KR20110136092A - Capacitive touch panel of integrated window panel type - Google Patents

Abstract

PURPOSE: A window panel structure and window panel integration capacitance touch panel is provided to prevent the disuse of a window panel by forming a design layer on a capacitance sensor. CONSTITUTION: A window panel integration capacitance touch panel(110) includes a window panel(110), a capacitance sensor(130), a design layer(120), and a transparent adhesive layer(140). The design layer is formed on the capacitance sensor and is overlapped at the boundary of the window panel. The transparent adhesive layer is attached at the bottom of the window panel. The transparent adhesive layer covers the design layer and the capacitance sensor. The capacitance sensor includes a capacitance sensor board and a conductive film.

Description

Capacitive touch panel of integrated window panel type

The present invention relates to a window panel structure and a window panel integrated capacitive touch panel including the same.

The window panel integrated capacitive touch panel is configured by forming a capacitive sensor on the window panel forming the window. For example, the window panel integrated capacitive touch panel forms a capacitive sensor on a film or glass substrate and then forms the window panel. The bottom surface of the window panel may be manufactured by attaching a capacitive sensor directly on the bottom surface of the window panel.

The window panel may be formed of tempered glass or plastic material. When the window panel is formed of tempered glass, it is required to attach a film or an adhesive which may play a role of preventing scattering. After manufacturing tempered glass by cell unit, a design layer for forming a window by cell unit is deposited or printed.

The design layer must be printed or deposited on a cell-by-cell basis, resulting in poor handling and poor productivity. In addition, there was a problem that the expensive tempered glass should be discarded when a defect occurs during printing.

The present invention was created to solve the problems described above, the problem to be solved by the present invention is a window that can solve problems such as discarding the window panel that may be caused when the design layer is formed on the lower surface of the window panel It is to provide a panel integrated capacitive touch panel.

Window panel integrated capacitive touch panel according to an embodiment of the present invention for achieving the above object is formed on the capacitive sensor to be disposed at least partially overlapping the window panel, the capacitive sensor, the edge of the window panel. And a transparent adhesive layer formed to cover the top of the design layer and the capacitive sensor and attaching the design layer and the capacitive sensor to the bottom surface of the window panel.

The capacitive sensor may include a capacitive sensor substrate, a conductive film and a circuit wiring formed on the capacitive sensor substrate, and the design layer may be formed on the conductive film and the circuit wiring.

The capacitive sensor may include a capacitive sensor substrate, a conductive film and a circuit wiring formed on the capacitive sensor substrate, and a transparent planarization film formed on the conductive film and the circuit wiring, and the design layer includes the transparent planarization film. It can be formed on.

A window panel integrated touch panel according to another exemplary embodiment of the present invention may include a window panel, a first substrate disposed below the window panel, and an upper surface of the first substrate so as to be at least partially overlapped with an edge of the window panel. A first transparent adhesive layer formed to cover the upper surface of the first substrate and the design layer, wherein the first transparent adhesive layer attaches the first substrate and the design layer to the lower surface of the window panel; A capacitive sensor disposed thereon, and a second transparent adhesive layer attaching the capacitive sensor to the lower surface of the first substrate.

On the other hand, the window panel structure according to an embodiment of the present invention, a window layer, a film substrate, a design layer formed on the upper surface of the film substrate so as to be at least partially overlapping the edge of the window panel, and the film substrate and the And a transparent adhesive layer formed to cover the top surface of the design layer and attaching the film substrate and the design layer to the bottom surface of the window panel.

According to another exemplary embodiment of the present invention, a window panel integrated capacitive touch panel may include a design layer formed on an upper surface of the film substrate so as to be at least partially overlapped with a window panel, a film substrate, and an edge of the window panel, the film And a transparent adhesive layer formed to cover a top surface of the substrate and the design layer and attaching the film substrate and the design layer to the bottom surface of the window panel, and a capacitive sensor formed on the bottom surface of the film substrate.

According to another aspect of the present invention, a window panel structure includes a window layer, a film substrate, a design layer formed on a lower surface of the film substrate so as to be at least partially overlapped with an edge of the window panel, and the film substrate and the And a transparent adhesive layer formed to cover the bottom surface of the design layer and attaching the film substrate and the design layer to the top surface of the window panel.

On the other hand, the capacitive touch panel of the window panel integrated according to another embodiment of the present invention, the design layer is formed on the lower surface of the film substrate so as to be at least partially overlapping the window panel, the film substrate, the edge of the window panel A transparent adhesive layer formed to cover the lower surface of the film substrate and the design layer to attach the film substrate and the design layer to the upper surface of the window panel, and a capacitive sensor formed on the lower surface or the upper surface of the window panel. Include.

On the other hand, the capacitive touch panel of the window panel integrated according to another embodiment of the present invention, the design layer is formed on the lower surface of the film substrate so as to be at least partially overlapping the window panel, the film substrate, the edge of the window panel And a capacitive sensor formed on an upper surface of the window panel, and a transparent adhesive layer formed to cover the lower surface of the film substrate and the design layer to attach the film substrate and the design layer to an upper surface of the capacitive sensor. do.

According to the present invention, the design layer is not formed directly on the bottom surface of the window panel, but is formed on the capacitive sensor and attached to the window panel or formed on a separate substrate and attached to the window panel, so that the window panel may be formed even when the design layer is formed incorrectly. It can overcome the problem of disposal.

In addition, when the design layer is formed on a separate substrate and attached to the glass substrate, a pattern that cannot be implemented in the glass may be formed on a separate substrate, thereby forming a wider variety of patterns.

1 is a perspective view of an information communication device to which a window panel integrated capacitive touch panel according to an exemplary embodiment of the present invention is applied.
FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1.
3 is an exploded perspective view of a window panel integrated capacitive touch panel according to an exemplary embodiment of the present invention.
4 is a cross-sectional view of a window panel integrated capacitive touch panel according to another embodiment of the present invention.
5 is an exploded perspective view of the window panel integrated capacitive touch panel of FIG. 4.
6 is a cross-sectional view of a window panel integrated capacitive touch panel according to another exemplary embodiment of the present invention.
FIG. 7 is an exploded perspective view of the window panel integrated capacitive touch panel of FIG. 6.
8 is a cross-sectional view of a window panel according to an embodiment of the present invention.
9 is a cross-sectional view of a capacitive touch panel integrated with a window panel according to another embodiment of the present invention.
10 is a cross-sectional view of a window panel according to another embodiment of the present invention.
11 is a cross-sectional view of a capacitive touch panel integrated with a window panel according to another embodiment of the present invention.
12 is a cross-sectional view of a capacitive touch panel integrated with a window panel according to another embodiment of the present invention.

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

In the drawings, the thickness of layers, films, panels, regions, etc., are exaggerated for clarity. Like parts are designated by like reference numerals throughout the specification. When a part such as a layer or film is said to be "on" or "below" another part, this includes not only the other part "directly above" or "just below" but also another part in the middle. . On the contrary, when a part is “just above” or “just below” another part, there is no other part in the middle.

As shown in FIG. 1, the capacitive touch panel 100 integrated with the window panel according to the exemplary embodiment of the present invention may be applied to an information communication device 10 such as a mobile phone or a PDA.

2 and 3, the window panel integrated capacitive touch panel 100 according to the embodiment of the present invention includes a window panel 110. For example, the window panel 110 may have a substantially rectangular plate shape, and may be formed of glass or synthetic resin such as acrylic having light transmittance. In FIG. 2, the rest of the information communication apparatus except for the touch panel is omitted for convenience of illustration.

For example, the window panel 110 may be formed of tempered glass or a synthetic resin material such as acrylic, PMMA, or PC.

The design layer 120 is formed on the capacitive sensor 130, and the design layer 120 and the capacitive sensor 130 are attached to the bottom surface of the window panel 110 by the transparent adhesive layer 140.

The capacitive sensor 130 is disposed below the window panel 110, and the capacitive sensor 130 may be configured in the form of a capacitive sensor having a structure known in the art. For example, the capacitive sensor 130 may include a transparent conductive film 131 and a conductive circuit wiring 133. The conductive film 131 may have various forms known in the art, and the circuit wiring 133 is formed to be selectively electrically connected to the outside of the conductive film 131. A flexible printed circuit (FPC) 135 for applying an electrical signal to the circuit wiring 133 may be connected to the circuit wiring 133. In addition, the conductive film 131 and the circuit wiring 133 may be formed on the capacitive sensor substrate 137 formed of glass or PET film, and the conductive film 131 may be formed of indume tin oxide (ITO). , Indium zinc oxide (IZO), zinc oxide (ZnO), or the like, may be formed by sputtering or depositing on the capacitive sensor substrate 137. The circuit wiring 133 may be formed by silk screen printing. It can be formed by printing.

According to an embodiment of the present invention, as shown in FIG. 2, the design layer 120 may be formed on the conductive layer 131 and the circuit wiring 133 of the capacitive sensor 130. That is, according to the embodiment of the present invention, after the design layer 120 is formed on the capacitive sensor 130, the capacitive sensor 130 and the design layer 120 are formed by the transparent adhesive layer 140. Is attached to the lower surface.

The design layer 120 is disposed to at least partially overlap the edge of the window panel 110. For example, as illustrated in the drawing, the design layer 120 may have a shape of a rectangular strip having a predetermined width along the edge of the window panel 110.

The design layer 120 may be formed of an opaque material. For example, the design layer 120 may be formed by printing or depositing a non-conductive opaque material by a silk screen method.

4 and 5 are cross-sectional views of a window panel integrated capacitive touch panel according to another exemplary embodiment of the present invention. The same reference numerals are used for the same components as the above-described embodiments, and descriptions of overlapping points will be omitted.

According to the present embodiment, the capacitive sensor 130 further includes a transparent planarization layer 139, and the design layer 120 is formed on the transparent planarization layer 139. That is, as shown in FIG. 4, the transparent flattening film 139 covering the conductive film 131 and the circuit wiring 133 of the capacitive sensor 130 is formed, and the design layer 120 includes the transparent flattening film ( 139 is formed along the edge. For example, the transparent flattening film 139 may be formed by applying an electrically insulating transparent synthetic resin or the like.

The transparent flattening film 139 is formed on the conductive film 131 constituting the capacitive sensor 130 and the circuit wiring 133, and the design layer 120 is formed thereon, whereby the conductive film 131 and the circuit wiring ( The design layer 120 may be stably formed in a state in which the step that may be generated by 133 is removed.

Hereinafter, a window panel integrated capacitive touch panel according to still another embodiment of the present invention will be described with reference to FIGS. 6 and 7. The same reference numerals are used for the same components as the above-described embodiments, and descriptions of overlapping points will be omitted.

According to the present embodiment, the design layer 120 is formed on the first substrate 150, and the design layer 120 and the first substrate 150 are formed on the window panel 110 by the first transparent adhesive layer 240. The capacitive sensor 130 is attached to the lower surface of the first substrate 150 by the second transparent adhesive layer 340.

For example, the first transparent adhesive layer 240 and the second transparent adhesive layer 340 may be formed of an optically clear adhesive (OCA).

Specifically, after the design layer 120 is formed along the edge of the upper surface of the first substrate 150, the first transparent adhesive layer 240 to cover the upper surface of the design layer 120 and the first substrate 150. It is bonded to the lower surface of the window panel 110 in the formed state.

For example, the first substrate 150 may be formed of a synthetic resin material such as PET, glass or acrylic, PMMA, PC, or the like.

Hereinafter, a window panel structure and a window panel integrated capacitive touch panel including the same will be described with reference to FIGS. 8 to 11. The same reference numerals are used for the same parts as in the above-described embodiment, and detailed description thereof will be omitted.

First, referring to FIG. 8, a window panel structure according to an embodiment of the present invention includes a window panel 110.

Meanwhile, the film substrate 170 is disposed below the window panel 110, and the design layer 120 is formed on the top surface of the film substrate 170 such that the design layer 120 is at least partially overlapped with the edge of the window panel 110. . The film substrate 170 may be formed of synthetic resin such as glass or PET.

The transparent adhesive layer 440 is formed to cover the top surfaces of the film substrate 170 and the design layer 120, and the film substrate 170 and the design layer 120 are formed by the transparent adhesive layer 440. 110 is attached to the bottom surface.

9, in the capacitive touch panel of the window panel integrated body according to the embodiment of the present invention, the capacitive sensor 130 is formed on the lower surface of the film substrate 170 of the window panel structure of FIG. 8. The capacitive sensor 130 may include the conductive film 131 and the circuit wiring 133 as described above.

Next, referring to FIG. 10, the film substrate 270 is disposed on the window panel 110, and the film substrate 270 is disposed so that the design layer 120 is at least partially overlapped with an edge of the window panel 110. Is formed on the lower surface. The film substrate 270 may be formed of a synthetic resin such as glass or PET.

The transparent adhesive layer 540 is formed to cover the bottom surface of the film substrate 270 and the design layer 120, and the film substrate 270 and the design layer 120 are formed by the transparent adhesive layer 540. 110 is attached to the upper surface.

In addition, referring to FIG. 11, according to the window panel integrated capacitive touch panel according to the exemplary embodiment, the capacitive sensor 130 is formed on the bottom surface of the window panel 110 of the window panel structure of FIG. 10. The capacitive sensor 130 may include the conductive film 131 and the circuit wiring 133 as described above.

9 and 11, a layer for protecting the conductive film 131 and the circuit wiring 133 may be formed when the capacitance sensor 130 is exposed downward.

Meanwhile, referring to FIG. 12, according to the window panel integrated capacitive touch panel according to another exemplary embodiment, the capacitive sensor 130 is formed on the upper surface of the window panel 110. The transparent adhesive layer 540 is formed to cover the lower surface of the film substrate 270 and the design layer 120 to attach the film substrate 270 and the design layer 120 to the upper surface of the capacitive sensor 130.

The transparent adhesive layers 440 and 540 of FIGS. 8 to 12 may be formed of an optically clear adhesive (OCA).

The term 'transparent' as used above is used to mean partially transparent as well as optically completely transparent.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and it is recognized that the present invention is easily changed and equivalent by those skilled in the art to which the present invention pertains. Includes all changes and modifications to the scope of the matter.

100: touch panel 110: window panel
120: design layer 130: capacitance sensor
131: conductive film 133: circuit wiring
137: capacitive sensor substrate 139: transparent planarization film
140, 440, 540: transparent adhesive layer 150: first substrate
170, 270: film substrate

Claims (9)

Window panel,
Capacitive sensor,
A design layer formed on the capacitive sensor so as to be at least partially overlapping an edge of the window panel; and
And a transparent adhesive layer formed to cover the design layer and the upper portion of the capacitive sensor and attaching the design layer and the capacitive sensor to the lower surface of the window panel. In claim 1,
The capacitive sensor includes a capacitive sensor substrate and a conductive film and a circuit wiring formed on the capacitive sensor substrate,
And the design layer is formed on the conductive film and the circuit wiring. In claim 1,
The capacitive sensor includes a capacitive sensor substrate, a conductive film and a circuit wiring formed on the capacitive sensor substrate, and a transparent planarization film formed on the conductive film and the circuit wiring,
The design layer is a window panel integrated capacitive touch panel formed on the transparent planarization film. Window panel,
A first substrate disposed under the window panel,
A design layer formed on an upper surface of the first substrate to be at least partially overlapped with an edge of the window panel;
A first transparent adhesive layer formed to cover the upper surface of the first substrate and the design layer, and attaching the first substrate and the design layer to the lower surface of the window panel;
A capacitive sensor disposed below the first substrate, and
The window panel integrated capacitive touch panel comprising a second transparent adhesive layer attaching the capacitive sensor to the bottom surface of the first substrate. Window panel,
Film substrate,
A design layer formed on an upper surface of the film substrate so as to be at least partially overlapped with an edge of the window panel; and
And a transparent adhesive layer formed to cover the upper surface of the film substrate and the design layer and attaching the film substrate and the design layer to the lower surface of the window panel. Window panel,
Film substrate,
A design layer formed on an upper surface of the film substrate so as to be at least partially overlapped with an edge of the window panel; and
A transparent adhesive layer formed to cover the top surface of the film substrate and the design layer to attach the film substrate and the design layer to the bottom surface of the window panel;
The capacitive touch panel of the window panel including a capacitive sensor formed on the lower surface of the film substrate. Window panel,
Film substrate,
A design layer formed on the bottom surface of the film substrate so as to be at least partially overlapped with an edge of the window panel; and
And a transparent adhesive layer formed to cover the lower surface of the film substrate and the design layer to attach the film substrate and the design layer to an upper surface of the window panel. Window panel,
Film substrate,
A design layer formed on the bottom surface of the film substrate so as to be at least partially overlapped with an edge of the window panel;
A transparent adhesive layer formed to cover the lower surface of the film substrate and the design layer to attach the film substrate and the design layer to an upper surface of the window panel;
Capacitive touch panel of the window panel including a capacitive sensor formed on the lower surface of the window panel. Window panel,
Film substrate,
A design layer formed on the bottom surface of the film substrate so as to be at least partially overlapped with an edge of the window panel;
A capacitive sensor formed on an upper surface of the window panel, and
And a transparent adhesive layer formed to cover the lower surface of the film substrate and the design layer and attaching the film substrate and the design layer to the upper surface of the capacitive sensor.

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