KR20180092339A - Display apparatus implementing bezel-less - Google Patents

Abstract

Provided is a display device implementing a bezel-less design. According to one embodiment of the present invention, the display device comprises a liquid crystal display module (LCM) having an LCD active area in the center and an LCD bezel area at the outer edge; a reflective unit disposed on top of the LCD bezel area; and a cover glass disposed on top of the LCM and the reflective unit and having an edge unit with a curved surface. According to the present invention, a zero bezel can be implemented regardless of bezel area size.

Description

[0001] DISPLAY APPARATUS IMPLEMENTING BEZEL-LESS [0002]

The present invention relates to a display device including a liquid crystal display module (LCM), and more particularly to a display device in which an LCD bezel area of a liquid crystal display module (LCM) is not visible to a user.

In general, a liquid crystal display module (LCM) used in a display device includes a liquid crystal display (LCD) module and a backlight unit. The liquid crystal display (LCD) module has an LCD active area in the middle and an LCD bezel area in the outer frame.

The LCD active area is a portion where the screen is actually displayed, and the LCD bezel area serves to prevent unnecessary light leakage outside the display device.

The main reason for the existence of the LCD bezel area is due to the structural design of the display device. In addition to the panel portion that the user sees, there are many other components in the display device, such components being disposed in the LCD bezel region formed in a rim shape on the outer portion of the display device.

The thinner the LCD bezel area, the more focus can be concentrated on the output screen. Especially, when the LCD bezel area is thin, the screen is full and the immersion is increased. For this reason, a display device in which the LCD bezel area is not visible to the user is being developed.

Patent Document 1 discloses a display device that curves the edge portion of a cover glass to refract light emitted from a backlight unit (BLU) of a liquid crystal display module (LCM) to prevent a user from visually recognizing an LCD bezel area.

However, in the conventional display device implementing the bezel using the curved surface processing of the cover glass as in Patent Document 1, when a certain portion (0.1 mm) of the end of the LCD bezel region is visually recognized by the user, and when the size of the LCD bezel region becomes large, There has been a problem that it is difficult to realize a zero bezel because there is a limitation in the thickness of the glass and the radius of curvature R of the cover glass edge portion.

CN 104484016 A

SUMMARY OF THE INVENTION The present invention is directed to a display device capable of realizing a zero-bezel without being restricted by the size of the LCD bezel region without being visually recognized even to the end of the LCD bezel region.

In order to solve the above problems, a bezelless display device according to an embodiment of the present invention includes a liquid crystal display module (LCM), a reflector, and a cover glass. The liquid crystal display module LCM has an LCD active area in the middle and an LCD bezel area in an outer frame. The reflector is disposed above the LCD bezel region. The cover glass has an edge portion disposed on the liquid crystal display module and the reflective portion and being curved.

Preferably, the reflector has the same color as the LCD active area when the power of the LCM module is turned off.

Preferably, the reflection portion is a reflection film coating layer or a reflection film film made of an oxide.

Preferably, the edge portion of the cover glass is composed of a first edge portion having a first radius of curvature and a second edge portion having a second radius of curvature. The first radius of curvature and the second radius of curvature are different. The curved surface of the first edge portion starts from the end of the cover glass to the first point, and the curved surface of the second edge portion extends from the end portion of the curved surface of the first edge portion to the second point. Wherein the first point is a distance from the end of the LCD bezel region by a distance less than half the width of the LCD bezel region and the second point is a distance from the end of the LCD bezel region that is greater than or equal to the width of the LCD bezel region, It is a distance away.

Preferably, an area of the cover glass is smaller than or equal to an area of the liquid crystal display module.

According to the present invention, the image position of the LCD active area is changed to the LCD bezel area using reflection and refraction of light, so that the LCD bezel area is not visible to the user. A zero bezel can be realized without being restricted by the size of the bezel region by solving the conventional problem that is restricted by the bezel implementation according to the size of the bezel region due to the limit of refraction in the cover glass through the reflector .

1 is a cross-sectional view of a bezelless display device according to an embodiment of the present invention.
2 is an enlarged view of the area A in Fig.
Figure 3 illustrates reflection and refraction of light in the bezelless display device of Figure 1;

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to be illustrative of the present invention and not to limit the scope of the invention. Should be interpreted to include modifications or variations that do not depart from the spirit of the invention.

Although the terms used in the present invention have been selected in consideration of the functions of the present invention, they are generally used in general terms. However, the present invention is not limited to the intention of the person skilled in the art to which the present invention belongs . However, if a specific term is defined as an arbitrary meaning, the meaning of the term will be described separately. Accordingly, the terms used herein should be interpreted based on the actual meaning of the term rather than on the name of the term, and on the content throughout the description.

The drawings attached hereto are intended to illustrate the present invention easily, and the shapes shown in the drawings may be exaggerated and displayed as necessary in order to facilitate understanding of the present invention, and thus the present invention is not limited to the drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of known configurations or functions related to the present invention will be omitted when it is determined that the gist of the present invention may be obscured.

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

1 is a cross-sectional view of a bezelless display device according to an embodiment of the present invention. 1, the display device includes a liquid crystal display module (LCM) 110, a reflective portion 120, a cover glass 130, a bonding portion 140, and a case 150.

The liquid crystal display module (LCM) 110 includes an LCD module 112 and a backlight unit (BLU) The LCD module 112 includes an LCD active area 114 in the middle and an LCD bezel area 116 in the outer frame.

The LCD active area 114 is a part where a screen is actually displayed, and the LCD bezel area 116 is a part for preventing unnecessary light leakage outside the display device. In addition to the panel portion that the user sees, the display device has many other components, which are disposed in the LCD bezel region 116 formed in a rim shape on the outer periphery of the display device.

The backlight unit 118 is a light source device that serves to emit light from behind the LCD module 112. Since the LCD module 112 can not emit light itself in the LCD active area 114, the amount of light emitted from the backlight unit 118 on the back surface of the LCD module 112 is controlled and the color of the light is controlled.

The reflective portion 120 is disposed on the upper portion of the LCD bezel region 116. The area of the reflective portion 120 is equal to or greater than the area of the LCD bezel region 116.

The reflection part 120 is formed by coating a reflection film on the cover glass 130 without printing BM (Black Matrix) or attaching a reflection film. That is, the reflection portion 120 is a reflection film coating layer or reflection film formed on the cover glass 130 without BM printing.

The reflectance of the reflective portion 120 is 1 to 99%. The reflective portion 120 is made of an oxide. For example, the reflective portion 120 is formed of a seven-layered film in which an SiO ₂ layer and a Ti ₃ O ₅ layer are alternately deposited.

If there is no reflector 120 in the display device, due to the limit of refraction in the cover glass, a certain portion of the end of the LCD bezel area 116 when the LCM module 110 is powered on, do. However, even when the power of the LCM module 110 is turned on due to the presence of the reflection part 120, the end of the LCD bezel area 116 is not visually recognized by the user.

The conventional problem that is limited by the bezel implementation depending on the size of the bezel region due to the limit of the refraction of the cover glass can be solved through the reflection unit 120. Accordingly, (zero) bezel can be implemented.

The reflector 120 is implemented to have the same color as the LCD active area 114 when the power of the LCM module 110 is turned off. Thus, the LCD bezel area 116 is not easily visible to the user even when the LCM module 110 is powered off.

The cover glass 130 is disposed on the liquid crystal display module 110 and the reflective portion 120. The cover glass 130 has a curved edge portion 132. The cover glass 130 is processed to 2.5D by applying a multiple curvature radius to the edge portion 132. [

2 is an enlarged view of the area A in Fig. Referring to Fig. 2, the edge portion 132 of the cover glass 130 is composed of a first edge portion 134 and a second edge portion 136. As shown in Fig. The first edge portion 134 has a first radius of curvature R1 and the second edge portion 136 has a second radius of curvature R2. The first radius of curvature R1 and the second radius of curvature R2 are different.

The curved surface of the first edge portion 134 starts from the end P ₀ of the cover glass 130 and extends to the first point P ₁ and the curved surface of the second edge portion 136 extends from the first edge portion 134 ) To the second point (P ₂ ).

The first point P ₁ is a point distant from the end P ₃ of the LCD bezel region 116 by a distance less than half the width W of the LCD bezel region 120. The second point P ₂ is a point that is greater than or equal to the width W of the LCD bezel region 116 from the end P ₃ of the LCD bezel region 116.

Referring again to FIG. 1, the area of the cover glass 130 is smaller than or equal to the area of the LCD module 110. A certain portion of the end of the LCD bezel area 116 is visible to the user when the power of the LCM module 110 is turned on when the cover glass 130 is larger than the LCD module 110. [

The adhesive 140 adheres the LCD active area 112 to the cover glass 130. The bonding portion 140 is implemented with OCA (Optical Clear Adhesive) or OCR (Optical Clear Resin).

The case 150 receives the components of the display device, including the LCM module 110 and the reflector 120. [ The accommodating space of the case 150 is covered by the cover glass 130.

Figure 3 illustrates reflection and refraction of light in the bezelless display device of Figure 1; 3, the light L ₁ incident on the LCD bezel region 116 is reflected by the reflective portion 120 (L ₂ ). Then, the position of the LCD active area 114 is changed to the LCD bezel area 116 (L ₃ ). Accordingly, the LCD bezel area 116 is not visible to the user, and the zero bezel is realized without being limited by the size of the LCD bezel area 116. [

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments of the present invention described above can be implemented separately or in combination.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

110: LCD module (LCM) 112: LCD module
114: LCD active area 116: LCD bezel area
118: backlight unit (BLU) 120: reflective part
130: cover glass 132: edge portion
134: first edge portion 136: second edge portion
140: OCA 150: Case

Claims (5)

A liquid crystal display module (LCM) having an LCD active area in the middle and an LCD bezel area in an outer frame;
A reflective portion disposed on an upper portion of the LCD bezel region; And
And a cover glass having the liquid crystal display module and an edge portion formed on the reflective portion and being curved.
The display device of claim 1, wherein the reflector has the same color as the LCD active area when the power of the LCM module is turned off.
The bezelless display device according to claim 1, wherein the reflective portion is a reflective coating layer or a reflective film formed of an oxide.
The cover glass according to claim 1, wherein the edge portion of the cover glass is composed of a first edge portion having a first radius of curvature and a second edge portion having a second radius of curvature, wherein the first radius of curvature and the second radius of curvature are different Wherein the curved surface of the first edge portion extends from the end of the cover glass to the first point and the curved surface of the second edge portion extends from the end portion of the curved surface of the first edge portion to the second point, The point being a distance less than half the width of the LCD bezel region from the end of the LCD bezel region and the second point being spaced from the end of the LCD bezel region by a distance greater than or equal to the width of the LCD bezel region Wherein the display is a point.
The bezelless display device according to claim 1, wherein an area of the cover glass is smaller than or equal to an area of the LCD module.

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