JPH0555103U - Light guide plate device - Google Patents

Abstract

(57) [Summary] [Purpose] Even if the lamp length of the light source is less than the width of the light-entering surface of the light guide plate, or whatever the size of the light guide plate, it is possible to achieve a sufficiently high uniformity. To provide a light board device. [Structure] A light guide plate 1 having one surface as a diffusion surface 2 and multiple surfaces as a reflection surface 3 is provided. Depending on the distance from the light source 4, the area ratio is gradually increased from the side closer to the light source 4 to the side farther from the side, and only a part of the light incident surface 8 side or the light shielding surface 9 side is included. , A uniform continuous pattern A in which patterns having the same area ratio are arranged in a row.

Description

[Detailed description of the device]

[0001]

[Industrial application]

 The present invention relates to a backlight used for a display of a liquid crystal television, a personal computer or the like, and more particularly to a light guide plate device used as a liquid crystal display plate.

[0002]

[Prior Art]

 Conventionally, in order to obtain a light guide plate with improved uniformity, a light guide plate 11 as shown in FIG. 7, that is, a speckle pattern 15 for irregular reflection, is parallel to the light source 14 in parallel with the light source 14. There is a one-way ground pattern B that is formed so that it gradually increases from the one side to the far side, which changes the ratio between the size of the spot pattern 15 and the distance from the light source 14 in various ways. By doing so, it became possible to adjust the uniformity of the light guide plate.

[0003]

[Problems to be solved by the device]

 However, recently, the light guide plate has been incorporated into laptop or notebook type personal computers or word processors, and inevitably, design, thinning, and weight reduction have been emphasized for these. The phenomenon that the lamp length of the light source that most affects the light source is shorter than the light-entering surface of the light guide plate or at least the same is observed.

In this way, in the conventional print pattern of the spot pattern 15 (the one-way grant pattern B is used over the entire area), both end portions of the light incident surface 18 (see FIG. 7A). ) Is extremely dark, and is away from the light source 14 to some extent, and the size of the speckle pattern 15 is a considerably large portion (see FIG. 7 (b)), the diffusion of light in that portion progresses and the light from the light source 14 is emitted. It became very difficult to maintain uniformity because the influence of distance was almost eliminated.

Therefore, the light guide plate device of the present invention is an improvement of the spot pattern printing pattern in view of the above-mentioned situation, and the lamp length of the light source is equal to or less than the width of the light incident surface of the light guide plate. However, it is an object of the present invention to provide a light guide plate device having a sufficiently high degree of uniformity regardless of the size of the light guide plate.

[0006]

[Means for Solving the Problems]

 The present invention takes the following technical means in order to achieve the above object.

That is, a light guide plate having one surface as a diffusion surface and multiple surfaces as reflection surfaces is provided, and a printed pattern for irregularly reflecting light is provided on the reflection surface side of the light guide plate. In a light guide plate device in which light from a light source is incident on the light guide plate from a surface, and the light is diffusely reflected by the printed pattern or is reflected by the light shielding surface at the other end of the light guide plate and is made to emit light from a diffusion surface. The pattern of the printed pattern is a one-way gradation pattern in which the area ratio is gradually increased from the side closer to the light source to the side farther from it, depending on the distance from the light source. It is characterized in that a uniform continuous pattern in which patterns having the same area ratio are lined up is incorporated into only a part of the above.

[0008]

[Action]

 The light from the light source enters the light guide plate from one side light incident surface of the light guide plate, and is totally reflected by the reflecting surface and the diffusing surface inside the light guide plate while the other side end surface side of the light guide plate (especially, the light shielding surface side). ). In the meantime, part of the light from the light source is scattered and reflected by the printed pattern provided on the reflecting surface side, and this reflected light is emitted from the diffusing surface of the light guide plate, and as a result, the diffusing surface of the light guide plate emits light. It becomes a surface and emits light.

At this time, the light from the light source tends to be strong on the side closer to the light source of the light guide plate and weaker on the side farther from it. Further, depending on the size of the light guide plate, only the both ends on the light incident surface side may be dark, or only the both ends on the light shielding surface side may be extremely bright, resulting in very poor uniformity.

However, the light guide plate device according to the present invention divides the printed pattern into patterns according to the distance from the light source, and as described above, a different printed pattern is preliminarily incorporated only in the part where the brightness tends to increase or the part where the brightness tends to decrease. Therefore, regardless of the size of the light source or the size of the light guide plate, the light emission on the diffusion surface becomes uniform over the entire area.

[0011]

【Example】

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

As shown in the cross-sectional explanatory view of FIG. 1, the light guide plate device according to the present invention has one surface of the light guide plate 1 as a diffusion surface 2 and the other surface as a reflection surface 3, and along the one side surface of the light guide plate 1. It is configured with a light source 4 attached.

On the reflection surface 3 side of the light guide plate 1, there is provided a printing pattern 5 on the surface of which the spots are scattered, for example, and in order to prevent the light of the light source 4 from leaking to the outside. A light-shielding cover 6 is provided on the light source 4 side so as to cover the outer periphery of the light source 4, and a light-shielding sheet 7 is provided on the peripheral side surface where the light source 4 is not attached.

In the above structure, the side surface of the light guide plate 1 on the side of the light source 4 is the light incident surface 8, and the other side corresponding to the light incident surface 8 is the light shielding surface 9, and the light of the light source 4 is incident from the light incident surface 8. Then, the light is diffusely reflected by the printed pattern 5 on the reflecting surface 3, or is reflected by the light shielding sheet 7, particularly the light shielding sheet 7 of the light shielding surface 9 to be emitted and emitted from the diffusion surface 2.

A transparent or weldable plastic plate such as acrylic, polypropylene, or polyethylene is used for the light guide plate 1, and a film made of, for example, semitransparent polycarbonate having a high transmittance is used for the diffusion surface. However, the surface may be embossed or matte processed to diffuse light, or the back surface may be glossed.

The reflection surface 3 is made of, for example, white polyester or a polyester film with a silver vapor deposition film attached to the inner surface for preventing light leakage, which is also used for the light shielding cover 6 and the light shielding sheet 7. It is also attached.

On the other hand, as the light source 4, a hot cathode discharge lamp or the like having a high brightness has been conventionally used, but the light source 4 is also a small cold cathode discharge lamp corresponding to a thin and lightweight light guide. It is often used, for example, one having a diameter of about 3 mm to 6 mm is used.

The printed pattern 5 for diffuse reflection is, for example, a printing ink containing glass beads (referred to as “medium”) or an evaporative drying type white printing ink mixed with barium sulfate powder particles. Is screen printed on the reflective surface 3 side of the light guide plate 1.

At this time, the printed pattern 5 is divided into the following two patterns according to the distance from the light source 4 so that the light emission of the diffusion surface 2 is uniform over the entire region regardless of the distance of the light source 4. ..

That is, as shown in FIG. 2, the printed pattern 5 has the same shape in which small speckled patterns having the same area ratio are lined up from the light incident surface 8 to about 1/3 to 1/5. A continuous pattern A, and from there to the light-shielding surface 9 a light guide plate device with a unidirectional grant pattern B that gradually increases in parallel from the side closer to the light source 4 to the side farther from the light source 4 in parallel. It is (first embodiment).

As described above, by making the printed pattern 5 closer to the light source 4 the same-shaped continuous pattern A and distant the unidirectional grant pattern B, the part (a) of the light guide plate shown in FIG. It does not become dark or the area (b) shown in FIG. 7 becomes extremely bright.

Further, as shown in FIG. 3, the printed pattern 5 is the unidirectional grant pattern B from the light incident surface 8 to the vicinity of 2/3 to 4/5, and further from there to the light shielding surface 9. Is a light guide plate device as a homogenous continuous pattern A ′ in which patterns having the same area ratio as the spot pattern at the position farthest from the most light source 4 of the one-way grant pattern B are arranged in the same shape (second embodiment). ) Is okay.

Further, as shown in FIG. 4, a combination of the above two light guide plate devices, that is, the above-mentioned printed pattern 5 from the light incident surface 8 to around 1/5 to 1/3 is a uniform continuous pattern. A, a light guide plate device from 2/3 to 4/5 to the unidirectional grant pattern B, and from there to a light-shielding surface 9 again has the same continuous pattern A '(third embodiment). When it is set, the uniformity is further improved, which is particularly preferable.

Further, as shown in FIG. 5, in addition to the printed pattern 5 in which the homomorphic continuous pattern A is incorporated into the one-way grant pattern B shown in the first embodiment, the front writing light surface 8 side is provided. Only the two corners of the triangle (C), and the radial gradation pattern C that gradually increases the area ratio radially around the center 10 of the base of the triangle (C) are incorporated (the fourth embodiment). Then, in particular, the part (a) of the light guide plate shown in FIG. 7 is never extremely darkened, and the uniformity is further improved.

Of course, as described above, the incorporation of the radial gradation pattern C in the triangular areas (C) on both sides of the light entrance surface 8 is performed by printing the light guide plate shown in the second and third embodiments. It may also be incorporated in the pattern in the same manner.The point is to install a different printing pattern in the part where the brightness of the light guide plate is likely to increase and the part where the brightness is likely to decrease, such as the size of the light source and the size of the light guide plate. Regardless, the light emission on the diffusion surface should be uniform over the entire area.

The shape of the printed pattern 5 may be a circular dot pattern as shown in FIGS. 2 to 5, but other various shapes such as a linear pattern or a pattern pattern may be used. Not limited.

Next, a more specific example will be described in comparison with that of a comparative example.

The light guide plate device of the present invention and the light guide plate device of the comparative example are different only in the pattern of the printed pattern 5, and the thickness and size of the light guide plate 1, the material, the type and size of the light source 4, The numbers and light intensities are the same, and are compared.

Further, as the present invention, as shown in FIG. 4, continuous patterns A and A ′ of the same shape in which patterns having the same area ratio are lined up on both the light-entering surface 8 side and the light-shielding surface 9 side, After that, as shown in Fig. 5, a light guide plate device that forms a unidirectional gradation pattern B and a uniform pattern A from the light incident surface 8 to around 1/5 and a unidirectional grating pattern from that area to the light shielding surface 9 are formed. A light guide plate device incorporating a radial gradation pattern C centered on the bottom central portion 10 of the triangular area (C) only on both sides of the triangular area (C) on the incident surface 8 side of the printed pattern 5 designated as B. As the conventional example, the one in which the printed pattern 15 as shown in FIG. 7 is the unidirectional granting pattern B is used.

Using the above-mentioned three light guide plate devices, the brightness was measured at 9 measurement points shown in FIG. In the figure, the lines X _1, X _2, X ₃ parallel to the light source 4 on the diffusion surface 2 are the horizontal axes, and the vertical lines Y _1, Y _2, Y ₃ are the vertical axes, and their intersections The luminance was measured at the following positions. The index (unit: cd / m ² ) is shown in Table 1 below.

[0031]

[Table 1]

The light guide plate device used is as described below.

<Conditions Common to Examples and Comparative Examples> Thickness of light guide plate body: 3.4 mm (total thickness) Overall size: 130 mm x 218 mm Effective light emitting part: 128 mm x 200 mm Type of light source: piece Short-side light input (normal tube) Light source size: 145 mm × φ4.0 mm Inverter used: 4.3 mA / 9.6 V input Measuring instrument used: TOPCON BM-3 (2 °) <Conditions in the example> Isomorphic continuous pattern A Incorporation position: 40mm from the end of the incident surface side, 40mm from the tip of the shield surface Radial gradation pattern C incorporated position: Position where both triangular areas on the incident surface side are equilateral triangular areas with a height of 40mm

From Table 1 above, the high luminance in the comparative example is low in the example. On the contrary, in the comparative example, the extremely low brightness is considerably high in the examples, especially in the fourth example. Therefore, it can be seen that not only the overall brightness but also the uniformity is improved by about 10 to 15%.

[0035]

[Effect of the device]

 In the light guide plate device of the present invention, the printed pattern 5 is divided into patterns according to the distance from the light source 4, and the one-way gradation pattern B is formed by gradually increasing the area ratio from the side closer to the light source 4 to the side farther from the light source 4. Since the same-shaped continuous pattern A in which patterns having the same area ratio are lined up is incorporated into only a part of the light-incident surface 8 side or the light-shielding surface 9 side, the light guide plate device can be made thin and lightweight. Even if the light source 4 is installed in a backlight in which the lamp length of the light source 4 is equal to or less than the width of the light entrance surface 8 of the light guide plate 1, or even if the size of the light guide plate 1 is made extremely small, the light source 4 Both ends (position (a) shown in FIG. 7 or position shown in FIG. 6) on the side close to (light-receiving side 8) become extremely dark, or on the side far from the light source 4 (light-shielding side 9 side). ) When both ends (position (b) shown in Fig. 7 or position shown in Fig. 6) become extremely bright It goes without saying, and whatever the light source 4 and the light guide plate 1, the light emission of the diffusion surface 2 becomes uniform over the entire area, and a light guide plate device having a high degree of uniformity can be obtained.

[Brief description of drawings]

FIG. 1 is a cross-sectional explanatory view of a light guide plate device showing an embodiment of the present invention.

FIG. 2 is an explanatory view showing a pattern of a printed pattern in the light guide plate device of the present invention.

FIG. 3 is an explanatory view showing another pattern of a printed pattern in the light guide plate device of the present invention.

FIG. 4 is an explanatory view showing another pattern of a printed pattern in the light guide plate device of the present invention.

FIG. 5 is an explanatory view showing another pattern of a printed pattern in the light guide plate device of the present invention.

FIG. 6 is an explanatory diagram of a light guide plate showing measurement positions.

FIG. 7 is an explanatory diagram showing a pattern of a printed pattern of a conventional example.

[Explanation of symbols]

 1 Light guide plate 2 Diffusing surface 3 Reflecting surface 4 Light source 5 Printing pattern 8 Light-receiving surface 9 Light-shielding surface A Isomorphic continuous pattern B Unidirectional gradation pattern C Radial gradation pattern

Claims (2)

[Scope of utility model registration request] 1. A light guide plate (1) having one surface as a diffusion surface (2) and the other surface as a reflection surface (3) for diffusely reflecting light to the reflection surface (3) side of the light guide plate (1). The printed pattern (5) is provided, and the light from the light source (4) enters the light guide plate (1) from the light incident surface (8) at one end of the light guide plate (1), and the incident light is The printed pattern (5)
Diffuse reflection at the other end of the light guide plate (1)
In the light guide plate device which is reflected by the light source and is made to emit light from the diffusion surface (2), the pattern of the printed pattern (5) is changed from the side closer to the light source (4) depending on the distance from the light source (4). In the unidirectional gradation pattern (B) in which the area ratio is gradually increased toward, the pattern with the same area ratio is lined up only on a part of the light incident surface (8) side or the light shielding surface (9) side. A light guide plate device characterized by incorporating the same shaped continuous pattern (A). 2. The light guide plate device according to claim 1, wherein both corner triangular areas (c) on the side of the light incident surface (8) are included.
A light guide plate device characterized by incorporating a radial gradation pattern (C) centered on the central portion (10) of the bottom side of (C).