KR100578203B1 - Package for an optical sheet and a packing method for the same - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a packaging package and a packaging method of an optical sheet, wherein an optical sheet having an adhesive layer is first packaged by a first packaging member, and the material of the first packaging member contains a plastic substrate and polysiloxane. The first packaging member is then packaged by the second packaging member, but this second packaging member is an opaque material. The plastic substrate is selected from the group consisting of polyethylene and polyethylene terephthalate and the polysiloxane is characterized by less than 5% by weight, preferably less than 3% by weight relative to the plastic substrate.

Description

PACKAGE FOR AN OPTICAL SHEET AND A PACKING METHOD FOR THE SAME}

FIG. 1A shows a conventional packaging method of a polarizing plate, FIG. 1B is a flowchart of FIG. 1A,

Figure 2a shows a preferred embodiment of the present invention, Figure 2b shows another preferred embodiment, Figure 2c is a flow chart showing the packaging step of the present invention,

Figure 3a shows a preferred embodiment of the present invention, Figure 3b shows another preferred embodiment, Figure 3c shows another preferred embodiment of the present invention, Figure 3d shows another preferred embodiment of the present invention Drawing.

* Explanation of symbols for the main parts of the drawings

102: polarizing plate 212a: packaging bag

212b: wrapping paper 222: aluminum bag

232, 234: step 302: a plurality of optical sheets

304: spacer 306: packing case

308: packing box 312: a plurality of optical sheets

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to the packaging of an optical sheet, and more particularly to a packaging package and a method for packaging an optical sheet having an adhesive layer.

Liquid crystal displays have the advantages of high quality, small volume, light weight, low voltage driving, low power consumption, and a wide range of applications. This makes them widely used in popular consumer electronics or computer products such as small and medium sized portable televisions, cellular phones, video cameras, notebook computers, desktop displays and projection televisions, and gradually replaces cathode ray tubes (CRTs). The mainstream of the indicator.

The basic principle of the liquid crystal display is to first arrange polarizing plates on both sides of the liquid crystal layer of the liquid crystal pixel, control the arrangement direction of the liquid crystal molecules in the liquid crystal layer by the electric field, and control the level at which the light rays of the liquid crystal pixel pass by the polarizing plate. Therefore, in the liquid crystal display, the polarizing plate is an important and essential component, i.e., the quality of the polarizing plate itself is in fact closely related to the screen quality of the liquid crystal display.

In general, manufacturers of liquid crystal displays purchase various polarizing plates from manufacturers of polarizing plates and use them in the arrangement of liquid crystal panels in accordance with the requirements of specifications or prices. Manufacturers of polarizers carry the completed polarizers to manufacturers of liquid crystal displays and mount them on both sides of the liquid crystal panel.

However, since the polarizing plate is a fine optical sheet, it is contaminated by collision or dust in the air and is easily destroyed. For this reason, before carrying a polarizing plate, it was necessary to protect by packaging and to prevent a polarizing plate from being damaged and contaminated by an external environment. In addition, the polarizing plate is manufactured by adhering a plurality of optical layers. However, if the polarizing plate is simply packaged with a normal package without being processed by a special packing or method, the material of the adhesive layer included in the polarizing plate is contacted and rubbed out. To contaminate the surface of the polarizing plate.

Figure 1a shows a packaging method according to the prior art, Figure 1b is a flow chart of Figure 1a. In the prior art, as shown in FIGS. 1A and 1B, first, two release films 112 and one release film 114 are crossed crosswise, and the polarizing plate 102 is packaged therein (step 132). ) And the surface of the release film 112 and the release film 114 are subjected to special treatment, so that the adhesive layer material in the polarizing plate does not flow out. Subsequently, a polarizing plate having an outer layer already wrapped by a release film is placed in an aluminum bag 122 (step 134, and the packaging of the polarizing plate is completed. Then, the aluminum bag 122 is irradiated to prevent the external light rays from being destroyed by irradiating the polarizing plate. Block the light by).

However, in order to prevent the adhesive layer material from leaking out, the surface of the release film 112 and the release film 114 had to be subjected to special treatment, which required high cost. In addition, the conventional packaging method shown in FIG. 1A requires the use of three packaging components, namely, the release films 112 and 114 and the aluminum bag 122, and the release film 112 and the release film ( Since the polarizing plate 102 had to be wrapped by crossing the cross 114, the defect occurrence rate at the time of packaging the polarizing plate was increased, and the cost burden of material, effort, and time was increased. In addition, since the packaging package is complicated, it is difficult to automate the packaging, and it is difficult for the manufacturer of the polarizing plate to improve production efficiency and yield.

Therefore, the main object of the present invention is to wrap or fill an optical sheet with a silicon-applied packaging member, to prevent the packaging member from rubbing against the optical sheet, to prevent the adhesive layer material from leaking out, It is to provide a packaging package of an optical sheet that reduces the quantity, thereby reducing the material cost and the packaging time required.

It is still another object of the present invention to provide a method for packaging an optical sheet that reduces the packaging step, increases the yield of the packaging process, reduces the cost of packaging efforts, and facilitates the introduction of an automated packaging process.

The present invention provides a packaging package of an optical sheet for this purpose, to package an optical sheet having an adhesive layer. First, an optical sheet having an adhesive layer is packaged by a first packaging member, and the material of the first packaging member includes a plastic substrate and polysiloxane. The first packaging member is then packaged by the second packaging member, but this second packaging member is an opaque material.

According to a preferred embodiment of the present invention, the optical sheet may be an optical element including a polarizing plate, sunglasses or other adhesive layer. In addition, the packaging package of the present invention may package not only one optical sheet but a plurality of optical sheets. The plastic substrate is selected from the group consisting of polyethylene and polyethylene terephthalate and the polysiloxane is less than 5% by weight, preferably less than 3% by weight relative to the plastic substrate.

The first packaging member is a packaging bag, a wrapping paper, a packaging case, a packaging box or a packaging portion of another type, and the second packaging member is an aluminum bag or other opaque packaging member, for example, a packaging case or packaging box. In addition, when using a plurality of optical sheets using the first packaging member, a spacer is inserted between the optical sheet and the first packaging member to reduce damage to the surface of the optical sheet. In addition, this embodiment further adds an antistatic material to the material of the first packaging member, thereby preventing static electricity from occurring between the first packaging member and the optical sheet and destroying the photoelectric sheet.

(Best form for carrying out the invention)

The present invention replaces the conventional three packaging members of the packaging package to two, and reduce the cost to improve the yield and efficiency. In addition, the present invention adds a specific weight percent of polysiloxane to the material of the packaging member in contact with the optical sheet to lower the coefficient of friction of the inner layer surface of the packaging member. As described above, in the prior art, the situation in which the material of the adhesive layer flows out by the packaging member to contaminate the optical sheet is improved.

2A is a preferred embodiment of the present invention. Shown in Figure 2b is another preferred embodiment of the present invention. 2C is a flow chart illustrating the packaging steps of FIGS. 2A and 2B. In the following description, reference is made to FIGS. 2A to 2C.

As shown in FIG. 2A, in the present preferred embodiment, the first packaging member is a packaging bag 212a, the optical sheet is a polarizing plate 102, and the second packaging member is an opaque aluminum bag 222. First, the polarizing plate 102 is packaged by the packaging bag 212a (step S232), and then the packaging bag 212a containing the polarizing plate 102 is packaged with an aluminum bag 222 (step 234), whereby the polarizing plate ( Complete the packaging of 102).

In the present preferred embodiment, as shown in FIG. 2B, the first packaging member is a wrapping paper 212b, the optical sheet is a polarizing plate 102, and the second packaging member is an opaque aluminum bag 222. First, the wrapping paper 212b is folded along the dotted line, and then the polarizing plate 102 is packaged (step 232), and the wrapping paper 212b containing the polarizing plate 102 is wrapped with an aluminum bag 222 (step 234) to form a polarizing plate ( Complete the packaging of 102).

2A and 2B show that the first packaging member can be formed in various forms, for example, the packaging bag of FIG. 2A or the packaging paper of FIG. 2B according to the situation, and the packaging method of packaging with the packaging paper is a It is a packaging and shows that it is easy to automate a packaging process.

The packaging package of the present embodiment can be used not only for one optical sheet but also for a plurality of optical sheets. In addition, it is necessary to provide a packaging member of a more suitable type in the present embodiment with respect to an optical sheet in which a plurality of sheets are stacked together. Subsequently, in Figs. 3A to 3D, an embodiment of various types of packaging members of the present embodiment and a packaging method thereof will be described.

Figure 3a is a preferred embodiment of the present invention. In this preferred embodiment, the first packaging member is a packaging bag 212a, the plurality of optical sheets 302 is a polarizing plate 102 of which a plurality of sheets are stacked together, and the second packaging member is an opaque aluminum bag 222. )to be. First, the plurality of optical sheets 302 are packaged by the packaging bags 212a (step 232), and then the packaging bags 212a containing the plurality of optical sheets 302 are packaged with the aluminum bags 222 (steps). 234), complete the packaging.

3B is another preferred embodiment of the present invention. In this preferred embodiment, the first packaging member is a wrapping paper 212b, the plurality of optical sheets 302 overlap the plurality of polarizing plates 102 together, and the second packaging member is an opaque aluminum bag 222. . First, the wrapping paper 212b is folded along the dotted line to wrap the plurality of optical sheets 302 (step 232), and then the wrapping paper 212b containing the plurality of optical sheets 302 is wrapped with an aluminum bag 222 ( Step 234), the packaging is completed. In addition, the spacer 304 is placed on both sides of the plurality of optical sheets 302, thereby reducing the situation that the surfaces of the two polarizing plates 102, which are the outermost layers, are damaged.

3C is another preferred embodiment of the present invention. In this preferred embodiment, the first packaging member is a packaging case 306, the plurality of optical sheets 302 overlap the plurality of polarizing plates 102 together, and the second packaging member is an opaque aluminum bag 222. . First, the plurality of optical sheets 302 are put in the packaging case 306 (step 232), and the packaging case 306 containing the plurality of optical sheets is wrapped with an aluminum bag 222 (step 234) to complete the packaging. do. In addition, the spacer 304 is placed on both surfaces of the plurality of optical sheets 302 to reduce the situation that the surfaces of the two polarizing plates 102, which are the outermost layers, are damaged.

3d is another preferred embodiment of the present invention. In this preferred embodiment, the first packaging member is a packaging box 308, the plurality of optical sheets 312 overlap the plurality of polarizing plates 102 together, and the second packaging member is an opaque aluminum bag 222. to be. First, the plurality of optical sheets 312 put therein are packed in a packing box 308 (step 232), and the packing box 308 containing the plurality of optical sheets 312 is packed with an aluminum bag 222 ( Step 234), the packaging is completed.

In addition, spacers 304 are respectively added to both surfaces of the plurality of optical sheets 302 to reduce the situation in which the surfaces of the two outermost polarizing plates 102 are damaged. In the present embodiment, a method of stacking a plurality of optical sheets in the first packaging member is changed as required or necessary. That is, it is a method of superimposing the plurality of optical sheets 302 in parallel in the packaging case 306 as shown in FIG. 3C, or vertically stacking the plurality of optical sheets 312 as shown in FIG. 3D. The packaging method is overlapped in the packaging box (308).

Moreover, the optical sheet which has an adhesive bond layer is an optical element containing a polarizing plate, sunglasses, or another adhesive bond layer. In addition, the present embodiment further provides that the first packaging member including the plastic substrate and the polysiloxane in the material wraps the optical sheet, and the polysiloxane smoothly changes the inner layer surface of the first packaging member, thereby contacting the optical sheet when contacted with the optical sheet. Prevents the included adhesive layer material from leaking out. Polyethylene (PE), polyethylene terephthalate (PET), polyamide (nylon) or other plastic materials may be used for the plastic substrate, and among them, polyethylene and polyethylene terephthalate are inexpensive. Is preferably selected as the plastic substrate of the present embodiment.

The present invention is also characterized by the weight percent of polysiloxane and plastic substrate. According to this embodiment the polysiloxane is less than 5% by weight, preferably less than 3% by weight relative to the plastic substrate. Hereinafter, a description will be made to reliably reduce the probability that the polarizing plate is contaminated in the packaging member by the result data of the measurement experiment of the present invention.

In this measurement test, the optical sheet is a 15-inch polarizing plate, the first packaging member is a wrapping paper, and the second packaging member is an aluminum bag. Among them, the wrapping paper is classified into four kinds of wrapping papers in which polysiloxane is not added and in which 1% by weight, 2% by weight, and 3% by weight of polysiloxane is added. In general, when the adhesive layer material contained in the polarizing plate flows out, the adhesive layer material forms a small white spot-like contamination on the cross section of the polarizing plate, and the larger the number of these small white spots, the more the friction received by the polarizing plate.

After performing a standard preparation process before packaging, such as cleaning and dust removal, on the polarizing plate, first likewise to the embodiment of FIG. 2B, the wrapping paper is folded along the dotted line to package the polarizing plate, and then the wrapping paper of the polarizing plate already packaged by aluminum bags. Pack it. Table 1 below lists the number of small white spots in which the polysiloxane is not added and the four types of wrapping papers in which the polysiloxane is added in 1% by weight, 2% by weight, and 3% by weight are generated in the cross section of the polarizing plate, respectively. The effect of this embodiment is explained.

The number of small white spots generated at different cross-sections of the polarizer by different weight percentages % By weight of polysiloxane 0 One 2 3 Number of small white spots (pcs) 23 8 3 4 % Of small white spot without polysiloxane 100 35 13 17

As can be seen in Table 1, when the polysiloxane is added to the wrapper in contact with the polarizing plate, the adhesive layer material included in the polarizing plate is leaked, thereby significantly reducing the probability of contaminating the polarizing plate. According to other embodiments of the present invention, the preferred weight percentage of polysiloxane added in other plastic substrates varies depending on the difference in plastic substrate and process, but the upper limit of addition is about 5%.

In addition, the addition of polysiloxane may further improve the antistatic ability of the first packaging member. In order to more effectively increase the antistatic force, the present embodiment can not only reduce the contamination of the optical sheet by adding an antistatic material such as an antistatic agent containing NH ₄ ^+, etc. in the material of the first packaging member, The optical sheet can be prevented from being destroyed by static electricity generated in the member.

However, it should be noted here that the purpose of the present invention is to add polysiloxane to the packaging member for packaging the optical sheet, and to reduce the situation in which the adhesive layer material flows out by friction with the optical sheet and contaminates the optical sheet. For this reason, other various applications of the present invention, for example, the first packaging member and the second packaging member are combined to form a composite packaging member or a first packaging member as an opaque packaging member whose material is dyed plastic and contains polysiloxane. Application methods should also be included within the spirit and scope of the invention.

In the present invention, preferred embodiments have been disclosed as described above, but these are by no means limited to the present invention, and any person skilled in the art does not depart from the spirit and scope of the present invention. Can be added. Therefore, the protection scope of the present invention is based on the contents specified in the claims.

The present invention replaces the conventional three packaging members of the packaging package to two, reducing the cost to improve the yield and efficiency. Since the material of the first packaging member for packaging the optical sheet contains polysiloxane, the surface of the inner layer becomes smoother, and when contacted with the optical sheet, the adhesive layer material contained in the optical sheet can be reduced. In addition, the steps of the packaging method of the present invention are simple and require no precise operation, so that not only the yield of the packaging process is increased, but also the cost of effort in packaging is reduced, so that the introduction of the automated packaging process becomes easier.

Claims (22)

In the packaging package of an optical sheet for packaging an optical sheet having an adhesive layer, A first packaging bag for packaging the optical sheet and comprising a base material and polysiloxane as materials; Packaging the first packaging bag, and having a second packaging bag made of an opaque material, Wherein said substrate is selected from the group consisting of polyethylene and polyetherineterephthalate, and said polysiloxane is less than 5% by weight relative to said substrate. The method of claim 1, Wherein said polysiloxane is less than 3% by weight relative to said substrate. The method of claim 1, The second packaging bag is a packaging package of an optical sheet, characterized in that the aluminum bag. The method of claim 1, The material of the first packaging bag is a packaging package of an optical sheet, characterized in that further comprises an antistatic material. In the packaging package of an optical sheet for packaging an optical sheet having an adhesive layer, A first packaging member for wrapping the optical sheet and including a plastic substrate and polysiloxane as materials; And a second packaging member made of an opaque material, for packaging the first packaging member. The method of claim 5, wherein The plastic substrate is a packaging package of an optical sheet, characterized in that one selected from the group consisting of polyethylene and polyethylene terephthalate. The method of claim 5, wherein Wherein said polysiloxane is less than 5% by weight relative to said substrate. The method of claim 5, wherein Wherein said polysiloxane is less than 3% by weight relative to said substrate. The method of claim 5, wherein The first packaging member is a packaging package of the optical sheet, characterized in that for selecting one from the group consisting of a packaging bag, packaging paper, packaging case and packaging box. The method of claim 5, wherein The second packaging member is a packaging package of an optical sheet, characterized in that the aluminum bag. The method of claim 5, wherein The packaging package of the optical sheet, characterized in that the material of the first packaging member further comprises an antistatic material. In the packaging method of an optical sheet for packaging an optical sheet having an adhesive layer, Packaging the optical sheet with a first packaging member; Packaging the first packaging member with a second packaging member; And the first packaging member comprises a plastic substrate and polysiloxane as material, and the second packaging member is made of an opaque material. The method of claim 12, The plastic substrate is a packaging method of an optical sheet, characterized in that one selected from the group consisting of polyethylene and polyethylene terephthalate. The method of claim 12, Wherein said polysiloxane is less than 5% by weight relative to said substrate. The method of claim 12, And wherein said polysiloxane is less than 3 weight percent of said substrate. The method of claim 12, The first packaging member is a packaging method for packaging an optical sheet, characterized in that one selected from the group consisting of a packaging bag, a wrapping paper, a packaging case and a packaging box. The method of claim 12, The second packaging member is a packaging method of an optical sheet, characterized in that the aluminum bag. The method of claim 12, The material of the first packaging member further comprises an antistatic material. In the packaging method of an optical sheet for packaging an optical sheet having an adhesive layer, Packaging the optical sheet with a first packaging bag; Packaging the first packing member with a second packing bag; The first packaging bag comprises a substrate and a polysiloxane as the material, the substrate is selected from the group consisting of polyethylene and polyethylene terephthalate, the polysiloxane is less than 5% by weight relative to the substrate, And the second packaging bag is made of an opaque material. The method of claim 19, And wherein said polysiloxane is less than 3 weight percent of said substrate. The method of claim 19, The second packaging bag is a packaging method of an optical sheet, characterized in that the aluminum bag. The method of claim 19, And the material of the first packaging bag further comprises an antistatic material.

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