JP2003279976A - Liquid crystal display device with backlight - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid crystal display device with a backlight capable of eliminating luminance irregularities and preventing the decline of an yield due to glass chipping or the like. <P>SOLUTION: The side part end faces 10e and 10f of the upper glass 10a and lower glass 10b of a liquid crystal display panel 10 are constituted of mirror finished surfaces. When the side part end faces 10e and 10f are constituted of the mirror finished surfaces, the coarse recesses and projections of the side part end faces generated at the time of cutting are eliminated and light from a light emitting element 12 is not irregularly reflected. Thus, light accumulation by irregular reflection is not generated on the side part end faces 10e and 10f. Also, by turning the side part end faces 10e and 10f to the mirror finished surfaces, impact resistance is improved and the yield is improved. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device with a backlight having a backlight for illuminating a liquid crystal display panel, and more particularly to a device for reducing uneven brightness.

[0002]

2. Description of the Related Art In a liquid crystal display device with a backlight, as shown in FIG. 2, a frame body 2 having an opening at the top and a reflection housed so as to be stacked on the bottom of the frame body 2. The plate 4, the light guide plate 6, the diffusion plate 8, the liquid crystal display panel 10 housed above the plate 4, and the light emitting element 12 arranged laterally of the light guide plate 6 and the liquid crystal display panel 10.

In this backlight-equipped liquid crystal display device, the light emitted from the light emitting element 12 is guided upward by the light guide plate 6 to be emitted, and diffused by the diffusion plate 8 to be diffused.
The whole is illuminated from behind.

[0004]

A liquid crystal display panel 10 used in the above-described liquid crystal display device with a backlight includes an upper glass 10a and a lower glass 10b in which liquid crystal is sealed.
An upper polarizing plate 10c provided on the upper surface of the glass 10a
And a lower polarizing plate 10d provided on the lower surface of the lower glass 10b. The upper glass 10a and the lower glass 10b in the liquid crystal display panel 10 are the liquid crystal display panel 1
It is formed by cutting from a large glass substrate when manufacturing 0. In order to cut the upper glass 10a and the lower glass 10b from the large glass substrate as described above, a scribe line composed of a linear groove is formed in a portion to be cut by a scribe cutter, and pressure is applied to the substrate surface to form a scribe line portion. The large glass substrate is broken to cut the upper glass 10a and the lower glass 10b.

As described above, the upper glass 1 is scribed.
When 0a and the lower glass 10b are cut from a large glass substrate, the side end surfaces 10e and 10f of the cut upper glass 10a and the lower glass 10b become rough surfaces having irregularities as shown in FIG. When the side end faces 10e and 10f become rough in this way, of the light emitted from the light emitting element 12,
The light that has entered the upper glass 10a and the lower glass 10b and has reached the side end faces 10e, 10f receives the side end faces 10e, 10f.
Diffuse reflection occurs due to the rough unevenness of f. This allows
In particular, the periphery of the side end faces 10e and 10f on the right side in FIG. 2, which faces the side opposite to the light emitting element 12, becomes bright, and a light pool as if there is another light source may be generated. When such light accumulation occurs, the entire liquid crystal display panel 10 is not evenly illuminated, which is one of the causes of uneven brightness.

If the side end surfaces 10e and 10f of the upper glass 10a and the lower glass 10b are left as rough surfaces cut by scribing, chipping and cracking may occur even when subjected to a small impact. It is easy and requires careful handling. Therefore, the yield is lowered and the mass productivity is lowered.

The present invention has been made in view of the above problems of the prior art, and provides a liquid crystal display device with a backlight capable of eliminating uneven brightness and preventing a decrease in yield due to glass breakage or the like.

[0008]

A liquid crystal display device with a back light according to the present invention is a liquid crystal display device with a back light for illuminating a liquid crystal display panel with light from a light emitting element as set forth in claim 1. In the display panel, the side edges of the upper glass and the lower glass are mirror-finished surfaces. In the liquid crystal display device with a backlight, the light emitting element is arranged laterally of the liquid crystal display panel, and the light emitting element is arranged on side end surfaces of the upper glass and the lower glass. It is a side end face facing the side opposite to the side that is facing. Also,
The side end faces of the upper glass and the lower glass in the liquid crystal display device with a backlight are processed by high-frequency heating processing or mirror-polishing processing.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION In the liquid crystal display device with a backlight of the present invention, the side edges of the upper glass and the lower glass of the liquid crystal display panel are mirror-finished surfaces. By making the side edges of the upper glass and the lower glass mirror-finished in this manner, rough irregularities on the side edges are eliminated, and light from the light emitting element is not diffusely reflected.
As a result, light accumulation does not occur on the lateral end faces of the upper glass and the lower glass, and the entire liquid crystal display panel can be made evenly bright. Further, by making the side end surfaces of the upper glass and the lower glass mirror-finished, impact resistance can be enhanced and yield can be improved.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. The basic configuration of the liquid crystal display device with a backlight in this embodiment is as shown in FIG. That is, the frame body 2 having an opening at the top, the reflection plate 4, the light guide plate 6, and the diffusion plate 8 which are housed so as to be laminated on the bottom portion of the frame body 2, and the liquid crystal display panel 10 housed above the frame body 2. And a light emitting element 12 arranged laterally of the light guide plate 6 and the liquid crystal display panel 10. Further, the liquid crystal display panel 10 includes an upper glass 10a and a lower glass 10b in which liquid crystal is sealed,
An upper polarizing plate 10c provided on the upper surface of the glass 10a
And a lower polarizing plate 10d provided on the lower surface of the lower glass 10b.

The side edges 10e and 10f of the upper glass 10a and the lower glass 10b of the liquid crystal display panel 10 used in this liquid crystal display device with a backlight are mirror-finished surfaces. Therefore, this side end surface 10
As shown in FIG. 1, e and 10f have smooth surfaces without unevenness. Therefore, the light from the light emitting element 12 arranged at a position facing the side end faces 10e, 10f is diffusely reflected by the side end faces 10e, 10f and reflected without forming a light pool. As a result, the liquid crystal display panel 10 is uniformly illuminated, and uneven brightness can be reduced.

As a method of processing the side end surfaces 10e and 10f of the upper glass 10a and the lower glass 10b, a high-frequency heating method such as a laser is used to melt them into smooth surfaces.
It is mirror-finished by mirror-polishing so that it is formed into a mirror-like surface without irregularities. Note that the processing method is not limited to the above-described processing method and may be another processing method as long as it is a processing method capable of finishing the side end surfaces 10e and 10f into a mirror surface.

Further, if at least the side end surfaces 10e and 10f facing the light emitting element 12 are formed by mirror-finished surfaces, remarkable light accumulation can be prevented, but the uneven brightness can be further suppressed. Also, the side end surface on the side close to the light emitting element 12 may be similarly formed by a mirror-finished surface.

Further, in the present embodiment, the position of the light emitting element 12 is arranged laterally of the liquid crystal display panel 10. However, even when the light emitting element 12 is arranged directly below the liquid crystal display panel 10, the upper glass 10a and the lower glass 10a are disposed. By processing the side end faces on both sides of the glass 10b to be mirror-finished, it is possible to reduce uneven brightness due to irregular reflection.

[0015]

According to the present invention, since the side edges of the upper glass and the lower glass of the liquid crystal display panel are formed by mirror-finished surfaces, the light emitted from the light emitting element is emitted from the side edges. It is reflected without causing irregular reflection. For this reason, light accumulation does not occur on the side end faces, and uneven brightness can be reduced.

Further, by processing the side end faces of the upper glass and the lower glass into a mirror-like shape, the strength of the side end faces is increased,
The yield can be improved by preventing the generation of minute chips and cracks.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a state of side end faces of an upper glass and a lower glass of a liquid crystal display panel in a liquid crystal display device with a backlight according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view showing a configuration of a liquid crystal display device with a backlight.

FIG. 3 is a cross-sectional view showing a conventional state of side end faces of an upper glass and a lower glass of a liquid crystal display panel.

[Explanation of symbols]

2 frame 4 reflector 6 Light guide plate 8 diffuser 10 Liquid crystal display panel 10a Top glass 10b lower glass 10e, 10f Side end face 12 Light emitting element

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Akio Yoshimura             2 6663 Funatsu, Kawaguchiko Town, Minamitsuru District, Yamanashi Prefecture               Kawaguchiko Precision Co., Ltd. F term (reference) 2H090 JB02 JC01 JD06 LA10 LA16                       LA20                 2H091 FA14Z FA23Z FA32Z FA41Z                       GA01 LA03 LA18

Claims (3)

[Claims] 1. A liquid crystal display device with a backlight for illuminating a liquid crystal display panel with light from a light emitting element, wherein side edges of upper glass and lower glass in the liquid crystal display panel are mirror-finished surfaces. A liquid crystal display device with a backlight. 2. The light emitting element is arranged laterally of the liquid crystal display panel, and the lateral end faces of the upper glass and the lower glass are surfaces opposite to the side where the light emitting element is arranged. The liquid crystal display device with a backlight according to claim 1, wherein the liquid crystal display device has a side end face. 3. The liquid crystal display device with a backlight according to claim 2, wherein the side end faces of the upper glass and the lower glass are processed by high frequency heating processing or mirror polishing processing.