JPH0627917B2 - Planar liquid crystal display - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a planar liquid crystal display device used for a display of a small portable personal computer.

(Prior Art) Conventionally, this type of display device is disclosed in, for example, Japanese Patent Laid-Open No. 63-309.
As disclosed in Japanese Patent No. 918, etc., and as shown in FIG. 3, a plate-like liquid crystal module (D) including a liquid crystal panel is provided on the back side with a predetermined space (δ) provided by a spacer (S). Backlight module (B) having a light-transmitting plate (E) made of a transparent acrylic plate or the like having a flat surface (a) on the side and a diffused reflection surface (b) of light such as a dot pattern on the back surface
The light emitted from the light source (L) arranged laterally is diffusely reflected by the irregular reflection surface (b) and applied to the back surface of the liquid crystal module (D) as a backlight. I have to.

(Problems to be Solved by the Invention) By the way, there is a demand to store the display device as described above in a case having a limited thickness such as a thin display case of a system in which a main body case on the keyboard side is opened, There is a demand to make the overall thickness as thin as possible.

However, in the conventional device described above, a relatively large space (δ) is secured by the spacer (S) because of the thermal protection of the liquid crystal module (D) and the necessity of preventing the generation of so-called Newton's rings. Therefore, there has been a problem that the thickness cannot be reduced by the thickness of the spacer (S).

That is, when the thickness of the spacer (S) is reduced, the liquid crystal module (D) becomes closer to the backlight module (B) which is supplied with heat from the light source (L). The liquid crystal module (D) is thermally damaged by the heat radiation from the. Further, when the spacer (S) is thinned to narrow the interval (δ), when the water contained in the air layer in the interval (δ) is condensed, the condensed water is condensed into the liquid crystal module (D). And the backlight module (B) and acts like a plano-convex lens, and the plano-convex lens formed by the condensed water and the light transmitting plate (E) constituting the uppermost surface of the backlight module (B). Light interference occurs with the front-side flat surface (a), and the ripples of light spread concentrically around the attached portion of the dew condensation water, so that a so-called Newton ring appears.

Therefore, the spacer (S) has a certain thickness, and therefore, there is a limit in reducing the overall thickness.

An object of the present invention is to employ a heat-resistant liquid crystal module and to devise the surface structure of the backlight module facing the liquid crystal module, whereby the distance between the liquid crystal module and the backlight module can be narrowed, It is an object of the present invention to provide a planar liquid crystal display device which can further reduce the overall thickness and at the same time can temporarily fix two modules when setting an interval between these modules.

(Means for Solving the Problems) Therefore, in order to achieve the above object, the present invention includes a heat-resistant plate-shaped liquid crystal module (1), and the rear side of the liquid crystal module (1) has a pear on the surface. Ground pattern light diffuser (9)
The backlight module (2) having the above is arranged, and the light diffusing plate (9) and the liquid crystal module (1) are joined by a sheet-like tape (14) having adhesive layers on both sides. did.

(Operation) By adopting a heat-resistant liquid crystal module (1), it is possible to reduce the heat influence on the liquid crystal module (1),
The sheet-shaped tape (14) can be used to set the gap between the liquid crystal module (1) and the backlight module (2) narrow, and thus the gap between the modules (1) and (2) can be narrowed. Even so, since the light diffusing plate (9) having a pear-skin pattern on the surface is provided on the surface of the backlight module (2) facing the liquid crystal module (1), the condensed water is condensed by this light diffusing plate. Even if it adheres to (9), formation of a plano-convex lens due to the dew condensation water is prevented, and the occurrence of Neutling can be suppressed.

(Embodiment) The planar liquid crystal display device shown in FIG. 2 is for housing a display case of a lid type personal computer, for example, and has a backlight module (2) on the back surface of the liquid crystal module (1). The backlight module (2) is provided with a light source (3) on the side of the backlight module (2).

The liquid crystal module (1) has two glass plates (41).
A substrate (4) is provided in which (42) are stacked in a sandwich shape and the ends thereof are held by holders (43) and (44). A large number of LSI chips (60) that are installed and constitute the drive element (6) of the liquid crystal panel (5) between the glass plates (41) and (42) at the outer peripheral portion of the liquid crystal panel (5).
And the glass plates (41) (42) between the respective chips (60) and the electrodes of the liquid crystal panel (5).
The so-called COG method (chip on glass method) for connecting with a wiring pattern formed on at least one of the glass surfaces is adopted, and the whole module is adopted by adopting the heat resistant liquid crystal panel (5) and the COG method. Is a heat resistant structure.

Further, the backlight module (2) has a flat surface (71) on the surface side facing the liquid crystal module (1),
A large number of dots (7
2a) is provided with a light-transmitting plate (7) made of a thin transparent acrylic plate each having a light-reflecting surface (72), and on the light-reflecting surface (72) side of the light transmitting plate (7),
A sheet-like light diffusing plate (9), which is a frosted glass, is formed by closely adhering a reflecting plate (8) made of a white sheet having a high reflectance to the flat surface (71) side. ) Are closely attached to each other.

Further, the light source (3) uses, for example, a cold cathode tube, and is arranged outside the side short portion on the short side of the light transmission plate (7) constituting the backlight module (2). Light is emitted from the side of the light transmitting plate (7).

Then, with the above configuration, a sheet-like tape (14) having adhesive layers on both sides at the long-side end of the upper light diffusion plate (9) that constitutes the uppermost layer surface of the backlight module (2). (14) is adhered and the back surface of the liquid crystal module (1) is adhered via the other adhesive surface, and as shown in FIG. 1, the liquid crystal module (1) and the backlight module (2) are combined. The gap is set and maintained at a thin gap of, for example, about 0.4 mm.

In FIG. 1, (10) is an outer frame case, and between the outer frame case (10) and the liquid crystal module (1),
And between the outer frame case (10) and the reflecting surface (8),
The sheet-like spaces (13) and (15) made of double-sided tape similar to the above-mentioned tape are interposed. Although not shown, the outer frame case (10) is covered with a decorative case of the display device.

Further, a lamp reflector (34) constituted by bonding a silver film (33) to the inner surface of a flexible ENVI film (32) is provided on the outer peripheral portion of the light source (3), and the reflector (34) is provided. ) Is adhered to the front surface and the back surface of the backlight module (2) to guide the light from the light source (3) to the transmission plate (7).

In this way, since the liquid crystal module (1) has the heat-resistant structure as in the above structure, it is possible to reduce the thermal influence of the backlight module (2) on the liquid crystal module (1). Tape (14)
The space between the liquid crystal module (1) and the backlight module (2) can be set narrower by using. Moreover,
Since the tape (14) for setting the narrow space is a so-called double-sided tape having adhesive layers on both sides, both modules (1)
The space (2) functions as a temporary fixing when the space is housed in the outer frame case (10), and the assembling property can be improved.

Further, even if the distance between the modules (1) and (2) is narrowed as described above, the light diffusing plate (Pear-skin pattern) on the surface of the backlight module (2) facing the liquid crystal module (1) ( Since 9) is interposed, even if the condensed water adheres to the light diffusing plate (9), the formation of the plano-convex lens due to the condensed water can be prevented, and the occurrence of Newton's rings can be suppressed. It is possible to prevent the liquid crystal panel (5) from being difficult to see.

In addition, in the above embodiment, the two light diffusion plates (9) are provided in a laminated shape, but one light diffusion plate or three or more light diffusion plates (9) may be provided.

Further, in the above-mentioned embodiment, a so-called COG method is adopted in which the glass plates (41) and (42) are used for the substrate (4) of the liquid crystal module (1) and the drive element (6) is mounted on the glass plate. However, using another material instead of the glass plate, C
The drive element (6) may be planarly mounted on the liquid crystal panel (5) by a structure other than the OG method.

Further, although only one light source (3) is arranged outside the short side of the backlight module (2) and thus the light transmission plate (7), one light source (3) is provided outside the short side and two light sources (3) are provided in total. They may be arranged, or one or two may be arranged outside the long side, or 4
Any combination of arrangements such as arrangement on one side or any three sides may be used.

(Effects of the Invention) According to the present invention as described above, the distance between the liquid crystal module (1) and the backlight module (2) is set narrow by using the sheet-shaped tape (14) while suppressing the generation of Newton's rings. It is possible to reduce the overall thickness, and at the time of setting this narrow interval, two modules (1)
(2) Temporary fixing can be performed between the two, and the assembling property can be improved.

[Brief description of drawings]

FIG. 1 is a sectional view of a main part of a planar liquid crystal display device according to the present invention, FIG. 2 is an exploded perspective view of the same, and FIG. 3 is a sectional view of a conventional example. (1) …… Liquid crystal module (2) …… Backlight module (9) …… Light diffusing plate (14) …… Tape

 ─────────────────────────────────────────────────── --Continued from the front page (56) References JP-A-1-248130 (JP, A) JP-A 52-15177 (JP, A) JP-A 1-270023 (JP, A) Actual development Sho-61- 104490 (JP, U)

Claims (1)

[Claims] 1. A backlight module (2) comprising a heat-resistant plate-shaped liquid crystal module (1), and having a light diffusing plate (9) having a pear-skin pattern on the surface on the back side of the liquid crystal module (1). A planar liquid crystal display device, characterized in that the light diffusing plate (9) and the liquid crystal module (1) are arranged and joined by a sheet-like tape (14) having adhesive layers on both sides.