KR102644914B1 - Green Painters - Google Patents

Abstract

The present invention relates to an eco-friendly painting device. When vacuum pressure is generated inside a purification duct module by suction force of an intake fan, collected water is sucked through a lower opening so that a water level in a collection tank is lower than that of an underwater flow path. When the underwater flow path is exposed to the outside of the collected water surface, contaminated air in a painting booth and a paint dust floating object on the collected water surface are introduced into the purification duct module through the underwater flow path and paint dust included in the contaminated air collides with the collected water while moving through the collected water accommodated in the purification duct module, thereby being effectively filtered and separated. The eco-friendly painting device comprises a collection tank (100), a water screen unit (200), a purification duct module (300), an underwater flow path (400), and an intake fan (500).

Description

Eco-friendly painting equipment {Green Painters}

The present invention relates to an eco-friendly painting device, and more specifically, when vacuum pressure is generated inside the purification duct module by the suction power of the intake fan, the collected water is sucked in through the lower opening, and the structure is improved so that the water level in the collection tank is lower than that of the submersible oil. When the underwater flow path is exposed outside the surface of the collected water, contaminated air within the painting booth and floating paint dust floating on the surface of the collected water flow into the purification duct module through the underwater flow path, and pass through the collected water contained within the purification duct module. This relates to an eco-friendly painting device in which painting dust contained in polluted air collides with collected water while being moved and can be effectively filtered and separated.

Typically, the painting process is divided into liquid painting or powder coating. Liquid painting, which is widely used in the industrial field, is a method of mixing paint with a thinner such as thinner to adjust the concentration and then applying it to the surface to be painted, which speeds up the painting process. Considering this, the spray method is preferred.

However, the spray method is carried out in an isolated painting booth as a large amount of fine dust including paint dust is generated, and the fine dust generated within the painting booth is filtered using the filter of an air purification device, but the painting dust In the case of , the adsorption power was strong, so if the filter was not replaced periodically, the filtration efficiency rapidly decreased.

Accordingly, in the previously disclosed registered patent No. 10-2229357, a water film tank is formed at the bottom of a paint booth and a purification booth separated by a partition, and allows dust water to flow into a gap in the lower part of the partition; A first impeller disposed in contact with the first water film composed of dust water flowing in from the paint booth, and having saw blades at the ends of the wings so that dust water is sprayed upward when rotated; A case surrounding the first impeller, which has a cochlear shape and a first guide pipe that guides the dust water sprayed from the first impeller in one direction; a first drain pipe formed below the outlet of the first guide pipe to first discharge high-concentration dust water when the spray dust guided from the first guide pipe falls; a second impeller disposed on the outlet side of the first induction pipe, separated from the water film tank and adjacent to the floor, and having saw blades formed on the ends of the wings so that dust water is sprayed upward when rotated; A case surrounding the second impeller, which has a cochlear shape and a second guide pipe that guides the dust sprayed from the second impeller in one direction; A water sprayer disposed inside the second induction pipe and spraying water in the direction of the second impeller to form a second water film in contact with the blades of the second impeller; a technology for classifying and removing dust water. The line has been presented.

However, the prior art is intended to purify the air by effectively removing dust floating in the air in a paint booth without a filter, but the purification capacity cannot be flexibly adjusted in response to the amount of dust generated. In particular, paint dust is adsorbed on the impeller and periodically This resulted in the problem of having to perform a cleaning process.

KR 10-2229357 B1 (2021.03.12.)

Accordingly, the present invention was conceived to solve the above problems. When vacuum pressure is generated inside the purification duct module by the suction power of the intake fan, the collected water is sucked in through the lower opening, and the water level in the collection tank is lowered compared to the submersible oil. Improved, when the underwater flow path is exposed outside the surface of the collected water, contaminated air within the painting booth and floating paint dust floating on the surface of the collected water flow into the purification duct module through the underwater flow path, and the collected water contained within the purification duct module is The purpose is to provide an eco-friendly painting device that can effectively filter and separate painting dust contained in polluted air during transit through collision with collected water.

In order to achieve this purpose, the features of the present invention are that it is installed at the bottom of the painting booth (10), the collected water is stored inside with the top open, a drain pipe (110) is installed at the bottom, and a water level control device is installed on one side. A collection tank (100) equipped with a trap (120); A water screen unit (200) installed longitudinally on the upper part of the collection tank (100) and provided to collect painting dust as water flows on the front surface and transfer it to the collection tank (100); A purification duct module ( 300); And an underwater flow path 400 formed through the outer peripheral surface of the lower area of the purification duct module 300; And an intake fan 500 connected to the upper opening 320 of the purification duct module 300 and provided to suck the air inside the purification duct module 300 while adjusting the output by the control unit. The intake fan ( 500) When vacuum pressure is generated inside the purification duct module 300 by suction force, when the collected water is sucked through the lower opening 310, the water level in the collection tank 100 is lowered compared to the underwater flow path 400, and the water level in the underwater flow path (400) is lowered. When 400) is exposed outside the surface of the collected water, contaminated air in the painting booth 10 and floating paint dust floating on the surface of the collected water flows into the purification duct module 300 through the underwater flow path 400, and the purification duct module It is characterized in that the painting dust contained in the contaminated air collides with the collected water while being moved through the collected water contained within (300) and is provided to be filtered and separated.

In addition, it is characterized in that a water supply nozzle 340 is installed on the upper part of the purification duct module 300 and outputs filtered water.

In addition, a floating material collection module 600 is provided in the lower area of the purification duct module 300, and the floating material collection module 600 penetrates the lower area of the purification duct module 300 to collect floating material in the collected water. It discharges floating paint dust, and accommodates the floating paint dust discharged through the discharge passage 610, which is located higher than the underwater passage 400, and the discharge passage 610, and the discharge pipe 621 at the bottom is a solvent valve. It includes a floating material tank 620 that is provided to be opened and closed by (622) and a water level sensor 630 installed inside the purification duct module 300 to detect the level of the collected water, and is connected to the output of the intake fan 500. As a result, the level of the collected water in the purification duct module 300 is maintained at a lower level than the discharge passage 610 and higher than the underwater passage 400, and the contaminated air and collected water are released into the painting booth 10 through the underwater passage 400. As the floating paint dust is sucked into the purification duct module 300, foreign substances are filtered out, and the output of the intake fan 500 is increased so that the collected water level in the purification duct module 300 is equal to the height of the discharge passage 610. When positioned high or high, the painting dust floating on the surface of the collected water within the purification duct module 300 is provided to be discharged into the floating material tank 620 through the discharge passage 610.

In addition, a water wheel module 700 for circulating collected water is provided at the lower part of the purification duct module 300, and the water wheel module 700 has a support shaft 710 correspondingly installed at the lower part of the purification duct module 300. And, a blade 720 that is radially arranged around the support shaft 710 and transports the floating paint dust floating on the surface of the collected water contained in the collection tank 100 through rotational movement into the purification duct module 300. ) and a water turbine guide 730, one end of which is installed at the lower end of the purification duct module 300 and the other end extending along the rotation radius of the blade 720, and the purification duct module ( As the level of collected water in the 300) increases and the level of the collected water in the collection tank 100 is positioned lower than that of the water wheel guide 730, contaminated air in the painting booth 10 flows into the submersible flow path 400 and the water wheel guide 730. As it moves inside the purification duct module 300 through the space between the blades 720, the blade 720 rotates and lifts the paint dust floating on the water surface contained in the collection tank 100 into the purification duct module 300. It is characterized in that it is provided to be transported internally.

In addition, the blade 720 is provided to be washed by the water washing module 800, and the water washing module 800 is formed at the center of the support shaft 710 and is accommodated in the collection tank 100 by the pump. It is inserted into the center flow path 810 through which the collected water is injected, the support shaft 710 being fixed, the conformal flow path 820 cut in the lower area and communicating with the center flow path 810, and the support shaft 710. A rotating tube body 830 that rotates and has blades 720 radially installed on the outer peripheral surface, a discharge port 840 through which the collected water is sprayed through the outer peripheral surface of the rotating tube body 830 corresponding to the blades 720, and It is formed at the end of the blade 720 and includes an arcuate blade 850 that is bent in a direction opposite to the rotation direction of the blade 720, and when the discharge port 840 is located in the conformal passage 820 area, the center passage ( The collected water injected through 810 is output through the discharge port 840 to remove foreign substances attached to the surface of the blade 720, and the collected water output through the discharge port 840 is discharged through the blade 720 and the arched blade 850. ) and is output in a direction opposite to the rotation direction of the blade 720, thereby providing driving force to the blade 720.

According to the above configuration and operation, the present invention improves the structure so that when vacuum pressure is generated inside the purification duct module by the suction power of the intake fan, the collected water is sucked in through the lower opening and the water level in the collection tank is lowered compared to the underwater flow path. When exposed outside the surface of the collected water, contaminated air within the painting booth and floating paint dust floating on the surface of the collected water flow into the purification duct module through the underwater flow path, causing contamination while moving through the collected water contained within the purifying duct module. There is an effect that the painting dust contained in the air collides with the collected water and can be effectively filtered and separated.

1 is a schematic diagram showing the overall configuration of an eco-friendly coating device according to an embodiment of the present invention.
Figure 2 is an enlarged configuration diagram showing the main parts of an eco-friendly painting device according to an embodiment of the present invention.
Figure 3 is a configuration diagram showing a floating material collection module of an eco-friendly painting device according to an embodiment of the present invention.
Figure 4 is a configuration diagram showing the water wheel module of an eco-friendly painting device according to an embodiment of the present invention.
Figure 5 is a configuration diagram showing the water washing module of an eco-friendly painting device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. Also, in describing the present invention, if it is determined that related known functions may unnecessarily obscure the gist of the present invention as they are obvious to those skilled in the art, the detailed description thereof will be omitted.

Figure 1 is an overall configuration diagram showing an eco-friendly painting device according to an embodiment of the present invention, Figure 2 is an enlarged configuration diagram showing main parts of an eco-friendly painting device according to an embodiment of the present invention, and Figure 3 is a configuration diagram showing the main parts of the eco-friendly painting device according to an embodiment of the present invention. It is a configuration diagram showing a floating material collection module of an eco-friendly painting device according to an embodiment of the present invention, Figure 4 is a configuration diagram showing a water turbine module of an eco-friendly painting device according to an embodiment of the present invention, and Figure 5 is an embodiment of the present invention. This is a configuration diagram showing the water washing module of an eco-friendly painting device according to an embodiment.

The present invention relates to an eco-friendly painting device, which has an improved structure so that when vacuum pressure is generated inside the purification duct module due to the suction power of the intake fan, the collected water is sucked in through the lower opening, and the water level in the collection tank is lowered compared to the underwater oil passage. When exposed outside the surface of the collected water, contaminated air within the painting booth and floating paint dust floating on the surface of the collected water flow into the purification duct module through the underwater flow path and are moved through the collected water contained within the purification duct module. A collection tank (100), a water screen unit (200), a purification duct module (300), an underwater flow path (400), and an intake fan (500) are installed so that the painting dust contained in the contaminated air can collide with the collected water and be effectively filtered and separated. It consists of the main components including:

The collection tank 100 according to the present invention is installed at the bottom of the painting booth 10, the collected water is stored inside with the top open, a drain pipe 110 is installed at the bottom, and a water level control trap ( 120) is provided.

The collection tank 100 is a structure that absorbs painting dust generated within the painting booth 10 into the collected water. The upper part is open to accommodate the collected water that falls through the water screen unit 200, which will be described later, and which A purification duct module 300, which will be described later, is installed on one side.

In addition, the water screen unit 200 according to the present invention is installed longitudinally on the upper part of the collection tank 100, and is equipped to collect painting dust as water flows on the front surface and transfer it to the collection tank 100.

The water screen unit 200 is installed in the painting booth 10 to face the painting nozzle (N) that sprays liquid paint, and is provided to collect liquid painting dust from the back side of the object (A).

At this time, the collected water moving downward through the water screen unit 200 is received in the collection tank 100, and the collected water contained in the collection tank has a circulation structure in which it is supplied to the upper part of the water screen unit 200 by a pump. .

In addition, the purification duct module 300 according to the present invention is accommodated so that the lower opening 310 is immersed in the collected water stored in the collection tank 100, and an upper opening 320 is formed at the upper portion, and a zigzag direction inside is formed. A wind direction plate 330 is installed.

At this time, a water supply nozzle 340 is installed on the upper part of the purification duct module 300 and outputs filtered water.

The purification duct module 300 is installed standing up and is provided to suck contaminated air into the painting booth 10 through the lower opening 310.

In this way, the contaminated air sucked through the lower opening 310 of the purification duct module 300 moves upward and collides with the wind direction changing in the zigzag direction along the wind deflector 330 so that fine foreign substances contained in the air are filtered. It is provided.

In addition, the underwater flow path 400 according to the present invention is formed penetrating the outer peripheral surface of the lower region of the purification duct module 300.

The underwater flow path 400 is a hole through which contaminated air is sucked into the painting booth 10, and is provided to open when the level of collected water in the collection tank 100 is lowered by the internal pressure of the purification duct module 300.

In addition, the intake fan 500 according to the present invention is connected to the upper opening 320 of the purification duct module 300, and is provided to suck the air inside the purification duct module 300 while adjusting the output by the control unit.

The intake fan 500 is connected to the upper opening 320 of the purification duct module 300 through a connection pipe, and is provided to perform an additional filtration process by a separate filter supplied to the intake fan 500.

In operation, when vacuum pressure is generated inside the purification duct module 300 by the suction force of the intake fan 500, the collected water is sucked in through the lower opening 310 as shown in FIG. 2, and the water level in the collection tank 100 is submerged. When it is lowered compared to the flow path 400 and the underwater flow path 400 is exposed outside the surface of the collected water, contaminated air within the painting booth 10 and floating paint dust floating on the surface of the collected water are purified through the underwater flow path 400 into the purification duct module. (300) As it flows into the interior, the painting dust contained in the contaminated air collides with the collected water while moving through the collected water contained within the purification duct module 300 and is provided to be filtered and separated.

In Figure 3, a floating material collection module 600 is provided in the lower area of the purification duct module 300.

The floating matter collection module 600 penetrates the lower area of the purification duct module 300, discharges the floating matter of paint dust floating in the collected water, and has a discharge passage 610 located higher than the underwater passage 400 and , a floating material tank 620 that accommodates painting dust floating material discharged through the discharge passage 610, and has a discharge pipe 621 at the bottom that is opened and closed by a sol valve 622, and a purification duct module 300. It is installed inside and includes a water level sensor 630 that detects the level of collected water.

Looking at the operating state, the level of collected water in the purification duct module 300 is maintained in a state lower than that of the discharge passage 610 and higher than that of the underwater passage 400 due to the output of the intake fan 500, and is maintained through the underwater passage 400. In the painting booth 10, contaminated air and paint dust floating on the surface of the collected water are sucked into the purification duct module 300, and a process of filtering foreign substances is performed.

In addition, when the output of the intake fan 500 is increased and the level of the collected water in the purification duct module 300 is positioned to be equal to or higher than the height of the discharge passage 610, the paint dust floating on the surface of the collected water in the purification duct module 300 is raised. Water is provided to be discharged to the floating material tank 620 through the discharge passage 610. At this time, the output of the intake fan 500 is periodically performed for a time set by the control unit to automatically remove painting dust and floating material. .

In Figure 4, a water turbine module 700 that circulates collected water is provided below the purification duct module 300.

The water turbine module 700 is disposed radially around the support shaft 710 and the support shaft 710, which are installed correspondingly to the lower part of the purification duct module 300, and is placed in the collection tank 100 through rotational movement. A blade 720 that transports the paint dust floating on the surface of the collected water to the inside of the purification duct module 300, one end of which is installed at the lower part of the purification duct module 300, and the other end of the blade 720, have a radius of rotation of the blade 720. It includes an aberration guide 730 extending along.

In operation, when the level of collected water in the purification duct module 300 increases due to the output of the intake fan 500 and the level of collected water in the collection tank 100 is located lower than that of the water guide 730, the paint booth 10 ), the contaminated air is moved into the purification duct module 300 through the underwater flow path 400 and the space between the water wheel guide 730 and the blade 720, and at this time, the blade 720 rotates and enters the collection tank 100. ) is provided to transport the floating paint dust floating on the water surface of the collected water contained within the purification duct module (300).

That is, the paint dust floating on the surface of the collected water contained in the collection tank 100 is forcibly transported into the purification duct module 300 by the rotational movement of the blade 720, so that the floating material treatment efficiency is improved. there is.

In Figure 5, the blade 720 is provided to be cleaned by the water washing module 800.

The water washing module 800 is formed at the center of the support shaft 710, and has a center passage 810 provided to inject the collected water contained in the collection tank 100 into a pump, and the support shaft 710 is fixed. A conformal flow path 820 that is cut in the lower region and communicates with the center flow path 810, and a rotating tube body 830 that is inserted into the support shaft 710 and rotated, and has blades 720 radially installed on the outer peripheral surface. and a discharge port 840 through which the collected water is sprayed through the outer peripheral surface of the rotating tube 830 corresponding to and between the blades 720, and formed at the end of the blade 720 and bent in a direction opposite to the direction of rotation of the blade 720. It includes an arched blade (850).

That is, when the discharge port 840 is located in the conformal flow path 820 area, the collected water injected through the center flow path 810 is output through the discharge port 840 and foreign substances attached to the surface of the blade 720 are removed.

In addition, the collected water output through the discharge port 840 travels on the blade 720 and the arcuate blade 850 and is output in the direction opposite to the rotation direction of the blade 720, thereby providing a driving force to the blade 720. The efficiency of handling floating material is improved by the rotational movement of the blade (720).

As described above, the most preferred embodiments of the present invention have been described in the detailed description of the present invention, but various modifications may be made without departing from the technical scope of the present invention. Therefore, the scope of protection of the present invention should not be limited to the above embodiments, but should be recognized to the technologies in the patent claims described later and to equivalent technical means from these technologies.

100: collection tank 200: water screen unit
300: Purification duct module 400: Underwater flow path
500: intake fan

Claims (5)

A collection tank (100) installed at the bottom of the painting booth (10), with the top open, storing the collected water inside, a drain pipe (110) installed at the bottom, and a water level adjustment trap (120) on one side. ;
A water screen unit (200) installed longitudinally on the upper part of the collection tank (100) and provided to collect painting dust as water flows on the front surface and transfer it to the collection tank (100);
A purification duct module ( 300); and
An underwater flow path (400) formed through an outer peripheral surface of the lower area of the purification duct module (300); and
It includes an intake fan 500 connected to the upper opening 320 of the purification duct module 300 and provided to suck in air inside the purification duct module 300 while the output is adjusted by the control unit,
When vacuum pressure is generated inside the purification duct module 300 by the suction force of the intake fan 500, when the collected water is sucked through the lower opening 310, the water level in the collection tank 100 is lowered compared to the underwater flow path 400, When the underwater flow path 400 is exposed outside the surface of the collected water, contaminated air within the painting booth 10 and floating paint dust floating on the surface of the collected water flow into the purification duct module 300 through the underwater flow path 400, An eco-friendly painting device characterized in that the painting dust contained in the contaminated air collides with the collected water while being moved through the collected water contained within the purification duct module (300) and is then filtered and separated.
According to clause 1,
An eco-friendly painting device, characterized in that it is provided with a water supply nozzle (340) installed on the upper part of the purification duct module (300) to output filtered water.
According to claim 1 or 2,
A floating material collection module 600 is provided in the lower area of the purification duct module 300,
The floating material collection module 600,
A discharge passage 610 that penetrates the lower area of the purification duct module 300, discharges floating paint dust floating in the collected water, and is located higher than the underwater passage 400,
A floating material tank 620 that accommodates painting dust floating material discharged through the discharge passage 610, and has a discharge pipe 621 at the bottom that is opened and closed by a solvent valve 622,
Installed inside the purification duct module 300, it includes a water level sensor 630 that detects the level of collected water,
Due to the output of the intake fan 500, the level of the collected water in the purification duct module 300 is maintained in a state lower than that of the discharge passage 610 and higher than that of the underwater passage 400, and the painting booth 10 is maintained through the underwater passage 400. Contaminated air and paint dust floating on the surface of the collected water are sucked into the purification duct module (300) to filter out foreign substances.
When the output of the intake fan 500 is increased and the level of the collected water in the purification duct module 300 is positioned to be equal to or higher than the height of the discharge passage 610, the paint dust floating on the water surface in the purification duct module 300 is raised. An eco-friendly painting device characterized in that it is provided to be discharged to the floating tank (620) through the discharge passage (610).
According to clause 3,
A water wheel module 700 that circulates collected water is provided below the purification duct module 300,
The aberration module 700 is,
A support shaft 710 correspondingly installed at the lower end of the purification duct module 300,
A blade 720 is disposed radially around the support axis 710 and transports the floating paint dust on the surface of the collected water contained in the collection tank 100 through rotational movement into the purification duct module 300. ,
One end is installed at the lower end of the purification duct module 300, and the other end includes a water turbine guide 730 extending along the rotation radius of the blade 720,
When the level of collected water in the purification duct module 300 increases due to the output of the intake fan 500 and the level of collected water in the collection tank 100 is positioned lower than that of the aberration guide 730,
As the contaminated air in the painting booth 10 moves into the purification duct module 300 through the underwater passage 400 and the space between the water wheel guide 730 and the blade 720, the blade 720 rotates and collects the collection tank ( 100) An eco-friendly painting device characterized in that it is provided to transport floating paint dust floating on the water surface of the collected water contained within the purification duct module (300).
According to clause 4,
The blade 720 is provided to be cleaned by the water washing module 800,
The water washing module 800,
A center passage 810 formed at the center of the support shaft 710 and provided to inject the collected water contained in the collection tank 100 into the pump,
A conformal flow path 820 that is cut in the lower area with the support shaft 710 fixed and communicates with the center flow path 810,
A rotating tube 830 that is inserted into the support shaft 710 and rotates, and has blades 720 radially installed on the outer peripheral surface,
A discharge port 840 through which the collected water is sprayed through the outer peripheral surface of the rotating tube 830 corresponding to the blade 720,
It is formed at the end of the blade 720 and includes an arcuate blade 850 that is bent in a direction opposite to the rotation direction of the blade 720,
When the discharge port 840 is located in the conformal flow path 820 area, the collected water injected through the center flow path 810 is discharged through the discharge port 840 to remove foreign substances attached to the surface of the blade 720, and the discharge port 810 is discharged through the discharge port 840. The collected water output through (840) is output in the direction opposite to the rotation direction of the blade (720) through the blade (720) and the arched blade (850), and is provided to provide driving force to the blade (720). Painting device.