JP2006309956A - Organic el display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an organic EL display device capable of improving contrast of an image by restricting a view angle, and further decreasing reflection luminance of a non-light emitting part. <P>SOLUTION: The organic EL display device 1 is provided with a retarder 3, a polarizing plate 4, and a viewing field restricting film 5 formed by arranging a plurality of louvers on a view side of an organic EL display panel 2 formed by arranging a plurality of pixels. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an organic EL display device, and more particularly to an organic EL display device with a limited viewing angle.

  Since organic EL display panels use a metal material such as aluminum as the cathode electrode, light incident from the outside is reflected on the surface of the cathode electrode, and when viewed from the viewing side, the cathode electrode of the non-light emitting part looks like a mirror surface. There is a problem that the contrast of the image of the light-emitting portion is lowered due to the fact that the light appears to shine.

  Therefore, in order to prevent the reflected light on the surface of the organic EL display panel from being seen from the viewing side, it is common to arrange a circularly polarizing plate as shown in FIG. 5 on the viewing side surface of the organic EL display panel. Yes (see, for example, Patent Document 1).

  FIG. 5 is a schematic diagram illustrating the light passage principle of the circularly polarizing plate. The circularly polarizing plate is obtained by superposing the polarizing plate 4 and the ¼λ phase difference plate 3. In this polarizing plate 4, since the polarization axis is in the horizontal direction, the light 20 incident from the viewing side can pass only light parallel to the horizontal direction by the polarizing plate 4. Accordingly, the light passing therethrough is only the linearly polarized light 21 parallel to the horizontal direction. When the linearly polarized light 21 passes through the ¼λ phase difference plate 3, it is rotated in a specific direction to become circularly polarized light 22 (clockwise in this case).

  When the clockwise circularly polarized light 22 is reflected on the surface of the organic EL display panel 2, it becomes a counterclockwise circularly polarized light 23 rotated in the opposite direction. When the counterclockwise circularly polarized light 23 passes through the ¼λ phase difference plate 3 again, it becomes a linearly polarized light 24 parallel to the vertical direction. Since the linearly polarized light 24 is polarized in a direction perpendicular to the polarization axis of the polarizing plate 4, it cannot pass through the polarizing plate 4. Therefore, this reflected light cannot be observed on the viewing side.

Further, it is known that an organic EL display device as described above in which a circularly polarizing plate is arranged on an organic EL display panel is a self-luminous element and has a wide viewing angle, unlike a liquid crystal display panel.
Japanese Patent Laid-Open No. 9-127858

  However, when the organic EL display device is used for an in-vehicle instrument panel or the like, there has been a demand to make the display visible only on the driver seat side or the passenger seat side. In particular, on the driver's seat side, since the display is viewed from above the front of the organic EL display device, there has been a demand for setting a position where it can be viewed well above the front of the organic EL display device. Here, the angle at which the position that can be visually recognized is inclined with respect to the organic EL display device from the vertical direction is referred to as the maximum transmittance angle.

  Further, in the organic EL display device in which the circularly polarizing plate is disposed, the reflected light is prevented from being emitted, and the cathode electrode of the non-light emitting portion does not look like a mirror surface. However, the contrast of the image of the light emitting portion is not significantly improved.

  An object of the present invention is to provide an organic EL display device in which the viewing angle is limited, the reflection luminance of a non-light emitting portion is further reduced, and the image contrast is further improved.

To solve this problem,
According to the first aspect of the present invention, there is provided a field limiting film in which a retardation plate, a polarizing plate, and a plurality of louvers are arranged on the viewing side of an organic EL display panel in which a plurality of pixels are arranged. This is an organic EL display device.

  According to a second aspect of the present invention, the louver pitch axis, which is the longitudinal direction of the louvers of the visual field limiting film, is inclined at an angle of 1 to 15 degrees with respect to the pixel pitch axis, which is the pixel arrangement direction of the organic EL display panel. The organic EL display device according to claim 1, wherein a visual field limiting film is disposed.

  The invention according to claim 3 is the organic EL display device according to claim 1, wherein a diffusion layer is further provided between the organic EL display panel and the visual field limiting film.

  The invention according to claim 4 is the organic EL display device according to claim 3, wherein the diffusion layer is made of a scattering film or formed by subjecting the surface of the polarizing plate to anti-glare treatment.

  According to the organic EL display device of the present invention, the viewing angle is limited by providing the viewing limit film on the viewing side of the organic EL display panel, and the maximum transmittance angle is inclined from the vertical direction with respect to the organic EL display device. In addition, the reflection luminance of the non-light emitting portion can be further reduced, and the contrast of the image can be further improved.

  Hereinafter, an example of an organic EL display device according to an embodiment of the present invention will be described with reference to the drawings.

[First Embodiment]
FIG. 1 is a schematic cross-sectional view of an organic EL display device 1 according to this embodiment. The organic EL display device 1 according to the present embodiment is generally configured from an organic EL display panel 2, a phase difference plate 3, a polarizing plate 4, and a field limiting film 5. In the present embodiment, the phase difference plate 3, the polarizing plate 4, and the field limiting film 5 are laminated in this order on the viewing side surface of the organic EL display panel 2.

  The organic EL display panel 2 is obtained by sealing two glass substrates with a sealing material. In the two glass substrates, a laminate in which an organic light emitting layer or the like as an electrode or a self-luminous source is laminated is provided as a partition wall. An organic EL element that is divided into pixels to form a pixel is provided.

  The phase difference plate 3 is provided on the surface of the glass substrate corresponding to the viewing side of the organic EL display panel 2. As the retardation film 3, a known retardation film having a thickness of 20 to 100 μm can be used. For example, a film made of a polymer material such as polycarbonate (PC), polyvinyl alcohol (PVA), polyarylate (PA), polysulfone (Psu), polyolefin (PO), etc. is uniaxially stretched, and the stretching direction and its right angle depend on the stretching ratio. Examples include those in which the refractive index in the direction and the film thickness are adjusted to control the retardation value. There are retardation plates for ½λ and ¼λ, but for the point of preventing emission of reflected light from the surface of the organic EL display panel 2, the retardation plate is preferable.

  A polarizing plate 4 is provided on the phase difference plate 3. As the polarizing plate 4, a known polarizing plate having a thickness of 100 to 300 μm can be used. For example, what laminated | stacked the polarizer obtained by dye | staining a polyvinyl alcohol (PVA) film with an iodine, dye, etc. and uniaxially stretching with a support body, such as a triacetate film, etc. are mentioned. The phase difference plate 3 and the polarizing plate 4 are collectively referred to as a circular polarizing plate 10.

  On the polarizing plate 4, a visual field limiting film 5 is provided. FIG. 2 is a schematic perspective view of the visual field limiting film 5 used in this embodiment. In the figure, the front side of the paper corresponds to the viewing side. The field-of-view limiting film 5 is formed by arranging flat louvers 6, 6,... Made of an opaque material in parallel at equal intervals between flat sheets 7, 7 made of polycarbonate resin. It is embedded in a film made of a permeable material.

  A known film can be used as such a field limiting film. For example, VCF (trade name) manufactured by Shin-Etsu Polymer Co., Ltd. can be used. In FIG. 2, the symbol P represents the louver pitch and means the arrangement interval between the louvers 6 and 6 arranged in parallel. Reference numeral 21 represents a louver pitch axis, and the louver pitch axis means a direction parallel to the longitudinal direction of the louvers 6, 6.

  As shown in FIG. 1, the characteristic of the field limiting film 5 is that the louver 6 is an angle at which the louver 6 is inclined from the vertical direction (thickness direction) with respect to the sheet 7 of the field limiting film 5. ”Corresponds to a position where light is most transmitted and can be seen well, and“ highest transmittance angle β ”, which is an angle inclined from the vertical direction with respect to the field-limiting film 5, is visually observed from above the field-limiting film 5. The viewing angle is limited by the “visible angle α” and the louver pitch P.

  The maximum transmittance angle β is dependent on the louver angle θ. When the louver angle θ is 0 °, the maximum transmittance angle β is also 0 °. In this embodiment, since the organic EL display device 1 is intended to be used for an in-vehicle instrument panel or the like, the direction inclined by 5 to 25 ° from the vertical direction with respect to the organic EL display device 1 is determined by the driver or the like. It is preferable to set the maximum transmittance angle β to 5 to 25 ° so that the best visible position can be obtained.

  For this purpose, the louver angle θ is preferably 5 to 20 °. By setting the louver angle θ and the maximum transmittance angle β within the above range, the direction inclined by 5 to 25 ° from the vertical direction with respect to the organic EL display device 1 may be set as a position where the display can be most visually recognized. it can.

  In addition, the visible angle α has a relationship depending on the thickness of the visual field limiting film 5, that is, the length of the louver and the louver pitch P. When the visual field limiting film 5 is thick, the visible angle α becomes narrow. Further, when the louver pitch P is wide, the visible angle α becomes wide.

  In the present embodiment, since the organic EL display device 1 is intended to be used for an in-vehicle instrument panel or the like, for example, in order to limit the field of view from a place other than the driver's seat side, the visible angle α is 60 to 90. It is preferable to be °. For this purpose, the thickness of the visual field limiting film 5 is preferably 0.9 to 1.0 mm. The louver pitch P is preferably 100 to 250 μm.

  In this embodiment, the visual field limiting film 5 is disposed in the uppermost layer of the organic EL display device 1, but between the organic EL display panel 2 and the phase difference plate 3 and between the phase difference plate 3 and the polarizing plate 4. In addition, a visual field limiting film 5 may be provided.

  In the organic EL display device 1 of the present embodiment, the viewing angle can be limited by providing the viewing restriction film 5 on the viewing side of the organic EL display panel 2 and setting the visible angle α within the above range. Further, by setting the louver angle θ within the above range, the maximum transmittance angle β can be tilted with respect to the organic EL display device 1 from the vertical direction.

  Further, in the organic EL display device 1 of the present embodiment, since the retardation plate 3 and the polarizing plate 4 are provided on the viewing side of the organic EL display panel 2, the reflected light on the surface of the cathode electrode of the organic EL display panel 2. , And the cathode electrode surface of the non-light emitting portion can be prevented from shining like a mirror surface. Further, by providing the field limiting film 5, the reflection luminance of the non-light emitting portion is further reduced. The image becomes darker and the contrast of the image can be further improved.

  The organic EL display device 1 of the present embodiment can be manufactured by sticking the retardation plate 3, the polarizing plate 4, and the visual field limiting film 5 to the viewing side surface of the organic EL display panel 2.

[Second Embodiment]
FIG. 3 is an exploded perspective view showing an arrangement relationship between the organic EL display panel 2 and the field-of-view restriction film 5 of the organic EL display device according to the present embodiment. In this organic EL display device, the entire field limiting film 5 is rotated so that the louver pitch axis 21 of the field limiting film 5 is inclined by 1 to 15 ° with respect to the pixel pitch axis 20 of the organic EL display panel 2. Since it is the same as that of 1st Embodiment except having arrange | positioned the visual field restriction | limiting film 5 in the inside, the description is abbreviate | omitted.

  The pixel pitch represented by the symbol L shown in FIG. 3 means the arrangement distance between the pixels 11, 11..., And if the organic EL display panel is the same size, a finer pixel pitch gives a finer image. Can be displayed. Also, the pixel pitch axis represented by reference numeral 20 means a direction perpendicular to the direction representing the arrangement distance between the pixels 11, 11... Formed on the organic EL display panel 2.

  In this embodiment, the louver pitch P of the visual field limiting film 5 is 130 μm, and the pixel pitch L of the pixels 11, 11... Of the organic EL display panel 2 is 320 μm. In this case, when the field-of-view restriction film 5 is disposed so that the pixel pitch axis 20 of the organic EL display panel 2 and the louver pitch axis 21 of the field-of-view restriction film 5 are parallel to each other, moire may occur due to mutual interference. . Moire is a periodic striped pattern formed by pixels interfering with each other when regular patterns are superimposed on an image or the like. When moiré occurs, the display is blurred, which is not preferable.

  Therefore, by rotating the entire field limiting film 5, the field limiting film 5 is arranged at an angle γ at which the louver pitch axis 21 of the field limiting film 5 is inclined by 1 to 15 ° with respect to the pixel pitch axis 20 of the organic EL display panel 2. By doing so, the mutual interference shifts, so that the generated moire can be eliminated.

[Third Embodiment]
FIG. 4 is a schematic cross-sectional view of the organic EL display device 1 according to this embodiment. The organic EL display device 1 according to the present embodiment is the same as that of the first embodiment except that a diffusion layer 8 is further provided between the organic EL display panel 2 and the field-of-view restriction film 5, and therefore the description thereof is omitted. Is omitted. In the present embodiment, the diffusion layer 8, the phase difference plate 3, the polarizing plate 4, and the field limiting film 5 are laminated in this order on the viewing side surface of the organic EL display panel 2.

  As described in the second embodiment, when the field-of-view restriction film 5 is arranged so that the pixel pitch axis 20 of the organic EL display panel 2 and the louver pitch axis 21 of the field-of-view restriction film 5 are parallel, moire occurs. There is a case. In order to eliminate this moire, unlike the second embodiment, a diffusion layer 8 may be provided between the organic EL display panel 2 and the field limiting film 5.

  The diffusion layer 8 has a haze value of 30 to 80 from the viewpoint of scattering light from the organic EL display panel 2 and shifting the phase to prevent interference when passing through the field-of-view restriction film 5 to eliminate moire. It is preferable that it is 40-70.

  The haze value is a numerical value representing the degree of an unclear and cloudy appearance, and is defined by (scattered light transmittance / total light transmittance) × 100. The larger the numerical value, the more the diffusion layer 8 appears cloudy. By setting the haze value of the diffusion layer 8 to 30 to 80, the generated moire can be eliminated and the display can be clearly seen without blurring.

  As such a diffusion layer 8, a layer structure formed by adding fine particles in an adhesive, a scattering film in which fine particles are added in a transparent resin, an embossed transparent resin film, ground glass, or the like is used. Can do. For example, a scattering film made by Sankyo Screen can be used. Alternatively, the surface of the polarizing plate 4 can be antiglare treated to form a diffusion layer. Anti-glare treatment means that the surface of the polarizing plate 4 is roughened by etching or the like. Among these, the diffusion layer 8 is preferably made of a scattering film or formed by subjecting the surface of the polarizing plate 4 to anti-glare treatment.

  By providing the diffusion layer 8 between the organic EL display panel 2 and the field limiting film 5, the light from the organic EL display panel 2 is scattered and out of phase, and passes through the field limiting film 5. Interference can be prevented and moire can be eliminated.

  In the present embodiment, the diffusion layer 8 is disposed between the organic EL display panel 2 and the phase difference plate 3, but between the phase difference plate 3 and the polarizing plate 4 or the polarizing plate 4 and the field limiting film 5. You may provide between.

  Hereinafter, the present invention will be described in more detail by way of examples. The present invention is not limited to the following examples.

[Example 1]
A retardation plate and a polarizing plate were stuck in this order on the viewing side surface of the organic EL display panel. On this polarizing plate, VC-609510 made by Shin-Etsu Polymer was arranged as a field-of-view restriction film, and an organic EL display device was produced. The visible angle of VC-609510 was 60 °, the louver angle was 10 °, the maximum transmittance angle was 11 °, the louver pitch was 130 μm, the film thickness was 1.0 mm, and the size was 260 mm × 300 mm. As a result, an organic EL display device with a viewing angle limited to a visible angle of 60 ° and a maximum transmittance angle of 11 ° was obtained.

Evaluation of the contrast of the image of the organic EL display device in Yokogawa M & C colorimeter 52002, and brightness B _B brightest display unit, and strength B _D of the reflected light of the ambient light from the darkest display unit the contrast ratio CR _{= B} B / B _D, was 35. At this time, moiré was observed.

[Example 2]
The pixel pitch of the organic EL display device of Example 1 was 320 μm. When the VC-609510 of Example 1 was rotated and the louver pitch axis of the VC-609510 was inclined by 15 ° with respect to the pixel pitch axis of the organic EL display panel, the moire disappeared.

[Example 3]
An organic EL display device was produced in the same manner as in Example 1 except that a scattering film (a diffusion layer manufactured by Sumitomo Chemical Co., Ltd., thickness 35 μm, haze value 45) was attached between the organic EL display panel and the retardation plate. The viewing angle at this time was the same as in Example 1. The contrast ratio CR _{= B} B / B _D is a 27, the moire was observed.

[Comparative Example 1]
A retardation plate and a polarizing plate were pasted in this order on the viewing side surface of the organic EL display panel to produce an organic EL display device. In this organic EL display device, the viewing angle is not limited. The contrast ratio CR was 18.

  From the above results, it was found that in the organic EL display devices of Examples 1 to 3 as compared with Comparative Example 1, the viewing angle was limited and the contrast ratio was improved to 1.5 to 2.0 times. Further, in the organic EL display device of Example 1, moire was generated, but in those of Examples 2-3, the moire was eliminated.

1 is a schematic cross-sectional view of an organic EL display device according to a first embodiment. It is a schematic perspective view of the visual field restriction film according to the first embodiment. It is the disassembled perspective view which showed the arrangement | positioning relationship between the organic electroluminescence display panel of the organic electroluminescence display which concerns on 2nd Embodiment, and a visual field restriction | limiting film. It is a schematic sectional drawing of the organic electroluminescence display which concerns on 3rd Embodiment. It is the schematic diagram explaining the light passage principle of a circularly-polarizing plate.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Organic EL display device 2 Organic EL display panel 3 Phase difference plate 4 Polarizing plate 5 Field-of-view restriction film 8 Diffusion layer 20 Pixel pitch axis 21 Louver pitch axis

Claims (4)

  An organic EL display device comprising a retardation plate, a polarizing plate, and a field-of-view film having a plurality of louvers arranged on the viewing side of an organic EL display panel on which a plurality of pixels are arranged.   The field-limiting film is disposed at an angle at which a louver pitch axis, which is a longitudinal direction of a louver of the field-limiting film, is inclined by 1 to 15 degrees with respect to a pixel pitch axis that is an arrangement direction of pixels of the organic EL display panel. 1. The organic EL display device according to 1.   The organic EL display device according to claim 1, wherein a diffusion layer is further provided between the organic EL display panel and the visual field limiting film. The organic EL display device according to claim 3, wherein the diffusion layer is made of a scattering film or formed by subjecting the surface of the polarizing plate to anti-glare treatment.

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