KR20160070391A - Protecting film and manufacturing method of the film - Google Patents

Abstract

The present invention relates to a manufacturing method of a high-hardness film for protecting an LCD, and the high-hardness film for protecting the LCD manufactured thereby, in which a handle is formed. The manufacturing method of a high-hardness protecting film for protecting the LCD and a high-hardness film for protecting individual LCDs by processing the high-hardness film for protecting the LCD, in which at least one protecting sheet is attached on upper and lower portions of the protecting film, respectively, includes the steps of: performing primary laser cutting such that the protecting sheet attached to the lower portion of the protecting film is irradiated with a laser to perform laser cutting up to a surface where the protecting film and the upper protecting sheet is attached, and a line of the laser cutting corresponds to a size of a display part on which the high-hardness film is to be attached; and performing secondary laser cutting such that the laser is irradiated to cut through the protecting sheet attached on the lower portion of the protecting film and the protecting film up to the upper surface of the protecting sheet attached on the upper portion of the protecting film, and a line of the laser cutting includes a handle area expanded to be larger than the size of the display part on which the high-hardness film is to be attached in order to form a handle on the protecting film.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for manufacturing a high hardness film for protecting liquid crystal, and a high hardness film for liquid crystal protection produced by the method.

TECHNICAL FIELD The present invention relates to a liquid crystal protective film, and more particularly, to a method for manufacturing a high hardness film for protecting a liquid crystal having a handle and a high hardness film for protecting liquid crystal manufactured by the method.

As the spread of display display terminals (mobile phones, smart phones, notebooks, tablet PCs, digital cameras, navigation devices, game devices, robots, electronic notebooks, etc.) using touch screen panels such as LCDs, PDPs and OLEDs has dramatically expanded, A touch screen panel with a convenient touch function is rapidly enlarged and used.

Accordingly, protective films made of general synthetic resin, which is attached to the upper part of the touch screen panel to protect the touch screen panel and prevent scratches, are widely used

In order to improve the surface hardness of the protective film made of synthetic resin such as PMA (Poly Methyl Acrylate), PET (Poly-Ethylene Terephthalate) and PC (Poly Carbonate), a hard coating is applied and an adhesive is coated on the opposite surface have.

However, most of these protective films made of synthetic resin have a problem of using clean and clear touch screen panels as scratches are easily generated in general life scratches at 6H from 1H which is not high in surface hardness. In addition, since the protective film made of a synthetic resin is made of a plastic material, it is resistant to heat resistance, chemical resistance, physical properties, and the thickness is thin, so that it is difficult to adhere and the impact protection function is weak.

To solve this problem, a protective film for high-hardness (6H or more) hard coating having high surface hardness or a protective film for liquid crystal protection of high hardness material containing glass has begun to be widely used. However, it is disadvantageous that accurate cutting of the hardened material is not possible with ordinary cutting or NC cutting.

Furthermore, since the general protective film for protecting liquid crystal is manufactured in accordance with the size of the display mounting surface, it is not easy to accurately adhere the protective film for protecting liquid crystal to the display mounting surface, There is a disadvantage in that the adhesiveness of the portion contacting with the resin is low.

Accordingly, the applicant of the present application has come up with a solution to solve all of the above-mentioned disadvantages.

Korea Utility Model Registration Bulletin 20-0472135 Korean Patent Publication No. 10-2014-0004440

The present invention has been made in order to solve the above-mentioned disadvantages, and it is an object of the present invention to provide a liquid crystal display device capable of precisely attaching a protective film for protecting liquid crystal to a display mounting surface, And a main object thereof is to provide a film production method and a high hardness film for liquid crystal protection produced by the method,

It is still another object of the present invention to provide a method for manufacturing a high hardness film for liquid crystal protection and a method for precisely cutting a high hardness film for protecting liquid crystal with a display surface size, And a high hardness film for protecting liquid crystal.

According to another aspect of the present invention, there is provided a method of manufacturing a high hardness film for protecting liquid crystal, comprising: forming a hard protective film for liquid crystal protection; A method for producing a high hardness film for protecting individual liquid crystals by processing a film,

Cutting a protective sheet attached to a lower portion of the protective film with a laser beam to cut off the protective film and an upper protective sheet adhering surface, the laser cutting line having a size corresponding to a size of a display unit to be attached;

A protective film attached to the lower part of the protective film and a protection film upper surface attached to the upper part of the protective film through a protective film and laser cutting the laser cut line so that a handle is formed on the protective film, And cutting the second laser so that the handle region extended beyond the size is included.

In this method of manufacturing a hard film for protecting liquid crystal, another feature is that the primary laser cutting is performed by laser irradiation at 12 to 13% of the maximum output of the laser light source in the primary laser cutting step,

And when the protective paper attached to the upper part of the protective film has a structure of two or more stages, the uppermost protective sheet and the lower protective sheet adhered surface are laser cut when the secondary laser is cut.

In the secondary laser cutting step, the laser is irradiated with an output of 22 to 23% of the maximum output of the laser light source to cut the secondary laser.

The high hardness film for protecting liquid crystal according to an embodiment of the present invention is a high hardness film for liquid crystal protection manufactured by the above-

A protective film for protecting a liquid crystal having a high hardness, at least having a protective film region and a pull region corresponding to a size of a display display unit, the protective film region being divided by a laser cut, a lower protective film adhered to a lower portion of the protective film region, And an upper protective paper adhered thereto.

According to the embodiment of the present invention as described above, the high-hardness protective film is divided into a protective film region and a spare knob region which are suitable for the size of the display display unit, and thus, by utilizing the knob region, And a high-hardness film for protecting the liquid crystal is formed through laser cutting, so that the cutting surface can be cut more precisely.

In addition, since the film handle region and the protective film region are separated from each other, the present invention can provide an adhesive force improving effect as compared with the conventional method in which the protective film region is held by hand.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a single layer structure of a high hardness film for protecting liquid crystal according to an embodiment of the present invention; FIG.
Fig. 2 to Fig. 4 are views showing examples of a single layer structure of a high hardness film according to an embodiment of the present invention.
Fig. 5 is an external view of a high hardness film for protecting liquid crystal prepared according to an embodiment of the present invention, in accordance with a process for manufacturing a hard film for protecting liquid crystal. Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 illustrates a single-layer structure view of a high hardness film for protecting liquid crystal according to an embodiment of the present invention.

1, the high hardness film for protecting liquid crystal according to an exemplary embodiment of the present invention includes a protective film 100 for protecting liquid crystal having a high hardness (6H or more) The protective film 120, 130, 140, 150 is attached to the high-hardness film for protecting the liquid crystal, and the film is formed into a high hardness film for protecting each liquid crystal.

In the embodiment of the present invention, the two upper protective sheets 1 and 2 (120 and 130) are attached to the upper part of the LC protective film 100 and the lower protective sheets 1 and 2 (140 and 150) But not limited to, a high hardness film for protecting a liquid crystal having one or more stages of protective paper can also be manufactured as a high hardness film for protecting individual liquid crystals by the present invention.

On the other hand, in FIG. 1, the grip region 110 is located on both sides of the hardness protective film 100, which indicates that the hardness protective film 100 is divided into two regions. That is, one is a protective film area 100 that matches the display display size, and the other is a handle area 110 serving as a handle. The process of dividing the high hardness protective film into two regions will be described later.

FIGS. 2 to 4 each illustrate a single-layer structure of a high hardness film according to an embodiment of the present invention. FIG. 5 illustrates an external view of a high hardness film for protecting liquid crystal produced according to an embodiment of the present invention.

3, a protective film 100 for protection of liquid crystal having a high hardness and a protective film 100 having a high hardness for protecting liquid crystal with one or more protection papers 120 to 150 attached on the upper and lower sides of the protective film 100, respectively, A laser beam is irradiated to the protective paper 2 150 attached to the lower part of the protective film 100 to cut the laser to the adhesion surface of the protective film 100 and the upper protective paper 2 130, Primary laser cutting (A step) to match the size.

By the primary laser cutting, the hardness protective film 100 is divided into the protective film region 100 and the knob region 110 that match the display display size. In the primary laser cutting step (A), although there is a slight difference depending on the size of the device, it is preferable to perform the primary laser cutting by laser irradiation at 12 to 13% of the maximum output of the laser light source. The maximum power of the laser light source is about 250W.

After the primary laser cutting, protective films 1 and 2 140 and 150 attached to the lower part of the protective film 100 and upper protective film 2 130 attached to the upper part of the protective film 100 through the protective film 100 The laser cutting line is cut by a second laser so that the handle region 110 extended from the size of the display unit to be attached is formed so that the handle is formed on the protective film 100. In the secondary laser cutting step, it is preferable to perform secondary laser cutting by laser irradiation at an output of 22 to 23% of the maximum output of the laser light source.

The primary laser cutting may be performed after the secondary laser cutting, but it is preferable to perform the primary and secondary laser cutting sequentially in order to reduce the impact on the yarn plus.

When the primary and secondary laser cutting steps are performed as described above to fabricate the individual (unit) high hardness film for protecting liquid crystal, it can be attached to the display unit. For reference, the appearance of the high hardness film for protecting individual liquid crystal is as shown in Fig.

3, the lower protective sheets 140 and 150 located under the handle region 110 are separated using the cutting line cut by the primary laser in the film produced by the process shown in FIG. 2, And the protective film region 100 is positioned and adhered. In Fig. 3, the grip region 110 and the protective film region 100 are separated by a cutting line formed by the first laser cutting (A) step. For example, the protective film corresponding to the right knob region 100 The protective paper 2 130 attached to the upper part can be removed as well. An example of such a state is shown in Fig. That is, only the high-hardness protective film 100 matching the size of the display unit 200 is adhered to the display unit 200.

In summary, the high hardness liquid crystal protective film 100 and the high hardness film for protecting liquid crystal having one or more protective sheets 120 to 150 on the protective film 100 and the lower protective film 100, respectively, The protective film 140 and 150 attached to the lower portion of the protective film 100 are laser-irradiated with a laser beam to the adhesion surface of the protective film 100 and the upper protective film 130. The laser cutting line is a size The protective film 100 and the upper surface of the protective paper 130 attached to the upper portion of the protective film 100 through the protective film 100 The laser cutting line is cut by a secondary laser so as to include a handle region 110 that is larger than the size of the display unit 200 to be attached so that a handle is formed on the protective film 100 A high hardness film for protecting individual liquid crystals of the form shown in Fig. 5 is completed. 5, the handle region 110 is formed on the upper and lower portions of the film 100. However, the handle region 110 may be formed on the upper or lower portion of the film 100, for example, one or both of the upper and lower portions, One or more than one may be formed.

When the protective film area 100 of the high hardness film for protecting liquid crystal as shown in FIG. 5 is exactly aligned with the display unit 200 as shown in FIG. 3 and then the grip area 110 is detached, Can be normally separated.

For reference, the upper protective sheet 120 may be removed at the process stage or the product shipping stage as another protective sheet for protecting the upper protective sheet 130 located at the lower position in the process step.

As described above, according to the present invention, the protective film region 100 and the extra grip region 110, which correspond to the size of the display unit 200, are separately provided for the hardness protection film, So that the user can conveniently attach the film to the display unit 200 and the cutting face can be cut more precisely by making the high hardness film for protecting the liquid crystal through the laser cutting.

In addition, since the film handle region 110 and the protective film region 100 are separated from each other, the present invention can provide an adhesive force improving effect as compared with the conventional method in which the protective film region 100 is held by hand.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It will be readily apparent that various substitutions, modifications, and alterations can be made herein. Accordingly, the true scope of the present invention should be determined only by the appended claims.

Claims (5)

A method for manufacturing a high hardness film for protecting individual liquid crystal by processing a high hardness protective film for liquid crystal protection and a high hardness film for protecting liquid crystal having at least one protective paper on each of the upper and lower protective films,
Cutting a protective sheet attached to a lower portion of the protective film with a laser beam to cut off the protective film and an upper protective sheet adhering surface, the laser cutting line having a size corresponding to a size of a display unit to be attached;
A protective film attached to the lower part of the protective film and a protection film upper surface attached to the upper part of the protective film through a protective film and laser cutting the laser cut line so that a handle is formed on the protective film, And cutting the secondary laser so that the handle region extends beyond the size of the handle region.
The method of claim 1, wherein in the primary laser cutting step, primary laser cutting is performed by laser irradiation with a power of 12 to 13% of a maximum output of the laser light source.
[2] The method of claim 1, wherein, when the protective paper attached to the upper portion of the protective film has a structure of two or more stages, the uppermost protective sheet and the lower protective sheet adhered surface are laser cut during the secondary laser cutting.
The method according to any one of claims 1 to 3, wherein in the secondary laser cutting step, the secondary laser cutting is performed by laser irradiation at 22 to 23% of the maximum output of the laser light source .
A high hardness film for protecting liquid crystal produced by the method for manufacturing a hard film for protecting liquid crystal according to claim 1, claim 2, and claim 3, wherein at least a protective film area and a handle area, A lower protective film adhered to a lower portion of the protective film region; and an upper protective film attached to an upper portion of the protective film region and an upper portion of the handle region.

Images