KR101783780B1 - Optical adhesive film and flat display device having the same - Google Patents

Abstract

One aspect of the present invention is to provide an optical adhesive film and a flat panel display device capable of improving the adhesion between components of a flat panel display module.

Description

TECHNICAL FIELD [0001] The present invention relates to an optical adhesive film and a flat panel display having the same,

One aspect of the present invention relates to an optical adhesive film and a flat panel display having the same.

In recent years, display devices capable of replacing cathode ray tubes have been developed. Such a display device includes a liquid crystal display (LCD), a field emission display (FED), a plasma display panel (PDP), and an electro-luminescence (EL) ) Display device.

Among the above display devices, the PDP has a simple structure and a simple manufacturing process. However, the PDP has attracted attention as a display device which is most advantageous for a large screen size but has a disadvantage of low luminous efficiency, low luminance and high power consumption.

The EL display device is largely classified into an inorganic EL element and an organic EL element depending on the material of the light emitting layer, and has a self-emitting self-luminous element having a high response speed and a large luminous efficiency, luminance and viewing angle. Of these EL display devices, an organic EL element using an organic material is an organic electroluminescent device having a low DC driving voltage, capable of thinning, uniformity of emitted light, easy pattern formation, high luminous efficiency, And color light emission. Thus, it is a technical field that is actively studied for application to a display device.

The organic light emitting diode may be a bottom-emission type or a top-emission type according to a direction in which light is emitted. In addition, the organic light emitting diode is divided into a passive matrix organic light emitting diode (PMOLED) and an active matrix organic light emitting diode (AMOLED) according to a driving method.

An active liquid crystal display (LCD) device using a thin film transistor (TFT) as a switching device has a difficulty in making a large screen because it uses a semiconductor process, but the demand is increasing as it is mainly used as a display device of a notebook computer.

The liquid crystal display device may include a liquid crystal panel and a backlight unit as non-light emitting elements. The backlight unit is disposed under the liquid crystal panel, and they are bonded by double-sided tape.

SUMMARY OF THE INVENTION It is a primary object of the present invention to provide an optical adhesive film for improving the adhesion between panels of a flat panel display and a flat panel display having the same.

An optical adhesive film according to an embodiment of the present invention is an optical adhesive film used in a flat panel display module for realizing an image, the optical adhesive film comprising: a transmissive portion disposed on the flat panel display module and capable of transmitting the image; And a wing portion extending from one end of the flat panel display module to cover a side surface of the flat panel display module and cover a part of the back surface of the flat panel display module, the transparent portion being adhered to the front surface of the flat panel display module, And can be adhered to the side surface and the back surface.

The transmitting portion or the wing portion may be adhered to the flat display module without intervening between the flat display module and another member.

The transmissive portion or the wing portion may be bonded to the flat panel display module by surface energy with the flat panel display module.

The wing portion may include a base portion extending from one side of the transmission portion, a light shielding member disposed on the base portion, and a reflection member disposed on the light shielding member.

An optical adhesive film according to an embodiment of the present invention is an optical adhesive film used in a flat panel display module for realizing an image, the optical adhesive film comprising: a transmissive portion disposed on the flat panel display module and capable of transmitting the image; A wing portion extending from one end of the flat display module to cover a side surface of the flat display module and covering a part of the back surface of the flat display module; and an adhesive member disposed over the transmissive portion and the entire surface of the wing portion, The member may adhere them between the flat panel display module and the transparent portion and the wing portion.

In the present invention, the transmissive portion may transmit light emitted from the flat panel display.

In the present invention, the transmissive portion may be formed of any one of polyethylene terephthalate (PET), triacetyl cellulose film, polyethylene (PE), acryl, and polyolefin.

In the present invention, the transmissive portion may be formed to be equal to or larger than a display area for implementing the image in the flat panel display module.

In the present invention, the wing portion may be formed larger than the thickness of the flat panel display module.

In the present invention, the wing portion may cover one side surface and a part of the back surface of the flat panel display module.

In the present invention, the wing portion may include a base portion extending from one side of the transmission portion, a light shielding member disposed on the base portion, and a reflection member disposed on the light shielding member.

In the present invention, the base portion may be formed integrally with the transmissive portion.

In the present invention, the base portion may be made of any one of polyethylene terephthalate (PET), triacetyl cellulose film, polyethylene (PE), acrylic, and polyolefin.

In the present invention, the light shielding member may absorb external light incident through the base.

In the present invention, the light shielding member may be made of a pigment or a dye capable of absorbing visible light.

In the present invention, the light shielding member may be formed to be larger than or equal to the reflective member.

In the present invention, the light shielding member may be disposed on the entire wing portion and a part of the transmitting portion.

In the present invention, the reflective member reflects light emitted from the flat panel display module to prevent the light from leaking.

In the present invention, the reflective member may be made of a pigment or a dye capable of reflecting the light.

In the present invention, the adhesive member may transmit light.

A flat panel display device according to an embodiment of the present invention includes a flat panel display module for realizing an image and an optical adhesive film adhered to a front surface and a side surface of the flat panel display module and adhered to a part of the back surface of the flat panel display module , The image formed on the front surface of the flat panel display module may be emitted through the optical adhesive film.

The optical adhesive film may include a transmissive portion disposed on a front surface of the flat panel display module and capable of transmitting the image, and a cover portion extending from one end of the transmissive portion and covering the side surface of the flat panel display module Wherein the flat display module includes a wing portion capable of covering a part of the back surface of the flat panel display module and an adhesive member disposed over the transmissive portion and the entire surface of the wing portion, They can be bonded together.

In the present invention, the transmissive portion may transmit the light emitted from the flat panel display module.

In the present invention, the transmissive portion may be formed of any one of polyethylene terephthalate (PET), triacetyl cellulose film, polyethylene (PE), acryl, and polyolefin.

In the present invention, the transmissive portion may be formed to be equal to or larger than a display area for implementing the image in the flat panel display module.

In the present invention, the wing portion may be formed larger than the thickness of the flat panel display module.

In the present invention, the wing portion may cover one side surface and a part of the back surface of the flat panel display module.

In the present invention, the wing portion may include a base portion extending from one side of the transmission portion, a light shielding member disposed on the base portion, and a reflection member disposed on the light shielding member.

In the present invention, the base portion may be formed integrally with the transmissive portion.

In the present invention, the base portion may be made of any one of polyethylene terephthalate (PET), triacetyl cellulose film, polyethylene (PE), acrylic, and polyolefin.

In the present invention, the light shielding member may absorb external light incident through the base.

In the present invention, the light shielding member may be made of a pigment or a dye capable of absorbing visible light.

In the present invention, the light shielding member may be formed to be larger than or equal to the reflective member.

In the present invention, the light shielding member may be disposed on the entire wing portion and a part of the transmitting portion.

In the present invention, the reflective member reflects light emitted from the flat panel display device to prevent the light from leaking.

In the present invention, the reflective member may be made of a pigment or a dye capable of reflecting the light.

In the present invention, the flat panel display module may be composed of a sequentially stacked backlight unit, a polarizing plate, and a liquid crystal panel.

Since the optical adhesive film according to an aspect of the present invention is adhered not only to the front surface but also to the side and back surface of the flat panel display module, adhesion of components of the flat panel display module can be improved.

1 is a plan view schematically showing an optical adhesive film according to an embodiment of the present invention.
2 is a cross-sectional view taken along the line II in Fig.
3 is a cross-sectional view taken along line II-II in FIG.
4 is an exploded perspective view schematically showing a flat panel display device having an optical adhesive film according to an embodiment of the present invention.
5 is a perspective view schematically showing the flat panel display of FIG.
6 is a cross-sectional view of the flat panel display shown in FIG.
7 is a cross-sectional view of a flat panel display device according to another embodiment of the present invention.
8 is a cross-sectional view of a flat panel display according to another embodiment of the present invention.
9 is a cross-sectional view of a flat panel display according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 1 is a plan view schematically showing an optical adhesive film according to an embodiment of the present invention, FIG. 2 is a sectional view taken along the line II in FIG. 1, and FIG. 3 is a sectional view taken along the line II- .

1 to 3, an optical adhesive film 100 according to an embodiment of the present invention includes a transmission portion 110, a first wing portion 111, a second wing portion 112, a third wing portion 113 Shielding members 111b, 112b and 113b, reflection members 111c, 112c and 113c, and an adhesive member 114. The light-

The transmissive portion 110 is disposed on the display area of the flat panel display (10 in Figs. 4 and 5). The transmissive portion 110 can transmit light emitted from the flat panel display. The transmissive portion 110 may be made of a material having high light transmittance. For example, the transmissive portion 110 may be made of PET (polyethylene terephthalate), TAC film (triacetyl cellulose film), PE (polyethylene), acrylic, polyolefin or the like.

Since the transmissive portion 110 is disposed on the display region (10a in Fig. 4) of the flat panel display device, the transmissive portion 110 can have a shape corresponding to the shape of the display region. 4 and 5, since the flat panel display module 10 has a rectangular shape, the transparent portion 110 may have a rectangular shape corresponding to the display area 10a of the flat panel display module 10. [

Each of the first, second and third wing portions 111, 112 and 113 may be formed to extend from the sides 110a, 110b and 110c of the transmission portion 110. That is, the first wing portion 111 is formed to extend from the one side portion 110a of the transmission portion 110, the second wing portion 112 is formed to extend from the other side portion 110b of the transmission portion 110, The third wing portion 113 may be formed to extend from the upper portion 110c of the transmission portion 110. [

Each of the first, second and third wing portions 111, 112 and 113 is bent at each side of the flat panel display module 10 so as to surround each side of the flat panel display module 10 and extend to the backside of the flat panel display module 10 It can be extended and covered. The first wing portion 111 is bent at one side portion 110a of the transmission portion 110 to cover one side face 10c of the flat display module 10 and bent to the back face of the flat display module 10, Can be covered. The second wing portion 112 is bent at the other side portion 110b of the transmission portion 110 to cover the other side face 10d of the flat display module 10 and is bent to the back face of the flat display module 10, . The third wing portion 113 is bent at the upper portion 110a of the transmission portion 110 to cover the upper surface 10e of the flat display module 10 and is bent to the back surface of the flat display module 10, . The widths t1, t2 and t3 of the first, second and third wing parts 111, 112 and 113 are preferably longer than the height of the flat panel display module 10.

As described above, the optical adhesive film 100 according to an embodiment of the present invention covers the entire display area of the flat panel display device and the side and back of the flat panel display module 10, so that the adhesive force between the components of the flat panel display module 10 . This will be described in detail below.

Each of the first, second and third wing parts 111, 112 and 113 includes first, second and third base parts 111a, 112a and 113a, first, second and third light-shielding parts 111b, 112b and 113b, And first, second, and third reflective members 111c, 112c, and 113c.

That is, the first wing portion 111 includes a first base portion 111a, a first light blocking member 111b disposed on the first base portion 111a, and a second light blocking member 111b disposed on the first light blocking member 111b And a first reflective member 111c.

The second wing portion 112 includes a second base portion 112a, a second light blocking member 112b disposed on the second base portion 112a, and a second light blocking member 112b disposed on the second light blocking member 112b. And a reflective member 112c.

The third wing portion 113 includes a third base portion 113a, a third light blocking member 113b disposed on the third base portion 113a, a third light blocking member 113b disposed on the third light blocking member 113b, And a reflective member 113c.

The first, second, and third base portions 111a, 112a, and 113a may extend from the side portions 110a, 110b, and 110c of the transmission portion 110, respectively. That is, the first base portion 111a may extend from the one side portion 110a of the transmission portion 110. The second base portion 112a may extend from the other side 110b of the transmission portion 110. [ The third base portion 113a may extend from the upper portion 110c of the transmission portion 110. [

The first, second, and third base portions 111a, 112a, and 113a may be made of the same material as the transmission portion 110. The first, second, and third base portions 111a, 112a, and 113a may be made of PET (polyethylene terephthalate), TAC film (Triacetyl cellulose film), PE (polyethylene), acrylic, polyolefin ), And the like.

The first, second and third light blocking members 111b, 112b and 113b may be formed on one surface of the first, second and third base portions 111a, 112a and 113a, respectively. That is, the first light blocking member 111b is formed on the first base portion 111a, the second light blocking member 112b is formed on the second base portion 112a, the third light blocking member 111b is formed on the second base portion 112a, And may be formed on the third base portion 113a. The first, second and third light blocking members 111b, 112b and 113b are made of a paint or a pigment capable of absorbing light and are coated on one side of the first, second and third base portions 111a, 112a and 113a . The first, second, and third light blocking members 111b, 112b, and 113b can absorb external light incident on the side of the flat panel display device (10 in Figs. 4 and 5). To this end, the ends of the first, second and third light blocking members 111b, 112b and 113b are aligned with the ends of the first, second and third base portions 111a, 112a and 113a, The members 111b, 112b, and 113b can absorb external light incident on the side of the flat panel display device (10 in Figs. 4 and 5) (see Figs. 6 to 9).

The first, second, and third reflective members 111c, 112c, and 113c may be formed on the first, second, and third light blocking members 111b, 112b, and 113b, respectively. That is, the first reflection member 111c is formed on the first light blocking member 111b, the second reflection member 1121c is formed on the second light blocking member 112b, the third reflection member 113c is formed on the second light blocking member 112b, And may be formed on the first light blocking member 113b. The first, second, and third reflective members 111c, 112c, and 113c are formed of a paint or pigment that can reflect light and are formed by coating the first, second, and third light blocking members 111b, 112b, . The first, second and third reflecting members 111c, 112c and 113c face the flat panel display module 10 and reflect the light emitted from the flat panel display module 10, It is possible to prevent leakage.

The adhesive member 114 may be disposed to cover one surface of the transmission portion 110 and the first, second, and third reflective members 111c, 112c, and 113c. The optical adhesive film 100 can be adhered to the flat panel display module 10 by the adhesive member 114. [

FIG. 4 is an exploded perspective view schematically showing a flat panel display device 1000 according to an embodiment of the present invention, and FIG. 5 is a perspective view schematically showing the flat panel display device of FIG.

4 and 5, the flat panel display 1000 includes a flat panel display module 10 and an optical adhesive film 100.

The flat panel display module 10 may be a liquid crystal display device or an organic light emitting display device.

The optical adhesive film 100 may be adhered to the front surface of the flat panel display module 10. More specifically, the flat panel display module 10 may include a display area 10a for displaying an image and a pad area 10b connected to an external circuit. The transmission part 110 of the optical adhesive film 100 is disposed on the display area 10a of the flat panel display module 10 and the first, second and third wing parts 111, 112 and 113 are disposed on the flat display module 10 And may be adhered to a part of the back surface of the flat panel display module 10. [ That is, the first wing portion 111 is bonded to the flat panel display module 10 while covering one side portion 10c of the flat panel display module 10 and covering a part of the back surface of the flat panel display module 10. [ The second wing portion 112 is bonded to the flat panel display module 10 while covering the other side portion 10d of the flat panel display module 10 and covering a part of the back surface of the flat panel display module 10. [ The third wing portion 113 is bonded to the flat panel display module 10 while covering the upper portion 10e of the flat panel display module 10 while covering a part of the backside thereof. The first, second and third wing portions 111, 112 and 113 are adhered to the side surface and the back surface of the flat panel display module 10 in a "C" shape.

Since the wing portion is not formed on the lower side portion 110d of the transmissive portion 110 and the transmissive portion 110 is disposed to correspond to the display region 10a of the flat panel display module 10, The optical adhesive film 100 is exposed without being disposed on the pad region 10b.

In the case where the flat panel display module 10 is a liquid crystal display device, conventionally, a double-side tape is disposed on the back surface of the liquid crystal panel 12 and the front surface of the backlight unit 11 to bond the liquid crystal panel 12 and the backlight unit 11 . However, the optical adhesive film 100 according to an embodiment of the present invention is formed by the transmissive portion 110 and the first, second, and third wing portions 111, 112, and 113, (10a in FIGS. 4 and 5), the side surface, and the back surface of the liquid crystal display device 10, the adhesion between the liquid crystal panel 12 and the backlight unit 11 of the liquid crystal display device 10 can be improved.

Light blocking members 111b, 112b and 113b and reflection members 111c, 112c and 113c are laminated on one surface of the first, second and third wing portions 111, 112 and 113, The light emitted to the side surface of the flat panel display module 10 is reflected by the reflective members 111c, 112c and 113c and is reflected toward the side of the flat panel display module 10. [ This can prevent leaking.

The light blocking members 111b, 112b and 113b are disposed between the reflecting members 111c, 112c and 113c and the base portions 111a and 112a and 113a, So that it can be prevented from being incident into the apparatus 10.

Since the first, second and third wing portions 111, 112 and 113 are extended and adhered to a part of the side surface and the back surface of the flat panel display module 10, foreign matter and moisture are introduced into the side surface of the flat panel display module 10 .

6 is a partial cross-sectional view of the flat panel display 1000 shown in FIG.

The flat panel display module 10 shown in FIG. 6 is a liquid crystal display device. The liquid crystal display device 10 may include a backlight unit 11, a polarizing plate 13, and a liquid crystal panel 12. A polarizing plate 13 may be disposed between the backlight unit 11 and the liquid crystal panel 12. That is, the liquid crystal display device 10 may include a backlight unit 11, a polarizing plate 13, and a liquid crystal panel 12 stacked.

The transparent portion 110 of the optical adhesive film 100 is disposed on the front surface of the liquid crystal panel 12 and bonded to the front surface of the liquid crystal panel 12 by an adhesive member 114. The wing portion 111 is bonded to the transmissive portion 110, And can be adhered to the side surface and a part of the back surface of the liquid crystal panel 12 by the adhesive member 114. [ As described above, the optical adhesive film 100, which is an embodiment of the present invention, is bonded to the liquid crystal display device 10 while covering the front surface, the side surface, and the back surface of the liquid crystal display device 10.

The transmissive portion 110 is bonded over the entire surface of the liquid crystal panel 12 and is made of a material having a high transmittance of the visible light as described above so that an image emitted through the liquid crystal panel 12 is realized through the transmissive portion 110 .

The optical adhesive film 100 according to the embodiment of the present invention has the adhesive member 114 disposed over the transmissive portion 110 and the wing portion 111. Since the optical adhesive film 100 according to the embodiment of the present invention can be adhered to the display area (10a in FIGS. 4 and 5), the side surface, and the back surface, which is the front surface of the liquid crystal display device 10, The adhesive strength between the liquid crystal panel 12 and the backlight unit 11 can be improved.

The wing portion 111 may be composed of a base portion 111a, a light shielding member 111b, and a reflecting member 111c. The base portion 111a is formed to extend from one side of the transmission portion 110. [ A light blocking member 111b and a reflecting member 111c are stacked on the base portion 111a. An adhesive member 114 is disposed on the reflective member 111c.

The reflective member 111c faces the liquid crystal display device 10 and reflects the light emitted from the liquid crystal display device 10 to prevent the light from leaking to the outside. The reflective member 111c may be disposed to correspond to the side surface and the back surface of the liquid crystal display device 10. [

The light blocking member 111b is disposed outside the reflective member 111c and absorbs light incident from the outside to prevent external light from entering the liquid crystal display device 10. [ The light shielding member 111b may be disposed not only on the side surface and the rear surface of the liquid crystal display device 10, but also on a part of the front surface.

A polarizing film 14 may be disposed on the transmissive portion 110.

7 is a cross-sectional view of a flat panel display 2000 according to another embodiment of the present invention.

Referring to FIG. 7, the flat panel display 2000 may include a liquid crystal display 20 and an optical adhesive film 200.

The backlight unit 21, the polarizing plate 23, the liquid crystal panel 22, and the polarizing film 24 may be sequentially stacked on the liquid crystal display 20. The optical adhesive film 200 may include a transmitting portion 210, a wing portion 211, and an adhesive member 214.

The transmissive portion 210 of the optical adhesive film 200 is adhered to the polarizing film 24 disposed on the liquid crystal panel 22 by the adhesive member 214 and the wing portion 211 is bonded on the side of the transmissive portion 210 And can be adhered to the side and backside portions of the liquid crystal display device 20 by the adhesive member 214. Thus, the optical adhesive film 200 can be bonded to the liquid crystal display device 10 while covering the front surface, the side surface, and the back surface of the liquid crystal display device 20, thereby improving the adhesion of the components of the liquid crystal display device 20 .

The transmissive portion 210 is bonded over the entire surface of the liquid crystal panel 22 and is made of a material having a high transmittance of the visible light as described above so that an image emitted through the liquid crystal panel 22 is realized through the transmissive portion 210 .

The optical adhesive film 200 is provided with an adhesive member 214 over the whole of the transmissive portion 210 and the wing portion 211.

The wing portion 211 may be composed of a base portion 211a, a light shielding member 211b, and a reflecting member 211c. The base portion 211a is formed to extend from one side of the transmission portion 210. [ A light blocking member 211b and a reflecting member 211c are stacked on the base portion 211a.

The reflective member 211c faces the liquid crystal display device 20 and reflects the light emitted from the liquid crystal display device 20 to prevent the light from leaking to the outside. The reflective member 211c may be disposed to correspond to the side surface and the back surface of the liquid crystal display device 20. [

The light blocking member 211b is disposed outside the reflective member 211c and absorbs light incident from the outside to prevent external light from entering the liquid crystal display device 20. [ The light blocking member 211b may be formed wider than the reflecting member 211c. The reflective member 211c is disposed on the base portion 211a so as to cover the side surface and the rear surface of the liquid crystal display device 20 but the light shielding member 211b is disposed not only on the side surface and the back surface of the liquid crystal display device 20, .

8 is a cross-sectional view of a flat panel display 3000 according to another embodiment of the present invention.

Referring to FIG. 8, the flat panel display 3000 may include a liquid crystal display 30 and an optical adhesive film 300.

The backlight unit 31, the polarizing plate 33, the liquid crystal panel 32, and the polarizing film 34 may be sequentially stacked on the chassis 35 in the liquid crystal display device 30. [ The optical adhesive film 300 may be composed of a transmissive portion 310, a wing portion 311, and an adhesive member 314.

The transmission portion 310 of the optical adhesive film 300 is adhered to the polarizing film 34 disposed on the liquid crystal panel 32 by the adhesive member 314 and the wing portion 311 is attached to the side of the transmission portion 310 And can be adhered to the side and backside portions of the liquid crystal display device 30 by the adhesive member 314. That is, the wing portion 311 extends to the back surface of the chassis 35 and can be adhered by the adhesive member 314.

Since the optical adhesive film 300 is bonded to the liquid crystal display device 30 while covering the front surface, the side surface, and the back surface of the liquid crystal display device 30, the adhesive force of the components of the liquid crystal display device 30 can be improved .

The transmissive portion 310 is bonded over the entire surface of the liquid crystal panel 32 and is made of a material having a high transmittance of the visible light as described above and the image emitted through the liquid crystal panel 32 is implemented through the transmissive portion 310 .

The optical adhesive film 300 is provided with an adhesive member 314 over the entire surface of the transmitting portion 310 and the wing portion 311.

The wing portion 311 may be composed of a base portion 311a, a light shielding member 311b, and a reflecting member 311c. The base portion 311 a is formed to extend from one side of the transmission portion 310. A light blocking member 311b and a reflecting member 311c are stacked on the base portion 311a.

The reflective member 311c faces the liquid crystal display device 30 and reflects the light emitted from the liquid crystal display device 30 to prevent the light from leaking to the outside. The reflective member 311c may be disposed to correspond to the side surface and the back surface of the liquid crystal display device 30. [

The light blocking member 311b is disposed outside the reflective member 311c and absorbs light incident from the outside to prevent external light from entering the liquid crystal display device 30. [ The light blocking member 311b may be formed wider than the reflecting member 311c. The reflective member 311c is disposed on the base portion 311a so as to cover the side surface and the rear surface of the liquid crystal display device 30 but the light shielding member 311b is disposed not only on the side surface and the back surface of the liquid crystal display device 30, .

9 is a cross-sectional view of a flat panel display device 4000 according to another embodiment of the present invention.

Referring to FIG. 9, the flat panel display 4000 may include a liquid crystal display 40 and an optical adhesive film 400.

The backlight unit 41, the polarizing plate 43, the liquid crystal panel 42, the polarizing film 44, and the touch panel 47 may be sequentially stacked on the chassis 45 of the liquid crystal display device 40. The optical adhesive film 400 may include a transmitting portion 410, a wing portion 411, and an adhesive member 414.

The transmissive portion 410 of the optical adhesive film 400 is adhered to the touch panel 47 disposed on the liquid crystal panel 32 by the adhesive member 414 and the wing portion 411 is bonded on the side of the transmissive portion 410 And can be adhered to the side and backside portions of the liquid crystal display device 40 by the adhesive member 414. That is, the wing portion 411 extends to the back surface of the chassis 45 and can be adhered by the adhesive member 414.

Since the optical adhesive film 400 is bonded to the liquid crystal display device 40 while covering the front surface, the side surface, and the back surface of the liquid crystal display device 40, the adhesive force of the components of the liquid crystal display device 40 can be improved .

The transmissive portion 410 is bonded over the entire surface of the liquid crystal panel 42 and is made of a material having a high transmittance of the visible light. An image emitted through the liquid crystal panel 42 can be implemented through the transmissive portion 410.

The optical adhesive film 400 is provided with the adhesive member 414 over the entire surface of the transmitting portion 410 and the wing portion 411. [

The wing portion 411 may be composed of a base portion 411a, a light shielding member 411b, and a reflecting member 411c. The base portion 411a is formed to extend from one side of the transmission portion 410. [ A light blocking member 411b and a reflecting member 411c are stacked on the base portion 411a.

The reflective member 411c faces the liquid crystal display device 40 and reflects the light emitted from the liquid crystal display device 40 to prevent the light from leaking to the outside. The reflective member 411c may be disposed so as to correspond to the side surface and the back surface of the liquid crystal display device 40. [

The light blocking member 411b is disposed outside the reflective member 411c and absorbs light incident from the outside to prevent external light from entering the liquid crystal display device 40. [ The light shielding member 411b may be formed wider than the reflecting member 411c. The reflective member 411c is disposed on the base portion 411a so as to cover the side surface and the rear surface of the liquid crystal display device 40. The light shielding member 411b is disposed not only on the side surface and the back surface of the liquid crystal display device 40, .

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: Flat panel display module
20, 30, 40: liquid crystal display
11, 21, 31, 41: backlight unit
12, 22, 32. 42: liquid crystal panel
13, 23, 33, 43: polarizer
14, 24, 34, 44: Polarizing film
100, 200, 300, 400: optical adhesive film
110, 210, 310, 410:
111, 112, 113, 211, 311, 411:
114, 214, 314, 414:

Claims (40)

delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete A flat panel display module for implementing an image; And
An optical adhesive film adhered to a front surface and a side surface of the flat panel display module and adhered to a back surface of the flat panel display module;
And an image formed on a front surface of the flat panel display module is emitted through the optical adhesive film,
A transmissive portion disposed on a front surface of the flat panel display module and capable of transmitting an image;
A wing portion extending from one end of the transmitting portion to cover a side surface of the flat panel display module and cover a part of the back surface of the flat panel display module; And
An adhesive member disposed over the transmissive portion and the entire surface of the wing portion to adhere them between the transmissive portion and the wing portion and the flat panel display module;
Wherein the wing portion includes:
A base portion extending from one side of the transmission portion;
A light shielding member positioned between the base and the flat panel display module and having an end coinciding with an end of the base; And
A reflective member positioned between the light shielding member and the flat panel display module;
And the flat panel display device. delete 22. The method of claim 21,
And the transmissive portion transmits light emitted from the flat panel display module. 24. The method of claim 23,
Wherein the transmissive portion comprises any one of PET (polyethylene terephthalate), TAC film (Triacetyl cellulose film), PE (polyethylene), acrylic, and polyolefin. 22. The method of claim 21,
Wherein the transmissive portion is equal to or larger than a display region for implementing an image in the flat panel display module. 22. The method of claim 21,
Wherein the wing portion is larger than the thickness of the flat panel display module. 22. The method of claim 21,
Wherein the wing portion covers one side surface and a part of the back surface of the flat panel display module. delete 22. The method of claim 21,
Wherein the base portion is integral with the transmissive portion. 30. The method of claim 29,
Wherein the base portion comprises any one of PET (polyethylene terephthalate), TAC film (Triacetyl cellulose film), PE (polyethylene), acrylic, and polyolefin. 22. The method of claim 21,
And the light shielding member absorbs external light incident through the base portion. 32. The method of claim 31,
Wherein the light shielding member comprises a pigment or a dye capable of absorbing visible light. 22. The method of claim 21,
Wherein the light shielding member is larger than or equal to the reflective member. 22. The method of claim 21,
Wherein the light shielding member is disposed over the entire wing portion and a part of the transmissive portion. 22. The method of claim 21,
Wherein the reflective member reflects light emitted from the flat panel display device to prevent light from leaking. 36. The method of claim 35,
Wherein the reflective member includes a pigment or a dye capable of reflecting light. 22. The method of claim 21,
Wherein the flat panel display module includes a backlight unit sequentially stacked, a polarizing plate, and a liquid crystal panel. A flat panel display module for implementing an image; And
An optical adhesive film adhered to a front surface and a side surface of the flat panel display module and adhered to a part of the back surface of the flat panel display module;
And an image formed on a front surface of the flat panel display module is emitted through the optical adhesive film,
A transmissive portion disposed on a front surface of the flat panel display module and adhered to the front surface of the flat panel display module by surface energy without intervention of another member and capable of transmitting an image; And
A wing portion extending from one end of the transmission portion to cover a side surface of the flat display module and covering a part of the back surface of the flat display module and being adhered to the side and back surface of the flat display module by surface energy without intervention of other members;
Wherein the wing portion includes:
A base portion extending from one side of the transmission portion;
A light shielding member positioned between the base and the flat panel display module and having an end coinciding with an end of the base; And
A reflective member positioned between the light shielding member and the flat panel display module;
And the flat panel display device. delete delete

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