JP2003131582A - Display unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent an image from decreasing in contrast under the influence of unnecessary leak light and reflected light. SOLUTION: The side of the top surface 6 of a transparent substrate 2 is protected by a transparent cover 21. On the reverse surface of the transparent cover 21, a 2nd polarizing plate 22 is fixed. The polarizing surface of the 2nd polarizing plate 22 is provided so as to match the angle of the polarizing surface of a 1st polarizing plate 20. An image L1 ' obtained from the display surface of a display means 30 is held sharp without being cut off by the 2nd polarizing plate 22. Transmitted light of leak light and reflected light from the transparent substrate 2 which are unnecessary is reduced to <=50% by the polarizing plate 22.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technique for using a surface illumination device or the like in combination with display means such as a signboard or various display devices, and more particularly to a surface illumination device for a reflection type liquid crystal display device. The present invention relates to technology when used in combination.

[0002]

2. Description of the Related Art Liquid crystal display devices that operate with low power consumption are
Because of its features such as thinness and lightness, there is an increasing demand for display means mainly for personal computers and mobile phones. Liquid crystal, which is a constituent member of a liquid crystal display device, does not emit light by itself unlike a light emitting element such as a cathode ray tube. Therefore, it is necessary to separately use auxiliary lighting means for enabling use in a dark place. Become. In particular, among recent demands for thinner electronic products and power saving,
A side light type (light guide plate type) planar illumination device is often used as an auxiliary illumination means for illuminating the liquid crystal display device.

FIG. 2 shows the basic components of a display device having the surface illumination device 1. The planar lighting device 1 is
The transparent substrate 2 and the rod-shaped light source unit 11 are the main components, and the lower surface 5 of the transparent substrate 2 is arranged close to the observation surface (display surface) of the display means 30. The display means 30 is a reflective liquid crystal display element, and the planar illumination device 1 is also called a front light unit because of the positional relationship between the transparent substrate 2 and the display means 30.

A light reflection pattern 7 is formed on the upper surface 6 of the transparent substrate 2. In the illustrated example, the light reflection pattern 7 is composed of a large number of groove portions 8 having a substantially triangular cross section and a flat portion 9 adjacent to the groove portions 8. The light reflection pattern 7 is
The intervals at which the grooves 8 are formed are different from place to place so that the brightness is substantially uniform at any position of the transparent substrate 2 regardless of the distance from the rod-shaped light source unit 11. That is, the ratio of the width (occupied area) of the groove 8 to the width (occupied area) of the flat portion 9 is set to gradually increase as the distance from the one end face 3 of the transparent substrate 2 increases. Since the groove 8 of the light reflection pattern 7 formed on the transparent substrate 2 is extremely fine, it cannot be visually confirmed when observing the screen.

The rod-shaped light source section 11 is composed of a light guide 13 made of a rod-shaped transparent material, and a point light source 12 arranged on at least one of both ends of the light guide 13.
A light emitting diode is used as the point light source 12, and a light guide 13 made of a transparent material is arranged along the one end surface 3 of the transparent substrate 2, and one end of the light guide 13 is provided. Portion 14 (may be provided on both ends 17)
In addition, the point light sources 12 are arranged close to each other. On the other hand, the light guide 1
An optical path changing unit 15 is formed at 3. In the illustrated example, the optical path changing means 15 is formed by arranging irregularities having a substantially triangular cross section in the longitudinal direction of the light guide body 13 according to a certain rule.

The periphery of the light guide 13 in the longitudinal direction other than the surface facing the transparent substrate 2 is covered with a light reflecting member (reflector) 16 in order to guide light rays into the transparent substrate 2 with high efficiency. . The light reflection member 16 is a sheet-shaped member such as a film obtained by vapor-depositing a metal such as silver, a white film or a film coated with white paint, or a metal plate such as an aluminum plate that is mirror-finished. I am using what I did.

When such a planar lighting device 1 is added to the display means 30 which is a reflection type liquid crystal display element to form a display device, the light emitted from the rod-shaped light source unit 11 is emitted from the transparent substrate 2.
By being incident on the inside of the transparent substrate 2 from the one end face 3 and proceeding toward the facing surface 10 while repeating reflection and refraction inside the transparent substrate 2, the light is gradually emitted from the lower face 5 of the transparent substrate 2, The display means 30 arranged adjacent to the transparent substrate 2 is illuminated. Furthermore, since the light reflection pattern 7 is formed on the transparent substrate 2, the amount of light emitted from the lower surface 5 can be made to have a substantially uniform distribution. In addition,
The light guide body 13 is not an indispensable component, and has a structure in which the light of the point light source 12 is directly incident on the transparent substrate 2, and the light reflection pattern 7 arranged radially, for example, is formed on the surface of the transparent substrate 2. By doing so, it is possible to illuminate the display means 30 uniformly.

Further, the display device having the above-mentioned planar lighting device 1 is mounted on a mobile phone or the like, and when it is actually incorporated in the display device, in order to improve the handleability, etc.,
The transparent substrate 2, the light source unit 11, and the display unit 30 shown in FIG.
It is integrated by a housing frame (not shown). The housing frame is, for example, a frame-shaped resin molded product, and includes the positioning portion of the transparent substrate 2 and the point light source 12.
Positioning section, positioning section of light guide 13, display means 30
It is equipped with a positioning section and the like. Then, by attaching each component to a predetermined positioning portion of the housing frame, it becomes possible to accurately and easily perform the positioning of each component. Further, by incorporating each component in the housing frame, it is possible to secure the hermeticity between the components and prevent the deterioration of the optical characteristics due to the entry of unnecessary external light or the like.

That is, the display device having the planar lighting device 1 is handled as an assembly in which main components are integrated, and is integrally incorporated in a display part of an electronic product such as a mobile phone. The display device having the planar lighting device having the above-mentioned configuration is provided by the present applicant.
It is disclosed in detail in Japanese Patent Application No. 2001-234887.

[0010]

However, the display device having the conventional planar lighting device 1 having the above-described structure includes the following problems. As mentioned above,
The light that has entered the transparent substrate 2 from the light source unit 11 is reflected by the light reflection pattern 7 and illuminates the display means 30, but at this time, not all the light is reflected and some light is emitted. The light leaks out of the transparent substrate 2 from the surface on which the reflection pattern 7 is formed, and it becomes unnecessary light (leakage light) and reaches the viewer side. Also, when the screen is recognized by using external light without turning on the planar lighting device, it is based on the refractive index difference between the surface of the transparent substrate on which the light reflection pattern is formed and the air. Reflection of light occurs, and the reflected light also reaches the viewer side as unnecessary light. These unnecessary leaked light and reflected light are
This reduces the contrast of the displayed image. When the contrast of the displayed image is lowered, for example, in the case of an image composed of characters and figures, black characters and black figure outlines appear to be white and blurred.

Further, the so-called front light unit is particularly suitable for combination with a reflective liquid crystal element for color display, but the deterioration of the display quality of the display is noticeable to the observer due to the decrease in contrast on the color screen. It was something that caused them to take some measures.

The present invention has been made in view of the above problems, and an object of the present invention is to construct an illuminated display device by using a so-called front light unit as auxiliary illumination means of the display device. Another object of the present invention is to prevent the deterioration of the contrast of an image due to the influence of unnecessary light such as leaked light or reflected light, and to improve the quality of an image provided to an observer by using a planar illumination device.

[0013]

In order to solve the above-mentioned problems, a display device according to claim 1 of the present invention arranges a transparent substrate so as to cover the display surface of the display means, and disposes the transparent substrate. In a display device including a planar illuminating device that irradiates light from a light source located laterally to the display surface of the display means through the transparent substrate, the display means of the transparent substrate is arranged. On the side opposite to the side, a first polarizing plate provided on the display surface of the display means and a second polarizing plate whose polarization planes have the same angle are arranged.

According to the present invention, of the auxiliary illumination light, the light leaking on the transparent substrate surface and the reflected light of the external light on the transparent substrate surface are non-polarized, so that they are arranged above the transparent substrate. Moreover, half of the light is absorbed by the second polarizing plate, and the amount of light reaching the observer can be halved. And
A reduction in the contrast of an image obtained from the display surface of the display unit due to unnecessary leaked light or reflected light is suppressed. Moreover, since the second polarizing plate has the same angle of polarization as the first polarizing plate provided on the display surface of the display means, the image obtained from the display surface of the display means is It is possible to provide the image to the viewer while maintaining a clear image without being blocked by the second polarizing plate.

A display device according to a second aspect of the present invention is the display device according to the first aspect, wherein the second polarizing plate is fixed to a transparent cover of a display section of a product in which the display device is incorporated. It is a thing.

When a transparent cover is used on the outermost surface of the display part of the product in which the display device is incorporated, an image obtained from the display surface of the display means and unnecessary leakage light, external light, etc. Both of these eventually pass through the transparent cover and reach the observer. Therefore, in the present invention, by fixing the second polarizing plate to the transparent cover, all unnecessary external light or the like is converted into linearly polarized light before reaching the observer, that is, the amount of light is halved. The reduction in the contrast of the image obtained from the display surface is surely suppressed. Further, the transparent cover can be effectively used for fixing the second polarizing plate, and the support plate for holding the second polarizing plate is not necessary. Further, the light reflected by the transparent cover of external light can be reduced, and the contrast can be further improved.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the accompanying drawings. It should be noted that the same or corresponding portions as those of the conventional technique are denoted by the same reference numerals and detailed description thereof will be omitted.

FIG. 1 is a side view schematically showing the structure of a display device according to an embodiment of the present invention. The planar lighting device used in the display device according to the embodiment of the present invention is
A so-called front light unit is formed by arranging the lower surface 5 of the transparent substrate 2 close to the display means 30 which is a reflective liquid crystal display element so as to cover the observation surface (display surface). Although not shown in FIG. 2, a polarizing plate 20 (first polarizing plate) is usually provided on the display surface of the display unit 30. The upper surface 6 side of the transparent substrate 2 is on the surface illumination device 1
It is protected by a transparent cover 21 which is located on the outermost surface of the display part of the product in which the display device having the above is incorporated. Further, the second polarizing plate 22 is fixed to the side of the transparent substrate 2 opposite to the side where the display means 30 is arranged, that is, the lower surface of the transparent cover 21 in the embodiment of the present invention. As a method of fixing the second polarizing plate 22 to the transparent cover 21, for example, translucent bonding or the like is used. The polarization plane of the second polarizing plate 22 is provided so that the angles of the polarization plane of the second polarizing plate 22 are the same as those of the first polarizing plate 20.

According to the embodiment of the present invention having the above structure, the following operational effects can be obtained. First,
From the rod-shaped light source unit 11 to the display unit 3 through the transparent substrate 2.
The emitted light ray L ₁ radiated toward the display surface of 0 is initially unpolarized, but is reflected inside the display means 30 to cause the polarization effect of the first polarizing plate 20 (of the two polarized components orthogonal to each other). , The action of absorbing one polarization component) changes the polarization state, and when it passes through the transparent substrate 2 again, it becomes linearly polarized light. Then, the light passes through the second polarizing plate 22 and the transparent cover 21 and is emitted to the outside. At this time, since the second polarizing plate 22 has the same angle of polarization as the first polarizing plate 20, the image L ₁ ′ obtained from the display surface of the display means 30 is the second polarizing plate. It is ejected to the outside of the transparent cover 21 while maintaining a clear image without being blocked by 22.

Further, necessary external light L ₂ which enters the display portion of the product from the outside and is reflected inside the display means 30.
Also, although it is initially non-polarized, the polarization state is changed by the polarization action of the first polarizing plate 20. Therefore, when it passes through the transparent substrate 2 again, it becomes linearly polarized light. Then, like the image L ₁ ′, the image L ₂ ′ is not blocked by the second polarizing plate 22 and is maintained outside the transparent cover 21 while maintaining a clear image.

On the other hand, of the light incident on the transparent substrate 2 from the rod-shaped light source section 11, it is not reflected to the display means 30 side,
The unnecessary light L ₁₀ leaking from the upper surface 6 side of the transparent substrate 2 to the transparent cover 21 side passes through the second polarizing plate 22 and the transparent cover 21 and is emitted to the outside. The polarization state of the polarization plate 22 is changed by the polarization action of the polarization plate 22 and becomes linearly polarized light L ₁₀ ′ at the time of being emitted to the outside. When the non-polarized light is changed to the linearly polarized light by the polarization action of the second polarizing plate 22, the amount of light reaching the observer side is 50%.
It has fallen below. Therefore, the influence of unnecessary leakage light
If the second polarizing plate 22 is not provided, it is suppressed to 50% or less,
It is possible to suppress a decrease in contrast of an image obtained from the display surface of the display means.

Unwanted external light L ₃ which enters the display portion of the product from the outside and is reflected on the upper surface of the transparent substrate 2 is
When the light is emitted to the outside after passing through the second polarizing plate 22 and the transparent cover 21, the polarization state of the second polarizing plate 22 changes due to the polarization effect, and at the time of emitting to the outside,
It is linearly polarized light L ₃ '. Similarly, unnecessary external light L ₄ entering the display portion of the product from the outside and reflected on the lower surface of the second polarizing plate 22 also changes its polarization state due to the polarization effect of the second polarizing plate 22. The linearly polarized light L ₄ ′ is emitted at the time of being emitted to. Moreover, the transmittance at the time when the non-polarized light L ₃ and L ₄ is changed to the linearly polarized light L ₃ ′ and L ₄ ′ by the polarization action of the second polarizing plate 22 is reduced to 50% or less of the incident light. There is. Therefore, the influence of unwanted entry and reflection of external light or the like can be suppressed to 50% or less as compared with the case where the second polarizing plate 22 is not provided, and the deterioration of the contrast of the image obtained from the display surface of the display unit can be suppressed. it can. In addition, the reflected light (not shown) on the surface of the first polarizing plate,
It can be reduced by a similar action.

Further, in the embodiment of the present invention, the second polarizing plate 22 is provided on the transparent cover 21 located on the outermost surface of the display part of the product in which the display device including the planar lighting device 1 is incorporated. Therefore, the following operational effects can be obtained. That is, since the transparent cover 21 is located on the outermost surface of the display unit, the images L ₁ ′ and L ₂ ′ obtained from the display surface of the display unit 30, unnecessary leakage light L ₁₀ and unnecessary external light L _{3 are obtained.} , L ₄ are finally transparent covers 2
It will pass 1 and reach the observer. Then, the unnecessary external light L ₃ , L ₄ and the unnecessary leaked light L ₁₀ reaching the observer are all transmitted by the second polarizing plate 22 fixed to the transparent cover 21 at a transmittance of 50% or less at the time of incidence. Linearly polarized light L ₃ ',
Since L ₄ ′ and L ₁₀ ′ are changed, it is possible to reliably suppress the decrease in the contrast of the images L ₁ ′ and L ₂ ′ obtained from the display surface of the display unit 30. Further, the transparent cover 21 provided mainly for protecting the planar lighting device 1 can be effectively used for fixing the second polarizing plate 22.

In the embodiment of the present invention, even if the transparent cover 21 is integrated as a part of the display device including the planar lighting device 1, the transparent cover 21 includes the planar lighting device 1. Even when it is provided separately from the display device, the same operational effect can be obtained. Also, FIG.
The sizes, distances, etc. of the respective constituent elements shown in Fig. 4 are schematically shown for convenience of explanation, and as long as they have the above-mentioned characteristics, the above-mentioned operational effects regardless of the sizes, distances, etc. of the respective constituent elements. It is possible to obtain

[0025]

As described above, the present invention has the following effects. First, according to the display device according to claim 1 of the present invention, when a display device is configured by using a so-called front light unit as an auxiliary illuminating means of the display device, unnecessary reflected light such as leaked light and external light is reflected. It is possible to prevent the contrast of the image from being deteriorated due to the influence of, and to improve the quality of the image provided to the observer by using the planar illumination device.

Further, according to the display device of the second aspect of the present invention, it is possible to surely suppress the deterioration of the contrast of the image obtained from the display surface of the display means, and to provide the image to the observer by using the planar illumination device. The quality of can be surely improved.

[Brief description of drawings]

FIG. 1 is a side view schematically showing a structure of a display device according to an embodiment of the present invention.

FIG. 2 is a perspective view showing a basic component part of a conventional display device.

[Explanation of symbols]

1 planar lighting device 2 transparent substrate 5 Lower surface 6 upper surface 11 Rod-shaped light source 20 First Polarizing Plate 21 transparent cover 22 Second polarizing plate 30 display means

   ─────────────────────────────────────────────────── ─── Continued front page    F-term (reference) 2H038 AA52 AA55 BA06                 2H091 FA08X FA14X FA23X FA41X                       FD22 LA18                 5G435 AA02 BB12 BB16 EE22 FF05                       FF08

Claims (2)

[Claims] 1. A transparent substrate is arranged in close proximity so as to cover the display surface of the display means, and light from a light source located on the side of the transparent substrate is passed through the transparent substrate to the display surface of the display means. In a display device provided with a planar illumination device for irradiating toward, on the side opposite to the side where the display means of the transparent substrate is arranged, the first provided on the display surface of the display means.
And a second polarizing plate having the same polarization plane as that of the second polarizing plate. 2. The display device according to claim 1, wherein the second polarizing plate is fixed to a transparent cover of a display section of a product in which the display device is incorporated.