KR102512124B1 - Multi filtering system of a prayed paint - Google Patents

Abstract

The present invention provides a spray paint multi-filtering system, which uses a simple structure to recover spray paints such as UV paint in liquid form, solidify and remove moisture particles on the spray paint and then discharge the same to the outside air through a filter bag. The spray paint multi-filtering system comprises: a liquid recovery device (10) having a plurality of recovery plates (20) having long uneven surfaces (21) vertically that are installed to recover the paint liquid by inertial collision during the process of the spray paint flowing in and out of a recovery body (11) for allowing the inflow and outflow of the spray paint; a solidification device (30) with a built-in UV lamp (34) installed in a light irradiation body (31) connected to the liquid recovery device (10) to extract paint particles in a solid form by irradiating ultraviolet rays; and a dust collection device (40) with a built-in filter bag (42) configured to filter out foreign substances contained in the air in a dust collection body (41) connected to the solidification device (30).

Description

Multi filtering system of a prayed paint}

The present invention relates to a multi-filtering system for non-acidic paint, and more particularly, by a simple structure, liquid recovery of non-acidic paint, such as UV paint, etc. in liquid form, and at the same time solidifying and removing moisture particles in the non-acidic paint, and then discharging them to the outside air through a filter bag. It relates to a non-acidic paint multi-filtering system.

In general, UV paint is used to manufacture containers for cosmetics to prevent deterioration of contents or to coat the case of a mobile phone or the body of a car to reinforce the surface characteristics or rigidity. Due to its curing properties, it is widely used in that it has a fast curing time and does not require a separate heat source to dry the applied state.

Even in the case of such UV paint, like general paint, scattering paint in the form of fine droplets is generated during the painting process, so painting work such as spraying paint is performed in the painting booth, and a dust collector is installed on the side of the painting booth to remove scattering paint is filtered to prevent direct discharge to the outside. The dust collector usually sucks air from the painting booth and filters out dust including scattering paint through a filter bag.

However, as the non-acidic paint of UV paint is dispersed in the air in the form of viscous mist, it adheres to the inside of the dust collector or the surface of the filter bag during the dust collection process, contaminating the device itself and degrading the performance of the device. , In order to remove such scattering paint in advance and protect the dust collector, etc., a liquid recovery device is installed to condense and recover the paint liquid.

These conventional liquid recovery devices usually use the inertial force or centrifugal force generated from the particles of the scattering paint by giving a collision, rapid change of direction, or change in speed or pressure to the air flow containing the scattering paint. For example, in the painting booth It uses the difference in specific gravity of the paint contained in the air and the inertial force following the change in angular acceleration due to circular motion by allowing the floating scattering paint to pass through the spiral-shaped rotating pipe, which prevents clogging due to the viscous paint accumulated in the rotating pipe. Not only is it easy, but it is also difficult to maintain due to the manufacture of the device itself.

Korea Utility Model Publication No. 20-2008-0000292 (2008. 03. 11)

The present invention is intended to solve the above-described problems, and the present invention collects the paint liquid liquefied by inertial collision by arranging a recovery plate having a simple structure in multiple stages, and additionally, moisture particles on the scattering paint are exposed to a UV lamp. It is to provide a non-acidic paint multi-filtering system that is finally filtered by a filter bag in a state in which ultraviolet rays are irradiated and solidified and removed, and then discharged to the outside air.

According to the characteristics of the present invention, a plurality of recovery units having vertically long concave-convex surfaces 21 to recover the paint liquid by inertial collision in the process of inflow and outflow of the scattering paint into the recovery body 11, which allows the inflow and outflow of the scattering paint. a liquid recovery device 10 in which a plate 20 is installed;

a solidification device 30 in which a UV lamp 34 is installed inside the light irradiation body 31 connected to the liquid recovery device 10 to extract paint particles in a solid form by irradiation with ultraviolet rays;

A scattering paint multi-filtering system is provided, characterized in that it consists of a dust collector 40 with a built-in filter bag 42 to filter out foreign substances contained in the air in the dust collector body 41 connected to the solidification device 30 do.

According to another feature of the present invention, there is provided a scattering paint multi-filtering system, characterized in that the recovery plate 20 is gradually densely arranged from the inlet 12 side to the outlet 13 side.

According to another feature of the present invention, a plurality of guide plates 35 are installed in the light irradiation body 31 to guide the airflow of the scattering paint in a zigzag pattern;

The guide plate 35 is provided with a scattering paint multi-filtering system, characterized in that it is individually detachably installed through an inspection opening 36 formed outside the light irradiation body 31.

As described above, according to the present invention, the scattering paint in the air is collected by the liquid recovery device 10, which collects the paint liquid by inertial collision of the scattering paint with the plurality of recovery plates 20, and at the same time, It is possible to reuse the material according to the recovery, and by the solidification device 30 to irradiate ultraviolet rays by the UV lamp 34, the paint particles are additionally extracted and removed in a solid form to additionally remove the scattering paint in the air. The recovery device 10 and the solidification device 30 remove scattering paint in advance from the front end of the filter bag 42 in multiple steps to minimize direct adhesion of viscous scattering paint on the filter bag 42 as in the prior art. Thus, there is an advantage in maintaining the dust collection efficiency of the filter bag 42 and minimizing damage to the bag at the same time.

In addition, the liquid recovery device 10 of the present invention is provided with a plurality of recovery plates 20 installed in the recovery body 11 to recover the paint liquid by inertial collision in the process of passing the scattering paint, so that the recovery plate ( 20) does not cause malfunction or functional deterioration of the device itself, such as mechanical operation errors or pipe clogging, and not only has very high reliability in operation, but also provides convenience in manufacturing and maintenance of the device. There are advantages.

In addition, in the recovery plate 20 of the present invention, as the vertically long concave-convex surface 21 is formed and the through-hole 24 is formed on the concave-convex surface 21, the process of passing the scattering paint through the through-hole 24 The concavo-convex surface 21 has the advantage of increasing the effect of collecting the paint solution, and the recovery plate 20 of the present invention is gradually densely arranged toward the outlet 13, so that small particles of scattering paint can be easily removed. It has the advantage of further increasing the effect of filtering the scattering paint in the air by liquefying it.

In addition, the solidification device 30 of the present invention is connected to the liquid recovery device 10 to extract and remove paint particles of non-acidic paint such as UV paint in solid form by irradiation of ultraviolet rays, in the liquid recovery device 10 in the previous step. In the process of recovering the paint solution, the scattering paint remaining in the air can be additionally removed, and the guide plate 35 is installed in the light irradiation body 31 to guide the air flow of the scattering paint in a zigzag form, so that the scattering paint stays. It increases the removal efficiency of the scattering paint along with increasing the time, and the guide plate 35 is individually detachable through the inspection hole 36 formed on the outside of the light irradiation body 31, so maintenance such as inspection or cleaning It has the advantage of providing the convenience of the image.

1 is a configuration diagram showing an embodiment of the present invention
2 is a cut-away perspective view of some devices of the present invention;
Figure 3 is a perspective view showing some configurations according to the device of Figure 2
Figure 4 is a top cross-sectional view of the device of Figure 2;
5 is a plan view showing another device of the present invention;
Figure 6 is a cutaway perspective view according to the device of Figure 5
7 is a front view showing another device of the present invention;

Objects, features and advantages of the present invention described above will become more apparent through the detailed description that follows. Hereinafter, a preferred embodiment of the present invention will be described based on the accompanying drawings.

1 to 7 show a preferred embodiment of the present invention. As shown in FIG. 1, the multi-filtering system 100 of the present invention is designed to remove paint components contained in the air in advance before discharging scattering paint such as UV paint used in painting work to the outside air. A liquid recovery device 10 configured to recover the paint liquid by inertial collision, and connected to the liquid recovery device 10 to extract and remove the paint particles of the scattering paint remaining in the liquid recovery process in the previous step in solid form It is a system composed of a solidification device 30 and a dust collector 40 configured to filter out foreign substances contained in the air delivered from the solidification device 30 by a filter bag 42.

The detailed configuration and operating state of the present invention will be described with reference to FIGS. 2 to 7 as follows.

As shown in FIG. 2, in the liquid recovery device 10 of the present invention, inlets 12 and outlets 13 are formed on the left and right sides of the recovery body 11 of a certain size so that scattering paint can flow in and out. , A liquid recovery port 14 is formed at the bottom so that the paint liquid is discharged by falling, and a plurality of recovery plates 20 are built-in in the recovery body 11 to discharge the discharge port 13 from the inlet 12 The scattering paint passing through the side is collided with the paint solution to fall along the surface.

Here, the recovery body 11 has a plate installation part 15 of a certain space in which the recovery plate 20 is built-in, so that a plurality of recovery plates 20 can be easily installed in a vertically arranged state. And, a hopper part 16 that gradually shrinks toward the liquid recovery port 14 is formed at the bottom of the plate installation part 15 so that the paint liquid can be easily collected, recovery of the present invention By the plate 20, while the air introduced through the inlet 12 proceeds toward the outlet 13, large and small scattering paint particles contained in the air inertially collide with the recovery plate 20 in multiple stages, thereby dispersing the scattering paint. The kinetic energy of the particles decreases. According to the inertial collision of the scattering paint, the physical properties of the particles such as the kinetic energy and the pressure decrease as the kinetic energy of the particles decreases. It is condensed into a liquid phase and the paint solution falls.

A dust collector with a built-in filter bag may be connected to the rear end of the liquid recovery device 10 of the present invention. In the process of discharging non-acidic paint having a sticky viscosity such as UV paint in the air, the liquid of the present invention is discharged. When the paint liquid is recovered by preemptively liquefying the scattering paint by the recovery device 10, the clumping of the scattering paint on the filter bag at the rear is minimized to maintain the dust collection efficiency of the device and at the same time damage or deterioration of the device can be suppressed as much as possible.

On the other hand, the recovery plate 20 of the present invention has a specific shape of the plate so that the scattering paint passes through forming a specific airflow so that the paint solution can be easily recovered and the paint solution is easily collected during the collision of the scattering paint. It is provided, which is described by FIG. 3 as follows.

As shown in FIG. 3, each recovery plate 20 of the present invention is formed over the entire plate with vertically long concave-convex surface 21, and through holes 24 through which scattering paint passes on the concave-convex surface 21. ) Is formed, the uneven surface 21 is formed of a convex portion 22 protruding toward the inlet 12 and a concave portion 23 that is depressed toward the outlet 13 compared to the convex portion 22, A plurality of through holes 24 are formed on the convex part 22 or the concave part 23 in the form of long holes vertically, and the scattering paint collided with the recovery plate 20 by the concave-convex surface 21. When is liquefied and flows downward along the surface, it is possible to increase the effect of collecting the paint solution by forming a flow path in which the paint solution collects and flows down toward the concave portion 23.

In addition, the plurality of recovery plates 20 include a first recovery plate 20a having a through hole 24a formed in the convex portion 22 and a second recovery plate 20b having a through hole 24b formed in the concave portion 23. They are alternately arranged from the inlet 12 of the recovery body 11 to the front and rear of the outlet 13. Accordingly, when the through-holes 24a and 24b of the first and second recovery plates 20a and 20b are alternately disposed left and right along the front and back, the air flow of the scattering paint is formed in a straight line through the through-holes 24a and 24b. Rather than being discharged immediately, an airflow in the form of a curved line is formed to lengthen the residence time of the scattering paint in the recovery body 11 and at the same time increase the number of collisions on the recovery plate 20, so that the paint liquid is more effectively discharged. that could be recovered.

In addition, as shown in FIG. 4, the recovery plate 20 of the present invention is gradually densely arranged from the inlet 12 side of the recovery body 11 to the outlet 13 side, whereby small particles of scattering paint Even if it passes through the recovery plate 20 of the inlet 12 side as it is, liquid recovery is easily performed by the densely arranged recovery plate 20 on the outlet 13 side, further increasing the liquid recovery effect of filtering scattering paint in the air. can be raised

On the other hand, as shown in FIGS. 5 and 6, the solidification device 30 is connected to the liquid recovery device 10 side, and the inlet 32 and dust collector 40 side through which air containing the scattering paint flows. A light irradiation body 31 of a certain size is provided with an outlet 33 through which air is discharged, and a plurality of UV lamps 34 capable of irradiating ultraviolet rays are constantly placed in the light irradiation body 31. It is installed in an arranged state, and the non-acidic paint remaining in the air is solidified by the UV lamp 34 by using the property that the UV paint is easily adhered when irradiated with ultraviolet rays.

In addition, a plurality of guide plates 35 are installed in the light irradiation body 31 to guide the air flow of the scattering paint in a zigzag form. In this way, by the guide plate 35, the residence time of the scattering paint in the light irradiation body 31 is lengthened to increase the time or room for irradiation with ultraviolet rays by the UV lamp 34 as much as possible, thereby increasing the paint It is effective in solidifying the particles.

In addition, the perforated guide plate 35 is easily attached to the non-acidic paint solids on the plate during the solidification process by the above-described UV lamp 34 to provide convenience in removal, and in this regard, the light irradiation body 31 An inspection opening 36 is formed on the outer side so that the guide plate 34 can be attached or detached, so that each guide plate 35 can be easily inspected or cleaned.

In addition, as shown in FIG. 7, the dust collecting device 40 is connected to a dust collecting main body 41 so that air is introduced from the solidification device 30 as described above, and foreign substances in the air are removed from the dust collecting main body 41. A plurality of filter bags 42 capable of filtering are installed, and the dust collecting device 40 is installed with a suction blower 43 and a discharge duct 44 to transfer air sucked into the dust collecting body 40 into the filter bag ( After filtering by 42), it is possible to follow the usual construction and operation of discharging air to the outside through the exhaust duct 44.

The present invention described above is not limited by the foregoing embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within a range that does not deviate from the technical spirit of the present invention. will be clear to those who have knowledge of

10: liquid recovery device 11: recovery body
12: inlet 13: outlet
14: liquid recovery port 20: recovery plate
21: uneven surface 22: convex portion
23: concave portion 24: through hole
30: solidification device 31: light irradiation body
34: UV lamp 35: guide plate
40: dust collector 42: filter bag
100: multi-filtering system

Claims (3)

A collection body 11 having an inlet 12 and an outlet 13 formed on both sides of the inlet 12 and outlet 13 through which scattering paint is introduced and discharged, and an inlet provided between the inlet 12 and the outlet 13 inside the recovery body 11 ( A liquid recovery device 10 including a plurality of recovery plates 20 in which the scattering paint heading from 12) to the discharge port 13 collides with inertia to recover the paint liquid;
a solidification device 30 in which a UV lamp 34 is installed inside the light irradiation body 31 connected to the liquid recovery device 10 to extract paint particles into a solid form by irradiation with ultraviolet rays; and
A dust collecting device 40 having a built-in filter bag 42 to filter out foreign substances contained in the air in the dust collecting main body 41 connected to the solidification device 30;
The plurality of recovery plates 20 of the liquid recovery device 10 include a convex portion 22 protruding convexly toward the inlet 12 and a concave portion 23 concave backward from the convex portion 22, respectively. The first recovery plate 20a extends up and down and is alternately arranged left and right, and has a through hole 24 formed in the convex portion 22, and a second recovery plate 20b having a through hole 24 formed in the concave portion 23. ) are alternately arranged back and forth, so that the scattering paint introduced into the inlet 12 of the recovery body 11 of the liquid recovery device 10 collides with the recovery plate 20 to liquefy and gather in the concave portion 23 to quickly A scattering paint multi-filtering system, characterized in that it falls.
The scattering according to claim 1, characterized in that the plurality of recovery plates (20) of the liquid recovery device (10) are gradually densely arranged from the inlet (12) side of the recovery body (11) to the outlet (13) side. Paint multi-filtering system.
The method according to claim 1 or 2, wherein a plurality of guide plates (35) are installed in the light irradiation body (31) to guide the air flow of the scattering paint in a zigzag pattern;
The scattering paint multi-filtering system, characterized in that the guide plate (35) is individually detachably installed through the inspection hole (36) formed outside the light irradiation body (31).

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