KR20130017901A - Touch-window - Google Patents

Abstract

PURPOSE: A touch window is provided to improve adhesion with an adhesive insulating layer by granting roughness to a printing pattern printed on a part of an adhesive surface with a touch sensor module. CONSTITUTION: A touch sensor module is adhered to a side of a transparent window(100) using an adhesive material layer(120). A printing pattern is formed on the transparent window or the touch sensor module. The printing pattern is formed on the transparent window or an adhesive surface between the touch sensor module and the adhesive material layer. The printing pattern has roughness on a surface. The printing pattern is printed in a laminating structure and forms roughness on the surface of the laminated printing pattern. The printing pattern is placed on an inactive area of a touch screen panel or an area of a transparent window corresponding to the inactive area.

Description

Touch window {TOUCH-WINDOW}

The present invention relates to a structure for forming a printed pattern of a touch window.

The touch panel includes a cathode ray tube (CRT), a liquid crystal display (LCD), a field emission display (FED), a plasma display panel (PDP) and an electroluminescent device. It is installed on the display surface of an image display device such as (ELD; Electro Luminescence Device), and the user presses the touch panel while watching the image display device to input predetermined information into the computer.

1 and 2 show the main components of such a capacitive touch panel. FIG. 1 shows a plan view of an adhesive structure of such a multilayer structure, and FIG. 2 shows a cross-sectional view taken along the X-ray of FIG. Referring to the drawings, the touch panel has a structure of an upper OCA 50 under the transparent window 10, an upper electrode layer 40, a lower OCA 30, and a lower electrode layer 20 below. In general, the lower portion is bonded to the liquid crystal panel (LCD) 60. The touch sensor module (TSP) formed by the bonding of the various layers cuts the above-described upper OCA 50, upper electrode layer 40, and lower OCA 30 for bonding with the FPCB module. ) Is provided with a bonding area (C) is exposed.

The above-described touch panel implements a printing pattern for implementing colors or covering internal wiring according to the design of the terminal device. The printing pattern is printed in a structure that is directly printed on the lower surface of the transparent window, but due to the thickness of the printing pattern. The adhesive force with the upper OCA 50 is lowered below the transparent window 10, resulting in a problem that leads to a failure.

The present invention has been made to solve the above-described problem, the object of the present invention is to give the roughness to the printed pattern printed on a part of the adhesive surface with the touch sensor module disposed on the lower portion of the transparent window and the adhesive material layer The present invention provides a technique for improving adhesion.

As a means for solving the above problems, the present invention is a transparent window; A touch sensor module (TSP) bonded to one surface of the transparent window via an adhesive material layer; It is possible to provide a touch window comprising a; a printed pattern formed on the transparent window or the touch sensor module (TSP).

In particular, the printing pattern may be formed on the contact surface of the transparent window or the touch sensor module (TSP) and the adhesive material layer.

The printing pattern may have a structure in which roughness is formed on a surface of the printing pattern.

In addition, the printed pattern may be printed in at least two laminated structures, and may be implemented such that roughness is formed on a surface of at least one printed pattern to be stacked.

In addition, the printing pattern may be disposed in an inactive area of the touch screen panel or an area of a transparent window corresponding to the inactive area.

The touch sensor module according to the present invention, to which the above-described printing pattern is applied, is patterned on a base substrate bonded to one surface of the transparent window via an adhesive material layer, and on one surface of the base substrate and on the other surface opposite to the one surface. It may be implemented in a structure including the first and second sensing electrode patterns.

In addition, the touch sensor module may be bonded to the transparent window via a first adhesive material layer, the first sensing electrode pattern layer having a sensing electrode formed on one surface thereof, and the second sensing electrode pattern layer formed on the other surface of the first sensing electrode pattern layer. A second sensing electrode pattern may be bonded to the adhesive material layer, and the sensing electrode may be formed on one surface thereof.

The touch sensor module may include first and second sensing electrode patterns formed directly on the transparent window and patterned to be insulated from each other.

The touch sensor module may include a base substrate bonded to one surface of the transparent window via an adhesive material layer, and first and second sensing patterns formed directly on one surface of the base substrate and patterned to be insulated from each other. It may be configured to include an electrode pattern.

According to the present invention, there is an effect to improve the adhesive strength with the adhesive material layer by applying roughness to the printed pattern printed on a part of the adhesive surface with the touch sensor module disposed in the lower portion of the transparent window.

In addition, when the printed pattern is formed in a multi-layered structure, surface roughness is provided to all or part of the multi-layered layers, thereby improving the adhesive strength.

1 and 2 show the structure of a conventional touch panel.
3 and 4 is a conceptual diagram showing the main configuration of the touch window according to the present invention.
5 to 7 illustrate various examples of the touch sensor module according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation according to the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description with reference to the accompanying drawings, the same reference numerals denote the same elements regardless of the reference numerals, and redundant description thereof will be omitted. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

3 and 4 are conceptual views illustrating the formation of a printing pattern P on the touch sensor module TSP and the transparent window 100 for explaining the gist of the present invention.

Referring to the structure shown in Figures 3 and 4, the touch window according to the present invention is a touch sensor module (TSP) is bonded to the transparent window 100 and the adhesive material layer 140 on one surface of the transparent window, And a printing pattern P formed on the transparent window or the touch sensor module TSP.

Specifically, the touch window according to the present invention is disposed under the transparent window 100 and the transparent window for receiving contact with the outside and is inactive with the screen area (V / A; view area) through the sensing electrode pattern layer. It includes a touch sensor module (TSP) for implementing a dead area (D / A). In this case, a printing pattern P may be implemented on one surface of the transparent window 100 or one surface of the touch sensor module. The printed pattern P is transparent corresponding to a position corresponding to a dead area (D / A) in which a wiring pattern for reading out a signal applied from a sensing electrode of the touch sensor module (TSP) to the outside is disposed. It may be formed in a single layer or multiple layers on one surface of the window or a dead area (D / A) of the touch sensor module.

In particular, in this case, by forming a surface roughness (rouchness) on the surface of the printing pattern (P) to improve the adhesion between the transparent window 100 and the adhesive material layer 140 to be combined with the touch sensor module (TSP). More preferably.

In addition, in the case of stacking the printed pattern in a multi-layer structure (101 to 103) as shown in FIG. 3, the length of the printed pattern of the lowermost layer 101 is formed longest according to the stacking order, and the length is sequentially formed to form a step toward the top. It is more preferable to implement a printing pattern with a structure to form a short. This effect can solve the poor adhesion (empty space is formed to form an air layer) between the end of the printing pattern and the adhesive material layer caused by the thickness of the printing pattern in the close contact with the adhesive material layer. .

In addition, as shown in Figure 4, when the printed pattern is laminated in a multi-layer structure (101 '~ 103') to form a laminated step of the printing pattern to be sequentially stacked in a stepped structure, the surface roughness (rouchness) on the surface of each printed pattern It is more preferable to form or provide surface roughness to the uppermost layer 103 'so as to improve adhesion to the adhesive material layer P.

As described above, the implementation of the printing pattern in the touch window according to the present invention is formed on the transparent window as shown in Figs. 3 and 4, or not shown, on the inactive area of the touch sensor module (TSP) It is also possible to form.

Hereinafter, the configuration of the touch sensor module to which the printed pattern structure according to the present invention is applied will be described briefly. In the above-described structure, the touch sensor module TSP formed at the bottom of the transparent window 100 may have a structure as shown in FIG. 5.

That is, it is formed in a structure including a base substrate (130, 110) and the sensing electrodes 132, 112 patterned on one surface of the base substrate or the other surface facing the one surface. That is, the first sensing electrode pattern layer, which is bonded to the transparent window 100 through the first adhesive material layer 140, and has a sensing electrode pattern 132 formed on one surface thereof, of the first sensing electrode pattern layer. The second adhesive material layer 120 may be bonded to the other surface via a second adhesive material layer 120, and may include a second sensing electrode pattern layer having a sensing electrode pattern 112 formed on one surface thereof. In particular, in this case, each of the first sensing electrode patterns 132 and the second sensing electrode patterns 112 may be formed on different base substrates 130 and 110 to be spaced apart from each other. In addition, the wiring patterns 131 and 111 are formed to be connected to the sensing electrodes 132 and 112, and one side of the transparent window 100 corresponding to the region in which the wiring patterns are formed is printed on the multilayer structure as described above. (P) may be implemented.

In addition, the adhesive material layer may be an OCA film, and the first and second sensing electrode pattern layers may include any one of indium-tin oxide (ITO), indium zinc oxide (IZO), or zinc oxide (ZnO) on a base substrate. The electrode pattern may be formed of one material.

Alternatively, unlike the structure of FIG. 5, as illustrated in FIG. 6, the touch sensor module adhered to the lower portion of the transparent window 200 through the adhesive material layer 220 is formed on one surface of the transparent window 200. A base substrate 230 bonded through the adhesive material layer 220, and first and second sensing electrode patterns 232 patterned on one surface of the base substrate 230 and the other surface opposite to the one surface. It can be implemented in a structure that is. In addition, it may be configured to further include a protective film 210 for protecting the sensing electrode pattern of the lower surface of the base substrate 230. In this case, the printing pattern P described above with reference to FIGS. 3 and 4 may be formed in a multilayer structure on the transparent window 200.

Alternatively, as illustrated in FIG. 7, the transparent window 300 is formed, the sensing electrode pattern 312 is patterned on the end surface of the base substrate 310, and the wiring part 311 is formed at the same time as the sensing electrode pattern. You can do that. However, since the first and second sensing electrode patterns are implemented on the same plane, the first sensing electrode layer for determining the first axis (eg, X axis) component of the contact is patterned on one surface, and Preferably, the second sensing electrode layer for determining a second axis (eg, Y-axis) component is patterned by implementing an arrangement insulated from the first sensing electrode layer. In this case, the printing pattern P is formed on one surface of the transparent window 300 as described above.

Of course, in FIG. 7, the configuration of forming the sensing electrode pattern layer on the same base substrate 310 on the same plane is exemplified. However, without the base substrate 310, the sensing electrode directly on one surface of the transparent window 300. It is also possible to form the pattern through the deposition and coating process.

The touch window according to the present invention can be attached to various display devices. That is, the display device may be an organic light emitting device, a plasma display panel, or the like, as well as a liquid crystal display. In this case, in order to prevent noise components generated by driving the display device from being transmitted to the touch screen module (TSP), causing a malfunction of the touch sensing panel, a blocking layer may be selectively disposed between the touch sensing panel and the display device. (Shield Layer) can also be arranged.

In the foregoing detailed description of the present invention, specific examples have been described. However, various modifications are possible within the scope of the present invention. The technical idea of the present invention should not be limited to the embodiments of the present invention but should be determined by the equivalents of the claims and the claims.

100, 200, 300: transparent window
110, 130, 230, and 310:
112, 132, 212, 312: sensing electrodes
120, 140, 220, 320: an adhesive insulating layer
TSP: Touch Sensor Module
V / A; View Area
D / A; Dead Area, Inactive Area
P, 101, 102, 103: print pattern

Claims (9)

Transparent window;
A touch sensor module (TSP) bonded to one surface of the transparent window via an adhesive material layer;
A printing pattern formed on the transparent window or the touch sensor module (TSP);
Touch window configured to include.
The method according to claim 1,
The print pattern,
The touch window is formed on the contact surface of the transparent window or the touch sensor module and the adhesive material layer.
The method according to claim 2,
The print pattern,
A touch window in which roughness is formed on a surface of the printed pattern.
The method according to claim 2,
The print pattern,
Printed with at least two laminated structures,
A touch window in which roughness is formed on a surface of at least one printed pattern to be stacked.
5. The method according to any one of claims 1 to 4,
The print pattern,
And a touch window disposed in an inactive area of the touch screen panel or an area of a transparent window corresponding to the inactive area.
The method according to claim 5,
The touch sensor module,
A base substrate bonded to one surface of the transparent window via an adhesive material layer;
And a first and second sensing electrode patterns patterned on one surface of the base substrate and the other surface of the base substrate.
The method according to claim 5,
The touch sensor module,
A first sensing electrode pattern layer adhered to the transparent window via a first adhesive material layer and having a sensing electrode formed on one surface thereof;
A touch window comprising: a second sensing electrode pattern bonded to the other surface of the first sensing electrode pattern layer through a second adhesive material layer and having a sensing electrode formed on one surface thereof.
The method according to claim 5,
The touch sensor module,
Is formed directly on the transparent window,
A touch window comprising first and second sensing electrode patterns patterned to be insulated from each other.
The method according to claim 5,
The touch sensor module,
A base substrate bonded to one surface of the transparent window via an adhesive material layer;
And a first and second sensing electrode patterns formed directly on either side of the base substrate and patterned to be insulated from each other.

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