JPH0550433U - Edge light type light guide plate device - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To provide an edge light type light guide plate device which can obtain high brightness even in a super miniaturized light guide plate device as in a large light guide plate device. [Effect] Reflective film to prevent light leakage of light source 2
Since 6 is attached via adhesive layer 5 to the entire end portions 3 and 4 of the front and back surfaces of light guide plate 1 on the side where light source 2 is arranged, the light incident by this adhesive layer 5 is provided. Is efficiently diffused and the probability of hitting the dot print 13 is increased, and accordingly, the amount of light that is totally reflected by the surface of the dot print 13 and travels toward the diffusion plate 8 is increased. Therefore, the light emission rate is increased and high brightness can be obtained.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to an edge light type light guide plate device which is used as a liquid crystal display plate used for a display of a liquid crystal television, a personal computer or the like, and is particularly small and thin.

[0002]

[Prior Art]

 Conventionally, a light guide plate device used for a color display liquid crystal display that is required to have high brightness is provided with a light guide plate having both front and back surfaces and an outer peripheral end face, a diffusion plate provided on the surface, and a peripheral end face. Further, the direct light guide plate device is provided with the reflection plate and the light source arranged on the outer side of the back surface thereof.

However, since the thickness of the direct type light guide plate device is the sum of the thickness of the light source, the light guide plate and the diffusion plate, it has to be considerably thick and the light of the light source is not emitted. The contrast was so strong that the light source lamp could be seen on the light emitting surface. Further, although a hot cathode tube was used as a light source, it was not possible to extremely increase the brightness because it had a great damage to the light guide plate when the temperature increased.

Therefore, in order to solve the above-mentioned problems, an edge light type light guide plate device as shown in FIGS. 8 and 9, that is, a light guide plate 21 having dot printing 33 on its back surface, and the light guide plate 21 The light source 22 arranged outside the end face, and the end four corners 25a, 25b, 25c, 25d of the front and back surfaces of the light guide plate 22 on the side where the light source 22 is arranged, with an adhesive 25 or the like. Are provided on the front and back surfaces of the light guide plate 22, and the reflective film 26 that is adhered to the light source 22 and covers the outer periphery of the light source 22, and is abutted on the reflective film 26 without a gap. An edge light type light guide plate device including a diffusion plate 28 and a reflection plate 29 has been proposed.

[0005]

[Problems to be solved by the device]

 However, recently, with the spread of small LCD TVs, vehicle navigation systems, electronic notebooks, etc., there is a tendency for the display itself to become ultra-compact, and as described above, it is applied to the reflector 29 of the light guide plate 21 and the back surface of the light guide plate. In the dot printing 33 performed, the light from the light source 22 could not be diffused efficiently and it was very difficult to maintain the brightness.

Therefore, the present invention has been made in view of the above-mentioned present situation, and even in a light guide plate device which is extremely miniaturized, high brightness can be obtained similarly to a large light guide plate device. An object of the present invention is to provide a light guide plate device.

[0007]

[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 both front and back surfaces and an outer peripheral end surface; a light source arranged outside the end surface of the light guide plate; and both front and back surfaces of the light guide plate on the side where the light source is arranged. A reflection film provided over the entire area of the end through an adhesive layer and covering the outer periphery of the light source; a light shield attached to the end surface of the light guide plate on the side where the light source is not disposed A tape; a diffusion plate and a reflection plate, which are fixed on the front surface side of the additional portion of the reflection film of the light guide plate and are respectively provided on the front and back surfaces of the light guide plate.

[0009]

[Action]

 Light from a light source arranged outside the end face of the light guide plate enters the light guide plate through the end face and is totally reflected by the reflection plate, the light-shielding tape, and dot printing on the back surface of the light guide plate inside the light guide plate. The diffused light is diffused and emitted while being diffusely reflected, and as a result, the diffuser plate of the light guide plate becomes a light emitting surface to emit light.

At this time, since the light from the light source is efficiently diffused and reflected by the adhesive layers provided on the entire end portions of the front and back surfaces of the light guide plate, the probability of hitting the dot print increases, and accordingly, the light is emitted. Since the amount of light that is totally reflected on the dot printing surface and travels toward the diffuser plate increases, the light emission rate increases and high brightness can be obtained.

[0011]

【Example】

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

As shown in the front view of FIG. 1 and the sectional view of FIG. 2, the edge light type light guide plate device according to the present invention includes a light guide plate 1 having a rectangular parallelepiped member having both front and back surfaces and an outer peripheral end surface. A light source 2 arranged outside one end face of the light guide plate 1; and an adhesive layer over the end portions 3 and 4 of both front and back surfaces of the light guide plate 1 on the side where the light source 2 is arranged. A reflection film 6 attached via 5 and covering the outer periphery of the light source 2; a light-shielding tape 7 attached to the end surface of the light guide plate 1 on the side where the light source 2 is not disposed And; a diffusion plate 8 fixed on the front surface side of the attached portions 14 and 15 of the reflection film 6 of the light guide plate 1 via an adhesive layer 5 ′ and provided on the front and back surfaces of the light guide plate 1 and It has a reflector 9 and a reflector.

The light guide plate 1 is made of a transparent synthetic resin plate such as acrylic, polycarbonate, polystyrene, polypropylene, etc. The size of the light guide plate 1 is, for example, an ultra-small and thin plate of about 90 × 70 × 4 mm. There is a conventional light guide plate with a size of, for example, 270 × 180 × 6 mm.

Further, as shown in FIG. 3, the light guide plate 1 is composed of a single member whose front surface is a prism surface 11 in which a large number of ridges 10 are arranged in a waveform and whose rear surface is a smooth surface 12. Alternatively, an ultra-thin synthetic resin plate may be used, and by forming the prism surface 11 on the surface, the light is condensed and emitted in one direction and at a constant angle, and higher brightness can be obtained.

On the back surface of the light guide plate 1, that is, on the side of the reflection plate 9, dot printing is performed in order to diffuse and uniformly diffuse light, and the printed pattern 13 of this dot printing is closer to the light source 2. It forms a gradation pattern that gradually increases from the far side. This makes it possible to obtain uniform brightness regardless of the distance from the light source 2.

As the light source 2, a small cold cathode discharge lamp is used corresponding to the light guide plate 1 which is ultra-small, thin and lightweight, and its diameter is about 3 mm to 6 mm.

The reflection film 6 provided so as not to leak the light of the light source 2 to the outside is, for example, white polyester, or a film obtained by sticking a silver vapor deposition film on the inner surface of the polyester film. A similar film is also used as the shading tape 7.

Double-sided tapes 5a and 5b are used as the adhesive layer 5 for attaching the attached portions 14 and 15 of the reflective film 6 to the entire end portions 3 and 4 of the front and back surfaces of the light guide plate 1, respectively. .. The double-sided tapes 5a and 5b, especially the double-sided tape 5b on the diffuser plate 8 side, emit the light emitted from the light source 2 and incident on the light guide plate 1 as shown by the arrow in FIG. There is an effect of diffuse reflection toward the dot printing pattern, which increases the probability of hitting the printed pattern 13 of dot printing, and the light is totally reflected on the dot printing surface and travels perpendicularly to the direction of the diffuser plate 8 from the top surface of the diffuser plate 8. It emits light.

Therefore, no matter how small and thin the light guide plate 1 is, the light emission rate is increased and high brightness can be obtained.

As shown in FIG. 4, a lamp house 16 may be provided on the light source 2 and the reflection film 6 so as to cover the outer periphery thereof. In that case, the light source 2 is provided. It may be fixed to the surfaces of the ends 17 and 18 on both the front and back sides of the diffusion plate 8 and the reflection plate 9 on the side.

A film made of, for example, semitransparent polycarbonate having a high transmittance is used for the diffusion plate 8 so that the processing structure such as the printed pattern 13 of the dot printing is not reflected, and a light is formed on the surface of the diffusion plate 8. Embossing and matting for diffusing, and luster processing on the back side. In this embodiment, the two-layer diffuser plate 8 is used, but the number thereof is not limited and may be appropriately selected according to the thickness and the required brightness.

Further, by using the same size as the size of the light guide plate 1 for the diffusion plate 8, light is completely prevented from leaking at the contact portion between the reflection film 6 and the diffusion plate 8, and the light is emitted. When it comes to light, it becomes even more efficient.

In the edge light type light guide plate device of the present invention, as shown in FIG. 5, a prism film 20 in which a large number of protrusions 19 are arranged in a wave pattern on the surface side of the diffusion plate 8 is formed. May be provided, and may be appropriately selected according to the thickness and the required brightness as described above.

For the light reflection plate 9, a film in which a silver vapor deposition film similar to the light reflection film 6 is attached to the inner surface of a polyethylene film for preventing light leakage is used. The light reflection plate 9 is also used for the diffusion plate. For the same reason as in 8, it is better to use the same type as the size of the light guide plate 1.

Further, in the edge light type light guide plate device, an example of a two-light type device in which the light source 2 is attached to both side surfaces of the light guide plate 1 has been mentioned. For example, as shown in FIG. It may be a one-lamp type light guide plate device in which only the light source 2 is attached to the section.In this case, be sure to attach the light shielding tape 7 to the side surface opposite to the side where the light source 2 is arranged. There must be

Next, a more specific example will be described in comparison with a conventional example.

As shown in FIG. 2, the light guide plate 1 of the embodiment has both smooth surfaces (Example 1), and as shown in FIG. 3, the front surface is a prism surface 11 and the back surface is a smooth surface 12. (Example 2), both of which are obtained by adhering the reflection film 6 to the entire end portions 3 and 4 of the front and back surfaces of the light guide plate 1 with double-sided tapes 5a and 5b. On the other hand, in the conventional example, as shown in FIG. 9, a light guide plate 21 whose both surfaces are smooth is used, and a reflection film 26 is provided on both front and back ends of the light guide plate 21 at four corners 25a, 25b, 25c, It is a brightness comparison experiment of Examples 1 and 2 and a conventional example using an edge light type light guide plate device in which 25d is welded.

In the example and the comparative example, as described above, the shapes of the light guide plates 1 and 21, the bonding areas of the reflection films 6 and 26, and the sizes of the diffusion plates 8 and 28 and the reflection plates 9 and 29 are different. For comparison, the thickness and size of the light guide plates 1 and 21, the material, the type, size, number and light intensity of the light sources 2 and 22 are the same.

In the edge light type light guide plate device of the embodiment of the present invention and the conventional example, the luminance was measured at nine measurement points shown in FIG.

In the figure, the lines X _1, X _2, X _3, parallel to the light sources 2, 22 on the diffuser plates 8, 28 are the vertical axes, and the vertical lines Y _1, Y _2, Y ₃ are horizontal. The brightness was measured at each of the positions, which are the intersections of the axes. The index (unit: cd / m ² ) is shown in Table 1 below.

[0031]

[Table 1]

The edge light type light guide plate device used is as described below.

<Conditions Common to Examples and Conventional Examples> Thickness of light guide plate: 4.0 mm Overall size: 90 mm x 70 mm Light source type: Long side dual-lamp type Light source size: 90 mm x φ4. 1mm (Semi-hot fluorescent tube) Inverter: 5.0mA / 12V input Measuring instrument: TOPCON BM-3 (2 °)

From Table 1 above, it can be seen that the average luminance of the conventional example is considerably higher than that of the conventional example. In addition, the uniformity is also improved. Further, it can be seen that when the surface of the light guide plate 1 is the prism surface 11, the brightness is further increased.

[0035]

[Effect of the device]

 In the edge light type light guide plate device of the present invention, the reflection film 6 for preventing the light leakage of the light source 2 is adhered to the entire end portions 3 and 4 of the front and back surfaces of the light guide plate 1 on the side where the light source 2 is arranged. Since it is attached via the adhesive layer 5, the light incident by this adhesive layer 5 is efficiently diffused and reflected, and the probability of hitting the dot print 13 increases, and accordingly, the light is totally reflected on the surface of the dot print 13. , The amount of light traveling in the direction of the diffusion plate 8 increases.

Therefore, the light emission rate is increased and high brightness can be obtained.

[Brief description of drawings]

FIG. 1 is a schematic front view of an edge light type light guide plate device showing an embodiment of the present invention.

FIG. 2 is an explanatory view of the same section.

FIG. 3 is a cross-sectional explanatory view showing another embodiment.

FIG. 4 is a sectional explanatory view showing another embodiment.

FIG. 5 is a cross-sectional explanatory view showing another embodiment.

FIG. 6 is a sectional explanatory view showing another embodiment.

FIG. 7 is an explanatory view showing a luminance measurement position in the edge light type light guide plate device of the present invention and the conventional example.

FIG. 8 is a schematic front view of an edge light type light guide plate device showing a conventional example.

FIG. 9 is an explanatory view of the same section.

[Explanation of symbols]

 1 Light guide plate 2 Light source 3 Front end of light guide plate 4 Back end of light guide plate 5 Adhesive layer 5a Double-sided tape 5b Double-sided tape 6 Reflective film 7 Light-shielding tape 8 Diffuser 9 Reflector

Claims (6)

[Scope of utility model registration request] 1. A light guide plate having both front and back surfaces and an outer peripheral end surface.
(1); a light source (2) disposed outside the end face of the light guide plate (1); and a light source (2) on the side on which the light source (2) is disposed Adhesive layer (5) over the edges (3), (4)
A reflection film (6) which is attached through the light source (2) and covers the outer periphery of the light source (2); on the end face of the light guide plate (1) on the side where the light source (2) is not disposed. The light-shielding tape (7) attached; fixed on the surface side of the attached portions (14), (15) of the reflection film (6) of the light guide plate (1), and the light guide plate (1)
Diffuser (8) and reflector installed on the front and back of the
An edge light type light guide plate device comprising (9) and; 2. The light guide plate (1) is composed of a single member whose front surface is a prism surface (11) in which a large number of ridges (10) are arranged in a corrugated shape, and whose rear surface is a smooth surface (12). The edge light type light guide plate device according to claim 1, wherein the edge light type light guide plate device is an ultrathin synthetic resin plate. 3. A plurality of ridges are formed on the surface of the diffusion plate (8).
The edge light type light guide plate device according to claim 1, further comprising a prism film (20) in which the prisms (19) are arranged in a wave pattern. 4. The back surface of the light guide plate (1) is dot-printed in order to diffuse and uniformly diffuse light, and the dot-printed pattern (13) is close to the light source (2). The edge light type light guide plate device according to claim 1, wherein the edge light type light guide plate device has a gradation pattern that gradually increases from a far side to a far side. 5. The double-sided tape (5a), (5b) is used for the adhesive layer (5) between the light guide plate (1) and the reflective film (6),
With this double-sided tape (5a), (5b), from the light source (2) to the light guide plate
(1) The edge light type light guide plate device according to claim 1, wherein the light incident inside is diffusely reflected. 6. Ends (17), (18) on both front and back surfaces of the diffuser plate (8) and the reflector plate (9) on the side where the light source (2) is disposed.
2. The edge light type light guide plate device according to claim 1, further comprising: a lamp house (16) provided around the light source (2) and the reflection film (6).