KR100854749B1 - Dust collector of uv paint and the method of a dust collecting using the same - Google Patents

Abstract

A UV paint dust collecting apparatus and a dust collecting method using the same are provided to increase the dust collecting efficiency, fundamentally prevent factors of environmental pollution accordingly, and adsorb and remove harmful substances such as volatile organic compounds contained in UV paint dust more effectively. A UV paint dust collecting apparatus comprises: a duct for supplying UV paint dust, a blower for forcibly flowing in the UV paint dust through the duct, and an activated carbon adsorption tower that is an adsorption unit of the UV paint dust; and an electrostatic precipitator(4) linked between the blower and the activated carbon adsorption tower to collect and remove the UV paint dust in the primary form. The electrostatic precipitator comprises: installation units(41) on which a pre-treatment filter(411), an ionizer(412), a collecting electrode(413), and a post-treatment filter(414) are mounted in a sequential configuration structure; and a dust collecting body(42) in which the installation units are installed, and which has a collected material outlet formed in a bottom part thereof.

Description

Dust collector of UV paint and the method of a dust collecting using the same

The present invention relates to a dust collector used in a UV coating facility, and more particularly, to further configure an electrostatic precipitator in a conventional dust collector, to perform a step-sorption treatment process several times as a more stable form The present invention relates to a UV coating dust gas dust collecting apparatus and a dust collecting method using the apparatus.

In general, UV paint refers to a paint that is hardened by ultraviolet light (Ultra Violet), which is commonly applied to the coating work of wood, plastic, paper, PVC, etc., which is easily thermally deformed. In addition, in using the same, the space occupied by the painting equipment is small, and drying heat is unnecessary during curing, which saves energy and is also solvent-free and environmentally friendly. It can be seen that it has a characteristic.

However, even if the UV paint has environmentally friendly characteristics, the paint dust gas generated during the painting work of the product seriously pollutes the atmospheric environment, and also acts as a very harmful factor to the physical health of workers. Therefore, the conventional UV coating facility is equipped with the equipment of the paint dust collector as an essential component.

Thus, looking at the configuration of the conventional UV coating dust collector generally used;

As shown in FIG. 1, the duct 10 is supplied with UV paint dust gas from a UV coating facility;

A blower 20 for forcibly introducing UV paint dust gas through the duct;

A centrifugal force precipitator 30 which imparts centrifugal force to the UV paint dust gas forced into the blower 20 to remove particulate matter;

It can be seen that it is composed of an activated carbon adsorber 40 for adsorbing the fine UV paint dust gas from which the particulate matter is removed to be released into the atmosphere.

However, the above-described UV paint dust gas is in the process of moving through the duct due to its material properties, it is changed to a mucus state by mutual aggregation;

Therefore, the UV paint dust gas changed into a mucus material, in the conventional UV paint dust collector, was to give a problem to increase the pressure loss by sticking to the activated carbon adsorber, as well as the UV paint dust gas of the mucous By blocking the pores of the activated carbon to make the adsorption action impossible, there is a considerable use structure problem such as having to operate the dust collector after removing the activated carbon adsorber in a series of dust collection processes.

On the other hand, another conventional UV coating dust collector as described above is configured to replace the activated carbon adsorber with a cleaning dust collector as needed, often used selectively, but such a cleaning dust collector is capable of dissolving (溶解) Only suitable for dust gas treatment, etc., UV paint dust gas that does not dissolve in the washing water is not able to perform any adsorption or purifying action, thereby allowing the UV paint dust gas generated in the UV coating facility to be released into the atmosphere as it is. Serious problems of treatment efficiency, such as polluting a valuable environment.

Therefore, the present invention was devised to solve the general problems of the conventional UV paint dust collector and the dust collection method made by the dust collector;

An object of the present invention is to collect the UV paint dust gas flowing through the duct into the mucus material by using an electrostatic precipitator, so that it is filtered in a stable form by gravity sedimentation, the UV paint dust gas thus treated In addition, by re-filtering in a stepwise and repetitive form through a post-treatment filter and an activated carbon adsorber, the dust collection efficiency is increased, and also the source of environmental pollution can be prevented at the source by the dust collection efficiency. The present invention provides a dust coating device and a dust collecting method using the same.

On the other hand, another object of the present invention is to provide a series of complex adsorption treatment processes, such as primary filtering by a pretreatment filter, liquefaction collection of dust gas through an ionizer, and secondary filtering by a post-treatment filter. The dust collector is made in an efficient form through the construction of a dust collector, and UV paint dust collection is made to effectively adsorb harmful substances such as volatile organic compounds (VOCs) contained in the UV paint dust gas. An apparatus and a dust collecting method using the apparatus are provided.

Thus, the specific means of the present invention for achieving the above object;

A duct to which the UV paint dust gas is supplied, a blower for forcibly introducing the UV paint dust gas through the duct, and an activated carbon adsorption tower serving as a UV paint dust gas adsorption means;

Between the blower and the activated carbon adsorption tower configuration, it is achieved by allowing the electrostatic precipitator to be installed in conjunction more.

In addition, by using the UV paint dust collector configured as described above, by performing the dust gas supply process, the primary filtering process, the ionization process, the particulate matter collection process, the secondary filtering process, the third filtering process , Is achieved.

Thus, the UV coating dust gas dust collector and the dust collecting method using the apparatus according to the present invention by using the electrostatic precipitator to collect the UV paint dust gas flowing through the duct to a mucus material, which is stable form by gravity sedimentation The dust-treated UV paint dust gas is filtered again through a post-treatment filter and an activated carbon adsorber in a stepwise and repetitive manner, thereby increasing the dust collection efficiency. The effect of synergistic effect also prevents the source of environmental pollution at the source, which provides a very useful expected effect.

Hereinafter, a preferred embodiment of the UV paint dust gas dust collecting apparatus and the dust collecting method using the apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a schematic external configuration of the UV coating dust gas dust collector according to the present invention, Figure 3 is an enlarged configuration diagram of the electrostatic precipitator applied to the present invention, Figure 4 is an installation of the electrostatic precipitator applied to the present invention Looking at the set of configurations as state diagrams;

This is constituted by forming the duct 1, the blower 2, and the activated carbon adsorption tower 3 in such a way that the electrostatic precipitator 4 is further connected thereto.

Here, first, the duct 1 is a configuration of a general form applied to a conventional UV paint dust gas dust collector, such a duct 1 has a predetermined length, as shown in FIG. It is formed in a kind of pipe configuration that is bent according to the installation position.

In addition, the blower (2) is driven by the external power (휀 not shown) installed in the inside, a kind of forced suction to let the UV paint dust gas generated from the UV coating facility through the aforementioned duct (1) As a means, such a blower 2 is of the same configuration without being different from that of a conventional blower, and has a configuration connected to one end of the duct 1 as shown in FIG.

In addition, the activated carbon adsorption tower (3) is a conventional configuration made to filter various harmful substances by a conventional adsorbent made of carbonaceous material, that is, activated carbon, such activated carbon adsorption tower (3) is a large amount of activated carbon (not shown) It is formed as a kind of filter box structure filled in this saturated state.

On the other hand, the electrostatic precipitator (4) is the essential configuration of the present invention, such an electrostatic precipitator (4) as shown in Figure 3 or 4, based on the installation unit 41 taking a rectangular body 3, the pretreatment filter 411, the ionizer 412, the dust collecting pole 413, and the post-treatment filter 414 are sequentially arranged in the installation unit 41, as shown in FIG. And another form of the external structure, in which the installation unit 41 thus formed is selectively detached and attached by the fastening clamp C, and the opening and closing is interrupted by a valve at the center of the lower end portion. That is, it is preferable to form the dust collecting body 42 having a case structure having the trapping material discharge port 421.

At this time, in the electrostatic precipitator 4, the pre-processing filter 411 and the post-processing filter 414 mounted to the installation unit 41 are susmash mash filters formed by stacking a plurality of sus mash. (sus mash filter), and the ionizer 412 is configured to have the same function as that of a conventional device which neutralizes and dissipates positive and negative ions obtained by discharging a high voltage to a counterpart and neutralizes the charged static electricity. In addition, the dust collecting electrode 413 is a normal electrode which directly collects dust and the like, and is connected to a high voltage positive electrode and grounded to the casing of the installation unit.

Therefore, in the mutual coupling of the UV paint dust collector to the present invention having the configuration as described above, as shown in Figure 2;

Connect the blower (2) to one end of the duct (1) to which the UV paint dust gas is supplied, and using another auxiliary pipe (L) on one side of the blower (2), the electrostatic precipitator (4) and the activated carbon adsorption tower By connecting (3) in a sequential arrangement relationship, implements the UV paint dust collector according to the present invention.

On the other hand, the UV coating dust collector according to the present invention made of a combination as described above is to perform a new characteristic type dust collection method by the configuration, in the following, the series of dust collection method in detail based on the accompanying drawings Let's explain.

First, Figure 5 is a flow chart of the dust collection method using the UV paint dust collector according to the present invention, looking at a series of processes;

The dust gas supply process (S1), the primary filtering process (S2), the ionization process (S3), the particulate matter collection process (S4), the secondary filtering process (S5), and the tertiary filtering process ( S6).

Here, the first dust gas supply process (S1) is when the UV paint dust gas is generated from the UV coating facility, so that the generated UV paint dust gas is guided into the duct (1) by driving the blower (2) It is to be introduced into the electrostatic precipitator (4), which is the key configuration of the invention.

In addition, the primary filtering process (S2), when the UV paint dust gas is introduced into the electrostatic precipitator (4) through the dust gas supply process (S1), in the introduced UV paint dust gas, relatively particles Coarse dust is filtered out by the pretreatment filter 411.

In addition, the ionization process (S3) in the filtered UV paint dust gas through the first filtering process (S2), ionizer 412 configured in the electrostatic precipitator to the dust particles remaining in the dust gas ) By applying a voltage of DC12Kv to have a negative charge, so that the dust particles have a negative charge.

In addition, the particulate matter collecting process (S4) is carried out by the dust collecting electrode 413 having a (+) charge of the charged particles of the particulate matter, that is, the UV paint dust gas through the ionization process (S3) Gravity sedimentation in the form of a process to be sedimented, wherein the gravity sedimentation of the mucous trapping material is collected and treated by opening the collecting material outlet 421 formed of the dust collecting body 42 according to the selection will be.

In addition, the secondary filtering step (S5) is made of a process of filtering the UV paint dust gas remaining after the particulate matter collecting step (S4) by the post-treatment filter (414);

Finally, the tertiary filtering process (S6) after performing the secondary filtering process (S5), finally, finely remaining UV paint dust gas again through the activated carbon adsorption tower (3), and then filtered It finally consists of a process of finally releasing harmful components such as volatile organic compounds (VOCs) that are not yet released into the atmosphere.

1 is a schematic configuration diagram of a conventional UV paint dust gas dust collecting device

2 is a schematic configuration diagram of a dust coating device for dust UV paint according to the present invention

Figure 3 is an enlarged configuration diagram of the electrostatic precipitator applied to the present invention

Figure 4 is an installation state of the electrostatic precipitator applied to the present invention

5 is a dust collection process flow chart using the UV paint dust collector according to the present invention

<Description of Symbols for Major Parts of Drawings>

1: duct 2: blower

3: activated carbon adsorption tower 4: electrostatic precipitator

41: installation unit 42: dust collecting body

411: pretreatment filter 412: ionizer

413: dust collector 414: post-processing filter

421: trapping material outlet

Claims (5)

A duct through which the UV paint dust gas is supplied, a blower for forcibly introducing the UV paint dust gas through the duct, and an activated carbon adsorption tower serving as a UV paint dust gas adsorption means; Between the blower and the activated carbon adsorption tower configuration, UV paint dust collector, characterized in that configured to further install an electrostatic precipitator for collecting the incoming UV paint dust gas in a primary form. The method of claim 1; The electrostatic precipitator includes: an installation unit in which a pretreatment filter, an ionizer, a dust collecting pole, and a post treatment filter are arranged in a sequential arrangement; The installation unit is built-in, UV paint dust collector, characterized in that consisting of a dust collecting body having a collecting material outlet in the lower end. The method of claim 2; UV dust collecting device, characterized in that the installation unit is installed in the dust collecting body is installed quantity is variable according to the processing capacity of the UV paint dust gas. A process of supplying dust gas, which guides the UV paint dust gas generated from the UV coating facility into the duct by driving the blower to be introduced into the electrostatic precipitator; A primary filtering process of filtering the supplied UV paint dust gas by a pretreatment filter of an electrostatic precipitator; An ionization process of applying a voltage of DC12Kv to charge the residual particles of the primary filtered UV paint dust gas by the ionizer of the electrostatic precipitator; A particulate matter collecting process for collecting the negatively charged residual particles in the form of a slime in a collecting electrode having a (+) charge to cause gravity sedimentation; A secondary filtering step of filtering the residual UV paint dust gas having undergone the particulate matter collecting process by a post-treatment filter; Dust collecting treatment method using a UV coating dust collector, characterized in that the residual UV coating dust gas subjected to the secondary filtering process via the activated carbon adsorption tower through a third filtering process to be released into the atmosphere. The method of claim 4; The dust-collecting material sedimented by gravity through the particulate matter collecting process is collected and processed through the collecting material outlet formed of the dust collecting body, UV dust collecting method using a dust collector.

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