JP6739565B2 - Image display - Google Patents

Description

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

In the image display device, a transparent protective plate is arranged on the display surface of the display panel for the purpose of improving visibility, imparting designability or imparting robustness.

In such a structure, 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. As a result, a reduction in visibility such as a reduction in contrast occurs 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 attached to each other 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.

As the display panel, a liquid crystal display device may be used, but an organic electroluminescence display device may also be used. Some of these image display devices include 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 together with a transparent adhesive, when the transparent protective plate and the display panel are bonded together with the transparent adhesive, the opening end portion of the frame member There may be a gap in the applied adhesive near the inside of the.

Patent Document 2 discloses a method of preventing a gap of an adhesive from being generated in the vicinity of an end portion of a frame member. Specifically, the first adhesive is applied to the display panel side and further cured, while the second adhesive is applied to the translucent substrate. Then, the cured first adhesive and the uncured second adhesive are bonded together, and then the second adhesive is cured.

Japanese Patent No. 4944446 Japanese 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 flows out from the gap.

There is a problem that the yield of the adhesive may decrease due to the adhesive flowing out, and the performance and reliability of the device may decrease.

The present invention has been made to solve the above problems, and in a configuration in which a transparent protective plate and a display panel including a frame member are pasted together, in the vicinity of the inside of the opening end of the frame member. Provided is an image display device capable of suppressing the adhesive from flowing out of 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 to

An image display device according to an aspect of the present invention is 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 exposed from the frame member of the display surface. A transparent protective plate that is bonded via an adhesive to a portion of the frame member, which is a region that covers the peripheral portion of the display surface and is the transparent protective plate side surface of the display surface. At least one of a protrusion and a groove extending along the circumference is formed, and the length of the adhesive in the thickness direction is longer than the total length of the thickness of the frame member and the height of the protrusion .

According to the above aspect of the present invention, it is possible to suppress the gap of the adhesive in the vicinity of the inner side of the opening end of the frame member and suppress the generation of bubbles. In addition, it is possible to prevent the adhesive from flowing out of the gap between the frame member and the display panel or the gap between the frame member and the transparent protective plate.

Objects, features, aspects, and advantages of the present invention will become more apparent by the following detailed description and the accompanying drawings.

It is an exploded perspective view showing the composition of the image display device concerning an embodiment. It is a side view which shows the structure of the image display apparatus regarding embodiment. It is sectional drawing which shows the shape of a protrusion. It is sectional drawing which shows the shape of a protrusion. FIG. 6 is a cross-sectional view showing the method of manufacturing the image display device according to the embodiment. FIG. 6 is a cross-sectional view showing the method of manufacturing the image display device according to the embodiment. FIG. 6 is a cross-sectional view showing the method of manufacturing the image display device according to the embodiment. It is an exploded perspective view showing the composition of the image display device concerning an embodiment. It is a side view which shows the structure of the image display apparatus regarding embodiment. It is sectional drawing which shows the shape of a groove. It is sectional drawing which shows the shape of a groove. FIG. 6 is a cross-sectional view showing the method of manufacturing the image display device according to the embodiment. FIG. 6 is a cross-sectional view showing the method of manufacturing the image display device according to the embodiment. FIG. 6 is a cross-sectional view showing the method of manufacturing the image display device according to the embodiment.

Hereinafter, embodiments will be described with reference to the accompanying drawings. In the following description, the same reference numerals are given to the same components, and their names and functions are also the same. Therefore, detailed description thereof may be omitted.

<First Embodiment>
<Structure>
FIG. 1 is an exploded perspective view showing the configuration of the image display device according to the present embodiment. FIG. 2 is a side view showing the configuration of the image display device according to this 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 polarizing 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 includes a backlight unit, flexible wiring, an adhesive tape for fixing the display panel 10 to the frame member 60, screws, and the like.

The display panel 10 is a display panel that displays an image and has a display surface 10a. The display surface 10a is a surface for displaying an image.

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

The polarizing member 20 is attached to one surface (the surface having the display surface 10a) and the other surface of the display panel 10. 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 anti-glare layer may be appropriately provided on the surface of the polarizing member 20.

The adhesive member 30 is a translucent 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 case where the display quality is deteriorated is, for example, the case where an air layer (air bubble) exists in the gap between the display panel 10 and the transparent protective plate 50. In this case, external light traveling toward the display surface 10a of the display panel 10 is reflected by the surfaces 50a and 50b of the transparent protective plate 50 and the display surface 10a of the display panel 10, so that the contrast in image display is lowered. This reduces the display quality.

The adhesive member 30 is formed on the surface 50b 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 on 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 almost the same as the refractive index of the transparent protective plate 50. The adhesive member 30 is made of, for example, a highly transparent material such as acrylic, silicone, or urethane material. The plurality of layers forming the adhesive member 30 are formed into a substantially uniform planar shape with a predetermined thickness by the slit coating method. The method for forming the pressure-sensitive adhesive member 30 and the thickness of the pressure-sensitive adhesive member 30 are not particularly limited and can be appropriately adjusted according to other constituent members. The adhesive member 30 may be, for example, a UV curable adhesive resin. In that case, it may not be composed of one kind of UV curable resin, and may be composed of plural kinds of UV curable resin.

In the adhesive member 30 having a laminated structure, a thermosetting adhesive resin may be used for the adhesive member 31 arranged on the side in contact with the transparent protective plate 50. Further, the adhesive member 31 is held by adjusting the material characteristics such as hardening or thixotropy to the extent that the shape is maintained after applying the liquid resin, and the same function as the adhesive sheet as a transparent adhesive is obtained. It may be used by holding it. The adhesive member 31 may be an adhesive sheet. As the adhesive member 31, an adhesive sheet having a function of being cured 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. An adhesive member that uses both heat curing and UV curing may be used, but the UV curing type is generally used in many cases because there are restrictions on the material storage method and handling during manufacturing. The details of the adhesive member 30 will be described later.

The transparent protective plate 50 is a transparent plate that hardly absorbs visible light. The transparent protective plate 50 may be a glass plate, a laminated glass, a resin plate, or the like, the strength of which is improved by using an ion exchange method, an air-cooling strengthening method, or the like. The resin plate is, for example, a plate made of a polycarbonate resin, an acrylic resin, a cycloolefin resin, or the like, or a plate made of a laminated body of a polycarbonate resin, an acrylic resin, a cycloolefin resin, or the like. ..

The transparent protective plate 50 has a surface 50a and a surface 50b. The surface 50b 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 or a shape including an arc. Further, the shapes of the display panel 10 and the adhesive member 30 can be any desired shapes, like the shapes of the transparent protective plate 50. Although the transparent protective plate 50 is used in the present embodiment, for example, the touch sensor substrate may be attached to the transparent protective plate in advance, and the touch sensor substrate alone may be used in some cases.

The surface 50a 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 optionally subjected to antiglare treatment, antireflection treatment for improving visibility, or hard coat treatment for preventing scratches. The transparent protective plate 50 is provided so as to overlap the display panel 10 via the adhesive member 30 in a 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 50b of the transparent protective plate 50 is the surface opposite to the surface 50a. The printed layer 40 may be formed on the surface 50b of the transparent protective plate 50. On the contrary, the print layer 40 may not be formed. The presence or absence of the print layer 40 is not particularly limited.

The print layer 40 is a layer used for decoration (decoration). The printing layer 40 is not limited to the purpose of decoration (decoration) and may be a layer for other purposes. As shown in FIG. 1, the shape of the print layer 40 is a closed loop shape and has an open end portion 41.

The print layer 40 is made of a material that shields almost all light having a wavelength in the visible region. The print layer 40 is configured by using a paint containing a pigment of a color material. Specifically, the print layer 40 is made of, for example, an acrylic resin mixed with carbon black. The color of the print layer 40 is black, for example. The color of the print layer 40 may be a color other than black, which has a light blocking effect.

The printed layer 40 is formed on the surface of the transparent protective plate 50 on the side that is bonded to the display surface 10a of the display panel 10. It is formed so as to correspond to the peripheral portion of the display surface 10a 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 10a) of the display panel 10. From the viewpoint of designability, the size of the print layer 40 is preferably a size in which the difference in position between the end of the element that displays an image on the display panel 10 and the opening end 42 of the print layer 40 is minimized. The printed layer 40 only needs to satisfy desired performance in terms of designability, light shielding property, etc., and the forming method thereof is not particularly limited. The printing layer 40 is formed by applying a resin using a screen printing method, for example.

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

In addition, the printed layer 40 has a desired thickness by stacking films in terms of design, light shielding properties, and the like. By stacking the films, problems relating to design such as pinholes in the presence of foreign matter can be suppressed, and the printing layer 40 can be stably manufactured with high yield.

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

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

The frame member 60 is installed near the display panel 10. That is, the polarization member 20 and the opening end portion 62 of the frame member 60 are installed close to each other.

The frame member 60 has a thickness of about 0.1 to 1.0 [mm], and the opening end 62 comes into contact with the polarizing member 20 to deform the display panel 10 due to variations in processing accuracy, deformation after processing, and the like. There is something to do. Therefore, there may be a problem that display quality such as display unevenness is deteriorated. Generally, the frame member 60 including the opening end portion 62 is designed so as not to contact the polarizing member 20, and a gap is provided between the opening end portion 62 and the polarizing 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 bonded together. In addition, since the 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 adhesive member 30 may flow.

The protrusion 63 suppresses the adhesive member 30 from flowing out like these. The protrusion 63 is arranged at a position facing the surface 50b of the transparent protective plate 50 in a side view. The protrusion 63 is arranged to extend along the periphery of the display surface 10 a between the opening end portion 62 and the peripheral edge portion 64. Specifically, it is arranged so as to extend in the circumferential direction of the display surface 10a between the peripheral edge of the adhesive member 31 and the peripheral edge 64 of the frame member 60.

The protrusion 63 is formed on the frame member 60 at a position facing the print layer 40 formed on the surface 50b of the transparent protective plate 50. That is, the protrusion 63 is hidden in the print layer 40 and cannot be visually recognized from the side where the image displayed on the display panel 10 through the transparent protective plate 50 is visually recognized.

The protrusion 63 is formed at a height that does not contact the printed layer 40 formed on the surface 50b of the transparent protective plate 50. This is to prevent the print layer 40 from being damaged by coming into contact with the print layer 40.

As shown in FIGS. 3 and 4, the protrusion 63 has a polygonal shape such as a triangle or a quadrangle (the protrusion 63b shown in FIG. 4) or a circular shape (the protrusion 63a shown in FIG. 3) in a side view. The projection 63 is not limited to any particular shape, although it is formed of a composite shape with a prism. Regarding the size of the protrusion 63, it is sufficient that the total length of the thickness of the frame member 60 and the height of the protrusion 63 is shorter than the length of the adhesive member 30 in the thickness direction. It may be appropriately designed according to the distance between the terminal 64 and the like.

The protrusion 63 is formed at the same time when the frame member 60 is processed. By forming the frame member 60 during processing, the frame member 60 can be obtained in a desired shape without adding a new manufacturing process. The protrusion 63 is provided between the opening end portion 62 and the peripheral edge portion 64, but it need not be provided all around the frame member 60. For example, the protrusion 63 is provided on a part of the side around the frame member 60. There may be a portion in which no is formed.

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

A method of manufacturing the adhesive member 30 including the adhesive member 31 and the adhesive member 32 will be described.

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 applied. The adhesive member 31 is formed in a planar shape with a thickness of 200 [μm] substantially uniformly by a slit coating method.

Then, 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 that the integrated light amount is 3000 [mJ/cm ² ]. That is, the adhesive member 31 is finally cured, and does not have such fluidity that the position of the peripheral portion 311 of the adhesive member 31 changes, for example.

Here, the curing rate will be described. Examples of methods for estimating the curing rate include Fourier transform infrared spectroscopy (FT-IR) and high performance liquid chromatography (HPLC). In both methods, 100% is defined as the state of being irradiated with ultraviolet rays (UV) for a sufficiently long time, and the curing rate is estimated by comparing with the state where the chemical bond state is incomplete (semi-cured state) Is the way to do it. For the comparison, for example, the change amount (increase/decrease amount) of a specific substance is taken into consideration.

As another method, there is a differential scanning calorimetry (DSC). This method measures the amount of heat generated when the ultraviolet curable resin is irradiated with ultraviolet rays. From the ratio of the calorific value of the uncured material that remains when it is irradiated so that it is not completely cured with ultraviolet light, Estimate the rate.

In the present embodiment, the measurement result when the Fourier transform infrared spectroscopy is used is shown, but the same measurement result is obtained even when another measurement method is used.

The adhesive member 31 is formed so as to cover the open end portion 41 of the printing layer 40 formed on the surface 50b of the transparent protective plate 50. That is, the peripheral edge portion 311 of the adhesive member 31 is in contact with the print layer 40 formed in a closed loop shape. Further, as will be described later, the projection 63 formed on the frame member 60 that covers the peripheral portion of the display panel 10 is formed so as not to get over (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 finally cured adhesive member 31. Specifically, the adhesive member 32 is applied onto 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 have a smaller size than the adhesive member 31, but is formed so as to cover the open end portion 41 of the print layer 40.

Further, the adhesive member 32 is formed in substantially the same shape and size as the opening end portion 62 of the frame member 60. That is, the size and the 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 to be larger than the volume of the opening 61 of the frame member 60 by a volume defined by about 100 [μm] and the opening end 62. Actually, the adhesive member 31 and the adhesive member 32 are slightly thinned due to curing shrinkage, but since they are within the range of the film thickness variation, this is not a big problem.

The reason why the adhesive member 32 is formed to be thicker than the thickness of the frame member 60 is that the protrusion 63 formed on the frame member 60 to be bonded later comes into contact with the print layer 40 formed on the surface 50b of the transparent protective plate 50. This is to prevent that. It is also for preventing the frame member 60 from being deformed by applying a force when the display panel 10 and the transparent protective plate 50 are attached to each other. This is because when the frame member 60 is deformed, a gap is likely to occur in the adhesive member 30 filling the gap between the frame member 60 and the display panel 10, and it may be visually recognized as bubbles.

After that, UV light is applied from the surface 322 side of the adhesive member 32 so that the integrated light amount is about 1000 [mJ/cm ² ]. Then, the adhesive member 32 is cured to a curing rate of 20% or more and 80% or less. That is, the adhesive member 32 is in a semi-cured state, but does not have fluidity such that the position of the peripheral edge portion 321 of the adhesive member 32 changes.

The pressure-sensitive adhesive member 31 and the pressure-sensitive adhesive member 32 formed on the surface 50b of the transparent protective plate 50 have different storage elastic moduli, for example, measured under the conditions of a temperature of 25° C. and a frequency of 1 [Hz] due to the 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 that comes into contact with the polarizing member 20 of the display panel 10 needs to have high flexibility when it is attached to the display panel 10. If the flexibility of the adhesive member 32 is low, it becomes difficult for the adhesive member 32 to adhere to the interface in contact with the polarizing member 20, and the possibility that air bubbles are generated increases. Further, also in the portion where the adhesive member 32 comes into contact with the opening end portion 62, similarly, the possibility that bubbles are generated is increased.

Next, the transparent protective plate 50 and the display panel 10 are bonded together with the adhesive member 30 formed on the surface 50b of the transparent protective plate 50. It is assumed that the display panel 10 has the polarizing member 20 attached to the front and back surfaces thereof, and the frame member 60 covers the outer periphery thereof (the side surface of the display panel 10 and the peripheral portion of the display surface 10a). The protective film on the surface of the polarizing member 20 attached to the display panel 10 is peeled off (not shown), and the display surface 10a of the display panel 10 and the transparent protective plate 50 are aligned in a vacuum of about 100 [Pa]. .. Then, the image display device is obtained by bonding the display panel 10 and the transparent protective plate 50 together at a pressure of approximately 1 [MPa].

The degree of vacuum and the pressure for bonding are not particularly limited. These are appropriately determined according to the performance of the apparatus used, the processing time limit, the sizes of the transparent protective plate 50 and the display panel 10 to be bonded, and the like. Further, there is no particular limitation on the bonding method, and the bonding may not be performed in vacuum. The transparent protective plate 50 may be attached in the air while being slightly bent. A resin or tape may be embedded in the gap between the opening end 62 of the frame member 60 and the polarizing member 20 so as to fill the gap between the display panel 10 and the frame member 60. However, in this embodiment, since the adhesive member 32 is in a semi-cured state and does not have fluidity such that the position of the peripheral edge portion 321 of the adhesive member 32 changes, it is omitted in order to reduce the manufacturing cost. ..

No bubbles were visually recognized in the image display device manufactured by the above method. However, bubbles may be visually recognized due to variations in the accuracy of the bonding work, or tolerances of the display panel 10, the adhesive member 30, the transparent protective plate 50, or the frame member 60. Generally, when bubbles are generated, the heating and pressure defoaming process is performed to eliminate the bubbles. For example, the bubbles are extinguished by performing the heating and pressurizing defoaming treatment under the condition that the treatment environment is pressurized to 5 [MPa] and heated to 50° C.

After that, UV light is irradiated from the surface 50a side of the transparent protective plate 50 so that the integrated light amount is 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 surface 50b side of the transparent protective plate 50, the adhesive member 30 formed on the open end 41 of the printed layer 40 of the transparent protective plate 50 is finally cured, and an image display device is obtained.

When the produced image display device was operated and halftone was displayed, no display unevenness was observed. Further, when a halftone color was displayed at 70° C. for the purpose of confirming the display state associated with the contraction and expansion deformation of the image display device due to heating, no display unevenness was observed. No post-bubble formation was observed either.

Here, a protrusion 63 is formed on the frame member 60 that covers the peripheral portion of the display panel 10. The protrusion 63 suppresses the adhesive member 30 from flowing out. The protrusion 63 is arranged at a position facing the surface 50b of the transparent protective plate 50 in a side view. The protrusion 63 is arranged to extend along the periphery of the display surface 10 a between the opening end portion 62 and the peripheral edge portion 64. Specifically, it is arranged so as to extend in the circumferential direction of the display surface 10 a between the peripheral edge portion 311 of the adhesive member 31 and the peripheral edge portion 64 of the frame member 60.

The protrusion 63 is formed on the frame member 60 at a position facing the print layer 40 formed on the surface 50b of the transparent protective plate 50. That is, the protrusion 63 is hidden in the print layer 40 and cannot be visually recognized from the side where the image displayed on the display panel 10 through the transparent protective plate 50 is visually recognized.

The protrusion 63 is formed at a height that does not contact the printing layer 40 formed on the surface 50b of the transparent protective plate 50. The height of the protrusion 63 is approximately 280 [μm], and the print layer 40 is prevented from being damaged by preventing it from coming into contact with the print layer 40.

The projection 63 has an isosceles triangular shape having a bottom side of about 300 [μm] and a height of about 280 [μm] when the bottom side is a portion that contacts the frame member 60 in a side view.

The protrusion 63 is formed at the same time when the frame member 60 is processed. The protrusion 63 is provided all around the frame member 60. The 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 due to the pressure when the transparent protective plate 50 and the display panel 10 are bonded together or due to the capillary phenomenon between the transparent protective plate 50 and the frame member 60, and partly. Although it reached the protrusion 63, the adhesive member 31 did not protrude from the peripheral edge portion 64 of the frame member 60 and caused no 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 inside of the opening end portion 62 of the frame member 60 and suppress the generation of bubbles. Further, according to the present embodiment, it is possible to suppress the adhesive member 30 from flowing out of 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 having a good yield and high reliability, and capable of suppressing the occurrence of display unevenness and the like and having a good display quality.

Further, according to this embodiment, in the method for manufacturing an image display device, the first adhesive, which is a liquid transparent adhesive, is applied onto 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 the second adhesive, which is a liquid transparent adhesive, is applied to the partial region on the cured adhesive member 31. The first adhesive corresponds to the adhesive member 32.

Further, the adhesive member 32 is cured at a curing rate of 20% or more and 80% or less. Then, the frame member 60 that covers the side surface of the display panel 10 having the display surface 10a and the peripheral portion of the display surface 10a is arranged.

Further, the display surface 10a of the display panel 10 is adhered onto the cured adhesive member 32. Then, the adhesive member 32 adhered to the display surface 10a 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, the curing rate of the adhesive member 32 is lower than the curing rate of the adhesive member 31. By adhering the display panel 10 with the display panel 10, it is possible to suppress the gap between the adhesive members 30 in the vicinity of the inner side of the opening end portion 62 of the frame member 60 and suppress the generation of bubbles. On the other hand, since the curing rate of the adhesive member 32 when the transparent protective plate 50 and the display panel 10 are adhered is 20% or more and 80% or less, the adhesive member 32 causes the gap between the frame member 60 and the display panel 10. Alternatively, it does not have fluidity such that it flows out from the gap between the frame member 60 and the transparent protective plate 50. Therefore, it is possible to suppress the adhesive member 30 from flowing out of 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, the adhesive member 32 is applied on the cured adhesive member 31 with a thickness greater than that of the frame member 60 that covers 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 together, the force for deforming the frame member 60 is not applied. When the frame member 60 is deformed, a gap is likely to occur in the adhesive member 32 filling the gap between the frame member 60 and the display panel 10. However, according to the above configuration, the frame member 60 is prevented from being deformed, so that no gap is created and 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 that is bonded to the portion exposed from the member 60 via an adhesive is provided. The adhesive corresponds to the adhesive member 30.

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

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 10 a, so that the adhesive member 30 causes the gap between the frame member 60 and the display panel 10, Alternatively, it is possible to prevent the liquid from flowing out from the gap between the frame member 60 and the transparent protective plate 50.

Further, according to this embodiment, the length of the adhesive member 30 in the thickness direction 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, the protrusion 63 formed on the frame member 60 does not contact the print layer 40 formed on the surface 50b of the transparent protective plate 50, so that the print layer 40 is prevented from being damaged. To be done.

Further, when the display panel 10 and the transparent protective plate 50 are attached to each other, a force due to the contact of the protrusion 63 is not applied, and thus a force for deforming the frame member 60 is not applied.

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

<Second Embodiment>
<Structure>
In the following, configurations similar to the configurations described in the above embodiment are denoted by the same reference numerals and illustrated, and detailed description thereof will be appropriately omitted.

The image display device of the present embodiment is different from the image display device of the first embodiment in that a groove 65 is provided instead of the protrusion 63 provided on the frame member 60. The other configurations are similar to those of the image display device of the first embodiment, and thus detailed description thereof will be omitted.

FIG. 8 is an exploded perspective view showing the configuration of the image display device according to this embodiment. FIG. 9 is a side view showing the configuration of the image display device according to this 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 bonded together. In addition, since the 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 adhesive member 30 may flow.

The groove 65 suppresses the adhesive member 30 from flowing out as described above. The groove 65 is arranged at a position facing the surface 50b of the transparent protective plate 50 in a side view. The groove 65 is arranged so as to extend along the periphery of the display surface 10 a between the opening end portion 62 and the peripheral edge portion 64. Specifically, it is arranged so as to extend in the circumferential direction of the display surface 10a between the peripheral edge of the adhesive member 31 and the peripheral edge 64 of the frame member 60.

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

The groove 65 is formed to a depth that does not contact the display panel 10 and the polarizing member 20 formed on the display panel 10. This is to prevent display unevenness and damage to the display panel 10 caused by a force being applied to the display panel 10 by contacting the display panel 10 and the polarizing member 20 formed on the display panel 10.

As shown in FIGS. 10 and 11, 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) in a side view. The shape of the groove 65 is not particularly limited, although it is configured by a shape in which a polygon is combined. The groove 65 shown in the present embodiment has a projection shape corresponding to the groove shape on the back surface side of the frame member 60 corresponding to the formation position thereof, but the projection shape is not essential. That is, it may be a case where only the groove 65 is formed and the projection shape is not formed on the back surface side of the frame member 60 corresponding to the formation position. Regarding the size of the groove 65, it is sufficient that the depth of the groove 65 is shallower than the thickness of the frame member 60, and the size of the gap between the display panel 10 and the frame member 60 or the opening end portion 62 and the peripheral edge portion of the frame member 60. It may be appropriately designed according to the distance between the terminal 64 and the like.

The groove 65 is formed at the same time when the frame member 60 is processed. By forming the frame member 60 during 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 opening end portion 62 and the peripheral edge portion 64, but it is not necessary to be provided all around the frame member 60, and for example, the groove 65 is provided at a part of the side around the frame member 60. There may be a portion in which no is formed.

Further, it may be mixed with the protrusion 63 shown in the first embodiment. In that case, the shapes of the protrusion 63 and the groove 65 may be different from each other in a side view. For example, the protrusion 63 may have a triangular shape and the groove 65 may have a quadrangular shape.

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

A method of manufacturing the adhesive member 30 including the adhesive member 31 and the adhesive member 32 will be described.

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 adhesive member 31 is formed substantially uniformly in a planar shape with a thickness of 100 [μm] by a slit coating method.

Then, 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 that the integrated light amount is 3000 [mJ/cm ² ]. That is, the adhesive member 31 is finally cured, and does not have such fluidity that the position of the peripheral portion 311 of the adhesive member 31 changes, for example.

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

Next, the adhesive member 32 is formed in a partial area on the finally 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 adhesive member 32 is formed substantially uniformly in a planar shape with a thickness of 800 [μm] by a slit coating method. The adhesive member 32 is formed to have a smaller size than the adhesive member 31, but is formed so as to cover the open end portion 41 of the print layer 40.

Further, the adhesive member 32 is formed in substantially the same shape and size as the opening end portion 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 approximately 200 [μm] between the frame member 60 and the display panel 10 or the polarizing member 20 formed on the display panel 10, and an opening The size and the thickness are adjusted so as to exceed the volume of the opening 61 of the frame member 60 defined by the end 62. The adhesive member 32 is formed to be larger than the volume of the opening 61 of the frame member 60 by a volume defined by about 100 [μm] and the opening end 62. Actually, the adhesive member 31 and the adhesive member 32 are slightly thinned due to curing shrinkage, but since they are within the range of the film thickness variation, this is not a big problem.

The reason why the adhesive member 32 is formed to be thicker than the frame member 60 is to prevent the frame member 60 from being deformed due to a force when the display panel 10 and the transparent protective plate 50 are attached to each other. This is because when the frame member 60 is deformed, a gap is likely to occur in the adhesive member 30 filling the gap between the frame member 60 and the display panel 10, and it may be visually recognized as bubbles.

After that, UV light is applied from the surface 322 side of the adhesive member 32 so that the integrated light amount is about 1000 [mJ/cm ² ]. Then, the adhesive member 32 is cured to a curing rate of 20% or more and 80% or less. That is, the adhesive member 32 is in a semi-cured state, but does not have fluidity such that the position of the peripheral edge portion 321 of the adhesive member 32 changes.

The pressure-sensitive adhesive member 31 and the pressure-sensitive adhesive member 32 formed on the surface 50b of the transparent protective plate 50 have different storage elastic moduli, for example, measured under the conditions of a temperature of 25° C. and a frequency of 1 [Hz] due to the 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 that comes into contact with the polarizing member 20 of the display panel 10 needs to have high flexibility when it is attached to the display panel 10. If the flexibility of the adhesive member 32 is low, it becomes difficult for the adhesive member 32 to adhere to the interface in contact with the polarizing member 20, and the possibility that air bubbles are generated increases. Further, also in the portion where the adhesive member 32 comes into contact with the opening end portion 62, similarly, the possibility that bubbles are generated is increased.

Next, the transparent protective plate 50 and the display panel 10 are bonded together with the adhesive member 30 formed on the surface 50b of the transparent protective plate 50. It is assumed that the display panel 10 has the polarizing member 20 attached to the front and back surfaces thereof, and the frame member 60 covers the outer periphery thereof (the side surface of the display panel 10 and the peripheral portion of the display surface 10a). The protective film on the surface of the polarizing member 20 attached to the display panel 10 is peeled off (not shown), and the display surface 10a of the display panel 10 and the transparent protective plate 50 are aligned in a vacuum of about 100 [Pa]. .. Then, the image display device is obtained by bonding the display panel 10 and the transparent protective plate 50 together at a pressure of approximately 1 [MPa].

The degree of vacuum and the pressure for bonding are not particularly limited. These are appropriately determined according to the performance of the apparatus used, the processing time limit, the sizes of the transparent protective plate 50 and the display panel 10 to be bonded, and the like. Further, there is no particular limitation on the bonding method, and the bonding may not be performed in vacuum. The transparent protective plate 50 may be attached in the air while being slightly bent. A resin or tape may be embedded in the gap between the opening end 62 of the frame member 60 and the polarizing member 20 so as to fill the gap between the display panel 10 and the frame member 60. However, in this embodiment, since the adhesive member 32 is in a semi-cured state and does not have fluidity such that the position of the peripheral edge portion 321 of the adhesive member 32 changes, it is omitted in order to reduce the manufacturing cost. ..

No bubbles were visually recognized in the image display device manufactured by the above method. However, bubbles may be visually recognized depending on the accuracy of the bonding method, 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, the heating and pressure defoaming process is performed to eliminate the bubbles. For example, the bubbles are extinguished by performing the heating/pressurizing defoaming treatment under the condition that the treatment environment is pressurized at 5 [MPa] and heated at 50° C.

After that, UV light is irradiated from the surface 50a side of the transparent protective plate 50 so that the integrated light amount becomes 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 surface 50b side of the transparent protective plate 50, the adhesive member 30 formed on the open end 41 of the printed layer 40 of the transparent protective plate 50 is finally cured, and an image display device is obtained.

When the produced image display device was operated and halftone was displayed, no display unevenness was observed. Further, when a halftone color was displayed at 70° C. for the purpose of confirming the display state associated with the contraction and expansion deformation of the image display device due to heating, no display unevenness was observed. No post-bubble formation was observed either.

Here, a groove 65 is formed in the frame member 60 that covers the peripheral portion of the display panel 10. The groove 65 suppresses the adhesive member 30 from flowing out. The groove 65 is arranged at a position facing the surface 50b of the transparent protective plate 50 in a side view. The groove 65 is arranged so as to extend along the periphery of the display surface 10 a between the opening end portion 62 and the peripheral edge portion 64. Specifically, it is arranged so as to extend in the circumferential direction of the display surface 10 a between the peripheral edge portion 311 of the adhesive member 31 and the peripheral edge portion 64 of the frame member 60.

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

The groove 65 has a depth of about 150 [μm]. Further, when the corresponding protrusion shape is formed on the back surface side of the frame member 60, the groove 65 is formed at a depth such that the protrusion shape does not contact the display panel 10 and the polarizing member 20 formed on the display panel 10. Has been done. This is because contact with the display panel 10 and the polarizing member 20 formed on the display panel 10 prevents display unevenness and damage to the display panel 10 caused by a force applied to the display panel 10.

In a side view, the groove 65 is an isosceles triangle having a bottom side of about 300 [μm] and a height (depth) of about 150 [μm], where the sides facing the transparent protective plate 50 of the frame member 60 are the bottom sides. It has a shape.

The groove 65 is formed at the same time when the frame member 60 is processed. The groove 65 is provided all around the frame member 60. The 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 due to the pressure when the transparent protective plate 50 and the display panel 10 are bonded together or due to the capillary phenomenon between the transparent protective plate 50 and the frame member 60, and partly. Although it reached the groove 65, the adhesive member 31 did not protrude from the peripheral edge portion 64 of the frame member 60 and did not 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 inside of the opening end portion 62 of the frame member 60 and suppress the generation of bubbles. Further, according to the present embodiment, it is possible to suppress the adhesive member 30 from flowing out of 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 having a good yield and high reliability, and capable of suppressing the occurrence of display unevenness and the like and having a good display quality.

In the above-described embodiment, the material, material, size, shape, relative arrangement relationship, or conditions of implementation of each constituent element may be described, but these are examples in all aspects, and the present invention It is not limited to those described in. Thus, innumerable variants not illustrated (including variants or omissions of any components, as well as free combinations between different embodiments) may be envisaged within the scope of the invention.

In addition, the dimensions of each component in each drawing may differ from the actual dimensions.

10 Display Panel, 10a Display Surface, 20 Polarizing Member, 30, 31, 32 Adhesive Member, 40 Printing Layer, 41, 42 Open End, 50 Transparent Protective Plate, 50a, 50b Surface, 60 Frame Member, 61 Opening, 62 Open end, 63 protrusion, 64 peripheral edge, 65 groove, 311, 321 peripheral edge, 312, 322 surface.

Claims (2)

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,
A portion of the display surface exposed from the frame member, a transparent protective plate adhered via an adhesive,
At least one of a protrusion and a groove extending along the periphery of the display surface is formed on the surface of the frame member that covers the peripheral portion of the display surface on the transparent protective plate side,
The length in the thickness direction of the adhesive is longer than the combined length of the thickness of the frame member and the height of the protrusions,
Image display device. The transparent protective plate, further comprising a printing layer formed on the surface of the display panel on the side to be bonded to the display surface,
The printed layer is formed in a region corresponding to a peripheral portion of the display surface,
The image display device according to claim 1.

Images