KR100737290B1 - Touch screen panel and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a resistive touch screen panel and a manufacturing method, the characteristics of which comprises: a top plate having a first transparent substrate, a first transparent conductive film laminated on the first transparent substrate and a first electrode for electrical connection; A lower plate having a second light transmissive substrate, a second transparent conductive film laminated on the second light transmissive substrate, and a second electrode for electrical connection; And a top spacer and a bottom spacer joined to each other, and including a dot spacer for electrical insulation between the top and bottom plates, and surrounding at least one side surface of the first transparent conductive film between the first transparent conductive film and the first electrode. More than opaque window frames are formed.

When providing the present invention as described above, by designing the portion to be visually hidden, including the electrode structure formed on the touch screen in the form of a window having a conventional beautiful window frame, it is possible to increase the design of the touch screen. In addition, the FPCB (Flexible Printed Circuit Board) for connecting the electrodes of the touch screen with an external power source is made on the back side of the lower substrate, thereby avoiding the bending of the exterior of the top plate and increasing the degree of freedom of design.

Translucent board, transparent conductive film, window frame film, wiring electrode, touch screen panel, LCD, FPCB (flexible printed circuit board)

Description

Resistive touch screen panel and manufacturing method {TOUCH SCREEN PANEL AND MANUFACTURING METHOD THEREOF}

1 illustrates a conventional resistive touch screen panel;

2 is a view illustrating an X-Y-axis substrate structure of a conventional pressure-sensitive resistive touch screen;

3 is a view illustrating a resistive touch screen panel equipped with a conventional external apparatus;

4 is a cross-sectional view illustrating a resistive touch screen panel according to the present invention;

5 is a diagram illustrating a structure of a touch screen panel having a window frame to which an LCD module is attached according to the present invention;

6 is a view illustrating a manufacturing process of the upper plate of the resistive touch screen panel according to the present invention;

7 is a view illustrating a manufacturing process of the lower plate of the resistive touch screen panel according to the present invention.

<Description of main parts of drawing>

DESCRIPTION OF SYMBOLS 10 Second transparent substrate, 20 Second transparent conductive film, 25 Second electrode, 30 First transparent substrate, 40 First transparent conductive film, 45 Window frame film, 47 First electrode, 50 Both sides Adhesive tape

55,56: through hole

The present invention relates to a resistive touch screen panel, and more particularly, to a pressure-sensitive resistive touch screen panel composed of upper and lower substrates to increase design by forming a film inside the panel and a manufacturing method thereof.

1 illustrates a conventional resistive touch screen panel. As shown in FIG. 1, a lower substrate 10 structure having a transparent conductive film, an electrode 20, and a dot spacer 60 is formed, an upper substrate 30 structure having a transparent conductive film and an electrode 40 formed thereon, and an upper substrate. It consists of a double-sided adhesive tape 50 for attaching the structure and the lower substrate structure at regular intervals, and has a structure of a wiring structure for inputting and outputting signals to and from the electrodes 40 and 20 of the upper and lower substrates.

In the position recognition for the touch input, when a touch pressure is applied on the upper substrate 30, the mechanical contact of the transparent conductive films of the upper and lower substrates 30 and 10 is performed. The axis and Y axis potentials are recognized and the position is indirectly recognized by the potential value.

2 is a diagram illustrating an X-Y axis substrate structure of a pressure-sensitive resistive touch screen according to the related art. As shown in FIG. 2 (a), the Y-axis potential generating electrode 40 is formed symmetrically on the upper and lower end portions 10 of the transparent conductive film having a predetermined resistance value, as shown in FIG. When a predetermined voltage is applied to the upper and lower electrodes 40, the equipotential lines 45 in the Y-axis direction are formed on the transparent conductive film 10. The Y coordinate recognition of the contact point of the upper and lower substrates by the touch pressure is recognized by measuring the potential value formed in the Y-axis direction through the transparent conductive film 10 of the counter substrate.

The measurement of the potential in the X-axis direction is performed by measuring the potential of the X-axis potential generating electrode 40 symmetrically formed at the left and right ends of the transparent conductive film 10 having a predetermined resistance value, as shown in FIG. When a predetermined voltage is applied to both ends, the equipotential lines 45 in the X-axis direction are formed on the transparent conductive film. The X coordinate recognition of the contact point of the upper and lower substrates by the touch pressure recognizes the potential value formed in the X-axis direction by measuring through the transparent conductive film of the counter substrate.

When detecting the Y coordinate by forming an equipotential line in the Y axis direction, no voltage is applied to the X electrode, which is a counterpart substrate, and the X electrode is used only to measure the Y potential of the touch point by touch. A voltage is applied to the X electrode to form an equipotential line in the X-axis direction, and the Y electrode serves to measure only the X-axis potential of the counter substrate in a state where no voltage is applied. As such, when one substrate forms a reference potential for recognizing an X or Y coordinate, the other counter electrode alternately reads a potential value of a contact point formed on the other counter electrode, and usually 200 times per second for recognition continuity. Repeat.

3 is a diagram illustrating a resistive touch screen panel equipped with a conventional external apparatus. As shown in FIG. 3, the touch screen panel has a gap when the shape of the electrode structure or the external connection FPCB (flexible printed circuit board) is exposed from the top and attached to the structure such as the LCD module 6. The mechanism structure 7 of the lid structure 4 is required. These appliances have numerous design limitations.

In other words, various types of touch screens have structures such as electrodes and wirings formed on the outside of the display, so that the structure is covered by covering the outside to cover the exposed structure when maintaining the appearance. Therefore, there is a problem that the structure of the mechanism is limited, and has a design design that can be implemented as a display.

The technical problem to be solved by the present invention for solving the above problems is to propose a touch screen panel and a manufacturing method that can avoid the bending of the appearance of the top plate and increase the design freedom to enable a variety of design implementation It is.

According to a first aspect of the present invention, there is provided an electronic device including: a top plate including a first light transmitting substrate, a first transparent conductive film laminated on the first light transmitting substrate, and a first electrode for electrical connection; And a lower plate portion having a second light-transmissive substrate, a second transparent conductive film laminated on the second light-transmissive substrate, and a second electrode for electrical connection, wherein the upper plate and the lower plate portion are bonded together, and the first transparent conductive film and At least one opaque window frame film surrounding the side surface of the first transparent conductive film is formed between the first electrode.

The material used for at least one of the window frame film, the first electrode, and the second electrode may be formed of at least one of carbon, chromium, aluminum, nickel, stainless steel, silver, copper, gold, titanium nitride, silver, and tin. It is preferable to include, It is also preferable that the window frame film is made of a black paint, and the first electrode is a paint made of silver.

In addition, the resistance value of the window frame film is preferably larger than the resistance value of the first transparent conductive film, the resistance value of the window frame film is preferably in the range of 100Ω / □ ~ 100MΩ / □, the window frame film is a black paint It is also preferable that the first electrode is formed of a carbon-based paint and then formed of a silver-based paint having high conductivity thereon.

In addition, a second feature according to the present invention is a first light-transmissive substrate; A top plate including a first transparent conductive film laminated on the light transmissive substrate and a first electrode for electrical connection; And a second light transmissive substrate; A lower plate portion having a second transparent conductive film laminated on the second transparent substrate, a second electrode for electrical connection, and a distribution electrode formed on a rear surface of the transparent substrate, wherein the upper plate and the lower plate portion are bonded to each other; The electrode, the second electrode and the wiring electrode are connected by through holes filled with a plurality of conductive materials.

Here, it is preferable to further include at least one or more opaque window frame film surrounding the side of the first transparent conductive film between the first transparent conductive film and the first electrode, the paste made of silver through the through hole It is also preferable to connect the first electrode, the second electrode and the wiring electrode.

On the other hand, preferably the contact portion of the conductive material and the first electrode, the second electrode and the wiring electrode may be made of a paste made of silver.

According to a third aspect of the present invention, a method of manufacturing a resistive touch screen panel includes a first transparent conductive film formed on one surface of a first light transmissive substrate and at least one window type opaque film surrounding a side surface of the first transparent conductive film. And forming a top plate including a first electrode; Forming a lower plate portion including a second transparent conductive film formed on one surface of a second transparent substrate, an opaque window frame film surrounding a side surface of the second transparent conductive film, and a second electrode; It characterized in that it comprises the step of bonding the upper plate and the lower plate.

The forming of the top plate may include forming a transparent conductive film on the first light-transmissive substrate; Forming at least one opaque window frame film surrounding a side surface of the first transparent conductive film; Forming a buffer layer on the window frame film; ; And forming a first electrode formed of a conductive film on the buffer layer.

The forming of the lower plate may include forming a second transparent conductive film on a second light-transmissive substrate; Forming a plurality of through holes penetrating the second light-transmissive substrate and the second transparent conductive film, and forming an electrode on the second transparent conductive film; And forming a wiring electrode on the rear surface of the second light transmissive substrate.

In addition, preferably, a paste made of silver may be filled in the through hole to electrically connect the electrodes. The conductive material may be filled in the through hole, and the first electrode, the second electrode, and the wiring may be electrically connected. The contact portion of the electrode may be to use a paste made of silver.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 illustrates a cross-sectional view of a resistive touch screen panel according to the present invention.

As shown in FIG. 4, the resistive touch screen panel according to the present invention includes a second transparent substrate 10, a second transparent conductive layer 20, a first transparent substrate 30, and a first transparent conductive layer ( 40, a through hole 55 connecting the dot spacer 60, the first electrode 47, the second electrode 25, the first electrode and the wiring electrode 70 on the back surface of the second light-transmissive substrate 10. A through hole 56 connecting the second electrode and the distribution electrode 70 on the back of the second light-transmitting substrate, an opaque window frame 45 surrounding the side, and an FPCB (flexible circuit board) 80 for external connection It consists of.

That is, an upper plate portion including the first light-transmissive substrate 30, the first transparent conductive film 40, the window frame film 45, and the first electrode 47, the second light-transmissive substrate 10, and the second transparent conductive film 20. And a lower plate part including the second electrode 25 is bonded to each other, and a dot spacer 60 is filled between the upper plate part and the lower plate part to electrically insulate both electrodes.

Referring to FIG. 4, the manufacturing process of the upper plate portion is performed. The upper plate portion forms the first transparent conductive film 40 on the first light-transmissive substrate 30, and the opacity of surrounding the side surface on the first transparent conductive film 40 again. A window frame membrane 45 in the form of a window frame is formed. Then, by forming the first electrode 47 for generating the reference potential of the panel on the window frame film 45 again, the upper plate portion is constituted.

That is, by forming an opaque film 45 in the shape of a window frame, which is to be visually hidden, including an electrode structure formed on the touch screen, the design of the touch screen is improved.

In addition, the upper plate is formed on the transparent substrate 30, such as PET film is formed with a transparent conductive film 40 that can recognize the position coordinates as the potential value of the touch input, the various to be implemented on the transparent conductive film A window frame film 45 of color is formed, and an electrode 47 having a low resistance value is formed on the window frame film 45 by using paint.

Here, the window frame membrane 45 includes a window frame-shaped window including various logos or colors. This window frame film 45 should have a value larger than that of the transparent conductive film 40 used for the coordinate recognition of the touch screen to prevent the coordinate distortion of the touch screen. When the resistance value of the window frame film 45 is lower than the resistance value of the transparent conductive film 40 used for the coordinate recognition of the touch screen, the window is formed by etching the transparent conductive films of both portions not including the electrodes. Distortion can be prevented.

A window frame film 45 having a higher resistance value with respect to the transparent conductive film 40 is formed on the transparent conductive film 40 of the upper plate portion, and the conductive electrode 47 is formed thereon by using paint to form the window frame film 45. The conductive electrode 47 material serves to serve as an electrode of the transparent conductive film 40 through the inside).

In addition, the FPCB (Flexible Circuit Board) 80, which connects the electrodes of the touch screen with an external power supply, is a means for increasing the flatness of the window frame film 45 that is beautiful on the transparent conductive film 40 on the upper plate. It is to be made on the back surface 70, it is possible to avoid the bending of the appearance of the upper plate portion and to increase the degree of freedom of design.

The window frame membrane 45 is made of black paint and the first electrode 47 is preferably made of silver. The original purpose of the window frame membrane 45 is to form an internal electrode structure. Since the first electrode 47 plays a role of electrical connection and reference potential formation, it is preferable to use silver, which is a highly conductive material.

In addition, considering the design and efficiency, the material of the window frame can be implemented in various colors, and it is also possible to form a specific pattern.

As shown in FIG. 4, the lower plate portion structure includes a second light-transmissive substrate 10, a second transparent conductive film 20, a second electrode 25, and a distribution electrode 70, and the first electrode of the upper plate portion. 40, through-holes 55 and 56 penetrating through the second electrode 25, the second transparent conductive film 20, and the second light-transmitting substrate 10 in the lower plate portion are formed to be electrically connected. .

The distribution electrode 70 is formed at the bottom of the lower plate portion on the rear surface of the second translucent substrate 10 so as to be connected to the external connection PCB (flexible printed circuit board) 80, and the wiring electrode 70. ) Is formed at the bottom of the lower plate, there is an advantage that can be adhered to the LCD module.

Here, it is preferable to apply a paste made of silver to the through holes 55 and 56 to electrically connect the first electrode 40, the second electrode 25, and the wiring electrode 70. Therefore, any material may be of high conductivity. In addition, it is also preferable to fill the through holes 55 and 56 with a conductive material and electrically connect the paste to the electrodes by using a paste made of silver only.

5 is a diagram illustrating a structure of a touch screen panel having a window frame with an LCD module according to the present invention. As shown in FIG. 5, by forming an opaque window frame layer 110 to prevent the electrode structure from being reflected on a part of the inner layer of the touch screen panel, it is necessary to separately mount an apparatus on the outside of the panel like a conventional touch screen panel. There is no, and there is an advantage that the LCD module 106 and the touch screen can be prevented from coming into close contact with the LCD module 106 and the touch screen panel due to the separation between the image quality and the light efficiency. That is, by forming the window frame film 110, it is possible to greatly improve the design and ease of use of the touch input.

In addition, a method of manufacturing a resistive touch screen panel according to the present invention will be described through the following embodiments. The resistive touch screen panel according to the present invention includes a top plate portion including a first light-transmissive substrate, a first transparent conductive film, an opaque window frame film, and a first electrode, and a second light-transmissive substrate, a second transparent conductive film, and a second A lower plate portion composed of an electrode and a wiring electrode is formed.

Then, the upper plate and the lower plate are bonded to each other with an adhesive or the like, and a dot spacer for electrically insulating the upper and lower plate electrodes is filled therebetween to manufacture the touch screen panel. It is also possible to increase the precision of contact position recognition by patterning the transparent conductive film without using a dot spacer.

6 is a view illustrating a manufacturing process of the upper plate of the resistive touch screen panel according to the present invention.

As shown in Fig. 6A, a transparent conductive film 40 made of ITO is formed on the PET film 30 used as the light-transmissive substrate, and as shown in Fig. 6B, transparent conductive An opaque window frame film 45 is formed on the film 40 and surrounding the side surface. In FIG. 6C, the buffer layer 47 is formed between the window electrodes 45 and the first electrode. In FIG. 6D, the window frames 45 in which the first electrode 47 'is opaque are shown. The buffer layer 47 is shown to prevent the deformation or difference of color from appearing on the upper window frame layer 45. At this time, the buffer layer 47 uses a paint similar to the color of the window frame membrane 45.

FIG. 7 is a view illustrating a manufacturing process of a lower plate of a resistive touch screen panel according to another embodiment of the present invention. As shown in FIG. 7, the 2nd transparent conductive film 20 is formed on the 2nd transparent substrate (glass etc.) 10, and the through hole which is a connection hole of an electrode is formed (FIG. 7 (a)). A linear second electrode 25 is formed on a part of the side surface on the second transparent conductive film 20 ((b) of FIG. 7), and the wiring electrode 70 on the rear surface of the second translucent substrate 10 is formed ( (C) of FIG. 7). By forming a connection portion between the distribution electrode formed on the second translucent substrate and an external FPCB (flexible printed circuit board), the lower plate portion of the resistive touch screen panel according to the present invention is formed.

That is, the present invention proposes a method of avoiding distortion of the surface of the first light-transmissive substrate due to mechanical distortion caused when joining the upper plate portion on which the window frame film is formed by a conventional external connection FPCB (flexible printed circuit board).

Through-holes are drilled through a predetermined portion of the lower plate so that wiring electrodes and FPCBs (flexible printed circuit boards) for external connection can be formed on the back side of the lower plate, and the electrode on the upper plate and the wiring electrode under the lower plate are conductive through the electrode connection holes of the upper plate. The present invention provides a method of making electrical connections by using paste dispensing or electrical conductors, and connecting the electrodes of the lower plate and the lower surface of the lower plate through a connection hole.

In particular, when forming a black window, when forming a window on the transparent conductive film of the upper plate using a low conductive paint of a predetermined black system, after forming a high carbon black film Through the method of forming a highly conductive electrode that can act as an electrode can finally eliminate the color difference of the window of the black system seen from the upper surface of the top plate.

In the present invention as described above has been described by the specific embodiments, such as specific components and limited embodiments and drawings, but this is provided to help a more general understanding of the present invention, the present invention is not limited to the above embodiments. For those skilled in the art, various modifications and variations are possible from these descriptions.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and all the things that are equivalent to or equivalent to the claims as well as the following claims will belong to the scope of the present invention. .

When providing the present invention as described above, by designing the portion to be visually hidden, including the electrode structure formed on the touch screen in the form of a window having a conventional beautiful window frame, it is possible to increase the design of the touch screen. In addition, the FPCB (Flexible Printed Circuit Board), which connects the electrodes of the touch screen with an external power source, is made on the back side of the lower substrate, thereby avoiding the bending of the exterior of the upper panel and increasing the degree of freedom of design.

In addition, in the case of forming a black window, in the case of using a low black conductive paint having a predetermined black system, the black window is formed on the transparent conductive film of the upper plate, and then a black film having high conductivity of carbon series is formed. Through the method of forming a highly conductive electrode that can act as an electrode after it can be finally eliminated the color difference due to the formation of the electrode of the window of the black system seen from the upper surface of the top plate.

Claims (15)

An upper plate having a first light-transmissive substrate, a first transparent conductive film laminated on the first light-transmissive substrate, and a first electrode for electrical connection; And A lower plate portion having a second light-transmissive substrate, a second transparent conductive film laminated on the second light-transmissive substrate, and a second electrode for electrical connection; The upper plate and the lower plate are joined to each other, and at least one opaque window frame film is formed between the first transparent conductive film and the first electrode to surround the side of the first transparent conductive film. panel. In claim 1, The material used for at least one of the window frame film, the first electrode, and the second electrode includes at least one of carbon, chromium, aluminum, nickel, stainless steel, silver, copper, gold, titanium nitride, silver, and tin. Resistive touch screen panel, characterized in that. The method of claim 1, The window frame is made of a black paint, The first electrode is a resistive touch screen panel, characterized in that the coating is made of silver. The method according to any one of claims 1 to 3,  The resistance value of the window frame film is a resistive touch screen panel, characterized in that larger than the resistance value of the first transparent conductive film. The method according to any one of claims 1 to 3, Resistive touch screen panel, characterized in that the window frame membrane has a resistance value of 100Ω / □ ~ 100MΩ / □ range. The method of claim 1, The window frame is made of a black paint,  The first electrode is formed of a carbon-based paint material, and then a resistive touch screen panel, characterized in that formed on the paint based on a high conductivity. A first light transmitting substrate; An upper plate portion having a first transparent conductive film laminated on the light transmissive substrate and a first electrode for electrical connection; A second translucent substrate; A lower plate portion including a second transparent conductive film laminated on the second light-transmissive substrate, a second electrode for electrical connection, and a distribution electrode formed on the back surface of the light-transmissive substrate, The upper plate portion and the lower plate portion are bonded to each other, wherein the first electrode, the second electrode and the wiring electrode is a resistive touch screen panel, characterized in that connected via holes filled with a plurality of conductive materials. The method of claim 7, wherein The resistive touch screen panel of claim 1, further comprising at least one opaque window frame film surrounding the side surface of the first transparent conductive film between the first transparent conductive film and the first electrode. The method according to claim 7 or 8, The resistive touch screen panel of claim 1, wherein the first electrode, the second electrode, and the wiring electrode are connected to each other using a paste made of silver through the through hole. The method according to claim 7 or 8, The contact portion of the conductive material and the first electrode, the second electrode and the wiring electrode is a resistive touch screen panel, characterized in that made of a paste made of silver. Forming a top plate including a first transparent conductive film formed on one surface of a first transparent substrate, at least one opaque window frame film surrounding a side surface of the first transparent conductive film, and a first electrode; Forming a lower plate part including a second transparent conductive film, a second transparent conductive film, and a second electrode formed on one surface of a second light-transmissive substrate; And, Method of manufacturing a resistive touch screen panel comprising the step of bonding the upper plate and the lower plate. The method of claim 11, Forming the top plate portion, Forming a transparent conductive film on the first transparent substrate; Forming at least one opaque window frame film surrounding a side surface of the first transparent conductive film; Forming a buffer layer on the window frame film; And And forming a first electrode made of a conductive film for electrodes on the buffer layer. The method according to claim 11 or 12, wherein Forming the lower plate portion, Forming a second transparent conductive film on the second transparent substrate; Forming a plurality of through holes penetrating the second light-transmissive substrate and the second transparent conductive film, and forming an electrode on the second transparent conductive film; And And forming a wiring electrode on the back surface of the second light-transmissive substrate. The method of claim 13, The method of manufacturing a resistive touch screen panel by filling a paste made of silver into the through hole to electrically connect the electrodes. The method of claim 13, The conductive material is filled in the through hole, and the contact portion of the first electrode, the second electrode and the wiring electrode is a manufacturing method of the resistive touch screen panel, characterized in that using a paste made of silver material.

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