JP2003344868A - Liquid crystal display panel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid crystal display panel which enhances display quality such as contrast by reducing the influence of a voltage drop due to the shortening between a dummy wiring and an adjacent display electrode. <P>SOLUTION: The part of the dummy wiring 11 adjacent to the display electrode is formed as small piece parts 18 having area ≤0.04 mm<SP>2</SP>. <P>COPYRIGHT: (C)2004,JPO

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display panel, and more particularly to a liquid crystal display panel for maintaining a cell gap uniformly on a non-display area of two transparent substrates. The present invention relates to a liquid crystal display panel on which dummy wirings are formed. 2. Description of the Related Art FIG. 4 is a cross-sectional view showing the structure of a liquid crystal display panel which has been conventionally employed. This liquid crystal display panel 1 has two transparent substrates 2 and 3 made of glass or the like. The two transparent substrates 2 and 3 are attached to each other with a predetermined gap above and below by a frame-shaped seal 4, and are placed in a space surrounded by the transparent substrates 2 and 3 and the seal 4. Has a liquid crystal 5 sealed therein. [0003] A pair of striped transparent electrodes 6 and 7 made of ITO (indium tin oxide) or the like are formed on both inner surfaces of the transparent substrates 2 and 3 facing each other. Of the two transparent substrates 2 and 3, one transparent substrate 3 is formed so as to have a larger planar dimension than the other transparent substrate 2, and this large formed portion is provided with a terminal portion 7c of the transparent electrode 7.
Are formed. Although not shown, a liquid crystal driving IC for applying a liquid crystal driving voltage to the liquid crystal 5 via the transparent electrodes 6 and 7 is connected to the terminal portion 7c. An alignment film 8 which has been subjected to a predetermined rubbing treatment is formed on the surfaces of the transparent electrodes 6 and 7, and the initial alignment of liquid crystal molecules is regulated by the alignment film 8. I have. In such a liquid crystal display panel 1, it is generally necessary to maintain a uniform gap between the transparent substrates 2 and 3, ie, a cell gap, in order to perform a good liquid crystal display. I have. Therefore, conventionally, in the liquid crystal display panel 1 shown in FIG. 5 and FIG.
Is formed on the non-display area 10 in FIG. 1 to form a dummy wiring 11 for maintaining a uniform cell gap. That is, as shown in FIGS. 5 and 6,
A fixed area at the center on the inner surfaces of the transparent substrates 2 and 3 is a display area 9 for performing liquid crystal display, and the outside of the display area 9 is a non-display area 10. On the display area 9, there are formed strip-shaped display electrodes 6a, 7a which are arranged with a predetermined gap therebetween, and a part 6b, 7b of the display electrodes 6a, 7a is a non-display area. It has been extended to 10. Note that one pixel of the dot matrix is formed by the intersection of the display electrode 7a in FIG. 5 and the display electrode 6a in FIG. Non-display area 1 on transparent substrates 2 and 3
A wiring line 12 connected to the display electrodes 6a and 7a is formed on 0, and a liquid crystal drive voltage can be applied to the display electrodes 6a and 7a by the wiring line 12. On the non-display area 10, a strip-shaped dummy wiring 1 like the display electrodes 6a and 7a is formed.
1 is formed. The dummy wiring 11 is formed to have substantially the same thickness as the display electrodes 6a and 7a and the lead wiring 12, and is not connected to the display electrodes 6a and 7a and the lead wiring 12. As can be seen from FIGS. 5 and 6, both panel substrates 13 and 14 in which respective components including display electrodes 6a and 7a are formed on the inner surfaces of both transparent substrates 2 and 3, respectively.
Are overlapped with each other, the dummy wiring 11 of one of the panel substrates 13 and 14 is formed so as to face the extended portions 6b and 7b of the display electrodes 6a and 6b or the wiring 12 of the other panel substrates 13 and 14. ing. The dummy wiring 11 of each of the panel substrates 13 and 14 is formed in the same shape as the extending portions 6b and 7b of the display electrodes 6a and 7a facing the dummy wiring 11 or the leading wiring 12. As a result, a good liquid crystal display can be achieved while maintaining a uniform cell gap. However, in the conventional liquid crystal display panel 1, conductive foreign matter is interposed between the dummy wiring 11 and the display electrodes 6a, 7a adjacent to the dummy wiring 11. This may cause a short circuit between the dummy wiring 11 and the display electrodes 6a and 7a. The dummy wiring 11 and the display electrodes 6a,
The short circuit with the wiring 7a may occur even when a foreign substance is interposed between the wirings 12 connected to the electrodes 6a and 7a and the dummy wirings 11 adjacent to the wirings 12. A voltage drop occurs between the dummy wiring 11 and the display electrodes 6a and 7a in which the short circuit has occurred and the other display electrodes 6a and 7a in which the short circuit has not occurred.
This has caused a problem of display failure such as contrast failure. Further, when there are a plurality of short-circuit portions between the dummy wiring 11 and the display electrodes 6a and 7a, the display quality is further adversely affected. The inventor of the present invention has conceived that the problem of such a voltage drop due to the short circuit between the dummy wiring 11 and the display electrodes 6a and 7a is caused by the fact that the dummy wiring 11 is conventionally formed in a long strip shape. As a result of diligent research focusing on doing so, the present inventors have proposed the present invention. The present invention has been made in view of such problems, and can reduce the effect of a voltage drop caused by a short circuit between a dummy wiring and a display electrode to improve display quality such as contrast. It is an object to provide a liquid crystal display panel. In order to achieve the above object, a feature of the liquid crystal display panel according to the present invention is that a portion of the dummy wiring adjacent to the display electrode has an area of 0.04 mm.
² or less. By employing such a configuration, even when a short-circuit occurs between the small piece of the dummy wiring and the display electrode, the area of the small piece of the dummy wiring is reduced to 0.04 mm ² or less. With the formation, the resistance load on the display electrode of the dummy wiring can be reduced, so that the influence of the voltage drop due to the short circuit can be reduced. Hereinafter, an embodiment of a liquid crystal display panel according to the present invention will be described with reference to FIGS. Incidentally, the same or similar parts as those of the related art will be described using the same reference numerals. As shown in FIGS. 1 and 2, the liquid crystal display panel 17 of this embodiment has display electrodes 6a and 7a formed on the display area 9 on the inner surfaces of the transparent substrates 2 and 3, and the non-display area. This is basically the same as the related art in that the lead wiring 12 and the dummy wiring 11 connected to the display electrodes 6a and 7a are formed on the reference numeral 10. However, the present embodiment is characterized in that a portion of the dummy wiring 11 adjacent to the display electrodes 6a and 7a is formed as a small piece portion 18 having an area of 0.04 mm ² or less, which is a characteristic difference from the related art. have. As described above, if a part of the dummy wiring 11 is formed as the small piece part 18, for example, the small piece part 18 and the small piece part 1 are formed.
Even if a short circuit occurs between the display electrodes 6a and 7a adjacent to the display electrode 8, since the resistance load by the small piece portion 18 is reduced, it is possible to reduce the voltage drop of the display electrodes 6a and 7a due to the short circuit. Become. In FIG. 1, the small piece portion 18 is formed in a substantially square shape in a plane, but the invention is not limited to this.
For example, it may be formed in a circular shape. Further, in this embodiment, as shown in FIG. 2, a dummy wiring adjacent to the display electrodes 6a, 7a on the display area 9 may be formed by a plurality of small pieces 18. Next, the operation of the present embodiment will be described. In order to perform a liquid crystal display by the liquid crystal display panel 17 in this embodiment, the display electrodes 6a, 7a are connected by a liquid crystal driving IC connected to the terminal 7c of the transparent electrode 7.
The liquid crystal driving voltage is selectively applied to the liquid crystal 5 during the period. At this time, if there is a conductive foreign substance between the display electrodes 6a, 7a and the dummy wiring 11 adjacent to the display electrodes 6a, 7a, the display electrodes 6a, 7a are connected via the foreign substance. A short circuit occurs with the dummy wiring 11. However, in the present embodiment, the small piece portion 18 is formed in the portion of the dummy wiring 11 adjacent to the display electrodes 6a and 7a, and the resistance load is reduced by the other dummy wiring 1
It is greatly reduced compared to the part of 1. As a result, the effect of the voltage drop due to the short circuit can be reduced to a level at which there is no practical problem. As a result, a liquid crystal driving voltage can be uniformly applied to the liquid crystal 5 between the display electrodes 6a and 7a, so that high-quality liquid crystal display with reduced display defects such as contrast defects can be performed. Can be. Therefore, according to the present embodiment, since the small piece 18 is formed in a part of the dummy wiring 11, even if a short circuit occurs between the dummy wiring 11 and the display electrodes 6a, 7a. In addition, the resistance load due to the dummy wiring 11 can be reduced, and the voltage drop of the display electrodes 6a and 7a can be reduced. The present invention is not limited to the above-described embodiment, but can be variously modified as needed. For example, in the above embodiment, the display electrodes 6a, 7a on the display area 9 are adjacent to the display electrodes 6a, 7a.
Although the small piece portion 18 is formed only in the dummy wiring 11 opposed to 6b and 7b in which the extension 7a is provided, the invention is not limited to this. For example, as shown in FIG.
The small piece portion 18 may be formed in a portion of the dummy wiring 11 facing the second and adjacent to the display electrode 7a. In this case, even if a short circuit occurs between the display electrode 7a and the dummy wiring 11 due to the presence of a foreign substance between the display electrode 7a and the dummy wiring 11 adjacent thereto, the dummy wiring 11 can reduce the resistance load. Thus, similarly to the above-described embodiment, the effect of the voltage drop due to the short-circuit of the dummy wiring 11 can be reduced. As described above, according to the liquid crystal display panel of the first aspect of the present invention, since the effect of the voltage drop due to the short circuit between the dummy wiring and the display electrode can be reduced, the contrast is reduced. Good display quality can be obtained by reducing display defects such as defects, and thus reliability can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic plan view showing a panel substrate on a common electrode side in an embodiment of a liquid crystal display panel according to the present invention. FIG. 2 is an embodiment of a liquid crystal display panel according to the present invention. FIG. 3 is a schematic plan view showing a panel substrate on the segment electrode side. FIG. 3 is a schematic plan view showing an aspect of the panel substrate on the common electrode side different from FIG. 1 in the embodiment of the liquid crystal display panel according to the present invention. FIG. 5 is a schematic cross-sectional view showing an example of a conventionally used liquid crystal display panel. FIG. 5 is a schematic plan view showing one panel substrate of an example of a conventionally used liquid crystal display panel. Schematic plan view showing the other panel substrate in an example of the adopted liquid crystal display panel [Description of References] 2, 3 Transparent Substrates 5 Liquid Crystal 9 Display Forming Area 10 Non-Display Area 11 Dummy Wiring 2 lead wirings 17 liquid crystal display panel 18 nub

   ────────────────────────────────────────────────── ─── Continuation of front page    F-term (reference) 2H092 GA05 GA13 GA33 GA61 HA04                       NA16 NA25 NA27 NA29 PA03                       PA04 QA10                 5C094 AA06 AA53 BA01 BA43 CA19                       EA01 EA05 FA01 HA08 JA07

Claims (1)

Claims 1. A transparent electrode is provided on both inner surfaces of two transparent substrates bonded to each other with a predetermined gap through a seal, and the display electrode is provided on a display area. On the non-display area outside of the display area, a routing wiring connected to the display electrode and a dummy wiring for uniformly holding a cell gap are formed, and the transparent substrate and the transparent substrate are formed. In a liquid crystal display panel in which liquid crystal is sealed in a space surrounded by a seal, a portion of the dummy wiring adjacent to the display electrode has an area of 0.1 mm.
A liquid crystal display panel formed as a small piece of not more than 04 mm ² .