JP2007018431A - Film for touch panel, and liquid touch panel using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a film for touch panel, preventing a gas such as oxygen or vapor from passing with a simple configuration, and a liquid touch panel using the same. <P>SOLUTION: The film for touch panel is configured of a transparent film base material 22, an ITO film 24 formed on its surface, and a gas impervious barrier layer 26, formed by covering one face of the film base material 22. At least either the ITO film 24 or the barrier layer 26 is stacked on the film base material 22 via anchor layers 23 and 25. Either the anchor layer 42 on which the ITO film 24 is stacked, or a coating layer positioned outside the barrier layer 26 has a surface formed irregularly. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a film for a touch panel that is provided on a display of various electronic devices and used as an input device, and a liquid-filled touch panel using the same.

  Conventionally, electronic devices having a touch panel on a display surface have been widely used. The structure of this touch panel is, as shown in Patent Document 1 and FIG. 9, an ITO (indium oxide) film 4 is provided in a predetermined pattern on the surface of a touch panel glass 2 that is a transparent insulating substrate of an electronic device display, A silver electrode 6 is connected to the end of the ITO film 4, and the peripheral edge is covered with an overcoat 8. In the peripheral portion where the overcoat 8 is provided, a touch panel film 10 is provided via a double-sided tape or a bonding agent 9 using an adhesive so as to cover the touch panel glass 2.

The touch panel film 10 is provided with an ITO film 14 on the surface of the film base 12 such as PET facing the touch panel glass 2 side, and is opposed to the ITO film 4 on the touch panel glass 2 side with a predetermined interval. Yes. A silver electrode 16 is connected to the end of the ITO film 14, the peripheral edge is covered with an overcoat 18, and the peripheral edge facing the overcoat 8 on the touch panel glass 2 side is sealed with a bonding agent 9. As a result, the contact space “a” where the ITO films 4 and 14 face each other is sealed with the bonding agent 9. In the contact space a where the ITO films 4 and 14 face each other, a dry gas or an insulating liquid as disclosed in Patent Document 2 is sealed.
JP 2003-202960 A JP 2002-231098 A

  In the case of the above conventional technique, there is a problem that gas molecules such as oxygen and water vapor in the atmosphere penetrate into the contact space a through the gaps in the molecular structure of the film base material 12 of the polymer material. If oxygen or water vapor enters the contact space a, the surface of the ITO film 4 or 14 deteriorates and the performance deteriorates, or condensation occurs on the inner surface of the touch panel film 10 in the contact space a, resulting in malfunction of the touch panel operation. Sometimes occurred. Furthermore, the film base material 12 expand | swells by penetration | invasion of water vapor | steam, and distortion may generate | occur | produce in the film 10 for touchscreens. Further, in the case where the liquid is sealed in the contact space a opposed to the ITO films 4 and 14, the gas in the contact space a is caused to generate bubbles by the gas or water vapor transmitted through the film base 12. .

  The present invention has been made in view of the above-mentioned problems of the prior art, and provides a touch panel film that does not allow gas such as oxygen and water vapor to pass therethrough and a liquid-filled touch panel using the same. Objective.

  The present invention includes a transparent film substrate such as PET, a transparent electrode film such as an ITO film formed on the surface thereof, a gas impermeable barrier layer formed so as to cover one surface of the film substrate, It is the film for touchscreens which consists of. The barrier layer is a silicon compound thin film formed by sputtering.

  At least one of the transparent electrode film and the barrier layer is laminated on the film substrate via an anchor layer. In addition, the anchor layer on which the transparent electrode film is laminated has a surface that is uneven.

  The present invention also relates to a film for a touch panel comprising a transparent insulating substrate having one transparent electrode film provided on the surface and a transparent film substrate having the other transparent electrode film facing the transparent electrode film formed on the surface. A liquid-sealed touch panel in which a transparent insulating liquid is sealed in a sealed space between the insulating substrate and the film for a touch panel, and is gas-impermeable on one surface of the film substrate. It is a liquid-sealed touch panel in which a barrier layer is formed.

  The film for a touch panel of the present invention does not permeate into the contact space in the touch panel through a gas such as oxygen or water vapor through the film substrate. Accordingly, deterioration of the transparent electrode film in the touch panel is prevented and transparency is maintained. Further, even in a liquid filled type touch panel, bubbles are prevented from being generated in the liquid, and good translucency is maintained.

  Furthermore, when a barrier layer is provided outside the film substrate, water vapor does not enter the film substrate, and distortion due to expansion or the like does not occur.

  In addition, by forming the barrier layer, anchor layer, and other various coating layers in a concavo-convex shape, it is possible to suppress film light interference caused by variations in the film thickness and the thickness of each layer, and form an easy-to-view touch panel. it can.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a first embodiment of the present invention. A touch panel film 20 according to this embodiment includes a transparent film substrate 22 such as PET having a thickness of about 180 to 200 μm, for example, and faces the touch panel glass. An ITO film 24 is provided on the finished surface via an anchor layer 23. In addition, a barrier layer 26 is formed on the surface side of the film substrate 22 via an anchor layer 25, and a hard coat 28 as a coating layer is formed outside the barrier layer 26.

  The ITO film 24 is formed by a vacuum thin film forming technique such as sputtering, and the anchor layers 23 and 25 are coated with silicon oxide or other organic material. The barrier layer 26 does not transmit oxygen or water vapor, and is formed by sputtering silicon oxide or a silicon nitride compound by other vacuum thin film forming techniques. The thickness is, for example, about 10 to 300 nm, preferably about 100 to 200 nm. The hard coat 28 is coated with a hard resin material such as an acrylic resin.

  The film for a touch panel of this embodiment is more effective when used for a liquid-sealed touch panel in addition to being used for a normal touch panel. The liquid-sealed touch panel is a liquid-insulated touch panel in which a transparent insulating liquid is sealed in a sealed contact space between the touch panel glass and the touch panel film 20. The insulating liquid is made of a transparent insulating material having a refractive index equivalent to the refractive index of the touch panel film 20 and has a function of improving the light transmittance of the touch panel. The insulating liquid is made of, for example, a silicon-based insulating material.

  In the touch panel film of this embodiment, the barrier layer 26 is provided on the surface of the film base material 22 located on the outside air side via the anchor layer 25, so that oxygen and water vapor are transmitted through the film base material 22 in the touch panel. It does not enter the contact space, prevents the ITO film 24 from being deteriorated, and maintains transparency. Further, water vapor does not enter the film base material 22 and no distortion occurs due to expansion or the like. In particular, in a liquid-sealed touch panel, generation of bubbles due to intrusion of oxygen or water vapor into the liquid is prevented, and good translucency is maintained.

  Next, 2nd embodiment of the film for touchscreens of this invention is described based on FIG. Here, the same components as those in the above embodiment are denoted by the same reference numerals and description thereof is omitted. The touch panel film 30 of this embodiment includes a film base material 22 such as PET of about 180 to 200 μm, for example, similar to the above embodiment, and an ITO film 24 is provided on the surface facing the touch panel glass side. . Further, a barrier layer 26 is formed on the surface side of the film substrate 22, and a hard coat 28 is formed outside the barrier layer 26.

  The effect similar to the said embodiment can be acquired with the simple structure also by the film 30 for touchscreens of this embodiment.

  Next, 3rd embodiment of the film for touchscreens of this invention is described based on FIG. The touch panel film 32 of this embodiment includes a film base material 22 such as PET of about 180 to 200 μm, for example, similar to the above-described embodiment, and has a barrier on the surface facing the touch panel glass via an anchor layer 23. The layer 26 is formed. An ITO film 24 is provided on the barrier layer 26. Further, a hard coat 28 is formed on the surface side of the film substrate 22 via an anchor layer 25.

  The touch panel film 32 of this embodiment also prevents oxygen and water vapor from entering the contact space in the touch panel, prevents deterioration of the ITO film 24, and maintains transparency.

  Next, 4th embodiment of the film for touchscreens of this invention is described based on FIG. The film 34 for a touch panel of this embodiment includes a film base material 22 such as PET of about 180 to 200 μm, for example, similar to the above embodiment, and a barrier layer 26 is formed on the surface facing the touch panel glass side. An ITO film 24 is provided on the barrier layer 26. A hard coat 28 is formed on the surface side of the film substrate 22.

  The touch panel film 34 of this embodiment also prevents oxygen and water vapor from entering the contact space in the touch panel, prevents deterioration of the ITO film 24 with a simple structure, and maintains transparency.

  Next, 5th embodiment of the film for touchscreens of this invention is described based on FIG. The touch panel film 36 of this embodiment includes a film substrate 22 such as PET as in the above embodiment, and an ITO film 24 is provided on the surface facing the touch panel glass side, and on the surface side of the film substrate 22. The barrier layer 26 is formed.

  The touch panel film 36 of this embodiment also prevents oxygen and water vapor from entering the contact space in the film substrate and the touch panel with a very simple structure.

  Next, 6th embodiment of the film for touchscreens of this invention is described based on FIG. The touch panel film 38 of this embodiment includes a film substrate 22 such as PET as in the above embodiment, and a barrier layer 26 is formed on the surface facing the touch panel glass side, and the ITO film 24 is formed on the barrier layer 26. Is provided.

  The touch panel film 60 of this embodiment also prevents oxygen and water vapor from entering the contact space in the touch panel with a very simple structure.

  Next, a seventh embodiment of the touch panel film of the present invention will be described with reference to FIG. The film for a touch panel 40 of this embodiment also includes a film base material 22 such as PET of about 180 to 200 μm, for example, and an ITO film 44 is provided on the surface facing the touch panel glass via an anchor layer 42. . The anchor layer 42 is formed with fine corrugated irregularities. An ITO film 44 is sputtered on the wave-shaped anchor layer 42, and is similarly formed in a wave shape. The wave-shaped irregularities of the anchor layer 42 are formed by a transfer method, and the wavelength thereof is a wavelength that prevents interference fringes of visible light appearing on the touch panel film 40 using light scattering or the like. Good. Further, a barrier layer 26 is formed on the surface side of the film substrate 22 via an anchor layer 25, and a hard coat 28 is formed outside the barrier layer 26.

  Since the film for a touch panel of this embodiment is also provided with the barrier layer 26, oxygen and water vapor do not enter the contact space in the film substrate 22 and the touch panel, and the deterioration of the ITO film 24 is prevented and transparency is improved. maintain. Further, water vapor does not enter the film substrate 22 and does not expand. Further, even in a liquid filled type touch panel, bubbles are prevented from being generated in the liquid, and good translucency is maintained. Furthermore, due to the corrugated irregularities of the anchor layer 42, visible light interference fringes do not appear, and an easy-to-see touch panel can be formed.

  Next, 8th embodiment of the film for touchscreens of this invention is described based on FIG. The touch panel film 42 of this embodiment also includes a film substrate 22 such as PET as in the above embodiment, and an ITO film 44 is provided on the surface facing the touch panel glass side via an anchor layer 42. The anchor layer 42 is formed with fine corrugated irregularities formed by a transfer method. An ITO film 44 is sputtered on the wave-shaped anchor layer 42, and is similarly formed in a wave shape. Furthermore, a barrier layer 26 is formed on the surface side of the film substrate 22 via an anchor layer 25, and a hard coat, which is a coating layer formed on the outer side of the barrier layer 26 in a corrugated shape by a transfer method. 46 is provided.

  The film for a touch panel of this embodiment also has the same effect as that of the above embodiment, and further, since the wave-shaped hard coat 46 is formed on the outer side of the barrier layer 26, the interference of visible light is further suppressed and the touch panel is easy to see. Can be formed. The fine unevenness of the touch panel can be provided on an appropriate surface as long as the barrier layer 26 is not uneven. Here, the reason why the barrier layer 26 is not uneven is that if the barrier layer 26 is uneven, the gas shielding effect is reduced, which is not preferable.

  In addition, the film for touch panels of this invention is not limited to the said embodiment, Transparent electrode materials other than ITO film | membrane may be transparent electrode materials, such as IZO, Other materials are also the thickness and formation method. Is appropriately set. Moreover, the film base material and the liquid to be sealed can be selected as appropriate.

It is a schematic sectional drawing of the film for touchscreens of 1st embodiment of this invention. It is a schematic sectional drawing of the film for touchscreens of 2nd embodiment of this invention. It is a schematic sectional drawing of the film for touchscreens of 3rd embodiment of this invention. It is a schematic sectional drawing of the film for touchscreens of 4th embodiment of this invention. It is a schematic sectional drawing of the film for touchscreens of 5th embodiment of this invention. It is a schematic sectional drawing of the film for touchscreens of 6th embodiment of this invention. It is a schematic sectional drawing of the film for touchscreens of 7th embodiment of this invention. It is a schematic sectional drawing of the film for touchscreens of 8th embodiment of this invention. It is a schematic sectional drawing of the conventional common touch panel.

Explanation of symbols

20 Film 22 for touch panel Film base material 23, 25 Anchor layer 24 ITO film 26 Barrier layer 28 Hard coat

Claims (5)

  A film for a touch panel, comprising: a transparent film substrate; a transparent electrode film formed on the surface thereof; and a gas-impermeable barrier layer formed so as to cover one surface of the film substrate.   The touch panel film according to claim 1, wherein the barrier layer is a silicon compound thin film formed by sputtering.   The film for a touch panel according to claim 1, wherein at least one of the transparent electrode film and the barrier layer is laminated on the film substrate via an anchor layer.   The touch panel film according to claim 3, wherein the anchor layer on which the transparent electrode film is laminated has a surface formed in an uneven shape. A transparent insulating substrate provided with one transparent electrode film on the surface, and a film for a touch panel made of a transparent film substrate, the other transparent electrode film facing the transparent electrode film being formed on the surface, the insulating film In a liquid-sealed touch panel in which a transparent insulating liquid is sealed in a sealed space between a conductive substrate and a touch panel film, a gas-impermeable barrier layer is formed on one surface of the film base material A liquid-sealed touch panel characterized by

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