JPH0233125A - Liquid crystal display device - Google Patents

Abstract

PURPOSE:To realize a liquid crystal display device which is scarcely influenced by external force and an internal light by forming a recessed part on the surface of a transparent plate opposed to an image area of a liquid crystal panel so that the image area of the liquid crystal panel does not come into contact with the transparent plate. CONSTITUTION:As for a liquid crystal panel provided with a polarization filter 11 on both faces, its periphery is inserted and held by a display window frame 1a of the upper cabinet 1 and a light transmissive window part 2a of the lower cabinet 2 and fixed. Between the liquid crystal panel and the upper cabinet 1, a transparent plate 8 for protection is provided, and in this transparent plate 8, a recessed part 8c is provided on the surface opposed to an image area of the liquid crystal panel, only a non-display part of the liquid crystal panel comes into contact with a panel containing part of the transparent plate 8 and the outside periphery is fixed. A light beam which is made incident from the left side onto a diffusion plate 9 for coming into contact with the light transmissive window frame 2a of the lower cabinet 2 is scattered to uniform light beams and goes into a polarization filter 11 of the liquid crystal panel. A recessed part 8c of the transparent plate 8 is formed to a curved surface, and formed so that stress caused by a contact of the liquid crystal panel and the transparent plate and an interference fringe are not generated.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a housing structure for a liquid crystal panel of a liquid crystal display device.

(b) Conventional technology As a display device that can be constructed in a thin and compact manner, including the power supply part, liquid crystal display devices are incorporated into display parts of small-sized personal computers and 3- to 5-inch liquid crystal color televisions. .

The liquid crystal display device has a structure C2 in which the liquid crystal panel is held between transparent plates or diffuser plates (JP-A No. 63-26624).
.

In the above-mentioned publication, it seems that the liquid crystal panel is sandwiched (;
A transparent plate and a diffuser plate are arranged on both sides of the transparent plate and the diffuser plate.
Protecting the LCD panel and displayed images (: The surface of the transparent plate that comes into contact with the LCD panel is roughened.) Originally, the transparent plate was placed on the display side of the LCD panel, and was used to protect the LCD panel. It is an object.

However, in the conventional example, the transparent plate and the diffuser plate are both mounted;
The entire surface of the liquid crystal panel C: The structure is such that the pressure applied to the transparent plate is directly transmitted to the liquid crystal panel, which may cause damage to the liquid crystal panel.Furthermore, the unevenness on the transparent plate I: The structure is such that the pressure applied to the transparent plate is directly transmitted to the liquid crystal panel, causing damage to the liquid crystal panel. There was a drawback that the image on the liquid crystal panel became dark due to attenuation of the image.

In the above-mentioned newsletter, we will discuss the following information: the transparent side C of a U-shaped fluorescent tube, etc.; the thin film transistor ('I
'F'I') 0'I' iF 'r where the board is placed
The material used is often A-31, which has the disadvantage that photocurrent due to a nearby backlight flows, reducing the contrast of the liquid crystal panel.

(c) Problems to be Solved by the Invention The present invention provides means for solving the above-mentioned problems (2). The present invention is a liquid crystal display device in which a transparent plate disposed on the display side of a liquid crystal panel has a recess formed in a surface of the transparent plate facing an image area of the liquid crystal panel.

The second invention is an internal illumination means 1; a liquid crystal display device in which, in a transmissive liquid crystal panel in contact, a TFT or MIM is provided on the substrate on the front side where light passing through the liquid crystal layer is incident.

(E) Function The present invention provides a liquid crystal display device with a structure that is not easily affected by external forces or internal light. Temperature change (
- No interference fringes occur.

B: External stress is not applied to the image area (2).

Transparent plate C2 If there are no minute irregularities (200) the amount of transmitted light from the liquid crystal panel will not decrease.

9. The display side substrate of the liquid crystal panel (2TF'r or M
With IM, the photocurrent decreases and the image becomes clearer.

There are effects such as

(f) Example A liquid crystal display device using TFTi will be taken up as a flat panel.

The present invention (a first exploded perspective view of one embodiment of such a display device)
As shown in the figure.

The liquid crystal panel (3) is surrounded by the display window frame (1a) of the upper cabinet (1) and the translucent window (2) of the lower cabinet (2).
It is clamped and fixed by 2a).

The outer periphery C of the upper cabinet (1) is an elastic locking piece (1C)
is formed.

The elastic locking piece (10) and the locking hole (2m) of the lower cabinet (2) are to suppress both the upper and lower cabinets; therefore, capacity 11. c Fit.

A protective transparent plate (8) is provided between the liquid crystal panel (3) and the upper cabinet (1) C:, and this transparent plate (8) protects the image display section I: of the liquid crystal panel (3). I: Attached so that there is no contact.

Figure 1 C: Front side of transparent plate (8) I: Platform C:
A projecting convex portion (8a) is formed, and this convex portion (8&) matches the display window frame (11)C and upper cabinet (1)L:
Fixed.

The back side C: of the transparent plate (8) is recessed with a panel accommodating part (8b) for accommodating the entire liquid crystal panel (3) as shown by the dotted line.

Only the non-display part of the liquid crystal panel (3) contacts the panel storage part (8b) of the transparent plate (8), and the outer periphery is fixed, making the liquid crystal panel (3) less likely to shift due to vibrations. There is.

Both sides of the liquid crystal panel (3) ζ: are polarizing filters (11
1 is attached.

Light from the backlight? Between the diffuser plate (9) and the liquid crystal panel (3) 1:, the corner of the lower cabinet (2) (:
A fixed board (6) to be locked is arranged.

One side of the fixed board (6)! = is the connection between the liquid crystal panel (3) and the flexible printed wiring board (FPO) (41, (5)?
Ensure I: The brush eye (7) is installed and the fixed board (
On the other side C of 6), the driving circuit 10Q3 is bonded, and on the side C of the fixed substrate (6), there is an X scanning side FPCt t41 and a Y scanning side FPC+51. Panel (3) and drive port v & l0 (1
There is an electrical connection between the two.

Fixed board 16)l: is one X scanning side FPO (41 to 2)
Y-scanning side FPOs (51) are mounted, and the relay F'POs (1 set -) are connected to the outside.

The relay FPO (IG is mutually connected: both cabinets that fit together,
The outside of the cabinet C2 extends from the notches (1d) and (2C) of the cabinet.

A cross-sectional view of the above embodiment is shown in FIG.
:The light entering from the left side is the lower cabinet (21
Uniform light ζ is scattered by the diffuser plate (9) in contact with the transparent window frame (2L).

The polarizing filter aυ of the liquid crystal panel (3) restricts and passes only light with a specific polarization plane, and then the liquid crystal panel (3)
The color filter on the counter electrode substrate α4 allows only light having wavelengths in a specific range to pass through.

The liquid crystal layer in the liquid crystal panel (3) changes the polarization plane of colored light,
Further 1: Thin film transistor (TPT) of liquid crystal panel (3)
) Board a3 is the upper cabinet (1) by changing the state of the liquid crystal layer.
1 display window frame [1a] (two-color image display is performed).

The brightness of the light passing through the white diffuser plate of the backlight of the fluorescent tube of 10 W or less used in liquid crystal color televisions (in general) is several thousand nt (or Od/I/).

TPT substrate 0 of liquid crystal panel (3) is on diffuser plate (9) side C:
If yes: Compare the two, TFT substrate a3 is on the transmission plate (8) side (
= In some cases, the amount of light incident on the TPT decreases due to the polarizing filter συ, the color filter, and the liquid crystal layer (2).

Using a backlight with a brightness of 4000 nt and arranging it as shown in Figure 2, the brightness on the liquid crystal panel (3) will be 20 nt.
It is 0 to 800 nt.

Next ζ2 Using the same light source and placing it on the side of the LCD panel (3), the brightness on the diffuser plate (9) will be 200.
A large amount of light from 0 to 3000 nt enters the TFT substrate t13.

Here, the polarizing filter is PVA (polyvinyl alcohol) with a thickness of approximately 0.2 μm, the color filter is colored PVA with a thickness of approximately 2 μm, the counter electrode substrate is glass with a transmittance of 90%, and the liquid crystal layer is phenylcyclohair with a thickness of 8 to 15 μm. The test was carried out under the conditions of sun-based liquid crystal.

Assuming that the voltage applied to both ends of the liquid crystal cell is tv2, v2 is expressed by the following formula.

V2-Vd, EXP (-tlopp), t: time (8) O: capacitance CF) Rp: amount of light C: resistance between the glass substrate and drain terminal which is inversely proportional [Ω] va: video signal ('/ ) From the above equation, it can be seen that as the amount of light incident on T P T increases, the resistance Rp becomes smaller and the effective voltage rapidly decreases with respect to time C2.

By positioning the CTFT substrate r13 on the side of the transparent plate (8) in FIG. 2, the leakage current of the TPT is reduced and the contrast of the liquid crystal panel (3) is increased.

Which TF' has the larger area of the liquid crystal panel (3)? 'Substrate a
3. The substrate scrap 3 is held between a transparent plate (8) and a cushion (7), so as to disperse stress applied to the cabinet from the outside.

The drive circuit (13) is placed on the fixing board (6), which is fixed by the stepped wall (1b) at the corner of the upper cabinet (11), so the drive circuit IC (121) is spaced apart from the lower cabinet (2). It is not affected by the deformation of the lower cabinet.

An external view of the transparent plate (8) of the above embodiment is shown in FIG.

FIG. 3(a) is a plan view of the transparent plate when viewing the liquid crystal panel.

FIG. 3(B) is a side view of the transparent plate, and the convex portion (8B) is fixed to the display window frame (1a) C of the upper cabinet (11).

FIG. 3(c) is a plan view of the transparent plate when viewed from the liquid crystal panel, and the panel housing part (81) is formed in a concave shape, and only the diagonally shaded part of the panel housing part (81) is visible from the liquid crystal panel (3).
) is in contact with the TPT substrate fi3.

The image protection portion (80) of the transparent plate (8) is recessed (double-shaped) from the shaded area in FIG. 3(c).

Figure 3 is an enlarged cross-sectional view of the case where f → is cut along IV-ff line C: 9? Figure 4 (: shows.

The image protection part (80) in Figure 4 is formed with a curved surface C on the liquid crystal panel (3) side, and has a form C that does not generate interference fringes or stress due to contact C2 between the liquid crystal panel (3) and the transparent plate (8). ：Wow,
゛・There is.

A perspective view of the above embodiment is shown in FIG.

In FIG. 5(A), three drive circuits 10fi3 are arranged on the fixed substrate (6) on the X-scan side c, and two each on the top and bottom C of the Y-scan side.

The signal input from the relay FPO (II) is sent to the drive circuit 10.
(via 13, the notch (6a) C of the fixed board (6)
Two inserted-ex scanning side FPOj41 and Y scanning side FP
This is an enlarged view of the part surrounded by the circle of 0 (from 50 Ni, the 51st @ is the palanquin 5 figure seen in the LCD panel (3) Shuniden).

Figure 5 (b) I: The corners of the fixed board (6) are fixed with the stepped wall (1b) of the upper cabinet (1), and the Y-scan side FPO (51 is the cutout of the fixed board (6)). It can be easily folded and stored at the notch (6℃).

FIG. 5(c) is a side view showing the state in which the upper and lower cabinets (11, !21y are fitted).

From the diagram, it can be seen that wiring and cabinets can be formed (62 and 200 cm) (similar to flannel).

The external view of the above embodiment is shown in Figure 6;
Fig. 61 shows the external view seen from the elastic locking piece (10) side.
(b) The external view as seen from the translucent window side is shown in Figure 6 (→). Since the display area 1 is defined by C, when displaying a moving image such as a television image, the edges of the image are clear (; or) (unnecessary parts such as the seal part of the flannel can be hidden).

An external view of the upper cabinet of the above embodiment is shown in FIG. 7C-2.

The display window frame (1a) of the upper cabinet (1) is made of a transparent plate (8
) V has a fixed and pressing function, and the upper cabinet (1
The stepped wall (1b) of the upper cabinet (1) has the function of fixing the fixed board (61) on which the drive circuit 10n21 is placed, and the notch part (1(L) of the upper cabinet (1) is a relay FPO
It has the function of penetrating fi (lv).

An enlarged sectional view of the upper cabinet (1) in Figure 7 taken along the ■-■ line? Figure 1C: Shown.

In FIG. 8C2, an elastic locking piece (1C) is provided on the outer periphery of the upper cabinet (1).

The external view of the lower cabinet (2) of the above embodiment is shown in Figure 9 (
; Shown 0 The translucent window frame (2a) of the meridian web net (2) has the function of pressing the outer periphery of the liquid crystal panel (3) (the diffuser plate (9) which is in contact with the two), and the notch or cutout of the upper cabinet (1) (2o) has the function of passing through the relay FPOQG.

FIG. 10 shows an enlarged sectional view of the lower cabinet (2) in FIG. 9 taken along the line xx--x.

Figure 10C: Side of lower cabinet (2) I:
Figure 11C shows a sectional view of another embodiment of the transparent plate (8) of the liquid crystal display device of the present invention, in which the locking hole (2b) is provided.

The transparent plate (8) of the present invention is as shown in FIGS. C as shown in Figure (C)
; Even if the cross section of the image protection part (80) is flat, it will not be drawn.

In addition, if a locking piece is provided for the upper cabinet (10 pieces), the transparent plate (8) and the liquid crystal panel (3), as shown in Fig. 11 (E).
The C2 transparent plate (8) only needs to have a recess formed in the image protection part (80).

(G) Effects of the Invention Does the liquid crystal display device of the present invention have a transparent plate on the display side of the liquid crystal panel?
Since the transparent plate does not come into contact with the image display area, interference fringes and image disturbances due to stress C are eliminated.
With M, I: the effective voltage to the liquid crystal becomes higher,
The contrast of the liquid crystal panel can be increased by 201 points.

[Brief explanation of the drawing]

FIG. 1 is an exploded perspective view of a display device of the present invention, FIG. 2 is a sectional view of an optical display device of the present invention, FIG. 3 is an external view of a transparent plate of the present invention, and FIG. 4 is a transparent plate of the present invention. 5 is a perspective view of the display device of the present invention, FIG. 6 is an external view of the display device of the present invention, FIG. 7 is an external view of one component of the display device of the present invention,
FIG. 8 is a sectional view of one component of the display device of the present invention;
10 is a cross-sectional view of other parts of the display device of the present invention, and FIG. 11 is a cross-sectional view of another embodiment of the transparent plate of the present invention. be. 1... Upper cabinet, 2... Lower cabinet, 3
...Liquid crystal panel, 4...X scanning side FPO15...
Y-scanning side FP0, 6...Fixed substrate, 7...Cushion, 8...Transparent plate, 9...Diffusion plate, 10...Relay FPO111...Polarizing filter, 12...Drive Circuit IO, 13...TF'r board, 14...Counter electrode board, 1&...Display window frame, 1b...Stepped wall, 1c...Elastic locking piece, 1a...Notch Part, 21L...transparent window frame, 2b...locking hole, 2a...notch part, 6a...
...Notch portion, 8 &... Convex portion, 8b... Panel storage portion %8'... Image protection portion. Figure 5

Claims (1)

[Claims] 1. A liquid crystal display device in which a transparent plate is disposed on the display side of a liquid crystal panel, characterized in that a recess is formed on the surface of the transparent plate facing the image display area of the liquid crystal panel. A liquid crystal display device. 2. A transmissive liquid crystal display device in which a transistor or a diode is provided on the substrate on the front side of the liquid crystal panel, and internal illumination means is provided on the back side of the substrate on the back side of the liquid crystal panel.