KR100246842B1 - Conductive wire for packaging of the lcd module and method for manufacturing the same - Google Patents

Abstract

PURPOSE: The present invention relates to mounting wiring of a liquid crystal display module that transmits a voltage signal of a driver integrated circuit to an electrode of a liquid crystal display and drives a liquid crystal injected between the upper and lower electrodes thereof, particularly between a conductive line and a base film. It is intended to solve the problem of cracking in the system.

Composition: A groove 12a having a predetermined pitch is formed in the base film 12, and a conductive line 14 is formed in the groove, and the conductive particles 16 are dispersed on the upper surface of the base film including the conductive line. It is characterized by the configuration formed by applying the adhesive layer 18.

Effect: The conductive line is increased in thickness by the height inserted into the groove of the base film, and the adhesive strength with the base film is increased, so that cracks are prevented even when the thermocompression wiring is bent. Therefore, the above-described mounting wiring can achieve the effect of improving reliability and lifespan.

Description

Mounting wiring of liquid crystal display module and its manufacturing method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to mounting wirings of a liquid crystal display module and a method of manufacturing the same, which transmit a voltage signal of a driver integrated circuit to an electrode of a liquid crystal display to drive a liquid crystal injected between the upper and lower electrodes.

The liquid crystal display changes the arrangement direction of liquid crystals by a voltage applied from the outside, and selectively transmits light irradiated from the backlight by using dielectric anisotropy of the liquid crystal to display letters, numbers, or other icons. It is a flat panel display element.

Such a liquid crystal display forms an ITO (Induim Tin Oxide) transparent electrode on two transparent glass substrates arranged in parallel, and laminates an alignment layer defining dielectric anisotropy of the liquid crystal on the upper side thereof. It consists of the structure which sealed, inject | poured liquid crystal between them, and sealed. In addition, a polarizing plate that linearly polarizes the light of the backlight is attached to the outer surface of the two glass substrates in order to actually obtain the effect of the display.

The liquid crystal display configured as described above is assembled and modularized with a driving circuit board having a backlight and a driver integrated circuit. In this case, a heat seal is connected between the driver integrated circuit and the liquid crystal display for mounting, and driver integration is performed. The voltage signal of the circuit is transmitted to the electrode of the liquid crystal display.

The conventionally known configuration of the above-mentioned thermocompression wiring is as follows.

In FIG. 2, the conventional thermocompression wiring uses polyester as the base film 2 and screen-prints a conductive paint to form a conductive line 4, and the metal particles 6 are formed on the conductive line 4. It consists of a structure in which the malleable hot melt adhesive layer 8 is dispersed.

In addition, in the conventional thermocompression wiring of FIG. 3, polyester is used as the base film 2, screen-printed conductive paint is formed to form a conductive line 4, and metal particles 6 are coated on the upper portion thereof. And a malleable hot melt adhesive layer 8 formed on the conductive line 4 and the metal particles 6.

In the conventional thermocompression wiring, the conductive line 4 is formed of a mixture of carbon, silver, and a binder, and has a problem that cracks are generated during bending when the conductive line 4 is higher in hardness than the base film 2. .

In order to solve the problems of the prior art described above, the present invention is to prevent the crack of the conductive line and the base film, the mounting wiring of the liquid crystal display module to improve the reliability and life of the thermocompression wiring And to provide a method for producing the same.

To this end, the present invention is a base film having a groove having a predetermined pitch, the conductive line is inserted into the groove and protrudes to the top of the base film, the conductive particles are applied to the upper surface of the base film to cover the conductive line A composition consisting of a dispersed adhesive layer is proposed.

In addition, the present invention comprises the steps of forming a groove having a predetermined pitch in the base film, forming a conductive line in the groove, and applying an adhesive layer in which conductive particles are dispersed on the upper surface of the base film including the conductive line We propose a manufacturing method consisting of a step.

Accordingly, the conductive line is increased in thickness by the height inserted into the groove of the base film, and the adhesive strength with the base film is increased, so that cracks are prevented even when the thermocompression wiring is bent.

1 is a cross-sectional view showing a thermocompression wiring for a liquid crystal display module according to the present invention.

2 is a cross-sectional view showing a thermocompression wiring for a conventionally known liquid crystal display module.

3 is a cross-sectional view showing a thermocompression wiring for a liquid crystal display module according to another embodiment of the related art.

Explanation of symbols on the main parts of the drawings

10-thermo crimp wiring 12-base film

14-conductive line 16-conductive particles

18-adhesive layer

BEST MODE Hereinafter, preferred embodiments for realizing the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram showing a thermocompression wiring for a liquid crystal display module according to the present invention.

Reference numeral 10 in the drawings shows the overall configuration of the state in which the thermocompression wiring, that is, the wiring for mounting the liquid crystal display module is cut in the longitudinal direction.

The thermocompression wiring 10 is based on the base film 12, and the conductive line 14 made of carbon, silver, and binder is formed on the base film 12 cut to have a predetermined width and length. . To this end, according to the present invention, the base film 12 is provided with a scratch to form a groove 12a having a constant pitch, and the conductive line 14 is formed along the groove 12a.

The conductive line 14 is formed not only to be inserted into the groove 12a but also to protrude upward of the base film 12. At this time, the height of the upper conductive line 14 is preferably formed at least larger than the height of the groove (12a). Therefore, the conductive line 14 of the present invention has a structure in which the thickness is increased unlike in the prior art, and the adhesive strength with the base film 12 is improved.

The flexible hot crimp wiring 10 is realized by coating and forming the malleable hot melt adhesive layer 18 having conductive particles 16 dispersed thereon on the conductive line 14.

On the other hand, as a manufacturing method for implementing the thermocompression wiring 10 of the present invention, performing a process of applying a scratch to form a groove (12a) having a predetermined pitch in the base film 12, Conducting a process of forming a conductive line 14 by printing a conductive paint made of carbon, silver, and a binder in the groove 12a, and conducting particles on the upper surface of the base film 12 including the conductive line 14. (16) can be achieved by performing a process of applying the malleable hot melt adhesive 18 dispersed therein.

The thermocompression wiring 10 of the present invention thus manufactured is simply connected by being aligned with the counter electrodes of the liquid crystal display and the drive integrated circuit and then thermocompressed by a crimping device.

Accordingly, the thermocompression wiring 10 transmits the voltage signal of the driver integrated circuit to the electrodes of the liquid crystal display, so that the liquid crystal injected between the upper and lower electrodes is twisted.

Accordingly, in the liquid crystal display according to the present invention, light irradiated from the backlight is linearly polarized by the polarizing plate and selectively transmitted by the dielectric anisotropy of the liquid crystal, thereby displaying letters, numbers, or any other icon.

As can be seen through the configuration and operation described above, the mounting wiring and the manufacturing method of the liquid crystal display module according to the present invention substantially solves the problems of the prior art.

That is, according to the present invention, since the thickness is increased by the height of the conductive line inserted into the groove of the base film and the adhesive strength with the base film is increased, unlike the conventional case, cracks of the conductive line and the base film are prevented even in the sudden bending of wiring. Can you get the effect.

Therefore, the thermocompression wiring according to the present invention can achieve high reliability and long life.

On the other hand, the present invention is not limited to the above-described specific preferred invention, any person having ordinary skill in the art to which the invention belongs without departing from the gist of the invention claimed in the claims. It will be possible.

Claims (3)

A mounting wiring of a liquid crystal display module for transmitting a voltage signal of a driver integrated circuit to an electrode of a liquid crystal display, comprising: a base film having a groove having a predetermined pitch, a conductive line inserted into the groove and protruding above the base film; And an adhesive layer applied to an upper surface of the base film to cover the conductive line. The mounting wiring of a liquid crystal display module according to claim 1, wherein conductive particles are dispersed in the adhesive layer. Forming a groove having a predetermined pitch in the base film, forming a conductive line in the groove, and applying an adhesive layer having conductive particles dispersed on the upper surface of the base film including the conductive line. A mounting wiring manufacturing method of a liquid crystal display module characterized by the above-mentioned.