KR20230148994A - Printing engraving treatment waste liquid purification device - Google Patents

Abstract

The present invention provides a waste liquid purification device for printing and plate making that has a simple structure, is environmentally friendly, and has high water treatment efficiency by purifying waste liquid using methods such as decompression and cooling.

Description

Printing engraving treatment waste liquid purification device}

The present invention relates to a printing plate making waste liquid purification device, which is connected to a waste liquid storage tank (10) in which waste liquid generated in the plate making process of a printing plate is stored, and a heating device that depressurizes the waste liquid supplied from the waste liquid storage tank (10) and heats it to a low temperature. Tank unit 100; and, a cooling tank unit 200 connected to the heating tank unit 100 to cold collect water vapor evaporated from the heating tank unit 100 to generate purified water; and, the cooling tank unit A purified water storage tank unit (300) connected to (200) to store purified water; and a hot/cold module unit 400 connected to the heating tank 100 and the cooling tank 200 to heat or cool the heating tank 100 and the cooling tank 200, respectively.

Typically, a print master, such as a printing plate, is mounted on a cylinder of a printing press.

This printing master carries a flat image on its surface, and a printed copy is obtained by applying ink to the image and then transferring the ink from the master to a receiver material, usually paper.

In conventional wet lithographic printing, the ink as well as the aqueous fractional solution is supplied as a lithographic image consisting of hydrophilic and oleophilic regions, and in driographic printing, the lithographic image is composed of ink-receptive and ink-repellent regions, and in dry printing. During this step, only ink is supplied to the master.

Meanwhile, the print master is obtained by the computer-to-film method, where various prepress steps such as typeface selection, scanning, color separation, screening, trapping, layout and plate hanging are achieved digitally, and each color selection is performed by an image setter. It is transferred to a film for plate making using a setter. After plate making, the film can be used as a mask for exposure of image forming material, referred to as a plate precursor, and after plate making, a printing plate is obtained, which can be used as a master.

Meanwhile, the process of treating lithographic printing plate material with an automatic developer includes a process of supplying a developer to elute the image forming layer, a process of washing away the developer, a treatment process to protect the hydrophilic surface, etc.

At this time, all waste liquid remaining after the final process is disposed of. On the other hand, waste liquid has a high degree of contamination, so in order to purify and treat it in accordance with environmental standards, various neutralizers and related facilities and maintenance equipment must be equipped, which requires a lot of cost and has the problem of low treatment efficiency. there was.

Patent Document 1: Republic of Korea Patent Publication No. 10-1936548

The present invention was devised to solve the above-mentioned problems, and the object of the present invention is to provide a waste liquid purification device for printing plate making that has a simple structure, is environmentally friendly, and has high water treatment efficiency by purifying waste liquid using methods such as decompression and cooling. It is done.

In addition, the present invention provides a printing plate making waste liquid purification device with improved driving efficiency as it can perform both heating and cooling functions through a single hot and cold module unit.

In order to solve the above problems, the printing plate making waste liquid purification device according to the present invention is connected to a waste liquid storage tank (10) in which waste liquid generated in the plate making process of a printing plate is stored, and the waste liquid supplied from the waste liquid storage tank (10) A heating tank unit 100 that depressurizes and heats the water to a low temperature; and a cooling tank unit 200 connected to the heating tank unit 100 to cold collect water vapor evaporated from the heating tank unit 100 to generate purified water. ); and, a purified water storage tank unit 300 connected to the cooling tank unit 200 to store purified water; and a hot/cold module unit 400 connected to the heating tank 100 and the cooling tank 200 to heat or cool the heating tank 100 and the cooling tank 200, respectively.

In addition, the lower part of the cooling tank unit 200 is connected to the purified water storage tank unit 300 and the vacuum pump 700, so that a portion of the purified water stored in the purified water storage tank unit 300 is transferred to the cooling tank unit 200. It is characterized by the formation of an ejector unit 500 that generates negative pressure by the movement of purified water during the injection process.

In addition, the purified water storage tank unit 300 is characterized in that an air supply pump 600 is formed to inject air into the purified water supplied from the cooling tank unit 200 to lower PH and neutralize it.

As described above, according to the present invention, waste liquid is purified using methods such as decompression and cooling, and has the advantage of being simple in structure, environmentally friendly, and having high water treatment efficiency.

In addition, both heating and cooling functions can be performed through a single hot and cold module, which has the advantage of improving driving efficiency compared to the existing model.

1 is a perspective view showing the overall appearance of a waste liquid purification device for printing plate making according to a preferred embodiment of the present invention.
Figure 2 is a schematic diagram of the internal appearance of a printing plate making waste liquid purification device according to a preferred embodiment of the present invention.
Figure 3 is a plan view showing the interior of a printing plate processing waste liquid purification device according to a preferred embodiment of the present invention.
Figure 4 is a rear view showing the interior of a printing plate making waste liquid purification device according to a preferred embodiment of the present invention.

Hereinafter, with reference to the attached drawings, a printing plate making process waste liquid purification device 1 according to an embodiment of the present invention will be described in detail. First of all, it should be noted that in the drawings, identical components or parts are indicated by the same reference numerals whenever possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted in order to not obscure the gist of the present invention.

Referring to Figures 2, 3 or 4, the printing plate making process waste liquid purification device 1 according to an embodiment of the present invention largely includes a heating tank part 100, a cooling tank part 200, and a purified water storage tank part ( 300) and a hot/cold module device unit 400.

Prior to the description, it should be noted that in some drawings, some of the corresponding components are omitted to facilitate understanding of the present invention.

First, the heating tank unit 100 will be described. As shown in FIG. 2, the heating tank unit 100 is connected to a waste liquid storage tank 10 that stores waste liquid generated in the plate making process of a printing plate, and depressurizes the waste liquid supplied from the waste liquid storage tank 10 and heats it to a low temperature. As a component, it is connected to an external waste liquid storage tank (10).

In addition, a first coil 110 that generates low-temperature heat is installed inside the heating tank 100 to heat the waste liquid stored inside the heating tank 100 to evaporate moisture into water vapor. At this time, the waste liquid is converted from a liquid state to a gaseous state, and the volume within the heating tank unit 100 is compressed.

Meanwhile, the first coil 110 is connected to the hot/cold module device unit 400, which will be described later, to enable the first coil 110 to be heated.

In addition, the inside of the heating tank unit 100 is depressurized through an ejector unit 500, which will be described later. As a result, the boiling point of the waste liquid decreases, moisture evaporates due to lower atmospheric pressure and temperature, and the sludge contained in the waste liquid is separated.

Meanwhile, a circular separator 120 with a plurality of through holes is further formed inside the heating tank 100 to prevent water vapor from passing through the circular separator 120 and moving to the cooling tank 200. Make it possible.

Meanwhile, as shown in FIG. 3, the heating tank unit 100 is connected to an externally installed sludge storage bin 20 and is connected to the heating tank unit 100 through a drain pipe installed in the lower part of the heating tank unit 100. It allows the sludge stored inside to be discharged to the outside.

In addition, as shown in FIG. 3, the heating tank unit 100 is connected to an externally installed defoamer storage tank 40 to reduce the generation of bubbles generated during the boiling process of the waste liquid within the heating tank unit 100. , prevents bubbles from overflowing into the cooling tank unit 200.

Next, the cooling tank unit 200 will be described. As shown in FIG. 2, the cooling tank unit 200 is connected to the heating tank unit 100 and is a component that cold collects water vapor evaporated from the heating tank unit 100 to generate purified water. A second coil 210 with a cooling function is formed to condense water vapor to generate liquefied purified water. At this time, the second coil 210 is connected to the hot/cold module device unit 400 to enable the second coil 210 to be cooled.

Meanwhile, as shown in FIG. 4, an ejector unit 500 connected to the purified water storage tank 300 and the vacuum pump 700 is formed at the lower part of the cooling tank unit 200, thereby forming the purified water storage tank unit. In the process of injecting a portion of the purified water stored in 300 into the cooling tank unit 200, negative pressure is generated by the circular movement of the purified water (the purified water moves quickly, and the air in the cooling tank unit 200 is sucked out). This makes it possible to maintain the interior of the heating tank unit 100 and the cooling tank unit 200 at an atmospheric pressure lower than atmospheric pressure.

Next, the purified water storage tank 300 will be described. The purified water storage tank 300 is a component that is connected to the cooling tank unit 200 and stores purified water condensed due to a cooling effect, and is connected to an external purified water storage tank 30 to store purified water in case of overflow. .

In addition, a third coil 310 is installed inside the purified water storage tank 300 to take away heat from the low-temperature purified water stored in the purified water storage tank 300. At this time, the third coil 310 is connected to the hot/cold module device unit 400 to enable the third coil 310 to generate heat.

Meanwhile, the air supply pump 600 that injects air into the purified water storage tank 300 is formed, thereby injecting air into the purified water supplied from the cooling tank 200 to lower the pH and neutralize it. Make it possible.

Next, the hot/cold module device unit 400 will be described. As shown in FIG. 4, the hot and cold module device unit 400 is connected to the heating tank unit 100, the cooling tank unit 200, and the purified water storage tank unit 300, respectively, and is connected to the first and second , It is a component that heats or cools the three coils (110, 210, and 310), respectively, and is preferably composed of a refrigerant, a compressor, a radiator, and various heat exchanger structures as heating or cooling means.

Optimal embodiments are disclosed in the drawings and specifications. Although specific terms are used here, they are used only for the purpose of explaining the present invention and are not used to limit the meaning or scope of the present invention described in the claims. Therefore, those skilled in the art will understand that various modifications and other equivalent embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the attached patent claims.

1: Printing plate making processing waste liquid purification device
2: Housing 3: Control unit
10: Waste liquid storage tank 20: Sludge storage tank
30: Purified water storage tank 40: Antifoam storage tank
100: Heating tank part 110: First coil
120: Circular separator plate
200: Cooling tank part 210: Second coil
300: Purified water storage tank 310: Third coil
400: Hot and cold module device unit
500: Ejector unit
600: Air supply pump
700: Vacuum pump
800: Air discharge pipe

Claims (3)

A heating tank unit (100) connected to a waste liquid reservoir (10) in which waste liquid generated in the plate making process of a printing plate is stored, and for depressurizing and heating the waste liquid supplied from the waste liquid reservoir (10) to a low temperature;
A cooling tank unit 200 connected to the heating tank unit 100 and generating purified water by cold collecting water vapor evaporated from the heating tank unit 100;
A purified water storage tank unit 300 connected to the cooling tank unit 200 to store purified water; and
A printing plate making process waste liquid purification device (1), characterized in that it is composed of a hot and cold module device unit (400) connected to the heating tank unit (100) and the cooling tank unit (200) for heating or cooling, respectively. According to paragraph 1,
The lower part of the cooling tank unit 200 is connected to the purified water storage tank unit 300 and the vacuum pump 700, so that a portion of the purified water stored in the purified water storage tank unit 300 is injected into the cooling tank unit 200. A printing plate making processing waste liquid purification device (1), characterized in that an ejector unit (500) that generates negative pressure by the movement of purified water is formed in the process. According to paragraph 1,
The purified water storage tank unit 300 is provided with an air supply pump 600 to inject air into the purified water supplied from the cooling tank unit 200 to neutralize it by lowering its pH. Device (1).