KR101591005B1 - Air Cleaner for Rosined Air - Google Patents

Abstract

The present invention relates to a cleaning apparatus of room temperature resinous pollutant-containing air. The present invention relates to a cleaning apparatus (100) of room-temperature resinous pollutant-containing air, which comprises: a flow passage-shaped main body (110) having a suction port (111) formed on one side to receive room temperature resinous pollutant-containing air generated from a pollution source (10), and an outlet (112) formed on the other side to discharge cleaned air; a cooling and condensing means (120) mounted on the suction port (111) in the main body (110) and cooling and condensing the room temperature resinous pollutant-containing air; a filter (150) mounted in the main body (110) to filter out cooled and condensed rosin-containing pollutants included in the air which has passed through the cooling and condensing means (120); and an exhaust blowing means (160) mounted between the filter (150) and the outlet (112) in the main body (110). According to the present invention, room temperature resinous pollutant-containing air is allowed to firstly pass through the cooling and condensing means. Accordingly, the temperature of the room temperature resinous pollutant-containing air is lowered, thereby allowing the room temperature resinous pollutants included in the polluted air to be easily adsorbed or attached, and the room temperature resinous pollutants are filtered out through the filter. Therefore, the cleaning efficiency of room temperature resinous pollutant-containing air can be greatly enhanced.

Description

Air Cleaner for Rosined Air "

The air purifier includes a suction port (111) through which air containing contaminants of room temperature at room temperature generated from a contaminant source (10) is drawn, and a purified air And a discharge port (112) for discharging the air-borne pollutant-containing air at the inlet port (111) inside the main body (110) A filter 150 installed in the main body 110 to filter contaminants including a refrigerated condensed rosin component contained in the air passing through the cooling condensing means 120; An exhaust blowing means 160 installed between the filter 150 and the discharge port 112 in the main body 110; The air pollutant-containing air purifying device (100) comprising:

Rosin and its derivatives are mainly used as soaps, polishes, enamels, printing inks, desiccants, paper glue, adhesives, binders, soldering solvents, gloss oils for painting, waterproofing agents for water bottles, There are various existing inventions including "rosin-based molecular crystal, nucleating agent for polyolefin resin and polyolefin resin composition and molded article thereof" (Korean Patent Registration No. 10-0471940) of Patent Document 1 below.

On the other hand, rosin (hereinafter referred to as rosin and its derivatives, collectively referred to as "rosin") is used as a major component of flux for soldering work, It is vaporized into the air of space and scattered or pyrolyzed and scattered.

Pyrolysis of this rosin will release formaldehyde, acetone, methanol, carbon dioxide, carbon monoxide, methane, ethane, other aldehydes and carboxylic acids, which will have harmful effects on the eyes, nose and bronchus. I am crazy.

On the other hand, when heat is applied to materials such as meat in various processes or cooking processes including a soldering process, in addition to the rosin, 津 liquid contaminants including tar components are generated in a vaporized form There are many. In this case, tar is a term that refers to a black oily liquid at room temperature that occurs when organic materials such as wood, coal, and oil are dry distilled or distilled, and may exist in a gaseous state at a high temperature However, it exists in a liquid state having stickiness at ordinary room temperature.

Thus, rosin, tar, or other contaminants having a gaseous phase having adhesiveness at room temperature may be collectively referred to as " room-temperature liquid contaminants. &Quot;

However, in the case of conventional air purifying apparatuses containing contaminants of room-temperature contaminants, usually, filters that adsorb or filter liquid contaminants at room temperature, such as rosin, are mainly used. However, at room temperature Since the temperature of the liquid contaminant-containing air is relatively high, most of the contaminants in the room-temperature liquid contaminant are present in a gas phase rather than in a liquid phase, so that there is a problem in that adsorption or filtering using such existing filters is not easy.

Korean Patent No. 10-0471940

Disclosure of the Invention The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a method and an apparatus for separating contaminants, And an object of the present invention is to provide an air purifying apparatus including a room temperature liquid contaminant-containing air purification apparatus capable of extremely facilitating the adsorption or attachment of the air pollutant- .

In order to attain the above object, the air purifier of the present invention comprises a suction port (111) for introducing air containing contaminants at room temperature generated from a contaminant source (10) And a discharge port 112 for discharging the purified air is formed on the other side of the main body 110. The main body 110 is installed on the side of the suction port 111 inside the main body 110, Containing condensed rosin component contained in the air passing through the cooling condensing means (120) in the main body (110), and a cooling condensing means An exhaust blowing means 160 installed between the filter 150 and the exhaust port 112 in the main body 110; And a control unit.

The cooling and condensing means 120 may include any one of a cooling device and a thermoelectric device connected to the heat emitting portion 121.

The cooling and condensing means 120 is configured to cool and condense the cooling water supplied from the cooling water supply source 130 to the air containing the contaminant at room temperature and to cool and condense the cooling water. A cooling water filter 143 for filtering the cooling water collected in the water collecting part 140 and a cooling water filter 143 for filtering the cooling water filtered by the cooling water filter 143, A circulation pump 141 for cooling the cooling water passing through the heat exchanger 142 and circulating the cooled cooling water to the water supply source 130 and the cooling and condensing means 120 in the main body 110, An eliminator 170 installed between the filter 150 and collecting and removing droplets contained in the gas; And the water collecting unit 140 collects and collects the water collected from the eliminator 170 and falls.

In addition, the cooling and condensing means 120 is configured to inject the cooling water into a metal filter net having one or more layers of mesh.

Further, the filter 150 is an activated carbon filter.

According to the present invention, the air containing the liquefied contaminant at room temperature passes first through the cooling and shaking means to lower the temperature of the air containing contaminants at room temperature, so that the contaminants at room temperature in the contaminant air can easily be adsorbed or adhered So that the efficiency of purifying the air containing the contaminants at room temperature can be significantly increased.

Also, there is an additional advantage that it is possible to discharge the purified air discharged at an appropriate temperature and humidity level, thereby reducing the risk of generating a proper indoor environment and generating static electricity.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a configuration of an air purifying apparatus containing a contaminant at room temperature according to an embodiment of the present invention. Fig.
2 is a view showing a configuration of an air purifying apparatus containing a contaminant at room temperature according to a second embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an air purifying apparatus containing a pollutant at room temperature according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 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, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

1, the air purifier 100 according to the present invention includes a main body 110, a cooling condenser 120, a filter 150, and an exhaust blower 160 .

First, the main body 110 will be described. 1, the main body 110 is provided at its one side with a suction port 111 through which air containing liquid contaminants at room temperature drawn from the contamination source 10 is drawn, and at the other side thereof, And has a fluid passage shape capable of passing the fluid therethrough such as a cylindrical shape, a tubular shape, or a rectangular parallelepiped shape.

Next, the cooling / condensing means 120 will be described. As shown in FIG. 1, the cooling and condensing means 120 is provided on the side of the inlet 111 inside the main body 110, and has a function of cooling and condensing the air containing contaminants at room temperature. The contaminants of the contaminant component at room temperature, which were mainly present in a gas phase at a high temperature, are condensed with each other by cooling, and the relatively low particle size Are gathered together and aggregated in a large state, and the state thereof is changed to a sticky solid phase having easy sticking property.

In an embodiment of the present invention, the cooling and condensing unit 120 may include a heat dissipating unit (not shown) And a cooling unit or a thermoelectric device connected to the cooling unit 121. [ In this case, the cooling device typically compresses the refrigerant like the air conditioner, passes through the heat releasing part 121 to cool the refrigerant, and then passes through the diffusion part installed in the cooling / condensing device 120 to be cooled It is possible to do. On the other hand, when the thermoelectric element is used, the heat dissipation side of the thermoelectric element is installed in the heat dissipation part 121, and the heat absorption side is located in the cooling condensation means 120. In addition to this configuration, the cooling and condensing means 120 can have various configurations that can perform the function of cooling and condensing the air containing the contaminant at room temperature, which is drawn into the cooling and condensing means 120.

2, the cooling and condensing means 120 is configured to cool the cooling water supplied from the cooling water supply source 130 to the room temperature liquid phase contamination (140) for collecting the cooling water flowing down from the cooling / condensing means (120), and a water collecting part (140) for collecting cooling water flowing down from the cooling / condensing means (120) A cooling water filter 143 that filters the cooling water collected in the cooling water filter 143 and a circulation pump 143 that circulates the cooling water that has passed through the cooling water filter 143 through the heat exchanger 142, And an eliminator 170 installed between the cooling condensing means 120 and the filter 150 inside the main body 110 for collecting and removing liquid droplets contained in the gas, , And the collecting part (140) It is also possible to collect the water collected from the separator 170 and collect the falling water.

In this case, particles having a relatively large size among the agglomerated particles of the room-temperature liquid contaminant component are physically washed together with the water of the cooling water although they have a hydrophobic property that does not dissolve in the cooling water. It is possible to improve.

In addition, the temperature of the air is lowered to almost the room temperature while the relative humidity is increased to about 60% while passing through the cooling and condensing means 120 (at the initial stage in the brazing process, etc.) Containing air is in a dry state with a relatively low relative humidity due to its high temperature (about 50 ° C to 60 ° C) characteristics and has a problem of creating an environment detrimental to the process, such as generation of sparks due to static electricity. It is also possible to effectively prevent the above-mentioned problems.

In this case, the cooling and condensing means 120 can be implemented in various embodiments. In an embodiment of the present invention, the cooling and condensing means 120 may include one or more mesh- And the cooling water is sprayed to the cooling water passage. In another embodiment of the cooling / condensing means 120, the cooling / condensing means 120 may be configured such that the cooling / condensing means 120 is connected to a pipe through which the cooling water or other refrigerant (liquid / gas) it is also possible that the pipes are arranged in a network.

2, air purifying apparatus 100 containing room-temperature-contaminant-containing contaminants according to the second embodiment of the present invention may be provided at a lower portion of main body 110 so as to circulate and purify the cooling water for re- A cooling water filter 143 for filtering the cooling water collected in the water collecting part 140 and a cooling water filter 143 for filtering the cooling water filtered by the cooling water filter 143, And a circulation pump 141 for cooling the passing cooling water through the heat exchanger 142 and circulating the cooling water to the water supply source 130.

Next, the filter 150 will be described. 1, the filter 150 is installed inside the main body 110 to filter pollutants including the cooled condensed rosin component contained in the air that has passed through the cooling and condensing means 120. In this case, the filter 150 can be implemented through various embodiments. In one embodiment, the filter 150 is preferably an activated carbon filter.

Next, the exhaust air blowing means 160 will be described. 1, the exhaust air blowing means 160 is installed between the filter 150 and the discharge port 112 in the main body 110 to discharge the purified air, Of the exhaust gas purifying apparatus according to the present invention.

2, the cooling air condensing means 120 in the main body 110 and the cooling air condensing means 120 in the main body 110 are installed in the air purifying apparatus 100 at room temperature according to the second embodiment of the present invention, (110) disposed between the collector (150) and the collector (170) for collecting and removing droplets contained in the gas, and the collector (140) is collected from the collector It is preferable that water is collected and collected so that the air flowing into the filter 150 does not include a droplet so that the purification efficiency of the filter 150 can be enhanced and maintenance can be facilitated. In particular, when the filter 150 is an activated carbon filter, the eliminator 170 can effectively prevent micropore clogging of the activated carbon filter, which may be caused by a droplet. Meanwhile, the above-described eliminator 170 can have an extremely wide variety of structures, and the technique for constructing the eliminator 170 for removing droplets is a well-known technique in the art to which the present invention pertains A detailed description thereof will be omitted.

According to the present invention as described above and according to the present invention, the air containing liquefied pollutants at room temperature can be passed through the cooling condensate filter using cooling water to lower the temperature of the air containing liquefied pollutants at room temperature, It is possible to increase the purification efficiency of the air containing the contaminants at room temperature by filtering through the filter so as to be easily adhered.

Also, there is an additional advantage that it is possible to discharge the purified air discharged at an appropriate temperature and humidity level, thereby reducing the risk of generating a proper indoor environment and generating static electricity.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: Source of contaminated air
100: air purifier containing liquid contaminants at room temperature
110:
120: cooling and condensing means 121:
130: Cooling water supply source
140: Housekeeper
141: circulation pump
142: Heat exchanger
143: Cooling water filter
150: filter
160: Exhaust blowing means
170: Eliminator

Claims (5)

And a suction port 111 is formed at one side thereof for introducing air containing pollutants at room temperature generated from the pollutant source 10 and a discharge port 112 for discharging the purified air is formed at the other side thereof. (110);
A cooling condensing means (120) installed on the side of the suction port (111) in the main body (110) for cooling and condensing the air containing the contaminant at room temperature;
A filter 150 installed inside the main body 110 to filter contaminants including a refrigerated condensed rosin component contained in the air passing through the cooling and condensing means 120;
An exhaust blowing means 160 installed between the filter 150 and the exhaust port 112 in the main body 110; And a control unit,
The cooling and condensing means (120)
The cooling water supplied from the cooling water supply source 130 is sprayed to the air containing the contaminant at room temperature and cooled and condensed,
A collecting part (140) installed at a lower part of the main body (110) and collecting the cooling water flowing down from the cooling and condensing part (120);
A cooling water filter 143 for filtering the cooling water collected in the water collection part 140;
A circulation pump 141 for cooling the cooling water having passed through the cooling water filter 143 through a heat exchanger 142 and circulating the cooling water to the cooling water supply source 130;
An eliminator 170 installed between the cooling condensing means 120 and the filter 150 inside the body 110 to collect and remove droplets contained in the gas; Further comprising:
Wherein the water collecting part (140) collects and collects the falling water collected from the eliminator (170) together.
The method according to claim 1,
The cooling and condensing means (120)
And a cooling device or a thermoelectric device connected to the heat releasing part (121).
delete The method according to claim 1,
Wherein the cooling and condensing means (120) is configured to inject the cooling water into a mesh network of one or more mesh-shaped metal filter nets. The method according to any one of claims 1, 2, and 4,
The air purifying apparatus (100) according to claim 1, wherein the filter (150) is an activated carbon filter.

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