KR20110124727A - Pet touch sensor for a touch screen and the manufacturing method for the pet touch sensor - Google Patents

Abstract

PURPOSE: A PET(Positron Emission Tomography) touch sensor for a touch screen and manufacturing method thereof are provided to minimize bad sensor ratios by effectively manufacturing a sensor without including the laminating process of a protection layer. CONSTITUTION: A PET substrate includes ITO(Indium Tin Oxide) or ATO(Antimony Thin Oxide). A X-coordinate pattern area(110) connects a X-coordinate pattern to a X-coordinate trace(103) based on the center of the PET substrate. A Y-coordinate pattern area(120) connects an Y-coordinate pattern to an Y-coordinate trace(104) by facing the Y-coordinate pattern with the X-coordinate pattern in the center of the PET substrate. An X and Y ACF(Anisotropic Conductive Film) bonding pad is connected to the X-coordinate pattern within the X-coordinate pattern area.

Description

PET TOUCH SENSOR FOR A TOUCH SCREEN AND THE MANUFACTURING METHOD FOR THE PET TOUCH SENSOR}

The present invention relates to a PET touch sensor required for manufacturing a touch screen and a method of manufacturing the same, and more particularly, in designing a PET touch sensor, an x coordinate pattern region and a y coordinate pattern region are divided on an upper surface of one PET substrate. And the y coordinate pattern are designed to correspond to each other, and in the x coordinate pattern area, the x coordinate pattern is connected with the x coordinate trace, in the y coordinate pattern area, the y coordinate pattern is connected with the y coordinate trace, and the y coordinate pattern is x The x / y ACF bonding pads in the coordinates are connected to ACF bonding, which simplifies the laminating process and greatly improves the alignment between the x and y coordinate patterns through one-time ACF bonding, while minimizing the ACF bonding area. The present invention relates to a PET touch sensor for a touch screen and a method of manufacturing the same, which can provide easy design and can reduce the defective rate of the finished product and improve productivity. It is.

In general, a touch screen is an input that does not use an input device such as a keyboard or a mouse, and detects the position of a human hand or an object on a character or a specific position displayed on the screen to process the specific function. Means a device, and can be operated by directly touching the screen has the advantage of high operation efficiency, convenience.

As described above, the touch sensor is configured to include a touch panel and a protective layer on which a circuit pattern of an ITO electrode patterned in a specific shape is formed on a substrate such as a PET film or glass. The protective layer is attached on top of the touch sensor to prevent contamination from external factors on the touch panel.

1 is a plan view of the design of the conventional PET touch sensor 1, Figure 2a is a view showing the x-coordinate pattern region 12 of the first PET substrate 10 in the conventional PET touch sensor (1), FIG. 2B illustrates a y-coordinate pattern region 32 of the second PET substrate 30 in the conventional PET touch sensor 1.

Referring to this, an x coordinate pattern and an x coordinate trace are formed in the x coordinate pattern region 12 of the first PET substrate 10 illustrated in FIG. 2a, and the second PET substrate 30 illustrated in 2b. The y coordinate pattern and the y coordinate trace are formed in the y coordinate pattern region 32 of FIG. 2). The first and second PET substrates 10 and 30 are formed through the design of the PET touch sensor 1 shown in FIG. 1. The touch sensor is formed.

However, as described above, when manufacturing a touch sensor according to the conventional PET touch sensor 1 design, there are some problems.

Referring to FIG. 3, the conventional PET touch sensor 1 includes a plurality of x-coordinate patterns on the top x-coordinate pattern region 12 of the first PET substrate 10 and x-coordinate traces connected to the x-coordinate pattern. It has an x-coordinate ACF bonding pad 16 which is electrically connected to form an x and consists of pads (PADS) for connection with x-coordinate traces.

In addition, a plurality of y coordinate patterns and y coordinate traces connected to the y coordinate pattern are formed and electrically connected to the y coordinate pattern region 32 on the upper surface of the second PET substrate 30. It has a y-coordinate ACF bonding pad 36 composed of pads (PADS) for connection.

In addition, a lamination process of providing a protective layer for protecting coordinate patterns on the first and second PET substrates 10 and 30 is performed on the x coordinate pattern and the y coordinate pattern, respectively. The lamination process is performed to connect the x-coordinate pattern and the y-coordinate pattern to each other up and down, and bubbles are generated in the laminating process, thereby increasing the defective rate of the product, and the upper and lower first and second PET substrates 10 There was a problem regarding the error 52 between the electrode patterns that may occur when bonding the.

In addition, referring to FIG. 4, the FPC 60 is connected to be electrically connected to the x coordinate pattern and the y coordinate pattern of the first and second PET substrates 10 and 30. X) is a Cu CuFF pad 62 for electrically connecting to the x-coordinate ACF bonding pad 16 and the y-coordinate ACF bonding pad 36 of the first and second PET substrates 10 and 30, respectively. It has a two-part ACF bonding part composed of y Cu ACF pads 64.

Therefore, an operation problem in which the x coordinate ACF bonding pad 16 and the y coordinate ACF bonding pad 36 must be bonded twice to the x Cu ACF pad 62 and the y Cu ACF pad 64 for signal application, respectively, is performed. There was this.

In this manner, the x-coordinate ACF bonding pads 16 and the y-coordinate ACF bonding pads 36 of the first and second PET substrates 10 and 30 are x Cu ACF pads 62 of the FPC 60, When ACF bonding the y Cu ACF pad 64 for signal application, there was a problem of an increase in the defective rate due to an error 72 between the pad electrodes.

The present invention has been proposed to solve the above problems, the object of which is to change the conventional PET touch sensor design to form the x coordinate pattern and y coordinate pattern on the same upper surface of the same PET substrate to form the x coordinate pattern and y coordinate pattern There is no need to perform laminating to install a protective layer for protection, and the lamination process is performed only once so that the x coordinate pattern and the y coordinate pattern are connected to each other up and down. Disclosed is a PET touch sensor for a touch screen and a method of manufacturing the same, which minimize the occurrence of errors between patterns and errors between pad electrodes.

In addition, another object of the present invention is to install the X / Y ACF bonding pad in the x-coordinate trace to reduce the number to one, to maximize the work efficiency and design ease, PET substrate X / Y ACF bonding pad, FPC ACF When the pads are ACF bonded, the present invention provides a touch screen PET touch sensor and a method of manufacturing the same to reduce the error between the pad electrodes to minimize the sensor defect rate.

The present invention for achieving the above object, in the PET touch sensor required for manufacturing the touch screen sensor,

One PET substrate on which indium tin oxide (ITO) or antimony thin oxide (ATO) is formed;

An x coordinate pattern region in which an x coordinate pattern is electrically connected to an x coordinate trace on one side of the PET substrate surface;

A y-coordinate pattern region disposed on the other side of the PET substrate so as to be symmetrical with respect to the x-coordinate pattern region on the other side, and a y-coordinate pattern is electrically connected to a y-coordinate trace; And

And an x / y ACF bonding pad electrically connected to the x coordinate pattern in the x coordinate pattern region, wherein the y coordinate pattern of the y coordinate pattern region is electrically connected to the x / y ACF bonding pad of the x coordinate pattern region. The present invention provides a touch screen PET touch sensor configured to fold the x coordinate pattern region and the y coordinate pattern region through a central folding line.

The ITO or ATO film is characterized in that formed in substantially the same area as the PET substrate.

The arrangement of the x-coordinate pattern and the y-coordinate pattern may be arranged in plural in the x-coordinate pattern area and the y-coordinate pattern area, respectively.

When the x coordinate pattern region is formed on the left side based on the center of the upper surface of the PET substrate, the y coordinate pattern region is configured on the right side based on the center of the upper surface of the PET substrate.

When the x-coordinate pattern region is formed on the right side based on the center of the upper surface of the PET substrate, the y-coordinate pattern region is configured on the left side based on the center of the upper surface of the PET substrate.

The x / y ACF bonding pad is formed in the y coordinate pattern region.

The x / y ACF bonding pad position is located in the X coordinate pattern region and the y coordinate pattern region.

The number of x / y ACF bonding pads of the ACF bonding may be one or more arranged in the X coordinate pattern area and the y coordinate pattern area as necessary.

The x coordinate pattern may be electrically connected to an x / y ACF bonding pad of a y coordinate pattern region.

The y coordinate pattern may be electrically connected to an x / y ACF bonding pad of a y coordinate pattern region.

The coordinate pattern design of the folding area may be changed.

In order to achieve the above object, the present invention, in the manufacturing method of the PET touch sensor required for manufacturing the touch screen sensor,

An x coordinate pattern region and a y coordinate pattern region are formed on one PET substrate on which Indium Tin Oxide (ITO) or ATO (Antimon Thin Oxide) is formed so as to be symmetrical with respect to the center of the surface of the PET substrate, and the x coordinate pattern The x coordinate pattern of the region is connected with the x coordinate trace, the y coordinate pattern of the y coordinate pattern region is connected with the y coordinate trace, and the x coordinate pattern is formed by configuring an x / y ACF bonding pad in the x coordinate pattern region. connecting to an x / y ACF bonding pad of an x coordinate pattern region and connecting the y coordinate pattern to an x / y ACF bonding pad of an x coordinate pattern region; and

And a second step of folding a x-coordinate pattern region and a y-coordinate pattern region so as to form a folding line at a central portion of the one PET substrate so as to be symmetrical with respect to the center of the surface of the PET substrate. After the liner process of forming a protective layer on the x coordinate pattern region and the y coordinate pattern region on the surface of the PET substrate, the second step includes a folding lamination process folding the x coordinate pattern region and the y coordinate pattern region to face each other The present invention provides a method for manufacturing a PET touch sensor for a touch screen.

The manufacturing method of the PET touch sensor for the touch screen is a method for manufacturing the touch sensor for the touch screen can be applied to all touch sensors related to the PET substrate.

The manufacturing method of the PET touch sensor for the touch screen may improve the defective rate that may occur during the laminating process by removing the existing laminating process.

The manufacturing method of the PET touch sensor for the touch screen can maximize the work efficiency by reducing the x / y ACF bonding pad to one.

In the manufacturing method of the PET touch sensor for the touch screen, x / y ACF bonding pads are formed in one, and the quality of the touch sensor is minimized by minimizing the occurrence of an error between electrode patterns when ACF bonding of the FPC with the x / y ACF bonding pad. It can be improved.

According to the PET touch sensor for the touch screen and the manufacturing method thereof according to the present invention, the sensor can be easily manufactured without the protective layer laminating process, thereby minimizing the bubble generation rate and minimizing the sensor defect rate. In particular, the y-coordinate pattern in the y-coordinate pattern area is connected to the x / y ACF bonding pad in the x-coordinate pattern area with ACF bonding, which greatly improves the alignment between the x-coordinate pattern and the y-coordinate pattern and at the same time improves the number of ACF bondings. By reducing it to 1, efficient working time can be improved, and it becomes possible to manufacture PET touch sensors for touch screens having excellent quality capabilities.

According to the PET touch sensor for a touch screen and a method of manufacturing the same according to the present invention, by changing a conventional PET touch sensor design, the x coordinate pattern and the y coordinate pattern are formed on the same upper surface of the same PET substrate to form the x coordinate pattern and the y coordinate pattern. There is no need to perform laminating to install a protective layer to protect the circuit.

In addition, according to the PET touch sensor for the touch screen according to the present invention and a method for manufacturing the same, since the poly laminating process is performed only once so that the x coordinate pattern and the y coordinate pattern are connected to each other up and down, defect rate and electrode pattern caused by bubble generation It is possible to obtain an excellent effect of minimizing the occurrence of errors between the electrodes, errors between the pad electrodes.

1 is a plan view of a design drawing of a conventional PET touch sensor.
Figure 2a is a view showing the x-coordinate pattern region of the conventional PET touch sensor.
2B is a view illustrating a y-coordinate pattern region of a conventional PET touch sensor.
FIG. 3 is a diagram illustrating an error occurrence between electrode patterns occurring during a laminating process between a x coordinate pattern and a y coordinate pattern.
4 is a diagram illustrating an error occurring when ACF bonding of a conventional FPC.
5 is a design diagram of a touch sensor configured on an upper surface of a PET substrate designed by the present invention.
6 is a perspective view showing the folding between the x coordinate pattern region and the y coordinate pattern region designed by the present invention.
7 is a perspective view of a folded PET touch sensor after carrying out the folding lamination designed by the present invention.
8 is a perspective view of an x / y ACF bonding pad composed of x and y coordinate pattern pads designed according to the present invention.
9 is an explanatory view showing a form in which an error does not occur between pad electrodes during ACF bonding designed by the present invention.

Hereinafter, the present invention will be described in detail with reference to examples, but the examples are used only for the purpose of illustration and description of the present invention, and are used to limit the scope of the present invention as described in the meaning limitations and claims. no. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from the embodiments. Therefore, the true technical protection scope of the present invention will be defined by the technical details of the claims.

First, FIG. 5 illustrates a design of a touch sensor configured on an upper surface of a PET substrate according to the present invention. Referring to FIG. 5, in the PET touch sensor 100 for a touch screen according to the present invention, an ITO or ATO film having the same area is formed on an upper surface of one PET substrate P, and the center of the PET substrate P is formed. The x-coordinate pattern region 110 and the y-coordinate pattern region 120 are configured to be symmetrical with respect to each other.

The x coordinate pattern region 110 forms a plurality of x coordinate patterns 101 on an upper surface thereof, and each of the x coordinate patterns 101 is electrically connected to an x coordinate trace 103.

In addition, the y-coordinate pattern region 120 forms a plurality of y-coordinate patterns 102 on the upper surface thereof, and each y-coordinate pattern 102 is electrically connected to the y-coordinate trace 104.

In addition, in the PET touch sensor 100 for a touch screen according to the present invention, PADS for ACF bonding with the FPC 205 is configured in the x coordinate pattern region 110, and the x coordinate pattern of the x coordinate pattern region 110. 101 are electrically connected to x / y ACF bonding pad 105.

In addition, the y-coordinate patterns 102 of the y-coordinate pattern region 120 are also connected to the x / y ACF bonding pad 105 of the x-coordinate pattern region 120, thereby providing a plurality of x on the top surface of one PET substrate P. A sensor composed of the coordinate pattern 101 and the y coordinate pattern 102 is designed.

6 and 7, the PET touch sensor 100 for a touch screen according to the present invention includes a folding line designed to fold the x-coordinate pattern region 110 and the y-coordinate pattern region 120 to operate the sensor. 106 is configured at the center to perform lamination using the folding laminating apparatus.

Such a central folding area 106 can be flexibly folded by partially cutting the cross section of the PET substrate P made of a PET material and reducing the cross section.

8 and 9, the PET touch sensor 100 for a touch screen according to the present invention may have an x-coordinate ACF bonding pad 203 on the x / y ACF bonding pad 105 provided in the x-coordinate pattern region 110, respectively. ) And y-coordinate ACF bonding pads 204, x Cu ACF pads 212 for connecting the FPC 205 and y Cu ACF pads 214 for signal application are performed by performing ACF bonding only once. do.

Hereinafter, a method of manufacturing a PET touch sensor for a touch screen according to the present invention will be described in detail.

In the method for manufacturing a PET touch sensor for a touch screen according to the present invention, a plurality of x-coordinate patterns 101 and a plurality of y-coordinate patterns 102 are formed on a single PET substrate P, and these are one x / y. And a first step of electrically connecting to the ACF bonding pad 105.

As shown in FIG. 5, the first step of the method for manufacturing a PET touch sensor for a touch screen according to the present invention includes one PET substrate P having indium tin oxide (ITO) or antimony thin oxide (ATO) formed therein. To prepare.

Such ITO or ATO film may have an area substantially the same as that of the PET substrate (P).

The x-coordinate pattern region 110 and the y-coordinate pattern region 120 are formed on the PET substrate P so as to be symmetrical with respect to the exact center thereof.

The x-coordinate pattern region 110 and the y-coordinate pattern region 120 may be designed to be configured on either of the left and right regions with respect to the center of the upper surface of the PET substrate.

That is, when the x coordinate pattern region 110 is formed on the left side based on the center of the top surface of the PET substrate P, the y coordinate pattern region 120 is formed on the right side of the center of the top surface of the PET substrate P. When the x-coordinate pattern region 110 is formed on the right side based on the center of the upper surface of the PET substrate P, the y-coordinate pattern region 120 is formed on the left side based on the center of the upper surface of the PET substrate P. do.

The x coordinate pattern region 110 forms a plurality of x coordinate patterns 101 on an upper surface thereof, and each of the x coordinate patterns 101 is electrically connected to the x coordinate trace 103. In addition, the y-coordinate pattern region 120 also forms a plurality of y-coordinate patterns 102 on its upper surface, and each of these y-coordinate patterns 102 is also electrically connected to the y-coordinate trace 104.

In addition, an x / y ACF bonding pad 105 is formed in the x coordinate pattern region 110, and the x coordinate pattern 101 is connected to an x / y ACF bonding pad 105 in the x coordinate pattern region 110. The y coordinate pattern 102 is also electrically connected to the x / y ACF bonding pad 105 of the x coordinate pattern region 110.

The x / y ACF bonding pad 105 may also be configured in the y coordinate pattern region 120 instead of the x coordinate pattern region 110.

That is, the design of the coordinate pattern of the folding area may be changed. The position of the x / y ACF bonding pad 105 may be located in the X coordinate pattern area 110 or the y coordinate pattern area 120.

In addition, one or more x / y ACF bonding pads 105 may be located in the X coordinate pattern region 110 and the y coordinate pattern region 120 as necessary.

As such, when the position of the x / y ACF bonding pad 105 is located in the y coordinate pattern region 120, the x coordinate pattern 101 is an x / y ACF bonding pad of the y coordinate pattern region 120. The y coordinate pattern 102 is also electrically connected to the x / y ACF bonding pad 105 of the y coordinate pattern region 120.

In this first step, a liner process of forming a protective layer on the x-coordinate pattern region 110 and the y-coordinate pattern region 120 on the surface of the PET substrate P is performed.

In addition, according to the present invention, a method of manufacturing a PET touch sensor for a touch screen includes a second folding of the x-coordinate pattern region 110 and the y-coordinate pattern region 120 so as to be symmetrical with respect to the positive center of the PET substrate P surface. Steps.

The second step of the manufacturing method of the touch screen PET touch sensor according to the present invention as shown in Figures 6 to 8, by forming a folding line 106 in the central portion of the one PET substrate (P) The x-coordinate pattern region 110 and the y-coordinate pattern region 120 are folded so as to be symmetrical with respect to the positive center of the PET substrate P surface.

In this second step, the folding area 106 provided at the center of the single PET substrate P is partially cut by cutting a cross section of the PET substrate P, and thus, the cross section of the PET substrate P may be flexibly folded.

One PET substrate P folded as described above is manufactured as a touch screen PET touch sensor 100 of the present invention through a folding lamination process of folding the x coordinate pattern region 110 and the y coordinate pattern region 120 to face each other. do.

The PET touch sensor 100 for a touch screen of the present invention manufactured as described above is applicable to all touch sensors related to PET substrates as a method for manufacturing a touch sensor for a touch screen.

As described above, the PET touch sensor 100 for the touch screen of the present invention can improve the defective rate by preventing the occurrence of an error of the electrode pattern that can be generated during the laminating process by removing the existing laminating process. In addition, the work efficiency may be maximized by reducing the x / y ACF bonding pad 105 to one in the x coordinate pattern region 110 or the y coordinate pattern region 120.

In addition, the PET touch sensor 100 for the touch screen according to the present invention includes the x Cu ACF pad 212 and the y Cu ACF pad 214 of the FPC 205 with one x / y ACF bonding pad 105. When ACF bonding with, minimize the error between the pad electrode can improve the quality of the touch sensor.

1: Conventional PET Touch Sensor 10: First PET Substrate
12: x coordinate pattern area 16: x coordinate ACF bonding pad
30: second PET substrate 32: y coordinate pattern area
36: y-coordinate ACF bonding pad 52: error between electrode patterns
60: FPC 62: Cu CuF Pad
64: y Cu ACF pad 72: Error between pad electrodes
100: PET touch sensor for a touch screen of the present invention
101: x coordinate pattern 102: y coordinate pattern
103: x-coordinate trace 104: y-coordinate trace
105: x / y ACF bonding pads 106: folding line
110: x coordinate pattern area 120: y coordinate pattern area
203: x-coordinate ACF bonding pad 204: y-coordinate ACF bonding pad
205: FPC 212: x Cu ACF pad
214: y Cu ACF pad P: PET substrate

Claims (11)

PET touch sensor for manufacturing touch screen sensor,
One PET substrate on which indium tin oxide (ITO) or antimony thin oxide (ATO) is formed;
An x coordinate pattern region in which an x coordinate pattern is electrically connected to an x coordinate trace on one side of the PET substrate surface;
A y-coordinate pattern region disposed on the other side of the PET substrate so as to be symmetrical with respect to the x-coordinate pattern region on the other side, and a y-coordinate pattern is electrically connected to a y-coordinate trace; And
And an x / y ACF bonding pad electrically connected to the x coordinate pattern in the x coordinate pattern region, wherein the y coordinate pattern of the y coordinate pattern region is electrically connected to the x / y ACF bonding pad of the x coordinate pattern region. And a P-type touch sensor for a touch screen, wherein the x-coordinate pattern region and the y-coordinate pattern region are configured to be folded through a central folding line. The method of claim 1,
The ITO or ATO film PET touch sensor for a touch screen, characterized in that formed on the same area as the PET substrate. The method of claim 1,
The array of x coordinate patterns and y coordinate patterns is a touch screen PET touch sensor, characterized in that a plurality of arranged in the x coordinate pattern area and the y coordinate pattern area, respectively. The method of claim 1,
When the x-coordinate pattern region is formed on the left side based on the center of the upper surface of the PET substrate, the y-coordinate pattern region is configured on the right side based on the center of the upper surface of the PET substrate, and the x-coordinate pattern region defines the center of the upper surface of the PET substrate. When formed on the right side of the reference, the y-coordinate pattern region is a touch screen PET touch sensor, characterized in that configured on the left side of the center of the upper surface of the PET substrate. The method of claim 1,
And the x / y ACF bonding pad is formed in a y coordinate pattern region instead of an x coordinate pattern region. The method of claim 1,
The x / y ACF bonding pad position of the ACF bonding is disposed in the X coordinate pattern area and the y coordinate pattern area. The method of claim 1,
And a number of x / y ACF bonding pads of the ACF bonding, in which one or more are arranged in an X coordinate pattern region and a y coordinate pattern region as necessary. The PET touch sensor of claim 1, wherein the folding line is formed by cutting a portion of the PET substrate to reduce a cross section. The method of claim 5,
And the x coordinate pattern is electrically connected to an x / y ACF bonding pad in a y coordinate pattern region. The method of claim 5,
And the y coordinate pattern is electrically connected to an x / y ACF bonding pad in a y coordinate pattern region. In the manufacturing method of the PET touch sensor required for manufacturing the touch screen sensor,
An x coordinate pattern region and a y coordinate pattern region are formed on one PET substrate on which Indium Tin Oxide (ITO) or ATO (Antimon Thin Oxide) is formed so as to be symmetrical with respect to the center of the surface of the PET substrate, and the x coordinate pattern The x coordinate pattern of the region is connected with the x coordinate trace, the y coordinate pattern of the y coordinate pattern region is connected with the y coordinate trace, and the x coordinate pattern is formed by configuring an x / y ACF bonding pad in the x coordinate pattern region. connecting to an x / y ACF bonding pad of an x coordinate pattern region and connecting the y coordinate pattern to an x / y ACF bonding pad of an x coordinate pattern region; and
And a second step of folding a x-coordinate pattern region and a y-coordinate pattern region to form a folding line at a central portion of the one PET substrate so as to be symmetrical with respect to the center of the surface of the PET substrate.
The first step is a liner process for forming a protective layer on the x coordinate pattern region and the y coordinate pattern region on the surface of the PET substrate, and the second step is to fold the x coordinate pattern region and the y coordinate pattern region to face each other Method of manufacturing a PET touch sensor for a touch screen comprising a folding lamination step.

Images