DE102017010240A1 - laminates - Google Patents

Abstract

The present invention relates to a laminate including a glass laminate containing a glass sheet containing a first main surface of the glass sheet and a second main surface of the glass sheet opposite to the first main surface of the glass sheet, and a functional layer provided on the first main surface of the glass sheet. and a first resin film and a second resin film laminated on the glass laminate, the glass laminate including a first major surface of the glass laminate on the first major surface side of the glass plate and a second major surface of the glass laminate opposite the first major surface of the glass laminate, the first resin film being removable is adhered to the first main surface of the glass laminate, the second resin film is removably adhered to the second main surface of the glass laminate, the first resin film and the second resin film, respectively, cover the glass laminate so as to be out of one OUTER peripheral end of the glass plate to protrude, and the first resin film includes a cutting line so that the first resin film can be cut into a predetermined shape.

Description

Technical area

The present invention relates to a laminate containing a glass laminate and resin films protecting the glass laminate.

Technical background

In recent years, glass plates of high quality texture, high strength, and excellent heat resistance have been used more frequently as display device cover plates to protect display units thereof. In a display panel for a display device for use in an on-vehicle device, such as a car navigation system or a display panel for a display device for use in a mobile device, such as a cellular phone, a functional layer is provided on a surface of the cover plate to improve the display performance provided the display device.

Such a glass plate for use in producing a display device containing a functional layer is packaged and transported in a mold in which resin films have been stuck on two main surfaces of the glass plate. Thus, foreign substances can be prevented from adhering to the glass plate during transportation, and the surface of the glass plate can be prevented from being damaged. When the glass plate is placed as a cover plate on a display device or the like, the glass plate is handled in a state in which one of the resin films is separated while leaving the other resin film (see Patent Literature 1 or Patent Literature 2).

quote list

Patent literature

• Patent Literature 1: WO2011 / 148990
• Patent Literature 2: WO2011 / 118367

Brief description of the invention

Problem to be solved by the invention

It may be noted that the area of the other resin film left in the glass plate is preferably smaller than the area of the glass plate to increase the assembling processability (hereinafter referred to as mounting capability) when the glass plate is placed on a display device or the like becomes.

However, it is difficult that a resin film smaller in size than the area of a glass plate is adhered to the glass plate with high positional accuracy. Typically, the glass plate placed between a pair of resin films is passed through a roller member by applying pressure to the glass plate, so that the resin films can be stuck to the glass plate. Thus, when resin films smaller in size than the surfaces of glass plates are continuously stuck on a surface by applying rollers, so that a functional layer is provided, a functional layer on a surface without resin film can be transferred to the roller. For example, if the functional layer is an antifouling layer, a material forming the antifouling layer may be transferred to the roller and attached to a surface of a subsequent glass plate where no antifouling layer is provided. When a glass plate is stuck to a display panel, the display panel and the glass plate are stuck in a state where an adhesive (for example, an adhesive) is applied to the surface of the glass plate where no antifouling layer should be provided. Therefore, if the material forming the antifouling layer adheres to the surface of the glass plate where no antifouling layer should be provided, the adhesive force between the glass plate and the adhesive may be deteriorated, whereby sticking may fail. Thus, the glass plate in which the material forming the antifouling layer adheres to the surface of the glass plate where no antifouling layer should be provided provides a defective product.

In view of the above-mentioned problem, an object of the invention is to provide a laminate which can exhibit good assembling ability when a glass plate is placed on a display device and can prevent the occurrence of a defect of the glass plate when adhering resin films to the glass plate.

Means of solving the problem

In order to achieve the foregoing object, the invention provides a laminate including a glass laminate containing a glass plate containing a first main surface of the glass plate and a second main surface of the glass plate opposite to the first main surface of the glass plate, and a functional layer is provided on the first main surface of the glass plate; and a first resin film and a second resin film laminated on the glass laminate, wherein: the glass laminate includes a first main surface of the glass laminate on a first main surface side of the glass plate and a second main surface of the glass laminate opposite to the first main surface of the glass laminate; wherein the first resin film is removably adhered to the first major surface of the glass laminate; the second resin film is removably adhered to the second main surface of the glass laminate; the first resin film and the second resin film, respectively, cover the glass laminate so as to protrude outside an outer peripheral end of the glass plate; and the first resin film includes a cutting line so that the first resin film can be cut into a predetermined shape.

Thus, the laminate according to the invention may have a configuration in which the glass laminate containing the functional layer is protected by the first resin film and the second resin film, so that the surfaces of the glass laminate can be prevented from being damaged during transportation or mounting ,

The functional laminate-containing glass laminate can be used as a cover plate for a display device or the like. In such a case, for example, the second resin film is removed, then an outer peripheral surface of the first resin film is cut along a cutting line to leave an inner peripheral surface of the first resin film on the first main surface of the glass laminate. Subsequently, the exposed glass laminate of the second main surface is adhered to a display panel by an adhesive material. Consequently, the first resin film can be made smaller in size than the area of the first main surface of the glass plate, so that the glass laminate can be stuck to the display panel without such a problem that the outer peripheral surface of the first resin film is involved. Thus, the first resin film, the glass laminate, and the display panel arranged in a housing or the like can be easily assembled.

Further, for example, when the functional layer is an antifouling layer, when a resin film is removably adhered to a glass plate by applying rollers, a part of the antifouling layer-forming material may be transferred to the rollers and a transferred component from the antifouling layer may adhere the glass plate, which in turn causes a defect of the glass plate. However, when the laminate according to the invention is designed to protect the glass laminate provided with the functional layer, it is possible to prevent the defect of the glass plate.

The functional layer is also provided on the first main surface of the glass plate. Consequently, when the first resin film is removed and the glass laminate is used as a cover plate or the like, the display characteristic of the display device can be improved by the function of the functional layer. For example, when the functional layer is an antifouling layer, a function of suppressing the adhesion of various stains such as sweat, dust, etc., as well as fingerprinting, a function of simply wiping the stains or a function of making the stain unobtrusive, may be imparted to the glass laminate , Thus, the display surface of the display device can be kept clean. In addition, when a user performs a touch panel operation, the user's fingers may get a smooth glide, typically without getting caught.

According to one example of the invention, the adhesive force between the first main surface of the glass laminate and the first resin film may be larger than that Adhesive force can be established between the second main surface of the glass laminate and the second resin film. Since the functional layer is provided on the first main surface of the glass plate in the glass laminate, the adhesive forces of the glass laminate of the first main surface and the second main surface of the glass laminate to the resin films are different from each other. Depending on a material of the functional layer on the first main surface of the glass plate, the adhesive force between the first main surface of the glass laminate and the first resin film may be relatively lowered to the adhesive force between the second main surface of the glass laminate and the second resin film. However, when the laminate in the above-mentioned configuration is placed on a display device or the like so that the glass plate in the laminate can be used as a cover plate or the like, it is possible to remove the second resin film from the glass laminate without removing the first resin film.

According to another example of the invention, an antifouling layer may be provided on the outermost surface of the glass laminate on the first main surface of the glass laminate, and an antireflection layer may be provided between the antifouling layer and the glass plate. In this way, the reflection of external light can be suppressed, and the display quality of an image displayed on the display device can be increased.

Advantage of the invention

As has been described according to the invention, it is possible to provide a laminate which can exhibit good assembling ability when a glass plate is placed on a display device, and which can prevent the occurrence of a defect of the glass plate when adhering resin films to the glass plate.

list of figures

• [ 1 ] 1A FIG. 10 is a sectional view showing a schematic configuration of a laminate according to a first embodiment. FIG.
• [ 2 ] 2A is a top view of the laminate used in 1 will be shown.
• [ 3 ] 3A FIG. 10 is a sectional view showing a schematic configuration of a laminate according to a second embodiment. FIG.
• [ 4 ] 4A FIG. 14 is a schematic configuration view for explaining an application method of a laminate according to each embodiment. FIG.
• [ 5 ] 5A FIG. 12 is a schematic configuration view for explaining a method of applying a laminate according to the embodiment. FIG.
• [ 6 ] 6A FIG. 12 is a schematic configuration view for explaining a method of applying a laminate according to the embodiment. FIG.

Embodiment of the invention

Details and further features of the invention will be explained based on embodiments of the invention. Components or components that are the same or correspond to each other in the drawings are accordingly provided with hints and a redundant description thereof is omitted. A drawing is not intended to express any relative relationship among the components or components unless specifically noted. Thus, certain dimensions may be appropriately selected according to the following embodiments, although no limitation is provided.

<Laminate>

1 FIG. 10 is a sectional view showing a schematic configuration of a laminate according to a first embodiment. FIG. 2 is a top view of the laminate used in 1 will be shown.

As in 1 and 2 shown, contains a laminate 10 According to the embodiment, a glass laminate 15 , The glass laminate 15 contains a glass plate 11 comprising a first main surface of the glass plate 11A and a second main surface of the glass plate 11B opposite to each other, and a functional layer 12 provided on the first main surface of the glass plate 11A. A first resin film 16 is removably adhered to a first main surface of the glass laminate 22A and a second resin film 17 is removably adhered to the second main surface 22B of the glass laminate. In this embodiment, no layer is provided on the second major surface 22B of the glass laminate. Therefore, the second main surface 11B of the glass plate is the same surface as the second main surface of the glass laminate 22B. In the following description, the second main surface 11B of the glass plate is handled as the second main surface 22B of the glass laminate (also referred to as the second main surface of the glass laminate 11B).

The areas of the first resin film 16 and the second resin film 17 are larger than the areas of the first main surface of the glass plate 11A and the second main surface 11B of the glass plate, respectively. The first resin film 16 or the second resin film 17 cover the glass laminate 15 so as to be outside an outer peripheral end 11E of the glass plate 11 stand out. The first resin film 16 contains a cutting line 16X so that the first resin film 16 can be cut to a predetermined shape. The cutting line 16X is on a region in the outer peripheral end 11E of the glass plate 11 arranged.

A region left on the first main surface of the glass laminate 22A is referred to as an inner peripheral region 16A, and a region removed from the first main surface of the glass laminate 22A is referred to as an outer peripheral region 16B.

In the laminate 10 According to the embodiment, since the first resin film 16 and the second resin film 17 are removably adhered to the first main surface of the glass laminate 22A and the second main surface 11B of the glass plate respectively, the glass laminate of the first main surface 22A and the second main surface 11B of the glass plate are prevented from being stained or damaged when the glass laminate 15 is transported, or if the glass laminate 15 is placed on a display device or the like.

In the laminate 10 According to the embodiment, the glass laminate 15 be used as a cover plate for a display device or the like. In such a case, the first resin film becomes 16 along the cutting line 16X cut to an outer peripheral region 16B of the first resin film 16 so as to remove an inner peripheral region 16A from the first resin film 16 can be left. In this way, the first resin film 16 be made smaller in size than the surface of the glass laminate of the first main surface 22A.

Regarding laminate 10 According to the embodiment, when the resin films 16 and 17 on the glass laminate 15 are glued by applying rollers, the surfaces of the resin films 16 and 17 larger than the areas of the first main surface of the glass plate 11A and the second main surface 11B of the glass plate and the resin films, respectively 16 and 17 protrude from the outer peripheral end 11E of the glass plate 11 out. That is, the entire surface of the functional layer 12 is with the first resin film 16 covered. Consequently, if also resin films are glued continuously removable on glass laminates, a part of the functional layer 12 be prevented from being transferred to the roller. As a result, a part of a material that prevents the functional layer can be prevented 12 forms, transferred to the roller, arranged on a first resin film 16 Side, on the other roller, arranged on a second resin film 17 , can be transferred and the material containing the functional layer 12 farther from the other roll to the second major surface of the glass laminate 11B from a subsequent glass laminate 15 can be transferred. This way, even if resin films on glass laminates 15 be continuously removably adhered, foreign substances to adhere to the second main surface of the glass laminate 11B in each of the glass laminates 15 be prevented. If, for example, the functional layer 12 is an antifouling layer, a part of a material forming the antifouling layer may be prevented from transferring to the second main surface of the glass laminate 11B, thereby causing an adhesive defect when the glass laminate 15 is glued on a scoreboard.

In practical use, the first resin film becomes 16 along the cutting line 16X cut so that the area of the first resin film 16 which is on an opposite surface to a display surface of the display panel, can be made smaller than the area of the first main surface of the glass plate 11A. In this way, there is, if the scoreboard, the glass laminate 15 contains, disposed in a housing, no region in the first resin film 16 located outside the outer peripheral end 16E of the glass plate 11 protrudes. Thus, a part of the first resin film becomes 16 prevented from being involved when the glass laminate 15 is glued to the display panel and the processability can be improved.

The functional layer 12 is provided on the first main surface of the glass plate 11A. If the glass laminate 15 Consequently, as a cover plate or the like is used, the display characteristic of the display device by the function of the functional layer 12 be improved when the first resin film 16 is removed.

If the functional layer 12 is an antifouling layer, a function for suppressing adhesion of various stains such as sweat, dust, etc., as well as fingerprint, a function for easier wiping of the stains or a function of making the stain inconspicuous first major surface 22A of the glass laminate. Thus, the display surface can be kept clean. When a user operates a touch-screen operation, the user's fingers may get a smooth glide, typically without getting caught.

It is preferred that the cutting line 16X on a region in 3 mm from the outer peripheral end 11E of the glass plate 11 , more preferably 2 mm and more preferably 1 mm. On the other hand, the cutting line 16X on a region more than 0 mm in the outer peripheral end 11E of the glass plate 11 arranged. The cutting line 16X may be formed as a perforated structure, a notched structure, a semi-cut structure, etc.

The cutting structure of the cutting line 16X is not particularly limited. The cutting line 16X can be provided so that they extend from one side, where the first resin film 16 with the functional layer 12 not in contact, to a side where the first resin film 16 with the functional layer 12 is in contact, expands or can be provided substantially at right angles. The cutting line 16X is preferably provided so as to extend from the side where the first resin film 16 not with the functional layer 12 is in contact, to the side where the first resin film 16 with the functional layer 12 is in contact, expands, leaving the first resin film 16 between the inner peripheral region 16A and the outer peripheral region 16B adjacent to the cutting line 16X adjoins, can be easily cut.

In the embodiment, the adhesion force between the first main surface of the glass laminate 22A and the first resin film may be 16 greater than the adhesion between the second major surface of the glass laminate 11B and the second resin film 17 be designed. When the above-mentioned laminate 10 thus being placed on a display device or the like and the glass laminate 15 of the laminate 10 is then used as a cover plate or the like, the first resin film adheres 16 on the first major surface of the glass laminate 22A and it is possible to have good adhesion in the glass laminate 15 to secure.

The first resin film 16 and the second resin film 17 may be adhered to the first main surface of the glass laminate 22A and the second main surface of the glass laminate 11B by adhesive layers or intermolecular force not shown.

The inner peripheral region 16A of the first resin film 16 is removed when used by an end user, but is not limited thereto. When a functional layer, such as an antireflection layer, an antifouling layer and a non-glare layer, on the first resin film 16 can be provided before, finally in the glass laminate 15 The inner peripheral region 16A may be a functional film having an optical function and the like.

3 FIG. 10 is a sectional view showing a schematic configuration of a laminate according to a second embodiment. FIG.

A laminate 20, which is in 3 is shown is from the laminate 10 according to the first embodiment, different at the point by providing two functional layers on the first main surface of the glass plate 11A. The other features and configurations are similar to those of the laminate 10 according to the first embodiment. Thus, the laminate 20 according to the embodiment exhibits functions and effects similar to those of the laminate 10 according to the first embodiment. As well as the glass laminate 15 which has two functional layers, the glass laminate can 15 Functions attributed to the respective functional layers and a function obtained by laminating the functional layers are obtained. With respect to the two functional layers, it is preferable that an antireflection layer 23 and an antifouling layer 12 on the first main surface of the glass plate 11A are provided in this order. Because the antifouling layer 12 thus on the outermost layer of the glass laminate 15 is provided, it is possible to suppress the adhesion of various stains such as perspiration, dust, etc. as well as fingerprint as described above. In addition, since the antireflection film 23 is provided, reflection of external light can be suppressed when the laminate 20 is placed on a display or the like. Thus, the display quality of an image displayed on the display device can be increased.

In the invention, the number of functional layers formed on the first main surface of the glass plate 11A is not limited to one or two. Three or more functional layers can be provided.

Although a functional layer or two or more functional layers are provided, it is preferable that a antifouling layer be provided on the outermost surface of the glass laminate.

<Application method of laminate>

4 to 6 FIG. 15 is schematic configuration views for explaining a method of using a laminate according to each embodiment. FIG. Incidentally, for the sake of simplicity, in 4 to 6 Details of the glass plate 11 and the functional layer 12 omitted and those are called the glass laminate 15 described. The following description will be made along with a method in which a laminate according to one embodiment is adhered to a display panel and then attached to a housing, for example, attaching a glass laminate to a display device.

First, the laminate 10 according to the first embodiment, which is in 1 and 2 is shown, or the laminate 20 according to the second embodiment, in 3 is shown as in 4 shown, produced. If the laminate 10 or 20, the first resin film becomes 16 removably glued to adjust the cutting line 16X from the first resin film 16 in a region of the glass laminate that with the functional layer 12 while the second resin film is provided with the first main surface 22A 17 is removably adhered to the second main surface of the glass laminate 11B.

The second resin film removably bonded to the second main surface 11B of the glass laminate 17 gets from the laminate 10 or 20, as in 5 is shown removed. Then, the second main surface 11B is glued to a display panel 30 to surround the display panel 30 and the glass laminate 15 to stick together.

A well-known method may be used as a method of bonding the display panel 30 and the glass laminate 15 be used together. Examples of the bonding method may include a bonding method using an adhesive film and a bonding method in which a resin composition is interposed between the display panel 30 and the glass laminate 15 and then hardened to bond them together.

A well-known panel, such as a liquid crystal panel or an organic EL panel, can be used as the display panel.

Now, as in 6 is shown, the outer peripheral region 16B along the cutting line 16X from the first, to the glass laminate 15 of the laminate 10 or 20, that is, on the functional layer 12 , glued resin film 16 cut away. Thus, the inner peripheral region 16A becomes the first resin film 16 on the functional layer 12 leave.

Now a laminate in which the glass laminate 15 where the inner peripheral region 16A of the first resin film 16 is removably adhered and the display panel 30 is glued, assembled in a housing to obtain a display device. When the laminate is assembled in a housing, it is possible to use a display device without incorporating the outer peripheral region 16B of the first resin 16 to produce efficiently.

Although the display panel 30 and the glass laminate 15 in the above-mentioned description have been directly glued, the method of application of the laminates 10 and not limited thereto in accordance with the embodiments. A touch panel may be placed between the display panel 30 and the glass laminate 15 to be provided.

Now, each constituent element of the laminate according to the invention will be described in more detail.

<Fiberglass>

In the invention, the glass plate means a glass plate containing a glass main surface and a second glass main surface opposite to each other. The glass laminate contains a functional layer on the first main surface of the glass plate. Two or more functional layers may be provided on the first main surface of the glass plate, if necessary.

Examples of the glass plate include, for example, a soda lime glass, a borosilicate glass, an aluminosilicate glass, an alkali-free glass, etc.

In order to increase the safety of the glass plate, it is preferable that the mechanical strength is high. Examples of the method of increasing the mechanical strength of the glass plate include a solidifying treatment of the glass plate.

Examples of the solidification treatment include physical solidification in which the glass plate is exposed to high temperature and then cooled by wind, or chemical solidification in which the glass plate is immersed in molten salt containing alkali metal, so that alkali metal (ions) with a small atomic diameter existing in the surface of the glass plate can be exchanged for alkali metal (ions) having a large atomic diameter present in the molten salt.

The chemical solidification is preferable as the solidification treatment when the glass plate has a small plate thickness.

In the glass plate subjected to a chemical solidification treatment (hereinafter referred to as a chemically strengthened glass), the surface compressive stress (hereinafter referred to as CS) of the glass plate is preferably 400 MPa or more and 1200 MPa or less, and more preferably 700 MPa or more and 900 MPa or less. When the CS 400 MPa or more, the strength in practical use is sufficient.

On the other hand, when the CS is 1,200 MPa or less, the glass sheet can withstand tensile stress occurring in itself according to the surface compressive stress. Thus, there is no fear that the glass plate can be spontaneously broken. When laminate according to the invention is used as a cover plate for a display device or the like, it is preferable that the CS of the glass plate be 700 MPa or more and 850 MPa or less.

Further, the compressive stress depth (hereinafter referred to as DOL) of the glass plate is preferably from 15 to 50 μm, and more preferably from 20 to 40 μm. If the DOL 15 μm or more, there is no fear that the glass plate may be easily damaged and broken.

When the DOL is 50 μm or less, the glass plate can withstand tensile stress occurring in itself according to the surface compressive stress. Thus, there is no fear that the glass plate can be spontaneously broken. When laminate according to the invention is used as a cover plate for a display device or the like, it is preferable that the DOL of the glass plate is 25 μm or more and 35 μm or less.

From the standpoint of increasing the mechanical strength, saffron glass can be used as the glass plate.

Typically, the glass plate has a smooth and rectangular shape. The shape of the glass plate is suitably changed according to the shape of the display device, the design of the display device, the position to be mounted on the display device, and so on.

That is, the shape of the glass plate is not limited to a smooth shape or a rectangular shape. For example, the glass plate may be made of figurative glass with irregularities in its surface. The glass plate may have a polygonal shape, a circular shape or an elliptical shape. The glass plate is not limited to a flat glass plate but may be a glass plate having a curved surface as a shape.

The size of the glass plate is decided appropriately according to the size of a display panel or the intended use of a display unit. For example, when used as a cover plate for a mobile apparatus, it is preferable that the glass plate has a size of 30 mm × 50 mm to 300 mm × 400 mm and a thickness of 0.1 to 2.5 mm. In a display unit of a display device, a car navigation system, a dash panel, or a dashboard, it is preferable that the glass plate has a size of 50 mm × 100 mm to 2,000 mm × 1,500 mm and a thickness of 0.5 to 4 mm.

The thickness of the glass plate is not particularly limited. Glass with a thickness of 10 mm or less can be used. From the standpoint of mechanical strength, transparency, etc., the thickness of the glass plate is typically about 0.1 to 6 mm. In particular, when the glass plate is used in an on-vehicle display apparatus, safety in the glass plate is required. It is because of that preferably, the thickness of the glass plate is from 0.2 to 2 mm from the standpoint of mechanical strength.

When a chemically strengthened glass is used, the glass plate is typically preferably 5 mm or less, and more preferably 3 mm or less, to effectively obtain a chemical strengthening treatment.

(Functional layer)

The glass laminate contains a functional layer on the first main surface of the glass plate, that is, a surface where the glass plate is in contact with the first resin film. Thus, the glass plate can be given a function. The configuration of the functional layer is not particularly limited. An optical function, a physical function, etc. can be imparted. Examples of the optical function may include antireflection function, antiglare function, etc. Examples of the physical function may include an antifouling function, a water-repellent function, an antibacterial function and so on. When the inner peripheral region 16A of the first resin film is used as a functional film for the glass plate, treatment with a primer may be performed to form a primer layer to fix the functional film to the glass plate.

When the functional layer is formed on the glass plate, a treatment with UV irradiation or plasma may be previously performed on the glass plate. The foreign matters present on the first main surface of the glass plate can be removed, and then a homogeneous functional layer can be easily formed.

In the invention, the functional layer is not limited to a shape in which the functional layer is provided over the entire first major surface of the glass plate. For example, the functional layer may be provided in a form in which the first major surface of the glass plate includes a region in which the functional layer is not provided (also referred to as a blank region). When two or more functional layers are provided, each of the functional layers may be provided in the same region or in different regions. The functional layer is preferably provided in 50% or more of the area of the first main surface of the glass plate, and more preferably in 80% or more.

(Antifouling layer)

It is preferable that the glass laminate contains a antifouling layer as the functional layer on the first main surface of the glass plate. Thus, a function for suppressing adhesion of various stains such as perspiration, dust, etc., as well as fingerprint, a function for easier wiping of the stains or a function of making the stain unobtrusive, can be imparted to the glass plate. Thus, the display surface can be kept clean. When a user operates a touch screen, the user's fingers may typically receive a smooth glide without getting caught.

Components for the antifouling layer may be suitably selected from fluorine-containing organic compounds or the like which provide antifouling property, water repellency and oil repellency. Specific examples of the fluorine-containing organic compounds include a fluorine-containing organic silicon compound, a fluorine-containing hydrolyzable silicon compound, etc.

An example of the fluorine-containing organic silicon compound may include a compound of a silane coupling agent containing a fluoroalkyl group such as a perfluoroalkyl group, a fluoroalkyl group containing a perfluoro (polyoxyalkylene) chain, etc.

The fluorine-containing hydrolyzable silicon compound is not particularly limited as long as it has an antifouling property such as a water repellency and an oil repellency. Specific examples of the fluorine-containing hydrolyzable silicon compound include a fluorine-containing hydrolyzable silicon compound containing one or more groups selected from the group consisting of a perfluoropolyether group, a perfluoroalkylene group and a perfluoroalkyl group.

The antifouling layer may be formed by a method in which such a composition is applied by a spin coating method, a dip coating method, a casting method, a slot coating method, a spray coating method or the like, and then subjected to a heating treatment. A vacuum vapor deposition method in which a fluorine-containing silicon compound is vapor-deposited and then subjected to heat treatment and so on. In order to increase the adhesive strength between the glass plate and the antifouling layer, it is preferable that the antifouling layer is formed by the vacuum vapor deposition method.

(Antireflection film)

It is preferable that the glass laminate contains an antireflection layer as the functional layer on the first main surface of the glass plate. When the antireflection film is provided on the glass laminate, it is possible to suppress reflection of external light to thereby increase the display quality of an image displayed on a display device. The antireflection layer is preferably provided between the first major surface of the glass plate and the antifouling layer.

The configuration of the antireflection film is not particularly limited as long as it can suppress reflection of light in a predetermined range. For example, the antireflection film may have a configuration in which a high-refractive-index layer and a low-refractive-index layer are laminated. Here, the high refractive index layer denotes a layer having a refractive index of 1.9 or more for light having a wavelength of 550 nm, and the low refractive index layer denotes a layer having a refractive index of 1.6 or less for light having a wavelength of 550 nm.

With respect to the number of the high refractive index layer and the low refractive index layer, the antireflection layer may have a configuration including a high refractive index layer and a low refractive index layer, or a configuration comprising two or more high refractive index layers and two or more Contains low refractive index layers. In the high refractive index layer-containing layer configuration, it is preferable that the high-refractive-index layer and the low-refractive index layer are laminated in this order between the first main surface of the glass plate and the antifouling layer. On the other hand, in the configuration including two or more high refractive index layers and two or more low refractive index layers, it is preferable that the high refractive index layer and the low refractive index layer are alternately laminated in this order.

In order to increase the antireflection performance, it is preferable that the antireflection layer is a stack in which a plurality of layers are stacked on each other.

The stack preferably includes, for example, two or more and eight or less layers, more preferably two or more and six or less layers, further preferably two or more and four or less layers in total. Herein, in the stacking, it is preferable that the high refractive index layer and the low refractive index layer are stacked alternately, and it is preferable that the total number of the high refractive index layers and the low refractive index layers in the above-mentioned range, such as described above. Additional layers can be stacked on top of each other as long as the optical properties are not affected. For example, an SiO ₂ film may be interposed between the glass plate of the first main surface and the first layer in the antireflection layer to prevent components constituting the glass, for example, Na ions and the like, from diffusing out of the glass plate.

Materials constituting the high refractive index layer and the low refractive index layer are not particularly limited, but may be selected in consideration of a required degree of antireflection or productivity. Examples of materials constituting the high-refractive-index layer include niobium oxide (Nb ₂ O ₅ ), titanium oxide (TiO ₂ ), zirconium oxide (ZrO ₂ ), tantalum oxide (Ta ₂ O _s ), alumina (Al ₂ O ₃ ), silicon nitride (SiN), etc. One or more kinds selected from those materials may preferably be used. Examples of materials constituting the low refractive index layers include silicon oxide (particularly, silicon dioxide SiO ₂ ), a material containing mixed Si-Sn oxide, a material containing mixed Si-Zr oxide, a mixed material Si Al oxide, etc. One or more species selected from those materials may preferably be used.

From the standpoint of productivity or refractive index, it is preferable that the high refractive index layer is a layer containing a species selected from niobium oxide, tantalum oxide and silicon nitride and the low refractive index layer is a layer containing silicon oxide.

The antireflection layer may preferably be formed by a method in which an inorganic thin film is formed directly on the surface, a method in which the surface is removed by a manner such as etching or a dry method such as a chemical vapor deposition (CVD) method a physical vapor deposition (PVD) method, in particular a vacuum vapor deposition method or a sputtering method, which is a kind of physical vapor deposition method, is treated.

Alternatively, the antireflection layer may be provided by a method in which a transparent resin film having an antireflection function is stuck on the glass plate of the first main surface.

It is preferable that the antireflection layer has a thickness of 100 to 500 nm. When the thickness of the antireflection film is set to 100 nm or more, the reflection of external light can be effectively and favorably suppressed.

(Glare-free layer)

It is preferable that the glass laminate contains a non-glare layer as the functional layer on the first main surface of the glass plate. The antiglare layer may be formed by a method in which the glass plate is etched by an etching solution, a method in which resin containing fine particles is applied to the glass plate of the first main surface and then cured, etc.

A functional layer may be provided at least on the first major surface of the glass plate in the glass laminate. That is, a functional layer may be provided on the second main surface of the glass plate in the glass laminate. When the glass laminate is used as a cover panel for a display panel, it is preferable that a light shielding layer is provided in a peripheral edge part of the second main surface of the glass panel. When the light shielding layer is provided in the peripheral edge part of the glass plate of the second main surface, wiring, etc. can be shielded by a display device. Symbols or characters relating to the display device may be provided on the light-shielding layer. In this configuration, since the glass laminate 15 is enveloped in the first resin film and the second resin film, the penetration of foreign substances from outside and contamination of the glass laminate 15 be prevented.

(First resin film and second resin film)

The first resin film and the second resin film according to the invention are removably adhered to the first main surface of the glass laminate and the second main surface of the glass laminate, respectively. The word "removably adhered" herein means that a resin film is integrally adhered to a glass laminate having an adhesive force which is weak enough that a work can easily separate the resin film by a stress small enough not to damage the glass laminate. Typically, the resin film contains an adhesive layer provided on one side thereof, and the resin film is stuck through the adhesive layer. However, the first resin film and the second resin film may also be adhered by intermolecular force with the glass laminate as described above. Portions of the first resin film and the second resin film which protrude outside the outer peripheral end of the glass plate may be adhered to each other. Because with this configuration the glass laminate 15 is wrapped in the first resin film and the second resin film, the entry of foreign matter from the outside and contamination of the glass laminate 15 be prevented.

The first resin film and the second resin film are not particularly limited as long as they are made of film-like resin. Each of those resin films may have a single-layered structure or may have a multi-layered structure in which a plurality of layers including an antistatic layer, a hardcoat layer, a lightly-adherent layer, etc. have been laminated. Each resin film may be colored to prevent a worker from forgetting to remove the resin film from the glass plate.

For example, a polyester-based film and polyethylene-based film such as polyethylene terephthalate, a polyolefin-based film such as polypropylene, a polyvinyl chloride film, etc. may be used as the first resin film and the second resin film. Of those films, the polyester-based film is preferable from the viewpoint of the adhesive strength on the adhesive layer, durability or optical properties.

The thickness of each resin film is not particularly limited. For example, the thickness is preferably from 5 to 100 μm. It is more preferable that the thickness is from 15 to 75 μm, so that the resin film can be easily separated because the resin film can be easily bent when separated. When the resin film has a thickness of 5 μm or more, the glass plate or the glass laminate can be satisfactorily protected. When the resin film has a thickness of 100 μm or less, the increase in cost is prevented.

It is preferable that the adhesive of the adhesive layer has adhesive strength with which at least a part of a material constituting the functional layer of the glass laminate can be suppressed from being removed, or with the part of the adhesive from surviving on the functional layer or the glass plate can be prevented. Examples of adhesive include, for example, an acrylic adhesive, a polyurethane adhesive, and a silicone adhesive.

The adhesive force between the first resin film and the first main surface of the glass laminate is preferably from 0.01 to 0.1 N / 10 mm, and more preferably from 0.015 to 0.05 N / 10 mm. Adhesive force is measured according to JIS Z 0237: 2009.

The adhesive force between the second resin film and the second main surface of the glass laminate is preferably from 0.005 to 0.1 N / 10mm, and more preferably from 0.01 to 0.03 N / 10mm.

In addition, the above-mentioned adhesive forces are preferable even if each resin film adheres to the functional layer or the like by intermolecular force.

The thickness of the adhesive layer is preferably from 3 to 50 μm, and more preferably from 5 to 25 μm in terms of adhesive strength and releasability to / from the glass laminate.

Examples

The invention will be described in more detail by applying examples. Incidentally, the invention is not limited to the following examples. Examples 1 to 3 are examples of the invention, and Examples 4 to 6 are comparative examples of the invention.

<Evaluation method>

(Contact angle measurement)

In the first laminate, the tenth laminate and the fiftieth laminate of laminates were continuously prepared with every other one of the resin films removed, and a contact angle on the second major surface of the glass laminate (back surface) was measured. Thus, presence / absence was evaluated by a transferred component of an antifouling layer.

The contact angle was measured as follows. Using an automatic contact angle meter (Model: DM-501, manufactured by Kyowa Interface Science Co., Ltd.), pure water of 1 μl was dropped on the second major surface of the glass laminate, and the contact angle of the water was measured. The measurement was carried out at 10 places on the second major surface of the glass laminate on each glass laminate, and an average of measured values was regarded as the contact angle.

From the values of the contact angles on the second major surface of the glass laminate of the tenth and fiftieth glass laminates, the adhesion strength to a liquid crystal panel was estimated. The adhesive strength was evaluated as ○ when both contact angles were less than 33 °, Δ when one of the contact angles was 33 ° or more, and × when both contact angles were 33 ° or more.

(Example 1)

According to the following procedure, 50 laminates in which the first resin film protrudes on the first main surface of the glass laminate and the second resin film on the second main surface of the glass laminate each outside the outer peripheral end of the glass plate were continuously made.

A glass plate (product name: DRAGON TRAIL (registered trademark) manufactured by Asahi Glass Co., Ltd.) having a chemical strengthening treatment was used as a glass plate. The glass plate had a height of height 150 mm × width (left and right direction) 200 mm and a plate thickness of 1.3 mm.

A fluorine-containing organic silicon compound (product name: AFLUID ^® S-550 (registered trademark) manufactured by Asahi Glass Co., Ltd.) was deposited on the entire glass plate of the first main surface by a vapor deposition method, to form an antifouling layer , Thus, a glass laminate containing the antifouling layer on the first main surface of the glass plate was obtained.

Now, a roll of a first resin film and a roll of a second resin film each having a width greater than the width of the glass laminate by 10 mm in each of the left and right sides were prepared. A cutting line was formed at predetermined positions and at predetermined intervals in the first resin film. The first and second resin films were emitted from the rollers to place the glass laminate between the first and second resin films, so that the first resin film is brought into contact with the first major surface of the glass laminate (the surface where the antifouling layer is provided). The glass laminate with the first and second resin films was passed through a pair of laminate rolls by applying pressure of 0.2 MPa to the glass laminate. Thus, a laminate in which the first and second resin films were removably adhered to the glass laminate was obtained. The interval between the pair of laminate rolls was set to 1 mm. When the first resin film has been laminated on the glass laminate, in positioning the first resin film, the cutting line of the first resin film is placed on a region at 1 mm from an outer peripheral end of the glass plate. The back-bonded first and second resin films were cut from the obtained laminate to obtain an individual laminate. As the first resin film and the second resin film, Anti Static Protection Tape "M-S100ASPT" (manufactured by MIRACLE Co., Ltd.) was used. The thickness thereof was 0.1 mm and a silicone adhesive was formed thereon.

Using a total of 50 glass plates, the above-mentioned steps were carried out continuously to obtain such laminates.

(Example 2)

Fifty laminates were obtained in the same manner as in Example 1, except that the bonding pressure between the laminate rolls was set to 0.05 MPa.

(Example 3)

Fifty laminates were obtained in the same manner as in Example 1, except that the adhesive pressure between the laminate rolls was set to 0.4 MPa.

(Example 4)

Fifty laminates were obtained in the same manner as in Example 1, except that one roll of the first resin film and one roll of the second resin film each having a width smaller than the width of the glass laminate by 5 mm in each left and right side were manufactured.

(Example 5)

Fifty laminates were obtained in the same manner as in Example 4, except that the adhesive pressure between the laminate rolls was set to 0.05 MPa.

(Example 6)

Fifty laminates were obtained in the same manner as in Example 4, except that the adhesive pressure between the laminate rolls was set to 0.4 MPa. [Table 1] example 1 Example 2 Example 3 Example 4 Example 5 Example 6 film projection 10 mm 10 mm 10 mm -5 mm -5 mm -5 mm adhesive pressure 0.2 MPa 0.05 MPa 0.4 MPa 0.2 MPa 0.05 MPa 0.4 MPa continuous glue count 1 10 50 1 10 50 1 10 50 1 10 50 1 10 50 1 10 56 Water contact angle in back surface 22.4 24.1 23.7 18.9 25.3 20.7 25.2 24.3 22.1 23.4 33.7 45.8 23.8 29.4 36.1 20.7 45.1 52.1 LCD adhesion ○ ○ ○ × Δ ×

In each of Examples 4 to 6, where the first and second resin films were bonded to 5 mm in the outer peripheral end of the glass plate, the contact angle on the second main surface of the glass laminate reached 33 ° or more in the fiftieth laminate. When the laminates were continuously prepared, the adhesive strength to a liquid crystal panel was lowered. When the sticking pressure was increased, as shown in Example 6, as compared with Examples 4 or 5, the contact angle on the second major surface of the glass laminate reached 33 ° or more in the fiftieth laminate.

From the above, it is inferred that when the first and second resin films do not protrude outside the outer peripheral end of the glass plate, a component of the antifouling layer is transferred to one of the laminate rollers, transferred therefrom to the other laminate roller, and further transferred therefrom to the second main surface of the glass laminate , It will be understood that the degree of the component of the antifouling layer transferred to the laminate rolls is proportional to the adhesive pressure between the laminate rolls.

On the other hand, as shown in Table 1, in each of Examples 1 to 3, where the first and second resin films protruded 10 mm outside the outer peripheral end of the glass plate in the left and right directions, the contact angle on the second main surface of the glass laminate was less as 33 ° in each of the first laminate, the tenth laminate and the fiftieth laminate. The adhesion to the liquid crystal panel was high. That is, it can be said that even if the tack pressure is increased to increase the degree to which the antifouling layer is transferred, a component of the antifouling layer can be prevented from being transferred to the laminate rollers when the first and second layers are in contact with each other second resin films 10 mm outside the outer peripheral end of the glass plate protrude.

Further, in each of Examples 1 to 3, the first resin film includes a cutting line on the region in the outer peripheral end of the glass plate on the first main surface of the glass laminate. Thus, if each laminate included in Examples 1 to 3 is used, it is possible to remove the second resin film of the glass laminate, to stick the glass laminate on a display panel, then out of the outer peripheral region outside the cutting line from the first one To cut resin film and easily assemble the glass laminate in a housing of a display device.

1. [1] Ein Laminat, enthaltend: ein Glaslaminat enthaltend eine Glasplatte, und eine Funktionsschicht, die auf mindestens einer ersten Hauptoberfläche der Glasplatte vorgesehen ist; einen ersten Harzfilm, der entfernbar auf die erste Hauptoberfläche des Glaslaminats, das die Funktionsschicht aufweist, geklebt ist; und einen zweiten Harzfilm, der entfernbar auf eine zweite Hauptoberfläche des Glaslaminats entgegengesetzt zu der ersten Hauptoberfläche des Glaslaminats geklebt ist; wobei:
   • der erste Harzfilm und der zweite Harzfilm größer als die erste Hauptoberfläche bzw. die zweite Hauptoberfläche des Glaslaminats sind und jeder der Endteile von dem ersten und zweiten Harzfilm außerhalb eines Endteils der Glasplatte herausragt; und
   • der erste Harzfilm eine Schneidlinie auf einer inneren Region der ersten Hauptoberfläche des Glaslaminats in Bezug auf den Endteil des Glaslaminats enthält.
2. [2] Laminat nach [1], wobei die Schneidlinie auf einer Region der ersten Hauptoberfläche des Glaslaminats in 3 mm von dem Endteil des Glaslaminats angeordnet ist.
3. [3] Laminat nach [1] oder [2], wobei die Funktionsschicht eine bewuchsverhindernde Schicht ist.
4. [4] Laminat nach einem von [1] bis [3], wobei die Haftkraft zwischen der ersten Hauptoberfläche und dem ersten Harzfilm größer ist, als die Haftkraft zwischen der zweiten Hauptoberfläche des Glaslaminats und dem zweiten Harzfilm.
5. [5] Laminat nach [3] oder [4], wobei die bewuchsverhindernde Schicht eine Schicht ist, die eine Fluor-enthaltende organische Verbindung enthält.
6. [6] Laminat nach einem von [1] bis [5], wobei die Haftkraft von dem ersten Harzfilm auf der ersten Hauptoberfläche von 0,01 bis 0,1 N/10mm ist.
7. [7] Laminat nach einem von [1] bis [6], wobei die Haftkraft von dem zweiten Harzfilm auf der zweiten Hauptoberfläche von 0,005 bis 0,1 N/10mm ist.
8. [8] Laminat nach einem von [1] bis [7], wobei der erste Harzfilm und der zweite Harzfilm auf die erste Hauptoberfläche und die zweite Hauptoberfläche des Glaslaminats durch Klebeschichten entfernbar geklebt sind.
9. [9] Laminat nach [8], wobei die Klebeschicht einen Klebstoff aus einem Acrylharz oder einem Polyurethanharz enthält.
10. [10] Laminat nach einem von [3] bis [8], wobei das Glaslaminat eine Antireflexionsschicht zwischen der Glasplatte und der bewuchsverhindernden Schicht enthält.
11. [11] Laminat nach einem von [1] bis [10], wobei die Glasplatte ein chemisch verfestigtes Glas ist.

The invention further includes the following embodiments.

1. [1] A laminate comprising: a glass laminate containing a glass plate, and a functional layer provided on at least a first main surface of the glass plate; a first resin film removably adhered to the first main surface of the glass laminate having the functional layer; and a second resin film removably adhered to a second major surface of the glass laminate opposite to the first major surface of the glass laminate; in which:
   • the first resin film and the second resin film are larger than the first main surface and the second main surface of the glass laminate, respectively, and each of the end parts of the first and second resin films protrudes outside an end part of the glass plate; and
   • the first resin film includes a cutting line on an inner region of the first main surface of the glass laminate with respect to the end part of the glass laminate.
2. [2] The laminate according to [1], wherein the cutting line is disposed on a region of the first main surface of the glass laminate in 3 mm from the end part of the glass laminate.
3. [3] Laminate according to [1] or [2], wherein the functional layer is an antifouling layer.
4. [4] The laminate according to any one of [1] to [3], wherein the adhesive force between the first main surface and the first resin film is larger than the adhesive force between the second main surface of the glass laminate and the second resin film.
5. [5] The laminate of [3] or [4], wherein the antifouling layer is a layer containing a fluorine-containing organic compound.
6. [6] The laminate according to any one of [1] to [5], wherein the adhesive force of the first resin film on the first main surface is from 0.01 to 0.1 N / 10mm.
7. [7] The laminate of any one of [1] to [6], wherein the adhesive force of the second resin film on the second major surface is from 0.005 to 0.1 N / 10mm.
8. [8] The laminate according to any one of [1] to [7], wherein the first resin film and the second resin film are removably adhered to the first main surface and the second main surface of the glass laminate by adhesive layers.
9. [9] The laminate of [8], wherein the adhesive layer contains an adhesive of an acrylic resin or a polyurethane resin.
10. [10] The laminate of any one of [3] to [8], wherein the glass laminate contains an antireflection layer between the glass plate and the antifouling layer.
11. [11] The laminate of any one of [1] to [10], wherein the glass plate is a chemically consolidated glass.

Some embodiments of the invention have been described above. However, the embodiments have been shown by way of example and are not intended to limit the scope of the invention. Those new embodiments may be implemented by a variety of other forms and various omissions, substitutions and changes may be made without departing from the spirit of the invention.

While the present invention has been described in detail and with reference to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope thereof.

This application is based on the Japanese Patent Application No. 2016-217608 , filed on 7 November 2016, and the Japanese Patent Application No. 2017 - 202883 , filed on Oct. 19, 2017, the entire subject matter of which is incorporated herein by this reference.

LIST OF REFERENCE NUMBERS

10

laminate

11

glass plate

12

Functional layer (antifouling layer)

15

fiberglass

16

first resin film

16X

cutting line

17

second resin film

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2011/148990 [0003]
• WO 2011/118367 [0003]
• JP 2016217608 [0109]
• JP 2017 [0109]
• JP 202883 [0109]

Claims (12)

Laminate comprising: a glass laminate comprising a glass plate including a first main surface of the glass plate and a second main surface of the glass plate opposite to the first main surface of the glass plate, and a functional layer provided on the first main surface of the glass plate; and a first resin film and a second resin film laminated on the glass laminate, wherein: the glass laminate includes a first major surface of the glass laminate on the first major surface side of the glass plate and a second major surface of the glass laminate opposite the first major surface of the glass laminate; the first resin film is removably adhered to the first main surface of the glass laminate; the second resin film is removably adhered to the second main surface of the glass laminate; the first resin film and the second resin film, respectively, cover the glass laminate so as to protrude outside an outer peripheral end of the glass plate; and the first resin film includes a cutting line so that the first resin film can be cut into a predetermined shape. Laminate after Claim 1 wherein the cutting line is disposed on a region in the outer peripheral end of the glass plate. Laminate after Claim 1 or 2 wherein the cutting line is disposed on a region in 3 mm from the outer peripheral end of the glass plate. Laminate after one of Claims 1 to 3 wherein the functional layer is an antifouling layer. Laminate after Claim 4 wherein the antifouling layer is a layer containing a fluorine-containing organic compound. Laminate after Claim 4 or 5 wherein the glass laminate contains an antireflective layer between the glass plate and the antifouling layer. Laminate after one of Claims 1 to 6 wherein the adhesive force between the first major surface of the glass laminate and the first resin film is greater than an adhesive force between the second major surface of the glass laminate and the second resin film. Laminate after one of Claims 1 to 7 wherein the adhesive force between the first major surface of the glass laminate and the first resin film is from 0.01 to 0.1 N / 10mm. Laminate after one of Claims 1 to 8th wherein the adhesive force between the second major surface of the glass laminate and the second resin film is from 0.005 to 0.1 N / 10mm. Laminate after one of Claims 1 to 9 wherein the first resin film and the second resin film are removably adhered to the first main surface of the glass laminate and the second main surface of the glass laminate by adhesive layers. Laminate after Claim 10 wherein the adhesive layer contains an adhesive of an acrylic resin or a polyurethane resin. Laminate after one of Claims 1 to 11 , wherein the glass plate is a chemically consolidated glass.

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