KR101285428B1 - One-layer type touch screen and its method - Google Patents

Abstract

PURPOSE: A one-layer type capacitance touch screen and a manufacturing method are provided to comprise the capacitance touch screen by using an independently sensed block outage sensing unit, thereby implementing multi-touch. CONSTITUTION: A block outage sensing unit is arranged on an indium tin oxide (ITO) at equidistant intervals, forms an outage touch unit, and independently senses touch. A transparent electrode unit (200) is wired to the block outage sensing unit. A flexible printed circuit board (FPCB) connection unit is connected to an FPCB for outputting signals, which are sensed by the block outage sensing unit, to an end unit of the transparent electrode unit. The block outage sensing unit comprises a main outage sensing unit (110) and a ground outage sensing unit (120). The main outage sensing unit forms a closed curve. The ground outage sensing unit surrounds the outside of the main outage sensing unit.

Description

One layer capacitive touch screen and its manufacturing method {One-layer type Touch screen and its method}

The present invention relates to a one-layer capacitive touch screen and a method of manufacturing the same. More particularly, in the capacitive touch screen, an integrated transparent electrode unit integrated with the block electrostatic detection unit is formed and a block electrostatic detection unit is independently detected. By forming, the block electrostatic detection unit to implement a one-layer capacitive touch screen and to simplify the production process to improve the productivity.

In general, the capacitive touch screen is to detect the touch position according to the change in capacitance according to the touch.

The capacitive touch screen as described above is composed of an ITO part in which an ITO layer made of a conductive light-transmitter is formed, and an input / output electrode part in which silver powder paint is formed on the edge of the ITO part.

On the other hand, the ITO part is composed of an ITO film made of a light-transmissive resin, and an ITO coating layer having a conductive material coated on one side of the ITO film.

In addition, the ITO unit has a double-layered X-axis ITO unit formed by the X-axis electrostatic sensing unit at equal intervals and a Y-axis ITO unit formed by the Y-axis electrostatic sensing unit at equal intervals, and the end of the X-axis electrostatic sensing unit and the Y-axis electrostatic The input and output electrode portions formed by the respective axes are formed at the ends of the sensing section.

However, the conventional capacitive touch screen as described above has a problem that the production process is complicated because a multiple layer ITO part is provided to form the X-axis electrostatic sensing unit and the Y-axis electrostatic sensing unit.

In addition, since the electrostatic sensing unit is configured to be connected in series in the X-axis or Y-axis direction, the touch screen cannot be touched after the disconnection due to partial disconnection. There was a problem that it was not easy to expand.

Accordingly, the present invention is a conventional capacitive touch screen, the electrostatic sensing unit is connected in series in the X-axis or Y-axis direction, the entire section is not touched due to partial disconnection, and the problem of falling productivity and silver powder due to the multilayer structure It is to solve the problem that it is not easy to extend the touch screen by the paint-painted input-output electrode unit.

That is, in the capacitive touch screen, the block electrostatic sensing unit to be independently sensed is formed on a single layer, and an integrated transparent electrode unit integrated with the block electrostatic sensing unit is formed.

Therefore, the present invention is capable of multi-touch according to the independent touch detection by configuring the capacitive touch screen as the block electrostatic detection unit that is independently sensed.

In addition, the productivity is improved by forming a transparent electrode unit integrated with the block electrostatic detection unit on a single layer, and the display area is maximized by not limiting the side arrangement of the electrodes by making the electrodes transparent.

1 is a perspective view showing an embodiment according to the present invention.
Figure 2 is a detailed perspective view of one embodiment according to the present invention.
3 is a plan view showing that the drawing of both sides of the transparent electrode unit in a further embodiment according to the present invention is zigzag drawn.
Figure 4 is a plan view showing that the withdrawal of both sides of the transparent electrode portion according to another embodiment according to the present invention is divided into front and rear to be drawn out only to the front side, the other side is drawn out only to the rear side.
5 is a plan view showing that the FPCB connecting portion is formed on both sides in another embodiment according to the present invention.
FIG. 6 is a plan view showing that two FPCB connection units are provided at each side in another embodiment according to the present invention; FIG.
7 is an exemplary process according to the present invention.
Figure 8 is a detailed illustration of the printing process of the sensing unit in the process according to the present invention.
9 illustrates another process according to the present invention.

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is to facilitate the multi-touch of the capacitive touch screen, to simplify the production process and to maximize the touch area.

That is, in the capacitive touch screen, the block electrostatic touch unit 100, which is arranged at right and left intervals on the ITO plate, forms an electrostatic touch unit and is independently touch sensed, and the block electrostatic detect unit 100 The FPCB 400 is connected to the transparent electrode unit 200 that is integrally formed and the output of the signal detected by the block outage detecting unit 100 at the end of the transparent electrode unit 200 which is drawn out to one side of the ITO plate. It is composed of the FPCB connection unit 300.

Here, the block outage detection unit 100 is formed in a closed curve and surrounds the outside of the main outage detection unit 110 and the main outage detection unit 110 that are connected independently, and is serially formed in one of the X and Y axes. It is composed of a grounded outage detection unit 120 to be connected.

The main blackout detecting unit 110 is composed of a linear main sensing line 111 and a branch sensing line 112 protruding from both sides of the main sensing line 111.

The ground outage detecting unit 120 includes a main grounding line 121 disposed on both sides of the block outage sensing unit 100, and a branch grounding line 122 protruding from the main grounding line 121 to the branch sensing line 112. It is composed of.

The transparent electrode unit 200 independently connects the ground transparent electrode 210 to the ground electrostatic detecting unit 120 in any one of the X and Y axes, and the main electrostatic detecting unit 110 to make the ground transparent. It is composed of a sensing transparent electrode 220 disposed in parallel with the electrode (210).

Meanwhile, in the practice of the present invention, the ground transparent electrode 210 and the sensing transparent electrode 220 of the transparent electrode unit 200 may be drawn out to both sides.

Both sides of the transparent electrode unit 200 may be zigzag withdrawn.

Withdrawal of both sides of the transparent electrode unit 200 is divided into front and rear so that one side is drawn out only to the front side, and the other side is drawn out only to the rear side.

In the practice of the present invention, the FPCB connecting portion 300 can be formed on both sides.

In addition, in the practice of the present invention, two FPCB connection units 300 may be provided on each side.

In addition, in the practice of the present invention, the end portion of the FPCB connecting portion 300 can be configured by zigzag .

Hereinafter, the manufacturing method of the present invention will be described.

That is, in the method of manufacturing the capacitive touch screen, the block electrostatic detection unit 100 and the block electrostatic detection unit 100 are arranged on the ITO plate at equal intervals such as left and right to form capacitive touch portions, and are each independently touch-sensitive. FPCB 400 for outputting the signal detected by the block outage detecting unit 100 at the end of the transparent electrode unit 200 which is integrally formed with the 100 and the transparent electrode unit 200 which is drawn out to one side of the ITO plate. ) To form a resist layer for forming the FPCB connection unit 300 to which the PPCB connection unit 300 is connected, and to remove the ITO layer where the resist layer formed through the detection unit forming process 510 is not formed. A nicking process 520 and a resist stripping process 530 for removing the resist layer remaining in the ITO portion.

Here, the block outage detection unit 100 printed in the sensing unit printing process 510 is formed to form a closed curve and surrounds the outside of the main outage detection unit 110 and the outage detection unit 110 that are independently connected, and has an X axis. It is composed of a ground outage detecting unit 120 is connected in series in any one of the Y-axis direction.

The main blackout detecting unit 110 is composed of a linear main sensing line 111 and a branch sensing line 112 protruding from both sides of the main sensing line 111.

The ground outage detecting unit 120 includes a main grounding line 121 disposed on both sides of the block outage sensing unit 100, and a branch grounding line 122 protruding from the main grounding line 121 to the branch sensing line 112. It is composed of.

The transparent electrode unit 200 independently connects the ground transparent electrode 210 to the ground electrostatic detecting unit 120 in any one of the X and Y axes, and the main electrostatic detecting unit 110 to make the ground transparent. It is composed of a sensing transparent electrode 220 disposed in parallel with the electrode (210).

On the other hand, the sensing unit forming process is a photosensitive resin layer forming process (511) for forming a photosensitive resin layer for forming a resist pattern on the ITO portion and the light on the photosensitive resin layer formed through the photosensitive resin layer forming process (511) The pattern exposure process 512 for exposing portions other than the pattern by ultraviolet rays or X-rays by irradiating the light and the photosensitive resin in the portions in which the developer exposed the ITO plate subjected to the pattern exposure process through the pattern exposure process 512 It is made of a developing process (513).

The photosensitive resin layer is formed of a dry film (DFR) or a photoresist (PR; Photo Resist).

In addition, the nicking liquid in the nicking process 520 is made at a low temperature of 45 ℃ or less.

On the other hand, in the practice of the present invention, in order to improve the adhesion of the FPCB 400 to the FPCB connection portion 300 it is possible to further perform a plasma treatment process 540 for the surface modification treatment.

100: block outage detection unit
110: blackout detection department
111: main detection line 112: branch detection line
120: ground outage detection unit
121: main ground line 122: branch ground line
200: transparent electrode
210: transparent ground electrode 220: transparent transparent electrode
300: FPCB connection
400: FPCB
510: printing process of the detector
511: photosensitive resin layer formation process 512: pattern exposure process
513: Development Process
520: nickname process 530: resist stripping process
540: plasma treatment process

Claims (12)

In the capacitive touch screen;
Block electrostatic touch units arranged at left and right intervals on the ITO plate to form electrostatic touch units, each independently detecting the touch of the block, a transparent electrode unit integrally formed with the block electrostatic sensing unit, and a transparent electrode drawn out to one side of the ITO plate. At the end of the unit is provided with an FPCB connecting portion to which the FPCB is connected for the output of the signal detected by the block outage detecting unit,
The block outage detection part is formed in a closed curve and consists of a main outage detection part that is connected independently and a ground outage detection part that surrounds the outside of the main outage detection and is connected in series in one of the X and Y axes.
The transparent electrode part is composed of a transparent transparent electrode for connecting the ground electrostatic sensing unit in any one of the axial direction of the X-axis and Y-axis, and a transparent sensing electrode arranged in parallel with the ground transparent electrode and independently connected to the main electrostatic sensing unit One-layer capacitive touch screen.

The method of claim 1, further comprising:
The block outage detecting unit includes a linear main sensing line and a branch sensing line protruding from both sides of the main sensing line.
The grounded electrostatic detection unit is a one-layer capacitive touch screen, characterized in that the main grounding line is respectively disposed on both sides of the block electrostatic detection unit and the branch grounding line protruding from the main grounding line to the branch sensing line.

The method according to claim 1 or 2,
The one-layer capacitive touch screen, wherein the ground electrostatic sensing unit and the transparent transparent electrode are led out to both sides.
4. The method of claim 3, further comprising:
One-layer capacitive touch screen, characterized in that the pullout of both sides of the transparent electrode portion is configured in a zigzag.
4. The method of claim 3, further comprising:
One side capacitive touch screen, characterized in that the pull out of both sides of the transparent electrode portion is divided back and forth so that only one side is drawn out, and the other side is drawn out only to the rear side.
The method according to claim 1 or 2,
One-layer capacitive touch screen, characterized in that the FPCB connection portion formed on both sides.
The method according to claim 1 or 2,
One-layer capacitive touch screen, characterized in that provided with two FPCB connection on each side.

A method of manufacturing a capacitive touch screen;
Block electrostatic touch units arranged on the ITO plate at intervals such as left and right, respectively, and each block electrostatic touch unit independently sensed, a transparent electrode unit integrally formed with the block electrostatic sensing unit, and a transparent electrode unit drawn out to one side of the ITO plate. A sensing unit printing process of forming a resist layer for forming an FPCB connecting unit to which the FPCB is connected for outputting a signal sensed by the block electrostatic sensing unit at an end thereof;
A nicking process of corrosion removing the conductive light transmitting layer except for the resist layer formed through the sensing unit printing process;
A method of manufacturing a one-layer capacitive touch screen, comprising a resist stripping process for removing a photosensitive resin layer remaining in the ITO portion.
The method of claim 8;
When the block outage detection unit printed in the sensing unit printing process is formed in a closed curve, a ground outage detection unit which is connected in the direction of one of the X and Y axes and is serially wrapped around the outside of the main outage detection unit and the main outage detection is connected. Consists of wealth,
The block outage detecting unit is composed of a linear main sensing line and a branch sensing line protruding from both sides of the main sensing line.
The ground outage detecting unit includes a main grounding line disposed on both sides of the block outage sensing unit, and a branch grounding line projecting between the branching sensing line from the main grounding line,
The transparent electrode part comprises a grounded transparent electrode which connects the grounded electrostatic sensing unit in one of the axial directions of one of the X axis and the Y axis, and an electrostatic transparent electrode which is arranged parallel to the grounded transparent electrode and independently connected to the main electrostatic sensing unit. Method of manufacturing a one-layer capacitive touch screen characterized in that.

The method of claim 8;
The sensing unit printing process includes a photoresist layer forming process for forming a photoresist layer for forming a resist pattern on the ITO portion, and irradiating light to the photoresist layer formed through the photoresist layer formation process to produce a portion other than the pattern. A pattern exposure process for exposing, and a development process for removing the sensitive resin of the exposed portion through the pattern exposure process.

The method of claim 8;
A method for manufacturing a one-layer capacitive touch screen, characterized in that the surface of the plasma treatment to improve the adhesion of the FPCB to the FPCB connection portion.

The method of claim 8;
A method for manufacturing a one-layer capacitive touch screen, characterized in that the terminal part is zigzag in order to reduce the width of the terminal part of the FPCB connection part.

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