US20190293989A1 - Adhesive layer-equipped transparent plate and display device - Google Patents
Adhesive layer-equipped transparent plate and display device Download PDFInfo
- Publication number
- US20190293989A1 US20190293989A1 US16/439,932 US201916439932A US2019293989A1 US 20190293989 A1 US20190293989 A1 US 20190293989A1 US 201916439932 A US201916439932 A US 201916439932A US 2019293989 A1 US2019293989 A1 US 2019293989A1
- Authority
- US
- United States
- Prior art keywords
- adhesive layer
- transparent plate
- display device
- light
- transparent
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
Links
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Images
Classifications
-
- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/133308—Support structures for LCD panels, e.g. frames or bezels
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B3/00—Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shape; Layered products comprising a layer having particular features of form
- B32B3/02—Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shape; Layered products comprising a layer having particular features of form characterised by features of form at particular places, e.g. in edge regions
- B32B3/08—Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shape; Layered products comprising a layer having particular features of form characterised by features of form at particular places, e.g. in edge regions characterised by added members at particular parts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B7/00—Layered products characterised by the relation between layers; Layered products characterised by the relative orientation of features between layers, or by the relative values of a measurable parameter between layers, i.e. products comprising layers having different physical, chemical or physicochemical properties; Layered products characterised by the interconnection of layers
- B32B7/04—Interconnection of layers
- B32B7/12—Interconnection of layers using interposed adhesives or interposed materials with bonding properties
-
- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/133308—Support structures for LCD panels, e.g. frames or bezels
- G02F1/133331—Cover glasses
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2307/00—Properties of the layers or laminate
- B32B2307/40—Properties of the layers or laminate having particular optical properties
- B32B2307/412—Transparent
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2457/00—Electrical equipment
- B32B2457/20—Displays, e.g. liquid crystal displays, plasma displays
-
- G02F2001/133331—
-
- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F2202/00—Materials and properties
- G02F2202/28—Adhesive materials or arrangements
Definitions
- the present invention relates to an adhesive layer-equipped transparent plate and a display device.
- Patent Document 1 discloses a transparent plate having an adhesive layer, having such properties that when it is bonded to a display panel, voids are less likely to remain at the interface between the display panel and the adhesive layer.
- an adhesive layer-equipped transparent plate which makes it easy to bond a display device to a transparent support such as a glass plate and which can fix the display device, is provided. Further, according to another embodiment of the present invention, a display device which comprises an adhesive layer-equipped transparent plate and which is excellent in the display quality, is provided.
- the adhesive layer-equipped transparent plate according to one embodiment of the present invention comprises a transparent plate having a first surface and a second surface,
- a light-shielding portion provided on at least one of the periphery of the first surface and the periphery of the second surface of the transparent plate,
- a second adhesive layer provided on the second surface of the transparent plate, in a formation region with an area smaller than a formation region of the first adhesive layer.
- the first adhesive layer is preferably provided on the entire first surface of the transparent plate.
- the light-shielding portion is provided on the periphery of the second surface, and the second adhesive layer is provided on both a region surrounded by the light-shielding portion and a region planarly overlapping with a part of the light-shielding portion.
- each of the shear moduli of the first adhesive layer and the second adhesive layer is from 10 2 to 10 5 Pa.
- the display device comprises an adhesive layer-equipped transparent plate,
- the adhesive layer-equipped transparent plate comprises a transparent plate having a first surface and a second surface, a light-shielding portion provided on at least one of the periphery of the first surface and the periphery of the second surface of the transparent plate, a first adhesive layer provided on the first surface of the transparent plate, and a second adhesive layer provided on the second surface of the transparent plate, in a formation region with an area smaller than a formation region of the first adhesive layer,
- the transparent support is bonded to the transparent plate via the first adhesive layer
- the display device main body is bonded to the transparent plate via the second adhesive layer.
- the interfacial adhesive forces between the first adhesive layer and the transparent support and between the first adhesive layer and the transparent plate are larger than the interfacial adhesive forces between the second adhesive layer and the display device main body and between the second adhesive layer and the transparent plate.
- the interfacial adhesive force between the first adhesive layer and the transparent support is smaller than the interfacial adhesive force between the first adhesive layer and the transparent plate.
- the display device preferably further has a support member supporting a part of the display device main body, fixed to a region other than the formation region of the second adhesive layer on the second surface of the transparent plate.
- the light-shielding portion may be provided on the first surface of the transparent plate, and the support member may be fixed to the second surface of the transparent plate.
- the light-shielding portion may be provided on the second surface of the transparent plate, and the support member may be fixed to the light-shielding portion.
- an adhesive layer-equipped transparent plate which makes it easy to bond a display device to a transparent support such as a glass plate and which can fix the display device, is provided.
- a display device which comprises an adhesive layer-equipped transparent plate and which is excellent in the display quality, is provided.
- FIG. 1 is a plan view illustrating an adhesive layer-equipped transparent plate according to a first embodiment.
- FIG. 2 is a cross-sectional view along the line A-A′ in FIG. 1 .
- FIG. 3 is a cross-sectional view illustrating a display device comprising the adhesive layer-equipped transparent plate according to a first embodiment.
- FIG. 4 is an enlarged cross-sectional view of the portion B in FIG. 3 .
- FIG. 5 is a cross-sectional view illustrating an adhesive layer-equipped transparent plate according to a second embodiment.
- FIG. 6 is a cross-sectional view illustrating a display device comprising the adhesive layer-equipped transparent plate according to a second embodiment.
- “transparent” means that after a plate and a display surface of a display device main body are bonded via an adhesive layer without a void space, whole or part of a display image on the display device main body is visible through the plate substantially without optical distortion. Accordingly, a plate can be regarded as “transparent” so long as a display image on a display device main body is visible substantially without optical distortion through the plate even if part of light which enters the plate from the display device main body is adsorbed or reflected by the plate, or even if the plate has a low visible light transmittance e.g. by a change in the optical phase.
- FIG. 1 is a plan view illustrating an adhesive layer-equipped transparent plate 1 according to a first embodiment.
- FIG. 2 is a cross-sectional view along the line A-A′ in FIG. 1 .
- the adhesive layer-equipped transparent plate 1 comprises a transparent plate 2 having a first surface 2 a and a second surface 2 b , a light-shielding portion 3 , a first adhesive layer 4 , a second adhesive layer 5 , a first protective film 6 and a second protective film 7 .
- the light-shielding portion 3 is provided on the periphery of the second surface 2 b of the transparent plate 2 .
- the first adhesive layer 4 is provided on the first surface 2 a of the transparent plate 2 .
- the second adhesive layer 5 is provided on the second surface 2 b of the transparent plate 2 , and is provided on a formation region smaller than a formation region of the first adhesive layer 4 .
- the transparent plate 2 is a member in the form of a plate, which is a core material of the adhesive layer-equipped transparent plate 1 and which, when the after-mentioned display device main body is bonded to a transparent support, is to be interposed between the display device and the transparent support.
- the transparent plate 2 may, for example, be a glass plate or a resin plate.
- the transparent plate 2 is most preferably a glass plate in view of high transparency to an injected light and a reflected light from the display device main body and in addition, in view of light resistance, low birefringence, high plane accuracy, surface abrasion resistance and high mechanical strength.
- the transparent plate 2 is preferably a glass plate also in view of high transmittance to light which cures a photocurable resin composition constituting the first adhesive layer 4 and the second adhesive layer 5 .
- a glass material such as soda lime glass may be mentioned.
- the glass plate is more preferably a high transmission glass (commonly called white plate glass) having a lower iron content and less bluish tone.
- reinforced glass may be used as the surface material.
- a glass plate subjected to chemical tempering When the transparent plate 2 is bonded to a transparent support via the first adhesive layer 4 , the entire or a part of the transparent plate 2 may be curved, and to prevent breakage of the transparent plate 2 on that occasion, a chemically tempered glass plate is preferred.
- the resin plate a highly transparent resin material such as polycarbonate or polymethyl methacrylate may be mentioned.
- the transparent plate 2 may be subjected to surface treatment to improve the interfacial adhesion to the first adhesive layer 4 and the second adhesive layer 5 .
- the surface treatment method may, for example, be a method of treating the surface of the transparent plate 2 with a silane coupling agent or a method of forming a silicon oxide thin film by oxidizing flame by a flame burner.
- the shape of the transparent plate 2 may be determined in accordance with the planar shape of the display device main body which is to be bonded, and is rectangular as an example as shown in FIG. 1 .
- the thickness of the transparent plate 2 is preferably from about 0.2 to about 2.0 mm in the case of a glass plate, in view of mechanical strength, transparency, etc. In order that an observer does not feel that the display recedes deep (i.e. a sense of depth) strongly, the thickness of the transparent plate 2 is more preferably from about 0.2 to about 0.7 mm. In the case of a resin plate, the thickness of the transparent plate 2 is preferably from about 0.1 to about 1.0 mm. In order that the observer does not strongly feel a sense of depth of the display, the thickness of the transparent plate 2 is more preferably from about 0.1 to about 0.3 mm.
- the light-shielding portion 3 is to shield wiring members such as a flexible printed wiring board connected to the display device main body so that a region other than the image display region (i.e. a region outside the image display region) of the display device main body when the display device main body is bonded is not seen.
- the light-shielding portion 3 is bonded to the second surface 2 b on the side to which the display device main body is to be bonded, between the two surfaces 2 a and 2 b of the transparent plate 2 .
- the light-shielding portion 3 is formed, as shown in FIG. 1 , in a frame form on the periphery along four sides of the rectangular transparent plate 2 as observed from a normal direction of the transparent plate 2 .
- the opening region on the inner side of the light-shielding portion 3 substantially agrees with the image display region of the display device main body when the display device main body is bonded.
- the transparent plate 2 is a glass plate
- the transparent plate 2 is a chemically tempered glass plate
- the firing temperature of the transparent plate 2 at the time of printing may be lowered by using an organic material as a light-shielding ink.
- the light-shielding portion 3 may not necessarily be formed by a printing method.
- a separately prepared light-shielding portion 3 may be bonded to the transparent plate 2 .
- the light-shielding portion 3 may be formed by various thin film formation methods or by a surface modification treatment method for the transparent plate.
- the first adhesive layer 4 is to bond the adhesive layer-equipped transparent plate 1 to a transparent support such as window glass.
- the first adhesive layer 4 is provided on the first surface 2 a on a side to be bonded to the transparent support, between the two surfaces 2 a and 2 b of the transparent plate 2 .
- the first adhesive layer 4 may be provided on a part of the first surface 2 a of the transparent plate 2 , but it is preferably provided on the entire first surface 2 a . The reason is such that when the first adhesive layer 4 is provided on the entire first surface 2 a , the adhesive layer-equipped transparent plate 1 is strongly bonded to the transparent support and in addition, the boundary between a region where the first adhesive layer 4 is present and a region where it is not, is hardly recognizable.
- the first adhesive layer 4 is constituted by a transparent resin obtained by curing the after-mentioned liquid photocurable resin composition. Further, a touch sensor (not shown) may be provided between the transparent plate 2 and the first adhesive layer 4 .
- the shear modulus of the first adhesive layer 4 is preferably within a range of from 10 2 to 10 5 Pa, more preferably within a range of from 10 3 to 10 4 Pa.
- the shear modulus of the first adhesive layer 4 is at least 10 2 Pa, the shape of the first adhesive layer 4 tends to be maintained.
- the shear modulus of the first adhesive layer 4 is at least 10 2 Pa, the transparent plate 2 and a member bonded to the second adhesive layer 5 on the transparent plate 2 can be sufficiently fixed to the transparent support, and at the time of bonding the adhesive layer-equipped transparent plate 1 and the transparent support, the first adhesive layer 4 will be less likely to be deformed by e.g. the pressure at the time of bonding.
- the shear modulus of the first adhesive layer 4 is at most 10 5 Pa, even if air bubbles are formed at the time of bonding the adhesive layer-equipped transparent plate 1 and the transparent support, such air bubbles will disappear in a short time and will be less likely to remain, such being desirable.
- the thickness of the first adhesive layer 4 is preferably from about 0.1 to about 2.0 mm, more preferably from about 0.2 to about 0.8 mm.
- the first adhesive layer 4 will effectively absorb a shock by an external force from the transparent support side, etc. and can thereby protect the display device main body. Further, even if a foreign matter not exceeding the thickness of the adhesive layer 4 is included between the transparent support and the adhesive layer-equipped transparent plate 1 , the thickness of the first adhesive layer 4 will not change substantially, and there will be little influence to the light transmitting performance.
- the thickness of the first adhesive layer 4 is at most 2.0 mm, it becomes easy to bond the transparent plate 2 to the transparent support via the first adhesive layer 4 , and the entire thickness of the display device will not become unnecessarily thick.
- a photocurable resin composition as the material of the first adhesive layer 4 is a liquid composition comprising a curable compound (II) having photocurability, a photopolymerization initiator (C 2 ) and as the case requires, a non-curable oligomer (D).
- the non-curable oligomer (D) is an oligomer having a hydroxy group which does not undergo curing reaction with the curable compound (II) in the composition at the time of curing the photocurable resin composition.
- the curable compound (II) in the photocurable resin composition is at least one type of curable compound which undergoes curing reaction at the time of curing the photocurable resin composition. At least one of such photocurable compound is a compound (IIa) having a hydroxy group which does not react at the time of curing the photocurable resin composition.
- a hydroxy group is present in a cured product obtained by curing the curable compound (II) by itself. Presence of a hydroxy group contributes to stabilization of the non-curable oligomer in the photocurable resin composition.
- the compound (IIa) having a hydroxy group which does not react at the time of curing may be any compound such that an unreacted hydroxy group is present after the curing reaction, and for example, the compound (IIa) may be such that some of hydroxy groups remain unreacted without undergoing the curing reaction although the other hydroxy groups underwent curing reaction.
- the compound (IIa) having a hydroxy group which does not react at the time of curing is a compound having a curable group which contributes to curing reaction and which has a hydroxy group, and it may be a monomer or may be an oligomer having repeating units.
- the compound (IIa) is preferably a monomer having a curable group and having a hydroxy group, with a view to easily adjusting the viscosity of the photocurable composition which is not yet cured.
- the curable compound (II) preferably comprises at least one type of oligomer (A′) having a curable group and having a number average molecular weight of from 1,000 to 100,000 and at least one type of monomer (B′) having a curable group and having a molecular weight of from 125 to 600.
- this type of curable compound (II) it is easy to adjust the viscosity of the photocurable resin composition to be within a preferred range. In such a case, it is preferred to use, as at least a part of the monomer (B′), a monomer (B 3 ) having a curable group and a hydroxy group and having a molecular weight of from 125 to 600.
- the curable group in the oligomer (A′) or the monomer (B′) may, for example, be an addition-polymerizable unsaturated group (such as an acryloyloxy group or a methacryloyloxy group), or a combination of an unsaturated group and a thiol group.
- an addition-polymerizable unsaturated group such as an acryloyloxy group or a methacryloyloxy group
- a combination of an unsaturated group and a thiol group at least one group selected from an acryloyloxy group and a methacryloyloxy group is preferred from such a viewpoint that the curing speed is high, and a highly transparent first adhesive layer 4 is thereby obtainable.
- the curable group in the oligomer (A′) and the curable group in the monomer (B′) may be the same or different from each other.
- the curable group in the relatively high molecular weight oligomer (A′) tends to have a lower reactivity than the curable group in the relatively low molecular weight monomer (B′). Therefore, it is likely that curing of the monomer (B′) proceeds first to rapidly increase the viscosity of the entire composition, whereby the curing reaction tends to be non-uniform.
- the curable group in the oligomer (A′) is an acryloyloxy group having a relatively high reactivity and to adjust the curable group in the monomer (B′) to be a methacryloyloxy group having a relatively low reactivity.
- the number average molecular weight of the oligomer (A′) is from 1,000 to 100,000, preferably from 10,000 to 70,000. When the number average molecular weight of the oligomer (A′) is within this range, it is easy to adjust the viscosity of the photocurable resin composition to be within the above range.
- the number average molecular weight of the oligomer (A′) is a number average molecular weight calculated as polystyrene, obtained by the measurement of GPC.
- a peak of an unreacted low molecular component such as a monomer
- the oligomer (A′) is preferably one having from 1.8 to 4 curable groups per one molecule on average, in view of the curability of the photocurable resin composition and mechanical properties of the first adhesive layer 4 .
- the oligomer (A′) may, for example, be a urethane oligomer having a urethane bond, a poly(meth)acrylate of a polyoxyalkylene polyol or a poly(meth)acrylate of a polyester polyol.
- a urethane oligomer (A 2 ) is preferred from such a viewpoint that it is possible to widely adjust the mechanical properties of the resin after curing, the adhesion to the plate, etc. by e.g. designing the molecule of the urethane chain.
- the urethane oligomer (A 2 ) is preferably one synthesized by a method wherein a polyol and a polyisocyanate are reacted to obtain a prepolymer having an isocyanate group, and then, a monomer (B 2 ) is reacted to the isocyanate group of the prepolymer.
- the polyol and the polyisocyanate may be known compounds, for example, polyol (i), diisocyanate (ii), etc. disclosed as raw materials for a urethane oligomer (a) disclosed in WO2009/016943, which are incorporated in this specification by reference.
- the content proportion of the oligomer (A′) is preferably from 20 to 90 mass %, more preferably from 30 to 80 mass %, in the entirety (100 mass %) of the curable compound (II), i.e. the sum (100 mass %) of the oligomer (A′) and the monomer (B′).
- the proportion of the oligomer (A′) is at least 20 mass %, the heat resistance of the first adhesive layer 4 will be good.
- the proportion of the oligomer (A′) is at most 90 mass %, the curability of the photocurable resin composition and the adhesion between the transparent plate 2 and the first adhesive layer 4 will be good.
- the molecular weight of the monomer (B′) is from 125 to 600, preferably from 140 to 400. When the molecular weight of the monomer (B′) is at least 125, it is possible to prevent volatilization of the monomer at the time of forming the first adhesive layer 4 by using a reduced pressure means. When the molecular weight of the monomer (B′) is at most 600, the adhesion between the transparent plate 2 and the first adhesive layer 4 will be good.
- the monomer (B′) is preferably one having from 1 to 3 curable groups per one molecule, from the viewpoint of the curability of the photocurable resin composition and the mechanical properties of the first adhesive layer 4 .
- the content proportion of the monomer (B′) is preferably from 10 to 80 mass %, more preferably from 20 to 70 mass %, in the entirety (100 mass %) of the curable compound (II), i.e. the sum (100 mass %) of the oligomer (A′) and the monomer (B′).
- the monomer (B′) preferably contains a monomer (B 3 ) having a curable group and a hydroxy group.
- the monomer (B 3 ) will contribute to stabilization of the non-curable oligomer (D). Further, when the monomer (B 3 ) is incorporated, good adhesion between the transparent plate 2 and the first adhesive layer 4 will be readily obtainable.
- the monomer (B 3 ) having a hydroxy group is particularly preferably 2-hydroxybutyl methacrylate or 4-hydroxybutyl acrylate.
- the content proportion of the monomer (B 3 ) is preferably from 10 to 60 mass %, more preferably from 20 to 50 mass %, in the entirety (100 mass %) of the curable compound (II), i.e.
- the content proportion of the monomer (B 3 ) is at least 10 mass %, it is possible to readily obtain the effect to improve the stability of the photocurable resin composition and the effect to improve the adhesion between the transparent plate 2 and the first adhesive layer 4 .
- the monomer (B′) preferably contains the following monomer (B 4 ).
- the content of the monomer (B 4 ) is higher than the content of the monomer (B 3 ) having a hydroxy group by mass ratio, the time tends to be short until air bubbles formed in the first adhesive layer 4 disappear when the display device main body and the adhesive layer-equipped transparent plate 1 are bonded in a reduced pressure atmosphere and then the assembly is returned to an atmospheric pressure atmosphere.
- the monomer (B 4 ) is contained, the time required for curing the photocurable resin composition tends to be long.
- the monomer (B 4 ) is constituted by at least one member selected from the group consisting of alkyl acrylates and alkyl methacrylates having a C 8-22 alkyl group.
- the monomer (B 4 ) may, for example, be n-decyl acrylate, n-dodecyl acrylate, n-dodecyl methacrylate, isooctadecyl acrylate, n-octadecyl methacrylate, n-behenyl methacrylate, etc., and n-dodecyl acrylate, n-dodecyl methacrylate or n-octadecyl methacrylate, is preferred.
- the content proportion of the monomer (B 4 ) is preferably from 5 to 50 mass %, more preferably from 15 to 40 mass % in the entirety (100 mass %) of the curable compound (II) i.e. the sum (100 mass %) of the oligomer (A′) and the monomer (B′).
- the content proportion of the monomer (B 4 ) is at least 5 mass %, sufficient effects by addition of the monomer (B 4 ) tend to be obtained.
- the photopolymerization initiator (C 2 ) contained in the photocurable resin composition may be a photopolymerization initiator of e.g. acetophenone type, ketal type, benzoin or benzoin ether type, phosphine oxide type, benzophenone type, thioxanthone type or quinone type.
- a phosphine oxide type or thioxanthone type photopolymerization initiator is preferred, and with a view to preventing coloration after the photopolymerization reaction, a phosphine oxide type is particularly preferred.
- the content of the photopolymerization initiator (C 2 ) in the photocurable resin composition is preferably from 0.01 to 10 parts by mass, more preferably from 0.1 to 5 parts by mass, to 100 parts by mass of the entirety of the curable compound (II) i.e. the sum of the oligomer (A′) and the monomer (B′).
- the non-curable oligomer (D) is an oligomer having a hydroxy group which does not undergo a curing reaction with the curable compound (II) in the composition at the time of curing the photocurable resin composition.
- the number of hydroxy groups per one molecule of the non-curable oligomer (D) is preferably from 0.8 to 3, more preferably from 1.8 to 2.3.
- the number average molecular weight (Mn) per one hydroxy group, of the non-curable oligomer (D), is preferably from 400 to 8,000.
- the number average molecular weight per one hydroxy group is at least 400, the polarity of the non-curable oligomer (D) will not be too high, and good compatibility with the curable compound (II) in the photocurable resin composition is readily obtainable.
- the number average molecular weight per one hydroxy group is at most 8,000, it is possible to readily obtain the effect to stabilize the non-curable oligomer (D) after curing, by an interaction between the hydroxy group derived from the curable compound (II) and the hydroxy group of the non-curable oligomer (D). It is considered that a hydrogen bond contributes to such an interaction.
- Such non-curable oligomers (D) may be used alone or in combination of two or more of them.
- the non-curable oligomer (D) having a hydroxy group may, for example, be a polyol having a high molecular weight, and a polyoxyalkylene polyol, a polyester polyol or a polycarbonate polyol is preferred.
- the polyoxyalkylene polyol may, for example, be a polyoxyalkylene diol such as polyoxyethylene glycol, polyoxypropylene diol, polyoxypropylene triol or polyoxytetramethylene glycol.
- the number average molecular weight (Mn) per one hydroxy group, of the polyoxyalkylene polyol is preferably from 400 to 8,000, more preferably from 600 to 5,000.
- the polyester polyol may, for example, be an aliphatic polyester diol having a residue of an aliphatic diol such as ethylene glycol, propylene glycol or 1,4-butanediol, and a residue of an aliphatic dicarboxylic acid such as glutaric acid, adipic acid or sebacic acid.
- the polycarbonate polyol may, for example, be an aliphatic polycarbonate diol having a diol residue of e.g. 1,6-hexanediol, or an aliphatic polycarbonate diol such as a ring-opened polymer of an aliphatic cyclic carbonate.
- the number average molecular weight (Mn) per one hydroxy group, of the polyester polyol or the polycarbonate polyol is preferably from 400 to 8,000, more preferably from 800 to 6,000.
- the number average molecular weight of the non-curable oligomer (D) is a value calculated by the following formula (1) from the hydroxy value A (KOH mg/g) measured in accordance with JIS K1557-1 (2007 edition) and the number B of hydroxy groups in one molecule of the non-curable oligomer (D).
- the non-curable oligomer (D) it is preferred to use a polyoxyalkylene polyol, particularly preferably polyoxypropylene polyol, since the elastic modulus of the first adhesive layer 4 after curing tends to be thereby lower. Further, part of oxypropylene groups in the polyoxypropylene polyol may be substituted by an oxyethylene group.
- the oligomer (A′) is a urethane oligomer synthesized by using a polyoxyalkylene polyol and a polyisocyanate as raw materials, and the non-curable oligomer (D) is a polyoxyalkylene polyol.
- the oligomer (A′) and the non-curable oligomer (D) preferably have molecular chains having the same structure or a similar structure.
- a compound having a hydroxy group hereinafter sometimes referred to as a hydroxy group-containing compound
- a hydroxy group-containing compound such as a polyol
- the oligomer (A′) is a urethane oligomer synthesized by using a polyoxyalkylene polyol and a polyisocyanate as raw materials
- the hydroxy group-containing compound as a raw material of the oligomer (A′) is not the same as the hydroxy group-containing compound used as the non-curable oligomer (D)
- it is preferred that the molecular chains of the oligomer (A′) and the non-curable oligomer (D) have partially the same structure such as the same repeating units and further polarities of them are at the same level.
- a method of introducing a polar group to increase the polarity for example, a method of substituting part of oxypropylene groups by an oxyethylene group to increase the polarity, or a method of reducing the molecular weight per hydroxy group to increase the polarity may be mentioned. Such methods may be combined.
- the oligomer (A′) is a urethane oligomer synthesized by using as raw materials a polyoxypropylene polyol (a′) having part of oxypropylene groups substituted by an oxyethylene group and a polyisocyanate
- the non-curable oligomer (D) a polyoxypropylene polyol having no oxyethylene group and having a molecular weight per hydroxy group lower than that of the polyol (a′).
- a composition which comprises as the oligomer (A′) a urethane oligomer (A 2 ) obtained by reacting a polyoxypropylene diol having part of oxypropylene groups substituted by an oxyethylene group and a polyisocyanate compound to obtain a prepolymer having isocyanate groups, and reacting the prepolymer and a monomer (B 2 ), as the non-curable oligomer (D) the polyoxypropylene diol having part of oxypropylene groups substituted by an oxyethylene group, which is the same as the raw material of the urethane oligomer (A 2 ), and as the monomer (B′) a monomer (B 3 ) having a hydroxy group.
- the compatibility of the non-curable oligomer (D) in the composition will further increase. Further, it is considered that by the monomer (B′) having a hydroxy group, the non-curable oligomer (D) can be present stably in the cured product by the interaction between the hydroxy group in the molecular structure in the curable compound (II) after curing, and the hydroxy group in the molecular structure of the non-curable oligomer (D).
- a composition which comprises as the oligomer (A′) a urethane oligomer (A 2 ) obtained by reacting a polyoxypropylene diol having part of oxypropylene groups substituted by an oxyethylene group and a polyisocyanate compound to obtain a prepolymer having isocyanate groups, and reacting the prepolymer and a monomer (B 2 ), as the non-curable oligomer (D) a polyoxypropylene diol not substituted by an oxyethylene group and having a molecular weight lower than that of the polyoxypropylene diol as the raw material of the urethane oligomer (A 2 ), and as the monomer (B′) a monomer (B 3 ) having a hydroxy group.
- the oligomer (A′) a urethane oligomer (A 2 ) obtained by reacting a polyoxypropylene diol having part of oxypropylene groups substituted by an
- the non-curable oligomer (D) in the photocurable resin composition contributes to shortening of a time required for disappearance of air bubbles formed in the interface between the transparent support and the first adhesive layer 4 when the adhesive layer-equipped transparent plate 1 and the transparent support are bonded in a reduced pressure atmosphere and then the laminate is retuned to an atmospheric pressure atmosphere. If the content of the non-curable oligomer (D) in the photocurable resin composition is too low, no desired effects may be obtained, and if the content is too high, curing of the first adhesive layer 4 may be insufficient. If curing of the first adhesive layer 4 is insufficient, it may be difficult to peel the first protective film 6 from the first adhesive layer 4 after curing.
- the content of the non-curable oligomer (D) in the photocurable resin composition is preferably set so as not to cause the above disadvantages, considering the balance with other components, within a range of from 10 to 70 mass % in the entirety (100 mass %) of the photocurable resin composition.
- the photocurable resin composition contains a monomer (B 3 ) having a hydroxy group and a monomer (B 4 ) having an alkyl group
- a content of the monomer (B 4 ) of from 0.6 to 2.5 based on the content (mass basis) of the monomer (B 3 ) being 1, and contains no chain transfer agent in a content of the non-curable oligomer (D) is preferably from 30 to 70 mass %, more preferably from 40 to 70 mass % in the entirety (100 mass %) of the photocurable resin composition.
- a chain transfer agent also contributes to shortening of a time required for disappearance of air bubbles.
- the photocurable resin composition contains a chain transfer agent within a range of at most 1 part by mass per 100 parts by mass of the entirety of the curable compound (II) and the content of the monomer (B 4 ) is lower than that of the monomer (B 3 )
- the content of the non-curable oligomer (D) is preferably from 40 to 70 mass %, more preferably from 50 to 70 mass % in the entirety of the photocurable resin composition for forming a layered portion.
- the content of the monomer (B 4 ) is from 1 to 4 based on the content (mass basis) of the monomer (B 3 ) being 1, and the chain transfer agent is contained within a range of at most 1 part by mass per 100 parts by mass of the entirety of the curable compound ( 11 ), the content of the non-curable oligomer (D) is preferably from 5 to 55 mass %, more preferably from 10 to 50 mass %, further preferably from 20 to 40 mass % in the entirety of the photocurable resin composition. If the monomer (B 4 ) or the chain transfer agent is added, the curing rate tends to be low, and accordingly their contents are preferably lower from such a viewpoint.
- the content of the non-curable oligomer (D) is preferably from 40 to 70 mass %, more preferably from 50 to 70 mass %.
- the photocurable resin composition may contain, in addition to the curable compound ( 11 ), the non-curable oligomer (D) and the photopolymerization initiator (C 2 ), as the case requires, additives such as a polymerization inhibitor, a photocuring accelerator, a chain transfer agent, a photostabilizer (such as an ultraviolet absorber or a radical scavenger), an antioxidant, a flame retardant, an adhesion-improving agent (such as a silane coupling agent), a pigment or a dye, and it preferably contains a polymerization inhibitor, a photostabilizer, an antioxidant or the like.
- additives such as a polymerization inhibitor, a photocuring accelerator, a chain transfer agent, a photostabilizer (such as an ultraviolet absorber or a radical scavenger), an antioxidant, a flame retardant, an adhesion-improving agent (such as a silane coupling agent), a pigment or a dye, and it preferably contains a polymerization inhibitor,
- the stability of the photocurable resin composition can be improved, and the molecular weight of the layered portion after curing can be adjusted.
- the photocurable resin composition contains an antioxidant, the stability of the photocurable resin after curing can be increased.
- the total content of such additives is preferably at most 10 parts by mass, more preferably at most 5 parts by mass per 100 parts by mass of the entirety of the curable compound (II) i.e. the sum of the oligomer (A′) and the monomer (B′).
- the chain transfer agent is preferably not contained or contained only in a small amount, so as to obtain a favorable curing rate.
- a chain transfer agent is contained, the time required for disappearance of air bubbles formed at the time of bonding the transparent support and the adhesive layer-equipped transparent plate 1 tends to be short, and the amount of the non-curable oligomer (D) required to obtain the effect to make the air bubbles well disappear can be reduced.
- the amount of the chain transfer agent if contained is preferably at most 1 part by mass, more preferably at most 0.5 part by mass per 100 parts by mass of the entirety of the curable compound (II) i.e. the sum of the oligomer (A′) and the monomer (B′).
- a method of forming the first adhesive layer by photocuring the photocurable resin composition and then applying it to the transparent plate or by applying the non-cured photocurable resin composition to the transparent plate and photocuring the composition may, for example, be mentioned.
- the second adhesive layer 5 is to bond the adhesive layer-equipped transparent plate 1 to the display device main body.
- the second adhesive layer 5 is provided on the second surface 2 b on the side to which the display device main body is to be bonded, between the two surfaces 2 a and 2 b of the transparent plate 2 .
- the second adhesive layer 5 has a formation area smaller than that of the first adhesive layer 4 .
- the second adhesive layer 5 is provided on a part of the second surface 2 b of the transparent plate 2
- the first adhesive layer 4 is provided on the entire first surface 2 a of the transparent plate 2 . That is, the second surface 2 b of the transparent plate 2 has a region on which the second adhesive layer 5 is provided and a region on which the second adhesive layer 5 is not provided.
- the material constituting the second adhesive layer 5 may be the same as or different from the material constituting the first adhesive layer 4 . Since the second adhesive layer 5 is bonded to a display panel of a display device, it is preferably bonded without voids under a smaller bonding pressure so as not to impair the display panel. Accordingly, the content of the non-curable component in the curable compound is increased, or the content of the chain transfer agent is adjusted. Further, the second adhesive layer 5 may contain an ultraviolet absorber in an amount smaller than that in the first adhesive layer 4 , since an external light which has been transmitted through the first adhesive layer 4 and the transparent plate 2 enters the second adhesive layer 5 . The thickness of the second adhesive layer 5 may be the same as or different from the thickness of the first adhesive layer 4 .
- the shear modulus of the second adhesive layer 5 may be the same as or different from the shear modulus of the first adhesive layer 4 . Since the second adhesive layer 5 is directly in contact with the display device, it is preferred to use a material constituting the second adhesive layer 5 , capable of forming an adhesive layer with a smaller shear modulus, or to make the second adhesive layer 5 thick, in a case where the uniformity of the display image may be impaired by bonding of the transparent plate to a display surface, such as a case of an IPS mode liquid crystal display device.
- the second adhesive layer 5 is provided on both a region surrounded by the frame-form light-shielding portion 3 and a region planarly overlapping with a part of the light-shielding portion 3 , on the second surface 2 b of the transparent plate 2 . Since the second adhesive layer 5 is bonded to a portion corresponding to the image display region of the display device main body, it may be provided only on a region surrounded by the light-shielding portion 3 , i.e. a region on the inner side of the light-shielding portion 3 .
- the region where the second adhesive layer 5 planarly overlaps with a part of the light-shielding portion 3 functions as an alignment margin at the time of position adjustment of the second adhesive layer 5 and the light-shielding portion 3 . Accordingly, even if the second adhesive layer 5 and the light-shielding portion 3 are somewhat misaligned, the second adhesive layer 5 will readily be formed on a region surrounded by the light-shielding portion 3 .
- the display device main body is fixed to the transparent plate 2 with a sufficiently high strength, and in addition, the edge of the second adhesive layer 5 is shielded by the light-shielding portion 3 , whereby a decrease in the display quality by the sight of the edge of the second adhesive layer 5 will not occur.
- the first protective film 6 and the second protective film 7 are to protect the first adhesive layer 4 or the second adhesive layer 5 when the adhesive layer-equipped transparent plate is not in use, and they are peeled from the first adhesive layer 4 or the second adhesive layer 5 when the plate is used. Accordingly, the first protective film 6 and the second protective film 7 are required not to be strongly contact-bonded to the first adhesive layer 4 or the second adhesive layer 5 .
- a protective film comprising a base film having a relatively low adhesion to the first adhesive layer or the second adhesive layer, comprising polyethylene, polypropylene, a fluorinated resin or the like, disposed to be in contact with the first adhesive layer 4 or the second adhesive layer 5 .
- the adhesion on the adhesive face of each of the first protective film 6 and the second protective film 7 is preferably from 0.01 to 1 N, more preferably from 0.02 to 0.6 N, with a test specimen having a width of 50 mm in 180° peel test at a peel rate of 300 mm/min with respect to an acrylic plate.
- the suitable thickness of each of the first protective film 6 and the second protective film 7 varies depending upon the resin used, and is preferably from 0.03 to 0.2 mm, more preferably from 0.06 to 0.1 mm in a case of using a relatively flexible film of e.g. polyethylene or polypropylene. When the thickness is at least 0.03 mm, deformation of the protective film can be suppressed when the protective film is peeled from the adhesive layer. When the thickness is at most 0.2 mm, the protective film is likely to sag at the time of peeling and is easily peeled.
- a release agent such as a silicone may be applied to the first protective film 6 and the second protective film 7 within a range not to impair the first adhesive layer 4 and the second adhesive layer 5 . It is preferred to use a first protective film 6 and a second protective film 7 larger than the transparent plate 2 , in order that the edges of the first protective film 6 and the second protective film 7 are easily held when the protective films are peeled from the first adhesive layer 4 and the second adhesive layer 5 .
- FIG. 3 is a cross-sectional view illustrating a display device comprising the adhesive layer-equipped transparent plate according to the first embodiment.
- FIG. 4 is an enlarged cross-sectional view of the portion B in FIG. 3 .
- a backlight 17 portion is simplified for easy understanding.
- the display device 10 comprises a display device main body 11 , an adhesive layer-equipped transparent plate 1 and a transparent support 12 .
- the transparent support 12 is bonded to a first surface 1 a of the adhesive layer-equipped transparent plate 1 having a first adhesive layer 4 provided.
- the display device main body 11 is bonded to a second surface 1 b of the adhesive layer-equipped transparent plate 1 .
- the transparent support 12 is for example a window glass used in e.g. a store or an office.
- the display device main body 11 is a liquid crystal display device.
- the adhesive layer-equipped transparent plate 1 is one having the first protective film 6 and the second protective film 7 peeled from the adhesive layer-equipped transparent plate 1 shown in FIG. 2 .
- the transparent plate 2 is bonded to the transparent support 12 via the first adhesive layer 4 .
- the display device main body 11 is bonded to the transparent plate 2 via the second adhesive layer 5 .
- an adhesive layer-equipped transparent plate 1 having a touch sensor (not shown) provided on the transparent support 12 side of the transparent plate 2 may be used. In such a case, the display device 10 may be operated by touching the display device from the outside of the transparent support 12 .
- the display device main body 11 comprises a liquid crystal panel 14 , a pair of polarizing plates 15 and 16 , a backlight 17 (lighting unit), a frame 18 and a case 19 .
- the liquid crystal panel 14 comprises a pair of glass substrates 21 and 22 , and a liquid crystal (not shown) sealed in between the glass substrates 21 and 22 .
- the drive system of the liquid crystal panel 14 is not particularly limited, and for example, an in-plane switching mode liquid crystal panel may be mentioned.
- the pair of glass substrates 21 and 22 comprises a TFT element substrate equipped with a thin film transistor (hereinafter referred to as TFT) and a color filter substrate equipped with a color filter.
- TFT thin film transistor
- the polarizing plates 15 and 16 are bonded to both the surfaces of the liquid crystal panel 14 to sandwich the liquid crystal panel 14 . Further, an optical film such as a wave plate may be disposed between the liquid crystal panel 14 and each of the polarizing plates 15 and 16 .
- the backlight 17 comprises a light-emitting device 23 such as a light-emitting diode (LED), a light guide plate 24 and as the case requires, one or more optical films such as a prism sheet or a light diffusion sheet, and a mirror 26 .
- a light-emitting device 23 such as a light-emitting diode (LED)
- a light guide plate 24 and as the case requires, one or more optical films
- Light emitted from the light emitting device 23 is reflected on the mirror 26 while it enters the light guide plate 24 and is transmitted through the interior of the light guide plate 24 , and is emitted via the optical film 25 toward the liquid crystal panel 14 .
- the optical film 25 has functions to uniformalize the intensity of light emitted from the light guide plate 24 , to change the angular field of view, and to improve the light utilization efficiency. Accordingly, the optical film 25 and the liquid crystal panel 14 are disposed with an interval as the case requires.
- the liquid crystal panel 14 Since the liquid crystal panel 14 is relatively light in weight, it is supported on the transparent support 12 only by bonding the image display region portion of the liquid crystal panel 14 to the transparent support 12 via the adhesive layer-equipped transparent plate 1 .
- the weight of the backlight 17 increases in some cases if the size of the liquid crystal panel 14 is increased, and even if the liquid crystal panel 14 and the backlight 17 are fixed, the entire display device main body 11 can hardly be supported on the transparent support 12 in some cases only by bonding the liquid crystal panel 14 to the transparent support 12 . In such a case, it is preferred to make the backlight 17 among the members constituting the display device main body 11 , be supported on the transparent support 12 separately from the liquid crystal panel 14 .
- a support member 28 (angle) with an L-shaped cross section is used to fix the backlight 17 to the adhesive layer-equipped transparent plate 1 . More specifically, the support member 28 to fix the backlight 17 is fixed to the light-shielding portion 3 on the second surface 2 b of the transparent plate 2 by a double-coated adhesive tape 29 . The backlight 17 is fixed to the frame 18 , and the frame 18 is fixed to the case 19 . The case 19 is fixed to the support member 28 by a bolt 30 . By the above constitution, the backlight 17 is fixed to the transparent support 12 via the adhesive layer-equipped transparent plate 1 .
- the first protective film 6 is peeled from the adhesive layer-equipped transparent plate 1 , the adhesive layer-equipped transparent plate 1 is bonded to the transparent support 12 , and then the second protective film 7 is peeled, and the display device main body 11 is bonded to the adhesive layer-equipped transparent plate 1 bonded to the transparent support 12 .
- the second protective film 7 is peeled from the adhesive layer-equipped transparent plate 1 , the adhesive layer-equipped transparent plate 1 is bonded to the display device main body 11 , and then the first protective film 6 is peeled, and the display device main body 11 to which the adhesive layer-equipped transparent plate 1 is bonded is bonded to the transparent support 12 .
- the adhesive layer-equipped transparent plate 1 may be bonded while it is curved entirely or locally. In such a case, it is preferred to bond the adhesive layer-equipped transparent plate 1 alone to the transparent support 12 first, since the adhesive layer-equipped transparent plate 1 is easily curved.
- the display device main body 11 bonded to the transparent support 12 is to be peeled from the transparent support 12 .
- the bonded object is peeled while it is curved in some cases, and it is preferred to peel the display device main body 11 from the adhesive layer-equipped transparent plate 1 first and then peel the adhesive layer-equipped transparent plate 1 from the transparent support 12 .
- the interfacial adhesive forces between the first adhesive layer 4 and the transparent support 12 and between the first adhesive layer 4 and the transparent plate 2 are preferably larger than the interfacial adhesive forces between the second adhesive layer 5 and the display device main body 11 and between the second adhesive layer 5 and the transparent plate 2 .
- the first adhesive layer 4 will not remain on the transparent support 12 , and the transparent support 12 i.e. a window glass will be restored to original state before the display device main body 11 is bonded.
- the interfacial adhesive force between the first adhesive layer 4 and the transparent support 12 is preferably smaller than the interfacial adhesive force between the first adhesive layer 4 and the transparent plate 2 .
- the adhesive forces may be adjusted by the proportion of the monomer (B 3 ) and the monomer (B 4 ) in the curable compound, and the contents of the non-curable component and the chain transfer agent, as materials constituting the first adhesive layer 4 and the second adhesive layer 5 .
- the interfacial adhesive strength can be increased by increasing the proportion of the monomer (B 3 ) to the monomer (B 4 ) or by suppressing the content of the non-curable component. Further, the adhesive strength to a glass surface can be increased also by increasing the content of the chain transfer agent.
- the adhesive layer-equipped transparent plate 1 has the first adhesive layer 4 to bond the adhesive layer-equipped transparent plate 1 to the transparent support 12 provided on the first surface 2 a of the transparent plate 2 , and the second adhesive layer 5 to bond the display device main body 11 provided on the second surface 2 b of the transparent plate 2 . Accordingly, when the display device main body 11 is bonded to the transparent support 12 , it is not necessary to newly dispose an adhesive material or the like on the transparent plate 2 , and bonding of the display device main body 11 can easily be carried out.
- the light-shielding portion 3 surrounding the image display region is provided on the adhesive layer-equipped transparent plate 1 , e.g. wiring members connected to the liquid crystal panel 14 can be shielded without newly providing a light-shielding portion.
- the distance between the light-shielding portion 3 and the image display surface in a depth direction is short.
- the second adhesive layer 5 is formed large enough to cover the light-shielding portion 3 on the entire second surface 2 b of the transparent plate 2 , and the support member 28 is fixed on the second adhesive layer 5 .
- the shear modulus of the second adhesive layer 5 is adjusted to be lower than that of a conventional adhesive layer, in order that air bubbles formed when the second adhesive layer 5 and the display device main body 11 are bonded will easily disappear. Accordingly, it is very difficult to fix the support member 28 supporting the weight of the backlight 17 by the second adhesive layer 5 .
- the second adhesive layer 5 is formed at a part on a center portion on the second surface 2 b of the transparent plate 2 and the light-shielding portion 3 is exposed, and the support member 28 is fixed to the light-shielding portion 3 by the double-coated adhesive tape 29 .
- the display device main body 11 including the backlight 17 can be strongly fixed.
- the basic constitution of the adhesive layer-equipped transparent plate according to the second embodiment is the same as the first embodiment, and the surface on which the light-shielding portion is formed on the transparent plate is different from the first embodiment.
- FIGS. 5 and 6 the same components as in those in FIGS. 1 to 4 described in the first embodiment are represented by the same symbols, and their detailed description is omitted.
- an adhesive layer-equipped transparent plate 31 comprises a transparent plate 2 , a light-shielding portion 3 , a first adhesive layer 4 , a second adhesive layer 5 , a first protective film 6 and a second protective film 7 .
- the light-shielding portion 3 is provided on the periphery of a first surface 2 a of the transparent plate 2 .
- the first adhesive layer 4 is provided so as to cover the light-shielding portion 3 on the entire first surface 2 a of the transparent plate 2 .
- the second adhesive layer 5 has a formation area smaller than that of the first adhesive layer 4 , and is provided on a second surface 2 b of the transparent plate 2 .
- the area and the shape of the region on which the second adhesive layer 5 is formed are the same as those in the first embodiment. That is, the second adhesive layer 5 is provided on both a region surrounded by the frame-form light-shielding portion 3 and a region planarly overlapping with a part of the light-shielding portion 3 , when observed from a normal direction of the transparent plate 2 through the transparent plate 2 .
- the other constitution of the adhesive layer-equipped transparent plate 31 is the same as in the first embodiment.
- a display device 32 comprises a display device main body 11 , the adhesive layer-equipped transparent plate 31 and a transparent support 12 .
- the transparent support 12 is bonded to a first surface 31 a of the adhesive layer-equipped transparent plate 31 .
- the display device main body 11 is bonded to a second surface 31 b of the adhesive layer-equipped transparent plate 31 .
- the transparent support 12 is for example a window glass to be used for a store, an office or the like, and the display device main body 11 is for example a liquid crystal display device.
- the adhesive layer-equipped transparent plate 31 is one having the first protective film 6 and the second protective film 7 peeled from the adhesive layer-equipped transparent plate 31 as shown in FIG. 4 .
- the transparent plate 2 is bonded to the transparent support 12 via the first adhesive layer 4 .
- the display device main body 11 is bonded to the transparent plate 2 via the second adhesive layer 5 .
- the same effects as in the first embodiment such that bonding of the display device main body can easily be carried out, a decrease in display visibility can be suppressed, etc., can be obtained.
- the second embodiment is different from the first embodiment in that a support member 28 to support a backlight 17 is directly bonded to the second surface 2 b of the transparent plate 2 since the light-shielding portion 3 is formed on the first surface 2 a of the transparent plate 2 . That is, in the second embodiment, the support member 28 is directly bonded to the surface of a glass plate or a resin plate constituting the transparent plate 2 not via the light-shielding portion 3 . Accordingly, by the constitution of the second embodiment, the adhesion between an angle 28 and the transparent plate 2 can be increased, and the reliability of fixing of the display device main body can further be increased, as compared with the constitution of the first embodiment in which the angle 28 is fixed to the transparent plate 2 via the light-shielding portion 3 .
- a frame-form light-shielding portion surrounding all the four sides of the rectangular transparent plate is mentioned as an example, however, it may not be a frame-form light-shielding portion surrounding all the four sides.
- a light-shielding portion disposed along two opposing sides may be used.
- the transparent support constituting the display device a window glass to be used in a store, an office or the like may be mentioned as an example, however, instead of a window glass, a movable member such as a glass partition partitioning a room may be used as the transparent support, and a display device main body is bonded to the transparent support.
- the present invention has been specifically described with reference to a liquid crystal display in FIGS. 3 to 6 as the display device main body, however, in addition to the liquid crystal display, an organic EL display, a plasma display, an electronic paper display, etc. may be used. Further, the shape, number, arrangement, material, etc. of each of the elements constituting the adhesive layer-equipped transparent plate and the display device are not limited to the above embodiments, and various modifications are possible.
- the present invention is applicable for various display devices such as a liquid crystal display, an organic EL display, a plasma display and an electronic paper display, and an adhesive layer-equipped transparent plate used to bond such display devices to a transparent support.
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Abstract
To provide an adhesive layer-equipped transparent plate which makes it easy to bond a display device to a transparent support such as a glass plate and which can suppress a decrease in the image quality.
The adhesive layer-equipped transparent plate 1 of the present invention comprises a transparent plate 2 having a first surface and a second surface, a light-shielding portion 3 provided on at least one of the periphery of the first surface 2 a and the periphery of the second surface 2 b of the transparent plate 2, a first adhesive layer 4 provided on the first surface 2 a of the transparent plate 2, and a second adhesive layer 5 provided on the second surface 2 b of the transparent plate 2, in a formation region with an area smaller than the formation region of the first adhesive layer 4.
Description
- The present invention relates to an adhesive layer-equipped transparent plate and a display device.
- For the purpose of protecting a display surface of a display panel of e.g. a liquid crystal display device and an organic electroluminescence display device, it has been known to bond a transparent plate equipped with an adhesive layer to the display panel. Hereinafter, an organic electroluminescence display device will be referred to simply as an organic EL display device. For example, the following
Patent Document 1 discloses a transparent plate having an adhesive layer, having such properties that when it is bonded to a display panel, voids are less likely to remain at the interface between the display panel and the adhesive layer. -
- Patent Document 1: WO2011/148990
- In recent years, use of a display device in such a manner that it is bonded to a store window or a glass wall of an office so that the display surface faces outside, has been studied. By such a manner, the display device can be utilized as a billboard, an advertising display, etc., since passersby can recognize the display through the glass from the outside of the store or the office. However, if the display device as disclosed in
Patent Document 1 is to be bonded to glass, it is necessary to further dispose an adhesive material on the opposite side of the transparent plate from a side on which the adhesive layer is provided. In such a case, the operation of bonding the display device is troublesome and in addition, it is difficult to fix the display device on glass in some cases. Further, the display quality may decrease in some cases depending upon the manner of bonding. Further, in a case where the display device is bonded to e.g. a glass wall, workability, easiness to restore to original state, etc. are required. - According to one embodiment of the present invention, an adhesive layer-equipped transparent plate which makes it easy to bond a display device to a transparent support such as a glass plate and which can fix the display device, is provided. Further, according to another embodiment of the present invention, a display device which comprises an adhesive layer-equipped transparent plate and which is excellent in the display quality, is provided.
- The adhesive layer-equipped transparent plate according to one embodiment of the present invention comprises a transparent plate having a first surface and a second surface,
- a light-shielding portion provided on at least one of the periphery of the first surface and the periphery of the second surface of the transparent plate,
- a first adhesive layer provided on the first surface of the transparent plate, and
- a second adhesive layer provided on the second surface of the transparent plate, in a formation region with an area smaller than a formation region of the first adhesive layer.
- In the adhesive layer-equipped transparent plate according to one embodiment of the present invention, the first adhesive layer is preferably provided on the entire first surface of the transparent plate.
- In the adhesive layer-equipped transparent plate according to one embodiment of the present invention, it is preferred that the light-shielding portion is provided on the periphery of the second surface, and the second adhesive layer is provided on both a region surrounded by the light-shielding portion and a region planarly overlapping with a part of the light-shielding portion.
- In the adhesive layer-equipped transparent plate according to one embodiment of the present invention, it is preferred that each of the shear moduli of the first adhesive layer and the second adhesive layer is from 102 to 105 Pa.
- The display device according to one embodiment of the present invention comprises an adhesive layer-equipped transparent plate,
- a transparent support bonded to a first surface of the adhesive layer-equipped transparent plate, and
- a display device main body bonded to a second surface of the adhesive layer-equipped transparent plate,
- wherein the adhesive layer-equipped transparent plate comprises a transparent plate having a first surface and a second surface, a light-shielding portion provided on at least one of the periphery of the first surface and the periphery of the second surface of the transparent plate, a first adhesive layer provided on the first surface of the transparent plate, and a second adhesive layer provided on the second surface of the transparent plate, in a formation region with an area smaller than a formation region of the first adhesive layer,
- the transparent support is bonded to the transparent plate via the first adhesive layer, and
- the display device main body is bonded to the transparent plate via the second adhesive layer.
- In the display device according to one embodiment of the present invention, it is preferred that the interfacial adhesive forces between the first adhesive layer and the transparent support and between the first adhesive layer and the transparent plate are larger than the interfacial adhesive forces between the second adhesive layer and the display device main body and between the second adhesive layer and the transparent plate.
- In the display device according to one embodiment of the present invention, it is preferred that the interfacial adhesive force between the first adhesive layer and the transparent support is smaller than the interfacial adhesive force between the first adhesive layer and the transparent plate.
- The display device according to one embodiment of the present invention preferably further has a support member supporting a part of the display device main body, fixed to a region other than the formation region of the second adhesive layer on the second surface of the transparent plate.
- In the display device according to one embodiment of the present invention, the light-shielding portion may be provided on the first surface of the transparent plate, and the support member may be fixed to the second surface of the transparent plate.
- In the display device according to one embodiment of the present invention, the light-shielding portion may be provided on the second surface of the transparent plate, and the support member may be fixed to the light-shielding portion.
- According to one embodiment of the present invention, an adhesive layer-equipped transparent plate which makes it easy to bond a display device to a transparent support such as a glass plate and which can fix the display device, is provided. According to one embodiment of the present invention, a display device which comprises an adhesive layer-equipped transparent plate and which is excellent in the display quality, is provided.
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FIG. 1 is a plan view illustrating an adhesive layer-equipped transparent plate according to a first embodiment. -
FIG. 2 is a cross-sectional view along the line A-A′ inFIG. 1 . -
FIG. 3 is a cross-sectional view illustrating a display device comprising the adhesive layer-equipped transparent plate according to a first embodiment. -
FIG. 4 is an enlarged cross-sectional view of the portion B inFIG. 3 . -
FIG. 5 is a cross-sectional view illustrating an adhesive layer-equipped transparent plate according to a second embodiment. -
FIG. 6 is a cross-sectional view illustrating a display device comprising the adhesive layer-equipped transparent plate according to a second embodiment. - Now, the first embodiment of the present invention will be described with reference to
FIGS. 1 to 4 . - In the following drawings, in order to make various components easily understandable, the respective components may be shown as differentiated in their sizes.
- In this specification, “transparent” means that after a plate and a display surface of a display device main body are bonded via an adhesive layer without a void space, whole or part of a display image on the display device main body is visible through the plate substantially without optical distortion. Accordingly, a plate can be regarded as “transparent” so long as a display image on a display device main body is visible substantially without optical distortion through the plate even if part of light which enters the plate from the display device main body is adsorbed or reflected by the plate, or even if the plate has a low visible light transmittance e.g. by a change in the optical phase.
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FIG. 1 is a plan view illustrating an adhesive layer-equippedtransparent plate 1 according to a first embodiment.FIG. 2 is a cross-sectional view along the line A-A′ inFIG. 1 . - As shown in
FIG. 2 , the adhesive layer-equippedtransparent plate 1 according to a first embodiment comprises atransparent plate 2 having afirst surface 2 a and asecond surface 2 b, a light-shieldingportion 3, a firstadhesive layer 4, a secondadhesive layer 5, a firstprotective film 6 and a secondprotective film 7. The light-shieldingportion 3 is provided on the periphery of thesecond surface 2 b of thetransparent plate 2. The firstadhesive layer 4 is provided on thefirst surface 2 a of thetransparent plate 2. The secondadhesive layer 5 is provided on thesecond surface 2 b of thetransparent plate 2, and is provided on a formation region smaller than a formation region of the firstadhesive layer 4. - The
transparent plate 2 is a member in the form of a plate, which is a core material of the adhesive layer-equippedtransparent plate 1 and which, when the after-mentioned display device main body is bonded to a transparent support, is to be interposed between the display device and the transparent support. Thetransparent plate 2 may, for example, be a glass plate or a resin plate. Thetransparent plate 2 is most preferably a glass plate in view of high transparency to an injected light and a reflected light from the display device main body and in addition, in view of light resistance, low birefringence, high plane accuracy, surface abrasion resistance and high mechanical strength. Thetransparent plate 2 is preferably a glass plate also in view of high transmittance to light which cures a photocurable resin composition constituting the firstadhesive layer 4 and the secondadhesive layer 5. - As an example of a glass plate, a glass material such as soda lime glass may be mentioned. Further, the glass plate is more preferably a high transmission glass (commonly called white plate glass) having a lower iron content and less bluish tone. In order to increase the safety, reinforced glass may be used as the surface material. Especially when a thin glass plate is to be used, it is preferred to employ a glass plate subjected to chemical tempering. When the
transparent plate 2 is bonded to a transparent support via the firstadhesive layer 4, the entire or a part of thetransparent plate 2 may be curved, and to prevent breakage of thetransparent plate 2 on that occasion, a chemically tempered glass plate is preferred. As examples of the resin plate, a highly transparent resin material such as polycarbonate or polymethyl methacrylate may be mentioned. - The
transparent plate 2 may be subjected to surface treatment to improve the interfacial adhesion to the firstadhesive layer 4 and the secondadhesive layer 5. The surface treatment method may, for example, be a method of treating the surface of thetransparent plate 2 with a silane coupling agent or a method of forming a silicon oxide thin film by oxidizing flame by a flame burner. - The shape of the
transparent plate 2 may be determined in accordance with the planar shape of the display device main body which is to be bonded, and is rectangular as an example as shown inFIG. 1 . The thickness of thetransparent plate 2 is preferably from about 0.2 to about 2.0 mm in the case of a glass plate, in view of mechanical strength, transparency, etc. In order that an observer does not feel that the display recedes deep (i.e. a sense of depth) strongly, the thickness of thetransparent plate 2 is more preferably from about 0.2 to about 0.7 mm. In the case of a resin plate, the thickness of thetransparent plate 2 is preferably from about 0.1 to about 1.0 mm. In order that the observer does not strongly feel a sense of depth of the display, the thickness of thetransparent plate 2 is more preferably from about 0.1 to about 0.3 mm. - The light-shielding
portion 3 is to shield wiring members such as a flexible printed wiring board connected to the display device main body so that a region other than the image display region (i.e. a region outside the image display region) of the display device main body when the display device main body is bonded is not seen. In the case of this embodiment, the light-shieldingportion 3 is bonded to thesecond surface 2 b on the side to which the display device main body is to be bonded, between the twosurfaces transparent plate 2. And, the light-shieldingportion 3 is formed, as shown inFIG. 1 , in a frame form on the periphery along four sides of the rectangulartransparent plate 2 as observed from a normal direction of thetransparent plate 2. The opening region on the inner side of the light-shieldingportion 3 substantially agrees with the image display region of the display device main body when the display device main body is bonded. - In a case where the
transparent plate 2 is a glass plate, it is preferred to form the light-shieldingportion 3 by a printing method such as ceramic printing with a black pigment, whereby high shielding properties are obtained. In a case where thetransparent plate 2 is a chemically tempered glass plate, the firing temperature of thetransparent plate 2 at the time of printing may be lowered by using an organic material as a light-shielding ink. However, the light-shieldingportion 3 may not necessarily be formed by a printing method. For example, a separately prepared light-shieldingportion 3 may be bonded to thetransparent plate 2. Further, the light-shieldingportion 3 may be formed by various thin film formation methods or by a surface modification treatment method for the transparent plate. - The first
adhesive layer 4 is to bond the adhesive layer-equippedtransparent plate 1 to a transparent support such as window glass. The firstadhesive layer 4 is provided on thefirst surface 2 a on a side to be bonded to the transparent support, between the twosurfaces transparent plate 2. The firstadhesive layer 4 may be provided on a part of thefirst surface 2 a of thetransparent plate 2, but it is preferably provided on the entirefirst surface 2 a. The reason is such that when the firstadhesive layer 4 is provided on the entirefirst surface 2 a, the adhesive layer-equippedtransparent plate 1 is strongly bonded to the transparent support and in addition, the boundary between a region where the firstadhesive layer 4 is present and a region where it is not, is hardly recognizable. The firstadhesive layer 4 is constituted by a transparent resin obtained by curing the after-mentioned liquid photocurable resin composition. Further, a touch sensor (not shown) may be provided between thetransparent plate 2 and the firstadhesive layer 4. - The shear modulus of the first
adhesive layer 4 is preferably within a range of from 102 to 105 Pa, more preferably within a range of from 103 to 104 Pa. When the shear modulus of the firstadhesive layer 4 is at least 102 Pa, the shape of the firstadhesive layer 4 tends to be maintained. Further, when the shear modulus of the firstadhesive layer 4 is at least 102 Pa, thetransparent plate 2 and a member bonded to the secondadhesive layer 5 on thetransparent plate 2 can be sufficiently fixed to the transparent support, and at the time of bonding the adhesive layer-equippedtransparent plate 1 and the transparent support, the firstadhesive layer 4 will be less likely to be deformed by e.g. the pressure at the time of bonding. On the other hand, when the shear modulus of the firstadhesive layer 4 is at most 105 Pa, even if air bubbles are formed at the time of bonding the adhesive layer-equippedtransparent plate 1 and the transparent support, such air bubbles will disappear in a short time and will be less likely to remain, such being desirable. - The thickness of the first
adhesive layer 4 is preferably from about 0.1 to about 2.0 mm, more preferably from about 0.2 to about 0.8 mm. When the thickness of the firstadhesive layer 4 is at least 0.1 mm, the firstadhesive layer 4 will effectively absorb a shock by an external force from the transparent support side, etc. and can thereby protect the display device main body. Further, even if a foreign matter not exceeding the thickness of theadhesive layer 4 is included between the transparent support and the adhesive layer-equippedtransparent plate 1, the thickness of the firstadhesive layer 4 will not change substantially, and there will be little influence to the light transmitting performance. When the thickness of the firstadhesive layer 4 is at most 2.0 mm, it becomes easy to bond thetransparent plate 2 to the transparent support via the firstadhesive layer 4, and the entire thickness of the display device will not become unnecessarily thick. - A photocurable resin composition as the material of the first
adhesive layer 4 is a liquid composition comprising a curable compound (II) having photocurability, a photopolymerization initiator (C2) and as the case requires, a non-curable oligomer (D). The non-curable oligomer (D) is an oligomer having a hydroxy group which does not undergo curing reaction with the curable compound (II) in the composition at the time of curing the photocurable resin composition. - The curable compound (II) in the photocurable resin composition is at least one type of curable compound which undergoes curing reaction at the time of curing the photocurable resin composition. At least one of such photocurable compound is a compound (IIa) having a hydroxy group which does not react at the time of curing the photocurable resin composition. When the curable compound (II) contains the compound (IIa), a hydroxy group is present in a cured product obtained by curing the curable compound (II) by itself. Presence of a hydroxy group contributes to stabilization of the non-curable oligomer in the photocurable resin composition. Accordingly, the compound (IIa) having a hydroxy group which does not react at the time of curing may be any compound such that an unreacted hydroxy group is present after the curing reaction, and for example, the compound (IIa) may be such that some of hydroxy groups remain unreacted without undergoing the curing reaction although the other hydroxy groups underwent curing reaction.
- The compound (IIa) having a hydroxy group which does not react at the time of curing is a compound having a curable group which contributes to curing reaction and which has a hydroxy group, and it may be a monomer or may be an oligomer having repeating units. The compound (IIa) is preferably a monomer having a curable group and having a hydroxy group, with a view to easily adjusting the viscosity of the photocurable composition which is not yet cured.
- The curable compound (II) preferably comprises at least one type of oligomer (A′) having a curable group and having a number average molecular weight of from 1,000 to 100,000 and at least one type of monomer (B′) having a curable group and having a molecular weight of from 125 to 600. When this type of curable compound (II) is used, it is easy to adjust the viscosity of the photocurable resin composition to be within a preferred range. In such a case, it is preferred to use, as at least a part of the monomer (B′), a monomer (B3) having a curable group and a hydroxy group and having a molecular weight of from 125 to 600.
- The curable group in the oligomer (A′) or the monomer (B′) may, for example, be an addition-polymerizable unsaturated group (such as an acryloyloxy group or a methacryloyloxy group), or a combination of an unsaturated group and a thiol group. Among them, at least one group selected from an acryloyloxy group and a methacryloyloxy group is preferred from such a viewpoint that the curing speed is high, and a highly transparent first
adhesive layer 4 is thereby obtainable. - The curable group in the oligomer (A′) and the curable group in the monomer (B′) may be the same or different from each other. The curable group in the relatively high molecular weight oligomer (A′) tends to have a lower reactivity than the curable group in the relatively low molecular weight monomer (B′). Therefore, it is likely that curing of the monomer (B′) proceeds first to rapidly increase the viscosity of the entire composition, whereby the curing reaction tends to be non-uniform. In order to minimize the difference in the reactivity of the curable groups in both and to obtain a uniform first
adhesive layer 4, it is more preferred to adjust the curable group in the oligomer (A′) to be an acryloyloxy group having a relatively high reactivity and to adjust the curable group in the monomer (B′) to be a methacryloyloxy group having a relatively low reactivity. In order to shorten the time required for the curing reaction or to increase the adhesive force of the firstadhesive layer 4, it is preferred to adjust each of the curable groups in the oligomer (A′) and the monomer (B′) to be an acryloyloxy group. - The number average molecular weight of the oligomer (A′) is from 1,000 to 100,000, preferably from 10,000 to 70,000. When the number average molecular weight of the oligomer (A′) is within this range, it is easy to adjust the viscosity of the photocurable resin composition to be within the above range. The number average molecular weight of the oligomer (A′) is a number average molecular weight calculated as polystyrene, obtained by the measurement of GPC. Here, in a case where in the measurement of GPC, a peak of an unreacted low molecular component (such as a monomer) appears, the number average molecular weight is obtained by excluding such a peak.
- The oligomer (A′) is preferably one having from 1.8 to 4 curable groups per one molecule on average, in view of the curability of the photocurable resin composition and mechanical properties of the first
adhesive layer 4. The oligomer (A′) may, for example, be a urethane oligomer having a urethane bond, a poly(meth)acrylate of a polyoxyalkylene polyol or a poly(meth)acrylate of a polyester polyol. A urethane oligomer (A2) is preferred from such a viewpoint that it is possible to widely adjust the mechanical properties of the resin after curing, the adhesion to the plate, etc. by e.g. designing the molecule of the urethane chain. - The urethane oligomer (A2) is preferably one synthesized by a method wherein a polyol and a polyisocyanate are reacted to obtain a prepolymer having an isocyanate group, and then, a monomer (B2) is reacted to the isocyanate group of the prepolymer. The polyol and the polyisocyanate may be known compounds, for example, polyol (i), diisocyanate (ii), etc. disclosed as raw materials for a urethane oligomer (a) disclosed in WO2009/016943, which are incorporated in this specification by reference.
- The content proportion of the oligomer (A′) is preferably from 20 to 90 mass %, more preferably from 30 to 80 mass %, in the entirety (100 mass %) of the curable compound (II), i.e. the sum (100 mass %) of the oligomer (A′) and the monomer (B′). When the proportion of the oligomer (A′) is at least 20 mass %, the heat resistance of the first
adhesive layer 4 will be good. When the proportion of the oligomer (A′) is at most 90 mass %, the curability of the photocurable resin composition and the adhesion between thetransparent plate 2 and the firstadhesive layer 4 will be good. - The molecular weight of the monomer (B′) is from 125 to 600, preferably from 140 to 400. When the molecular weight of the monomer (B′) is at least 125, it is possible to prevent volatilization of the monomer at the time of forming the first
adhesive layer 4 by using a reduced pressure means. When the molecular weight of the monomer (B′) is at most 600, the adhesion between thetransparent plate 2 and the firstadhesive layer 4 will be good. The monomer (B′) is preferably one having from 1 to 3 curable groups per one molecule, from the viewpoint of the curability of the photocurable resin composition and the mechanical properties of the firstadhesive layer 4. The content proportion of the monomer (B′) is preferably from 10 to 80 mass %, more preferably from 20 to 70 mass %, in the entirety (100 mass %) of the curable compound (II), i.e. the sum (100 mass %) of the oligomer (A′) and the monomer (B′). - The monomer (B′) preferably contains a monomer (B3) having a curable group and a hydroxy group. The monomer (B3) will contribute to stabilization of the non-curable oligomer (D). Further, when the monomer (B3) is incorporated, good adhesion between the
transparent plate 2 and the firstadhesive layer 4 will be readily obtainable. The monomer (B3) having a hydroxy group is particularly preferably 2-hydroxybutyl methacrylate or 4-hydroxybutyl acrylate. The content proportion of the monomer (B3) is preferably from 10 to 60 mass %, more preferably from 20 to 50 mass %, in the entirety (100 mass %) of the curable compound (II), i.e. the sum (100 mass %) of the oligomer (A′) and the monomer (B′). When the content proportion of the monomer (B3) is at least 10 mass %, it is possible to readily obtain the effect to improve the stability of the photocurable resin composition and the effect to improve the adhesion between thetransparent plate 2 and the firstadhesive layer 4. - The monomer (B′) preferably contains the following monomer (B4). When the content of the monomer (B4) is higher than the content of the monomer (B3) having a hydroxy group by mass ratio, the time tends to be short until air bubbles formed in the first
adhesive layer 4 disappear when the display device main body and the adhesive layer-equippedtransparent plate 1 are bonded in a reduced pressure atmosphere and then the assembly is returned to an atmospheric pressure atmosphere. On the other hand, if the monomer (B4) is contained, the time required for curing the photocurable resin composition tends to be long. - The monomer (B4) is constituted by at least one member selected from the group consisting of alkyl acrylates and alkyl methacrylates having a C8-22 alkyl group. The monomer (B4) may, for example, be n-decyl acrylate, n-dodecyl acrylate, n-dodecyl methacrylate, isooctadecyl acrylate, n-octadecyl methacrylate, n-behenyl methacrylate, etc., and n-dodecyl acrylate, n-dodecyl methacrylate or n-octadecyl methacrylate, is preferred. The content proportion of the monomer (B4) is preferably from 5 to 50 mass %, more preferably from 15 to 40 mass % in the entirety (100 mass %) of the curable compound (II) i.e. the sum (100 mass %) of the oligomer (A′) and the monomer (B′). When the content proportion of the monomer (B4) is at least 5 mass %, sufficient effects by addition of the monomer (B4) tend to be obtained.
- The photopolymerization initiator (C2) contained in the photocurable resin composition may be a photopolymerization initiator of e.g. acetophenone type, ketal type, benzoin or benzoin ether type, phosphine oxide type, benzophenone type, thioxanthone type or quinone type. A phosphine oxide type or thioxanthone type photopolymerization initiator is preferred, and with a view to preventing coloration after the photopolymerization reaction, a phosphine oxide type is particularly preferred. In a case where the photopolymerization is carried out by high intensity light irradiation, it is preferred to use an acetophenone type photopolymerization initiator, whereby the curing speed may be increased. The content of the photopolymerization initiator (C2) in the photocurable resin composition is preferably from 0.01 to 10 parts by mass, more preferably from 0.1 to 5 parts by mass, to 100 parts by mass of the entirety of the curable compound (II) i.e. the sum of the oligomer (A′) and the monomer (B′).
- The non-curable oligomer (D) is an oligomer having a hydroxy group which does not undergo a curing reaction with the curable compound (II) in the composition at the time of curing the photocurable resin composition. The number of hydroxy groups per one molecule of the non-curable oligomer (D) is preferably from 0.8 to 3, more preferably from 1.8 to 2.3. The number average molecular weight (Mn) per one hydroxy group, of the non-curable oligomer (D), is preferably from 400 to 8,000. When the number average molecular weight per one hydroxy group is at least 400, the polarity of the non-curable oligomer (D) will not be too high, and good compatibility with the curable compound (II) in the photocurable resin composition is readily obtainable. When the number average molecular weight per one hydroxy group is at most 8,000, it is possible to readily obtain the effect to stabilize the non-curable oligomer (D) after curing, by an interaction between the hydroxy group derived from the curable compound (II) and the hydroxy group of the non-curable oligomer (D). It is considered that a hydrogen bond contributes to such an interaction. Such non-curable oligomers (D) may be used alone or in combination of two or more of them.
- The non-curable oligomer (D) having a hydroxy group, may, for example, be a polyol having a high molecular weight, and a polyoxyalkylene polyol, a polyester polyol or a polycarbonate polyol is preferred. The polyoxyalkylene polyol may, for example, be a polyoxyalkylene diol such as polyoxyethylene glycol, polyoxypropylene diol, polyoxypropylene triol or polyoxytetramethylene glycol.
- The number average molecular weight (Mn) per one hydroxy group, of the polyoxyalkylene polyol is preferably from 400 to 8,000, more preferably from 600 to 5,000. The polyester polyol may, for example, be an aliphatic polyester diol having a residue of an aliphatic diol such as ethylene glycol, propylene glycol or 1,4-butanediol, and a residue of an aliphatic dicarboxylic acid such as glutaric acid, adipic acid or sebacic acid. The polycarbonate polyol may, for example, be an aliphatic polycarbonate diol having a diol residue of e.g. 1,6-hexanediol, or an aliphatic polycarbonate diol such as a ring-opened polymer of an aliphatic cyclic carbonate.
- The number average molecular weight (Mn) per one hydroxy group, of the polyester polyol or the polycarbonate polyol is preferably from 400 to 8,000, more preferably from 800 to 6,000. In this specification, the number average molecular weight of the non-curable oligomer (D) is a value calculated by the following formula (1) from the hydroxy value A (KOH mg/g) measured in accordance with JIS K1557-1 (2007 edition) and the number B of hydroxy groups in one molecule of the non-curable oligomer (D).
-
Molecular weight of non-curable oligomer (D)=56.1×B×1000/A (1) - As the non-curable oligomer (D), it is preferred to use a polyoxyalkylene polyol, particularly preferably polyoxypropylene polyol, since the elastic modulus of the first
adhesive layer 4 after curing tends to be thereby lower. Further, part of oxypropylene groups in the polyoxypropylene polyol may be substituted by an oxyethylene group. For example, from the viewpoint of compatibility, it is preferred that the oligomer (A′) is a urethane oligomer synthesized by using a polyoxyalkylene polyol and a polyisocyanate as raw materials, and the non-curable oligomer (D) is a polyoxyalkylene polyol. - In this embodiment, in order to stabilize the photocurable resin composition when it is not cured and to prevent the non-curable oligomer (D) from being separated from the first
adhesive layer 4 after curing, the oligomer (A′) and the non-curable oligomer (D) preferably have molecular chains having the same structure or a similar structure. Specifically, it is preferred to use, as a raw material for synthesis of the oligomer (A′) in the photocurable resin composition, a compound having a hydroxy group (hereinafter sometimes referred to as a hydroxy group-containing compound) such as a polyol and further, to use the same hydroxy group-containing compound as the non-curable oligomer (D). For example, in a case where the oligomer (A′) is a urethane oligomer synthesized by using a polyoxyalkylene polyol and a polyisocyanate as raw materials, it is preferred to use the polyoxyalkylene polyol as the non-curable oligomer (D). - Otherwise, in a case where the hydroxy group-containing compound as a raw material of the oligomer (A′) is not the same as the hydroxy group-containing compound used as the non-curable oligomer (D), it is preferred that the molecular chains of the oligomer (A′) and the non-curable oligomer (D) have partially the same structure such as the same repeating units and further polarities of them are at the same level. To adjust the polarity, for example, a method of introducing a polar group to increase the polarity, a method of substituting part of oxypropylene groups by an oxyethylene group to increase the polarity, or a method of reducing the molecular weight per hydroxy group to increase the polarity may be mentioned. Such methods may be combined.
- For example, in a case where the oligomer (A′) is a urethane oligomer synthesized by using as raw materials a polyoxypropylene polyol (a′) having part of oxypropylene groups substituted by an oxyethylene group and a polyisocyanate, it is preferred to use as the non-curable oligomer (D) a polyoxypropylene polyol having no oxyethylene group and having a molecular weight per hydroxy group lower than that of the polyol (a′).
- As an example of the most preferred photocurable resin composition, a composition may be mentioned which comprises as the oligomer (A′) a urethane oligomer (A2) obtained by reacting a polyoxypropylene diol having part of oxypropylene groups substituted by an oxyethylene group and a polyisocyanate compound to obtain a prepolymer having isocyanate groups, and reacting the prepolymer and a monomer (B2), as the non-curable oligomer (D) the polyoxypropylene diol having part of oxypropylene groups substituted by an oxyethylene group, which is the same as the raw material of the urethane oligomer (A2), and as the monomer (B′) a monomer (B3) having a hydroxy group.
- As mentioned above, when the oligomer (A′) partially has the same molecular structure as the non-curable oligomer (D), the compatibility of the non-curable oligomer (D) in the composition will further increase. Further, it is considered that by the monomer (B′) having a hydroxy group, the non-curable oligomer (D) can be present stably in the cured product by the interaction between the hydroxy group in the molecular structure in the curable compound (II) after curing, and the hydroxy group in the molecular structure of the non-curable oligomer (D).
- As another example, a composition may be mentioned which comprises as the oligomer (A′) a urethane oligomer (A2) obtained by reacting a polyoxypropylene diol having part of oxypropylene groups substituted by an oxyethylene group and a polyisocyanate compound to obtain a prepolymer having isocyanate groups, and reacting the prepolymer and a monomer (B2), as the non-curable oligomer (D) a polyoxypropylene diol not substituted by an oxyethylene group and having a molecular weight lower than that of the polyoxypropylene diol as the raw material of the urethane oligomer (A2), and as the monomer (B′) a monomer (B3) having a hydroxy group. By such a composition also, favorable compatibility of the non-curable oligomer (D) in the composition will be achieved, and the non-curable oligomer (D) will be stably present in the cured product.
- The non-curable oligomer (D) in the photocurable resin composition contributes to shortening of a time required for disappearance of air bubbles formed in the interface between the transparent support and the first
adhesive layer 4 when the adhesive layer-equippedtransparent plate 1 and the transparent support are bonded in a reduced pressure atmosphere and then the laminate is retuned to an atmospheric pressure atmosphere. If the content of the non-curable oligomer (D) in the photocurable resin composition is too low, no desired effects may be obtained, and if the content is too high, curing of the firstadhesive layer 4 may be insufficient. If curing of the firstadhesive layer 4 is insufficient, it may be difficult to peel the firstprotective film 6 from the firstadhesive layer 4 after curing. Accordingly, the content of the non-curable oligomer (D) in the photocurable resin composition is preferably set so as not to cause the above disadvantages, considering the balance with other components, within a range of from 10 to 70 mass % in the entirety (100 mass %) of the photocurable resin composition. - For example, in a case where the photocurable resin composition contains a monomer (B3) having a hydroxy group and a monomer (B4) having an alkyl group, in a content of the monomer (B4) of from 0.6 to 2.5 based on the content (mass basis) of the monomer (B3) being 1, and contains no chain transfer agent, the content of the non-curable oligomer (D) is preferably from 30 to 70 mass %, more preferably from 40 to 70 mass % in the entirety (100 mass %) of the photocurable resin composition.
- A chain transfer agent also contributes to shortening of a time required for disappearance of air bubbles. In a case where the photocurable resin composition contains a chain transfer agent within a range of at most 1 part by mass per 100 parts by mass of the entirety of the curable compound (II) and the content of the monomer (B4) is lower than that of the monomer (B3), the content of the non-curable oligomer (D) is preferably from 40 to 70 mass %, more preferably from 50 to 70 mass % in the entirety of the photocurable resin composition for forming a layered portion.
- In a case where the content of the monomer (B4) is from 1 to 4 based on the content (mass basis) of the monomer (B3) being 1, and the chain transfer agent is contained within a range of at most 1 part by mass per 100 parts by mass of the entirety of the curable compound (11), the content of the non-curable oligomer (D) is preferably from 5 to 55 mass %, more preferably from 10 to 50 mass %, further preferably from 20 to 40 mass % in the entirety of the photocurable resin composition. If the monomer (B4) or the chain transfer agent is added, the curing rate tends to be low, and accordingly their contents are preferably lower from such a viewpoint. In a case where the content of the monomer (B4) is less than 0.6 by mass ratio based on the content (mass basis) of the monomer (B3) being 1, and no chain transfer agent is contained, the content of the non-curable oligomer (D) is preferably from 40 to 70 mass %, more preferably from 50 to 70 mass %.
- The photocurable resin composition may contain, in addition to the curable compound (11), the non-curable oligomer (D) and the photopolymerization initiator (C2), as the case requires, additives such as a polymerization inhibitor, a photocuring accelerator, a chain transfer agent, a photostabilizer (such as an ultraviolet absorber or a radical scavenger), an antioxidant, a flame retardant, an adhesion-improving agent (such as a silane coupling agent), a pigment or a dye, and it preferably contains a polymerization inhibitor, a photostabilizer, an antioxidant or the like. Particularly, when the photocurable resin composition contains a polymerization inhibitor in an amount smaller than the polymerization initiator, the stability of the photocurable resin composition can be improved, and the molecular weight of the layered portion after curing can be adjusted. Further, when the photocurable resin composition contains an antioxidant, the stability of the photocurable resin after curing can be increased. The total content of such additives is preferably at most 10 parts by mass, more preferably at most 5 parts by mass per 100 parts by mass of the entirety of the curable compound (II) i.e. the sum of the oligomer (A′) and the monomer (B′).
- Among the additives, the chain transfer agent is preferably not contained or contained only in a small amount, so as to obtain a favorable curing rate. When a chain transfer agent is contained, the time required for disappearance of air bubbles formed at the time of bonding the transparent support and the adhesive layer-equipped
transparent plate 1 tends to be short, and the amount of the non-curable oligomer (D) required to obtain the effect to make the air bubbles well disappear can be reduced. The amount of the chain transfer agent if contained is preferably at most 1 part by mass, more preferably at most 0.5 part by mass per 100 parts by mass of the entirety of the curable compound (II) i.e. the sum of the oligomer (A′) and the monomer (B′). - To form the first adhesive layer by using the photocurable resin composition, for example, a method of forming the first adhesive layer by photocuring the photocurable resin composition and then applying it to the transparent plate or by applying the non-cured photocurable resin composition to the transparent plate and photocuring the composition may, for example, be mentioned.
- The second
adhesive layer 5 is to bond the adhesive layer-equippedtransparent plate 1 to the display device main body. The secondadhesive layer 5 is provided on thesecond surface 2 b on the side to which the display device main body is to be bonded, between the twosurfaces transparent plate 2. The secondadhesive layer 5 has a formation area smaller than that of the firstadhesive layer 4. Specifically, the secondadhesive layer 5 is provided on a part of thesecond surface 2 b of thetransparent plate 2, whereas the firstadhesive layer 4 is provided on the entirefirst surface 2 a of thetransparent plate 2. That is, thesecond surface 2 b of thetransparent plate 2 has a region on which the secondadhesive layer 5 is provided and a region on which the secondadhesive layer 5 is not provided. - The material constituting the second
adhesive layer 5 may be the same as or different from the material constituting the firstadhesive layer 4. Since the secondadhesive layer 5 is bonded to a display panel of a display device, it is preferably bonded without voids under a smaller bonding pressure so as not to impair the display panel. Accordingly, the content of the non-curable component in the curable compound is increased, or the content of the chain transfer agent is adjusted. Further, the secondadhesive layer 5 may contain an ultraviolet absorber in an amount smaller than that in the firstadhesive layer 4, since an external light which has been transmitted through the firstadhesive layer 4 and thetransparent plate 2 enters the secondadhesive layer 5. The thickness of the secondadhesive layer 5 may be the same as or different from the thickness of the firstadhesive layer 4. The shear modulus of the secondadhesive layer 5 may be the same as or different from the shear modulus of the firstadhesive layer 4. Since the secondadhesive layer 5 is directly in contact with the display device, it is preferred to use a material constituting the secondadhesive layer 5, capable of forming an adhesive layer with a smaller shear modulus, or to make the secondadhesive layer 5 thick, in a case where the uniformity of the display image may be impaired by bonding of the transparent plate to a display surface, such as a case of an IPS mode liquid crystal display device. - The second
adhesive layer 5 is provided on both a region surrounded by the frame-form light-shieldingportion 3 and a region planarly overlapping with a part of the light-shieldingportion 3, on thesecond surface 2 b of thetransparent plate 2. Since the secondadhesive layer 5 is bonded to a portion corresponding to the image display region of the display device main body, it may be provided only on a region surrounded by the light-shieldingportion 3, i.e. a region on the inner side of the light-shieldingportion 3. However, in a case where the secondadhesive layer 5 planarly overlaps with a part of the light-shieldingportion 3 as in this embodiment, the region where the secondadhesive layer 5 planarly overlaps with a part of the light-shieldingportion 3 functions as an alignment margin at the time of position adjustment of the secondadhesive layer 5 and the light-shieldingportion 3. Accordingly, even if the secondadhesive layer 5 and the light-shieldingportion 3 are somewhat misaligned, the secondadhesive layer 5 will readily be formed on a region surrounded by the light-shieldingportion 3. Thus, the display device main body is fixed to thetransparent plate 2 with a sufficiently high strength, and in addition, the edge of the secondadhesive layer 5 is shielded by the light-shieldingportion 3, whereby a decrease in the display quality by the sight of the edge of the secondadhesive layer 5 will not occur. - The first
protective film 6 and the secondprotective film 7 are to protect the firstadhesive layer 4 or the secondadhesive layer 5 when the adhesive layer-equipped transparent plate is not in use, and they are peeled from the firstadhesive layer 4 or the secondadhesive layer 5 when the plate is used. Accordingly, the firstprotective film 6 and the secondprotective film 7 are required not to be strongly contact-bonded to the firstadhesive layer 4 or the secondadhesive layer 5. From such a viewpoint, it is preferred to use, as the firstprotective film 6 and the secondprotective film 7, a protective film comprising a base film having a relatively low adhesion to the first adhesive layer or the second adhesive layer, comprising polyethylene, polypropylene, a fluorinated resin or the like, disposed to be in contact with the firstadhesive layer 4 or the secondadhesive layer 5. - The adhesion on the adhesive face of each of the first
protective film 6 and the secondprotective film 7 is preferably from 0.01 to 1 N, more preferably from 0.02 to 0.6 N, with a test specimen having a width of 50 mm in 180° peel test at a peel rate of 300 mm/min with respect to an acrylic plate. The suitable thickness of each of the firstprotective film 6 and the secondprotective film 7 varies depending upon the resin used, and is preferably from 0.03 to 0.2 mm, more preferably from 0.06 to 0.1 mm in a case of using a relatively flexible film of e.g. polyethylene or polypropylene. When the thickness is at least 0.03 mm, deformation of the protective film can be suppressed when the protective film is peeled from the adhesive layer. When the thickness is at most 0.2 mm, the protective film is likely to sag at the time of peeling and is easily peeled. - In order that the protective films are more easily peeled from the first
adhesive layer 4 and the secondadhesive layer 5, a release agent such as a silicone may be applied to the firstprotective film 6 and the secondprotective film 7 within a range not to impair the firstadhesive layer 4 and the secondadhesive layer 5. It is preferred to use a firstprotective film 6 and a secondprotective film 7 larger than thetransparent plate 2, in order that the edges of the firstprotective film 6 and the secondprotective film 7 are easily held when the protective films are peeled from the firstadhesive layer 4 and the secondadhesive layer 5. -
FIG. 3 is a cross-sectional view illustrating a display device comprising the adhesive layer-equipped transparent plate according to the first embodiment.FIG. 4 is an enlarged cross-sectional view of the portion B inFIG. 3 . InFIG. 3 , abacklight 17 portion is simplified for easy understanding. - As shown in
FIGS. 3 and 4 , thedisplay device 10 according to the first embodiment comprises a display devicemain body 11, an adhesive layer-equippedtransparent plate 1 and atransparent support 12. Thetransparent support 12 is bonded to afirst surface 1 a of the adhesive layer-equippedtransparent plate 1 having a firstadhesive layer 4 provided. The display devicemain body 11 is bonded to asecond surface 1 b of the adhesive layer-equippedtransparent plate 1. In the first embodiment, thetransparent support 12 is for example a window glass used in e.g. a store or an office. The display devicemain body 11 is a liquid crystal display device. The adhesive layer-equippedtransparent plate 1 is one having the firstprotective film 6 and the secondprotective film 7 peeled from the adhesive layer-equippedtransparent plate 1 shown inFIG. 2 . Thetransparent plate 2 is bonded to thetransparent support 12 via the firstadhesive layer 4. The display devicemain body 11 is bonded to thetransparent plate 2 via the secondadhesive layer 5. Further, an adhesive layer-equippedtransparent plate 1 having a touch sensor (not shown) provided on thetransparent support 12 side of thetransparent plate 2 may be used. In such a case, thedisplay device 10 may be operated by touching the display device from the outside of thetransparent support 12. - As shown in
FIG. 4 , the display devicemain body 11 comprises aliquid crystal panel 14, a pair ofpolarizing plates frame 18 and acase 19. Theliquid crystal panel 14 comprises a pair ofglass substrates glass substrates liquid crystal panel 14 is not particularly limited, and for example, an in-plane switching mode liquid crystal panel may be mentioned. The pair ofglass substrates - The
polarizing plates liquid crystal panel 14 to sandwich theliquid crystal panel 14. Further, an optical film such as a wave plate may be disposed between theliquid crystal panel 14 and each of thepolarizing plates polarizing plate 16 on the opposite side from thebacklight 17, between thepolarizing plates transparent plate 2 via the secondadhesive layer 5, whereby theliquid crystal panel 14 is fixed to thetransparent support 12. - The
backlight 17 comprises a light-emittingdevice 23 such as a light-emitting diode (LED), alight guide plate 24 and as the case requires, one or more optical films such as a prism sheet or a light diffusion sheet, and amirror 26. Light emitted from thelight emitting device 23 is reflected on themirror 26 while it enters thelight guide plate 24 and is transmitted through the interior of thelight guide plate 24, and is emitted via theoptical film 25 toward theliquid crystal panel 14. Theoptical film 25 has functions to uniformalize the intensity of light emitted from thelight guide plate 24, to change the angular field of view, and to improve the light utilization efficiency. Accordingly, theoptical film 25 and theliquid crystal panel 14 are disposed with an interval as the case requires. - Since the
liquid crystal panel 14 is relatively light in weight, it is supported on thetransparent support 12 only by bonding the image display region portion of theliquid crystal panel 14 to thetransparent support 12 via the adhesive layer-equippedtransparent plate 1. However, the weight of thebacklight 17 increases in some cases if the size of theliquid crystal panel 14 is increased, and even if theliquid crystal panel 14 and thebacklight 17 are fixed, the entire display devicemain body 11 can hardly be supported on thetransparent support 12 in some cases only by bonding theliquid crystal panel 14 to thetransparent support 12. In such a case, it is preferred to make thebacklight 17 among the members constituting the display devicemain body 11, be supported on thetransparent support 12 separately from theliquid crystal panel 14. - As a member to support the
backlight 17 on thetransparent support 12, in the case of the first embodiment, a support member 28 (angle) with an L-shaped cross section is used to fix thebacklight 17 to the adhesive layer-equippedtransparent plate 1. More specifically, thesupport member 28 to fix thebacklight 17 is fixed to the light-shieldingportion 3 on thesecond surface 2 b of thetransparent plate 2 by a double-coatedadhesive tape 29. Thebacklight 17 is fixed to theframe 18, and theframe 18 is fixed to thecase 19. Thecase 19 is fixed to thesupport member 28 by abolt 30. By the above constitution, thebacklight 17 is fixed to thetransparent support 12 via the adhesive layer-equippedtransparent plate 1. - As a procedure to bond the display device
main body 11 thetransparent support 12, the firstprotective film 6 is peeled from the adhesive layer-equippedtransparent plate 1, the adhesive layer-equippedtransparent plate 1 is bonded to thetransparent support 12, and then the secondprotective film 7 is peeled, and the display devicemain body 11 is bonded to the adhesive layer-equippedtransparent plate 1 bonded to thetransparent support 12. Otherwise, the secondprotective film 7 is peeled from the adhesive layer-equippedtransparent plate 1, the adhesive layer-equippedtransparent plate 1 is bonded to the display devicemain body 11, and then the firstprotective film 6 is peeled, and the display devicemain body 11 to which the adhesive layer-equippedtransparent plate 1 is bonded is bonded to thetransparent support 12. At the time of bonding to thetransparent support 12, the adhesive layer-equippedtransparent plate 1, or the adhesive layer-equippedtransparent plate 1 to which the display devicemain body 11 is bonded, may be bonded while it is curved entirely or locally. In such a case, it is preferred to bond the adhesive layer-equippedtransparent plate 1 alone to thetransparent support 12 first, since the adhesive layer-equippedtransparent plate 1 is easily curved. - On the other hand, in some cases, the display device
main body 11 bonded to thetransparent support 12 is to be peeled from thetransparent support 12. In such a case also, the bonded object is peeled while it is curved in some cases, and it is preferred to peel the display devicemain body 11 from the adhesive layer-equippedtransparent plate 1 first and then peel the adhesive layer-equippedtransparent plate 1 from thetransparent support 12. Accordingly, the interfacial adhesive forces between the firstadhesive layer 4 and thetransparent support 12 and between the firstadhesive layer 4 and thetransparent plate 2 are preferably larger than the interfacial adhesive forces between the secondadhesive layer 5 and the display devicemain body 11 and between the secondadhesive layer 5 and thetransparent plate 2. Further, it is preferred that after the adhesive layer-equippedtransparent plate 1 is peeled, the firstadhesive layer 4 will not remain on thetransparent support 12, and thetransparent support 12 i.e. a window glass will be restored to original state before the display devicemain body 11 is bonded. Accordingly, the interfacial adhesive force between the firstadhesive layer 4 and thetransparent support 12 is preferably smaller than the interfacial adhesive force between the firstadhesive layer 4 and thetransparent plate 2. In order to realize such a degree of the adhesive forces, the adhesive forces may be adjusted by the proportion of the monomer (B3) and the monomer (B4) in the curable compound, and the contents of the non-curable component and the chain transfer agent, as materials constituting the firstadhesive layer 4 and the secondadhesive layer 5. In a case where the object to be bonded is a glass plate, the interfacial adhesive strength can be increased by increasing the proportion of the monomer (B3) to the monomer (B4) or by suppressing the content of the non-curable component. Further, the adhesive strength to a glass surface can be increased also by increasing the content of the chain transfer agent. - The adhesive layer-equipped
transparent plate 1 according to this embodiment, has the firstadhesive layer 4 to bond the adhesive layer-equippedtransparent plate 1 to thetransparent support 12 provided on thefirst surface 2 a of thetransparent plate 2, and the secondadhesive layer 5 to bond the display devicemain body 11 provided on thesecond surface 2 b of thetransparent plate 2. Accordingly, when the display devicemain body 11 is bonded to thetransparent support 12, it is not necessary to newly dispose an adhesive material or the like on thetransparent plate 2, and bonding of the display devicemain body 11 can easily be carried out. - Further, in the
display device 10 according to the first embodiment, the light-shieldingportion 3 surrounding the image display region is provided on the adhesive layer-equippedtransparent plate 1, e.g. wiring members connected to theliquid crystal panel 14 can be shielded without newly providing a light-shielding portion. Particularly in the first embodiment, since the light-shieldingportion 3 is provided on thesecond surface 2 b of thetransparent plate 2, the distance between the light-shieldingportion 3 and the image display surface in a depth direction is short. Thus, an observer will not feel that the display recedes deep relative to a frame portion consisting of the light-shieldingportion 3, and a decrease in visibility of the display by a difference in level of the frame portion and the image display surface can be prevented. - Instead of the structure of the first embodiment, for example, a constitution may be conceivable such that the second
adhesive layer 5 is formed large enough to cover the light-shieldingportion 3 on the entiresecond surface 2 b of thetransparent plate 2, and thesupport member 28 is fixed on the secondadhesive layer 5. However, the shear modulus of the secondadhesive layer 5 is adjusted to be lower than that of a conventional adhesive layer, in order that air bubbles formed when the secondadhesive layer 5 and the display devicemain body 11 are bonded will easily disappear. Accordingly, it is very difficult to fix thesupport member 28 supporting the weight of thebacklight 17 by the secondadhesive layer 5. Whereas in the constitution of the first embodiment, the secondadhesive layer 5 is formed at a part on a center portion on thesecond surface 2 b of thetransparent plate 2 and the light-shieldingportion 3 is exposed, and thesupport member 28 is fixed to the light-shieldingportion 3 by the double-coatedadhesive tape 29. As a result, the display devicemain body 11 including thebacklight 17 can be strongly fixed. - Now, the second embodiment of the present invention will be described with reference to
FIGS. 5 and 6 . - The basic constitution of the adhesive layer-equipped transparent plate according to the second embodiment is the same as the first embodiment, and the surface on which the light-shielding portion is formed on the transparent plate is different from the first embodiment.
- In
FIGS. 5 and 6 , the same components as in those inFIGS. 1 to 4 described in the first embodiment are represented by the same symbols, and their detailed description is omitted. - As shown in
FIG. 5 , an adhesive layer-equippedtransparent plate 31 according to the second embodiment comprises atransparent plate 2, a light-shieldingportion 3, a firstadhesive layer 4, a secondadhesive layer 5, a firstprotective film 6 and a secondprotective film 7. The light-shieldingportion 3 is provided on the periphery of afirst surface 2 a of thetransparent plate 2. The firstadhesive layer 4 is provided so as to cover the light-shieldingportion 3 on the entirefirst surface 2 a of thetransparent plate 2. The secondadhesive layer 5 has a formation area smaller than that of the firstadhesive layer 4, and is provided on asecond surface 2 b of thetransparent plate 2. The area and the shape of the region on which the secondadhesive layer 5 is formed are the same as those in the first embodiment. That is, the secondadhesive layer 5 is provided on both a region surrounded by the frame-form light-shieldingportion 3 and a region planarly overlapping with a part of the light-shieldingportion 3, when observed from a normal direction of thetransparent plate 2 through thetransparent plate 2. The other constitution of the adhesive layer-equippedtransparent plate 31 is the same as in the first embodiment. - As shown in
FIG. 6 , adisplay device 32 according to the second embodiment comprises a display devicemain body 11, the adhesive layer-equippedtransparent plate 31 and atransparent support 12. Thetransparent support 12 is bonded to afirst surface 31 a of the adhesive layer-equippedtransparent plate 31. The display devicemain body 11 is bonded to asecond surface 31 b of the adhesive layer-equippedtransparent plate 31. In the second embodiment also, thetransparent support 12 is for example a window glass to be used for a store, an office or the like, and the display devicemain body 11 is for example a liquid crystal display device. The adhesive layer-equippedtransparent plate 31 is one having the firstprotective film 6 and the secondprotective film 7 peeled from the adhesive layer-equippedtransparent plate 31 as shown inFIG. 4 . Thetransparent plate 2 is bonded to thetransparent support 12 via the firstadhesive layer 4. The display devicemain body 11 is bonded to thetransparent plate 2 via the secondadhesive layer 5. - According to the second embodiment also, the same effects as in the first embodiment, such that bonding of the display device main body can easily be carried out, a decrease in display visibility can be suppressed, etc., can be obtained.
- The second embodiment is different from the first embodiment in that a
support member 28 to support abacklight 17 is directly bonded to thesecond surface 2 b of thetransparent plate 2 since the light-shieldingportion 3 is formed on thefirst surface 2 a of thetransparent plate 2. That is, in the second embodiment, thesupport member 28 is directly bonded to the surface of a glass plate or a resin plate constituting thetransparent plate 2 not via the light-shieldingportion 3. Accordingly, by the constitution of the second embodiment, the adhesion between anangle 28 and thetransparent plate 2 can be increased, and the reliability of fixing of the display device main body can further be increased, as compared with the constitution of the first embodiment in which theangle 28 is fixed to thetransparent plate 2 via the light-shieldingportion 3. - The present invention is not limited to the above specific embodiments, and various modifications are possible without depart from the intention and the scope of the present invention.
- For example, in the above embodiments, as the light-shielding portion of the adhesive layer-equipped transparent plate, a frame-form light-shielding portion surrounding all the four sides of the rectangular transparent plate is mentioned as an example, however, it may not be a frame-form light-shielding portion surrounding all the four sides. For example, a light-shielding portion disposed along two opposing sides may be used. Further, as the transparent support constituting the display device, a window glass to be used in a store, an office or the like may be mentioned as an example, however, instead of a window glass, a movable member such as a glass partition partitioning a room may be used as the transparent support, and a display device main body is bonded to the transparent support.
- Further, the present invention has been specifically described with reference to a liquid crystal display in
FIGS. 3 to 6 as the display device main body, however, in addition to the liquid crystal display, an organic EL display, a plasma display, an electronic paper display, etc. may be used. Further, the shape, number, arrangement, material, etc. of each of the elements constituting the adhesive layer-equipped transparent plate and the display device are not limited to the above embodiments, and various modifications are possible. - The present invention is applicable for various display devices such as a liquid crystal display, an organic EL display, a plasma display and an electronic paper display, and an adhesive layer-equipped transparent plate used to bond such display devices to a transparent support.
- This application is a continuation of PCT Application No. PCT/JP2014/079371 filed on Nov. 5, 2014, which is based upon and claims the benefit of priority from Japanese Patent Application No. 2013-236910 filed on Nov. 15, 2013. The contents of those applications are incorporated herein by reference in their entireties.
-
-
- 1, 31: adhesive layer-equipped transparent plate, 2: transparent plate, 3: light-shielding portion, 4: first adhesive layer, 5: second adhesive layer, 10, 32: display device, 11, display device main body, 12: transparent support, 14: liquid crystal panel, 17: backlight (lighting unit), 28: support member (angle)
Claims (15)
1: An adhesive layer-equipped transparent plate, which comprises a transparent plate having a first surface and a second surface,
a light-shielding portion provided on at least one of the periphery of the first surface and the periphery of the second surface of the transparent plate,
a first adhesive layer provided on the first surface of the transparent plate, and
a second adhesive layer provided on the second surface of the transparent plate, in a formation region with an area smaller than a formation region of the first adhesive layer,
wherein when observed from a normal direction of the first surface, an edge of the second adhesive layer is located at an inner side of an edge of the first adhesive layer and planarly overlaps with the light-shielding portion.
2: The adhesive layer-equipped transparent plate according to claim 1 , wherein the first adhesive layer is provided on the entire first surface of the transparent plate.
3. (canceled)
4: The adhesive layer-equipped transparent plate according to claim 1 , wherein each of the shear moduli of the first adhesive layer and the second adhesive layer is from 102 to 105 Pa.
5: A display device, which comprises an adhesive layer-equipped transparent plate,
a transparent support bonded to a first surface of the adhesive layer-equipped transparent plate, and
a display device main body bonded to a second surface of the adhesive layer-equipped transparent plate,
wherein the adhesive layer-equipped transparent plate comprises a transparent plate having a first surface and a second surface, a light-shielding portion provided on at least one of the periphery of the first surface and the periphery of the second surface of the transparent plate, a first adhesive layer provided on the first surface of the transparent plate, and a second adhesive layer provided on the second surface of the transparent plate, in a formation region with an area smaller than a formation region of the first adhesive layer,
the transparent support is bonded to the transparent plate via the first adhesive layer,
the display device main body is bonded to the transparent plate via the second adhesive layer, and
when observed from a normal direction of the first surface, an edge of the second adhesive layer is located at an inner side of an edge of the first adhesive layer and planarly overlaps with the light-shielding portion.
6: The display device according to claim 5 , wherein the interfacial adhesive forces between the first adhesive layer and the transparent support and between the first adhesive layer and the transparent plate are larger than the interfacial adhesive forces between the second adhesive layer and the display device main body and between the second adhesive layer and the transparent plate.
7: The display device according to claim 6 , wherein the interfacial adhesive force between the first adhesive layer and the transparent support is smaller than the interfacial adhesive force between the first adhesive layer and the transparent plate.
8: The display device according to claim 5 , which further has a support member supporting a part of the display device main body, fixed to a region other than the formation region of the second adhesive layer on the second surface of the transparent plate.
9: The display device according to claim 8 , wherein the light-shielding portion is provided on the first surface of the transparent plate, and the support member is fixed to the second surface of the transparent plate.
10: The display device according to claim 8 , wherein the light-shielding portion is provided on the second surface of the transparent plate, and the support member is fixed to the light-shielding portion.
11: The adhesive layer-equipped transparent plate according to claim 1 , wherein the transparent plate is a glass plate.
12: The adhesive layer-equipped transparent plate according to claim 1 , wherein the transparent plate has a thickness of more than 0.2 mm and at most 2.0 mm.
13: The adhesive layer-equipped transparent plate according to claim 1 , wherein each of the first adhesive layer and the second adhesive layer has a thickness of from 0.2 to 2.0 mm.
14: The display device according to claim 5 , wherein the transparent support is at least one member selected from the group consisting of a window glass, a glass wall and a glass partition.
15: The display device according to claim 5 , wherein the entirety of an image display region of the display device main body is bonded to the transparent plate via the second adhesive layer.
Priority Applications (1)
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US16/439,932 US20190293989A1 (en) | 2013-11-15 | 2019-06-13 | Adhesive layer-equipped transparent plate and display device |
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
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JP2013-236910 | 2013-11-15 | ||
JP2013236910 | 2013-11-15 | ||
PCT/JP2014/079371 WO2015072380A1 (en) | 2013-11-15 | 2014-11-05 | Transparent face plate with adhesive layer and display device |
US15/151,015 US10386664B2 (en) | 2013-11-15 | 2016-05-10 | Adhesive layer-equipped transparent plate and display device |
US16/439,932 US20190293989A1 (en) | 2013-11-15 | 2019-06-13 | Adhesive layer-equipped transparent plate and display device |
Related Parent Applications (1)
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US15/151,015 Continuation US10386664B2 (en) | 2013-11-15 | 2016-05-10 | Adhesive layer-equipped transparent plate and display device |
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US20190293989A1 true US20190293989A1 (en) | 2019-09-26 |
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US15/151,015 Active 2034-12-26 US10386664B2 (en) | 2013-11-15 | 2016-05-10 | Adhesive layer-equipped transparent plate and display device |
US16/439,932 Abandoned US20190293989A1 (en) | 2013-11-15 | 2019-06-13 | Adhesive layer-equipped transparent plate and display device |
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JP6528685B2 (en) | 2019-06-12 |
KR102285525B1 (en) | 2021-08-03 |
US10386664B2 (en) | 2019-08-20 |
CN105764686B (en) | 2018-03-06 |
US20160252769A1 (en) | 2016-09-01 |
CN105764686A (en) | 2016-07-13 |
TW201525097A (en) | 2015-07-01 |
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