JP4113723B2 - Liquid crystal display - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid crystal display device in which the reliability of connection between a liquid crystal display panel electrically connected via a flexible wiring substrate for connection and a wiring substrate for liquid crystal display panel is improved.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a liquid crystal display device is known as a type of display device that displays various images such as characters and figures, and a liquid crystal in which liquid crystal is sealed between two substrates as a display unit of such a liquid crystal display device. A display panel is used.
[0003]
Such a liquid crystal display device supplies electric signals to the liquid crystal display panel, so that liquid crystal displays such as a liquid crystal display panel and a bus substrate are connected via a flexible wiring substrate for connection such as TCP (Tape Carrier Package). The panel wiring board is electrically connected.
[0004]
The substrate of the liquid crystal display panel is generally made of transparent glass or resin.
[0005]
Moreover, the wiring substrate for a liquid crystal display panel is generally an electronic component on a printed wiring board in which a circuit pattern such as a copper foil is formed on one side or both sides of an insulating substrate made of an insulating resin laminate such as glass or epoxy resin. A multilayer printed wiring board in which a single-layer printed wiring board on which a circuit pattern such as a copper foil is formed is made as thin as possible to provide a flexible wiring board, and a large number of them are stacked and bonded together A configuration in which an electronic component is attached to is used.
[0006]
Conventionally, the ground and power supply lines formed on each layer of the wiring board constituting the liquid crystal display panel wiring board are formed as a solid pattern of copper foil or the like. In general, the circuit connection between the layers of the multilayer printed wiring board is performed by a through-hole plating method. Further, on the surface of the connection portion with the flexible wiring board for connection which is an external wiring of the multilayer printed wiring board, An electrode terminal group including a plurality of electrode terminals connected to a circuit of a layer used for connection is provided. The one side of the substrate of the liquid crystal display panel and the wiring substrate for the liquid crystal display panel are arranged substantially in parallel, and the electrode terminal group formed on the non-display portion of the substrate of the liquid crystal display panel and the wiring substrate for the liquid crystal display panel An electrical signal is supplied to the liquid crystal display panel by electrically connecting the electrode terminal group formed at the connection site with the electrode terminal group formed on the flexible wiring board for connection. Have been able to. For electrical connection of the flexible wiring board for connection, conductive particles are mixed in solder, a bonding agent called an anisotropic conductive film formed of conductive particles and an adhesive, and an ultraviolet curable resin. It is selected and used according to the needs of the design concept from various types such as bonding agents.
[0007]
[Problems to be solved by the invention]
By the way, in the above-described conventional liquid crystal display device, a substrate formed of glass of a liquid crystal display panel, and a wiring substrate for a liquid crystal display panel composed of, for example, a printed wiring board formed of glass / epoxy resin described above, There is a difference in linear expansion coefficient. For example, when the thermal expansion coefficient of glass is 8 ppm / ° C. and the thermal expansion coefficient of the printed wiring board is 13 ppm / ° C., the wiring substrate for a liquid crystal display panel is heated along the longer direction than the substrate of the liquid crystal display panel. When the liquid crystal display panel expands and contracts greatly, stress is applied to the connection portion between the liquid crystal display panel and the wiring substrate for the liquid crystal display panel, more specifically, the connection portion between the wiring substrate for the liquid crystal display panel and the flexible wiring substrate for connection. There is a problem that the reliability of connection between the panel and the wiring substrate for the liquid crystal display panel is lowered.
[0008]
Also, the circuit pattern formed on the wiring board constituting the liquid crystal display panel wiring board has a high coefficient of thermal expansion, and the ground lines and power supply lines are often solid patterns. It was easy to emphasize the expansion and contraction.
[0009]
In particular, in the connection portions at both ends in the longitudinal direction of the wiring substrate for liquid crystal display panels, stress acts on the connecting flexible wiring substrate during thermal contraction, and the copper foil pattern in the connecting flexible wiring substrate is cracked. As a result of the inventor's research, it has been clarified that the wire is disconnected. Furthermore, the problem of the disconnection is that, particularly, the total area of the connection portion with the flexible wiring substrate for connection formed on the surface of the wiring substrate for liquid crystal display panel is the surface area of the wiring substrate for liquid crystal display panel. It was prominent when it was 50% or less of the total area.
[0010]
The present invention has been made in view of this point, and an object thereof is to provide a liquid crystal display device capable of improving the reliability of connection between a liquid crystal display panel and a liquid crystal display panel wiring board.
[0011]
[Means for Solving the Problems]
In order to achieve the above-described object, the liquid crystal display device according to claim 1 of the present invention is characterized in that a plurality of connection parts used for connection with a flexible wiring substrate for connection are long in the wiring substrate for a liquid crystal display panel. An extension part that can be extended and contracted in the longitudinal direction is formed in at least one of the connection parts, and the extension part constitutes the liquid crystal display panel wiring board. The wiring board is formed from one layer of the wiring board to be bent and is bent between the connection parts .
[0012]
And by employ | adopting such a structure, the expansion-contraction of the wiring board for liquid crystal display panels can fully be buffered by the said expansion-contraction part .
[0013]
The liquid crystal display device according to claim 2 is characterized in that, in the liquid crystal display device according to claim 1, a power supply pattern formed on an inner wiring board among wiring boards constituting the liquid crystal display panel wiring board, and At least one of the ground patterns is formed in a mesh pattern .
[0014]
By adopting such a configuration, the area of the heated power supply pattern and / or the ground pattern can be reduced, and the hole portion of the mesh of the power supply pattern or ground pattern in which the heat is meshed. In this case, the expansion / contraction due to heating of the wiring substrate for a liquid crystal display panel can be reduced .
[0015]
Furthermore, the liquid crystal display device according to claim 3 is characterized in that, in the liquid crystal display device according to claim 1, the state in which the expansion and contraction portion is bent is bellows-like .
[0016]
And by employ | adopting such a structure, between the connection parts 5 of the wiring board for liquid crystal display panels can be expanded-contracted.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter will be described the implementation mode according to the present invention in FIGS.
[0018]
1, the liquid crystal display device of the implementation form of the invention, the connection flexible wiring board 3 of the liquid crystal display panel wiring board 1 is a liquid crystal display panel 2 and a plurality (three in this embodiment) It is electrically connected via.
[0019]
As the liquid crystal display panel 2, a conventionally known liquid crystal display in which liquid crystal is sealed between two substrates 4 formed of transparent glass or the like is used. Further, on both sides of one substrate 4 positioned on the downstream side in the viewing direction of the liquid crystal display panel 2, electrode terminal groups (not shown) used for electrical connection with the connection flexible wiring substrate 3 are spaced apart. Formed. In addition, as a liquid crystal display panel 2, conventionally well-known various things can be used. The liquid crystal display panel wiring substrate 1 is for supplying an electric signal or the like to the liquid crystal display panel 2, and the liquid crystal display panel wiring substrate 1 of the present embodiment can be used as a bus substrate. On the surface of the wiring substrate 1 for the liquid crystal display panel, as shown in FIG. 1, a plurality (three in the present embodiment) of connection parts 5 used for connection with the flexible wiring substrate 3 for connection are provided in the longitudinal direction. Are formed at predetermined intervals.
[0020]
The liquid crystal display panel wiring board 1 includes a flexible multilayer wiring board 6 having flexibility and disposed over the entire lengthwise direction.
[0021]
In these flexible wiring boards 6, a copper foil circuit pattern 8 is formed on one surface of a thin insulating substrate 7 made of an insulating resin film such as a polyimide film. 2, the upper and lower outer layers and the four inner layers of the flexible wiring board 6 constituting the liquid crystal display panel wiring board 1 are denoted by reference signs A to F from the upper flexible wiring board 6. Is shown. In this embodiment, the ground pattern 9 of the multilayer flexible wiring boards 6 (A), 6 (B)... Is formed in a mesh shape having a plurality of holes 10 formed therein. The flexible wiring boards 6 (A), 6 (B)... Of each layer are electrically connected by via holes (through holes). In addition, a plurality of electrode terminals 12 serving as an electrode terminal group used for connection to the connection flexible wiring board 3 are provided at the connection portion 5 on the surface of the flexible wiring board 6 (A) located in the uppermost outer layer. Is formed.
[0022]
The flexible wiring board 3 for connection of this embodiment is for electrically connecting the electrode terminal group of the liquid crystal display panel 2 and the plurality of electrode terminals 12 forming the electrode terminal group of the wiring board 1 for the liquid crystal display panel. In this embodiment, TCP is used.
[0023]
Next, the operation of the liquid crystal display panel wiring board of the present embodiment having the above-described configuration will be described.
[0024]
According to the liquid crystal display panel wiring substrate 1 of the present embodiment, the holes 10 of the ground pattern 9 formed in a mesh pattern on the flexible wiring boards 6 (A), 6 (B),. It works to reduce the expansion and contraction in the longitudinal direction of the liquid crystal display panel wiring board 1 due to a change in temperature. That is, in the liquid crystal display panel wiring board 1, heat that can expand and contract the liquid crystal display panel wiring board 1 in the longitudinal direction can be released through the holes 10 of the ground pattern 9 in a mesh shape. In addition, by forming the ground pattern 9 in a mesh shape, it is possible to reduce the area of the ground pattern 9 as compared to the conventional solid arrangement, so that the thermal expansion / extension of the pattern itself formed of the copper foil can be reduced. Therefore, expansion / contraction due to heating of the liquid crystal display panel wiring board 1 can be reduced. When the expansion / contraction of the liquid crystal display panel wiring board 1 can be reduced, the panel side connection part, which is the connection part between the substrate 4 of the liquid crystal display panel 2 and the flexible wiring board 3 for connection, and the liquid crystal display It is possible to always keep the relative positions of the wiring board side connection part, which is the connection part between the panel wiring board 1 and the connection flexible wiring board 3, regardless of the change in the environmental temperature.
[0025]
Therefore, according to the liquid crystal display device of the present embodiment, the connection portion between the liquid crystal display panel 2 and the liquid crystal display panel wiring substrate 1, more specifically, the connection between the liquid crystal display panel wiring substrate 1 and the connection flexible wiring substrate 3. Since it is possible to easily and reliably prevent stress from being applied to the site, the reliability of connection between the liquid crystal display panel 2 and the liquid crystal display panel wiring board 1 can be improved.
[0026]
And if it is the liquid crystal display device of this embodiment which has such an effect, the formation number of the connection site | part with the said flexible wiring board for connection formed in the surface of the said wiring board for liquid crystal display panels will be reduced, for example. Even if the total area is small, the reliability of the connection between the liquid crystal display panel 2 and the liquid crystal display panel wiring board 1 can be improved. It is also possible to realize downsizing.
[0027]
In the present embodiment, only the ground pattern 9 of the multilayer flexible wiring boards 6 (A), 6 (B), etc. constituting the wiring substrate 1 for a liquid crystal display panel is formed in a mesh pattern. As described above, the pattern may be formed in a mesh shape, not the ground pattern 9 but a power supply pattern, or both patterns may be formed in a mesh shape.
[0028]
Furthermore, the mesh pattern is not limited to the pattern in which the holes 10 are arranged as described above, and may be, for example, a lattice pattern. By forming a pattern in a mesh shape in this way, for example, it becomes possible to absorb and stop the disconnection on the pattern by the mesh portion of the mesh-like pattern, and ensure energization in other portions where the disconnection does not occur The merit that it becomes possible also arises.
[0029]
Furthermore, in the present embodiment, the ground pattern 9 of the outer flexible wiring boards 6 (A) and 6 (F) constituting the liquid crystal display panel wiring board 1 is also formed in a mesh pattern. According to the present invention, if either the ground pattern 9 or the power supply pattern of the inner-layer flexible wiring boards 6 (B) to 6 (E) is patterned in a mesh shape, the effect can be obtained.
[0030]
Further, in the liquid crystal display device of the present invention, the liquid crystal display panel wiring board 1 includes a plurality of connection parts used for connection with the connection flexible wiring board formed along the longitudinal direction thereof. at least one portion in, extendable telescopic part along the longitudinal direction is formed, Ru der those partitioning with the structure of the substrate.
[0031]
The wiring substrate 1 for a liquid crystal display panel will be briefly described. As shown in FIGS. 3 and 4, a single-layer (one-layer) flexible wiring board having flexibility disposed over the entire area in the longitudinal direction. 6. At least one place (two places in FIG. 3) in the middle portion in the longitudinal direction of the flexible wiring board 6 is disposed avoiding the connection part 5 with the flexible wiring board 3 for connection, and the wiring for the liquid crystal display panel The expansion / contraction part 13 absorbs expansion / contraction of the substrate 1. Then, short flexible wiring boards with different circuit patterns are laminated and formed on both the upper and lower surfaces of the flexible wiring board 6 other than the expansion / contraction part 13 (two layers in FIG. 4). Each layer is electrically connected by a via hole (through hole).
[0032]
These flexible wiring boards 6 have a copper foil circuit pattern 8 formed on one surface of a thin insulating substrate 7 made of an insulating resin film such as a polyimide film, and the flexible wiring boards constituting each layer. 6 ground patterns 9 and / or power supply patterns are formed in a mesh shape, and the surface of the flexible wiring board 6 located in the uppermost layer of the connection part 5 is used for connection to the flexible wiring board 3 for connection. a plurality of electrode terminals 12 made of an electrode terminal group is that that is formed.
[0033]
The liquid crystal display panel wiring substrate 1 is attached to the substrate of the liquid crystal display panel 2 via the connection flexible wiring substrate 3 in a state where the expansion and contraction portion 13 is bent between the connection portions 5.
[0034]
In addition, as the said expansion-contraction part 13, it is good also as a structure which can be expanded-contracted between the connection parts 5, for example, a bellows shape. The amount by which the flexible wiring board 6 for constituting the expansion / contraction part 13 is bent is the linear expansion of both the material of the substrate 4 of the liquid crystal display panel 2 and the material of the insulating substrate 7 of the wiring substrate 1 for the liquid crystal display panel. It can be set from the rate.
[0035]
In the liquid crystal display panel wiring substrate 1 having such a configuration, the expansion / contraction portion 13 of the liquid crystal display panel wiring substrate 1 includes a substrate 4 formed of glass or the like of the liquid crystal display panel 2 and a liquid crystal display panel wiring substrate. It acts to absorb and buffer the difference in expansion and contraction due to the change in environmental temperature caused by the difference in linear expansion coefficient with the insulating substrate 7 formed of one resin. The holes 10 of the ground pattern 9 formed in a mesh pattern in each layer act so as to reduce the expansion and contraction in the longitudinal direction of the liquid crystal display panel wiring board 1 due to a change in environmental temperature.
[0036]
That is, also in the liquid crystal display panel wiring board 1 of the present embodiment, heat that can expand and contract the liquid crystal display panel wiring board 1 in the longitudinal direction is released through the holes 10 of the mesh-shaped ground pattern 9. it can. In addition, by forming the ground pattern 9 in a mesh shape, it is possible to reduce the area of the ground pattern 9 as compared to the conventional solid arrangement, so that the thermal expansion / extension of the pattern itself formed of the copper foil can be reduced. Therefore, expansion / contraction due to heating of the liquid crystal display panel wiring board 1 can be reduced. Further, in the present embodiment, the expansion / contraction part 13 expands / contracts due to a change in the environmental temperature, so that a panel side connection part that is a connection part between the substrate 4 of the liquid crystal display panel 2 and the flexible wiring board 3 for connection, It is possible to always keep the relative positions of the wiring board-side connecting part, which is the connecting part of the liquid crystal display panel wiring board 1 and the connecting flexible wiring board 3, regardless of changes in the environmental temperature. Become.
[0037]
Therefore, according to the liquid crystal display device of the present embodiment, the connection portion between the liquid crystal display panel 2 and the liquid crystal display panel wiring substrate 1, more specifically, the connection between the liquid crystal display panel wiring substrate 1 and the connection flexible wiring substrate 3. Since it is possible to easily and reliably prevent stress from being applied to the site, the reliability of connection between the liquid crystal display panel 2 and the liquid crystal display panel wiring board 1 can be improved.
[0038]
Furthermore, in the liquid crystal display device of the present invention, the liquid crystal display panel wiring board 1 is formed by connecting a plurality of connection parts used for connection with the connecting flexible wiring board formed along the longitudinal direction thereof. of between, but it may also be of a configuration in which a slit is formed in at least one location (two locations in FIG. 5) (reference embodiment).
[0039]
The liquid crystal display panel wiring board 1 will be briefly described. As shown in FIG. 5, the liquid crystal display panel wiring board at the time of connection is disposed on the side of the liquid crystal display panel wiring board 1 close to the connection portion 5. The slit 14 for buffering the expansion-contraction change by 1 thermal stress is formed.
[0040]
The slit 14 has a notch depth equal to or larger than the dimension from the side of the liquid crystal display panel wiring board 1 where the slit is formed (hereinafter referred to as slit forming side) to the anti-slit forming side of the connection portion 5. In addition, the liquid crystal display panel wiring substrate 1 is formed in a substantially rectangular shape having a width dimension capable of buffering shrinkage due to thermal stress.
[0041]
Other configurations of the liquid crystal display panel wiring substrate 1 in the reference embodiment are the same as those of the liquid crystal display panel wiring substrate 1 of the above embodiment , and a detailed description thereof is omitted.
[0042]
That is, in the reference form , the liquid crystal display panel wiring board 1 is formed by laminating a plurality of flexible wiring boards 6, and these flexible wiring boards 6 are thin films made of an insulating resin film such as a polyimide film. A copper foil circuit pattern 8 is formed on one surface of the insulating substrate 7. In addition, the ground pattern 9 and / or the power supply pattern of the flexible wiring board 6 constituting each layer is formed in a mesh shape, and the surface of the flexible wiring board 6 positioned at the uppermost layer of the connection site 5 has a flexible connection. a plurality of electrode terminals 12 made of an electrode terminal group used in the connection between the wiring board 3 is that has been formed.
[0043]
In the liquid crystal display device having such a configuration, the depth of the slit 14 of the liquid crystal display panel wiring substrate 1 is ensured, so that the liquid crystal display panel that needs to be aligned at the connection portion 5 of the liquid crystal display panel wiring substrate 1. The expansion / contraction direction of the wiring substrate 1 for a liquid crystal display panel can be completely divided, and the width dimension of the slit 14 is ensured, so that the expansion / contraction at the time of heating of the wiring substrate 1 for a liquid crystal display panel divided by the slit is sufficiently performed. Further, the holes 10 of the ground pattern 9 formed in a mesh pattern on each layer reduce the expansion and contraction in the longitudinal direction of the wiring substrate 1 for the liquid crystal display panel due to a change in environmental temperature. Act on.
[0044]
That is, also in the liquid crystal display device according to the reference embodiment , heat that can expand and contract the liquid crystal display panel wiring board 1 in the longitudinal direction can be released through the holes 10 of the ground pattern 9 in a mesh shape. In addition, by forming the ground pattern 9 in a mesh shape, it is possible to reduce the area of the ground pattern 9 as compared to the conventional solid arrangement, so that the thermal expansion / extension of the pattern itself formed of the copper foil can be reduced. Therefore, expansion / contraction due to heating of the liquid crystal display panel wiring board 1 can be reduced. Furthermore, in the reference embodiment , by securing the width dimension of the slit, the expansion and contraction during the thermocompression bonding of the wiring substrate 1 for the liquid crystal display panel divided by the slit can be sufficiently buffered. Panel-side connection part, which is a connection part between the second substrate 4 and the connection flexible wiring board 3, and a wiring board-side connection part, which is a connection part between the liquid crystal display panel wiring board 1 and the connection flexible wiring board 3. It is possible to keep the relative position of both of them constant regardless of changes in the environmental temperature.
[0045]
Therefore, according to the liquid crystal display device of the reference embodiment , the connection portion between the liquid crystal display panel 2 and the wiring substrate 1 for the liquid crystal display panel, more specifically, the connection portion between the wiring substrate 1 for the liquid crystal display panel and the flexible wiring substrate 3 for connection. Since stress can be easily and reliably prevented from being applied to the liquid crystal display panel, the reliability of the connection between the liquid crystal display panel 2 and the liquid crystal display panel wiring board 1 can be improved.
[0046]
In addition, this invention is not limited to the said embodiment, A various change can be made as needed.
[0047]
【The invention's effect】
As described above, according to the liquid crystal display device of the present invention, the connection reliability between the liquid crystal display panel and the liquid crystal display panel wiring board can be improved, and the liquid crystal display device can be downsized. It produces extremely excellent effects.
[Brief description of the drawings]
A liquid crystal display panel wiring substrate used in a liquid crystal display device of an embodiment of a plan view showing an essential part of the overall structure [2] The present invention of a liquid crystal display device according to the implementation embodiments of the present invention; FIG enlarged explanatory view showing an example of the configuration of each layer of the flexible wiring board 3 shows the embodiment of the present plan view showing an essential part of the overall configuration of a liquid crystal display device according to the implementation embodiments of the invention the present invention; FIG configuration of a liquid crystal display device according to the 4-4 cross-sectional view and FIG. 5 reference embodiment of Figure 3 showing the arrangement of the telescopic portion of the wiring board for a liquid crystal display panel used in the liquid crystal display device, a liquid crystal used for the liquid crystal display device Plan view showing the main parts of the display panel wiring board

Claims (3)

In a liquid crystal display device in which a liquid crystal display panel wiring board formed by laminating a plurality of wiring boards and a liquid crystal display panel are electrically connected via a flexible wiring board for connection, the liquid crystal display panel wiring board Has a plurality of connection parts used for connection with the flexible wiring board for connection, and is extendable in the longitudinal direction at least at one of the connection parts. An expansion / contraction part is formed, and the expansion / contraction part is formed from one of the wiring boards constituting the wiring substrate for the liquid crystal display panel and is bent between the connection parts. A liquid crystal display device. The at least one of the power supply pattern and ground pattern which were formed in the wiring board of the inner layer among the wiring boards which comprise the said wiring board for liquid crystal display panels is pattern-formed by the mesh form . Liquid crystal display device. The liquid crystal display device according to claim 1, wherein a state in which the stretchable portion is bent is a bellows shape .

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