JP2620636B2 - Liquid crystal display - Google Patents

Description

The present invention relates to a storage structure for a liquid crystal panel of a liquid crystal display device.

(B) Conventional technology As a display device having a thin and lightweight configuration including a power supply portion, a liquid crystal display device is incorporated in a display component of a laptop personal computer or a liquid crystal color television of about 3 to 5 inches.

The liquid crystal display device has a structure in which a liquid crystal panel is sandwiched between a transparent plate and a diffusion plate (JP-A-63-26624).

In the above-mentioned publication, a transparent plate and a diffusion plate are arranged on both sides of the liquid crystal panel so as to sandwich the liquid crystal panel.

This transparent plate and diffusion plate respond to temperature changes and external force changes.
In order to protect the liquid crystal panel and the displayed image, the surface of the transparent plate that contacts the liquid crystal panel is roughened.

Originally, the transparent plate is disposed on the display side of the liquid crystal panel, and is intended to protect the liquid crystal panel.

However, in the conventional example, the transparent plate and the diffusion plate are both in contact with the entire surface of the liquid crystal panel, and the pressure applied to the transparent plate is directly transmitted to the liquid crystal panel, and the liquid crystal panel may be damaged. Further, there is a disadvantage that the transmitted light from the liquid crystal panel is attenuated due to the unevenness on the transparent plate, and the image on the liquid crystal panel becomes dark. Furthermore, there has been a drawback that the liquid crystal panel is conventionally displaced by vibration or the like because it is not fixed by a transparent plate. Further, since the formation of the gap and the fixing of the liquid crystal panel are performed by different members, there is a disadvantage that it is not easy to assemble the liquid crystal display device.

In the above publication, a thin film transistor (TF) of a transmissive liquid crystal panel is provided on the backlight side such as a U-shaped fluorescent tube.
T) A substrate is provided.

(C) Problems to be Solved by the Invention In view of the above points, the present invention proposes a liquid crystal display device which is less affected by external force, and which can securely fix and position a liquid crystal panel and is easy to assemble.

(D) Means for Solving the Problems In the liquid crystal display device of the present invention, in a liquid crystal display device in which a transparent plate is arranged on a display side of a liquid crystal panel, the transparent plate faces an image display area of the liquid crystal panel. A concave portion is formed, and an integrated transparent plate in which a panel storage portion for fixing an outer periphery of the liquid crystal panel in contact with a surface facing an image non-display region around the image display region is formed. is there.

(E) Function The present invention has a structure in which the liquid crystal display device is hardly affected by external influences. A: Since no transparent plate is in contact with the image area of the liquid crystal panel, there is no interference fringe due to a temperature change. .

B No external stress is applied to the image area.

 Since there is no minute unevenness on the transparent plate, the amount of transmitted light from the C liquid crystal panel does not decrease.

In addition, since a concave panel storage section for inserting and fixing the substrate in the transparent plate is formed, only the image non-display area of the liquid crystal panel comes into contact with the panel storage section and the outer periphery is fixed. The liquid crystal panel is not easily displaced by vibration or the like, and positioning of the liquid crystal panel is easy.

Further, since the recess is formed in the integral transparent plate, assembly is extremely easy. There are actions such as.

(F) Example A liquid crystal display device using a TFT will be described as a flat panel.

FIG. 1 is an exploded perspective view of one embodiment of a display device according to the present invention.
Shown in the figure.

The LCD panel (3) is surrounded by an upper cabinet (1)
Are fixed and sandwiched between the display window frame (1a) and the translucent window portion (2a) of the lower cabinet (2).

An elastic locking piece (1c) is formed on the outer periphery of the upper cabinet (1).

The elastic locking piece (1c) and the locking hole (2b) of the lower cabinet (2) are easily fitted by lightly pressing the upper and lower cabinets.

A protective transparent plate (8) is provided between the liquid crystal panel (3) and the upper cabinet (1), and the transparent plate (8) does not contact the image display section of the liquid crystal panel (3). Installed as

In FIG. 1, a projection (8a) projecting in a trapezoidal shape is formed on the surface side of the transparent plate (8), and the projection (8a) matches the display window frame (1a) and the upper cabinet (1). Fixed to

On the rear surface side of the transparent plate (8), a panel storage portion (8b) for storing the liquid crystal panel (3) as shown by a dotted line is recessed.

Only the non-display portion of the liquid crystal panel (3) comes into contact with the panel storage portion (8b) of the transparent plate (8), and the outer periphery is fixed, so that the liquid crystal panel (3) is hardly displaced by vibration or the like.

A polarizing filter (11) is provided on both sides of the liquid crystal panel (3).
Is attached.

A fixed substrate (6) is provided between the diffusion plate (9) for diffusing light from the backlight and the liquid crystal panel (3), and is fixed to a corner of the lower cabinet (2).

On one surface of the fixed substrate (6), a cushion (7) for ensuring the connection between the liquid crystal panel (3) and the flexible printed circuit boards (FPC) (4) and (5) is provided. (6)
On the other side, the drive circuit IC (12) is bonded, and on the side of the fixed substrate (6), the X-scan side FPC
(4) and a Y-scan side FPC (5), which electrically connects the liquid crystal panel (3) and the drive circuit IC (12).

On the fixed substrate (6), one X-scanning-side FPC (4) and two Y-scanning-side FPCs (5) are placed, and further, a relay FPC (10)
Is connected to the outside.

The relay FPC (10) extends from the cut-out portions (1d) and (2c) of the two fitted cabinets to the outside of the cabinet.

FIG. 2 shows a sectional view of the above embodiment. The polarizing filter (11) on the display side is omitted from the figure.

In FIG. 2, light incident from the left side is scattered into uniform light by a diffusion plate (9) in contact with a light transmitting window frame (2a) of the lower cabinet (2).

The polarization filter (11) of the liquid crystal panel (3) restricts and transmits only light of a specific polarization plane, and then the color filter on the counter electrode substrate (14) of the liquid crystal panel (3) transmits light of a specific range of wavelength. Just let through.

The liquid crystal layer in the liquid crystal panel (3) changes the plane of polarization of the colored light, and furthermore, the thin film transistor (TF) of the liquid crystal panel (3)
T) The substrate (13) displays a color image in the display window frame (1a) of the upper cabinet (1) by changing the state of the liquid crystal layer.

The brightness of the light passing through the white diffuser of the backlight of a fluorescent tube of 10 W or less, which is generally used in liquid crystal color televisions, is several thousand nt (or cd / m ² ).

When the TFT substrate (13) is on the transmission plate (8) side, compared to when the TFT substrate (13) of the liquid crystal panel (3) is on the diffusion plate (9) side, the polarizing filter (11), the color filter and the liquid crystal The layer reduces the amount of light incident on the TFT.

When a backlight with a luminance of 4000 nt is used and arranged as shown in FIG. 2, the luminance on the liquid crystal panel (3) is 200 to 800 nt.
It is.

Next, when the liquid crystal panel (3) is arranged on the backlight side using the same light source, the luminance on the diffusion plate (9) becomes 2000 to 2000.
3000 nt, a large amount of light enters the TFT substrate (13).

Here, the polarizing filter is about 0.2 mm thick PVA (polyvinyl alcohol), and the color filter is about 2 μm colored PV.
A, counter substrate is glass with 90% transmittance, liquid crystal layer is 8 ~ 1 thickness
The test was performed under the condition of a phenylcyclohexane-based liquid crystal of 5 μm.

When the voltage applied across the liquid crystal cells and V _2, V ₂ is expressed by the following equation.

_{V 2 = Vd.EXP (-t / CRp} ) where, t: time (S) C: capacitance [F] Rp: resistance [Ω] Vd between the glass substrate and the drain terminal that is inversely proportional to the quantity of light of a video signal [V] From the above equation, it can be seen that as the amount of light incident on the TFT increases, the resistance Rp decreases and the effective voltage decreases rapidly with time.

By arranging the TFT substrate (13) on the transparent plate (8) side as shown in FIG. 2, the leak current of the TFT is reduced and the contrast of the liquid crystal panel (3) is increased.

The TFT substrate (13) with the larger area of the liquid crystal panel (3)
Is sandwiched between a transparent plate (8) and a cushion (7) so as to distribute the stress applied to the cabinet from the outside.

The fixed substrate (6) on which the drive circuit (12) is mounted is fixed by the stepped wall (1b) at the corner of the upper cabinet (1), so that the drive circuit IC (12) is from the lower cabinet (2). It is separated and is not affected by the deformation of the lower cabinet.

 FIG. 3 shows an external view of the transparent plate (8) of the embodiment.

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 projection (8a) is fixed to the display window frame (1a) of the upper cabinet (1).

FIG. 3 (c) is a plan view of the transparent plate when viewed from the liquid crystal panel. The panel storage part (8b) is formed in a concave shape, and only the hatched part of the panel storage part (8b) is the liquid crystal panel (3).
The TFT substrate (13) is in contact.

The image protection portion (8c) of the transparent plate (8) is recessed from the hatched portion in FIG. 3 (c).

FIG. 4 is an enlarged cross-sectional view of FIG. 3C cut along the line IV-IV.

The image protection portion (8c) in FIG. 4 is formed in a curved surface on the liquid crystal panel (3) side, so that interference fringes and stress due to contact between the liquid crystal panel (3) and the transparent plate (8) are not generated. .

 FIG. 5 shows a perspective view of the above embodiment.

In FIG. 5 (a), the driving circuit IC is mounted on the fixed substrate (6).
Three (12) are arranged on the X-scan side, and two are arranged on the Y-scan side.

The signal input from the relay FPC (10) is the drive circuit IC (1
After 2), the signal is transmitted to the liquid crystal panel (3) by the X-scanning-side FPC (4) and the Y-scanning-side FPC (5) inserted into the notch (6a) of the fixed substrate (6).

FIG. 5 (b) is an enlarged view of a portion surrounded by a circle in FIG. 5 (a).

In FIG. 5 (b), the corner of the fixed substrate (6) is fixed by the stepped wall (1b) of the upper cabinet (1), and the Y scanning side FP is formed.
C (5) is easily bent and stored in the cutout (6b) of the fixed substrate (6).

FIG. 5 (c) is a side view showing a state where the upper and lower cabinets (1) and (2) are fitted.

From the figure, it can be seen that the wiring and the cabinet can be formed as thin as the display panel.

 FIG. 6 shows an external view of the above embodiment.

In FIG. 6, an external view of the liquid crystal panel (3) viewed from the display window side is shown in FIG. 6 (a), an external view of the liquid crystal panel (3c) viewed from the elastic locking piece (1c) side is shown in FIG. The external view seen from
This is shown in FIG.

In FIG. 6 (a), the display area of the liquid crystal panel (3) is defined by the display window frame (1a) of the upper cabinet (1). Can be sharpened or unwanted portions, such as panel seals, can be masked.

FIG. 7 shows an external view of the upper cabinet of the above embodiment.

The display window frame (1a) of the upper cabinet (1) has a function of fixing and pressing the transparent plate (8), and the stepped wall (1b) of the upper cabinet (1) mounts the drive circuit IC (12). It has the function of fixing the corners of the fixed substrate (6), and the cutout (1d) of the upper cabinet (1) is the relay FPC (10)
Has the function of penetrating through.

FIG. 8 is an enlarged sectional view of the upper cabinet (1) of FIG. 7 taken along the line VIII-VIII.

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

FIG. 9 shows an external view of the lower cabinet (2) of the above embodiment.

The translucent window frame (2a) of the lower cabinet (2) has a function of pressing the outer periphery of the diffusion plate (9) in contact with the liquid crystal panel (3), and the cutout (2c) of the upper cabinet (1) is a relay. for
It has the function of penetrating the FPC (10).

FIG. 10 is an enlarged sectional view of the lower cabinet (2) taken along the line XX in FIG.

In FIG. 10, a locking hole (2b) is provided on a side surface of the lower cabinet (2).

FIG. 11 is a sectional view of another embodiment of the transparent plate (8) of the liquid crystal display device of the present invention.

The transparent plate (8) of the present invention does not need to have a cross section of the image protection portion (8c) of the liquid crystal panel (3) as shown in FIGS. 11 (a), (b) and (d). The cross section of the image protection unit (8c) may be flat as shown in FIG.

If the upper cabinet (1) is provided with locking pieces for the transparent plate (8) and the liquid crystal panel (3), FIG.
As described above, the transparent plate (8) only needs to form a recess in the image protection portion (8c).

(G) Effects of the Invention In the liquid crystal display device of the present invention, a transparent plate is arranged on the display side of the liquid crystal panel, and the transparent plate does not contact the image display area, so that image disturbance due to interference fringes and stress is eliminated.

Also, since the panel receiving portion is formed in the transparent plate in a concave shape, only the image non-display area of the liquid crystal panel comes into contact and the outer periphery is fixed. Easy.

Furthermore, gap formation, fixing and positioning of the liquid crystal panel,
The liquid crystal display device is extremely easy to assemble because it is formed by the recess formed in the integral transparent plate.

[Brief description of the drawings]

1 is an exploded perspective view of the display device of the present invention, FIG. 2 is a cross-sectional view of the display device of the present invention, FIG. 3 is an external view of the transparent plate of the present invention, and FIG. FIG. 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 part of the display device of the present invention,
FIG. 8 is a sectional view of one part of the display device of the present invention, and FIG.
FIG. 10 is an external view of another component of the display device of the present invention, FIG. 10 is a cross-sectional view of another component 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. is there. 1 ... Upper cabinet, 2 ... Lower cabinet, 3 ...
LCD panel, 4 ... X-scan side FPC, 5 ... Y-scan side FPC,
6 ... fixed substrate, 7 ... cushion, 8 ... transparent plate, 9
... Diffusion plate, 10 ... Relay FPC, 11 ... Polarizing filter, 12 ... Drive circuit IC, 13 ... TFT board, 14 ... Counter electrode board, 1a ... Display frame, 1b ... Stepped wall , 1c ... elastic locking piece, 1d ... notch, 2a ... translucent window frame, 2b ... locking hole, 2c ... notch, 6a ... notch, 8a ... convex , 8b: Panel storage section, 8c: Image protection section.

Claims (1)

(57) [Claims] 1. A liquid crystal display device in which a transparent plate is disposed on a display side of a liquid crystal panel, wherein the transparent plate has a recess formed facing an image display region of the liquid crystal panel, and the image display region has a concave portion. A liquid crystal display device comprising an integrated transparent plate having a panel storage portion formed therein for fixing a periphery of the liquid crystal panel in contact with a surface opposed to a peripheral image non-display area.