KR20120108283A - Apparatus reducing foul smell of painting system for vehicles - Google Patents

Abstract

PURPOSE: A bad odor reducing apparatus of a vehicle painting system is provided to reduce the discharging amount of volatile organic compounds(VOCs) to atmosphere by partially decomposing VOCs in paint mist. CONSTITUTION: A bad odor reducing apparatus of a vehicle painting system is composed of a first oxidation water generating unit(10), a second oxidation water generating unit(20), and a transferring pump(26). The first oxidation water generating unit partially decomposes VOCs in excessively sprayed paint mist at a painting booth; water soluble oxidation water is generated. The second oxidation water generating unit generates oxidation water which sterilizes circulating water in a circulating water bath containing the water soluble VOCs and sterilizes anaerobic microorganisms in the precipitated paint. The transferring pump supplies the oxidation water to the painting booth and the circulating water bath. [Reference numerals] (10) OH oxidation water generating unit; (20) HClO oxidation water generating unit; (AA) Non-aqueous VOCs; (BB) Painting booth; (CC) Paint mist; (DD) Circulating water bath

Description

Apparatus reducing foul smell of painting system for vehicles}

The present invention relates to a odor reduction device for an automotive coating system, and more particularly, to a odor reduction device for an automotive coating system for reducing odor generated by vehicle body painting work.

In general, the conventional main paint booth (US6024796, US6093250) is the same as FIG. 1, and consists of a paint booth and a circulation water tank. This main paint booth can effectively control over sprayed paint mist. It has the advantage of absorbing some water-soluble VOCs and is applied to most main paint booths.

Particles that have not arrived on the vehicle body 2 of the sprayed paint mist are moved downwardly through the grill 3 by air supplied by the clean air supply device 1 above the paint booth, and the circulation water pump 8, In contact with the water curtain (6) formed by the circulation water reservoir (4), the water flow plate (5), the paint mist and water-soluble VOCs are removed in the process.

The treated air (including non-aqueous VOCs) is discharged to the atmosphere through the air outlet 7.

The paint mist collected in the circulating water is transferred to the circulating water tank, and is floated by the dedusting chemicals and flocculation chemicals introduced from the circulating water tank, and removed by the flotation separator or the manual work. In this process, uninjured paint mist is deposited in the bottom of the circulation tank. Water-soluble VOCs continue to circulate with the circulating water and increase in concentration over time.

The coating booth and the purified water tank managed by the above method have various problems as follows, especially when water-soluble paint is applied to reduce the emission of VOCs.

1. When the concentration of organic matter in the circulating water increases, the microorganism grows rapidly, which causes the DO concentration to decrease rapidly and change to anaerobic conditions. At this time, anaerobic microorganisms multiply and odorous substances such as H ₂ S are generated.

2. The inside of the paint mist which is settled at the bottom of the circulation tank or attached to the circulation / exhaust pipe becomes anaerobic and rots.

3. If odor emissions increase, internal and external complaints increase, replacing the circulating water (1 ~ 2 times / year). At this time, a high concentration of wastewater containing a large amount of hardly decomposable substances and organic substances is generated.

Recently, as the city expands, residential areas are being built around factories located in the outskirts, and as a result, odor complaints are continuously increasing, so it is urgent to prepare countermeasures.

On the other hand, in the conventional simple coating booth (Korea Patent Publication No. 2003-37188), the over-sprayed paint mist and the method of removing the VOCs are the same as FIG.

In other words, the conventional simple coating booth is used in automotive A / S centers and small and medium-sized paintings, and most of them are used as dry booths that do not use circulating water. Therefore, the paint mist is removed using the filtration filter 52, the VOCs are removed using the adsorption filter 53. The VOCs adsorbed on the adsorption filter 53 are desorbed by the heater 54, and the desorbed VOCs are burned by the burner 61 and the catalytic combustion device 63.

Such a dry coating booth has an unsuitable disadvantage to be applied to a coating line requiring a large amount of clean air inlet and exhaust such as an automobile production plant.

The present invention has been invented to solve the above problems, by forming an oxidation water generator for generating oxidized water in order to reduce the odor generated in the coating booth and the circulation tank, sterilize microorganisms to prevent the occurrence of odor and paint mist It is an object of the present invention to provide an odor reduction device for an automobile coating system that reduces complex odors by partially decomposing VOCs contained in the gas to reduce air emissions of VOCs.

In order to achieve the above object, the present invention, the first oxidation water generator for generating an oxidation water capable of water-soluble by partially decomposing the VOCs contained in the paint mist over sprayed in the coating booth; A second oxidation water generator for generating an oxidation water capable of sterilizing the anaerobic microorganisms in the circulating water of the circulating water tank containing the water-soluble VOCs and precipitated paint sludge; Each transfer pump for supplying the oxidized water to the paint booth and the circulation water tank;

Preferably, the first oxidation number generator is H ₂ O ₂ H ₂ O ₂ storage tanks and metering pumps, the supply H ₂ O ₂ for the supply of H ₂ O ₂ And an OH generator for generating OH oxidized water by ultrasonic or UV treatment of industrial water, and an OH oxidized water storage tank for storing the generated OH oxidized water.

Also preferably, the second oxidation water generator is a NaCl water storage tank and NaCl water metering pump for supplying NaCl water, HClO generator for generating HClO oxidation water by electrolyzing the supplied NaCl water and industrial water, the generated HClO Characterized in that consisting of HClO oxidation water storage tank for storing the oxidation water.

In addition, the first oxidized water generator is characterized in that the sprayed OH oxidized water to the air mixed with the paint mist and VOCs over-sprayed through a spray nozzle installed in the lower portion of the grill of the paint booth.

The present invention can effectively reduce the odor by preventing and reducing the occurrence of odor generated in the coating booth and the circulation tank during the vehicle body painting work by installing the oxidation water generator in the coating booth and the circulation tank.

Accordingly, it is possible to reduce the water consumption and wastewater generation by extending the use period of the circulating water, and to reduce the water consumption and wastewater treatment costs, and also to prevent the occurrence of corruption and reduce the air emissions of VOCs. There is an advantage to prevent.

1 is an exemplary view showing a odor reduction device of a coating system for a vehicle according to the prior art
Figure 2 is a schematic diagram showing a process for removing VOCs when painting the coating by the odor reduction device of another automotive coating system according to the prior art
Figure 3 is a schematic diagram showing the configuration and process for coating and heat treatment of the coating material by the odor reduction device of another automotive coating system according to the prior art
Figure 4 is a schematic diagram showing the odor reduction device of the automotive coating system according to an embodiment of the present invention
Figure 5 is a schematic diagram showing a first oxidation water generator of the odor reduction device according to an embodiment of the present invention
Figure 6 is a schematic diagram showing a second oxidation water generator of the odor reduction device according to an embodiment of the present invention
7 is a view showing the microbial sterilization and VOCs decomposition process by the oxidizing agent (HClO, OH)
8a to 8c is a view showing the results of the experiment evaluation according to the present invention

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

The present invention relates to a device for reducing the odor generated when painting the vehicle body in the coating system applied to the vehicle body painting line, as shown in Figure 4, and the VOCs contained in the over-sprayed paint mist during the body coating in the coating booth A first oxidation water generator 10 for generating an oxidizable water which can be reacted with water, and a second oxidizing water for sterilizing anaerobic microorganisms in the circulating water of the circulating water tank containing water soluble VOCs and precipitated paint sludge. Oxidation water generator 20 and each of the transfer pumps (16, 26) for supplying the oxidation water to the coating booth and the circulation water tank.

In the present invention, the oxidation water generators 10 and 20 respectively installed in the paint booth and the circulation water tank may be configured to generate any oxidation water selected from various types of oxidation water groups to partially decompose VOCs or sterilize microorganisms, and will be described below. In the first oxidation water generator 10 is typically? OH oxidation water, the second oxidation water generator 20 is to provide to provide HClO oxidation water, but the present invention is not limited thereto.

5, the first oxidation number generator 10 is H ₂ O ₂ storage tank 12 and the H ₂ O ₂ rate pump 13, the supply H ₂ for the supply of H ₂ O ₂ Ultrasonic or UV treatment of O ₂ and industrial water, the OH generator 14 for generating OH oxidation water, and the OH oxidation water storage tank 15 for storing the generated OH oxidation water.

Here, the H ₂ O ₂ rate pump 13 is H ₂ O ₂ storage tank (12) H ₂ O ₂ the industrial water by pumping amount, and supplied to the inlet pipe (11), the industrial water inlet pipe is stored in ( 11) introduced H ₂ O ₂ And industrial water flow into the? OH generator (14).

In addition, the? OH oxidation water (oxidation water of the? OH oxidation water storage tank) generated by the first oxidation water generator 10 may be over-sprayed through the spray nozzle 17 installed under the grill 3 of the paint booth. VOCs are sprayed into the mixed air to partially decompose and solubilize the VOCs.

As shown in FIG. 6, the second oxidation water generator 20 electrolyzes NaCl water storage tank 22 and NaCl water metering pump 23 for supplying NaCl water, and supplied NaCl water and industrial water. HClO generator 24 for generating HClO oxidation water, HClO oxidation water storage tank 25 for storing the generated HClO oxidation water.

Here, the NaCl water metering pump 23 pumps the NaCl water stored in the NaCl water storage tank 22 to the industrial water inlet pipe 21 and supplies NaCl into the industrial water inlet pipe 21. Water and industrial water flow into the HClO generator 24.

Hereinafter, an embodiment according to the present invention will be described in detail.

Odor reduction apparatus of the coating system according to the present invention is provided with an oxidation water generator (10, 20) is further configured in the coating booth and the lower circulation tank.

The painting booth is the painting work of the vehicle body 2 in the upper portion and the circulation water tank is configured in the lower, the first oxidation water generator 10 is connected to the grill 3 of the paint booth, the second oxidation water is installed In the case of the generator 20 is installed directly connected to the circulation tank.

The paint booth is supplied with an? OH oxidation water generator (10, or a first oxidation water generator) to supply? OH oxide water generated under the grill (3), and the HClO oxidation water generator (20) to the circulation water tank. By supplying the HClO oxidized water generated by additionally installing the second oxidized water generator), the composite odor generated by the coating of the workpiece is reduced.

In other words, the HClO oxidation water generator 20 connected to the circulating water tank generates HClO oxidation water and discharges the generated HClO oxidation water through the supply pipe 28, and generates the oxidation water generated using the transfer pump 26. It is injected into the circulation tank to sterilize anaerobic microorganisms that proliferate in the circulation water and sedimented paint sludge to prevent decay.

In addition, the? OH oxidation water generator 10 connected to the coating booth generates? OH oxidation water and discharges the? OH oxidation water through the supply pipe 18, the transfer pump 16 and the injection nozzle 17 Spray the OH-oxidized water continuously on the lower part of the paint booth (3) to partially decompose the VOCs (aqueous and non-aqueous) contained in the paint mist. By collecting them, air emissions from VOCs are reduced.

That is, the particles that have not arrived on the vehicle body 2 of the paint mist sprayed from the paint booth are moved downward through the grill 3 by air supplied by the clean air supply device 1 above the paint booth. Through the injection nozzle 17 in the lower part of the grill 3,? OH oxidation water is injected into the air in which the paint mist and the water-soluble VOCs are mixed to partially decompose the VOCs to make them water-soluble.

As described above, the HClO oxidation water generator 20 is industrial water inlet pipe 21, NaCl water storage tank 22, NaCl water metering pump 23, HClO generator 24, HClO oxidation water storage tank ( 25), the? OH oxidation water generator 10 is an industrial water inlet pipe (11), H ₂ O ₂ storage tank 12, H ₂ O ₂ metering pump (13),? OH generator (14) ),? OH oxidation water storage tank (15).

In the HClO oxidation water generator 20, the industrial water and NaCl water supplied by the industrial water inlet pipe 21, the NaCl water storage tank 22, and the NaCl water metering pump 23 are supplied from the HClO generator 24. HClO oxidized water is generated by decomposition, and the generated HClO oxidized water is stored in the HClO oxidized water storage tank 25.

Next, HClO oxidized water is injected into the circulating water of the circulating tank and the settled paint sludge by using the HClO oxidized water supply pipe 28 and the transfer pump 26 to sterilize anaerobic microorganisms, thereby preventing the occurrence of rot.

The? OH oxidation number generator 10 in the industrial water inflow pipe (11), H ₂ O ₂ storage tank 12 and the H ₂ O ₂ can be an industrial water supply by the metering pump 13 and the H ₂ O _2? In the OH generator 14,? OH oxidation water is generated using ultrasonic waves or UV, and the generated? OH oxidation water is stored in the? OH oxidation water storage tank 15.

Next, the? OH oxidation water is sprayed and injected into the space under the grill 3 by using the transfer pump 16 and the injection nozzle 17 connected to the? OH oxidation water generator 10.

OH oxidation water sprayed on the lower part of the grille (3) of the paint booth reacts with VOCs generated with the paint mist to partially decompose the VOCs, so that the VOCs partial decomposition products (materials generated by partial decomposition of VOCs) are circulated. The water is stored in the circulating water reservoir 4 through the water pump 8 and collected by the circulating water of the water curtain along the water flow plate 5 to reduce the air emissions of the VOCs.

Unreacted residual OH in the sprayed oxidized water is collected in the circulated water or discharged to the outside through the air outlet 7 together with the treated air (which is the air treated by the oxidized water and the circulated water).

At this time, the? OH (active radicals) discharged together with the treated air is in contact with the paint sludge deposited in the middle of the air outlet 7 and sterilizes the microorganisms present therein and serves to reduce the occurrence of decay.

In addition,? OH collected in the circulating water among the unreacted residual OH in the sprayed oxidized water moves together with the circulating water and plays the following role.

① Prevents odor by disinfecting paint sludge deposited in pipe / circulating water tank and anaerobic microorganisms present in circulating water. ② Organic matter (by-products generated during the decomposition of VOCs such as water-soluble VOCs and quinone / organic acid) Oxidation reduces hardly decomposable substances. ③ It improves the flotation effect by flocculation flotation by oxidizing the surface of paint mist collected in circulating water to reduce viscosity.

7 is a view showing the microbial sterilization and VOCs decomposition process by the oxidizing agent (HClO, OH).

Hereinafter, in order to examine the effects of the present invention in detail, a lab-scale test apparatus that simulates the coating system as described above was manufactured and evaluated.

For the same evaluation conditions, two sets of the same test apparatus were fabricated, the circulating water in the field was sampled and used as the circulating water of the test apparatus, and one test apparatus was used with complex oxidation water to reduce odor, and the other test apparatus. Distilled water was used. The injection volume of all other samples (paint, cleaning thinner, killing agent, flocculation flocculating agent, antifoaming agent) and the circulating water supply by the circulating water pump were the same and operated for 6 hours / day, 5 days / week for a total of 4 weeks. Evaluated.

As can be seen in Figures 8a to 8c, the odor intensity was relatively constant when the oxidation water was applied, the concentration of microorganisms continued to decrease, and no odor (H2S) occurred.

Here, it can be seen that the odor intensity decreased as compared with the case of distilled water applied for about two weeks, and the microbial concentration increased slightly compared to the case of applying distilled water maintained relatively constant. In addition, it was also confirmed that the occurrence of the rot-causing substances (H2S) was prevented.

In addition, after comparing the amount of paint sludge deposited at the bottom of the circulating water tank after 4 weeks, it was about 1/6 compared with the case of injection of oxidized water (1.03g), that is, the use of distilled water (5.92g). Little was confirmed.

In this way, by installing the oxidizing water generator in the main paint booth and the circulation water tank, it is possible to effectively reduce the odor generated during the body painting work, and accordingly, it is possible to reduce the water consumption and the amount of waste water generated by extending the circulating water usage period. It can reduce the water use costs and waste water treatment costs, and also has the advantage of preventing odor complaints by preventing the occurrence of corruption and reducing the air emissions of VOCs.

In addition, if the odor complaint continues, if the government receives corrective order or production stoppage, the factory can not be operated during the remedial action, which can prevent production loss.

1: Clean air supply device
2: body
3: grill
4: circulating water reservoir
5: water flow plate
7: air outlet
8: circulating water pump
10: first oxidation water generator (or? OH oxidation water generator)
11: industrial water inlet pipe
12: H ₂ O ₂ Storage tank
13: H ₂ O ₂ Metering pump
14:? OH generator
15:? OH oxidation water storage tank
16 transfer pump
17: injection nozzle
18:? OH oxidation water supply piping
20: second oxidation water generator (or HClO oxidation water generator)
21: industrial water inlet pipe
22: NaCl water storage tank
23: NaCl water metering pump
24: HClO generator
25: HClO Oxidized Water Storage Tank
26: transfer pump
28: HClO oxidation water supply pipe

Claims (4)

A first oxidation water generator generating partial oxidation of the VOCs contained in the paint mist over sprayed in the paint booth to generate an oxidized water that can be water-soluble;
A second oxidation water generator for generating an oxidation water capable of sterilizing the anaerobic microorganisms in the circulating water of the circulating water tank containing the water-soluble VOCs and precipitated paint sludge;
Respective transfer pumps for supplying the oxidized water to the paint booth and the circulation water tank;
Odor reduction device for a coating system for cars, characterized in that configured to include.
The method according to claim 1,
The first oxidation number generator is H ₂ O ₂ H ₂ O ₂ storage tanks and metering pumps, the supply H ₂ O ₂ for the supply of H ₂ O ₂ And OH generator for producing OH oxide water by ultrasonic or UV treatment of industrial water, and OH oxidation water storage tank for storing the generated OH oxide water.
The method according to claim 1,
The second oxidation water generator is a NaCl water storage tank and NaCl water metering pump for supplying NaCl water, HClO generator for generating HClO oxidation water by electrolyzing the supplied NaCl water and industrial water, to store the generated HClO oxidation water Odor reduction device of the automotive coating system, characterized in that consisting of HClO oxidation water storage tank for.
The method according to claim 1 or 2,
The first oxidizing water generator is to reduce the odor of the automotive paint system, characterized in that spraying the air sprayed paint mist and VOCs through the spray nozzle is installed under the grill of the paint booth .

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