JP2019117392A - Image display device - Google Patents

Abstract

To suppress an adhesive from flowing out from a gap between a frame member and a display panel or a gap between the frame member and a transparent protective plate, while suppressing the gap of the adhesive in the vicinity of the inside of an opening end of the frame member.SOLUTION: An image display device includes a display panel 10 which has a display surface 10a, a frame member 60 which is arranged to cover a side surface of the display panel and a peripheral part of the display surface, and a transparent protective plate 50 which is adhered to a part exposed from the frame member of the display surface through an adhesive 30. At least one of a projection 63 and a groove extending along the periphery of the display surface is formed on the surface being an area covering the peripheral part of the display part and being on the side of the transparent protective plate, of the frame member.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an image display device that displays an image.

  In the image display device, a configuration in which a transparent protective plate is disposed on the display surface of the display panel is used for the purpose of improvement of visibility, provision of designability or provision of robustness.

  In such a configuration, when an air layer enters the gap between the display panel and the transparent protective plate, external light incident on the display surface is reflected by the front and back surfaces of the transparent protective plate and the surface of the display panel. This causes a drop in visibility such as a drop in contrast in image display. In the present specification, the visibility means the visibility of the image displayed by the image display device.

  Therefore, Patent Document 1 discloses a technique for improving the visibility. Specifically, the transparent cover on which the light shielding film is formed and the display panel are bonded with a transparent adhesive. That is, in order to improve the visibility, a transparent adhesive is provided in the gap between the display panel and the transparent protective plate. The transparent adhesive is, for example, a transparent adhesive sheet or a transparent adhesive resin.

  In addition, although a liquid crystal display device may be used as a display panel, an organic electroluminescent display device may be used. Some of these image display devices have a frame member so as to cover the periphery of the display panel.

  In the configuration in which the transparent protective plate and the display panel including the frame member are bonded with a transparent adhesive, when the transparent protective plate and the display panel are bonded with the transparent adhesive, the open end of the frame member There may be gaps in the applied adhesive near the inner side of the.

  Patent Document 2 discloses a method for preventing an adhesive gap from being generated in the vicinity of a frame member end. Specifically, the first adhesive is applied to the display panel side and is further cured, while the second adhesive is applied to the translucent substrate. And it is the method of bonding the hardened 1st adhesive agent and the 2nd adhesive agent which is not hardened, and hardening the 2nd adhesive agent after that.

Patent 4494446 Patent No. 5155826

  However, in the case where a liquid transparent adhesive resin is used as the adhesive for the purpose of suppressing the gap generated in the adhesive as described above, the gap between the frame member and the display panel, or the frame member and the transparent protective plate There is a problem that the adhesive will flow out through the gap between

  In addition to the possibility of a drop in yield due to the adhesive flowing out, there is a problem that the performance and reliability of the device may be degraded.

  The present invention has been made to solve the above-described problems, and in a configuration in which a transparent protective plate and a display panel including a frame member are attached to each other, in the vicinity of the inside of the open end of the frame member. Provided is an image display device capable of suppressing the adhesive from flowing out from the gap between the frame member and the display panel or the gap between the frame member and the transparent protective plate while suppressing the gap between the adhesive. The purpose is

  An image display apparatus according to an aspect of the present invention includes a display panel having a display surface, a frame member arranged to cover a side surface of the display panel and a peripheral portion of the display surface, and exposure from the frame member of the display surface A transparent protective plate adhered to the portion to be bonded via an adhesive, the area of the frame member covering the periphery of the display surface, the surface of the transparent protective plate being the surface of the display surface At least one of a protrusion and a groove extending along the periphery is formed.

  According to the above aspect of the present invention, it is possible to suppress the gap of the adhesive in the vicinity of the inside of the open end of the frame member, and to suppress the generation of air bubbles. Moreover, it can suppress that the said adhesive agent flows out out of the clearance gap between a frame member and a display panel, or the clearance gap between a frame member and a transparent protective plate.

  The objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description and the accompanying drawings.

It is a disassembled perspective view which shows the structure of the image display apparatus regarding embodiment. It is a side view showing composition of an image display device concerning an embodiment. It is sectional drawing which shows the shape of protrusion. It is sectional drawing which shows the shape of protrusion. It is sectional drawing which shows the manufacturing method of the image display apparatus regarding embodiment. It is sectional drawing which shows the manufacturing method of the image display apparatus regarding embodiment. It is sectional drawing which shows the manufacturing method of the image display apparatus regarding embodiment. It is a disassembled perspective view which shows the structure of the image display apparatus regarding embodiment. It is a side view showing composition of an image display device concerning an embodiment. It is sectional drawing which shows the shape of a groove | channel. It is sectional drawing which shows the shape of a groove | channel. It is sectional drawing which shows the manufacturing method of the image display apparatus regarding embodiment. It is sectional drawing which shows the manufacturing method of the image display apparatus regarding embodiment. It is sectional drawing which shows the manufacturing method of the image display apparatus regarding embodiment.

  Hereinafter, embodiments will be described with reference to the attached drawings. In the following description, similar components are illustrated with the same reference numerals, and their names and functions are the same. Therefore, detailed description about them may be omitted.

First Embodiment
<Configuration>
FIG. 1 is an exploded perspective view showing the configuration of the image display apparatus according to the present embodiment. FIG. 2 is a side view showing the configuration of the image display apparatus according to the present embodiment.

  The image display device is, for example, a monitor of a personal computer (PC), a mobile terminal such as a personal digital assistant (PDA), a game machine, a television receiver, a car navigation device, an in-vehicle monitor, or a tablet terminal.

  As shown in FIG. 2, the image display device includes a display panel 10, a polarization member 20, an adhesive member 30, a transparent protective plate 50, and a frame member 60. Although not shown in order to simplify the drawing, the image display device is configured of a backlight unit, flexible wiring, an adhesive tape for fixing the display panel 10 to the frame member 60, a screw, and the like.

  The display panel 10 is a display panel that displays an image, and has a display surface 10 a. The display surface 10a is a surface on which an image is displayed.

  The outer periphery of the display panel 10 is covered by a frame member 60 as a bezel. An example of the display panel 10 is a liquid crystal display device.

  The polarization member 20 is attached to one surface (surface having the display surface 10a) of the display panel 10 and the other surface. An example of the polarizing member 20 is a polarizing film. The polarizing member 20 may be a polarizing plate. A hard coat layer or an antiglare layer may be provided on the surface of the polarizing member 20 as appropriate.

  The adhesive member 30 is a light transmitting adhesive. An example of the adhesive member 30 is a transparent adhesive resin. The adhesive member 30 is for suppressing deterioration in display quality of an image. The reduction in display quality occurs, for example, when there is an air layer (bubble) in the gap between the display panel 10 and the transparent protective plate 50. In this case, external light traveling toward the display surface 10 a of the display panel 10 is reflected by the surfaces 50 a and 50 b of the transparent protective plate 50 and the display surface 10 a of the display panel 10, so that the contrast in image display is reduced. This degrades the display quality.

  The adhesive member 30 is formed on the surface 50 b of the transparent protective plate 50. The adhesive member 30 shown in FIG. 2 has a laminated structure including two layers of an adhesive member 31 and an adhesive member 32. However, the number of layers in which the adhesive member 30 is formed is not limited to two, and may be a plurality of layers. The refractive index of the adhesive member 30 is substantially equal to the refractive index of the transparent protective plate 50. The adhesive member 30 is made of, for example, a highly transparent acrylic, silicone or urethane material. A plurality of layers which constitute adhesion member 30 are formed in the shape of an approximately uniform field by predetermined thickness by the slit coat method. The method of forming the adhesive member 30 and the thickness of the adhesive member 30 are not particularly limited, and can be appropriately adjusted in accordance with the other constituent members. The adhesive member 30 may be, for example, a UV curable adhesive resin. In that case, it does not need to be comprised with one type of UV curable resin, and may be comprised with several types of UV curable resin.

  A thermosetting adhesive resin may be used for the adhesive member 31 disposed on the side in contact with the transparent protective plate 50 among the adhesive members 30 having a laminated structure. In addition, as the adhesive member 31, after application of the liquid resin, curing or thixotropy is given to the extent that the shape is maintained, or the like, and the material properties are adjusted to be held, and the same function as the adhesive sheet as a transparent adhesive. Sometimes it is used by holding it. The adhesive member 31 may be an adhesive sheet. In addition, as the adhesive member 31, an adhesive sheet having a function of curing by UV irradiation or heating after being attached to the transparent protective plate 50, that is, a so-called semi-curable adhesive sheet may be used. Although it may be a pressure-sensitive adhesive member combining heat curing and UV curing, generally, UV curing type is often used because the method of storing the material and the handling during production are limited. The details of the adhesive member 30 will be described later.

  The transparent protective plate 50 is a transparent plate which hardly absorbs visible light. The transparent protective plate 50 may be a glass plate, a laminated glass, a resin plate or the like whose strength has been improved using an ion exchange method, a wind cooling method or the like. The resin plate is, for example, a plate made of polycarbonate resin, acrylic resin, cycloolefin resin or the like, or a plate made of a laminate of polycarbonate resin, acrylic resin, cycloolefin resin, etc. .

  The transparent protective plate 50 has a surface 50 a and a surface 50 b. The surface 50 b is a surface facing the display panel 10. The shape of the transparent protective plate 50 is rectangular in plan view. However, the shape of the transparent protective plate 50 is not limited to a rectangular shape, and may be a polygonal shape, a shape including a circular arc, or the like. Further, as for the shapes of the display panel 10 and the adhesive member 30, as in the shape of the transparent protective plate 50, a desired shape can be used. Although the transparent protective plate 50 is used in the present embodiment, for example, a touch sensor substrate may be previously attached to the transparent protective plate, or a single touch sensor substrate may be used.

  The surface 50 a of the transparent protective plate 50 is a surface on which the user visually recognizes the image displayed on the display panel 10. The surface 50a is subjected to anti-glare processing for improving visibility, anti-reflection processing, or hard coating processing for scratch prevention, as necessary. The transparent protective plate 50 is provided to overlap the display panel 10 via the adhesive member 30 in plan view. Specifically, as shown in FIG. 2, the transparent protective plate 50 is attached to the display panel 10 to which the polarizing member 20 is attached via the adhesive member 30.

  The surface 50 b of the transparent protective plate 50 is the surface opposite to the surface 50 a. The print layer 40 may be formed on the surface 50 b of the transparent protective plate 50. Conversely, the printing layer 40 may not be formed. The presence or absence of the print layer 40 is not particularly limited.

  The printing layer 40 is a layer used for decoration (decoration). In addition, the printing layer 40 is not limited to the use of a decoration (decoration), The layer of another use may be sufficient. The shape of the print layer 40 is a closed loop as shown in FIG. 1 and has an open end 41.

  The print layer 40 is made of a material that substantially blocks light in the visible region. The printing layer 40 is configured using a paint containing a pigment of a colorant. Specifically, the print layer 40 is made of, for example, an acrylic resin compounded with carbon black. The color of the print layer 40 is, for example, black. The color of the print layer 40 may be a color other than black having a light shielding property.

  The printing layer 40 is formed on the surface of the transparent protective plate 50 on the side to be adhered to the display surface 10 a of the display panel 10. It is formed to correspond to the peripheral portion of the display surface 10 a in accordance with the display area of the display panel 10. The print layer 40 is formed in accordance with the display area (display surface 10 a) of the display panel 10. From the viewpoint of design, the size of the print layer 40 is preferably such that the difference in position between the end of the element for displaying the image of the display panel 10 and the open end 42 of the print layer 40 is as small as possible. The printing layer 40 should just satisfy desired performances, such as a designability or a light shielding property, and the formation method is not specifically limited. The printing layer 40 is formed by coating a resin using, for example, a screen printing method.

  The thickness of the print layer 40 changes depending on the intensity of the light source to be shielded, and the like. The thickness of the printing layer 40 is generally about 3 to 70 μm. When the color of the printing layer 40 is other than black, the thickness of the coating film of the printing layer 40 is set to about 10 to 70 μm in order to sufficiently obtain the light shielding property. When the color of the printing layer 40 is black, the thickness of the coating film of the printing layer 40 is generally set to about 3 to 40 μm.

  In addition, the printed layer 40 has a desired thickness by laminating a film from the viewpoint of designability or light shielding property. In addition, by laminating | stacking a film | membrane, the problem in connection with designability, such as pinhole generation | occurrence | production when a foreign material exists, can be suppressed, and the printing layer 40 can be stably produced by high yield.

  The frame member 60 covers the periphery of the display panel 10, that is, the side surface of the display panel 10 and the periphery of the display surface 10a, and covers the surface on the transparent protective plate 50 side. The frame member 60 is manufactured, for example, by die cutting or pressing using a plate of stainless steel, zinc alloy or the like. The frame member 60 may be a resin frame. In addition, the material of the frame member 60, the manufacturing method, and the like are not particularly limited.

  The frame member 60 has an opening 61 on the side of the display panel where the image is viewed. The opening 61 is smaller than the polarization member 20 attached to the display panel 10 and is an area surrounded by the opening end 62.

  The frame member 60 is installed in close proximity to the display panel 10. That is, the polarization member 20 and the open end 62 of the frame member 60 are disposed close to each other.

  The frame member 60 has a thickness of about 0.1 to 1.0 mm, and the opening end 62 contacts the polarizing member 20 to deform the display panel 10 due to variations in processing accuracy, deformation after processing, etc. There is something I can do. This may cause a problem of lowering the display quality such as display unevenness. In general, the frame member 60 including the opening end 62 is designed not to contact the polarization member 20, and a gap is provided between the opening end 62 and the polarization member 20.

  A protrusion 63 is formed on the frame member 60. The adhesive member 30 may be deformed by the pressure when the transparent protective plate 50 and the display panel 10 are attached to each other. In addition, since the pressure-sensitive adhesive member 30 has low elasticity at high temperature, a capillary phenomenon may occur between the transparent protective plate 50 and the frame member 60, and the pressure-sensitive adhesive member 30 may flow.

  The projections 63 suppress the outflow of the adhesive member 30 as described above. The protrusion 63 is disposed at a position facing the surface 50 b of the transparent protective plate 50 in a side view. The protrusion 63 is disposed to extend along the periphery of the display surface 10 a between the open end 62 and the peripheral edge 64. In detail, between the peripheral edge of the adhesive member 31 and the peripheral edge 64 of the frame member 60, it is extended in the circumferential direction of the display surface 10a.

  The projection 63 is formed on the frame member 60 at a position facing the printing layer 40 formed on the surface 50 b of the transparent protective plate 50. That is, from the side of viewing the image displayed on the display panel 10 through the transparent protective plate 50, the protrusion 63 is hidden in the printing layer 40 and can not be viewed.

  The protrusions 63 are formed at a height not in contact with the printing layer 40 formed on the surface 50 b of the transparent protective plate 50. This is to prevent the printing layer 40 from being damaged by coming into contact with the printing layer 40.

  As shown in FIGS. 3 and 4, the protrusions 63 have a polygonal shape such as a triangle or a quadrangle (the protrusions 63 b shown in FIG. 4) or a circular shape (the protrusions 63 a shown in FIG. 3) Although it is comprised by the shape etc. which compounded the square, there is no special restriction in the shape of projection 63. Also for the size of the projection 63, the total length of the thickness of the frame member 60 and the height of the projection 63 may be shorter than the length of the adhesive member 30 in the thickness direction. It may be designed as appropriate according to the distance between it and 64.

  The protrusions 63 are simultaneously formed when the frame member 60 is processed. By forming the frame member 60 at the time of processing, the frame member 60 can be obtained in a desired shape without adding a new manufacturing process. The protrusions 63 are provided between the open end 62 and the peripheral edge 64, but need not be provided all around the frame member 60. For example, the protrusions 63 may be provided on part of the sides of the frame member 60. There may be a portion in which is not formed.

<Manufacturing method>
Next, a method of manufacturing the image display apparatus according to the present embodiment will be described with reference to FIGS. 5, 6 and 7.

  The manufacturing method of the adhesion member 30 comprised with the adhesion member 31 and the adhesion member 32 is demonstrated.

  The printing layer 40 is formed on the surface 50 b of the transparent protective plate 50. The adhesive member 31 which is a liquid acrylic UV curable adhesive resin is applied to the surface 50 b of the transparent protective plate 50. The pressure-sensitive adhesive member 31 is formed in a planar shape with a thickness of 200 μm almost uniformly by a slit coating method.

Thereafter, the adhesive member 31 is cured with a curing rate of 90% or more by irradiating UV light from the surface 312 side of the adhesive member 31 so as to obtain an integrated light quantity of 3000 mJ / cm ² . That is, the pressure-sensitive adhesive member 31 is finally cured, and does not have such a flowability that the position of the peripheral portion 311 of the pressure-sensitive adhesive member 31 changes.

  Here, the curing rate will be described. As a method of estimating the curing rate, for example, there are Fourier transform infrared spectroscopy (FT-IR) and high performance liquid chromatography (HPLC). In both methods, the state irradiated with ultraviolet (ultraviolet, UV) for a sufficiently long time is defined as 100%, and the state of chemical bonding is compared with the state of incomplete (semi-cured state) to estimate the curing rate How to In the comparison, for example, the amount of change (increase or decrease) of a specific substance is taken into consideration.

  Another method is differential scanning calorimetry (DSC). The said method measures the emitted-heat amount at the time of irradiating an ultraviolet-ray to ultraviolet-ray cured resin. Curing is based on the ratio of the calorific value of the uncured material remaining when irradiated so as not to cure the ultraviolet light completely and the calorific value when the uncured material is sufficiently irradiated with the ultraviolet light to cure it. Estimate the rate.

  In the present embodiment, measurement results in the case of using Fourier transform infrared spectroscopy are shown, but even in the case of using other measurement methods, equivalent measurement results can be obtained.

  The adhesive member 31 is formed so as to cover the opening end 41 of the printing layer 40 formed on the surface 50 b of the transparent protective plate 50. That is, the peripheral edge portion 311 of the adhesive member 31 is in contact with the printing layer 40 formed in a closed loop shape. Furthermore, as described later, the projection 63 formed on the frame member 60 covering the peripheral portion of the display panel 10 is formed so as not to go over (do not cover). The display panel 10 is a liquid crystal display device.

  Next, the adhesive member 32 is formed in a partial area on the final cured adhesive member 31. Specifically, the adhesive member 32 is applied on the surface of the adhesive member 31 opposite to the surface in contact with the transparent protective plate. The adhesive member 32 is a liquid acrylic UV curable adhesive resin, and the same material as the adhesive member 31 is used. The adhesive member 32 is formed substantially uniformly in a planar shape with a thickness of 600 μm by a slit coating method. The adhesive member 32 is formed to be smaller in size than the adhesive member 31, but is formed to cover the open end 41 of the print layer 40.

  Furthermore, the adhesive member 32 is formed in substantially the same shape and size as the open end 62 of the frame member 60. That is, the size and thickness are adjusted so as to exceed the volume of the opening 61 of the frame member 60 defined by the thickness 500 [μm] of the frame member 60 and the opening end 62. The adhesive member 32 is formed larger than the volume of the opening 61 of the frame member 60 by a volume defined by approximately 100 μm and the opening end 62. Actually, although the adhesive members 31 and the adhesive members 32 are slightly reduced due to curing and shrinkage, they do not cause a major problem because they are within the range of film thickness variation.

  The reason for forming the adhesive member 32 thicker than the thickness of the frame member 60 is that the projection 63 formed on the frame member 60 to be attached later contacts the printing layer 40 formed on the surface 50 b of the transparent protective plate 50. It is to prevent doing. In addition, when the display panel 10 and the transparent protective plate 50 are bonded to each other, a force is applied to the frame member 60 to prevent deformation. When the frame member 60 is deformed, a gap is likely to be generated in the adhesive member 30 filling the gap between the frame member 60 and the display panel 10, and may be visually recognized as a bubble.

Thereafter, UV light is irradiated from the surface 322 side of the adhesive member 32 so as to obtain an integrated light amount of approximately 1000 mJ / cm ² . Then, the adhesive member 32 is cured to a curing rate of 20% to 80%. That is, although the adhesive member 32 is in a semi-cured state, it does not have such fluidity that the position of the peripheral portion 321 of the adhesive member 32 changes.

  The adhesive members 31 and the adhesive members 32 formed on the surface 50b of the transparent protective plate 50 have different storage elastic moduli measured under conditions of a temperature of 25 ° C. and a frequency of 1 [Hz], for example, due to a difference in curing rate. .

  The storage elastic modulus of the adhesive member 31 is about 0.1 to 1 [MPa]. The storage elastic modulus of the adhesive member 32 is about 0.001 to 0.1 [MPa]. The adhesive member 32 in contact with the polarization member 20 of the display panel 10 needs to have high flexibility when pasted to the display panel 10. If the flexibility of the adhesive member 32 is low, it will be difficult to stick at the interface in contact with the polarizing member 20, and the possibility of air bubbles will increase. In addition, the possibility of air bubbles also increases at the portion where the adhesive member 32 contacts the open end 62.

  Next, in a state where the adhesive member 30 is formed on the surface 50 b of the transparent protective plate 50, the transparent protective plate 50 and the display panel 10 are attached to each other. In the display panel 10, it is assumed that the polarization member 20 is attached to the front and back surfaces, and the outer periphery (the side surface of the display panel 10 and the peripheral portion of the display surface 10a) is covered by the frame member 60. The protective film on the surface of the polarizing member 20 attached to the display panel 10 is peeled off (not shown), and alignment between the display surface 10 a of the display panel 10 and the transparent protective plate 50 is performed in a vacuum of approximately 100 Pa. . And an image display apparatus is obtained by bonding the display panel 10 and the transparent protective plate 50 together by the pressure of about 1 [MPa].

  The degree of vacuum and the pressure at the time of bonding are not particularly limited. These are appropriately determined in accordance with the performance of the apparatus to be used, the limitation of the processing time, the size of the transparent protective plate 50 to be bonded, the size of the display panel 10 and the like. The bonding method is also not particularly limited, and may not be performed in vacuum. The bonding may be performed in a state where the transparent protective plate 50 is slightly bent in the atmosphere. A resin, a tape or the like may be embedded in the gap between the opening end 62 of the frame member 60 and the polarization member 20 so as to fill the gap between the display panel 10 and the frame member 60. However, in the present embodiment, the adhesive member 32 is omitted to reduce the manufacturing cost because it does not have such fluidity that the position of the peripheral portion 321 of the adhesive member 32 changes in the semi-cured state. .

  Air bubbles were not visually recognized in the image display manufactured by the above method. However, bubbles may be visually recognized depending on the variation in accuracy of the bonding work or the tolerance of the display panel 10, the adhesive member 30, the transparent protective plate 50, or the frame member 60. Generally, when bubbles are generated, heating and pressure degassing treatment is performed to eliminate the bubbles. For example, the bubbles are eliminated by performing the heating and pressure degassing treatment under the condition of heating to 50 ° C. while pressurizing the treatment environment to 5 [MPa].

Thereafter, UV light is irradiated from the side of the surface 50 a of the transparent protective plate 50 so as to be an integrated light quantity of 3000 mJ / cm ² . Then, the adhesive member 32 is cured at a curing rate of 90% or more. That is, when viewed from the side of the surface 50b of the transparent protective plate 50, the adhesive member 30 formed at the opening end 41 of the print layer 40 of the transparent protective plate 50 is finally cured to obtain an image display device.

  When the produced image display apparatus was operated to display the intermediate color tone, no display unevenness was observed. In addition, when an intermediate color tone was displayed at 70 ° C. for the purpose of confirming a display state accompanying contraction and expansion deformation of the image display device due to heating, display unevenness was not observed. No generation was observed after air bubbles.

  Here, a protrusion 63 is formed on the frame member 60 covering the peripheral portion of the display panel 10. The projection 63 is to suppress the adhesive member 30 from flowing out. The protrusion 63 is disposed at a position facing the surface 50 b of the transparent protective plate 50 in a side view. The projection 63 is disposed to extend along the periphery of the display surface 10 a between the open end 62 and the peripheral edge 64. In detail, the peripheral edge portion 311 of the adhesive member 31 and the peripheral edge portion 64 of the frame member 60 are arranged to extend in the circumferential direction of the display surface 10 a.

  The projection 63 is formed on the frame member 60 at a position facing the printing layer 40 formed on the surface 50 b of the transparent protective plate 50. That is, from the side of viewing the image displayed on the display panel 10 through the transparent protective plate 50, the protrusion 63 is hidden in the printing layer 40 and can not be viewed.

  The protrusions 63 are formed at a height not in contact with the printing layer 40 formed on the surface 50 b of the transparent protective plate 50. The height of the projections 63 is formed to be about 280 μm, and by preventing contact with the print layer 40, the print layer 40 is prevented from being damaged.

  The protrusions 63 have a shape of an isosceles triangle having a base of approximately 300 μm and a height of approximately 280 μm, where the portion in contact with the frame member 60 is a base in a side view.

  The protrusions 63 are simultaneously formed when the frame member 60 is processed. The projections 63 are provided all around the frame member 60. An adhesive member 31 is disposed between the print layer 40 and the frame member 60. Although the adhesive member 31 is finally cured, it is deformed by the pressure at the time of bonding the transparent protective plate 50 and the display panel 10 or by the capillary phenomenon between the transparent protective plate 50 and the frame member 60. Although the protrusion 63 was reached, the adhesive member 31 did not protrude from the peripheral edge portion 64 of the frame member 60 to cause a problem.

<Effect>
As described above, according to the present embodiment, it is possible to suppress the gap of the adhesive member 30 in the vicinity of the inner side of the opening end portion 62 of the frame member 60, and to suppress the generation of air bubbles. Further, according to the present embodiment, it is possible to suppress the adhesive member 30 from flowing out from the gap between the frame member 60 and the display panel 10 or the gap between the frame member 60 and the transparent protective plate 50 by a simple method.

  Therefore, it is possible to provide an image display device with a good display quality, having a good yield and high reliability, and capable of suppressing the occurrence of display unevenness and the like.

  Further, according to the present embodiment, in the method of manufacturing the image display device, the first adhesive which is a liquid transparent adhesive is applied on the transparent protective plate 50. The first adhesive corresponds to the adhesive member 31. Then, the adhesive member 31 is cured at a curing rate of 90% or more, and a second adhesive which is a liquid transparent adhesive is applied to a partial region on the cured adhesive member 31. The first adhesive corresponds to the adhesive member 32.

  Furthermore, the adhesive member 32 is cured at a curing rate of 20% to 80%. And the frame member 60 which covers the side part of the display panel 10 which has the display surface 10a, and the peripheral part of the display surface 10a is arrange | positioned.

  Furthermore, the display surface 10 a of the display panel 10 is adhered onto the cured adhesive member 32. Then, the adhesive member 32 bonded to the display surface 10 a of the display panel 10 is cured at a curing rate of 90% or more.

  According to such a configuration, the transparent protective plate 50 is in a state where the curing rates of the adhesive member 31 and the adhesive member 32 are different, specifically, in a state where the curing rate of the adhesive member 32 is lower than the curing rate of the adhesive member 31. By bonding the display panel 10 and the display panel 10, the gap of the adhesive member 30 in the vicinity of the inner side of the opening end 62 of the frame member 60 can be suppressed, and the generation of air bubbles can be suppressed. On the other hand, when the curing rate of the adhesive member 32 when bonding the transparent protective plate 50 and the display panel 10 is 20% or more and 80% or less, the adhesive member 32 is a gap between the frame member 60 and the display panel 10 Or, it does not have fluidity enough to flow out from the gap between the frame member 60 and the transparent protective plate 50. Therefore, the adhesive member 30 can be prevented from flowing out from the gap between the frame member 60 and the display panel 10 or the gap between the frame member 60 and the transparent protective plate 50 by a simple method.

  Further, according to the present embodiment, on the cured adhesive member 31, the adhesive member 32 is applied with a thickness thicker than the thickness of the frame member 60 covering the peripheral portion of the display surface 10a.

  According to such a configuration, when the display panel 10 and the transparent protective plate 50 are bonded to each other, a force for deforming the frame member 60 is not applied. When the frame member 60 is deformed, a gap is easily generated in the adhesive member 32 filling the gap between the frame member 60 and the display panel 10. However, according to the above configuration, since the frame member 60 is prevented from being deformed, no gap is generated, and the bubbles are prevented from being visually recognized.

  According to the present embodiment, the image display device includes the display panel 10 having the display surface 10a, the frame member 60 arranged to cover the side surface of the display panel 10 and the peripheral portion of the display surface 10a, and the frame of the display surface 10a. A transparent protective plate 50 is adhered to a portion exposed from the member 60 via an adhesive. The adhesive corresponds to the adhesive member 30.

  Then, at least one of a protrusion 63 and a groove 65 extending along the periphery of the display surface 10a is formed on the surface of the frame member 60 covering the peripheral portion of the display surface 10a and on the transparent protection plate 50 side. Ru.

  According to such a configuration, at least one of the protrusion 63 and the groove 65 is formed to extend along the periphery of the display surface 10a, whereby the adhesive member 30 is formed in the gap between the frame member 60 and the display panel 10. Alternatively, it can be suppressed from flowing out from the gap between the frame member 60 and the transparent protective plate 50.

  Further, according to the present embodiment, the length in the thickness direction of the adhesive member 30 is longer than the total length of the thickness of the frame member 60 and the height of the protrusion 63.

  According to such a configuration, since the projections 63 formed on the frame member 60 do not contact the print layer 40 formed on the surface 50 b of the transparent protective plate 50, the print layer 40 is prevented from being damaged. Be done.

  In addition, when the display panel 10 and the transparent protective plate 50 are bonded to each other, no force due to the contact of the projections 63 is applied, and thus no force for deforming the frame member 60 is applied.

  When the frame member 60 is deformed, a gap is easily generated in the adhesive member 32 filling the gap between the frame member 60 and the display panel 10. However, according to the above configuration, since the frame member 60 is prevented from being deformed, no gap is generated, and the bubbles are prevented from being visually recognized.

Second Embodiment
<Configuration>
In the following, the same components as those described in the above embodiment are denoted by the same reference numerals, and the detailed description thereof is appropriately omitted.

  The image display device of the present embodiment differs from the image display device of the first embodiment in that grooves 65 are provided instead of the protrusions 63 provided on the frame member 60. The other configuration is the same as that of the image display apparatus according to the first embodiment, and thus the detailed description is omitted.

  FIG. 8 is an exploded perspective view showing the configuration of the image display apparatus according to the present embodiment. FIG. 9 is a side view showing the configuration of the image display apparatus according to the present embodiment.

  A groove 65 is formed in the frame member 60. The adhesive member 30 may be deformed by the pressure when the transparent protective plate 50 and the display panel 10 are attached to each other. In addition, since the pressure-sensitive adhesive member 30 has low elasticity at high temperature, a capillary phenomenon may occur between the transparent protective plate 50 and the frame member 60, and the pressure-sensitive adhesive member 30 may flow.

  The grooves 65 suppress the outflow of the adhesive member 30 as described above. The groove 65 is disposed at a position facing the surface 50 b of the transparent protective plate 50 in a side view. The groove 65 is disposed extending along the periphery of the display surface 10 a between the open end 62 and the peripheral edge 64. In detail, between the peripheral edge of the adhesive member 31 and the peripheral edge 64 of the frame member 60, it is extended in the circumferential direction of the display surface 10a.

  The groove 65 is formed in the frame member 60 at a position facing the print layer 40 formed on the surface 50 b of the transparent protective plate 50. That is, from the side of viewing the image displayed on the display panel 10 through the transparent protective plate 50, the groove 65 is hidden by the printing layer 40 and can not be viewed.

  The groove 65 is formed at a depth not to contact the display panel 10 and the polarization member 20 formed on the display panel 10. By contacting the display panel 10 and the polarization member 20 formed on the display panel 10, it is to prevent display unevenness and damage to the display panel 10 that are generated due to the force applied to the display panel 10.

  The groove 65 has a polygonal shape such as a triangle or a quadrangle (protrusion 65b shown in FIG. 11) or a circular shape (protrusion 65a shown in FIG. 10) and the like in side view as shown in FIGS. Although it is comprised by the shape etc. which compounded the square, there is no restriction | limiting in particular in the shape of the groove | channel 65. FIG. The groove 65 shown in the present embodiment has a protrusion shape corresponding to the groove shape on the back surface side of the frame member 60 corresponding to the formation position, but the protrusion shape is not essential. That is, only the groove 65 may be formed, and the projection shape may not be formed on the back surface side of the frame member 60 corresponding to the formation position. Also for the size of the groove 65, the depth of the groove 65 may be smaller than the thickness of the frame member 60, and the gap dimension between the display panel 10 and the frame member 60 or the opening end 62 and the peripheral edge of the frame member 60 It may be designed as appropriate according to the distance between it and 64.

  The grooves 65 are simultaneously formed when the frame member 60 is processed. By forming the frame member 60 at the time of processing, the frame member 60 can be obtained in a desired shape without adding a new manufacturing process. The groove 65 is provided between the open end 62 and the peripheral edge 64, but it is not necessary to be provided all around the frame member 60. For example, the groove 65 may be formed in part of the periphery of the frame member 60. There may be a portion in which is not formed.

  Moreover, it may be mixed with the protrusion 63 shown in the first embodiment. In that case, the shapes of the projections 63 and the grooves 65 may be different in a side view. For example, the shape of the protrusion 63 may be triangular, and the groove 65 may be square.

<Manufacturing method>
Next, a method of manufacturing the image display apparatus according to the present embodiment will be described with reference to FIGS. 12, 13 and 14. FIG.

  The manufacturing method of the adhesion member 30 comprised with the adhesion member 31 and the adhesion member 32 is demonstrated.

  The printing layer 40 is formed on the surface 50 b of the transparent protective plate 50. On the surface 50b of the transparent protective plate 50, the adhesive member 31 which is a liquid acrylic UV curable adhesive resin is formed. The pressure-sensitive adhesive member 31 is formed almost uniformly in a planar shape with a thickness of 100 μm by a slit coating method.

Thereafter, the adhesive member 31 is cured with a curing rate of 90% or more by irradiating UV light from the surface 312 side of the adhesive member 31 so as to obtain an integrated light quantity of 3000 mJ / cm ² . That is, the pressure-sensitive adhesive member 31 is finally cured, and does not have such a flowability that the position of the peripheral portion 311 of the pressure-sensitive adhesive member 31 changes.

  The adhesive member 31 is formed so as to cover the opening end 41 of the printing layer 40 formed on the surface 50 b of the transparent protective plate 50. That is, the peripheral edge portion 311 of the adhesive member 31 is in contact with the printing layer 40 formed in a closed loop shape. Further, as described later, the groove 65 formed in the frame member 60 covering the peripheral portion of the display panel 10 is formed so as not to go over (do not cover). The display panel 10 is a liquid crystal display device.

  Next, the adhesive member 32 is formed in a partial area on the final cured adhesive member 31. Specifically, the adhesive member 32 is formed on the surface of the adhesive member 31 opposite to the surface in contact with the transparent protective plate. The adhesive member 32 is a liquid acrylic UV curable adhesive resin, and the same material as the adhesive member 31 is used. The pressure-sensitive adhesive member 32 is formed uniformly in a planar shape with a thickness of 800 μm by a slit coating method. The adhesive member 32 is formed to be smaller in size than the adhesive member 31, but is formed to cover the open end 41 of the print layer 40.

  Furthermore, the adhesive member 32 is formed in substantially the same shape and size as the open end 62 of the frame member 60. That is, in addition to the thickness 500 [μm] of the frame member 60, 700 [μm] obtained by adding a gap of about 200 [μm] between the frame member 60 and the display panel 10 or the polarization member 20 formed in the display panel 10 The size and thickness are adjusted to exceed the volume of the opening 61 of the frame member 60 defined by the end 62. The adhesive member 32 is formed larger than the volume of the opening 61 of the frame member 60 by a volume defined by approximately 100 μm and the opening end 62. Actually, although the adhesive members 31 and the adhesive members 32 are slightly reduced due to curing and shrinkage, they do not cause a major problem because they are within the range of film thickness variation.

  The reason why the adhesive member 32 is formed to be thicker than the thickness of the frame member 60 is to prevent the frame member 60 from being deformed when the display panel 10 and the transparent protective plate 50 are attached to each other. When the frame member 60 is deformed, a gap is likely to be generated in the adhesive member 30 filling the gap between the frame member 60 and the display panel 10, and may be visually recognized as a bubble.

Thereafter, UV light is irradiated from the surface 322 side of the adhesive member 32 so as to obtain an integrated light amount of approximately 1000 mJ / cm ² . Then, the adhesive member 32 is cured to a curing rate of 20% to 80%. That is, although the adhesive member 32 is in a semi-cured state, it does not have such fluidity that the position of the peripheral portion 321 of the adhesive member 32 changes.

  The adhesive members 31 and the adhesive members 32 formed on the surface 50b of the transparent protective plate 50 have different storage elastic moduli measured under conditions of a temperature of 25 ° C. and a frequency of 1 [Hz], for example, due to a difference in curing rate. .

  The storage elastic modulus of the adhesive member 31 is about 0.1 to 1 [MPa]. The storage elastic modulus of the adhesive member 32 is about 0.001 to 0.1 [MPa]. The adhesive member 32 in contact with the polarization member 20 of the display panel 10 needs to have high flexibility when pasted to the display panel 10. If the flexibility of the adhesive member 32 is low, it will be difficult to stick at the interface in contact with the polarizing member 20, and the possibility of air bubbles will increase. In addition, the possibility of air bubbles also increases at the portion where the adhesive member 32 contacts the open end 62.

  Next, in a state where the adhesive member 30 is formed on the surface 50 b of the transparent protective plate 50, the transparent protective plate 50 and the display panel 10 are attached to each other. In the display panel 10, it is assumed that the polarization member 20 is attached to the front and back surfaces, and the outer periphery (the side surface of the display panel 10 and the peripheral portion of the display surface 10a) is covered by the frame member 60. The protective film on the surface of the polarizing member 20 attached to the display panel 10 is peeled off (not shown), and alignment between the display surface 10 a of the display panel 10 and the transparent protective plate 50 is performed in a vacuum of approximately 100 Pa. . And an image display apparatus is obtained by bonding the display panel 10 and the transparent protective plate 50 together by the pressure of about 1 [MPa].

  The degree of vacuum and the pressure at the time of bonding are not particularly limited. These are appropriately determined in accordance with the performance of the apparatus to be used, the limitation of the processing time, the size of the transparent protective plate 50 to be bonded, the size of the display panel 10 and the like. The bonding method is also not particularly limited, and may not be performed in vacuum. The bonding may be performed in a state where the transparent protective plate 50 is slightly bent in the atmosphere. A resin, a tape or the like may be embedded in the gap between the opening end 62 of the frame member 60 and the polarization member 20 so as to fill the gap between the display panel 10 and the frame member 60. However, in the present embodiment, the adhesive member 32 is omitted to reduce the manufacturing cost because it does not have such fluidity that the position of the peripheral portion 321 of the adhesive member 32 changes in the semi-cured state. .

  Air bubbles were not visually recognized in the image display manufactured by the above method. However, depending on the variation in accuracy of the bonding method or the tolerance of the display panel 10, the adhesive member 30, the transparent protective plate 50, or the frame member 60, a bubble may be visually recognized. Generally, when bubbles are generated, heating and pressure degassing treatment is performed to eliminate the bubbles. For example, bubbles are eliminated by performing heating and pressure degassing processing under the conditions of heating at 50 ° C. while pressurizing the processing environment to 5 [MPa].

Thereafter, UV light is irradiated from the side of the surface 50 a of the transparent protective plate 50 so as to be an integrated light quantity of 3000 mJ / cm ² . Then, the adhesive member 32 is cured at a curing rate of 90% or more. That is, when viewed from the side of the surface 50b of the transparent protective plate 50, the adhesive member 30 formed at the opening end 41 of the print layer 40 of the transparent protective plate 50 is finally cured to obtain an image display device.

  When the produced image display apparatus was operated to display the intermediate color tone, no display unevenness was observed. In addition, when an intermediate color tone was displayed at 70 ° C. for the purpose of confirming a display state accompanying contraction and expansion deformation of the image display device due to heating, display unevenness was not observed. No generation was observed after air bubbles.

  Here, a groove 65 is formed in the frame member 60 covering the peripheral portion of the display panel 10. The groove 65 is to suppress the adhesive member 30 from flowing out. The groove 65 is disposed at a position facing the surface 50 b of the transparent protective plate 50 in a side view. The groove 65 is disposed to extend along the periphery of the display surface 10 a between the open end 62 and the peripheral edge 64. In detail, the peripheral portion 311 of the adhesive member 31 and the peripheral portion 64 of the frame member 60 are arranged to extend in the circumferential direction of the display surface 10 a.

  The groove 65 is formed in the frame member 60 at a position facing the print layer 40 formed on the surface 50 b of the transparent protective plate 50. That is, from the side of viewing the image displayed on the display panel 10 through the transparent protective plate 50, the groove 65 is hidden by the printing layer 40 and can not be viewed.

  The depth of the groove 65 is formed to a depth of about 150 [μm]. In addition, when the corresponding projection shape is formed on the back surface side of the frame member 60, the groove 65 is formed at such a depth that the projection shape does not contact the display panel 10 and the polarization member 20 formed on the display panel 10. It is done. By contacting the display panel 10 and the polarizing member 20 formed on the display panel 10, a force is applied to the display panel 10 to prevent display unevenness and damage to the display panel 10.

  The groove 65 is an isosceles triangle having a base of about 300 μm and a height (depth) of about 150 μm, where the side facing the transparent protective plate 50 of the frame member 60 is a base in a side view. It has a shape.

  The grooves 65 are simultaneously formed when the frame member 60 is processed. The grooves 65 are provided all around the frame member 60. An adhesive member 31 is disposed between the print layer 40 and the frame member 60. Although the adhesive member 31 is finally cured, it is deformed by the pressure at the time of bonding the transparent protective plate 50 and the display panel 10 or by the capillary phenomenon between the transparent protective plate 50 and the frame member 60. Although the groove 65 was reached, the adhesive member 31 did not protrude from the peripheral edge portion 64 of the frame member 60 to cause a problem.

<Effect>
As described above, according to the present embodiment, it is possible to suppress the gap of the adhesive member 30 in the vicinity of the inner side of the opening end portion 62 of the frame member 60, and to suppress the generation of air bubbles. Further, according to the present embodiment, it is possible to suppress the adhesive member 30 from flowing out from the gap between the frame member 60 and the display panel 10 or the gap between the frame member 60 and the transparent protective plate 50 by a simple method.

  Therefore, it is possible to provide an image display device with a good display quality, having a good yield and high reliability, and capable of suppressing the occurrence of display unevenness and the like.

  In the above embodiment, the material, material, size, shape, relative arrangement relationship or condition of implementation of each component may be described, but these are exemplifications in all aspects, and the present invention It is not limited to the one described. Therefore, innumerable modifications (not including deformation or omission of arbitrary components, and free combinations between different embodiments) which are not illustrated can be envisaged within the scope of the present invention.

  Also, the dimensions of each component in each figure may differ from the actual dimensions.

  DESCRIPTION OF SYMBOLS 10 display panel, 10a display surface, 20 polarization members, 30, 31, 32 adhesive members, 40 printing layers, 41, 42 opening end portions, 50 transparent protective plates, 50a, 50b surfaces, 60 frame members, 61 openings, 62 Open end, 63 projections, 64 peripheral parts, 65 grooves, 311, 321 peripheral parts, 312, 322 surfaces.

Claims (4)

A display panel having a display surface;
A frame member arranged to cover the side surface of the display panel and the peripheral portion of the display surface;
And a transparent protective plate adhered to the portion of the display surface exposed from the frame member via an adhesive.
At least one of a protrusion and a groove extending along the periphery of the display surface is formed on a surface of the frame member covering the peripheral portion of the display surface and on the transparent protective plate side.
Image display device. The transparent protective plate further comprises a printing layer formed on the surface of the side to be adhered to the display surface of the display panel,
The print layer is formed in an area corresponding to the periphery of the display surface.
The image display device according to claim 1. The length in the thickness direction of the adhesive is longer than the total length of the thickness of the frame member and the height of the protrusion.
The image display apparatus according to claim 1. The depth of the groove is shallower than the thickness of the frame member,
The image display apparatus according to claim 1.

Images