JP4861548B2 - Flexible circuit board mounting structure of liquid crystal display panel - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a flexible circuit board mounting structure for a liquid crystal display panel, and in particular, a flexible circuit for a liquid crystal display panel suitable for chip-on-glass (COG) mounting in which a liquid crystal driving driver IC is directly mounted on the liquid crystal display panel. The present invention relates to a substrate mounting structure.
[0002]
[Prior art]
Conventionally, a liquid crystal display device is known as a kind of display device that displays various images such as characters and figures, and a liquid crystal is sealed between a pair of transparent substrates as a display unit of such a liquid crystal display device. A liquid crystal display panel is used.
[0003]
3 and 4 show the main part of a conventional liquid crystal display panel mounted with COG. In the conventional liquid crystal display panel 1, for example, a pair of substrates 2 made of glass or the like are arranged facing each other. A transparent electrode 3 made of indium tin oxide (hereinafter referred to as ITO) is laminated on the surfaces of the substrates 2 facing each other. Further, on the surface of the substrate 2 on which the transparent electrode 3 is formed, a polymer material such as polyimide whose surface is rubbed in order to arrange liquid crystal molecules in a certain form between the transparent electrodes 3 facing each other. An alignment film (not shown) made of is laminated. The two substrates 2 subjected to such an alignment treatment are held at a distance of about several μm by a spacer (not shown). Further, the two substrates 2 are bonded together by a sealing material 4 that also serves as an adhesive, and liquid crystal is injected from an injection port (not shown) provided in advance, and then the injection port is sealed, whereby two sheets are sealed. A liquid crystal is sealed between the substrates 2.
[0004]
In addition, in the electrode terminal structure of the conventional liquid crystal display panel 1 mounted with COG, for example, one of the pair of substrates 2 formed by injecting and sealing a liquid crystal between the pair of substrates 2 is shown below in FIG. The substrate 2 is formed larger than the other substrate 2 shown in the upper part of FIG. 3, and the surface of the projecting portion of the one substrate 2 formed on the other substrate 2 side is the electrode terminal forming portion 2a. It is said that. A liquid crystal driving driver IC (driving circuit) 5 is mounted on the electrode terminal forming portion 2 a, and the output-side IC electrode 5 a of the liquid crystal driving driver IC 5 is a display electrode located in the liquid crystal display portion 6. Are electrically connected to a number of output wirings 7 in a predetermined pattern drawn from the transparent electrode 3. The input electrode IC 5b on the input side (left side in FIG. 3) of the liquid crystal drive driver IC 5 is provided with a large number of input wirings 8 in a predetermined pattern and external connection terminals 9 connected to the input wirings 8. The IC electrode terminal 5 b on the input side of the IC 5 is electrically connected to the input wiring 8.
[0005]
A panel electrode terminal 10 is formed by the output wiring 7, the input wiring 8 and the external connection terminal 9.
[0006]
When these panel electrode terminals 10 form the transparent electrode 3 by patterning the ITO film formed on the substrate 2, the ITO film located on the electrode terminal forming portion 2 a of the substrate 2 is formed into the shape of the panel electrode terminal 10. It is formed by patterning. That is, the panel electrode terminal 10 is provided simultaneously with the formation of the transparent electrode 3 by an ITO film having the same thickness as the transparent electrode 3. In addition, as the panel electrode terminal 10, there also exists a structure which arrange | positions a bus wiring and a power supply wiring in the electrode terminal formation part 2a.
[0007]
And the connection terminal 11a of the flexible circuit board 11 is connected to the external connection terminal 9 via the joining member 12, such as an anisotropic conductive film. The signal and power sent from the flexible circuit board 11 are input to the liquid crystal driving driver IC 5 through the input wiring 8, and the signal from the liquid crystal driving driver IC 5 is input to the liquid crystal display unit 6 through the input wiring 7. By sending it, a desired image can be displayed.
[0008]
Further, at least the connection part between the panel electrode terminal 10 and the IC electrode terminals 5a and 5b is molded by the silicone resin 13 as shown in FIG. 3, and has a flexible structure against the contraction force acting on the joint. To ensure stability. The silicone resin 13 is formed in a liquid state having fluidity in an uncured state, and is cured (solidified) by heating after application. The silicone resin 13 is applied to cover the liquid crystal driving driver IC 5 in order to fix and protect the liquid crystal driving driver IC 5.
[0009]
[Problems to be solved by the invention]
However, in the conventional liquid crystal display panel 1 described above, since the viscosity of the silicone resin 13 is low and the fluidity is high, the silicone resin 13 is connected to the external connection terminals 9 and the connection terminals 11a of the flexible circuit board 11 as shown in FIG. It will be in the state which also contacted the connection part. The silicone resin 13 contains a low molecular weight silicone oil having a low degree of polymerization, such as a monomer or oligomer, even after curing, and this silicone oil has the property of penetrating into a slight gap. Silicone oil from the silicone resin 13 that is in contact with the connection site between the external connection terminal 9 and the connection terminal 11a, the interface between the external connection terminal 9 and the bonding member 12, and the interface between the bonding member 12 and the connection terminal 11a As a result, the bonding strength (peeling strength) between the external connection terminal 9 and the connection terminal 11a via the bonding member 12 decreases with the lapse of time, and there is a problem that the bonding site is peeled off.
[0010]
Therefore, there is a demand for a flexible circuit board mounting structure for a liquid crystal display panel that can maintain the bonding strength between the panel electrode terminals and the connection terminals of the flexible circuit board for a long period of time.
[0011]
The present invention has been made in view of these points, and provides a flexible circuit board mounting structure for a liquid crystal display panel capable of maintaining the bonding strength between a panel electrode terminal and a connection terminal of a flexible circuit board over a long period of time. The purpose is to do.
[0012]
[Means for Solving the Problems]
In order to achieve the above-mentioned object, the flexible circuit board mounting structure of the liquid crystal display panel according to the first aspect of the present invention is characterized in that the liquid crystal driving driver IC is connected to the panel electrode terminal of a predetermined pattern formed on the substrate of the liquid crystal display panel. An electrode terminal is electrically connected, and a connection terminal of a flexible circuit board is electrically connected to a panel electrode terminal located on an input side of the liquid crystal driving driver IC among the panel electrode terminals, and at least the panel electrode In a flexible circuit board mounting structure of a liquid crystal display panel formed by molding a connection part between a terminal and the IC electrode terminal with a silicone resin, the connection part between the panel electrode terminal and the connection terminal is in contact with the silicone resin. A dam is provided to prevent the dam from contacting the connection terminal to the panel electrode terminal. After, after the panel electrode terminal and is formed to cover so as to surround the flexible circuit board at the periphery of the connection portion between the connection terminal, the mold according to the silicone resin, the formation of the dam, the panel electrode The silicone resin is applied to the connection portion between the terminal and the IC electrode terminal. And by adopting such a configuration, the weir can prevent the silicone resin from coming into contact with the connection portion between the panel electrode terminal and the connection terminal. Therefore, low-molecular-weight silicone oil with a low degree of polymerization, such as monomers and oligomers contained in the silicone resin, comes into contact with the connection part between the panel electrode terminal and the connection terminal, resulting in an external connection via a joining member. Since it is possible to reliably prevent the disadvantage that the bonding strength between the terminal and the connection terminal decreases with time, the bonding strength between the panel electrode terminal and the connection terminal of the flexible circuit board can be maintained for a long period of time. it can.
[0013]
The flexible circuit board mounting structure of the liquid crystal display panel according to the second aspect of the present invention is characterized in that, in the first aspect, the weir is formed of an ultraviolet curable resin . And by adopting such a configuration, the weir can be easily formed at an arbitrary position.
[0014]
The flexible circuit board mounting structure of the liquid crystal display panel according to the third aspect of the present invention is characterized in that, in the second aspect, the ultraviolet curable resin is applied using a dispenser .
[0015]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described below with reference to embodiments shown in the drawings. In addition, the same code | symbol is attached | subjected in drawing about the structure which is the same as that of the conventional thing mentioned above, or is equivalent.
[0016]
FIG. 1 and FIG. 2 show the main part of a flexible circuit board mounting structure for a liquid crystal display panel according to the present invention. FIG. 1 is a sectional view and FIG. 2 is a plan view.
[0017]
As shown in FIGS. 1 and 2, in the flexible circuit board mounting structure 20 of the liquid crystal display panel of the present embodiment, a liquid crystal driving driver IC 5 is provided on the panel electrode terminal forming portion 2a of the substrate 2 shown in the lower part of FIG. Has been implemented. The IC electrode 5a on the output side of the driver IC 5 for driving the liquid crystal is electrically connected to a large number of output wirings 7 having a predetermined pattern drawn from the transparent electrode 3 serving as a display electrode located on the liquid crystal display unit 6. . Further, a large number of input wirings 8 having a predetermined pattern and external connection terminals 9 connected to the input wiring 8 are formed on the input side of the driver IC 5 for driving the liquid crystal, and the IC electrode terminal 5b on the input side of the driver IC 5 for driving the liquid crystal is The input wiring 8 is electrically connected.
[0018]
A panel electrode terminal 10 is formed by the output wiring 7, the input wiring 8 and the external connection terminal 9.
[0019]
A connection terminal 11a of a flexible circuit board 11 is connected to the external connection terminal 9 through a bonding member 12 such as an anisotropic conductive film. Further, a dam 21 made of an ultraviolet curable resin as a contact preventing means is formed around the connection portion between the panel electrode terminal 10 and the connection terminal 11a. In order to fix and protect the liquid crystal driving driver IC 5, it is important that the weir 13 be formed at a height that the silicone resin 13 applied so as to cover the liquid crystal driving driver IC 5 does not get over.
[0020]
A forming method is used in which the weir 21 is formed before the silicone resin 13 is applied (after the liquid crystal driving driver IC 5 and the flexible circuit board 11 are connected to the panel electrode 10).
[0021]
Further, the weir 21 of the present embodiment is coated with UV curable acrylic resin as UV curable resin to a width of about 1 mm around the connection portion between the panel electrode terminal 10 and the connection terminal 11a using a dispenser, It is formed by solidifying an ultraviolet curable acrylic resin by performing ultraviolet irradiation using a high-pressure mercury lamp.
[0022]
Since the other configuration is the same as that of the prior art, detailed description thereof is omitted.
[0023]
Next, the operation of the present embodiment having the above-described configuration will be described.
[0024]
According to the flexible circuit board mounting structure 20 of the liquid crystal display panel of the present embodiment, the weir 21 as the contact prevention means is fluid silicone when the silicone resin 13 is applied so as to cover the liquid crystal driving driver IC 5. It is possible to prevent the resin 13 from coming into contact with the connection portion between the external connection terminal 9 constituting a part of the panel electrode terminal 10 and the connection terminal 11 a of the flexible circuit board 11.
[0025]
Therefore, according to the weir 21 of the flexible circuit board mounting structure 20 of the liquid crystal display panel of the present embodiment, the low molecular weight silicone oil such as a monomer or oligomer contained in the silicone resin 13 is transferred to the panel electrode terminal 10. To reliably prevent inconvenience that the bonding strength between the external connection terminal 9 and the connection terminal 11a via the bonding member 12 caused by coming into contact with the connection portion between the connection terminal 11a and the connection terminal 11a decreases with time. Therefore, the bonding strength between the panel electrode terminal 10 and the connection terminal 11a of the flexible circuit board 11 can be easily and reliably maintained over a long period of time.
[0026]
This means that the peel strength as the joint strength of the connection portion between the panel electrode terminal 10 provided with the weir 21 of this embodiment and the connection terminal 11a is about 20% after being left at room temperature for 1000 hours with respect to the initial value. In the case where the conventional silicone resin 13 is not provided with the weir 21 in contact with the connection portion between the panel electrode terminal 10 and the connection terminal 11a, the conventional silicone resin 13 is 1000 hours at room temperature with respect to the initial value. It could be confirmed by the result of a comparative experiment that it was reduced to about 50% after being left.
[0027]
Further, the weir 21 as the contact preventing means of the present embodiment is formed of an ultraviolet curable resin. After the uncured ultraviolet curable resin is applied to a predetermined position, the ultraviolet curable resin is irradiated by irradiating ultraviolet rays. Since it can be hardened (solidified), the weir 21 can be easily formed at an arbitrary position.
[0028]
In addition, this invention is not limited to the said embodiment, A various change can be made as needed.
[0029]
As described above, according to the flexible circuit board mounting structure of the liquid crystal display panel of the present invention according to claim 1, the weir prevents the silicone resin from coming into contact with the connection portion between the panel electrode terminal and the connection terminal. It produces extremely excellent effects such as Therefore, low-molecular-weight silicone oil with a low degree of polymerization, such as monomers and oligomers contained in the silicone resin, comes into contact with the connection part between the panel electrode terminal and the connection terminal, resulting in an external connection via a joining member. Since it is possible to reliably prevent the disadvantage that the bonding strength between the terminal and the connection terminal decreases with time, the bonding strength between the panel electrode terminal and the connection terminal of the flexible circuit board can be maintained for a long period of time. It has an extremely excellent effect.
[0030]
Moreover, according to the flexible circuit board mounting structure of the liquid crystal display panel of the present invention according to claim 2, there is an extremely excellent effect that a weir can be easily formed at an arbitrary position .
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a configuration of a main part of a flexible circuit board mounting structure of a liquid crystal display panel according to the present invention. FIG. 2 shows a configuration of a main part of a flexible circuit board mounting structure of a liquid crystal display panel according to the present invention. FIG. 3 is a cross-sectional view showing a configuration of a main part of a conventional flexible circuit board mounting structure of a liquid crystal display panel. FIG. 4 is a plan view showing a configuration of a main part of a conventional flexible circuit board mounting structure of a liquid crystal display panel. [Explanation of symbols]
2 Substrate 2a Panel electrode terminal forming part 3 Transparent electrode 5 Driver IC for driving liquid crystal
6 Liquid Crystal Display Unit 10 Panel Electrode Terminal 11 Flexible Circuit Board 11a (Flexible Circuit Board) Connection Terminal 12 Joining Member 13 Silicone Resin 20 Panel Electrode Terminal Structure 21 Weir (as Contact Prevention Means)

Claims (3)

An IC electrode terminal of a liquid crystal driving driver IC is electrically connected to a panel electrode terminal of a predetermined pattern formed on the substrate of the liquid crystal display panel, and is positioned on the input side of the liquid crystal driving driver IC among the panel electrode terminals In a flexible circuit board mounting structure for a liquid crystal display panel, wherein a connection terminal of a flexible circuit board is electrically connected to a panel electrode terminal to be molded, and at least a connection portion between the panel electrode terminal and the IC electrode terminal is molded with a silicone resin ,
A weir is provided to prevent the connection part between the panel electrode terminal and the connection terminal from contacting the silicone resin,
The dam is formed so as to surround the flexible circuit board around the connection portion between the panel electrode terminal and the connection terminal after connecting the connection terminal to the panel electrode terminal,
The liquid crystal display panel flexible, wherein the silicone resin mold is formed by applying the silicone resin to a connection portion between the panel electrode terminal and the IC electrode terminal after forming the weir. Circuit board mounting structure.   The flexible circuit board mounting structure for a liquid crystal display panel according to claim 1, wherein the weir is formed of an ultraviolet curable resin.   The flexible circuit board mounting structure for a liquid crystal display panel according to claim 2, wherein the ultraviolet curable resin is applied using a dispenser.

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