JP3452137B2 - Light guide plate, surface light source device, image display device, mobile phone, and information terminal - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a light guide plate, a surface light source device, an image display device, a mobile phone, and an information terminal.

[0002]

2. Description of the Related Art Conventionally, a light guide plate has a structure in which light from a light source is taken into the inside of the light guide plate from a light incident surface, spreads the light in a plane, and emits the light to a light emitting surface perpendicular to the light incident surface. And is widely used as a surface light source device for a liquid crystal display screen. In order to obtain high brightness of the liquid crystal display screen, a plurality of light sources are used to increase the amount of light incident on the light guide plate as seen in JP-A-11-101665.
A plurality of light guide plates are stacked and arranged in the light emitting surface direction. This is because the number of reflections of light in one light guide plate is larger when a plurality of thin light guide plates are stacked than in the case where one thick light guide plate is arranged in the light emitting surface direction, so that the light is diffused in a diffusion pattern. This is because the probability increases and light can be efficiently emitted from the light emitting surface.

[0003]

In each of the light guide plates constituting the light guide plate body, a diffusion pattern is provided in order to efficiently emit the light incident inside. This is subjected to patterning and white dot printing as disclosed in JP-A-11-101665, and is provided on the entire surface of each light guide plate on the opposite side parallel to the light emitting surface. As a result, among the laminated light guide plates, the light guide plate closest to the light emission surface can efficiently emit light, but in the other light guide plates, the light emitted in the light emission direction is different from that of the other light guide plates. It is not possible to emit sufficient light because it is blocked by the diffusion pattern, and it is not possible to obtain brightness according to the number of light sources. The present invention has been made in view of such circumstances, and an object thereof is to provide a light guide plate body that can realize high brightness by using light guide plate bodies that are stacked and arranged.

[0004]

In order to solve the above problems, in the invention of claim 1, the light of the light source is taken in from the light incident surface to be totally reflected and the light is diffused to diffuse the light. First and second light guide plates having a diffusion pattern for emitting on a light emitting surface perpendicular to
In the arranged light guide plate, the first light guide plate is
The second light guide plate is arranged at a position closest to the emission surface, and
Adhere closely to the surface of the first light guide plate facing the light emitting surface.
The light emitting surface of the first light guide plate.
The diffusion pattern is arranged on the opposite surface side, and the second pattern
The light guide plate has a diffusion pattern arranged on the light emitting surface side.
And the diffusion pattern of the first light guide plate and the second light guide plate.
The diffusion pattern of the light guide plate is the same and when viewed from the light emitting surface side.
Of the diffusion pattern of the first light guide plate and the second light guide plate.
It is characterized by overlapping with the diffusion pattern .
In the invention of claim 2, in the light guide plate body, before
It is characterized in that a reflecting plate is arranged on the surface opposite to the light emitting surface of the second light guide plate . In the invention of claim 3, in the light guide plate constituting the light guide plate body, the diffusion pattern is provided.
Each of the diffusion pattern elements that make up the
Of the diffusion pattern defined by this directionality
The direction is the longitudinal direction of the diffusion pattern element.
The hand direction is opposite to the direction connecting the diffusion pattern and the light source.
It is characterized by being almost vertical . In the invention of claim 4, in the light guide plate that constitutes the light guide plate, the light guide plate is arranged in a direction connecting the diffusion pattern element and the light source.
The cross-sectional shape of the diffusion pattern element is generally triangular . In the invention of claim 5, in the light guide plate constituting the light guide plate body, the diffusion pattern is provided.
The diffusion pattern in the direction connecting the light source element and the light source.
The cross-sectional shape of the element includes an arc-shaped edge . In the invention of claim 6 , light is supplied to the light guide plate.
Place the light source in a predetermined position to supply the surface light source device.
It is characterized by configuring . In the invention of claim 7, each light guide plate and each light source are paired,
The surface light source device is characterized by being arranged in layers . In the invention of claim 8, the surface light source device and the image
It is characterized in that the display panel constitutes an image display device . In the invention of claim 9, the image display device and
The feature is that a mobile phone is configured with a call function .
In the invention of claim 10, communication with the image display device
It is characterized in that the information terminal is configured by means .

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION A light guide plate according to a first embodiment of the present invention will be described below with reference to the accompanying drawings. FIG. 1 shows a surface light source device 1. 1 is a perspective view of the surface light source device, and FIG. 2 is a side view of the surface light source device.

The light guide plate body 2 constituting the surface light source device 1 is formed by laminating a plurality of light guide plates 2a and 2b without a gap (in the drawing, for the sake of convenience, the light guide plates 2a and 2b are drawn with a gap between them. ing).

The light guide plate 2 is made of a material such as acrylic which is transparent and has a large refractive index. Figure 1 Oite light guide plate 2
The light-incident surface 4 is on the left side of a and 2b, and the light source 3 is located beside it, and the light guide plates 2a and 2b and the light sources 3a and 3b are arranged in pairs. Source 3a, the light from 3b is incident on the light incident surface 4a, light guide from 4b plate 2 a, the 2b. The incident light travels while being totally reflected in each of the light guide plates 2a and 2b.

Further, pairs facing surfaces 6 of the light guide plate 2 a as shown in FIG. 2
diffusion pattern 7 a is disposed on a side, out of light of the light guide plate 2b
The diffusion pattern 7b is arranged on the side of the projection surface 5b. diffusion
Since the patterns 7a and 7b are close to each other, use the same diffusion pattern.
By using the arranged light guide plates 2a and 2b, a diffusion pattern can be obtained.
The turn 7a and the diffusion pattern 7b are seen from the light emitting surface 5a.
Heavy Do that. The diffusion pattern 7 is formed by directly recessing the light guide plates 2a and 2b or by sticking a transparent sheet on which dots of diffuse reflection ink are printed.
This diffusing pattern 7 diffuses the light when it is incident and traveling. As a result, the traveling direction of light changes, and the emission angle expands.

When the angle of incidence on the light emitting surface 5 becomes smaller than the critical angle of the light emitting surface 5, the light passes through the light guide plate 2 and is emitted from the light emitting surface 5. Diffusion pattern 7 of light guide plate 2a
The light diffused by hitting a is emitted from the light emitting surface 5 as it is.

The light diffused by hitting the diffusion pattern 7b of the light guide plate 2b is diffused pattern 7a and diffusion pattern 7b.
Are overlapping when viewed from the light exit surface 5a, so the diffusion pattern
All the light is emitted from the light emitting surface 5a without hitting the window 7a.
Therefore, the light emission efficiency is increased and high brightness can be realized. diffusion
The patterns 7a and 7b are arranged discretely. Discrete in this case means the light guide plate 2a when viewed from the light exit surface 5 side.
It is assumed that the ratio of the total area of the diffusion pattern 7a to the area of the light emission surface 5a (diffusion pattern density) is 30% or less. As a light guide plate in which diffusion patterns are discretely arranged, there is a light guide plate according to International Publication No. WO98 / 19105.

On the opposite surface 6b of the light emitting surface 5b of the light guide plate 2b.
Light whose incident angle with respect to the facing surface 6b is smaller than the critical angle of the facing surface 6b is emitted from the facing surface 6b, but since the reflecting plate 8a is arranged outside the facing surface 6b in parallel with the facing surface 6b, the facing surface 6b faces the facing surface 6b. The light emitted from the surface 6b is reflected by the reflection plate 8a and is incident on the light guide plate 2b again. Thereby, the facing surface 6
It is possible to prevent the loss of the amount of light emitted from b.

The reflector 8 is made of a material having a high surface reflectance, and is made of, for example, a hard or relatively soft white plastic sheet. Moreover, our <br/> Keru reflector 8b in FIG. 1, 8c, as 8d, a reflector 8 not only the opposing surface 6b, be disposed on a side surface other than the light incident surface 4 and the light-emitting surface 5 Good. As a result, the light emitted from the plurality of light sources 3 can be emitted only from the light emitting surface 5a side, and the emission efficiency can be further improved and high brightness can be realized.

[0013]

[0014]

[0015]

The arrangement of the diffusion patterns of the respective light guide plates constituting the same may be the same or different. Since the diffused light has a spread as described above, the discrete pattern arrangement is more important than the positional relationship in the diffusion pattern of each light guide plate.

[0017]

When the light guide plates having the same diffusion pattern are laminated, the amount of the light guide plates used increases, so that the unit price of the light guide plates can be reduced, and the light guide plate body can be manufactured at low cost.

[0019]

FIG. 3 shows the diffusion pattern 7a of the light guide plate 2a constituting the light guide plate 2 as seen from the light exit surface 5a side. The diffusion patterns 7a are arranged concentrically around the light source 3a, and the longitudinal direction of each diffusion pattern element 7a1 is substantially perpendicular to the direction of the light source 3a 90 ± 30.
It is arranged to be within the angle range of degrees.

The diffuse pattern element 7a in Fig. 4 3
It is an enlargement of 1. The longitudinal direction of the diffusion pattern elements is that the L direction in FIG. 4. Since the L direction is substantially perpendicular to the direction X connecting each diffusion pattern element 7a1 and the light source 3a (θ = 90 ± 30 degrees), the light incident on the diffusion pattern element from the light source 3a can be efficiently diffused and emitted. It is possible to realize high brightness. In FIG. 4 , L
Is a straight line, but may be curved in an arc centered in the direction of the light source 3a.

The diffusion patterns 7a are arranged discretely, that is, the diffusion pattern density is 30% or less, and the density of the diffusion patterns 7a increases as the distance from the light source 3a increases. Therefore, although the amount of light that reaches the light source 3a decreases as the distance from the light source 3a increases, the light is more likely to be diffused and emitted, so that the brightness of the entire light guide plate is made uniform.

FIG. 5 shows an example of a specific shape of the diffusion pattern element 7a1 forming the diffusion pattern 7a of the light guide plate 2a, and FIG. 5 (a) is a perspective view thereof. Sectional shape of the diffuse pattern element 7a1 in the direction connecting the diffuse pattern element 7a1 and the light source 3a has a generally triangular shape in FIG. 5 (a).

Diffusion pattern element 7a having a triangular cross section
As an example of the first example, there is a diffusion pattern element 7a2 having a right-angled triangular cross section as shown in FIG. 5 (b) and a diffusion pattern element 7a3 having an isosceles triangular cross section as shown in FIG. 5 (c). .

Diffusion pattern element 7 having a right-angled triangular cross section
In a2, since the direction other than the light incident surface 4a, that is, the slope opposite to the light incident direction which is unnecessary for light diffusion is omitted, the area of the diffusion pattern can be reduced and the diffusion pattern density can be reduced. can Ru.

In the diffusion pattern element 7a3 having an isosceles triangular cross section, not only the light incident from the light source 3a but also the reflected light reflected by the reflectors 8b, 8c, 8d can be diffused, so that the light utilization efficiency is improved. And high brightness can be realized.

Regarding the cross-sectional shape of the diffusion pattern element, the vertices of a triangle may be rounded, and as shown in FIG. 6 , the cross-sectional shape of the diffusion pattern element 7a4 in the direction connecting each diffusion pattern element 7a4 and the light source 3a. Even if the element has a shape including an arcuate edge, light can be scattered in the same manner, so that high brightness can be realized.

[0028]

[0029]

[0030]

[0031]

[0032]

[0033]

[0034]

[0035]

FIG. 7 shows an image display device 9 using the surface light source device 1. An image display panel is arranged near the outside of the light emitting surface 5 of the surface light source device 1. The image display panel may be a transparent electrode or a T like an LCD display panel.
Two liquid crystal substrates (glass substrate, film substrate) on which FT, color filter, black matrix, etc. are formed 1
A liquid crystal material is sealed between 0 and 11, and the liquid crystal substrates 10 and 11 are sealed.
The polarizing plate 12 is arranged on both outer surfaces of the. The surface light source device and the liquid crystal display panel are laminated and integrated by the housing 13. The liquid crystal display panel is connected to the liquid crystal drive circuit by the flat cable 14.

FIG. 8 shows a mobile phone 1 using the image display device 9.
5 is shown, and FIG. 9 is a functional block diagram thereof. A button switch 17 such as a ten-key pad for dial input is arranged on the front surface of the mobile phone 15, an image display device 9 is arranged above it, and an antenna 16 is arranged on the upper surface. When a telephone number or the like is input from the button switch 17, the input dial information or the like is transmitted from the antenna 16 to the base station of the telephone company through the transmission circuit 18.
On the other hand, the input dial information or the like is sent to the drive circuit 19, and the image display device 9 is driven by the drive circuit 19 to display the dial information or the like on the image display device 9.

FIG. 10 shows an information terminal 20 using the image display device 9, and FIG. 11 is a functional block diagram thereof. The information terminal 20 has a key input unit 2 inside the cover 21.
2 and the image display device 9 are arranged, and a drive circuit 19, an arithmetic processing circuit 23 and the like are provided inside. When information is input from the key input unit 22 using the ten keys or alphabet keys, the input information is sent to the drive circuit 19 and displayed on the image display device 9. Next, when a control key such as an arithmetic key is pressed, the arithmetic processing circuit 23 executes predetermined processing and arithmetic, and the result is sent to the drive circuit 19 and displayed on the image display device 9.

[0039]

Effects of the Invention] According to the light guide plate of the invention of claim 1, the
The light guide plate of No. 1 is arranged at a position closest to the light emitting surface,
The light guide plate of the first light guide plate is in close contact with the surface facing the light emitting surface of the first light guide plate.
Are stacked and arranged, and the first light guide plate has a surface facing the light emitting surface.
The diffusion pattern is placed on the side, and the second light guide plate
The diffusion pattern is arranged on the emission surface side, and
The diffusion pattern of the light guide plate and the diffusion pattern of the second light guide plate are
The same diffusion pattern of the first light guide plate when viewed from the light exit surface side
And the diffusion pattern of the second light guide plate overlap,
The light diffused by the diffusion pattern of the second light guide plate is transmitted to the first light guide plate.
All from the light exit surface without hitting the diffusion pattern of the light plate
Since the light is emitted, the light emission efficiency is increased and high brightness can be realized. According to the light guide plate body of the invention of claim 2, the second light guide plate is provided.
Since the reflection plate is arranged on the surface facing the light emission surface of, the light emitted in the direction of the surface opposite the light emission surface is re-injected into the light guide plate by the reflection plate and is emitted in the light emission surface direction. Higher utilization efficiency and higher brightness can be realized. Inventions of Claims 3 to 5
According to the diffusion pattern element that constitutes the diffusion pattern
Each has a direction and is defined by this direction
The direction of the diffusion pattern is the longitudinal direction of the diffusion pattern element.
Yes, this longitudinal direction is the direction connecting the diffusion pattern and the light source
Is almost perpendicular to, and diffuse pattern element and light source
The cross-sectional shape of the diffusion pattern element in the direction connecting
From the light source because it is a shape that includes triangular or arc-shaped edges
The incident light has a probability of being diffused due to the diffusion pattern.
It becomes higher, and light can be effectively used, and high brightness can be realized. According to the inventions of claims 6 and 7, the light guide plate and the light source are stacked and arranged.
Therefore, it is possible to realize a surface light source device having high brightness according to the number of light sources . According to the invention of claim 8, the surface light source device and the image
High brightness image display by combining display panels
The device can be realized . According to the invention of claim 9 , the image
High brightness image by combining display device and call function
A mobile phone having an image display unit can be realized . According to the invention of claim 10, the image display device and the communication means are combined.
By doing so, an information terminal having a high-luminance image display unit can be realized.

[Brief description of drawings]

FIG. 1 is a diagram showing a first embodiment of the present invention.

FIG. 2 is a diagram in which a diffusion pattern different from that in FIG. 1 is arranged in the first embodiment of the present invention.

[3] The first embodiment Contact Keru light guide plate body in the form of the present invention configured
It is the figure which looked at the light guide plate formed from the light emission surface side .

FIG. 4 is an expansion of a diffusion pattern viewed from the light exit surface side .
It is the figure which expanded the scattered pattern element .

FIG. 5 is a diagram showing an example of a specific shape of a diffusion pattern element .

FIG. 6 is a diagram showing an example of another specific shape of the diffusion pattern element.

FIG. 7 shows a surface light source device including the light guide plate of the present invention .
It is a figure which shows the image display apparatus used .

FIG. 8 is a diagram showing a mobile phone using the image display device of the present invention.

FIG. 9 is a functional block diagram of a mobile phone .

FIG. 10 is a diagram showing an information terminal using the image display device of the present invention.

FIG. 11 is a functional block diagram of an information terminal .

[Explanation of symbols]

1 Surface light source device 2 Light guide plate 2a First light guide plate 2b Second light guide plate 3 light sources 3a Light source for making light incident on the first light guide plate 3b Light source for making light incident on the second light guide plate 4 Light incident surface 4a Light incident surface of the first light guide plate 4b Light incident surface of second light guide plate 5 Light exit surface 5a Light exit surface of first light guide plate 5b Light exit surface of second light guide plate 6 Opposite surface of light emitting surface 6a Opposing surface of the light emitting surface of the first light guide plate 6b Opposing surface of the light emitting surface of the second light guide plate 7 diffusion pattern 7a Diffusion pattern of first light guide plate 7b Diffusion pattern of second light guide plate 8 reflector 8a Reflecting plate arranged in parallel to the facing surface 6b 8b Reflector arranged on the side surface of the light guide plate 8c Reflector arranged on the side surface of the light guide plate 8d Reflector arranged on the side of the light guide plate

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-11-353915 (JP, A) JP-A-2000-11722 (JP, A) JP-A-8-286037 (JP, A) JP-A-5-216030 (JP, A) JP-A-7-72477 (JP, A) JP-A-10-104619 (JP, A) JP-A-10-172320 (JP, A) (58) Fields investigated (Int. Cl. ⁷⁾ , DB name) G02B 6/00 F21V 8/00 G02F 1/1335-1/13363 G09F 9/00 G09F 13/18

Claims (10)

(57) [Claims] 1. A diffusion pattern for taking in light from a light source from a light incident surface to totally reflect the light and diffusing the light to emit the light to a light emitting surface perpendicular to the light incident surface . A light guide plate in which the first and second light guide plates are stacked and arranged.
In the body, the first light guide plate is closest to the light emitting surface.
The second light guide plate is placed in a
The plates are stacked and closely attached to the surface facing the light emitting surface.
The first light guide plate is expanded toward the surface opposite to the light exit surface.
A scattering pattern is arranged, and the second light guide plate is
A diffusion pattern is arranged on the light emitting surface side, and
Diffusion pattern of first light guide plate and diffusion of the second light guide plate
The patterns are the same, and the first conductor is viewed from the light emitting surface side.
Diffusion pattern of light plate and diffusion pattern of the second light guide plate
A light guide plate body characterized in that and are overlapped with each other. 2. The light guide plate, wherein the second light guide is provided.
The light guide plate body according to claim 1 , wherein a reflection plate is arranged on a surface of the plate opposite to the light emission surface. 3. A light guide plate that constitutes the light guide plate, wherein the diffusion pattern element that constitutes the diffusion pattern is arranged in the light guide plate.
Each has directionality and is defined by this directionality
The direction of the diffusion pattern is the length of the diffusion pattern element.
Direction, and the longitudinal direction is the diffusion pattern and the light.
The light guide plate body according to claim 1, wherein the light guide plate body is substantially perpendicular to a direction connecting the source . 4. A light guide plate constituting the light guide plate, wherein the light guide plate is arranged in a direction connecting the diffusion pattern element and the light source.
The light guide plate body according to claim 1, wherein the diffusion pattern element has a substantially triangular cross-sectional shape . 5. A light guide plate constituting the light guide plate body, wherein the light guide plate is arranged in a direction connecting the diffusion pattern element and the light source.
The light guide plate body according to claim 1, wherein a cross-sectional shape of the diffusion pattern element includes an arc-shaped edge . 6. Light is supplied to the light guide plate according to claim 1 .
A surface light source device in which a light source is arranged at a predetermined position for the purpose . 7. A light guide plate and a light source are paired.
The surface light source device according to claim 6, wherein the surface light source devices are stacked . 8. A surface light source device and an image display according to claim 7.
An image display device equipped with a panel . 9. An image display device and a telephone set according to claim 8.
A mobile phone equipped with a function . 10. Communication with the image display device according to claim 8.
An information terminal equipped with means .