JP2972053B2 - Liquid crystal display - Google Patents

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 which is used in a laptop personal computer, a word processor, a notebook personal computer, etc. and has a backlight for illuminating a liquid crystal panel from the back side.

[0002]

2. Description of the Related Art Conventionally, a liquid crystal display device employs a backlight system in which a light source is disposed on the back side of a liquid crystal panel and the liquid crystal panel is irradiated with light from the light source. Light emitted from a backlight, which is a light source, selectively passes through the liquid crystal panel in accordance with a change in the structure of the liquid crystal in the liquid crystal panel, thereby allowing the liquid crystal panel to display clearer characters and figures. The display is made.

Conventionally, as a backlight mainly used, there is a CCFT (Cold Cathode Fluorescent Tube) backlight system, a so-called edge light system. As shown in FIG. 3, in a conventional backlight 3 'of the edge light type, a light source lamp is provided near a side end of a light guide plate 5' which is a light guide made of an acrylic resin which efficiently transmits light. CCFT6 is provided and CC
The light emitted from the FT 6 is multiple-reflected in the light guide plate 5 'to turn the light guide plate 5' into a surface light source and irradiate the liquid crystal panel 1. Therefore, the light guide plate 5 '
A light-diffusing film 7 for diffusing light is disposed on the upper surface of the light guide plate 5 ', that is, on the surface facing the liquid crystal panel 1. On the lower surface (back surface) of the light guide plate 5', a reflector for efficiently reflecting light is provided. Are provided, respectively. The reflective film 8 is provided so as to cover the lower surface of the light guide plate 5 ′ and the lower side of the CCFT 6 on the side end portion side of the light guide plate 5 ′. For example, a highly reflective white paint is applied to a metal plate such as an aluminum alloy. Or white PET (polyethylene terephthal
ate) sheet.

An effective light emitting area B on the lower surface of the light guide plate 5 ', that is, an area which is not covered by the metal angle 2 provided on the upper surface side of the liquid crystal panel 1 and which is related to display, has a uniform light emitting area. The first dot pattern D _{1 for} achieving
Are formed by printing, whereby uniform light emission can be achieved.

[0005]

In the above-mentioned conventional configuration,
In the effective light emitting area B on the lower surface of the light guide plate 5 ',
Since the first dot pattern D ₁ is formed, without contact the light guide plate 5 'and the reflective film 8, and holds a predetermined gap. However, on the outer peripheral side of the effective light emitting region B, the mirror surface of the acrylic resin, which is the material of the light guide plate 5 ', and the reflection film 8 face each other, so that the light guide plate 5' and the reflection film 8 adhere to each other. It will be. Then, when the light guide plate 5 ′ comes into close contact with the reflective film 8 in the predetermined end side region C from the end of the wrist on which the CCFT 6 is mounted to the effective light emitting region B, the CCFT 6
The light guided to the light guide plate 5 ′ causes interference of light at the contact portion, which results in a loss of light, which in turn causes a problem that the luminance of the liquid crystal display device is reduced.

Conventionally, in order to prevent such irregular reflection due to the close contact between the light guide plate 5 'and the reflection film 8, for example, a white PET sheet as the reflection film 8 is provided with irregularities, or a metal plate is used. A matte treatment was applied to the white paint. However, in such a method, the reflectivity of the reflective film 8 itself was reduced, which caused a problem of causing a decrease in luminance. Does not hold.

[0007]

In order to solve the above-mentioned problems, a liquid crystal display device according to the present invention has a liquid crystal panel and a light source lamp near a side end of a light guide for irradiating the liquid crystal panel from the back side. And an edge light type backlight in which a reflector is disposed on the back side of the light guide in the backlight, and uniform light emission is provided in an effective light emitting area on the back side of the light guide. The first pattern for achieving
In a liquid crystal display device formed at a constant pitch, a reflector is in close contact with a predetermined end side region from an effective light emitting region to a light source lamp end on the back surface of the light guide, and the reflector is in close contact with the back surface of the light guide. second pattern for preventing the found
It is characterized by being formed at a pitch larger than the pitch of the first pattern .

[0008]

According to the above construction, on the back surface of the light guide,
Since a second pattern for preventing the reflector from adhering to the back surface of the light guide is formed in a predetermined end side region from the effective light emitting region to the edge of the light source lamp, the predetermined end portion is formed. The light guide and the reflector do not come into close contact with each other in the part side area, and a predetermined gap is maintained. As a result, the light guide guides the light guide at the contact portion between the light guide and the reflector. There is no fear that the light guided to the light body will cause irregular reflection. Only
In addition, the pitch of the second pattern is
Formed at a pitch greater than the pitch of the first pattern
Lowering the brightness due to lowering the reflectance
As a result, the brightness is reduced due to irregular reflection.
It is possible to improve the brightness of the liquid crystal display device by preventing it efficiently.
it can.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIGS.

The liquid crystal display device of the present embodiment is shown in FIGS.
As shown in FIG. 1, a liquid crystal panel 1 having a thickness of 2.2 mm in the form of a flat plate is provided at the center. The liquid crystal panel 1 has, for example, T
FT (Thin Film Transistor) LCD panel, TF
It comprises a T substrate and a counter substrate facing the T substrate, and has a configuration in which a liquid crystal layer is sealed between these substrates.

On the outer peripheral side of the liquid crystal panel 1, a thickness of 0.1 mm is applied.
A 3 mm metal angle 2 made of, for example, stainless steel is provided, and an edge light type backlight 3 for irradiating the liquid crystal panel 1 from the back side is provided on the back side of the liquid crystal panel 1, that is, on the lower side in FIG. I have. Further, one end of the metal angle 2 is provided with a CCFT (Cold Cathode Fluorescent) described later provided in the backlight 3.
A lamp house 4 that covers, for example, a tube resin 6 and is made of, for example, polycarbonate resin is provided.

The backlight 3 is made of, for example, PMMA (polymethyl methanate) having a thickness of 1.5 mm for efficiently transmitting light.
a light guide plate 5 which is a light guide made of an acrylic resin such as thacrylate). Near the one side end of the light guide plate 5, an outer diameter of 3 m which is a light source lamp for supplying light to the light guide plate 5 is provided.
m of the above CCFTs 6 are arranged. Further, on the upper surface side of the light guide plate 5, that is, on the side facing the liquid crystal panel 1, for example, a 1 mm thick PET (polyethylene tere
While a diffusion film 7 made of phthalate) is provided,
On the lower surface side (back surface side) of the light guide plate 5, that is, on the surface side opposite to the liquid crystal panel 1, a thickness of 0.3 mm for efficiently reflecting light is provided.
Are provided, respectively. The reflection film 8 is provided so as to cover the lower surface of the light guide plate 5 and below the CCFT 6 on one end side of the light guide plate 5, for example, a film obtained by applying a high-reflection white coating to an aluminum alloy or a white PET. Etc.

Further, an effective light emitting area B (a shaded area in FIG. 2) on the lower surface (back surface) of the light guide plate 5.
Has a first dot pattern D for emitting uniform light.
₁ (first pattern) is formed by printing. First
The material of the dot pattern D _1, a mixture of glass beads are used, for example, Mejumu, the dot diameter 1m
In mφ, the dot pitch, which is the interval between dots, is 1 to
It is formed with a fine dot pitch of 2 mm.

Further, in the present embodiment, the same material, the same diameter, and the same formation as those described above are also applied to the predetermined end side region C from the effective light emitting region B to the CCFT end on the lower surface of the light guide plate 5. The second dot pattern D ₂ (second
Pattern) is formed. The second dot pattern D ₂ is for preventing the adhesion of the surface of the light guide plate 5 and the reflection film 8, the dot pitch is larger than in the first dot pattern D _1, within 3~15mm Is set to The dot pitch of the second dot pattern D _2, to greater than the dot pitch of the first dot pattern D _1, when the second dot dot pitch of the pattern D ₂ to fine dot pitch, the surface reflection and the light guide plate 5 This is because, although the adhesion to the film 8 can be prevented, the brightness is reduced.

In such a configuration, when the liquid crystal display device is driven, light emitted from the CCFT 6 is transmitted to the light guide plate 5.
The light guide plate 5 is turned into a surface light source by multiple reflection inside, and the light illuminates the liquid crystal panel 1 from the back side, and selectively passes through the liquid crystal panel 1 according to a change in the structure of the liquid crystal in the liquid crystal panel 1. . In this case, in the first dot pattern D ₁ of the for forming a uniform light emission provided in the effective light-emitting region B of the light guide plate 5, so that the irradiation of the liquid crystal panel 1 forms a uniform light emission. As a result, characters and figures indicated by the structure of the liquid crystal in the liquid crystal panel 1 are displayed more clearly.

Further, in this case, due to the second dot pattern D ₂ formed in the predetermined end side region C on the lower surface of the light guide plate 5, the light guide plate 5 and the reflection film 8 are brought into close contact with each other in the predetermined end side region C. Is prevented at the contact portion between the light guide plate 5 and the reflection film 8 as in the prior art.
The situation in which the light guided into the light guide plate 5 from 6 causes light interference and irregular reflection will not occur in the future. Therefore, it is possible to effectively irradiate the liquid crystal panel 1 with the light supplied from the CCFT 6 without causing a decrease in luminance due to irregular reflection. As a result, the second dot pattern D ₂ is formed in the predetermined end side region C. 35 in the conventional model that was not formed
brightness was cd / m ² were increased to 45 cd / m ^2.

In this embodiment, the backlight 3 using one CCFT 6 has been described.
6 can also be adopted in a backlight using two lamps, and specific numerical values such as the member thickness and the dot diameter in the above-described embodiment are merely examples, and are not limited thereto.

[0018]

As described above, the liquid crystal display device of the present invention has an edge light system in which a liquid crystal panel and a light source lamp are arranged near the side end of the light guide for irradiating the liquid crystal panel from the back side. A reflector is disposed on the back surface side of the light guide in the backlight, and a first light emitting portion on the back surface of the light guide has an effective light emitting region for uniform light emission. In a liquid crystal display device in which a pattern is formed at a predetermined pitch, a reflector is provided on a rear surface of the light guide in a predetermined end side region from an effective light emitting region to a light source lamp end. The second pattern for preventing contact with the first pattern is smaller than the pitch of the first pattern.
Are also formed with a large pitch .

According to this, in order to prevent the reflector from adhering to the rear surface of the light guide in the predetermined end side region from the effective light emitting region to the edge of the light source lamp on the rear surface of the light guide. Since the second pattern is formed, the light guide and the reflector do not come into close contact with each other at the predetermined end portion side region, and a predetermined gap is maintained. There is no danger that light guided from the light source lamp to the light guide at the contact portion between the light body and the reflector will cause irregular reflection. Only
In addition, the pitch of the second pattern is
Formed at a pitch greater than the pitch of the first pattern
Lowering the brightness due to lowering the reflectance
Not Shorai, this result, a reduction in luminance caused by irregular reflection is prevented efficiently, an effect that it is possible to increase the brightness of the liquid crystal display device.

[Brief description of the drawings]

FIG. 1 shows one embodiment of a liquid crystal display device of the present invention, and is a cross-sectional view of a main part of the liquid crystal display device.

FIG. 2 is a perspective view of the liquid crystal display device.

FIG. 3 is a cross-sectional view illustrating a main part of a conventional liquid crystal display device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Liquid crystal panel 2 Metal angle 3 Backlight 4 Lamp house 5 Light guide plate (light guide) 6 CCFT (light source lamp) 7 Diffusion film 8 Reflection film (reflector) B Effective light emission area C Predetermined edge side area D ₁ 1st Dot pattern (first pattern) D ₂ Second dot pattern (second pattern)

Claims (1)

(57) [Claims] A liquid crystal panel; and an edge light type backlight having a light source lamp disposed near a side end of a light guide for irradiating the liquid crystal panel from the back side. A liquid crystal display device in which a reflector is disposed on the back surface side of the light guide, and a first pattern for uniform light emission is formed at a predetermined pitch in an effective light emitting area on the back surface of the light guide. In the back surface of the light guide, a second pattern for preventing a reflector from adhering to the back surface of the light guide, in a predetermined end side region from the effective light emitting region to the edge of the light source lamp. Are formed at a pitch larger than the pitch of the first pattern .