KR101723454B1 - Light shielding tape and reflecting plate of flat panel display device - Google Patents

Abstract

The present invention relates to a light-shielding tape and a reflection plate for a flat panel display, and more particularly, it can be easily removed by forming a cutting line on a protective sheet provided on a release paper or a reflection plate provided on a light-shielding tape.
Accordingly, when the peeling paper is removed from the light-shielding tape, the FPCB of the light-shielding tape or the light-shielding tape and the LED assembly can be prevented from being lifted together to prevent defects.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a light shielding tape and a reflective plate for a flat panel display,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a light-shielding tape capable of shielding light leakage in a liquid crystal display device and a reflector for providing light to a liquid crystal panel through a light guide plate.

2. Description of the Related Art In recent years, the display field has rapidly developed in line with the information age. In response to this trend, a flat panel display device (FPD) having a thinness, light weight, A plasma display panel (PDP), an electroluminescence display device (ELD), and a field emission display device (FED) : CRT).

Among these, the liquid crystal display device is excellent in moving picture display and is most actively used in the fields of notebook computers, monitors, TVs and the like due to its high contrast ratio. The liquid crystal display device does not have a self- A light source is required.

Accordingly, a backlight unit having a lamp is provided on the back surface, and light is irradiated toward the front of the liquid crystal panel, thereby realizing an image of a brightness that can be recognized only through the backlight unit.

As a light source of the backlight unit, a cold cathode fluorescent lamp, an external electrode fluorescent lamp, and a light emitting diode (LED) are used.

Among them, LEDs are widely used as a display light source, combining features of small size, low power consumption, and high reliability.

FIG. 1 is a front view of a liquid crystal display module without a liquid crystal panel, and FIG. 2 is a sectional view of the liquid crystal display module of FIG.

As shown in the figure, the liquid crystal display module 10 includes a backlight unit 20, a support main 30 and a cover bottom 50. The liquid crystal display module 10 shows the state before the liquid crystal panel (not shown) is assembled on the backlight unit 20.

The backlight unit 20 includes an LED assembly 29 arranged along the longitudinal direction of at least one side edge of the support main body 30, a white or silver reflective plate 25 seated on the cover bottom 50, 25, and a plurality of optical sheets 21 interposed therebetween.

The LED assembly 29 is formed on one side of the light guide plate 23 and includes a plurality of light emitting LEDs 29a and a flexible printed circuit board 29b on which the LEDs 29a are mounted.

The reflection plate 25 is positioned on the back surface of the light guide plate 23 and reflects light passing through the back surface of the light guide plate 23 toward the liquid crystal panel (not shown).

The light guide plate 23 allows a surface light source to be provided to a liquid crystal panel (not shown) through light incident from each of the plurality of LEDs 29a of the LED assembly 29.

The cover bottom 50 covering the back surface of the backlight unit 20 is joined at the rear and the support main 30 is inserted into the support main body 30 Lt; / RTI >

On the upper surface of the backlight unit 20, a light shielding tape 61 for preventing light leakage is attached.

The light shielding tape 61 corresponds to a double-sided adhesive tape having a rectangular frame open at its center so as to cover the periphery of the upper surface of the backlight unit 20. The light shielding tape 61 has a single- A release paper 63 is attached to the upper surface of the backlight unit 20 in a state where the release paper is provided.

The release paper 63 is removed from the light shielding tape 61 when a liquid crystal panel (not shown) is attached to the upper part of the backlight unit 20. [

The release paper 63 has a rectangular plate shape corresponding to the size of the light shielding tape 61 and has a protrusion 63a at one side of the edge thereof to remove the release paper 63 from the light shielding tape 61 So that it can be done easily.

Hereinafter, the case where the release paper is removed from the light-shielding tape and the case where the release paper is removed from the light-shielding tape will be described with reference to the drawings.

FIG. 3 is a view showing the peeling force distribution of the release paper in the liquid crystal display module of FIG. 1, FIGS. 4A and 4B are views showing a case where the release paper is removed from the light shielding tape of FIG. 2, FIG. 5B is a view showing an example in which the release paper is removed in FIG. 2. FIG.

The distribution W1 of the force for removing the release paper 63 from the light shielding tape 61 as shown in Fig. 3, that is, the distribution W1 of the release force, The peeling force at the center of the protrusion 63a is the largest and the peeling force is reduced as the protrusion 63a protrudes from the center of the protrusion 63a. It can be seen that the peeling force is distributed.

When the release paper 63 is removed from the light shielding tape 61 through the projecting portion 63a of the release paper 63, the adhesive force F1 between the release paper 63 and the shielding tape 61 is applied to the light shielding tape (F2) of the LED assembly 29 with the FPCB 29b or the adhesion force F3 between the FPCB 29b of the LED assembly 29 and the support main body 30 > F3). As shown in FIG. 4A, when the release paper 63 and the light shielding tape 61 are swollen together (F1> F2, F2 <F3) The light shielding tape 61 and the FPCB 29b of the LED assembly 29 are caused to float together (when F1? F2 &gt; F3).

The lifting phenomenon is also caused when the pressing operation for pressing the upper portion of the light-incoming portion where the LED assembly 29 is located during the assembling process of the backlight unit 20 is not normally performed.

As a result, defective tilting of the LED assembly 29 occurs as shown in FIG. 5A, so that the direction B1 of the light emitted from each of the LEDs 29a of the LED assembly 29 is distorted to cause a light leakage phenomenon The failure of the LED assembly 29 to fall off from the support main body 30 occurs as shown in FIG. 5B so that a part B2 of the light emitted from each of the LEDs 29a of the LED assembly 29 There is a problem that the light is directly incident on the optical sheets 21.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems and it is an object of the present invention to provide a flat plate for preventing peeling off of the light- A first object of the present invention is to provide a light-shielding tape for a display device.

A second object of the present invention is to provide a reflector for a flat panel display capable of removing a protective sheet provided on a reflector with less force.

In order to achieve the above object, according to the present invention, in a light-shielding tape for a flat panel display device disposed between a liquid crystal panel and a backlight unit, the light-shielding tape has a size corresponding to the size of the light- And a release sheet attached to the adhesive layer and having a protrusion, wherein the release sheet has a first line of a first length extending along a first protruding edge line of the first and second protruding edge lines of the protrusion, And a cutting line having a second line bent at a right angle to the second protruding edge line and having a second length.

The cutting line is characterized by being in the form of a '' or '' shape.

And the first length of the first line has a range of 0.6 mm to 0.9 mm.

Meanwhile, in the reflector for a flat panel display device included in the backlight unit, the reflector has a size corresponding to the size of the reflector and is attached to the back surface of the reflector, and includes a protruding portion, A first line having a first length extending along a first protruding edge line of the first and second protruding edge lines of the protruding portion and a second line having a second length bent at a right angle toward the second protruding edge line at an end of the first line, And a cutting line is provided.

The cutting line is characterized by being in the form of a '' or '' shape.

And the first length of the first line has a range of 0.6 mm to 0.9 mm.

According to the light-shielding tape and the reflective plate for a flat panel display according to the present invention, it is possible to more easily remove the protective sheet or the protective sheet by forming the cutting line on the protective sheet provided on the release paper or the reflection plate provided on the light-

In particular, by forming the cutting line on the release paper, the release paper can be removed even with a low release force, and when the release paper is removed from the light-shielding tape, the FPCB of the light-shielding tape or the light- The occurrence can be eliminated.

1 is a front view of a liquid crystal display module without a liquid crystal panel.
2 is a cross-sectional view of the liquid crystal display module of FIG.
FIG. 3 is a view showing the peeling force distribution of the release paper in the liquid crystal display module of FIG. 1. FIG.
FIGS. 4A and 4B illustrate a case where the release paper is removed from the light shielding tape of FIG. 2, for example.
FIGS. 5A and 5B are views showing, for example, a liquid crystal display module in which a release paper is removed in FIG.
6 is an exploded perspective view of a liquid crystal display module according to an embodiment of the present invention.
FIG. 7 is a view showing a light-shielding tape according to the first embodiment of the present invention and a peeling paper attached thereto.
8 is a view showing a peeling force distribution of a release paper in a liquid crystal display module before a liquid crystal panel is attached according to an embodiment of the present invention.
9 is a cross-sectional view of a liquid crystal display module before a liquid crystal panel is attached according to an embodiment of the present invention.
10 is a view showing a reflector according to a second embodiment of the present invention and a peel sheet attached thereto.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

The light-shielding tape or reflector according to the present invention may be applied to a liquid crystal display device (LCD), a plasma display panel (PDP), an electroluminescence display device (ELD) (FPD) such as a field emission display device (FED). Hereinafter, a liquid crystal display device will be described as an example.

6 is an exploded perspective view of a liquid crystal display module according to an embodiment of the present invention.

6, the liquid crystal display module 100 includes a liquid crystal panel 110, a backlight unit 120, a support main body 130, a cover bottom 150, and a top cover 140.

First, the liquid crystal panel 110 plays a key role in image display, and includes a first substrate 112 and a second substrate 114 which are bonded to each other with a liquid crystal layer interposed therebetween.

At this time, a plurality of gate lines and data lines intersect with each other on the inner surface of the first substrate 112, which is usually referred to as a lower substrate or an array substrate, although pixels are not shown in the figure, A thin film transistor (TFT) is provided at each of the intersections of the pixels and is connected in a one-to-one correspondence with the transparent pixel electrodes formed in the pixels.

On the inner surface of the second substrate 114 called an upper substrate or a color filter substrate, a color filter of red (R), green (G), and blue (B) And a black matrix for covering non-display elements such as a gate line, a data line, and a thin film transistor. In addition, a transparent common electrode covering these elements is provided.

A polarizing plate (not shown) for selectively transmitting only specific light is attached to the outer surfaces of the first and second substrates 112 and 114, respectively.

A printed circuit board may be provided on one edge of the liquid crystal panel 110 via a flexible circuit board or a connection member such as a tape carrier package (TCP).

When the selected thin film transistor is turned on for each gate line by the on / off signal of the gate driving circuit to be scanned, the liquid crystal panel 110 having the structure described above turns on the signal voltage of the data driving circuit through the data line, And the alignment direction of the liquid crystal molecules is changed by the electric field between the pixel electrode and the common electrode, thereby exhibiting a difference in transmittance.

In addition, the LCD module 100 according to the present invention is provided with a backlight unit 120 for supplying light from the backside of the liquid crystal display module 100 so that a difference in transmittance represented by the liquid crystal panel 110 is externally expressed.

The backlight unit 120 includes an LED assembly 129, a white or silver reflective plate 125, a light guide plate 123 seated on the reflective plate 125, and a plurality of optical sheets 121 interposed therebetween. .

The LED assembly 129 is positioned at one side of the light guide plate 123 so as to face the light incident portion of the light guide plate 123. The LED assembly 129 includes a plurality of LEDs 129a and a plurality of LEDs 129a And an FPCB 129b mounted at a predetermined interval.

The light guiding plate 123 uniformly spreads the light incident from the plurality of LEDs 129a to the wide area of the light guiding plate 123 while passing through the light guiding plate 123 by total reflection several times to provide a surface light source to the liquid crystal panel 110 .

The light guide plate 123 may include a pattern of a specific pattern on the back surface to supply a uniform surface light source. The pattern may be formed in various shapes such as an elliptical pattern, a polygonal pattern, a hologram pattern, and the like in order to guide light incident into the light guide plate 123, And may be formed on the lower surface of the light guide plate 123 by a printing method or an injection method.

The reflection plate 125 is disposed on the back surface of the light guide plate 123 and reflects light passing through the back surface of the light guide plate 123 toward the liquid crystal panel 110 to improve the brightness of light.

The plurality of optical sheets 121 on the light guide plate 123 include a diffusion sheet and at least one light condensing sheet and the like to diffuse or condense the light passing through the light guide plate 123, The surface light source is made incident.

Here, the back surface of the FPCB 129b of the LED assembly 129 of the backlight unit 120 and one side edge of the support main body 30 are attached and fixed to each other via a double-sided adhesive material (not shown).

A light shielding tape 161 for preventing light leakage is positioned between the liquid crystal panel 110 and the backlight unit 120. The light shielding tape 161 has a peeling paper on the upper adhesive layer of the light shielding tape 161, And is attached to the upper surface of the backlight unit 120 together with the ridges.

More specifically, the light-shielding tape 161 includes a light-shielding layer composed of a PET resin and a black ink for shielding light from light, an adhesive layer and a release paper sheet. The light-shielding tape 161 according to the present invention includes a double- A first adhesive layer is disposed on the upper portion of the light shielding layer, a second adhesive layer is disposed on the lower portion of the light shielding layer, and a first release layer corresponding to the main peeling paper is formed on the outer surfaces of the first adhesive layer and the second adhesive layer, paper (release paper) (not shown) and a second release paper (not shown) corresponding to the auxiliary release paper. Since the present invention relates to the main release paper, the following description will be made on the assumption that the second release paper as the auxiliary release paper is removed and the first release paper.

That is, the light shielding tape 161 is attached to the upper surface of the backlight unit 120 through the second adhesive layer. When the liquid crystal panel 110 is attached, the first release paper 163 is separated from the light shielding tape 161 1 adhesive layer. This will be explained in detail later.

The light shielding tape 161 has a rectangular frame shape with its central portion opened to cover the top edge of the backlight unit 120.

At this time, the three widths of the four sides of the shielding tape 161 have the same first width L1-1 and one width has the second width L1-2 which is larger than the first width L1-1 And the second width L1-2 corresponds to the FPCB 129b of the LED assembly 129 so as to completely cover the FPCB 129b of the LED assembly 129. The width of the FPCB 129b of the LED assembly 129 (L2), so that light can not leak to a portion of the liquid crystal panel 110 other than the screen display region.

The liquid crystal panel 110 and the backlight unit 120 are modularized through a top cover 140, a support main 130 and a cover bottom 150. The top cover 140 is disposed on the upper surface of the liquid crystal panel 110, And a front cover 140 is opened to display an image formed on the liquid crystal panel 110. The liquid crystal panel 110 may be a liquid crystal panel.

In addition, the cover bottom 150, on which the liquid crystal panel 110 and the backlight unit 120 are mounted, is a base for assembling the entire structure of the liquid crystal display device module, is formed into a rectangular plate shape and its four sides are vertically bent .

The support main body 130 of a square shape which rests on the cover bottom 150 and covers the edges of the liquid crystal panel 110 and the backlight unit 120 is divided into a top cover 140, .

The cover main body 130 may be referred to as a guide panel or a main support or a mold frame. The cover main body 130 may be referred to as a bottom cover or a bottom cover, I will.

Hereinafter, a light shielding tape for a flat panel display according to the present invention will be described in detail with reference to the drawings.

FIG. 7 is a view showing a light-shielding tape and a peeling paper attached thereto according to a first embodiment of the present invention, and FIG. 8 is a view showing a state in which a peeling paper is peeled off from a light-blocking tape of a liquid crystal display module before a liquid crystal panel is attached according to an embodiment of the present invention FIG. 9 is a cross-sectional view of a liquid crystal display module before a liquid crystal panel is attached according to an embodiment of the present invention. FIG.

Here, the peeling paper corresponds to the first peeling paper corresponding to the main peeling paper, and is referred to as peeling paper for the sake of explanation.

7, the light shielding tape 161 is provided with a release paper 163 for protecting the one adhesive layer of the light shielding tape 161. The release paper 163 corresponds to the size of the light shielding tape 161 And a protrusion 163a is formed at one side of one edge of the protrusion 163a so that the manual removal of the release paper can be easily performed.

8, the stripping paper 163 has a first protruding edge line 163a-1 of the opposing first and second protruding edge lines 163a-1 and 163a-2 of the protruding portion 163a, A cutting line 163b having a first line of a first length L1 extending along the first length L1 and a second line of the second length L2 bent at a right angle to the second protruding edge line 163a- Is provided. This cutting line 163b has a shape of 'a'.

The release paper 163 is moved along the second protruding edge line 163a-2 of the first and second protruding edge lines 163a-1 and 163a-2 facing the protruding portion 163a A cutting line having a first line of a first length and a second line of a second length bent at a right angle to the first protruding edge line 163a-1 at the end of the first line may be provided. The cutting line becomes '?' Shape.

On the other hand, the first length L1 of the first line of the cutting line 163b should be not less than a size capable of die cutting, and should be at least 0.75 mm or more (error of ± 0.15 depending on the type of release paper) And the second line is formed to have a second length L2 that is longer than the first length L1 of the first line.

When the release paper 163 is removed from the light shielding tape 161, a force for removing the release paper from the light shielding tape 161, that is, a peeling force is required. The distribution W2 of the peeling force It can be seen that the peeling force moves along the cutting line to the end of the cutting line by forming the cutting line 163b in the release paper 163. Thus, the peeling paper 163 can be removed from the light shielding tape 161 even with a low peeling force.

Table 1 below shows the data of the defibrillation test results in the test apparatus for testing the detachment force to detach the release paper 163 from the light shielding tape 161 as described above.

Number of tests Shading tape (161 in Fig. 7) Shading tape (61 in Fig. 1) 1 time 0.039kgf 0.222kgf Episode 2 0.046kgf 0.165kgf 3rd time 0.072kgf 0.171kgf 4 times 0.074kgf 0.170kgf 5 times 0.052kgf 0.189kgf 6 times 0.057kgf 0.183kgf

 According to this, the average value of the detachment force when the cutting line is present on the peeling paper of the light-shielding tape 161 is 0.057, and the average value of the felling power when the cutting line is not present on the peeling paper of the light- 161 is about 3.22 times smaller than the detachment force of the conventional shielding tape (61 in Fig. 1).

9, when the protrusion 163a of the release paper 163 is lifted up to remove the release paper 163 from the light shielding tape 161, the protrusion 163a of the release paper 163, The stripping paper 163 can be easily removed from the light shielding tape 161 by lifting it along the cutting line 163b connected to the stripping paper 163b.

As described above, by forming the cutting line on the release paper 163 according to the present invention, the adhesive force between the light-shielding tape and the release paper is weakened, so that the release paper can be removed even with a low release force. The FPCB of the tape or the light shielding tape and the LED assembly can be prevented from being lifted together and the light leakage phenomenon caused by the lifting phenomenon can be prevented.

On the other hand, in the above description, the cutting line is formed on the first peeling paper in the double-sided adhesive light-shielding tape. Alternatively, a cutting line may be formed on the peeling paper of the single-sided adhesive tape (composed of the light- shielding layer, adhesive layer and peeling paper).

10 is a view showing a reflection plate and a protective sheet attached thereto according to a second embodiment of the present invention.

10, the back surface of the reflection plate 125 is provided with a protection sheet 200 for protection from the outside. When the reflection plate 125 is attached to the cover bottom (150 in FIG. 6) The protective sheet 200 is provided to protect the back surface of the protective sheet 200 from scratches.

The reflection plate 125 is disposed on the back surface of the light guide plate 123 (FIG. 6), and reflects most of light passing through the back surface of the light guide plate 123 (FIG. 6) toward the liquid crystal panel 110 .

The reflective plate 125 may be composed of a polyethylene film (not shown) and a reflective layer (not shown) coated with silver (Ag) having a reflectance of 90% of visible light on the top of the polyethylene film, An anchor coat layer (not shown) may be further included as a means for achieving excellent adhesion strength between the anchor coat layer and the anchor coat layer. Alternatively, the anchor coat layer may be subjected to a corona treatment, a plasma treatment, a glow discharge treatment, a reverse sputter treatment, a roughening treatment, or the like.

Here, the polyethylene film is preferably a polyethylene film containing terephthalic acid or the like having good dimensional stability as a base film.

The reflective layer may be formed by depositing silver (Ag) metal particles on a base film by a vacuum deposition or a sputtering process under high vacuum. In addition to the silver (Ag) metal particles, copper It may be formed of aluminum (Al), tin (Sn), gold (Au), stainless steel (SUS) or the like, but silver (Ag) excellent in property of mirror-reflecting without absorbing light is most preferably used.

The protective sheet 200 has a protrusion 200a at one side of one edge of the protective sheet 200 to facilitate removal of the protective sheet 200 from the reflective plate 125. [

At this time, the first line of the first length and the first line of the first length connected to the first protruding edge line 200a-1 of the first and second protruding edge lines 200a-1 and 200a-2 of the protruding protrusion 200a, And a cutting line 200b having a second line of a second length bent at a right angle to the second protruding edge line 200a-2 at the end of the line. This cutting line 200b has a shape of 'a'.

2) of the first and second protruding edge lines 200a-1, 200a-2 of the protruding protruding portion 200a of the first protruding edge line 200a-2, A cutting line 200b having a first line and a second line bent at a right angle to the first protruding edge line 200a-1 at the end of the first line and having a second length may be provided. The cutting line 200b has a shape of '?'.

Here, the first length of the first line of the cutting line 200b should be not less than a size capable of die cutting, preferably at least 0.75 mm (tolerance of ± 0.15 depending on the type of stripping paper).

The protection sheet 200 is removed in the process of placing the reflection plate 125 on the cover bottom (150 in FIG. 6). The protrusion 200a of the release paper 200 is lifted up, The protective sheet 200 can be easily removed from the reflective plate 125 by lifting the protective sheet 200 along the cutting line 200b connected to the protrusion 200a of the protective sheet 200 when the protective sheet 200 is removed. Since the peeling force is proportional to the attachment area, the peeling force becomes larger as the attachment area becomes larger. By dividing the peeling force by forming a cutting line on the protective sheet 200 according to the present invention, the protective sheet 200 can be more easily removed .

Meanwhile, the reflection plate 125 according to the present invention may be applied to a liquid crystal display device that does not require a cover bottom (150 in FIG. 6). In this case, the case is positioned on the back side of the reflection plate. Accordingly, the protective sheet of the reflector is removed in the process of assembling the liquid crystal display device into the case and completing the finished product.

The present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

161: Shading tape 163:
161a: protruding portion 163b: cutting line
125: reflector 200: peeling
200a: protruding portion 200b: cutting line

Claims (8)

A light-shielding tape for a flat panel display device positioned between a liquid crystal panel and a backlight unit,
And a peeling paper having a size corresponding to the size of the light-shielding tape and attached to the upper adhesive layer of the light-shielding tape and having a protrusion protruding outward from the upper adhesive layer on one side of the one edge,
The release paper is bent at a right angle to a first protrusion edge line of the first and second protrusion edge lines of the protrusion and a first line of a first length and a second protrusion edge line at an end of the first line, And a cutting line having a second line having a longer second length than the first line.
The method according to claim 1,
The cutting line
Shaped or &quot; H &quot; shape.
The method according to claim 1,
Wherein the first length of the first line has a range of 0.6 mm to 0.9 mm.
In a reflector for a flat panel display device included in a backlight unit,
And a protective sheet having a size corresponding to the size of the reflection plate and attached to a back surface of the reflection plate and having a protrusion,
Wherein the protective sheet is bent at a right angle to a first protruding edge line of the first and second protruding edge lines of the protrusion and a first line of a first length and a second protruding edge line at an end of the first line, And a second line having a second length longer than the length of the second line.
5. The method of claim 4,
The cutting line
Wherein the reflector has a shape of 'a' or a shape of '┌'.
5. The method of claim 4,
Wherein the first length of the first line has a range of 0.6 mm to 0.9 mm. 5. The method of claim 4,
And the second length is longer than the width of the projection parallel to the second line.
The method according to claim 1,
And the second length is longer than the width of the projection parallel to the second line.

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