JP2002023158A - Liquid crystal display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid crystal display device which can be made thin and whose manufacturing cost can be lowered by reducing the number of components. SOLUTION: The liquid crystal display device is provided with a liquid crystal display module 5 comprising a liquid crystal layer 4 formed between a pair of transparent substrates 2, 3 placed opposite to each other and a tablet 22 attached on the front surface of the liquid crystal display module 5. A light source 12 is attached on an end part of the tablet 22, and a transparent film 24 on which grooves 25 to change the optical path of light from the light source 12 into the liquid crystal display module 5 direction are formed is adhered on a principal surface of the tablet 22.

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, and more particularly, to a tablet attached to the front of a liquid crystal display module, which is provided with a function of changing an optical path of light from a light source, thereby reducing the thickness and weight of the tablet. The present invention relates to a liquid crystal display device capable of being made into a liquid crystal display.

[0002]

2. Description of the Related Art Conventionally, a liquid crystal layer is formed between a transparent substrate such as two glass substrates in a light receiving (non-light emitting) flat panel (flat panel) display device utilizing a change in optical properties of a medium. There is a liquid crystal display device having a liquid crystal display module. This liquid crystal display device includes a transmissive type having a backlight on the back side, a reflective type having a reflector for reflecting light incident from the front side, and a transflective type having both a transmissive type and a reflective type.

[0003] In addition to being used as a display in an office or home, the liquid crystal display device has been increasingly applied to mobile devices such as electronic organizers and personal digital assistants. In these mobile devices, when switching various functions, for example, calendar display, schedule, address book management, etc., the functions are switched by touching a part of the screen on which a desired function is displayed with a pen or the like. There is something. In some cases, a user can draw desired characters by handwriting by drawing characters on the screen with a pen or the like. The display screen of this type of mobile device is provided with a transparent panel that performs a switching operation by the pressure of a pen or the like, that is, a tablet, on the front of the liquid crystal display module.

FIG. 4 is a cross-sectional view showing an example of a conventional reflection type liquid crystal display device 1. A liquid crystal display module 5 in which a liquid crystal layer 4 is formed between a pair of glass substrates (transparent substrates) 2 and 3 facing each other. And a reflector 6 attached to the back of the liquid crystal display module 5, and a front light 7 and a tablet 8 attached to the front of the liquid crystal display module 5. The front light 7 includes a light guide plate 11 made of a transparent resin such as an acrylic resin, and a fluorescent lamp (light source) 12 attached to one end of the light guide plate 11. 5, a large number of triangular grooves 13 are formed.
The tablet 8 has a transparent panel 15 that performs a switching operation by a pressure of a pen or the like attached to a front surface of a glass substrate (transparent substrate) 14.

In this reflection type liquid crystal display device, the light emitted from the fluorescent lamp 12 passes through the light guide plate 11 while the groove 1
Are reflected by 3, 13,... To the liquid crystal display module 5, and pass through the liquid crystal display module 5. Thereafter, the transmitted light is reflected by the reflector 6 and passes through the liquid crystal display module 5 again.
After passing through the tablet 8 sequentially, the light is emitted outward.

[0006]

In the above-mentioned conventional reflection type liquid crystal display device, as with other display devices, further reduction in thickness is required. However, the liquid crystal display module 5, front light 7, tablet There is a problem in that it is very difficult to further reduce the thickness of 8 etc. without lowering the strength.

For example, the thickness of the light guide plate 11 of the front light 7 is 1 to 1.5 mm, and the glass substrate 14 of the tablet 8 is
Is about 1 mm, the thickness of the liquid crystal display module 5 can be increased to 2 to 2.5 mm just by superimposing them. become. Further, since a large number of components are superimposed, there is also a problem that the cost of the product is increased as the number of components increases.

The present invention has been made in view of the above circumstances, and a liquid crystal display device capable of reducing the manufacturing cost by reducing the number of components by reducing the thickness of the entire device. The purpose is to provide.

[0009]

In order to solve the above-mentioned problems, a liquid crystal display device according to the present invention comprises: a liquid crystal display module having a liquid crystal layer formed between a pair of opposed transparent substrates; A tablet attached to the front surface, a light source is attached to one end of the tablet, and an optical path changing member for changing an optical path of light from the light source to the liquid crystal display module is attached to one main surface of the tablet. It is characterized by having.

In this liquid crystal display device, a light source is attached to one end of the tablet, and an optical path changing member for changing the optical path of light from the light source to the liquid crystal display module is attached to one main surface of the tablet. Therefore, while the light from the light source propagates in the tablet, the propagation direction is changed from the direction along the main surface of the tablet to the liquid crystal display module by the optical path changing member attached to one main surface of the tablet. Incident on the liquid crystal display module.

As a result, the tablet has the function of a front light, and the tablet and the front light, which are conventionally separate members, can be replaced by one member. As a result, the entire liquid crystal display device can be reduced in thickness. Further, since the number of parts is reduced, the manufacturing process is correspondingly simplified and the manufacturing cost is reduced.

Preferably, the optical path changing member is a light-transmitting film having an uneven portion formed on one surface. In this liquid crystal display device, the light from the light source is transmitted from the direction along the main surface of the tablet to the liquid crystal display module direction by the concave and convex portions formed on one surface of the film having a light transmitting property while propagating in the tablet. The light is changed and enters the liquid crystal display module.

[0013] Thus, the uneven portion formed on the thin film has a function of changing the optical path of the light from the light source, and the tablet and the front light, which are conventionally separate members, are replaced with one member. Accordingly, the entire liquid crystal display device can be further reduced in thickness.

Another liquid crystal display device according to the present invention comprises a liquid crystal display module in which a liquid crystal layer is formed between a pair of opposed transparent substrates, and a tablet mounted on the front surface of the liquid crystal display module. A light source is attached to one end of the tablet, and an optical path changing unit for changing the optical path of light from the light source toward the liquid crystal display module is formed on one main surface of the tablet.

In this liquid crystal display device, a light source is attached to one end of the tablet, and an optical path changing portion for changing the optical path of light from the light source toward the liquid crystal display module is formed on one main surface of the tablet. Therefore, while the light from the light source propagates in the tablet, the propagation direction is changed from the direction along the main surface of the tablet to the liquid crystal display module by the optical path changing portion formed on one main surface of the tablet. Incident on the liquid crystal display module.

As a result, the tablet has the function of a front light, and the tablet and the front light, which are conventionally separate members, can be replaced by one member. As a result, the entire liquid crystal display device can be reduced in thickness. be able to. Further, since the number of parts is reduced, the manufacturing process is correspondingly simplified and the manufacturing cost is reduced.

Further, it is preferable that the optical path changing portion is an uneven portion formed on the back surface of the tablet. In this liquid crystal display device, the light from the light source is changed from the direction along the main surface of the tablet to the liquid crystal display module direction by the concave and convex portions formed on the back surface of the tablet while propagating in the tablet. Enter the module.

Thus, the concave and convex portions formed on the back surface of the tablet have a function of changing the optical path of the light from the light source, and the tablet and the front light, which are conventionally separate members, are replaced with one member. Accordingly, the entire liquid crystal display device can be further reduced in thickness.

Further, it is preferable that the uneven portion is a plurality of grooves formed so as to be orthogonal to the optical path of the light source.
In this liquid crystal display device, the light from the light source is transmitted from the direction along the main surface of the tablet to the liquid crystal display module by a plurality of grooves formed so as to be orthogonal to the optical path of the light source while propagating in the tablet. It is changed, and there is no unevenness in the amount of light per unit area.

[0020]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the liquid crystal display device according to the present invention will be described with reference to the drawings. [First Embodiment] FIG. 1 is a sectional view showing a reflection type liquid crystal display device 21 according to a first embodiment of the present invention, in which a liquid crystal layer is provided between a pair of glass substrates (transparent substrates) 2 and 3 facing each other. 4, a reflection plate 6 attached to the back of the liquid crystal display module 5, and a tablet 22 attached to the front of the liquid crystal display module 5.
And

The tablet 22 has a fluorescent lamp (light source) 12 attached to one end of a glass substrate (transparent substrate) 23, a transparent panel 15 that performs a switching operation by the pressure of a pen or the like attached to the front surface thereof, and a rear surface thereof. Is
A transparent film (light-transmitting film) 24 is attached with an adhesive or the like.

The transparent film 24 is used for the fluorescent lamp 12
A plurality of grooves 25 having a triangular cross section are provided on the front surface, that is, the surface on the glass substrate 23 side, so as to be orthogonal to the optical path of the fluorescent lamp 12. The book is formed periodically along the light propagation direction.

For example, the thickness of the glass substrate 23 is 1 to
1.2 mm, thickness of the transparent film 24 is 0.188 mm
(188 μm), the groove 25 has a height difference between a peak and a valley of 3 to
10 μm. The angle θ between each slope of the groove 25 and the main surface of the glass substrate 23 is adjusted so that light propagating in the glass substrate 23 is directed toward the liquid crystal display module 5. In the case of FIG. 2, the angle θ ₁ is 50
80 °, the angle theta ₂ is preferably 30 to 70 °.

In this liquid crystal display device, the light L of the fluorescent lamp 12 propagates from one end to the other end of the glass substrate 23 serving as an optical waveguide, and as shown in FIG.
The light is refracted on one surface of the groove 25 formed on the front surface of the transparent film 24 while propagating through the inside, and is reflected on the adjacent surface, so that the liquid crystal display module 5 is moved from the direction along the main surface of the glass substrate 23. Then, the light is incident on the liquid crystal display module 5.

The light L enters the liquid crystal display module 5, is reflected by the reflection plate 6, passes through the liquid crystal display module 5 again, and is emitted from the upper surface of the tablet 22 as a display image. Here, in order to uniformly irradiate light to each pixel of the liquid crystal display module 5, the surface of the glass substrate 23 on the liquid crystal display module 5 side may be configured to be inclined. With this configuration, a part of the light L propagating in the glass substrate 23 is gradually refracted and reflected by the groove 25 to change the optical path and enter the liquid crystal display module 5. In the module 5, the amount of light per unit area becomes equal.

As described above, according to the reflection type liquid crystal display device of the present embodiment, the optical path of the light from the fluorescent lamp 12 is changed on the entire surface of the glass substrate 23 on the liquid crystal display module 5 side. The light L of the fluorescent lamp 12 propagates through the glass substrate 23 because the transparent film 24 in which the groove 25 for entering the liquid crystal display module 5 has a periodic structure along the light propagation direction is adhered. Groove 25 between
Thus, the optical path can be changed and the light can be incident on the liquid crystal display module 5.

Therefore, the tablet and the front light, which were conventionally separate members, can be replaced by one member, and as a result, the entire liquid crystal display device can be reduced in thickness. Further, since the number of parts is reduced, the manufacturing process can be simplified correspondingly, and the manufacturing cost can be reduced.

[Second Embodiment] FIG. 3 shows a second embodiment of the present invention.
It is a cross-sectional view showing a reflective liquid crystal display device of the embodiment,
The reflection type liquid crystal display device of the present embodiment is different from the reflection type liquid crystal display device of the first embodiment described above in that the reflection type liquid crystal display device of the first embodiment has the liquid crystal display module 5 of the glass substrate 23. A transparent film 24 having a groove 25 for changing the optical path of the light from the fluorescent lamp 12 and causing the light to enter the liquid crystal display module 5 is formed on the front surface in a periodic structure along the light propagation direction. On the other hand, in the reflection type liquid crystal display device of the present embodiment, the optical path of the light from the fluorescent lamp 12 is changed directly on the surface of the glass substrate 32 constituting the tablet 31 on the liquid crystal display module 5 side. Groove 2 for entering the liquid crystal display module 5
5 is formed to have a periodic structure along the light propagation direction.

The reflection type liquid crystal display device of the present embodiment can also provide the same functions and effects as those of the above-described reflection type liquid crystal display device of the first embodiment. Moreover, in the reflection type liquid crystal display device of the present embodiment, the groove 25 for changing the optical path of the light from the fluorescent lamp 12 and directly entering the liquid crystal display module 5 on the surface of the glass substrate 32 on the liquid crystal display module 5 side. Is formed to have a periodic structure along the light propagation direction, so that the entire reflection type liquid crystal display device can be further reduced in thickness. Further, since the configuration is further simplified, the number of parts can be further reduced, the manufacturing process can be simplified correspondingly, and the manufacturing cost can be further reduced.

Although the embodiments of the reflection type liquid crystal display device of the present invention have been described with reference to the drawings, the specific configuration is not limited to the present embodiment, and a range that does not depart from the gist of the present invention. Can be used to change the design. For example, the thickness of the glass substrate 23, the thickness of the transparent film 24, the height difference between the peaks and the valleys of the grooves 25, and the like can be appropriately changed according to design specifications and needs.

[0031]

As described above, according to the liquid crystal display device of the present invention, the light source is attached to one end of the tablet, and the optical path of the light from the light source is provided on one main surface of the tablet. Since the configuration is such that the optical path changing member for changing the direction is attached, the tablet also has the function of the front light, so that the tablet and the front light, which were conventionally separate members, can be replaced with one member. As a result, the entire liquid crystal display device can be reduced in thickness. Also, since the number of parts can be reduced, the manufacturing process can be simplified correspondingly, and the manufacturing cost can be reduced.

If the light path changing member is a light-transmitting film having an uneven portion formed on one surface, the entire liquid crystal display device can be further reduced in thickness.

According to another liquid crystal display device according to the present invention,
A light source is attached to one end of the tablet, and an optical path changing unit for changing the optical path of light from the light source to the liquid crystal display module direction is formed on one main surface of the tablet, so that the tablet also has a function of a front light. , The tablet and the front light, which were previously separate components,
Can be replaced by two members. As a result, the entire liquid crystal display device can be reduced in thickness. Also, since the number of parts can be reduced, the manufacturing process can be simplified correspondingly, and the manufacturing cost can be reduced.

If the light path changing portion is an uneven portion formed on one main surface of the tablet, the entire liquid crystal display device can be further reduced in thickness.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a reflective liquid crystal display device according to a first embodiment of the present invention.

FIG. 2 is a schematic diagram illustrating an operation of the reflective liquid crystal display device according to the first embodiment of the present invention.

FIG. 3 is a sectional view showing a reflective liquid crystal display device according to a second embodiment of the present invention.

FIG. 4 is a cross-sectional view showing a conventional reflective liquid crystal display device.

[Explanation of symbols]

 2, 3 glass substrate (transparent substrate) 4 liquid crystal layer 5 liquid crystal display module 6 reflector 12 fluorescent lamp (light source) 15 transparent panel 21 reflective liquid crystal display device 22 tablet 23 glass substrate (transparent substrate) 24 transparent film (translucent) 25 groove 31 tablet 32 glass substrate

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2H091 FA14Z FA21X FA23X FA31X FA41X FA42X FD06 LA11 LA12 5B087 AA00 CC02 CC11 CC20 5G435 AA17 AA18 BB12 BB16 EE03 EE22 EE49 FF02 FF08 FF12 GG24 LL07

Claims (5)

[Claims] 1. A liquid crystal display module having a liquid crystal layer formed between a pair of opposing transparent substrates, and a tablet mounted on a front surface of the liquid crystal display module, wherein a light source is mounted on one end of the tablet. A liquid crystal display device, wherein an optical path changing member that changes an optical path of light from the light source toward the liquid crystal display module is attached to one main surface of the tablet. 2. The liquid crystal display device according to claim 1, wherein the optical path changing member is a light-transmitting film having an uneven portion formed on one surface. 3. A liquid crystal display module having a liquid crystal layer formed between a pair of opposing transparent substrates, and a tablet mounted on a front surface of the liquid crystal display module, wherein a light source is mounted on one end of the tablet. A liquid crystal display device, wherein an optical path changing unit that changes an optical path of light from the light source toward the liquid crystal display module is formed on one main surface of the tablet. 4. The tablet according to claim 3, wherein the optical path changing unit is an uneven portion formed on a back surface of the tablet.
The liquid crystal display device as described in the above. 5. The liquid crystal display device according to claim 2, wherein the concave and convex portions are a plurality of grooves formed so as to be orthogonal to an optical path of the light source.