KR101116189B1 - Ductless dust collector using ozon water - Google Patents

Abstract

PURPOSE: A ductless dust collecting apparatus is provided to prevent the propagation of bacteria or the occurrence of mold by protecting an activated carbon filter from being contacted with remaining moisture. CONSTITUTION: A ductless dust collecting apparatus includes a main body(110), a reservoir(120), an ozone water generator(130), a metal filter unit(140), an activated carbon filter unit(160), a collected water draining port(114), and an ozone water purifying unit(180). An inlet(112) and an outlet(113) are formed at the main body. Operating water is stored in the reservoir. The ozone water generator generates ozone water by electrolyzing the operating water. The metal filter unit is installed at the inlet side of the inner side of the main body. The metal filter unit includes a first metal filter(141). Ozone water supplied from the ozone water generator is flows along the first metal filter. The activated carbon filter unit is installed at the outlet side of the inner side of the main body. The collected water draining port drains ozone water containing dust. The ozone water purifying unit purifies the ozone water and returns the purified ozone water to the reservoir.

Description

Ductless Dust Collector Using Ozon Water

The present invention relates to a ductless dust collector using ozone water, and removes dust generated in the dust-containing air generating device 10 in which dust-containing air is generated and supplies the duct to the dust-containing air generating device 10 again. In the dust collector, an inlet 112 through which dust-containing air discharged from the dust-containing air generating device 10 is introduced is formed on one side, and an exhaust port 113 connected to the exhaust blower 190 is provided on the other side. A main body formed therein; and a reservoir 120 for storing operation water required for operation; and an ozone water generator 130 connected to the reservoir 120 to decompose the operation water into ozone water; and The metal filter unit 140 is installed inside the main body 110 at the suction port 112 and includes a first metal filter 141 through which the ozone water supplied from the ozone water generator 130 flows down. ; The activated carbon filter unit 160 is installed inside the main body 110 at the exhaust port 113 and includes at least one activated carbon filter. The metal filter unit is disposed below the main body 110. Installed at the lower side of the 140, and collects and discharges the ozone water containing dust; and discharges the ozone water containing the dust discharged from the catchment outlet 114 to the reservoir 120 And an ozone water purification unit 180 for returning; and an exhaust blower 190 connected to the exhaust port 113 and supplying the dust purified air to the dust-containing air generating device 10 again. It relates to a ductless dust collector (100) using ozone water, characterized in that.

In general, a dust-containing air generating device refers to a device or machine that generates air containing harmful dust, which is composed of an inorganic material including an organic or metal component including a flux or the like, such as a soldering device. . Such a dust-containing air generating device essentially requires a device for discharging the dust-containing air, and initially only an exhaust device that discharges the dust-containing air to the outside air has been used.

However, such a simple exhaust device has a problem that seriously affects the environmental pollution because the air containing harmful dust is discharged to the outside as it is. Therefore, there has been widely used an apparatus for discharging dust containing air and removing it to the outside after a dust collecting device is installed so that the dust-containing air can be purified through a process such as dust collection and discharged to the outside.

However, since the existing dust collecting and exhausting device must discharge the purified air to the outside, a connection means such as a duct must be used between the dust-containing air generating device and the external exhaust port. There has been a problem that space and cost constraints are inevitably followed by the installation of the connecting means.

In order to solve the problems of the existing dust collector, the ductless dust collector which removes dust generated in the dust-containing air generator 10 in which dust-containing air is generated and supplies it back to the dust-containing air generator It has been proposed and implemented.

In addition, in the existing ductless dust collector, gas ozone is operated to purify the air containing harmful dust composed of an inorganic material including an organic or metal component including flux and the like which are sucked into the dust collector. The ozone water generated by spraying and dissolving in water has been used in a mist state to maximize the purification efficiency. However, since the existing ozone water generator uses a method of simply injecting gas ozone into the working water and dissolving it, the dissolved concentration is extremely low, and in many cases, ozone is mixed in a bubble form in the ozone water. There was a problem that its efficacy is extremely poor.

In addition, when the ozone water is sprayed in the mist (mist) state, the ozone water in the mist (mist) is mixed with the air flows, this ozone water is absorbed by the activated carbon filter as it passes through the activated carbon filter for the reduction of ozone, As well as lowering the effectiveness of the activated carbon filter, there was a problem that bacteria or mold may occur in the activated carbon filter.

The present invention solves the problems of the existing invention described above, to make the ozone water by decomposing the working water to produce the ozone water with excellent efficacy, and while the ozone water flows down through the metal filter to purify and collect dust It is an object of the present invention to provide a ductless dust collector in which dust collection and purification efficiency is extremely excellent and residual moisture does not reach the activated carbon filter.

In order to achieve the above object, the present invention is to remove the dust generated in the dust-containing air generating device 10 in which the air containing dust is generated, the ductless dust collector for supplying the dust-containing air generating device 10 again In the main body having an inlet port 112 through which the dust-containing air discharged from the dust-containing air generating device 10 is introduced, the exhaust port 113 connected to the exhaust blower 190 is formed at one side thereof. 110; And, the reservoir 120 for storing the operating water required for operation; And, connected to the reservoir 120, ozone water generator 130 to decompose the operating water into ozone water; And, the main body 110 A metal filter unit 140 installed inside the suction port 112 and including a first metal filter 141 through which the ozone water supplied from the ozone water generator 130 flows down; Of the main body 110 An activated carbon filter unit 160 installed inside the exhaust port 113 and including one or more activated carbon filters; and a lower portion of the main body 110 under the metal filter unit 140. , A water collecting outlet 114 for collecting and discharging the ozone water containing dust; and an ozone water purification unit 180 purifying the ozone water containing dust discharged from the water collecting outlet 114 and returning the purified ozone water to the reservoir 120. And an exhaust blower 190 connected to the exhaust port 113 and supplying the purified dust back to the dust-containing air generating device 10.

In addition, the ozone water generator 130, the positive electrode plate 131 is provided in contact with the operating water, and the cation exchange membrane 132 is provided between the positive electrode plate 131 and the negative electrode plate 133 is characterized in that it further comprises The metal filter unit 140 further includes one or more second metal filters 142, and the ozone water purification unit 180 includes a demister filter 181 for adsorbing and purifying dust, Adsorption-removing dust-containing dust cleaning filter 182 for removing dust contained in the ozone water passing through the demister filter 181, and dust contained in the ozone water passing through the containing dust-water cleaning filter 182; And it is characterized in that it further comprises an activated carbon filter 183 for removing or reducing ozone.

In addition, ozone water radiator 184 for cooling the ozone water purified by the ozone water purification unit 180; and an exhaust radiator 191 for cooling the purified air discharged from the exhaust blower 190; It is characterized in that the configuration.

In addition, the external water source 122 is connected to the reservoir 120, and supplements the operating water shortage during operation; and connected to the suction port 112 to mix the outside air to control the operating temperature A mixing valve 111; and an exhaust distribution valve 192 connected to the exhaust radiator 191 to discharge the purified air to the outside by adjusting an amount thereof; Characterized in that further comprises.

In addition, the ozone water curtain 151 is installed in front of the first metal filter, the ozone water is sprayed in the form of a curtain through the ozone water supply pipe 150 connected to the ozone water generator 130; and the activated carbon filter unit And an intermediate filter 170 installed between the 160 and the exhaust port 113.

According to the present invention, it is possible to produce ozone water by decomposing the working water to produce ozone water, and at the same time, it is possible to purify and collect dust while the ozone water flows down through the metal filter. There is an advantage that the purification efficiency is extremely excellent and the residual moisture does not reach the activated carbon filter, so there is no fear of bacterial propagation or mold development.

Figure 1: Schematic diagram of the overall configuration of a ductless dust collector using ozone water according to an embodiment of the present invention.
2 is an overall block diagram of a ductless dust collector using ozone water according to an embodiment of the present invention.
3 is a perspective view of an essential part of a ductless dust collector using ozone water according to an embodiment of the present invention.
4: Schematic diagram of the operation of the ozone water generator of the ductless dust collector using ozone water according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a ductless dust collector using ozone water according to an embodiment of the present invention. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

Ductless dust collector using the ozone water of the present invention is large, as shown in Figure 1, the main body 110, the reservoir 120, the ozone water generator 130, the metal filter unit 140, the activated carbon filter unit 160, It is characterized by including the ozone water purification unit 180 and the exhaust blower 190.

First, the main body 110 will be described. As shown in FIG. 1, the main body 110 includes an inlet 112 through which dust-containing air discharged from the dust-containing air generating device 10 is introduced, and on one side thereof, dust is purified air. The exhaust port 113 is connected to the exhaust blower 190 for supplying the dust-containing air generating device 10 again.

Reservoir 120, as shown in Figure 1, has a function to store the number of operations required for operation. On the other hand, the reservoir 120, the operating water purified through the ozone water purification unit 180 is supplied and stored again. On the other hand, it is preferable that the external water source 122 is further connected to the reservoir 120 as shown in FIG. 1 so as to replenish the operating water shortened during operation.

Next, the ozone water generator 130 will be described. As shown in FIG. 1, the ozone water generator 130 is connected to the reservoir 120 to decompose the operating water to form ozone water. As shown in FIG. 4, the ozone water generator 130 further includes a positive electrode plate 131 disposed in contact with the operating water, and a cation exchange membrane 132 disposed between the positive electrode plate 131 and the negative electrode plate 133. It is preferable to be configured. In this case, in the working water in contact with the positive electrode plate 131, water molecules are electrolyzed as shown in the following Chemical Formulas 1 and 4, ozone is generated and dissolved in the working water to generate ozone water.

In this case, since the ozone water is generated by the electrolysis reaction, compared to the existing gas-dissolved ozone water in which ozone is dissolved in the form of bubbles, the ozone water can be dissolved uniformly while greatly increasing its dissolved concentration, thereby purifying more efficiently. Action is possible.

Next, the metal filter unit 140 will be described. As shown in FIG. 1, the metal filter unit 140 is installed at the suction port 112 inside the main body 110. As shown in FIG. 1, the metal filter unit 140 includes a first metal filter 141. The first metal filter 141 includes the first metal filter 141, as shown in FIGS. 1 and 3. As the ozone water supplied from the ozone water generator 130 flows down, dust in the air including dust passing through the metal filter unit 140 is collected in the ozone water and reacts with the ozone water to deodorize and decompose organic matter. Purified as the action occurs. In addition, the temperature of the air, including the dust, is also lowered. In this case, an embodiment in which the ozone water is supplied to the first metal filter 141 is possible in a wide variety of embodiments, and as an embodiment thereof, the first metal filter 141 is illustrated in FIG. 3. It is preferable to install the ozone water supply pipe 150 on the upper side.

Meanwhile, as shown in FIG. 1, the metal filter unit 140 further includes one or more second metal filters 142 and is mixed with air passing through the first metal filter 141. It is preferable to further collect and flow dust while filtering out the moisture to remove water in the air entering the activated carbon filter unit 160. In this case, a wide variety of embodiments are possible for the embodiments constituting the first metal filter 141 and the second metal filter 142, and the first metal filter 141 and the first embodiment may be used. The second metal filter 142 may be configured by stacking a metal mesh material.

In addition, as shown in Figures 1 and 3, the ozone water is installed in front of the first metal filter, the ozone water is formed by spraying the ozone water in the form of a curtain through the ozone water supply pipe 150 connected to the ozone water generator 130 It is preferable to further include a curtain 151, so that it is possible to wash away the large dust and the like in advance to enable more efficient dust removal.

Next, the activated carbon filter unit 160 will be described. As shown in FIG. 1, the activated carbon filter unit 160 is installed at the exhaust port 113 in the main body 110 and includes one or more activated carbon filters. The activated carbon filter unit 160 has a function of adsorbing deodorizing and containing dust and at the same time, has a function of decomposing ozone contained in air as shown in the following Chemical Formula 2.

On the other hand, the lower portion of the main body 110, the lower side of the metal filter unit 140 as shown in Figure 1 collecting water outlet for collecting and discharge the ozone water containing the dust flowed down from the metal filter unit 140 ( 114) is installed. In addition, as illustrated in FIG. 1, an ozone water purification unit 180 is installed to purify the ozone water containing the dust discharged from the water collecting outlet 114 and return it to the reservoir 120. In this case, the ozone water purification unit 180, as shown in Fig. 1, the demister filter 181 for adsorbing and purifying the dust, and the dust contained in the ozone water passed through the demister filter 181 And further comprising an activated carbon filter 183 for adsorption to remove dust contained in the ozone water that has passed through the containing dust water cleaning filter 182 and to remove or reduce ozone. It is preferable to be.

In addition, as illustrated in FIG. 1, an exhaust blower 190 is connected to the exhaust port 113 to supply the purified air back to the dust-containing air generating device 10.

On the other hand, the ductless dust collector 100 using the ozone water of the present invention is to cool the air and ozone water to an appropriate temperature during the operation process, as shown in Figure 1 to clean the ozone water purified by the ozone water purification unit 180 as shown in FIG. The ozone water radiator 184 for cooling and the exhaust radiator 191 for cooling the purified air discharged from the exhaust blower 190 are preferably further included.

On the other hand, the ductless dust collector 100 using the ozone water of the present invention is connected to the air inlet 112 as shown in Figure 1 so that it is possible to supply additional air from the outside as needed, the outside air It is also possible to further include an external air mixing valve 111 to adjust the operating temperature by mixing. In addition, as shown in Figure 1, it may be configured to further include an exhaust distribution valve 192 connected to the exhaust radiator 191 for controlling the amount of the purified air discharged to the outside.

In addition, between the activated carbon filter unit 160 and the exhaust port 113, as illustrated in FIG. 1, an intermediate filter 170 is further installed as necessary, so that activated carbon dust having passed through the activated carbon filter unit 160 is provided. It is desirable to further filter out the back.

In the foregoing description, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: dust-containing air generator
100: ductless dust collector using ozone water
110:
111: outside air mixing valve
112: inlet 113: exhaust
114: sump outlet
120: reservoir 121: pump
122: external water source
130: ozone water generator
131: positive electrode plate 132: cation exchange membrane
133: negative electrode plate
140: metal filter unit
141: first metal filter 142: second metal filter
150: ozone water supply pipe
160: activated carbon filter unit
161: first activated carbon filter 162: second activated carbon filter
170: medium concentration filter
180: ozone water purification unit
181: demister filter 182: containing dust water cleaning filter
183: activated carbon filter 184: ozone water radiator
185: circulation pump
190: exhaust fan 191: exhaust radiator
192: exhaust distribution valve 193: duct

Claims (5)

In the ductless dust collector which removes dust generated in the dust-containing air generating device 10 in which dust-containing air is generated and supplies it back to the dust-containing air generating device 10,
An inlet 112 through which dust-containing air discharged from the dust-containing air generating device 10 is introduced is formed at one side, and on the other side, the dust-purified air is supplied back to the dust-containing air generating device 10. A main body 110 having an exhaust port 113 connected to the exhaust blower 190;
Reservoir 120 for storing the operating water required for operation;
An ozone water generator (130) connected to the water reservoir (120) to electrolyze the operating water into ozone water;
The metal filter unit 140 is installed inside the main body 110 at the suction port 112 and includes a first metal filter 141 through which the ozone water supplied from the ozone water generator 130 flows down. );
An activated carbon filter unit 160 installed inside the main body 110 at the exhaust port 113 and including one or more activated carbon filters;
A water collecting outlet 114 installed below the metal filter unit 140 below the main body 110 to collect and discharge the ozone water containing dust;
An ozone water purification unit 180 for purifying the ozone water containing dust discharged from the water collecting outlet 114 and returning the purified ozone water to the water storage tank 120; Ductless dust collector (100) using ozone water, characterized in that comprises a.
The method according to claim 1,
The ozone water generator 130,
It further comprises a positive electrode plate 131 is provided in contact with the operating water, and a cation exchange membrane 132 is provided between the positive electrode plate 131 and the negative electrode plate 133,
The metal filter unit 140 further includes one or more second metal filters 142,
The ozone water purification unit 180,
A demister filter 181 for adsorbing and purifying dust, an embedded dust water cleaning filter 182 for removing dust contained in the ozone water that has passed through the demister filter 181, and the containing dust water cleaning filter ( Ductless dust collector (100) using ozone water, characterized in that it further comprises an activated carbon filter (183) for adsorption and removal of the dust contained in the ozone water passed through 182 and to remove or reduce ozone.
The method according to claim 2,
An ozone water radiator (184) for cooling the ozone water purified by the ozone water purification unit (180);
An exhaust radiator 191 for cooling the purified air discharged from the exhaust blower 190; Ductless dust collector (100) using ozone water, characterized in that further comprises a. The method according to claim 3,
An external water supply 122 connected to the reservoir 120 to replenish the operating water shortened during operation;
An external air mixing valve 111 connected to the inlet 112 to adjust the operating temperature by mixing external air;
An exhaust distribution valve 192 connected to the exhaust radiator 191 for controlling the amount of purified air to be discharged to the outside; Ductless dust collector (100) using ozone water, characterized in that further comprises a.
The method of claim 4,
An ozone water curtain (151) installed in front of the first metal filter and formed by spraying the ozone water into a curtain shape through an ozone water supply pipe (150) connected to the ozone water generator (130);
An intermediate filter 170 installed between the activated carbon filter unit 160 and the exhaust port 113; Ductless dust collector (100) using ozone water, characterized in that further comprises a.

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