WO2017006757A1

WO2017006757A1 - Antenna-equipped touchscreen

Info

Publication number: WO2017006757A1
Application number: PCT/JP2016/068347
Authority: WO
Inventors: 柴田　淳一; 寅烈文; 奥村　秀三
Original assignee: 日本写真印刷株式会社
Priority date: 2015-07-03
Filing date: 2016-06-21
Publication date: 2017-01-12

Abstract

[Problem] To ensure that the detection characteristics of a touchscreen are not affected in a touchscreen using an antenna-equipped touch panel and a liquid crystal display device (LCD). [Solution] A touchscreen 2 in which an antenna-equipped touch panel is layered on a liquid crystal display device 51. The antenna-equipped touch panel 1 is provided with: a substrate 40; two types of electrodes 31, 36 comprising a conductive film positioned on the substrate; antenna elements 21, 29; and wiring 32, 37, 22 leading out from said antenna elements 21, 29. The liquid crystal display device 51 is provided with an LCD conductor 52 surrounding a display area 53. The antenna-equipped touch panel is layered on the liquid crystal display device and a low dielectric constant adhesive layer is sandwiched between the LCD conductor and a frame part of the antenna-equipped touch panel. The value of the dielectric constant (Er) of the low dielectric constant adhesive layer is greater than 1.0 and equal to or less than 2.5.

Description

Touch screen with antenna

The present invention relates to a touch screen with an antenna in which an antenna for communication is provided on a touch screen which is a display and input unit of a device having a wireless communication function.

Touch screens are used as display and input units for devices such as smart phones, mobile phones, and tablet terminals. A liquid crystal display device is widely used as a display unit of a touch screen. In addition, these devices are provided with a transmission / reception antenna for wireless communication.

These devices incorporate a touch panel having a contact detection function (see, for example, Patent Document 1) and an antenna having a radio signal transmission / reception function that is separate from the touch panel.

Both the touch panel electrode and antenna element can be formed of a conductive film. Therefore, if the antenna-equipped touch screen is manufactured and incorporated in these devices, simplification of the manufacturing process of these devices, space saving of parts, and the like are realized.

JP 2010-238052 A

The inventors have found that when a liquid crystal display device (LCD) is used as a display device in the course of research and development in order to put the touch screen with an antenna into practical use, erroneous touch panel detection and a ghost phenomenon occur.

The problem to be solved by the present invention is to obtain a touch screen with an antenna that does not adversely affect the detection characteristics of the touch screen in a touch screen using an LCD with a touch panel and an antenna.

Other problems of the present invention will become apparent from the description of the present invention.

The antenna is normally in a low impedance state. The electrodes of the touch panel are usually in a higher impedance state than the antenna. For this reason, when the electrode and the antenna element are arranged close to each other, electrical coupling occurs between the two, thereby causing erroneous detection of the touch panel, occurrence of a ghost phenomenon, and the like. However, the inventors have found that erroneous detection or the like still occurs even when the antenna element and the electrode are sufficiently separated and electrically separated from each other in a touch panel provided with an antenna.

Furthermore, by carefully observing the adverse effects, it was found that when touch input is performed simultaneously with a plurality of antenna elements formed and individually switched to perform transmission and reception, touch panel misdetection and ghost phenomenon occur. That is, not only when the antenna element is connected to the wireless transmission / reception circuit, but also when the antenna element is disconnected from the wireless transmission / reception circuit and is in an electrically floating state, erroneous detection has occurred.

Based on these considerations, it was found that the electrical connection between the conductive film in the frame portion of the touch panel with antenna and the LCD conductor surrounding the display area of the liquid crystal cover device was the cause, and the present invention was reached as a solution to this problem. It is.

Measures for solving the problems are described below. For ease of understanding, description will be made with reference numerals corresponding to the embodiments of the present invention, but the present invention is not limited to the embodiments. A number as a symbol may indicate a part or the like collectively. When an individual part or the like is indicated in an embodiment described later, an alphabetic suffix may be added after the number.

A touch screen according to an aspect of the present invention is a touch screen in which a touch panel with an antenna is stacked on a liquid crystal display device,
The antenna-attached touch panel (1) includes a base material, two types of electrodes made of a conductive film positioned on the base material, an antenna element (21), and wiring drawn from them,
The liquid crystal display device (51) includes an LCD conductor (52) surrounding the display area (53),
The touch panel with antenna is laminated on the liquid crystal display device,
A low dielectric constant adhesive layer (61) is sandwiched between the LCD conductor and the frame portion of the touch panel with antenna,
The low dielectric constant adhesive layer has a relative dielectric constant (Εr) of more than 1.0 and not more than 2.5.

In the touch screen according to this embodiment, the position of the antenna element in the in-plane direction on the touch panel may be positioned at any place without any limitation. In other words, in the plan perspective view of the touch screen, the antenna element is
(1) It may be in a position overlapping the LCD conductor,
(2) It may be in a position overlapping the display area,
(3) A part thereof may overlap the LCD conductor, and the remaining part may overlap the display area.

Moreover, in the touch screen according to the present embodiment, the position of the antenna element in the thickness direction on the touch panel may be positioned at any place without any limitation. For example, the layer configuration of the touch panel with antenna is
(1) Two types of electrodes and the antenna element may be disposed on a single substrate,
(2) Even if one base material on which one of the electrodes and the antenna element are arranged is overlapped with another base material on which the other electrode is arranged but no antenna element is placed, Often,
(3) One base material on which two kinds of electrodes are arranged and another base material on which an antenna element is arranged may be superimposed,
(4) Two substrates on which one type of electrode is arranged and another substrate on which an antenna element is arranged may be superimposed.

Further, in the touch screen according to this embodiment, the low relative dielectric constant adhesive layer is not only between the LCD conductor and the frame portion of the touch panel with an antenna, but also between the substrates on which the conductive film of the touch panel with an antenna is formed. May be present in at least one of the intervals. Further, the low dielectric constant adhesive layer may be present in a planar region overlapping the entire surface of the liquid crystal display device.

Moreover, in the touch screen according to the present embodiment, the low dielectric constant adhesive layer may include a solid substance having a low relative dielectric constant in the adhesive, or air bubbles in the adhesive. It may be a thing.

A touch screen according to another aspect of the present invention is a touch screen in which a touch panel with an antenna is stacked on a liquid crystal display device,
The antenna-attached touch panel (1) includes a base material, two types of electrodes made of a conductive film positioned on six materials, an antenna element (21), and wiring drawn from them,
The liquid crystal display device (51) includes an LCD conductor (52) surrounding the display area (53),
The touch panel with antenna is laminated on the liquid crystal display device,
Between the LCD conductor and the frame portion of the antenna-attached touch panel, an air layer having a relative dielectric constant (Εr) of 1.0 is provided.
An interval between the LCD conductor and the conductive film in a frame portion of the antenna-attached touch panel is 0.1 mm or more and 2.0 mm or less.

In the touch screen according to the present embodiment, the position of the antenna element on the touch panel may be positioned at any place without any limitation. In other words, in the plan perspective view of the touch screen, the antenna element is
(1) It may be in a position overlapping the LCD conductor,
(2) It may be in a position overlapping the display area,
(3) The LCD conductor may be partially overlapped with the remaining portion overlapping the display area.

The present invention, preferred embodiments of the present invention, and components included in these embodiments can be implemented in combination as much as possible.

The touch screen with an antenna according to an aspect of the present invention includes a specific low dielectric constant adhesive layer between the LCD conductor and the frame portion of the touch panel with an antenna, in addition to other invention-specific matters. Therefore, the degree of electrical coupling between the conductive film in the frame portion of the touch panel with antenna and the LCD conductor is reduced. For this reason, the touch screen with an antenna is advantageous in that no false detection or ghost phenomenon occurs. In particular, it is useful for a device in which a plurality of antenna elements are arranged and used by switching them.

The touch screen with an antenna according to another aspect of the present invention has a relative dielectric constant (Εr) of 1 between the LCD conductor and the frame portion of the touch panel with an antenna, in addition to other specific matters of the invention. 0.0 and having a specific gap between the conductive film in the frame portion of the frame portion of the touch panel with antenna and the LCD conductor, the conductive film in the frame portion and the LCD conductor The degree of electrical coupling with is reduced. For this reason, the touch screen with an antenna is advantageous in that no false detection or ghost phenomenon occurs. In particular, it is useful for a device in which a plurality of antenna elements are arranged and used by switching them.

FIG. 1 is an exploded view of a touch screen. FIG. 2 is a cross-sectional explanatory view of the first touch screen. FIG. 3 is an explanatory cross-sectional view of the second touch screen. FIG. 4 is an explanatory cross-sectional view of the third touch screen. FIG. 5 is an explanatory cross-sectional view of the fourth touch screen. FIG. 6 is a cross-sectional explanatory diagram of the fifth touch screen. FIG. 7 is an explanatory diagram of the planar shape of the antenna element. FIG. 8 is an exploded explanatory view showing a schematic configuration of the liquid crystal display device. FIG. 9 is an explanatory cross-sectional view of a seventh touch screen. FIG. 10 is an explanatory cross-sectional view of the eighth touch screen.

Hereinafter, the touch screen according to the embodiment of the present invention will be further described with reference to the drawings. In the drawings referred to in this specification, in order to facilitate the understanding of the present invention, some of the components are schematically illustrated in an exaggerated manner. For this reason, the dimension, ratio, etc. between components may differ from a real thing. Further, the dimensions, materials, shapes, relative positions, etc. of the members and parts described in the embodiments of the present invention are not intended to limit the scope of the present invention to those unless otherwise specified. It is merely an illustrative example. Furthermore, when using terms such as top and bottom, left and right, and length and width with reference to the drawings, they are used with the intention of indicating the positional relationship between the members, and the scope of the present invention is limited only to these terms. It is not intended to be limited.

FIG. 1 is an exploded view of the touch screen 2. The touch screen 2 is formed by laminating a touch panel 1 with an antenna on a liquid crystal display device 51. A glass plate 3 as a surface layer base material is laminated on the antenna-attached touch panel 1.

The detection method of the antenna 6 touch panel 1 is a capacitance method. The antenna-attached touch panel 1 has a plurality of receiving electrodes (Tx) 36 disposed on the surface of the first base material 40. A reception wiring 37 is drawn out from the reception electrode (Rx) 36.

A plurality of transmission electrodes (Tx) 31 are arranged on the back surface 140 of the first base material 40. A transmission wiring 32 is drawn from the transmission electrode (Tx) 31. In FIG. 1, the back surface 140 of the first base material 40 is surrounded by a broken line and separated from the first base material 40.

The transmission electrode (Tx) 31 and the reception electrode (Rx) 36 are visible light transparent. The transmission electrode (Tx) 31 and the reception electrode (Rx) 36 are made of a conductive film. The transmission wiring 32 and the reception wiring 37 are made of a conductive film.

In the present invention and this specification, the transmission electrode (Tx) 31 and the reception electrode (Rx) 36 are collectively referred to as an electrode, and the transmission wiring 32 and the reception wiring 37 are collectively referred to as a second wiring.

The antenna element 21 and the antenna element 29 are formed on the surface of the first base material 40 and in the frame portion of the antenna-equipped touch panel 1. In FIG. 1, the planar shape of the antenna element 21 is a belt shape along one side of the outline of the antenna-equipped touch panel 1. The planar shape of the antenna element 29 is an L shape along two adjacent sides of the outline of the touch panel 1 with an antenna.

In the present invention, the planar shape of the antenna element may be an arbitrary shape. Regardless of the shape of the planar shape of the antenna element, a touch screen including the invention-specifying matters of the present invention and equivalents thereof are included in the technical scope of the present invention. The planar shape of the antenna element having the L shape and the belt shape shown in FIG. 1 is an example.

Further, FIG. 7 shows five antenna elements having different planar shapes. The antenna element 24 has a T-shape, and the antenna element 25 has a portion where the T-shape is thicker than the other portions. The antenna element 26 has a U-shape, and the antenna element 27 has a portion where the U-shape is thicker than the other portions. The antenna element 28 has a rectangular shape close to a square. The planar shape of the antenna element described above is an example.

The first wiring 22 is drawn from the antenna element 21 and extends in the frame portion to the contour line of the touch panel 1. The antenna element 21 and the first wiring 22 drawn from the antenna element 21 are electrically connected.

The first wiring 22 is drawn from the antenna element 29 and extends in the frame portion to the contour line of the touch panel 1. The antenna element 29 and the first wiring 22 drawn from the antenna element 29 are electrically connected.

The antenna element 21, the antenna element 29, and the first wiring 22 are made of a conductive film. The antenna element 21, the antenna element 29, and the first wiring 22 are usually opaque to visible light. This is because both are usually arranged in the frame portion of the antenna-equipped touch panel 1, so that there is no need to make visible light transparent.

The frame part of the touch panel with antenna 1 is a peripheral part of the touch panel with antenna in plan view. Usually, the inside of the peripheral portion is an operation area of the touch panel and a display area of the display device. The frame portion is usually not an operation area and is not a display area.

When the antenna element is arranged on the frame portion of the touch panel 1 with an antenna, there is an advantage that it can be made of a material that is opaque to visible light as described above, and there is an advantage that the first wiring can be shortened.

However, the antenna element may be arranged in the display area of the display device.

The antenna element arranged in the display area of the display device will be made of a conductive film that is transparent to visible light. Further, the antenna element and the first wiring may be transparent to visible light regardless of whether the antenna element is disposed in the frame portion or the display area.

In the present invention and the present specification, the antenna element and the first wiring are collectively referred to as an antenna pattern.

A plurality of antenna elements are usually used by connecting to a wireless transmission / reception circuit of a device such as a smart phone. During the time when one antenna element is connected to the circuit, the other antenna element is separated from the circuit and other electrical components. That is, it is in an electrically floating state or in a grounded state.

In the liquid crystal display device 51, an LCD conductor 52 is disposed around the display area 53.

Referring to FIG. 8, the liquid crystal display device 51 includes a liquid crystal panel 54, an LCD conductor 52, and a back case 56. The LCD conductor 52 and the back case 56 hold the liquid crystal panel 51.

The LCD conductor 52 has an outer shape along the periphery of the liquid crystal panel 54, and has a substantially rectangular frame-shaped top plate 532 and a wall portion 521 erected from each side of the top plate 532. The LCD conductor 52 is made of metal. An opening 531 for exposing the display area of the liquid crystal panel 54 is formed in the top plate 532. The opening 531 is the display surface 53 in the liquid crystal display device 51.

The LCD conductor 52 is sometimes called a shield case or a metal shield case.

The back case 56 has an outer shape along the periphery of the liquid crystal panel 54, and includes a bottom plate 562 having a substantially rectangular frame shape and a wall portion 561 erected from each side of the bottom plate 562. The back case 56 is made of synthetic resin. The back case 56 may be made of metal.

The case 56 for back surface made of synthetic resin may be called a lower case. The metal back case is sometimes called a shield case together with the LCD conductor.

The LCD conductor 52 is a thin metal plate such as aluminum or stainless steel, or a thin layer of synthetic resin or a synthetic resin coating on the thin metal plate.

LCD conductor 52 is connected to ground. In smart phones, mobile phones, and tablet terminals, the ground is an electrical conductor connected to the negative side of the DC power supply, specifically, a chassis, a base of parts, and the like. The LCD conductor 52 is in a low impedance state.

FIG. 2 is a cross-sectional view of the first touch screen 2a.

The first touch screen 2a has a touch panel with an antenna laminated on the liquid crystal display device 51, and a glass plate 3 as a surface layer base material laminated thereon.

The second base material 41 has a transmission electrode (Tx) 31 in the operation area on the lower surface and a reception electrode (Rx) 36 in the operation area on the upper surface. The second wiring 32 (not shown) drawn from the transmission electrode (Tx) 31 and the second wiring 37 drawn from the reception electrode (Rx) 36 are arranged in the frame portion of the second base material 41. The antenna element 21 and the first wiring 22 are arranged on the frame portion on the lower surface of the second base material 41. The antenna element 21 and the first wiring 22 may be disposed on a frame portion on the upper surface of the second base material 41 (not shown).

A single second base material 41 on which an electrode, an antenna element, and wirings drawn from these electrodes are arranged constitutes a touch panel with an antenna.

The liquid crystal display device 51 has an LCD conductor 52 around the display area 53.

The liquid crystal display device 51 and the second base material 41 on which various conductive films are formed are fixed by a low relative dielectric constant adhesive layer 61a. In a plan perspective view (not shown) of the first touch screen 2a, the low dielectric constant adhesive layer 61a is present in at least a planar region overlapping the LCD conductor 52, and preferably in a planar region overlapping the entire surface of the liquid crystal display device 51. Exists. That is, the low relative dielectric constant adhesive layer 61a is sandwiched between the LCD conductor 52 and the frame portion of the antenna-attached touch panel.

The relative dielectric constant of the low relative dielectric constant adhesive layer 61a is usually more than 1.0 and 2.5 or less, and preferably 1.5 or more and 2.5 or less. If the relative dielectric constant of the low relative dielectric constant adhesive layer 61a is within this range, the degree of electrical coupling between the conductive film in the frame portion of the touch panel with antenna and the LCD conductor 52 can be reduced. Thereby, it is possible to prevent erroneous detection of the touch panel with an antenna and occurrence of a ghost phenomenon. Since the relative dielectric constant (Εr) of 1.0 is a value of the relative dielectric constant of air, an adhesive layer having a relative dielectric constant (Εr) of 1.0 or less is not feasible. In addition, when the value of the dielectric constant of a general adhesive layer that is normally used is about 3 to 6, and the value of the dielectric constant (率 r) exceeds 2.5, the effect of reducing the electrical coupling is obtained. No.

The reason why the low dielectric constant adhesive layer 61a is preferably present in a planar region overlapping the entire surface of the liquid crystal display device 51 is as follows. First, in the bonding process, if the same bonding agent is used for the entire processing area, it takes less time than bonding using a plurality of adhesives. Further, the low relative dielectric constant adhesive layer 61a intervenes on the entire surface of the liquid crystal display device 51, that is, the low relative dielectric constant adhesive layer 61a overlaps the display region of the liquid crystal display device. Depending on the operation mode of the liquid crystal display device, the display region may be at a GND potential, and particularly when the antenna element is arranged at a position overlapping the display region, the presence of the low relative dielectric constant adhesive layer 61a causes the antenna element to be There is also an effect that the electrical coupling degree of the display area can be reduced.

As an adhesive for the low relative dielectric constant adhesive layer 61a, for example, an adhesive in which a solid substance having a low relative dielectric constant is mixed with the adhesive and the apparent relative dielectric constant is lowered as compared with the adhesive before mixing is used. Can do. Instead of mixing the solid material, air bubbles may be mixed. Examples of the pre-mixing adhesive include an acrylic pressure-sensitive adhesive. When a low dielectric constant adhesive layer is provided only on the frame part of the antenna touch panel, there is no need to pay attention to the visibility of the display area. It is also possible to mix.

The second substrate 41 and the glass plate 3 are fixed with an adhesive layer 62. The adhesive layer 62 is an adhesive layer conventionally used for fixing a touch screen, and has a relative dielectric constant (Εr) of 3 to 6.

In the present invention and the present specification, “adhesion” or “adhesion layer” includes an adhesive or an adhesive layer. Adhesion is a term that means pressure-sensitive adhesion. The member that creates the adhesive layer may be an adhesive tape or an adhesive sheet. The adhesive layer may be formed by applying a liquid adhesive and curing it after processing. Also, the adhesive may exhibit viscous properties after application and processing.

FIG. 3 is a cross-sectional view of the second touch screen 2b.

In the second touch screen 2b, a touch panel with an antenna is stacked on the liquid crystal display device 51, and a glass plate 3 as a surface layer base material is stacked thereon.

The sixth electrode base 47 has a transmission electrode (Tx) 31 in the operation area on the lower surface thereof. The second wiring 32 drawn out from the transmission electrode (Tx) 31 is disposed in the frame portion of the sixth electrode base material 47 (not shown). The third substrate 42 has a receiving electrode (Rx) 36 in the operation area on the lower surface thereof. The second wiring 37 drawn out from the receiving electrode (Rx) 36 is disposed in the frame portion of the third base material 42. The third base member 42 has the antenna element 21 and the first wiring 22 on the frame portion on the lower surface thereof.

As in this example, when two substrates having a single type of electrode arranged on one side of a single substrate are used as a touch panel, the electrodes may be arranged on the upper surface of the substrate. It may be arranged on the lower surface of the substrate. The antenna pattern may be arranged on the same surface as the electrode arrangement surface of the substrate on which the electrodes are arranged, or may be arranged on a surface different from the electrode arrangement surface. Furthermore, the base material on which only the antenna pattern is arranged may be superimposed on the base material on which the electrode is arranged. In this case, the antenna pattern may be disposed on the upper surface of the substrate, or may be disposed on the lower surface of the substrate. Also, the order of stacking these two or three substrates is not particularly limited.

In the present invention and the present specification, a base material on which an antenna pattern is arranged is referred to as a “base material” regardless of whether or not an electrode is arranged. It is called “base material”.

The antenna element 21 in the third base material 42 is disposed on the frame portion of the antenna-attached touch panel. The antenna element 21 may be disposed in the display area portion. However, in this case, the third base material 42 is laminated immediately above the liquid crystal display device 51.

The third base material 42 on which both the receiving electrode (Rx) 36 and the antenna element 21 are arranged overlaps the sixth electrode base material 47 on which the transmitting electrode (Tx) 31 is arranged but no antenna element is arranged. In addition, the touch panel with antenna is configured.

The sixth electrode base material 47 on which the liquid crystal display device 51, the transmission electrode (Tx) 31, and the transmission electrode (Tx) 31 are formed is fixed by a low relative dielectric constant adhesive layer 61b. The sixth electrode base material 47 and the third base material 42 on which the respective conductive films are formed are fixed by a low relative dielectric constant adhesive layer 61c.

On the planar perspective view (not shown) of the second touch screen 2b, the low relative dielectric constant adhesive layer 61a and / or the low relative dielectric constant adhesive layer 61c is present in at least a planar region overlapping the LCD conductor 52, preferably It exists in a planar region that overlaps the entire surface of the liquid crystal display 51.

The relative dielectric constant of the low relative dielectric constant adhesive layer 61b and the low relative dielectric constant adhesive layer 61c is usually more than 1.0 and 2.5 or less, preferably 1.5 or more and 2.5 or less. When the relative dielectric constants of the low relative dielectric constant

adhesive layers

61b and 61c are within this range, the electrical coupling degree between the conductive film in the frame portion of the touch panel with antenna and the LCD conductor 52 can be reduced. Thereby, it is possible to prevent erroneous detection of the touch panel with an antenna and occurrence of a ghost phenomenon.

Since the relative dielectric constant (Εr) of 1.0 is a value of the relative dielectric constant of air, an adhesive layer having a relative dielectric constant (Εr) of 1.0 or less is not feasible. In addition, when the value of the dielectric constant of a general adhesive layer that is normally used is about 3 to 6, and the value of the dielectric constant (率 r) exceeds 2.5, the effect of reducing the electrical coupling is obtained. No.

The substrate 42 and the glass plate 3 are fixed with an adhesive layer 62. The adhesive layer 62 is an adhesive layer conventionally used for fixing a touch screen, and has a relative dielectric constant of 3 to 6.

In the touch panel with antenna, the low dielectric constant adhesive layer 61 c may be the adhesive layer 62. If a low dielectric constant adhesive layer is interposed between the LCD conductor and the touch panel with antenna, the degree of electrical coupling between the LCD conductor and the conductive film in the frame portion of the touch panel with antenna becomes small. is there.

However, if both of the low relative dielectric constant adhesive layer 61b and the low relative dielectric constant adhesive layer 61c are low relative dielectric constant adhesive layers, the effect of preventing electrical coupling is further increased.

FIG. 4 is a sectional view of the third touch screen 2c.

The third touch screen 2c has a touch panel with an antenna laminated on the liquid crystal display device 51, and a glass plate 3 as a surface layer base material laminated thereon.

The fifth electrode base 46 has a transmission electrode (Tx) 31 in the operation area on the lower surface and a reception electrode (Rx) 36 in the operation area on the upper surface. The second wiring 32 drawn from the transmission electrode (Tx) 31 and the second wiring 37 (not shown) drawn from the reception electrode (Rx) 36 are arranged on the frame portion of the fifth electrode base 46. The fourth base material 43 has the antenna element 21 and the first wiring 22 in the frame portion on the lower surface thereof. The antenna element 21 and the first wiring 22 may be on the upper surface of the fourth base material 43 (not shown).

The fourth base material 43 on which the antenna element 21 is arranged is overlapped with the fifth electrode base material 46 on which the reception electrode (Rx) 36 and the transmission electrode (Tx) 31 are arranged but no antenna element is arranged. The antenna touch panel is configured.

The liquid crystal display device 51 and the fourth base material 43 are fixed by a low dielectric constant adhesive layer 61e. On the planar perspective view (not shown) of the third touch screen 2c, the low dielectric constant adhesive layer 61e is present in at least a planar region overlapping the LCD conductor 52, and preferably a planar region overlapping the entire surface of the liquid crystal display device 51. Exists.

The relative dielectric constant of the low relative dielectric constant adhesive layer 61e is usually more than 1.0 and 2.5 or less, preferably 1.5 or more and 2.5 or less. When the relative dielectric constant of the low dielectric constant adhesive layer 61e is in this range, the electrical coupling degree between the conductive film in the frame portion of the touch panel with antenna and the LCD conductor 52 can be reduced. Thereby, it is possible to prevent erroneous detection of the touch panel with an antenna and occurrence of a ghost phenomenon.

The fourth base material 43 and the fifth electrode base material 46 on which the respective conductive films are formed are fixed by the adhesive layer 62b. The substrate 46 and the glass plate 3 are fixed by an adhesive layer 62a. The adhesive layer 62a and the adhesive layer 62b are adhesive layers conventionally used for fixing a touch screen, and have a relative dielectric constant of 3 to 6.

In the touch panel with antenna, the adhesive layer 62b may be the low relative dielectric constant adhesive layer 61b. As the number of low dielectric constant adhesive layers increases, the effect of preventing electrical coupling is further increased.

FIG. 9 is a sectional view of the seventh touch screen 2f.

The seventh touch screen 2f is formed by laminating a touch panel with an antenna on the liquid crystal display device 51, and laminating a glass plate 3 as a surface layer base material thereon.

The fifth electrode base 46 has a transmission electrode (Tx) 31 in the operation area on the lower surface thereof and a reception electrode (Rx) 37 in the operation area on the upper surface thereof. The second wiring 32 drawn from the transmission electrode (Tx) 31 and the second wiring 37 (not shown) drawn from the reception electrode (Rx) 36 are arranged on the frame portion of the fifth electrode base 46. The fourth base material 43 has the antenna element 21 in the operation region on the lower surface thereof and the first wiring 22 in the frame portion. The antenna pattern may be on the upper surface of the fourth base material 43 (not shown). The antenna element 21 is arranged at a position overlapping the display area 53 of the liquid crystal display device 51. The display area 53 is almost equal to the touch area of the touch panel.

The liquid crystal display device 51 and the fourth base material 43 are fixed by a low dielectric constant adhesive layer 61e. On the plane perspective view (not shown) of the seventh touch screen 2f, the low relative dielectric constant adhesive layer 61e is present in at least a plane area overlapping the LCD conductor 52, and preferably a plane area overlapping the entire surface of the liquid crystal display device 51. Exists.

The relative dielectric constant of the low relative dielectric constant adhesive layer 61e is usually more than 1.0 and 2.5 or less, preferably 1.5 or more and 2.5 or less. When the relative dielectric constant of the low dielectric constant adhesive layer 61e is within this range, the electrical conductivity between the conductive film (particularly, the first wiring 22 at a position overlapping the LCD conductor 52) and the LCD conductor 52 in the frame portion of the antenna-equipped touch panel. The degree of dynamic coupling can be reduced. Thereby, it is possible to prevent erroneous detection of the touch panel with an antenna and occurrence of a ghost phenomenon.

FIG. 5 is a sectional view of the fourth touch screen 2d.

The fourth touch screen 2d is formed by laminating a touch panel with an antenna on the liquid crystal display device 51, and further laminating a glass plate 3 as a surface layer base material.

The second base material 41 has a transmission electrode (Tx) 31 in the operation area on the lower surface and a reception electrode (Rx) 36 in the operation area on the upper surface. The second base material 41 has the antenna element 21 and the first wiring 22 in the frame portion on the lower surface thereof. The antenna element 21 and the first wiring 22 may be disposed on the upper surface of the second base material 41 (not shown).

The 2nd base material 41 which formed the electrode and the antenna element comprises the touch panel with an antenna.

A spacing member 67 is disposed between the liquid crystal display device 51 and the second base material 41. The spacing member 67 forms an outer frame that surrounds the four circumferences, and the space surrounded by the spacing member 67, the liquid crystal display device 51, and the second base material 41 is a gap 66.

The distance between the lower surface of the antenna pattern (in this example, the antenna element 21 and / or the first wiring 22) and the LCD conductor is indicated by an arrow 71. The distance between the lower surface of the antenna pattern and the LCD conductor is 0.1 mm or more and 2.0 mm or less. When the distance between the lower surface of the antenna pattern and the LCD conductor is within this range, the degree of electrical coupling between the antenna pattern and the LCD conductor 52 can be reduced. Thereby, it is possible to prevent erroneous detection of the touch screen with an antenna and occurrence of a ghost phenomenon.

If the gap is less than 0.1 mm, there is no effect of reducing the electrical coupling degree. Conversely, if the gap exceeds 2.0 mm, the thickness of the touch screen increases, which is not suitable.

The second substrate 41 and the glass plate 3 are fixed with an adhesive layer 62. The adhesive layer 62 is an adhesive layer that has been conventionally used for fixing a touch screen.

FIG. 6 is a cross-sectional view of the fifth touch screen 2e.

The fifth touch screen 2e is formed by laminating a touch panel with an antenna on the liquid crystal display device 51, and further laminating a glass plate 3 as a surface layer base material.

The sixth electrode base 47 has a transmission electrode (Tx) 31 in the operation area on the lower surface thereof. The third substrate 42 has a receiving electrode (Rx) 36 in the operation area on the lower surface thereof. The 4th base material 43 has the antenna element 21 in the frame part of the lower surface.

The antenna element 21 in the fourth base material 43 is disposed on the frame portion of the antenna-equipped touch panel. The antenna element 21 may be disposed in the display area portion. But when arrange | positioning the antenna element 21 in a display area part, it is laminated | stacked in order of the liquid crystal display device from the bottom, the base material which has arrange | positioned the antenna, and the electrode base material.

The sixth electrode base material 47, the third base material 42, and the fourth base material 43 on which electrodes and antenna elements are formed constitute a touch panel with an antenna. A third base material 42 is stacked on the sixth electrode base material 47, and a fourth base material 43 is further stacked on the third base material 42.

A spacing member 67 is disposed between the liquid crystal display device 51 and the sixth electrode substrate 47. The spacing member 67 forms an outer frame that surrounds the four circumferences, and a space surrounded by the spacing member 67, the liquid crystal display device 51, and the sixth electrode substrate 47 is a gap 66.

The distance between the lower surface of the antenna pattern (in this example, the antenna element 21 and / or the first wiring 22) and the LCD conductor 52 is indicated by an arrow 72. The distance between the lower surface of the antenna pattern and the LCD conductor 52 is not less than 0.1 mm and not more than 2.0 mm. When the distance between the lower surface of the antenna pattern and the LCD conductor 52 is within this range, the degree of electrical coupling between the antenna pattern and the LCD conductor 52 can be reduced. Thereby, it is possible to prevent erroneous detection of the touch panel with an antenna and occurrence of a ghost phenomenon.

The sixth electrode base material 47 and the third base material 42 are fixed by an adhesive layer 62d. The third base material 42 and the fourth base material 43 are fixed by an adhesive layer 62c. The adhesive layer 62c and / or the adhesive layer 62d may be fixed with a low dielectric constant adhesive layer. The relative dielectric constant of the low relative dielectric constant adhesive layer 61e is 1.5 or more and 2.5 or less.

As exemplified in the fifth touch screen 2e, when a base material is disposed in addition to the gap between the base material on which the antenna is disposed and the LCD conductor, an adhesive layer for fixing the base material is reduced. It may be a dielectric constant adhesive layer. In this way, the degree of electrical coupling between the antenna element 21 and the LCD conductor 52 can be further reduced.

The fourth base material 43 and the glass plate 3 are fixed with an adhesive layer 62. The adhesive layer 62 is an adhesive layer that has been conventionally used for fixing a touch screen.

FIG. 10 is a sectional view of the eighth touch screen 2g.

8th touch screen 2g has laminated | stacked the touch panel with an antenna on the liquid crystal display device 51, and also laminated | stacked the glass plate 3 which is a surface layer base material.

The sixth electrode base 47 has a transmission electrode (Tx) 31 in the operation region on the upper surface thereof. The seventh electrode substrate 48 has a receiving electrode (Rx) 36 in the operation region on the lower surface thereof. The fourth base material 43 has the antenna element 21 and the first wiring 22 in the frame portion on the lower surface thereof. The antenna pattern may be on the upper surface of the fourth base material 43 (not shown).

The antenna element 21 is disposed at a position overlapping the display area 53 of the liquid crystal display device 51. The display area 53 is almost equal to the touch area of the touch panel.

The sixth electrode base material 47, the seventh electrode base material 48, and the fourth base material 43 on which the electrode and the antenna pattern are formed constitute a touch panel with an antenna. A seventh electrode base material 48 is laminated on the fourth base material 43, and a sixth electrode base material 47 is laminated on the seventh electrode base material 48.

The interval between the lower surface of the antenna pattern (first wiring 22 in this example) and the LCD conductor 52 is indicated by an arrow 73. The length of the arrow 73 is not less than 0.1 mm and not more than 2.0 mm. If the distance between the lower surface of the antenna pattern and the LCD conductor 52 is within this range, the degree of electrical coupling between the antenna pattern, particularly the first wiring 22 and the LCD conductor 52, can be reduced. As a result, erroneous detection of the touch screen and occurrence of a ghost phenomenon can be prevented.

The fourth base material 43 and the seventh electrode base material 48 are fixed by an adhesive layer 62d. The seventh electrode base material 48 and the sixth electrode base material 47 are fixed by an adhesive layer 62c. The adhesive layer 62d and / or the adhesive layer 62c may be fixed with a low dielectric constant adhesive layer. The relative dielectric constant of the low relative dielectric constant adhesive layer 61e is 1.5 or more and 2.5 or less.

The sixth electrode substrate 47 and the glass plate 3 are fixed with an adhesive layer 62. The adhesive layer 62 is an adhesive layer that has been conventionally used for fixing a touch screen.

In the fourth base material 43 of the present embodiment, the antenna element 21 is disposed in the display area portion of the antenna-attached touch panel. The antenna element 21 may be disposed in the frame portion. When the antenna element 21 is disposed in the display region portion, the liquid crystal display device, the substrate on which the antenna is disposed, and the electrode substrate are sequentially stacked from the bottom.

Antenna element, first wiring, electrode and second wiring are ITO (indium tin oxide), transparent conductive ink (for example, silver nanowire ink), conductive paste (for example, paste made of metal particles and binder resin), copper thin film Etc. are created. These parts located directly above the display surface of the display device may be made of a material that is transparent to visible light, and those parts that are located on the frame portion of the display surface of the display device are made of a material that is opaque to visible light. Alternatively, it may be made of a material that is transparent to visible light.

The antenna element, the first wiring, the electrode, and the second wiring may be arranged on one surface of a single substrate. In this case, the transmitting electrode (Tx) and the receiving electrode (Rx) may be formed on the same surface, and the electrodes may be overlapped in an insulating state at each intersection. Moreover, these components may be formed on the surface of the glass plate which is the surface layer base material.

The embodiment in which the present invention is applied to a capacitive touch panel has been described above. The present invention can be applied to other than a capacitive touch panel, for example, a resistive touch panel.

DESCRIPTION OF SYMBOLS 1 Touch panel with antenna 2 Touch screen 3 Glass plate which is surface layer base material 21 Antenna element 22

1st wiring

24, 25, 26, 27, 28 Antenna element 29 Antenna element 31 Transmitting electrode (Tx) which is electrode
32 Transmission wiring as second wiring 36 Reception electrode (Rx) as electrode
37 Receiving wiring as second wiring 40 First base material 140 Back surface of first base material 41 Second base material 42 Third base material 43 Fourth base material 46 Fifth electrode base material 47 Sixth electrode base material 48 Seventh Electrode substrate 51 Liquid crystal display device 52 LCD conductor 53 Display area 61 Low relative dielectric constant adhesive layer 62 Adhesive layer 66 Gaps 67 Spacing member

Claims

A touch screen in which a touch panel with an antenna is stacked on a liquid crystal display device,
The antenna-attached touch panel includes a base material, two types of electrodes made of a conductive film positioned on the base material, an antenna element, and wiring drawn from these,
The liquid crystal display device includes an LCD conductor surrounding the display area,
The touch panel with antenna is laminated on the liquid crystal display device,
A low dielectric constant adhesive layer is sandwiched between the LCD conductor and the frame portion of the antenna-equipped touch panel,
The touch screen having a relative dielectric constant (Εr) of more than 1.0 and not more than 2.5 of the low relative dielectric constant adhesive layer.
A touch screen in which a touch panel with an antenna is stacked on a liquid crystal display device,
The antenna-attached touch panel includes a base material, two types of electrodes made of a conductive film positioned in an operation region on the base material, an antenna element made of a conductive film positioned in a frame portion on the base material, An electrode and wiring drawn from the antenna element,
The liquid crystal display device includes an LCD conductor surrounding the display area,
The touch panel with antenna is laminated on the liquid crystal display device,
A low dielectric constant adhesive layer is sandwiched between the LCD conductor and the frame portion of the antenna-attached touch panel,
The touch screen according to claim 1, wherein a value of a relative dielectric constant (比 r) of the low relative dielectric constant adhesive layer is more than 1.0 and 2.5 or less.
A touch screen in which a touch panel with an antenna is stacked on a liquid crystal display device,
The antenna-attached touch panel is composed of a base material, two types of electrodes and antenna elements made of a conductive film positioned in an operation area on the base material, and the conductive film positioned in a frame portion on the base material. An electrode and wiring drawn from the antenna element,
The liquid crystal display device includes an LCD conductor surrounding the display area,
The touch panel with antenna is laminated on the liquid crystal display device,
A low dielectric constant adhesive layer is sandwiched between the LCD conductor and the frame portion of the antenna-attached touch panel,
The touch screen according to claim 1, wherein a value of a relative dielectric constant (比 r) of the low relative dielectric constant adhesive layer is more than 1.0 and 2.5 or less.
A touch screen in which a touch panel with an antenna is stacked on a liquid crystal display device,
The antenna-attached touch panel includes a base material, two types of electrodes made of a conductive film positioned in an operation region on the base material, a part of an antenna element, and a conductive film positioned on a frame portion on the base material. Comprising the remainder of the antenna element consisting of: the electrode and wiring drawn from the antenna element;
The liquid crystal display device includes an LCD conductor surrounding the display area,
The touch panel with antenna is laminated on the liquid crystal display device,
A low dielectric constant adhesive layer is sandwiched between the LCD conductor and the frame portion of the antenna-attached touch panel,
The touch screen according to claim 1, wherein a value of a relative dielectric constant (比 r) of the low relative dielectric constant adhesive layer is more than 1.0 and 2.5 or less.
The touch screen with an antenna is the touch screen according to claim 2, wherein the two types of electrodes and the antenna element are arranged on a single base material.
The touch panel with an antenna overlaps one substrate on which one of the electrodes and the antenna element are arranged together with another substrate on which the other of the electrodes is arranged but the antenna element is not arranged. The touch screen according to any one of claims 2 to 4, wherein the touch screen is combined.
5. The antenna-attached touch panel is obtained by superimposing one base material on which the two types of electrodes are arranged on another base material on which the antenna element is arranged. Touch screen as described in.
5. The antenna-attached touch panel is obtained by superimposing two base materials on which the electrodes are arranged one by one and another base material on which the antenna element is disposed. Touch screen as described in.
The touch screen according to any one of claims 6 to 8, wherein the low dielectric constant adhesive layer is sandwiched between at least one of the substrates on which the conductive film is formed.
10. The touch screen according to claim 1, wherein the low dielectric constant adhesive layer is present in a planar region overlapping the entire surface of the liquid crystal display device.
The touch screen according to any one of claims 1 to 10, wherein the low relative dielectric constant adhesive layer includes a solid substance having a low relative dielectric constant in an adhesive.
The touch screen according to any one of claims 1 to 10, wherein the low dielectric constant adhesive layer contains bubbles in an adhesive.
A touch screen in which a touch panel with an antenna is stacked on a liquid crystal display device,
The antenna-attached touch panel includes a base material, two types of electrodes made of a conductive film positioned on six materials, an antenna element, and wiring drawn from these,
The liquid crystal display device includes an LCD conductor surrounding the display area,
The touch panel with antenna is laminated on the liquid crystal display device,
Between the LCD conductor and the frame portion of the antenna-attached touch panel, an air layer having a relative dielectric constant (Εr) of 1.0 is provided.
A touch screen in which an interval between the LCD conductor and the conductive film in a frame portion of the antenna-attached touch panel is 0.1 mm or more and 2.0 mm or less.