wall 335 vertically installed on the upper portion of the first partition wall 315. That is, the first and second chambers 120 and 125 are separated from each other by the second partition 335 and are formed on the inside of the housing 110, and the third chamber 130 is connected to the first partition 315. The first and second chambers 120 and 125 are separated from each other, and are formed below the housing 110.

11 is a perspective view illustrating a state in which the third chamber 130 is opened from the housing 110.

9 and 11, the third chamber 130 formed at the lower portion of the housing 110 is installed to be opened in a slide manner from the housing 110 by pulling the handle 165. The suction port 280 is connected to one side of the third chamber 130, and the handle 165 is mounted to the other side. As described above, the second sealing member 365 is attached to the periphery of the third chamber 130 at the lower front of the housing 110 to maintain the airtightness of the third chamber 130 that can be opened and closed.

The second sealing member 365 is made of synthetic resin or rubber made of the same material as the first sealing member 117 described above, and has a thickness of about 0.5 to 1.0 cm and a width of about 1.5 to 4.5 cm. That is, the lower portion of the second sealing member 365 is formed to have a width of about 1.0 to 2.0 cm, and the upper portion of the second sealing member 365 is formed to have a width of about 3.5 to 4.5 cm and the upper portion thereof is wider than the lower portion. For this reason, the other side of the third chamber 130 constituting the front lower portion of the housing 110 is higher than the rest of the third chamber 130 for easy storage and replacement of the first filter member 140. Because it is formed to more effectively keep the airtight in this part. The second sealing member 365 seals between the third chamber 130 and the housing 110, and maintaining the airtightness between the third chamber 130 and the housing 110 is performed by the third chamber 130 and the housing 110. Further complete by the first and second fixing members 170, 175 which bind 110.

The cleaning liquid 330 for cleaning the gas containing dust is stored at a predetermined height H in the third chamber 130, and the third chamber 130 is disposed at both sides of the central portion of the third chamber 130. Separation member 360 is formed to separate the into two unit chambers. In the state where the cleaning liquid 330 is filled in the third chamber 130 at a predetermined water level H, when a gas including dust to be cleaned through the suction port 280 is introduced, a large amount of droplets from the cleaning liquid 330, Liquid films or vacuoles form to clean gases containing dust or other contaminants.

If the third chamber 130 is separated into two unit chambers, a separation plate (not shown) such as a plate is provided on the separation member 360 having a groove formed in the center to accommodate the separation plate. Insertion causes the plate to stand in the center of the third chamber 130 by the separating member 360 to separate the third chamber 130 into two smaller unit chambers. Different cleaning liquids 330 may be accommodated according to the gas to be cleaned in the third chamber 130 or the type of dust included in the gas. In addition, while the one or more types of cleaning liquid 330 such as water is stored in the third chamber 130, the separating member 360 and the separating plate inserted therein are mounted, thereby moving the wet dust collecting device 100. As the cleaning liquid 330 stored in the third chamber 130 slumps, the cleaning liquid 330 may be prevented from leaking to the outside of the wet dust collecting apparatus 100. The third chamber 130 has a width of about 42 to 45 cm and a height of about 13 to 15 cm. In the present embodiment, the third chamber 130 and the cleaning liquid 330 stored in the third chamber 130 together constitute a cleaning unit.

A first filter having a groove having a width of about 1.5 to 2.0 cm in the center to fix the first filter member 140 between the lower portion of the second chamber 125 and the other upper portion of the third chamber 130. Member mounting portions 340 are provided at both sides in the housing 110.

FIG. 12A illustrates a perspective view of the first filter member 140 from the front, and FIG. 12B illustrates a perspective view of the first filter member 140 from the rear.

11, 12A, and 12B, the first filter member 140 may include a rectangular frame 380, a pair of support rods 395, a pair of meshes 400, and a first filter coupling member ( 405).

The frame 380 has a horizontal length of about 37 to 38 cm, a vertical length of about 24 to 26 cm, and a thickness of about 0.5 to 1.5 cm, and is made of iron or aluminum to maintain a predetermined strength.

A filter cloth (not shown) for filtering the dust contained in the gas to be cleaned is interposed between the pair of meshes 400 and fastened to the frame 380. The filter cloth interposed mesh 400 is supported by a pair of support rods 390 installed on the front surface of the first filter member 140 so as to cross each other in a U-shape, and such a support rod 390 and the mesh 400. And the filter cloth are connected to each other by a first filter coupling member 405 such as a metal ring. The mesh 400 and the support rod 390 are preferably made of the same material as the frame 380, respectively. Since the mesh 400 is installed on both sides of the filter cloth and the support rod 400 is mounted on one side thereof, the operation of the driving member 135 does not interfere with the flow of gas flowing inside the housing 110. The dust contained in the gas can be effectively removed.

When the first filter member 140 having the above-described structure is inserted into the first filter member mounting part 340 formed on both sides of the upper portion of the third chamber 130 in the housing 110, the first filter member 140 may be connected to the housing ( It is fixed between the third chamber 130 and the second chamber 125 in the 110.

6 and 9, a first flow hole 410 having a quadrangular shape is formed in the first partition 315 horizontally disposed between the third chamber 130 and the second chamber 125. The second filter member 145 is formed in the second chamber 125 above the first flow hole 410.

The second filter member 145 has a rectangular cross section and according to the shape of the second filter member 145, the first flow hole 410 is also formed in a rectangular shape.

13 illustrates an exploded perspective view of the second filter member 145.

6, 9, and 13, the second filter member 145 may include a pair of filter holders 430 and filter cases 440 installed at the first partition walls 315 on both sides of the first flow hole 410. ), A third sealing member 435, a fixing rod 450, and a second filter coupling member 455.

A third sealing member 435 made of a material having elasticity such as rubber is installed on the outer circumferential surface of the filter case 440 having a rectangular cross section and provided with a plurality of filter cloths. As such, the airtightness between the first flow hole 410 and the second filter member 145 may be stably maintained through the third sealing member 435 formed on the outer circumferential surface of the filter case 440. The filter case 440 has a horizontal length of about 23 to 25 cm, a vertical length of about 21 to 23 cm, and a thickness of about 4 to 5 cm, and has a predetermined elastic force while having such a standard. The third sealing member 435 is formed in the same dimension.

As described above, the filter case 400 having the third sealing member 435 is disposed on the first flow hole 410 between the pair of filter holders 430, and then the upper portion of the filter case 440. When the fixing rods 450 having grooves having a predetermined diameter are in close contact with each other, the upper portions of the pair of filter holders 430 protrude from both ends of the fixing rods 450, respectively. At this time, the fixing rod 450 has a length of about 28 to 30 cm slightly longer than the filter case 440, and the fixing rod 450 is approximately at both ends of the center portion for binding of the filter holder 430 and the second filter coupling member 455. A groove having a width of about 0.5 to 1.0 cm has a corresponding 'c' cross section.

The thread is formed in correspondence with the second filter coupling member 455 on the outer circumferential surface of the filter holder 430, and the thread is formed on the inner circumferential surface of the pair of filter holders 430 on which the thread is formed on the outer circumferential surface. When the pair of second filter coupling members 455 are rotated, respectively, the filter case 440 is fixed to the filter holder 430 by the fixing rod 450. In the present embodiment, the first filter member 140 and the second filter member 145 together constitute a filter unit.

6 and 9, a second flow hole 420 having a circular shape is formed at the center of the second partition 335 vertically installed to separate the first chamber 120 and the second chamber 125. ) Is formed.

The blower fan 310 is installed in the first chamber 120 adjacent to the second flow hole 420, and the blower fan 310 is disposed around the blower fan 310 to protect the blower fan 310. A circular protective member 425 having a slightly larger diameter is formed. In this case, the blowing fan 310 has a diameter of about 28 to 30 cm, and the protection member 425 is formed to a diameter of about 34 to 36 cm. The protection member 425 protrudes from the second partition 335 toward the inside of the first chamber 120 to a length of about 5 to 7 cm longer than the width of the blower fan 310 so that the blower fan 310 is formed. The blower fan 310 is safely protected during operation.

The blowing fan 310 is connected to the driving member 135 which is an electric motor through the rotating shaft 470, so that when the driving member 135 rotates, the rotational force of the driving member 135 is blown through the rotating shaft 470. The blowing fan 310 is rotated at a predetermined speed by being transmitted to the 310. Therefore, the gas sucked from the suction port 280 sequentially turns the third chamber 130, the first flow hole 410, the second chamber 125, the second flow hole 420, and the first chamber 120. After that, it is discharged to the outside of the present wet dust collecting device 100 through a plurality of exhaust ports (290). The drive member 135, the rotation shaft 470, and the blowing fan 310 together constitute a drive unit.

The driving member 135 is fixed using a plurality of screws on the support 320 mounted on the first partition 315 between the first chamber 120 and the third chamber 130, and the driving member ( 135) At the rear, a windbreak plate 350, which is a plate having a horizontal length of about 35 to 37 cm and a vertical length of about 33 to 35 cm, is provided. The windbreak plate 350 protrudes from a rear surface of the housing 110 in which the plurality of exhaust ports 290 are formed in the first chamber 120 in a predetermined length, preferably about 3 to 4 cm in a horizontal direction. Next, it has a structure extending vertically downward and connected to the first partition 315. A sound absorbing member 300 for absorbing noise generated from the wet dust collecting device 100 is attached to a surface of the windshield 350 facing the inside of the first chamber 120. The windbreak plate 350 functions to reduce the flow of gas flowing at a high speed as the blower fan 310 operates to discharge the gas to the outside of the housing 110. Accordingly, the gas cleaned by passing through the cleaning liquid 330 and the first and second filter members 140 and 145 passes between the windshield 350 and the sidewalls of the first chamber 120 to form an exhaust port at the rear of the housing 110. 290).

Hereinafter, the operation of the wet dust collecting apparatus according to the present invention will be described in detail with reference to the drawings.

14 is a conceptual diagram illustrating a process of cleaning a gas containing dust by the operation of the wet dust collecting device according to the present invention.

9 and 14, when the user presses the on / off switch 160 of the control panel 150, the driving member 135, which is an electric motor installed in the first chamber 120, operates to drive the driving member 135. The blowing fan 310 connected to the driving member 135 and the rotating shaft 470 is rotated according to the operation of.

When the blowing fan 310 is rotated, the gas A containing dust, dust, and other contaminants is drawn in the direction of the arrow through the suction port 280 formed at the lower rear of the housing 110 as shown in FIG. 14. As a result, it is introduced into the third chamber 130 below the housing 110.

The introduced gas A collides with the cleaning liquid 330 stored in the third chamber 130, and a large amount of droplets, liquid film, or vacuoles are formed from the cleaning liquid 330 to remove dust or other contaminants contained in the gas A. Primary cleaning is performed. In this case, dust or dust contained in the gas forcibly sucked into the third chamber 130 of the housing 110 is crushed while colliding with the first partition 315 of the housing 110 to become more particulate. As this process is repeated, harmful gases and dusts are separated and precipitated in the cleaning liquid 330, thereby forming a large number of droplets, liquid films, and bubbles from the cleaning liquid 330, thereby sufficiently contacting them with the gas containing them, thereby obtaining a high dust collection rate. have.

The dust contained in the primary cleaned gas A is collected again by the first filter member 140 installed between the third chamber 130 and the second chamber 125. The gas A passing through the first filter member 140 passes through the first flow hole 410 and the second filter member 145, and the dust contained in the gas A again passes through the second filter member 145. Is captured by As such, the wet dust collecting device 100 according to the present invention collects the dust contained in the gas A passed through the cleaning liquid 330 through the first and second filter members 140 and 145. Dust, dust and other contaminants contained within can be almost completely removed. At this time, the dust or dust contained in the gas is collected by the filter cloth in the first and second filter members 140 and 145 according to the principles of inertia collision, blocking effect, diffusion and electrostatic attraction.

As described above, the gas A passing through the second filter member 145 passes through the second flow hole 420 between the second chamber 125 and the first chamber 120, and thus the first chamber 120. Flows into. The gas A introduced into the first chamber 120 is reduced in flow velocity while colliding with the windbreak plate 350, and finally, the wet dust collecting device 100 is provided through a plurality of exhaust ports 290 formed on the rear surface of the housing 110. The cleaning of the contaminated gas A is completed by discharging to the outside.

As described above, the wet dust collecting device according to the present invention includes a first chamber in which a drive unit is installed, a second chamber in which a filter unit is installed, and a third chamber in which a cleaning liquid is stored. Contaminants can be removed remarkably efficiently compared to conventional dust collectors.

In addition, since the first and second filter members are installed in sequence, even if the amount of dust contained in the gas is very large, the efficiency of removing dust contained in the gas can be greatly improved regardless of the variation in the amount of dust. Dust, dust and other materials can be recovered dry.

In addition, since the third chamber can be opened and closed through the cover installed on the upper part of the housing and the front surface of the housing, the parts can be easily assembled or detached from the housing when the various parts installed in the housing are replaced or repaired.

Moreover, the wet dust collecting device according to the present invention is composed of a plurality of chambers, but because the structure is simple, not only the members can be easily installed in each chamber, but also the members can be easily replaced, thereby reducing the maintenance and maintenance cost of the apparatus. You can save a lot.

Although the above has been described with reference to the preferred embodiments of the present invention, those skilled in the art may vary the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. It will be appreciated that modifications and variations can be made.

Claims (32)

A wet scrubber for cleaning gases containing dust, dust and other contaminants, A housing having a box shape; A cover installed on an upper portion of the housing; A first chamber formed on an upper portion of the housing; A drive unit installed in the first chamber; A second chamber formed at an upper portion of the other side of the housing; A third chamber formed below the first and second chambers in the housing; A filter unit disposed between the third chamber and the second chamber and in the second chamber; And And a cleaning means stored in said third chamber. According to claim 1, And a first sealing means is formed between the housing and the cover to induce airtightness of the first and second chambers. The method of claim 2, And said first sealing means is made of synthetic resin or rubber and is attached to an upper end of said housing. The method of claim 1, Wet dust collecting apparatus, characterized in that the fixing means corresponding to each other are formed on the upper sides of the housing and both sides of the cover to bind the cover and the housing. The method of claim 4, wherein Each of the fixing means includes a support plate fixed to the housing, a base rotatably mounted on the support plate, a binding part rotatably installed on the base, and a fixing plate fixed to the cover to fasten the binding part. Wet dust collecting device, characterized in that. The method of claim 5, A pair of first connection holes corresponding to each other are formed on both sides of the center of the base, and a pair of second connection holes are formed on both sides of one side of the base, and the other side of the base is bent upwards so that the base is Wet dust collecting device, characterized in that spaced from the housing. The method of claim 6, A fixing protrusion which is fastened to the fixing plate is formed at one side of the binding unit, and the other side of the binding unit is branched so that a pair of through holes corresponding to the first connection holes of the base are formed at both ends of the other side, respectively. Wet dust collector. The method of claim 7, wherein Align the through-hole of the binding part corresponding to the first connection hole of the base, and insert the first fixing shaft into the through-hole and the first connection hole to fasten the binding part on the base to be rotatable. Wet dust collector. The method of claim 6, One side of the support plate is bent upwards, a pair of fixing holes corresponding to the second connection hole of the base is formed in the bent portion, the fixing hole of the support plate and the second connection of the base A wet dust collecting device, characterized in that the base is rotatably fixed to the support plate by inserting a second fixed shaft spring is fastened to the central portion in the hole. The method of claim 7, wherein One end of the spring is in contact with the base, the other end of the spring is bound to a spring-mounted projection formed in the central portion of the support plate, the wet dust collecting apparatus, characterized in that the base is elastically fastened to the support plate. The method of claim 1, And a control panel having an operation indicator light and an on / off switch to adjust an operation of the wet dust collector in the upper portion of the front surface of the housing. The method of claim 1, Wet dust collecting device, characterized in that the handle is attached to the lower portion of the front of the housing to open the third chamber from the housing in a sliding manner. The method of claim 1, Wet dust collecting devices, characterized in that the fixing means corresponding to each other are formed in the lower side of the both sides of the housing to bind the third chamber to the housing. The method of claim 1, A plurality of exhaust ports are formed in the upper portion of the rear of the housing communicated with the first chamber, the suction dust collection device is formed in the lower portion of the rear of the housing to suck the gas and communicate with the third chamber . The method of claim 14, And said exhaust ports each have a circular or relatively long or relatively short track-like shape arranged at uniform intervals. The method of claim 1, And the cover is rotatably installed at an upper portion of the housing by first and second hinges formed at one side of the cover and a rear surface of the housing. The method of claim 1, The first and second chambers and the third chamber is separated by a first partition wall horizontally installed, the first and second chambers are separated from each other by a second partition vertically installed. . The method of claim 17, And the driving unit includes a support fixed to the first partition wall in the first chamber, a driving means installed on the support, and a blowing fan connected to the driving means. The method of claim 18, And a protection means protruding horizontally from the second partition wall into the first chamber to protect the blower fan. The method of claim 18, Wet dust collecting device, characterized in that the central portion of the second partition wall is formed with a circular flow hole located on the coaxial line with the blowing fan. The method of claim 18, And a windbreak plate protruding horizontally from the rear surface of the housing into the first chamber and extending vertically downward to be connected to the first partition wall. The method of claim 18 or 21, And a sound absorbing means attached to both inner walls of the first chamber and the lower portion of the cover or the front surface of the windshield. The method of claim 22, The sound absorbing means is made of a porous material, the wet dust collector, characterized in that the plate is formed with a plurality of projections at regular intervals. The method of claim 17, Wet dust collecting device, characterized in that the second sealing means is formed in the periphery of the third chamber in the lower front of the housing to maintain the airtight of the third chamber. The method of claim 17, And the filter unit comprises a first filter means installed between the third chamber and the second chamber and a second filter means installed in the second chamber. The method of claim 25, The first filter means includes a frame for receiving a filter cloth as a filter, a pair of support rods installed on the frame, a pair of nets installed on the front and rear surfaces of the filter, and a member for binding the filter, the support rod and the net. 1 A wet dust collecting device comprising a filter coupling member. The method of claim 26, The frame is made of aluminum or iron and has a rectangular shape, the support rod is installed in a U-shaped cross on one side of the mesh, the first filter coupling member is a wet dust collecting device, characterized in that the metal ring. The method of claim 25, Wet dust collecting device, characterized in that the first filter member mounting portion having a groove in the central portion is formed in the both sides of the housing between the third chamber and the second chamber to accommodate the first filter means. The method of claim 25, A rectangular flow hole is formed in the first partition wall between the second and third chambers, and the second filter means includes a pair of filter holders and filters provided in the first partition walls on both sides of the flow hole. And a third sealing member for sealing the flow hole and the filter case, a fixing rod for fixing the filter case, and a second filter coupling member for coupling the filter case to the filter holder. Wet dust collector. The method of claim 29, A pair of grooves are formed to expose the filter holders in the central portion of the fixing rod, and a thread is formed on the outer circumferential surface of the filter holder, and an inner circumferential surface of the second filter coupling member corresponds to the thread of the filter holder. A screw dust is formed respectively to position the fixing rod on the filter case and to couple the second filter coupling member to the filter holder to fix the second filter means on the first partition wall. . The method of claim 1, Wet dust collecting device, characterized in that the separating means for separating the third chamber into at least two unit chambers on both sides of the central portion of the third chamber. The method of claim 31, wherein The separation means has a groove having a predetermined width in the center is formed, the wet dust collecting apparatus, characterized in that for separating the third chamber into at least two unit chambers by inserting a separator plate in the groove.