WO2013187058A1 - 面状照明装置及び面状照明装置を有する表示装置 - Google Patents
面状照明装置及び面状照明装置を有する表示装置 Download PDFInfo
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- WO2013187058A1 WO2013187058A1 PCT/JP2013/003680 JP2013003680W WO2013187058A1 WO 2013187058 A1 WO2013187058 A1 WO 2013187058A1 JP 2013003680 W JP2013003680 W JP 2013003680W WO 2013187058 A1 WO2013187058 A1 WO 2013187058A1
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- light
- prism
- prism sheet
- illumination device
- light source
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0011—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being planar or of plate-like form
- G02B6/0033—Means for improving the coupling-out of light from the light guide
- G02B6/005—Means for improving the coupling-out of light from the light guide provided by one optical element, or plurality thereof, placed on the light output side of the light guide
- G02B6/0053—Prismatic sheet or layer; Brightness enhancement element, sheet or layer
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0011—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being planar or of plate-like form
- G02B6/0033—Means for improving the coupling-out of light from the light guide
- G02B6/005—Means for improving the coupling-out of light from the light guide provided by one optical element, or plurality thereof, placed on the light output side of the light guide
- G02B6/0051—Diffusing sheet or layer
Definitions
- the present invention relates to a planar illumination device and a display device including the planar illumination device.
- a display device having a planar illumination device that irradiates light to a panel is widely adopted.
- the planar illumination device there is a backlight unit arranged on the back side of the display panel.
- Such a backlight unit is configured to irradiate the display panel with light from the back side of the display panel.
- An example of the display panel is a liquid crystal display panel.
- Patent Document 1 discloses a light guide plate, a diffusion plate placed on the upper surface of the light guide plate, and the diffusion for the purpose of proposing a display having a wide viewing angle in a predetermined direction and high brightness.
- a backlight unit having two prism sheets installed on the upper surface of the plate is disclosed. Each of these two prism sheets has a large number of prisms on the upper surface.
- the light condensing property of one prism sheet having a prism extending perpendicular to a direction that requires a wide viewing angle is set lower than the light condensing property of the other prism sheet. It is also disclosed that the prisms of these two prism sheets are arranged orthogonal to each other.
- Patent Document 1 The structure disclosed in Patent Document 1 is considered to be effective in the case of a configuration in which light is emitted in a direction perpendicular to the light emission surface of the light guide plate.
- the structure of the planar illumination device that can be expected to obtain sufficient outgoing light obliquely upward with respect to the light exit surface of the planar illumination device is disclosed.
- a structure of a planar illumination device that can be expected to obtain necessary emitted light not only in an obliquely upward direction but also in a vertical direction with respect to the light exit surface of the planar illumination device.
- a display device having a planar illumination device according to an embodiment of the present invention, which can set a wide angle range (viewing angle) in which display contents can be clearly seen, is disclosed.
- a light guide plate having an upper surface as a light emitting surface, a lower surface opposite to the upper surface, a peripheral side surface extending between a peripheral edge of the upper surface and a peripheral edge of the lower surface, and a peripheral side surface of the light guide plate
- a light source having a light emitting surface arranged facing the first side surface, and a center line passing through the center of the light emitting surface of the light source is perpendicular to the first side surface of the peripheral side surface of the light guide plate
- a light source extending to the upper surface, a lower surface on the opposite side of the upper surface, a peripheral surface extending between the peripheral edge of the upper surface and the peripheral edge of the lower surface, and a prism on the lower surface facing the upper surface of the light guide plate
- a first prism sheet having a prism ridge line disposed on the lower surface extending in parallel with a center line of a light emitting surface of the light source, an upper surface as a light emitting surface, a lower surface opposite to the upper surface,
- the ridge line of the prism of the second prism sheet extends substantially perpendicular to the center line of the light emitting surface of the light source.
- the light source may be arranged not only on the first side surface of the light guide plate but also on the second side surface located on the opposite side of the first side surface of the light guide plate.
- planar illumination device may include a light diffusion sheet disposed between the first prism sheet and the second prism sheet.
- the light diffusion sheet has an anisotropic diffusion coefficient that diffuses light more in a direction perpendicular to the center line of the light exit surface of the light source than in a direction parallel to the center line of the light exit surface of the light source. ing.
- the planar illumination device may include a viewing angle control filter having a louver and disposed on the second prism sheet.
- the louvers of the viewing angle control filter and the ridgelines of the prisms of the second prism sheet are arranged at an angle with respect to each other when viewed from above.
- a display device comprising a planar illumination device according to an aspect of the present invention, a display panel having an upper surface as a light emitting surface, and a lower surface facing the planar illumination device.
- the planar illumination device can be expected to obtain sufficient outgoing light not only in a direction perpendicular to the light emission surface of the planar illumination device but also in an oblique direction.
- the structure of is disclosed.
- a display device having a planar illumination device according to an embodiment of the present invention, which can set a wide angle range (viewing angle) in which display contents can be clearly seen, is disclosed. . Therefore, it is possible to use the mode disclosed by the present invention for a display device in which the display panel of the display device may be viewed from different positions and / or directions.
- FIG. 1st Embodiment of the planar illuminating device which concerns on this invention, it is a disassembled perspective view which shows the backlight unit as a planar illuminating device.
- the expanded sectional view of the principal part of the planar illuminating device shown by FIG. 1 is shown.
- FIG. 2 shows an enlarged cross-sectional view of a main part of a first embodiment of a display device having the planar illumination device and a display panel provided above the planar illumination device.
- 5 is a graph showing the directivity of emitted light in the X direction and the Y direction orthogonal to each other in the planar illumination device according to the first embodiment of the present invention.
- FIG. 5 shows an enlarged cross-sectional view of the main part in a second embodiment of a display device having this planar illumination device and a display panel provided above the planar illumination device.
- the planar illumination device of 3rd Embodiment it is a graph which compares the directivity of the emitted light with the Y direction set to the light emission angle narrower than X direction and X direction.
- planar illuminating device of 3rd Embodiment it is a top view which shows the relationship between the louver of a viewing angle control filter and the ridgeline of the prism of a 2nd prism sheet in planar view.
- planar illuminating device which concerns on this invention, it is a disassembled perspective view which shows the backlight unit as a planar illuminating device.
- 5th Embodiment of the planar illuminating device which concerns on this invention, it is a disassembled perspective view which shows the backlight unit as a planar illuminating device.
- the term “and / or” includes one or more of the associated listed items, or one or more combinations, or any combination thereof. Further, the terms used in the present specification are used for the purpose of describing the respective embodiments, and are not intended to limit the present invention.
- FIG. 1 is an exploded perspective view showing a backlight unit as a planar lighting device in the first embodiment of the planar lighting device according to the present invention.
- the planar illumination device 1 shown in FIG. 1 includes an upper surface 2a as a light emitting surface, a lower surface 2b opposite to the upper surface 2a, and a peripheral side surface 2c extending between the periphery of the upper surface 2a and the periphery of the lower surface 2b.
- a light source 3 having a light emitting surface 3a disposed facing the first side surface 2ca of the peripheral side surface 2c of the light guide plate 2 and passing through the center of the light emitting surface 3a of the light source 3, and the light guide plate Among the two peripheral side surfaces 2c, the light source 3 with the center line L extending perpendicularly to the first side surface 2ca, the upper surface 4a as the light emitting surface, and the lower surface 4b opposite to the upper surface 4a (shown in FIG. 2) ) And a peripheral side surface 4c extending between the periphery of the upper surface 4a and the periphery of the lower surface 4b.
- the lower surface 4b is a first prism sheet 4 having a prism 40 on the lower surface 4b facing the upper surface 2a of the light guide plate 2.
- the ridge line of the prism 40 extends in parallel with the center line L of the light emitting surface 3a of the light source 3.
- the prism sheet 4 has an upper surface 6a as a light emitting surface, a lower surface 6b opposite to the upper surface 6a, and a peripheral side surface 6c extending between the periphery of the upper surface 6a and the periphery of the lower surface 6b.
- a second prism sheet 6 positioned on the first prism sheet 4.
- the light emitting surface 3 a of the light source 3 is a surface that is disposed to face the first side surface 2 ca of the light guide plate 2 and emits light emitted from the light source 3 into the light guide plate 2.
- the center line L passing through the center of the light emitting surface 3a of the light source 3 is a virtual line passing through the center of the light emitting surface 3a perpendicular to the light emitting surface 3a of the light source 3, and the tip of the extended center line L is It is shown as an imaginary line that enters perpendicularly to the first side surface 2 ca of the light guide plate 3 and extends straight in the light guide plate 2 as it is.
- the light guide plate 2 receives the light emitted from the light emitting surface 3 a of the light source 3 by the first side surface 2 ca of the light guide plate 2, changes the optical path of the light propagating through the light guide plate 2, and serves as a light emitting surface of the light guide plate 2. It is the plate-shaped or sheet-shaped light guide comprised so that it may radiate
- the first prism sheet 4 has, on the lower surface 4b, a prism 40 extending in parallel with the center line L of the light emitting surface 3a of the light source 3, that is, the light propagation direction in the light guide plate 2. Therefore, when the light emitted from the upper surface 2a of the light guide plate 2 is received by the slope of the prism 40 of the first prism sheet 4, the light is refracted and directed in two directions. That is, the light is directed in two directions perpendicular to the center line L of the light emitting surface 3a of the light source 3 in plan view. As a result, the light transmitted through the first prism sheet 4 becomes light having two peaks of the light intensity distribution above two directions perpendicular to the center line L of the light emitting surface 3a of the light source 3.
- the second prism sheet 6 has a prism 60 with a ridgeline 60a extending substantially perpendicular to the center line L of the light emitting surface 3a of the light source 3, that is, the light propagation direction in the light guide plate, on the upper surface 6a. ing. Therefore, it is expected that the light spread in two directions received by the lower surface 6b of the second prism sheet 6 is emitted upward while being condensed in the direction Y parallel to the center line L of the light emitting surface 3a of the light source 3. I can do it. As a result, the planar light source device 1 can obtain emitted light with a wider angle and higher intensity in the direction X orthogonal to the light propagation direction of the light guide plate 2 while realizing light with high luminance.
- the ridge line 60a of the prism 60 of the second prism sheet 6 extends substantially perpendicular to the center line L of the light emitting surface 3a of the light source 3.
- substantially perpendicular to the center line L means an angle range including 90 degrees ⁇ 2 to 3 degrees with respect to the center line L.
- the prism shape of the 1st prism sheet 4 and the 2nd prism sheet 6 can set the angle of an apex angle according to the angle etc. of the emitted light required.
- the prism 40 of the first prism sheet 4 and the prism 60 of the second prism sheet 6 are disposed so as to extend at an angle with respect to each other when viewed from above.
- the prism 40 of the first prism sheet 4 and the prism 60 of the second prism sheet 6 are disposed so as to extend orthogonal to each other when viewed from above.
- the prism 40 of the first prism sheet 4 is provided on the lower surface 4 b of the first prism sheet 4, and the prism 60 of the second prism sheet 6 is provided on the upper surface 6 a of the second prism sheet 6.
- the light guide plate 2 may be made of a translucent resin material such as polycarbonate resin or acrylic resin.
- you may provide a white dot and / or a prism in the upper surface 2a and / or lower surface 2b which are the light emission surfaces of the light-guide plate 2.
- FIG. White dots can be provided by printing. The white dots can be adjusted in intensity according to the light path and / or the direction of light emitted from the upper surface 2a of the light guide plate 2 by changing the size, density, position, and the like.
- the intensity of outgoing light can be adjusted according to the optical path and / or the outgoing direction from the upper surface 2a of the light guide plate 2 by changing the number and interval of the prisms and the angle of the prism inclined surface. It is. Note that the light guide plate 2 disclosed in the present embodiment is set so that light is strongly emitted obliquely upward from the upper surface 2a, which is a light emission surface, that is, upwardly inclined in the light propagation direction in the light guide plate. .
- the planar light source device 1 may further include a light diffusing sheet 5 disposed between the first prism sheet 4 and the second prism sheet 6.
- a light diffusing sheet 5 disposed between the first prism sheet 4 and the second prism sheet 6.
- the light diffusion sheet 5 can be made of a transparent resin such as acrylic resin, polycarbonate resin, or polyethylene terephthalate (PET).
- diffusing particles such as silica particles may be dispersed in the transparent resin.
- the light diffusing sheet 5 may have a structure having a groove having a V-shaped cross section and / or a lenticular groove extending in parallel to the center line L of the light emitting surface 3a of the light source 3. Further, the light diffusion sheet 5 is an anisotropic material that diffuses light at a wider angle in a direction perpendicular to the center line L of the light emitting surface 3a of the light source 3 than in a direction parallel to the center line L of the light emitting surface 3a of the light source 3. It may be configured to have a diffusion coefficient.
- light is emitted from the light emitting surface 2a of the light guide plate 2 in an upward oblique direction (an upward oblique direction inclined toward the propagation direction of light from the light source 3 in the light guide plate 2).
- an upward oblique direction an upward oblique direction inclined toward the propagation direction of light from the light source 3 in the light guide plate 2.
- it can be expected to obtain emitted light having a wide angle and high intensity in the X direction.
- the light source 3 may be mounted on a substrate.
- a plurality of light sources 3 are arranged along the first side surface 2 ca of the light guide plate 2.
- 2 may be an elongated substrate extending along the first side surface 2ca of the light guide plate 2.
- the light source 3 is mounted on the substrate 3b on the surface opposite to the light emitting surface 3a.
- a reflection sheet 7 may be disposed under the light source 3.
- the reflection sheet 7 can also have a structure extending so as to cover the lower surface 2 b of the light guide plate 2.
- a film provided with a silver vapor deposition film can be used.
- An aluminum metal vapor deposition film may be used.
- the reflection sheet 7 is supported and / or attached to a holder and / or a frame (not shown) together with the prism sheet described above. In FIG. 1, the substrate 3b is omitted.
- the light source 3 may have a configuration in which light emitting diodes (LEDs) are arranged in a line. Moreover, it is good also as a structure which arrange
- a fluorescent lamp can be arranged. It is also possible to arrange an LED that emits white light as the light source 3.
- the LED that emits white light may be, for example, a combination of an LED element that is a semiconductor light emitting element and a phosphor layer.
- the LED element for example, a blue light emitting (wavelength range example ⁇ : 470 to 490 nm) LED element or an ultraviolet light emitting (wavelength range example ⁇ : 220 to less than 470 nm) LED element can be used.
- a substrate in which a plurality of semiconductor layers of a gallium nitride compound semiconductor (for example, an InGaN compound semiconductor) are stacked over an insulating substrate such as a sapphire substrate can be used.
- the semiconductor light emitting element may be sealed with a light transmitting resin such as a silicone resin.
- a phosphor that is excited by light emitted from the LED element may be mixed in a resin that seals the LED element. It is also possible to adopt a structure in which a phosphor layer positioned in parallel with the light emitting surface 3a of the light source 3 is provided.
- the phosphor excited by the light from the LED element as described above can be selected from various types of phosphors such as a YAG phosphor and an RGB phosphor.
- a light source that emits white light various combinations of light emitting elements and / or phosphors such as a combination of light emitting elements that emit light in different wavelength regions can be adopted.
- FIG. 2 shows an enlarged cross-sectional view of a main part of the planar lighting device shown in FIG.
- FIG. 2 shows an enlarged cross-sectional view of a main part of a first embodiment of a display device having this planar illumination device and a display panel provided above the planar illumination device.
- the display device 10 of the present embodiment is arranged as a backlight unit on the display panel 11 and on the opposite side of the display surface of the display panel 11 (on the lower surface 11b side of the display panel 11 in FIG. 2).
- the above-mentioned planar illumination device 1 is provided. These members are housed and / or supported in a support housing (not shown).
- the display surface 11 a of the display panel 11 and the upper surface 6 a of the light emitting surface of the planar illumination device 1 are described.
- a transmissive or transflective liquid crystal display panel may be adopted.
- a transmissive liquid crystal display panel a panel body in which a liquid crystal material is sealed with a sealing material is provided in a gap between an upper substrate and a lower substrate each having a transparent electrode, an alignment film, and a polarizing plate.
- a panel body system there are a TFT liquid crystal system, an STN liquid crystal system, a TN liquid crystal system, and the like.
- the planar light emitting device of the present embodiment discloses a structure in which a light diffusion sheet 5 is disposed between a first prism sheet 4 and a second prism sheet 6. Therefore, the light directed in two directions by the first prism sheet 4 is diffused by the light diffusion sheet 5 while maintaining the overall directionality and is incident on the second prism sheet 6. A part of the light incident on the second prism sheet 6 is reflected downward when entering the second prism sheet 6. The reflected light enters the light diffusion sheet 5 again, is diffused again, and is returned to the second prism sheet 6. Therefore, if the diffusibility of the light that becomes the emitted light is improved, the light intensity on the light emitting surface of the planar illumination device is also improved.
- FIG. 3 shows a result of producing a planar illumination device according to the first embodiment of the planar illumination device according to the present invention and measuring the directivity of emitted light of the planar illumination device.
- a direction (bidirectional arrow X in FIG. 1) orthogonal to the center line L of the light emitting surface 3a of the light source 3 and a direction parallel to the center line L of the light emitting surface 3a of the light source 3 (bidirectional arrow in FIG. 1).
- the directivity of the emitted light from the planar illumination device to Y) was measured and compared.
- the output light that achieves a wide viewing angle in the direction of the double-headed arrow X is ensured while maintaining the light intensity.
- the directivity of the emitted light of the planar illumination device in the direction of the double arrow X is the present invention. It is conceivable that the directivity in the direction of the double arrow Y in this embodiment is almost the same as or narrower than this.
- planar illumination device 1 When the planar illumination device 1 according to the present embodiment is used in a display device 10 as shown in FIG. 2, a display device having different viewing angles depending on directions in the vertical direction and the horizontal direction of the display panel 11 of the display device is realized. I can do it.
- the present invention can be used in a car navigation system that requires display screens having different viewing angles in the vertical direction and the horizontal direction, and a display device such as a TV. This is because a situation where a plurality of persons view one display panel from different positions and / or directions can be considered. (Second Embodiment)
- FIG. 4 is an exploded perspective view showing a backlight unit as the planar illumination device in the second embodiment of the planar illumination device according to the present invention.
- the light source is disposed to face the two side surfaces 2ca and 2cb of the peripheral side surface 2c of the light guide plate 2.
- the planar illumination device 1 ′ includes an upper surface 2a as a light emitting surface, a lower surface 2b opposite to the upper surface 2a, a peripheral edge of the upper surface 2a, and a lower surface 2b.
- a light source as a first light source having a light guide plate 2 having a peripheral side surface 2c extending between the peripheral edges of the light guide plate 2 and a light emitting surface 3a arranged facing the first side surface 2ca among the peripheral side surfaces 2c of the light guide plate 2 3 and a light source 3 ′ as a second light source having a light emitting surface 3 a ′ arranged facing the second side surface 2 cb of the peripheral side surface 2 c of the light guide plate 2.
- the second side surface 2cb is located on the opposite side of the first side surface 2ca.
- the light emitting surface of the light source is a surface that is disposed to face the side surface of the light guide plate and emits light emitted from the light source into the light guide plate.
- the center line L (L ′) of the light emitting surface of the light source is a virtual line passing through the center of the light emitting surface perpendicular to the light emitting surface of the light source, and the extended tip is perpendicular to the side surface of the light guide plate. And is illustrated as a virtual line extending straight in the light guide plate 2 as it is.
- the direction of propagation in the light guide plate 2 is shown.
- the center line L ′ of the light emitting surface 3 a ′ of the second light source 3 ′ indicates the direction in which the light emitted from the light emitting surface 3 a ′ of the second light source 3 ′ propagates in the light guide plate 2.
- the light propagation directions from the first light source 3 and the second light source 3 ' are opposite to each other.
- the direction parallel to the center line L of the light emitting surface 3a of the first light source 3 is also parallel to the center line L 'of the light emitting surface 3a' of the second light source 3 '.
- the direction perpendicular to the center line L of the light emitting surface 3a of the first light source 3 is also the direction perpendicular to the center line L 'of the light emitting surface 3a' of the second light source 3 '.
- the planar illumination device 1 ′ includes an upper surface 4a as a light emitting surface, and a lower surface 4b opposite to the upper surface 4a, A first prism sheet 4 having a prism 40 on the lower surface 4b facing the upper surface 2a of the light guide plate and having a peripheral side surface 4c extending between the periphery of the upper surface 4a and the periphery of the lower surface 4b.
- the first prism sheet 4 whose ridge line extends parallel to the center line L of the light emitting surface 3a of the light source 3, the upper surface 6a as the light emitting surface, the lower surface 6b opposite to the upper surface 6a, the peripheral edge 6c and the lower surface 6b of the upper surface 6a.
- a second prism sheet 6 having a peripheral side surface 6c extending between the peripheral edges of the first prism sheet 6 and a prism 60 on the upper surface 6a, the second prism sheet 6 being located on the first prism sheet 4. Yes.
- the planar light source device 1 ′ may further include a light diffusion sheet 5 disposed between the first prism sheet 4 and the second prism sheet 6.
- the second embodiment it is possible to switch the light propagation direction by switching the lighting of the first light source 3 and the second light source 3 ′. Further, if the first light source 3 and the second light source 3 ′ are turned on simultaneously, it can be expected to obtain emitted light having a higher intensity at a wider angle. (Third embodiment)
- FIG. 5 shows an enlarged cross-sectional view of a main part of a planar illumination device according to the third embodiment of the present invention.
- FIG. 5 is an enlarged cross-sectional view of the main part of a second embodiment of the display device 20 having the planar illumination device 21 and the display panel 11 provided above the planar illumination device 21. Show.
- planar illumination device 21 of the third embodiment further includes a viewing angle control filter 27 disposed on the second prism sheet 6.
- the planar illumination device 21 includes a top surface 2a as a light emitting surface, a bottom surface 2b opposite to the top surface 2a, and a peripheral side surface extending between the periphery of the top surface 2a and the periphery of the bottom surface 2b.
- a light source 3 having a light emitting surface 3a disposed facing the first side surface 2ca among the peripheral side surfaces 2c of the light guide plate 2 and passing through the center of the light emitting surface 3a of the light source 3, Of the peripheral side surface 2c of the light guide plate 2, a light source 3 having a center line extending perpendicularly to the first side surface 2ca, an upper surface 4a as a light emitting surface, a lower surface 4b opposite to the upper surface 4a, and an upper surface
- the first prism sheet 4 having a prism 40 on the lower surface 4b facing the upper surface 2a of the light guide plate 2 and having a peripheral side surface 4c extending between the peripheral edge of 4a and the lower surface 4b.
- the ridge line extends in parallel with the center line L of the light emitting surface 3 a of the light source 3.
- the prism sheet 4 has an upper surface 6a as a light emitting surface, a lower surface 6b opposite to the upper surface 6a, and a peripheral side surface 6c extending between the periphery of the upper surface 6a and the periphery of the lower surface 6b.
- a second prism sheet 6 located on the first prism sheet 4. It is disclosed that the ridge line 60 a of the prism 60 of the second prism sheet 6 extends substantially perpendicular to the center line L of the light emitting surface 3 a of the light source 3.
- the planar illumination device 21 of the present embodiment has a louver 27 a and a viewing angle control filter 27 disposed on the second prism sheet 6.
- the apex angle of the prism 60 of the second prism sheet 6 included in the planar device 20 of the present embodiment is set to be greater than 90 degrees.
- FIG. 7 is a plan view showing the relationship between the louver 27a of the viewing angle control filter 27 and the ridge line 60a of the prism 60 of the second prism sheet 6 in the planar view in the planar illumination device 20 of the third embodiment.
- the louver 27a of the viewing angle control filter 27 and the ridge line 60a of the prism 60 disposed on the upper surface 6a of the second prism sheet 6 are arranged so as to intersect with each other at an angle when viewed from above. . 7 indicates the ridgeline of the prism 60.
- the viewing angle control filter 27 is a sheet-like optical film obtained by laminating a film having a louver structure with a base layer such as a PET (polyethylene terephthalate) film.
- a light control film manufactured by 3M (registered trademark) can be used as the viewing angle control filter 27.
- the plurality of louvers 27 a extend with a slight inclination with respect to a direction (wide-angle light emission direction X) orthogonal to the central axis L of the light emitting surface 3 a of the light source 3.
- the viewing angle control filter 27 that controls the visible range is arranged on the second prism sheet 6 by arranging the plurality of louvers 27a, the viewing angle control filter 27 is arranged more than the wide-angle light emission direction X.
- the narrow-angle light emission direction Y where the light directivity is narrow the light emitted in directions other than the desired direction is controlled.
- the wide-angle light emission direction X maintains the wide-angle light emission as it is. Accordingly, it is possible to realize a display device that is set so that light does not leak in a direction other than a desired direction while maintaining a wide viewing angle.
- the apex angle of the prism 60 of the second prism sheet 6 is set to be larger than 90 degrees, the light emission direction is inclined, so that the light directivity in the narrow-angle light emission direction Y is shown in FIG.
- the sex peak can be shifted.
- the peak of directivity is shifted by 10 degrees to 15 degrees, it is considered that the directivity peak is affected by the material of the second prism sheet 6, but in many cases, the prism provided on the upper surface 6a of the second prism sheet 6 is used.
- the apex angle of 60 is considered to be in the range of 100 degrees to 135 degrees.
- the louver 27a of the viewing angle control filter 27 and the ridge line 60a of the prism 60 disposed on the upper surface 6a of the second prism sheet 6 are disposed at an angle when viewed from above, so that the transmittance change And interference fringes can be suppressed. That is, when the louver 27a and the ridge line 60a of the prism 60 are parallel when viewed from above, the transmittance may change greatly due to a slight positional deviation between the louver 27a and the ridge line 60a of the prism 60. . In this case, interference fringes may be conspicuous due to a difference in arrangement interval between the louver 27a and the ridge line 60a of the prism 60.
- the louver 27a is disposed at an angle with respect to the ridge line 60a of the prism 60 disposed on the upper surface 6a of the second prism sheet 6. That is, it can be expected that the louver 27a and the ridge line 60a of the prism 60 are obliquely crossed with each other in plan view, thereby reducing the possibility of the transmittance change and the generation of interference fringes.
- the angle between the louver 27a and the ridge line 60a of the prism 60 in plan view can be up to 45 degrees, but the above improvement effect can be expected even at about 5 degrees.
- the planar lighting device 20 may have a protective layer 28 disposed on the upper surface 2 a of the light guide plate 2.
- the protective layer 28 can be a layer made of PET.
- the protective layer 28 may be a layer made of an elastomer. That is, when the first prism sheet 4 is made of an acrylic UV curable resin, the light guide plate 2 made of polycarbonate resin or acrylic resin may be damaged. Therefore, if the upper surface 2a of the light guide plate 2 has the protective layer 28 made of the above-described material, it can be a protective film for preventing damage. (Fourth embodiment)
- FIG. 8 is an exploded perspective view showing a backlight unit as the planar illumination device in the fourth embodiment of the planar illumination device according to the present invention.
- the planar illumination device 101 according to the fourth embodiment includes an upper surface 2a as a light emitting surface, a lower surface 2b opposite to the upper surface 2a, and a peripheral side surface 2c extending between the periphery of the upper surface 2a and the periphery of the lower surface 2b.
- a light source 3 having a light emitting surface 3a disposed facing the first side surface 2ca of the light guide plate 2 and the peripheral side surface 2c of the light guide plate 2 and passing through the center of the light emitting surface 3a of the light source 3.
- the light source 3 with the center line L extending perpendicularly to the first side surface 2ca, the upper surface 4a as the light emitting surface, the lower surface 4b opposite to the upper surface 4a, and the upper surface 4a
- the first prism sheet 4 has a prism 40 on the lower surface 4b facing the upper surface 2a of the light guide plate 2, and the prism 40 on the lower surface 4b is a light source.
- the first prism series extending in parallel with the center line L of the three light emitting surfaces 3a 4, a top surface 6 a as a light emitting surface, a bottom surface 6 b opposite to the top surface 6 a, a peripheral side surface 6 c extending between the periphery of the top surface 6 a and the periphery of the bottom surface 6 b, and a prism 60 on the top surface 6 a.
- a second prism sheet 6 positioned above the first prism sheet 4. It is disclosed that the prism 60 of the second prism sheet 6 extends substantially perpendicular to the center line L of the light emitting surface 3 a of the light source 3.
- the planar illumination device 101 according to the fourth embodiment of the present invention may be used in a display device in which the intensity of emitted light is somewhat suppressed in a direction perpendicular to the display surface depending on the application.
- the present embodiment discloses a structure in which no light diffusion sheet is provided between the first prism sheet 4 and the second prism sheet 6. Even in a structure in which the light diffusion sheet is not provided, the degree of directivity of light can be controlled by shifting the apex angle of the prism 40 of the first prism sheet 4 from 90 degrees.
- FIG. 9 is a graph showing the relationship between the apex angle of the prism 40 of the first prism sheet 4 and the intensity of emitted light from the light exit surface of the planar illumination device 101 of the fourth embodiment in the fourth embodiment. It is.
- FIG. 9 is a graph showing the relationship between the light distribution of the planar illumination device 101 as the backlight unit and the apex angle of the prism 40 included in the first prism sheet 4.
- 9A shows a case where the apex angle is 90 degrees or less (vertical angle is 60 degrees, 70 degrees, 90 degrees)
- FIG. 9B shows that the apex angle is 90 degrees or more (vertical angle is 90 degrees, 100 degrees, 110 degrees).
- the “intensity” on the vertical axis is the relative intensity of the emitted light
- the “angle” on the horizontal axis is perpendicular to the light emitting surface of the planar illumination device 101 shown in FIG.
- the angle in the X direction is shown with reference to the correct A line (0 degree).
- subjected to the curve which shows the directivity of emitted light has also shown the angle of the apex angle.
- FIG. 9A when the apex angle of the prism 40 of the prism sheet 4 is 90 degrees, the intensity of the emitted light is minimum at 0 degrees from the A-line, from 15 degrees to 40 degrees, from ⁇ 15 degrees to ⁇ The intensity of the emitted light is high at 40 degrees. This shows the directivity characteristics of the light in the two directions.
- the apex angle of the prism 40 of the prism sheet 4 is 80 degrees, the intensity of the emitted light is minimum at around 0 degrees from the A line, but the angle range and intensity of the emitted light are the same. It is somewhat larger than 90.
- the apex angle of the prism 40 of the prism sheet 4 is 70 degrees, the intensity of the emitted light is ensured to some extent at 0 degree from the A line, and the intensity of the emitted light is maximized at ⁇ 30 degrees.
- the intensity of the emitted light becomes maximum at 0 degrees from the A line, and the intensity of the emitted light is secured even at ⁇ 40 degrees.
- the apex angle of the prism 40 of the first prism sheet 4 may be set in the range of 80 degrees to 90 degrees. Further, when a wide-angle outgoing light including the 0 degree direction from the A line is required, the apex angle of the prism 40 of the first prism sheet 4 is set to a range of 60 degrees to 70 degrees or 100 degrees to 110 degrees. It ’s fine. That is, the planar illumination device 101 as the backlight unit can secure strong emission light in a wide angle including a direction perpendicular to the light emission surface even when no light diffusion sheet is provided.
- This planar illumination device does not use the light diffusion by the light diffusion sheet, but it is not necessary to consider the light loss due to the provision of the light diffusion sheet. As a result, the number of necessary members is reduced. Further, the first prism sheet 4 and the second prism sheet 6 may be integrally molded and arranged.
- the ridge line of the prism 40 of the first prism sheet 4 may be flattened and the cross section of the prism 40 may be trapezoidal.
- the light source 3 is disposed on the short side surface of the light guide plate 2, but when a wide screen is required and a wide viewing angle is required on the left and right as in a car navigation system.
- a light source may be arranged on the longer side of the light guide plate 2.
- FIG. 10 is an exploded perspective view showing a backlight unit as the planar illumination device in the fifth embodiment of the planar illumination device according to the present invention.
- the planar illumination device 101 ′ of the present embodiment further includes a light diffusion sheet 5 ′ disposed on the second prism sheet 6. It is.
- the light diffusing sheet 5 ′ is provided on the second prism sheet 6, the directivity of light is somewhat suppressed, but an effect of reducing the apparent luminance unevenness of the emitted light can be expected.
- the planar illumination device 1 according to the first embodiment shown in FIG. 1 and the planar illumination device 1 ′ according to the second embodiment are arranged between the first prism sheet 4 and the second prism sheet 6.
- planar illumination devices 1 (1 ′) may have a structure in which a second diffusion sheet 5 ′ is further disposed on the second prism sheet 6. As described above, the effect of reducing the apparent luminance unevenness of the emitted light can be expected.
- planar lighting device and the display device of the present invention are described as being applicable to a car navigation system, but applied to a backlight mechanism, a display device, or a lighting device of another device or device. It doesn't matter.
- backlight mechanisms and liquid crystal displays used in electronic devices such as mobile phones, PDAs, mobile type PCs (personal computers), notebook PCs, portable game machines, and portable music players, lighting for digital signage, and ceiling lights and bases It is also considered to adopt it for general lighting such as lights.
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Planar Illumination Modules (AREA)
Abstract
Description
また、視野角制御フィルタのルーバと第2プリズムシートのプリズムの稜線は、上方から見た場合に、互いに対して角度を持って配置されることが開示されている。
したがって、表示装置の表示パネルを違う位置および/もしくは方向から見る可能性のある表示装置に本発明が開示する態様を用いることが可能である。
(第1実施形態)
(第2実施形態)
(第3実施形態)
(第4実施形態)
2 導光板
3,3’ 光源
3a,3a’ 発光面
3b 基板
4 第1プリズムシート
5,5’ 光拡散シート
6 第2プリズムシート
7 反射シート
10 表示装置
11 表示パネル
27 視野角制御フィルタ
27a 視野角制御フィルタのルーバ
28 保護層
40 第1プリズムシートのプリズム
60 第2プリズムシートのプリズム
60a 第2プリズムシートのプリズムの稜線
L,L’ 光源の発光面の中心を通る中心線
Claims (12)
- 光出射面としての上面と、上面の反対側の下面と、上面の周縁と下面の周縁の間に延びる周側面とを有する導光板と、
導光板の周側面のうち、第1の側面に面して配置されて発光面を有する光源で、光源の発光面の中心を通る中心線が、その導光板の周側面のうち、第1の側面に対して垂直に延びる光源と、
光出射面としての上面と、上面の反対側の下面と、上面の周縁と下面の周縁の間に延びる周側面とを有し、導光板の上面と面する下面にはプリズムを有する第1プリズムシートで、下面のプリズムの稜線が光源の発光面の中心線に平行に延びる第1プリズムシートと、
光出射面としての上面と、上面の反対側の下面と、上面の周縁と下面の周縁の間に延びる周側面とを有し、上面にプリズムを有する第2プリズムシートであって、第1プリズムシートの上に位置する第2プリズムシートと、を備え
第2プリズムシートのプリズムの稜線は、光源の発光面の中心線に対して実質的に垂直に延びる面状照明装置。 - さらに、前記第1プリズムシートと前記第2プリズムシートとの間に配置された光拡散シートと、を備えている面状照明装置。
- 光拡散シートは、光源の光出射面の中心線に平行な方向よりも、光源の光出射面の中心線に垂直な方向において、より光を拡散する異方拡散係数を有する、請求項2に記載の面状照明装置。
- 第1プリズムシートのプリズムの頂角は60度から70度の範囲内にある、請求項1に記載の面状照明装置。
- 第1プリズムシートのプリズムの頂角は100度から110度の範囲内にある、請求項1に記載の面状照明装置。
- さらに、ルーバを有し、第2プリズムシートの上に配置される視野角制御フィルタを備えた、請求項1に記載の面状照明装置。
- 第2プリズムシートのプリズムの頂角は90度より大きい、請求項1に記載の面状照明装置。
- 視野角制御フィルタのルーバと第2プリズムシートの上面に配置されたプリズムの稜線は、上方から見た場合に、互いに対して角度を持って延びて配置される、請求項6に記載の面状照明装置。
- さらに、導光板の周側面のうち、第2の側面に面して配置された発光面を有する光源で、光源の発光面の中心を通り、その導光板の周側面のうち、第2の側面に対して垂直に延びる中心線を伴う光源と、を備えた請求項1に記載の面状照明装置。
- さらに、第2プリズムシートの上に配置された光拡散シートと、を備えている請求項1に記載の面状照明装置。
- 請求項1から10のいずれかに記載の面状照明装置と、
表示面としての上面と、上面の反対側の下面とを備えた表示パネルと、を備え
表示パネルの下面が面状照明装置に面する、表示装置。 - 表示パネルは、液晶表示パネルを含む、請求項11に記載の表示装置。
Priority Applications (4)
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JP2013544894A JP5470506B1 (ja) | 2012-06-13 | 2013-06-12 | 面状照明装置及び面状照明装置を有する表示装置 |
US14/407,305 US20150168632A1 (en) | 2012-06-13 | 2013-06-12 | Planar lighting device and display device including planar lighting device |
EP20130803803 EP2863105A4 (en) | 2012-06-13 | 2013-06-12 | FLAT LIGHTING DEVICE AND DISPLAY DEVICE WITH FLAT LIGHTING DEVICE |
CN201380030974.8A CN104364578A (zh) | 2012-06-13 | 2013-06-12 | 面状照明装置和具有面状照明装置的显示装置 |
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JP2012133832 | 2012-06-13 | ||
JP2012-133832 | 2012-06-13 | ||
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PCT/JP2013/003680 WO2013187058A1 (ja) | 2012-06-13 | 2013-06-12 | 面状照明装置及び面状照明装置を有する表示装置 |
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US (1) | US20150168632A1 (ja) |
EP (1) | EP2863105A4 (ja) |
JP (1) | JP5470506B1 (ja) |
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WO (1) | WO2013187058A1 (ja) |
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WO2016118868A1 (en) | 2015-01-22 | 2016-07-28 | Gentex Corporation | Low cost optical film stack |
JP2020115232A (ja) * | 2014-07-30 | 2020-07-30 | 大日本印刷株式会社 | 光学シート、面光源装置、映像源ユニット、及び表示装置 |
Families Citing this family (2)
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JP6336625B2 (ja) * | 2014-02-17 | 2018-06-06 | ジオプティカ・ゲゼルシャフト・ミット・ベシュレンクテル・ハフツングSioptica Gmbh | 切り換え可能な照明デバイス及びその使用 |
JP2022126144A (ja) | 2021-02-18 | 2022-08-30 | 株式会社ジャパンディスプレイ | 照明装置 |
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Also Published As
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EP2863105A1 (en) | 2015-04-22 |
EP2863105A4 (en) | 2015-05-06 |
JP5470506B1 (ja) | 2014-04-16 |
CN104364578A (zh) | 2015-02-18 |
JPWO2013187058A1 (ja) | 2016-02-04 |
US20150168632A1 (en) | 2015-06-18 |
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