KR100693328B1 - Method For Printing Acrylic Of LCD Window Using Printer - Google Patents

Abstract

The present invention relates to a printing method of acrylic for LCD windows, and relates to a multi-color integrated printing method of acrylic for LCD windows mounted on various products such as mobile phones, DVDs, and audio using an ink printer. The acrylic raw material is cut in a cutting machine to the size to be put into the process, the pre-processing step of washing the cut raw material in a washing machine and drying the washed raw material in a dryer, and then pretreatment in a printing machine for the printing surface of acrylic Wow; An image storing step of storing an image to be printed on the preprocessed acrylic in a computer through a digital camera or a scanner; An image editing step of editing the image stored in the computer by an illustration or a CAD means and storing the image in the computer; The edited image is transmitted to a printer connected to a computer and includes a printing step of printing on the printing surface of the preprocessed acrylic. Therefore, the present invention can be fully automated, the profits and efficiency are increased by reducing labor costs, increasing production volume, and reducing the defective rate, and can reduce the shortage of the basic process and solve the shortage of professional manpower such as printing engineer, In addition to printing, it is possible to implement functional printing such as high gloss miller printing or fragrance printing and well-being printing.

LCD Windows, Acrylic, Printer

Description

Acrylic printing method for LCD windows using a printer {Method For Printing Acrylic Of LCD Window Using Printer}

1 is an embodiment of an LCD window mounted on a typical mobile phone.

Figure 2 is a manufacturing process of the LCD window according to the conventional silk printing technique.

3 is a flowchart in which a film produced in the manufacturing process of FIG. 2 is printed on acrylic.

Figure 4 is a manufacturing process of the LCD window using the printer according to the present invention.

5 is a view showing a printing process using the ink printer according to the present invention.

The present invention relates to a method of printing acrylic for LCD windows, and more particularly, to multicolor integrated printing of acrylic for LCD windows mounted on various products such as mobile phones, DVDs, and audio using ink printers. It is about a method.

1 shows an LCD window mounted on a typical mobile phone, FIG. 2 shows a process diagram for manufacturing an LCD window according to a conventional silk printing technique, and FIG. 3 shows a process of producing an acrylic shape according to the silk printing technique. In order to show a process in which a plurality of films are printed in order, the film may include a first film for printing an edge of an LCD window, a second film for printing text, and a third film for printing outer colors. It is divided into.

Referring to FIGS. 2 and 3, the manufacturing method of the LCD for the LCD according to the conventional silk printing is as follows.

First, the acrylic 211 is cut to a size that can be introduced into the process with reference to the received specifications, washed with washing water, and dried until the washing liquid is dry. The dried acrylic 211 is put into an antistatic device and the printed surface is antistatically treated to stand by.

After manufacturing the first film 212 having a rim to be printed, determining the number of silk printing trials to be worked on, and then applying a material to a predetermined thickness in a predetermined trial and drying the film, the first film 212 in a film fluorescent machine. Put a trial and expose to light. The exposed trial is put into a washing machine to clean the oil material, and if there is no abnormality, the first trial is completed by drying.

The finished primary plate is mounted on a printing machine, and an appropriate amount of ink is poured onto a printing trial and the acrylic 211 is printed. Check the printing surface of the article and start the first printing work if there is no abnormality.

As described above, the edge of the printed acrylic 211 is dried by the primary printing operation, and the second film 213 formed with the letters to be printed is produced to complete the secondary trial by the same operation as the primary trial. . The secondary plate is mounted on a printing machine and undergoes a secondary printing operation of printing a character on an acrylic 211 having a border printed thereon.

Finally, the third film 214 is formed in the color of the outer to be printed to complete the third trial in the same operation as the primary trial. The tertiary plate is mounted on a printing machine, and the LCD window 210 is completed through a tertiary printing operation of printing a color on an acrylic 211 having a border and a letter printed thereon.

However, the above-described configuration according to the prior art is to produce each film separately in order to print letters, colors or various shapes on the acrylic material in order to produce the LCD (LCD) window to complete the trial, and then in turn to the acrylic material If the printing operation, if the character or color or shape is complex, there is a problem that additionally to produce the film, there is a disadvantage that the longer the production time. In addition, there is a problem that the graft of various designs is difficult.

In order to solve the problems described above, the present invention prints acrylic material using a printer printing technique, which eliminates processes such as film production and trial production, and reduces labor costs and increases efficiency due to automation. An object of the present invention is to provide an acrylic printing method for LCD (LCD) windows using a printer capable of printing, high gloss Miller printing, and functional printing.

In the structure to achieve the purpose,

The acrylic raw material is cut in a cutting machine to the size to be put into the process, and the pre-processing step of washing the cut raw material in a washing machine and drying the washed raw material in a dryer, and then pre-treating the printing surface of the acrylic in a printing press; ;

An image storing step of storing an image to be printed on the preprocessed acrylic in a computer through a digital camera or a scanner;

An image editing step of editing the image stored in the computer by an illustration or a CAD means and storing the image in the computer;

The edited image is transmitted to a printer connected to a computer and includes a printing step of printing on the printing surface of the preprocessed acrylic.

As another feature of the present invention, the printing step includes the step of fixing the antistatic raw material to the bottom jig of the printer; Transmitting data to be printed on the raw material from a computer to a printer; Setting the resolution and speed of the printer printer by an input device connected to the printer; Displaying, on a monitor, the abnormality of the printing surface of the article printed by the printer with an image stored in a computer through a scanner; And displaying the ink ejection nozzle state of the printer on a monitor of a computer in real time.

As another feature of the present invention, the pretreatment step is a surface of the material to be printed in the printing machine is cleaned with a cleaning agent at the same time the antistatic coating layer is formed.

As another feature of the present invention, the printer is capable of adjusting the height of the setting frame according to the thickness of the acrylic is added.

Figure 4 is a manufacturing process of the LCD window using the printer according to the present invention, Figure 5 is a view showing a printing process using the ink printer according to the present invention.

Hereinafter, the components will be described with reference to the drawings.

A manufacturing process for manufacturing an LCD window is performed as shown in FIG. 4.

After cutting the foreign material using an air gun to the cut surface of the acrylic material cut in the cutting machine to the size to be prepared in the process, and washed in a washing machine, and dried the washed raw materials in a dryer. Pre-treatment is performed in the printing machine for the printed surface of the dried acrylic, the cleaning solution used for the pretreatment is a dedicated cleaning article generally used to form an antistatic coating layer to remove static electricity together (step S10).

After the preprocessing step, the image to be printed on the preprocessed acrylic is stored in a computer through an input means such as a digital camera or a scanner (step S20), and the image stored in the computer is edited using an illustration or a CAD. The image is edited and stored in the computer (step S30).

The input image is synthesized or edited by a computer to produce characters, colors, or various shapes to be formed on an acrylic material.

The edited image is transmitted to a printer connected to a computer, and the height of the setting frame is adjusted according to the thickness of the acrylic to be input and printed on the printing surface of the preprocessed acrylic (step S40), see FIG. 5. Referring to the printing process using the ink printer as follows.

First, the antistatic raw material (acrylic material) is fixed to the lower jig (step S41), and the data to be printed on the raw material is transferred from the computer to the printer (step S42), and the resolution and speed of the printer printing machine are Set by the connected input device (step S43), the printing surface of the article printed by the printer is displayed on the monitor compared with the image stored in the computer through the scanner (S44 step), the ink jet of the printer The nozzle status is displayed on the computer monitor in real time (step S45).

When produced by the printing method of the acrylic material using the printer, the production amount (based on 12 hours) is 11,520 pieces (one person manages three) is produced, the automation rate is 100% when the work is stabilized. In addition, the printer manufactured as described above is capable of high-resolution multicolor printing, high gloss miller printing, and functional printing.

In addition, all future printing will inevitably switch to an automated printer method.

As described above, the present invention can be fully automated, thereby increasing profits and efficiency due to labor cost reduction, production increase, and defect rate reduction, and shortening the basic process, thereby eliminating the shortage of professional manpower such as cost reduction and printing engineer. In addition to multi-color printing, high-gloss miller printing or functional printing such as fragrance printing and well-being printing can be implemented.

Claims (4)

In the method of printing an acrylic raw material for LCD (LCD) window, The acrylic raw material is cut in a cutting machine to the size to be put into the process, the pre-processing step of washing the cut raw material in a washing machine and drying the washed raw material in a dryer, and then pretreatment in a printing machine for the printing surface of acrylic (S10); An image storage step (S20) of storing the image to be printed on the preprocessed acrylic in a computer through a digital camera or a scanner; An image editing step (S30) in which the image stored in the computer is edited by an illustration or a CAD means and stored in the computer; The edited image is transferred to a printer connected to a computer acrylic printing method for an LCD window using a printer, characterized in that it comprises a printing step (S40) is printed on the printing surface of the pre-processed acrylic. The method of claim 1, wherein the printing step (S40), Fixing the anti-static raw material to the bottom jig of the printer (S41); Transmitting data to be printed on the raw material from a computer to a printer (S42); Setting a resolution and a speed of the printer printer by an input device connected to the printer (S43); A step (S44) in which the printing surface of the article printed by the printer is displayed on the monitor in comparison with an image stored in a computer through a scanner (S44); And (S45) displaying the ink ejection nozzle state of the printer on a monitor of a computer in real time. The method of claim 1, The pre-treatment step (S10) is an acrylic printing method for an LCD window using a printer, characterized in that the surface of the material to be printed in the printer is cleaned with a cleaning agent and at the same time an antistatic coating layer is formed. The method of claim 1, The printer acrylic printing method for the LCD window using the printer, characterized in that the height of the setting frame can be adjusted according to the thickness of the acrylic.

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