WO2013001708A1 - 光源装置および液晶表示装置 - Google Patents
光源装置および液晶表示装置 Download PDFInfo
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- WO2013001708A1 WO2013001708A1 PCT/JP2012/003276 JP2012003276W WO2013001708A1 WO 2013001708 A1 WO2013001708 A1 WO 2013001708A1 JP 2012003276 W JP2012003276 W JP 2012003276W WO 2013001708 A1 WO2013001708 A1 WO 2013001708A1
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- light
- light source
- emitting element
- source device
- light emitting
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V7/00—Reflectors for light sources
- F21V7/22—Reflectors for light sources characterised by materials, surface treatments or coatings, e.g. dichroic reflectors
- F21V7/24—Reflectors for light sources characterised by materials, surface treatments or coatings, e.g. dichroic reflectors characterised by the material
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21K—NON-ELECTRIC LIGHT SOURCES USING LUMINESCENCE; LIGHT SOURCES USING ELECTROCHEMILUMINESCENCE; LIGHT SOURCES USING CHARGES OF COMBUSTIBLE MATERIAL; LIGHT SOURCES USING SEMICONDUCTOR DEVICES AS LIGHT-GENERATING ELEMENTS; LIGHT SOURCES NOT OTHERWISE PROVIDED FOR
- F21K9/00—Light sources using semiconductor devices as light-generating elements, e.g. using light-emitting diodes [LED] or lasers
- F21K9/60—Optical arrangements integrated in the light source, e.g. for improving the colour rendering index or the light extraction
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V13/00—Producing particular characteristics or distribution of the light emitted by means of a combination of elements specified in two or more of main groups F21V1/00 - F21V11/00
- F21V13/02—Combinations of only two kinds of elements
- F21V13/04—Combinations of only two kinds of elements the elements being reflectors and refractors
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1335—Structural association of cells with optical devices, e.g. polarisers or reflectors
- G02F1/1336—Illuminating devices
- G02F1/133602—Direct backlight
- G02F1/133603—Direct backlight with LEDs
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1335—Structural association of cells with optical devices, e.g. polarisers or reflectors
- G02F1/1336—Illuminating devices
- G02F1/133602—Direct backlight
- G02F1/133606—Direct backlight including a specially adapted diffusing, scattering or light controlling members
-
- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1335—Structural association of cells with optical devices, e.g. polarisers or reflectors
- G02F1/1336—Illuminating devices
- G02F1/133602—Direct backlight
- G02F1/133611—Direct backlight including means for improving the brightness uniformity
Definitions
- the present invention relates to a light source device using a plurality of LED modules and the like on which a plurality of light emitting diodes (LEDs) are mounted as a light source unit, and a liquid crystal display device using the light source device as a backlight.
- LEDs light emitting diodes
- This type of conventional liquid crystal display device has a transmissive liquid crystal panel, and has a backlight behind the transmissive liquid crystal panel.
- CCFL Cold Cathode Fluorescent Lamp
- CCFL Cold Cathode Fluorescent Lamp
- Patent Document 1 in a direct-type LED backlight, streaky luminance unevenness caused by overlapping shadows generated by the support of an optical lens and its adhesive resin blocking light from a light emitting element is suppressed. All the light diffusing lenses are the same.
- FIG. 11 is a longitudinal sectional view showing a configuration example of a main part of a conventional light emitting element module on which the light emitting element disclosed in Patent Document 1 is mounted.
- FIG. 12 is a plan view showing an arrangement example of optical lenses in a surface emitting unit on which a plurality of the light emitting element modules of FIG. 11 are mounted.
- a plurality of light emitting element components 102 each mounted with an LED as a light emitting element are mounted on a substrate 101 in one or a plurality of rows.
- the substrate 101 is subjected to a wiring process on a base material 101a formed by impregnating a resin (epoxy resin, cyanate resin, or the like) with, for example, cloth-like or nonwoven-like glass fiber or organic fiber.
- a white insulating material (white resist or the like) 101b is formed on the outermost surface of the substrate 101 so as to cover the region excluding the land portion in the wiring.
- one or a plurality of LED chips are mounted on a component substrate 102a such as ceramic and are electrically connected to the component substrate 102a by a wire (not shown). And the wire are sealed with a sealing resin 102b.
- a transparent resin such as silicon is used for the sealing resin 102b, and a phosphor or the like is added as necessary.
- the substrate 101 On the substrate 101, there is an opening 101d that is not covered with the insulating material 101b. In this opening 101d, the optical lens 103 and the base material 101a of the substrate 101 are fixed by an adhesive resin 104.
- the size of the opening 101d is the same as or slightly larger than the bottom size of the support column 103a of the optical lens 103. As described above, by providing the opening 101d having the same size as or slightly larger than the bottom surface size of the support column 103a, the positioning of the adhesive resin 104 is facilitated, and the management of the resin amount is facilitated. If the amount of the adhesive resin 104 is too large, the adhesive resin 104 crawls up to the bottom surface of the lens portion 103b of the optical lens 103 or spreads beyond the opening 101d on the surface of the substrate 101, thereby There is a case where the transmitted light is blocked or absorbed at the bottom surface or the column portion 103a, which may affect the diffusion of light from the light emitting element.
- a recess 103c for partially storing the light emitting element component 102 from below is formed.
- the light emitting element component 102 is not sealed, and the light emitting element component 102 and the recess 103c are not sealed.
- the heat dissipation of the light emitting element component 102 is improved.
- the columnar portion 103a of the optical lens 103 adjacent to each other and the adhesive resin 104 connect a vertical straight line L1 connecting the centers of the light emitting element components 102 adjacent to each other. And it arrange
- shadows generated by the support 103a and the adhesive resin 104 of the optical lenses 103 adjacent to each other blocking light from the light emitting element do not overlap each other, so that the occurrence of streaky luminance unevenness is suppressed.
- the same kind of unevenness that occurs continuously in the proximity position is more likely to be noticed as a pattern of unevenness to the human eye than the same kind of unevenness that occurs at a location farther than the proximity position, even with the same luminance difference.
- the light emitting element in the conventional configuration with only a single light distribution characteristic
- the light spreading to the peripheral part centering on the light emitting element is insufficient, and the brightness at the intermediate point between the light emitting element and the light emitting element is relatively flat.
- the lattice-like unevenness caused by the decrease and the luminance directly above the light emitting element relatively increases impairs the display quality.
- the present invention solves the above-described conventional problems, and an object thereof is to provide a light source device capable of improving the display quality of a surface light source by suppressing luminance unevenness of the surface light source and a liquid crystal display device using the same.
- the light source device includes a light source unit that generates a first unevenness and a first light source device in which a plurality of light emitting element modules each having one or a plurality of light emitting elements mounted on a substrate are arranged to emit light in a planar shape. And the light source portions in which the unevenness of 2 is alternately arranged so that the first unevenness and the second unevenness are alleviated with respect to each other, thereby achieving the above object.
- the light source device of the present invention when a plurality of light source units are arranged in a matrix in the row direction and the column direction in a plan view, grid-like unevenness due to the bright part occurs for each row or each column.
- the light source unit and the light source unit in which the oblique unevenness due to the bright part occurs are alternately arranged.
- the light source device of the present invention is a light source device in which a plurality of light emitting element modules each having one or a plurality of light emitting elements mounted on a substrate are arranged to irradiate light in a planar shape. Are arranged in a matrix in the column direction, light sources with narrow light distribution characteristics and light sources with wide light distribution characteristics are alternately arranged for each row or column. The above objective is achieved.
- the light source unit having a large contrast difference between each row or column the light source unit having a small contrast difference are arranged alternately.
- the light emitting element module having one or a plurality of light source portions having a large contrast difference between light and dark and the light emitting element module having one or a plurality of light source portions having a small difference in contrast between light and dark are alternately arranged. Has been.
- light source portions having a large contrast difference between light and dark and light source portions having a small difference in contrast between light and dark are alternately arranged.
- the light source unit in the light source device of the present invention includes a light source unit having a large contrast difference between the light source and the light source having a reflective material provided on a substrate region around the light emitting element in addition to the light emitting element.
- the light source part with a small contrast difference is constituted by the difference in reflectance of the reflecting material.
- a lens is mounted for each light emitting element in the light source device of the present invention, and the substrate area around the light emitting element is a substrate area immediately below the lens.
- the light source unit having a narrow light distribution angle for each row or each column and the light source unit Light source portions having a wide light distribution angle are alternately arranged.
- the light emitting element module having one or a plurality of light source parts with a narrow light distribution angle and the light emitting element module having one or a plurality of light source parts with a wide light distribution angle are alternately arranged. Has been placed.
- the light source portions having a narrow light distribution angle and the light source portions having a wide light distribution angle are alternately arranged.
- the light source unit in the light source device of the present invention includes the light emitting element and a lens mounted for each light emitting element, and the light source unit having a narrow light distribution angle and the light source unit having a wide light distribution angle. Is constituted by a difference in at least one of the length of the plurality of main pillar portions of the lens, the thickness and the shape of the lens.
- the light source unit includes the light emitting element, and the light source unit having a narrow light distribution angle and the light source unit having a wide light distribution angle are configured to emit one or a plurality of light emitting elements of the light emitting element. It consists of the difference in the height of the part.
- the light source unit in the light source device of the present invention includes the light emitting element, and the light source unit having a narrow light distribution angle and the light source unit having a wide light distribution angle emit light from the light emitting element. It is comprised by the difference in the shape of the sealing part.
- the liquid crystal display device of the present invention is such that the light source device of the present invention is provided on the back side of the liquid crystal panel and used as a backlight, thereby achieving the above object.
- the plurality of light source units are arranged in the row direction and the column in plan view.
- light sources having narrow light distribution characteristics and light sources having wide light distribution characteristics are alternately arranged for each row or column.
- light sources with a narrow light distribution characteristic and light sources with a wide light distribution characteristic are alternately arranged, so that the light emission luminance on the optical axis passing through the light emitting element is large, and the light emission luminance at the skirt portion away from the optical axis.
- the light emission luminance on the optical axis passing through the light source element and the light source element is smaller than the light emission luminance on the optical axis in the light source portion, and the light emission luminance at the skirt portion away from the optical axis is Combining a light source part that is larger than the light emission brightness at the hem away from the optical axis reduces the light emission brightness reduction between the light source parts, and as a result, the brightness difference between the light source part and the light source part is reduced. .
- it is possible to improve the display quality of the surface light source by suppressing the luminance unevenness of the surface light source.
- the pitch interval of the light emitting elements can be widened.
- the light source unit including the light emitting elements The number of can also be reduced.
- the light emission luminance on the optical axis passing through the light emitting element is large, the light emission luminance on the skirt portion away from the optical axis is small, and the light emission luminance on the optical axis passing through the light emitting element is A light source unit that is smaller than the light emission luminance on the optical axis of the light source unit and has a light emission luminance at the bottom part away from the optical axis of the light source unit and larger than the light emission luminance at the bottom part away from the optical axis of the light source unit;
- the luminance drop between the light source parts is reduced, and as a result, the difference in brightness between the light source part and the light source part is reduced, thereby suppressing uneven brightness on the human visual screen.
- the display quality of the surface light source can be improved.
- the pitch interval of the light emitting elements can be widened.
- the number of parts can also be reduced.
- (A) is a partial longitudinal cross-sectional view which shows the liquid crystal display device incorporating the modification of the LED light source device in Embodiment 2 of this invention
- (b) is in the case of height d1 of the light emission part in LED.
- the side view of LED (c) is a side view of LED in the case of height d2 of the light emission part lower than height d1 of the light emission part of (b).
- It is a longitudinal cross-sectional view which shows the example of a principal part structure of the conventional light emitting element module carrying the light emitting element currently disclosed by patent document 1.
- FIG. It is a top view which shows the example of arrangement
- LED light source device 2 LED module (light emitting element module) 2A LED module with high brightness and large contrast between light and dark 2B LED module with low brightness and small contrast between light and dark 2C, 2F LED module with narrow light distribution angle 2D, 2E Wide light distribution angle LED module 3 Printed wiring board 4, 4a, 4b LED (light emitting element) 5, 5C, 5D Light diffusion lens (lens) 5a, 5a1, 5a2 Supporting part 5b Diffusion pattern 6 Reflective sheet 6a Inclined surface 6A White resist with high reflectivity 6B White resist with low reflectivity 20, 20C, 20E Liquid crystal display device 21 Optical sheet 22 Light transmissive liquid crystal panel 7, 7A , 7B Dark part 8 Bright part 9 Chassis (housing)
- each LED light source device is applied to a transmissive liquid crystal panel as Embodiments 1 and 2 of the light source device of the present invention
- a transmissive liquid crystal panel as Embodiments 1 and 2 of the light source device of the present invention
- each thickness, length, etc. of the structural member in each figure are not limited to the structure to illustrate from a viewpoint on drawing preparation.
- FIG. 1 is a plan view schematically showing an LED module arrangement example of the LED light source device according to Embodiment 1 of the present invention.
- the LED light source device 1 of Embodiment 1 is composed of a plurality of LED modules 2 and is usually in multiple rows, but here, for convenience, strip-like LED modules 2 are arranged in five rows in the horizontal direction. Are arranged on the left and right. Of the strip-like LED modules 2 in the horizontal direction 5 rows, the strip-like LED modules 2 in the center 3 rows are not shown in the drawing in order to improve the brightness at the center of the screen. Are arranged so that the center side LEDs 4 are somewhat dense.
- Each LED module 2 has a printed wiring board 3 and a plurality (in this case, five) of LEDs 4 mounted thereon.
- Each LED module 2 in a row is composed of a plurality of (here, two on the left and right) LED modules 2, and the two left and right LED modules 2 are arranged so that the arrangement pitch of the LEDs 4 is equal. The space between the two is arranged.
- the plurality of LEDs 4 are arranged in a matrix at equal intervals in the vertical and horizontal directions.
- a light diffusion lens 5 for covering each LED 4 and diffusing light from the LED 4 is attached to the LED 4 from above. In this case, the light diffusing lens 5 is mounted on the printed wiring board 3 so as to cover the LED 4 with the three support portions 5a facing downward.
- Three struts 5a of the light diffusion lens 5 abut on the printed wiring board 3 and are fixed with an adhesive (not shown) or the like.
- a diffusion pattern 5b here, a quadrangular pyramid shown in FIG. 2 is formed.
- the reflection sheet 6 a plurality of holes through which the light diffusing lens 5 mounted on the LED 4 penetrates together with the LED 4 are opened at predetermined positions corresponding to the number of the LEDs 4.
- the plurality of printed wiring boards 3 and the reflection sheet 6 are connected to each other through the plurality of through holes of the reflection sheet 6 together with the LED 4 mounted on each LED module 2 and the light diffusion lens 5 penetrating from the back side of the hole of the reflection sheet. It is fixed to a chassis (not shown) below it.
- the light from the plurality of LEDs 4 is reflected by the reflection sheet 6 through each light diffusion lens 5 and emitted forward.
- the LED light source device 1 is a diffused surface light source.
- the screen peripheral part (screen peripheral frame part) of the reflection sheet 6 is configured by four slender surfaces 6 a long, vertical and horizontal surfaces so as to open forward.
- the characteristic configuration of the first embodiment is that when a plurality of light source units are arranged in a matrix in the row direction and the column direction in a plan view, the luminance peak value described later in detail is high for each row or column, and the contrast of light and dark is high.
- a light source unit having a large difference and a light source unit having a low brightness peak value and a small contrast difference are arranged alternately. That is, as will be described in detail later, the characteristic configuration of the first embodiment is a light emitting element module 2A having a high luminance peak value of light source unit light and a large contrast difference between light and dark and a luminance peak of light source unit light so as to reduce luminance unevenness.
- the light emitting element modules 2B having a low value and a small contrast between light and dark are alternately arranged.
- the light source unit will be described in detail in addition to the LED 4 and the light diffusing lens 5, but will be described later as a reflective material provided on a substrate region directly below the light diffusing lens 5 (a substrate region around the LED 4).
- the light source unit having the white resists 6A and 6B of FIG. 2 has a high luminance peak value and a large contrast difference between light and dark (narrow light distribution characteristic) and a light source unit with a low luminance peak value and a small difference in light and dark contrast (wide light distribution characteristic).
- the white resists 6A and 6B are constituted by the difference in reflectance.
- FIG. 2 is a vertical cross-sectional view of the AA ′ portion schematically showing a configuration example of a main part of a liquid crystal display device in which the LED light source device 1 of FIG. 1 is incorporated, and a diagram showing luminance corresponding to the position corresponding thereto.
- the three LED modules 2 are shown across the width direction (AA ′ direction).
- the liquid crystal display device 20 includes an LED in which a plurality of LEDs 4 are arranged on each printed wiring board 3 and the above-described light diffusion lens 5 is provided so as to cover each LED 4.
- the LED light source device 1 of the first embodiment which is an LED backlight in which a plurality of modules 2 are arranged and surface-emitting, is provided above the LED light source device 1 by a distance D from a single reflection sheet 6,
- the LED light source device 1 is provided on the back side of the light transmission type liquid crystal panel 22 and used as a backlight.
- white resists 6A and 6B are applied on the circular printed wiring board 3 immediately below the light diffusion lens 5.
- the reflectance of the white resists 6A and 6B is 81 to 85 percent, for example.
- the white resists 6 ⁇ / b> A and 6 ⁇ / b> B are applied to protect the wiring when the printed wiring board 3 is manufactured.
- the white resists 6A and 6B are applied to portions other than the portion where the wiring land portion requiring electrical connection and the column portion 5a of the light diffusing lens 5 are in contact with the base material. Since the circular white resists 6A and 6B on the printed wiring board 3 immediately below the light diffusion lens 5 are located immediately below the light diffusion lens 5, the brightness directly above the light diffusion lens 5 is easily affected.
- the white resist 6 On the light once emitted from the light source part, a part of the light reflected by the optical sheet 21 such as a light diffusion sheet and returning to the light source part side is reflected by the white resist 6 applied to the substrate surface through the light diffusion lens, Since the light incident on the light diffusing lens 5 tends to concentrate again at the center of the light diffusing lens 5, the light distribution characteristics of the light emitted from the light source (the spread of the light) depending on the reflectance of the white resists 6A and 6B. / Brightness distribution) will change. For example, when the reflectance of the white resist 6A is 85% and the reflectance of the white resist 6B is 81%, the luminance above the center of the light diffusion lens 5 immediately above the white resist 6A is higher than that of the white resist 6B.
- the periphery of the center of the light diffusion lens 5 appears bright due to the luminance difference. Further, the luminance above the center of the light diffusion lens 5 immediately above the white resist 6B is lower than that of the white resist 6A. In this case, although it becomes dark overall, the difference in brightness is reduced. On the other hand, the brightness at the position away from the center of the light diffusion lens 5 is larger in the case of the white resist 6B than in the case of the white resist 6A.
- the reflectance of the white resist when the reflectance of the white resist is increased, the luminance on the center of the light diffusing lens is high, but the luminance difference from the periphery around the center of the light diffusing lens is large, and the light source becomes a light source having a large contrast between light and dark.
- the reflectance of the white resist when the reflectance of the white resist is lowered, the luminance on the center of the light diffusing lens is low, but the luminance difference from the periphery around the center of the light diffusing lens is small, and the light source becomes a light source with small contrast.
- the reflectance of the white resists 6A and 6B is changed in units of the printed wiring board 3, and the brightness is set high by the reflectance of the white resist 6A (here, for example, 85%, ie, the white resist 6A having a high reflectance).
- the LED module 2A and the LED module 2B whose luminance is set low by the reflectance of the white resist 6B are alternately arranged in units of substrates.
- a luminance peak exists at the arrangement pitch P of the LEDs 4 and the light diffusion lens 5, for example, 50 mm.
- the LED module 2B having a low brightness peak value and a small contrast difference between light and dark is arranged, so that the arrangement peak P has a luminance peak at 100 mm, which is twice 50 mm.
- the LED module 2B having a low luminance peak value and a small contrast difference between light and dark can relieve the difference in luminance reduction portion between the adjacent light diffusion lenses 5 and can suppress luminance unevenness. .
- An optical sheet as a light diffusing means on the upper part of a light source section comprising one or a plurality of LEDs 4 arranged two-dimensionally on a plane, a light diffusing lens 5 covering the LED 4 and a white resist 6A or 6B directly below the light diffusing lens 5. 21, and transmits light from one or more light source units to the optical sheet 21, and further transmits light from one or more light source units by the effects of light diffusion, multiple reflection and retroreflection by the optical sheet 21.
- Surface light emission having a flat characteristic in luminance is obtained by spreading the light in a flat shape and superimposing the obtained light spread patterns.
- FIG. 3 is a plan view schematically showing the position of the light diffusing lens 5 and the bright and dark portions of the luminance when only the LED module 2B whose luminance is set low by the reflectance of the white resist 6B is arranged.
- FIG. 4 is a plan view schematically showing the position of the light diffusing lens 5 and the bright and dark portions of the luminance when only the LED module 2A whose luminance is set high by the reflectance of the white resist 6A is arranged.
- the luminance difference increases between the vertical direction and the horizontal direction of the light diffusion lenses 5 adjacent to each other in plan view. For this reason, the luminance unevenness is large and the dark portion 7 is seen.
- the difference in luminance is reduced by the distance between the luminance peak positions between the oblique directions of the light diffusion lenses 5 adjacent to each other.
- luminance unevenness due to the bright portion 8 occurs in an oblique direction between the light diffusion lenses 5.
- the lattice unevenness is caused by the dark portion 7.
- FIG. 5 shows a light diffusing lens 5 in the first embodiment in which LED modules 2A having a high luminance peak value and a large contrast difference between light and dark and LED modules 2B having a low luminance peak value and a small contrast difference between light and dark are alternately arranged on a substrate basis. It is a top view which shows typically the position and brightness
- the LED module 2A having a high brightness peak value and a large contrast difference between light and dark and the LED module 2B having a low brightness peak value and a small contrast difference between brightness and darkness are alternately arranged in units of substrates, whereby the dark portion 7 in FIG.
- a light source unit that generates a grid-like unevenness due to a bright part and a light source that causes an oblique unevenness due to a bright part for each row or column Are arranged alternately.
- the light source part in which the first unevenness occurs and the light source part in which the second unevenness occurs are alternately arranged so that the first unevenness and the second unevenness are offset and alleviated. Yes.
- the LED module 2B having a plurality of light source portions in which the lattice-like unevenness due to the bright portion as the first unevenness is generated corresponds to the LED module 2B having a plurality of light source portions having a low luminance peak value and a small contrast difference between light and dark.
- the light source part in which the oblique unevenness due to the bright part as the second unevenness corresponds to the LED module 2A having a plurality of light source parts having a high luminance peak value and a large contrast difference between light and dark.
- the light source unit includes the white resist 6A or 6B as a reflective material provided on the printed wiring board 3 immediately below the light diffusion lens 5 in addition to the LED 4 and the light diffusion lens 5 as light emitting elements, A light source part with a high peak value and a large contrast difference between light and dark and a light source part with a low brightness peak value and a small contrast difference between light and dark are constituted by the difference in reflectance of the white resist 6A or 6B.
- FIG. 6 shows this case.
- LED modules 2A and LED modules 2B having different luminances are alternately arranged.
- the reflectances of the white resists 6A and 6B are made different between the LED module 2A and the LED module 2B.
- a dark portion 7A is generated between the light diffusion lenses 5 of the LED module 2A having a high luminance peak value and a large contrast difference between light and dark, and the dark portion 7A has a large luminance difference between the light emitting portions, resulting in a decrease in light. It is a big part.
- a dark portion 7B is generated between the light diffusing lenses 5 of the LED module 2B having a low luminance peak value and a small contrast difference between light and dark.
- the dark portion 7B is a portion where the luminance difference is low between the light emitting portions and the light decrease is small and the luminance unevenness Less is.
- the LED module 2A and the LED module 2B are fixed to the chassis 9 (housing).
- the LED module 2A having one or a plurality of light source sections having a high luminance peak value and a large contrast difference between light and dark, and a low luminance peak value and a small contrast difference between light and dark.
- the LED module 2B which has a some light source part is arrange
- the one or more light source units have white resists 6A and 6B as reflecting materials provided on a substrate region around the LED 4 (a substrate region immediately below the light diffusion lens 5), and have a high luminance peak value and a contrast of light and dark.
- a light source part having a large difference and a light source part having a low luminance peak value and a small contrast difference between light and dark are constituted by the difference in reflectance between the white resists 6A and 6B.
- the light emission luminance on the optical axis passing through the light emitting element is large, the light emission luminance on the skirt away from the optical axis is small, and the light emission luminance on the optical axis passing through the light emitting element is
- the light source is combined with a light source unit that is smaller than the light emission luminance on the optical axis and has a light emission luminance at the bottom part away from the optical axis than the light emission luminance at the bottom part away from the optical axis of the light source part.
- the luminance difference between the light source unit and the light source unit is reduced.
- luminance unevenness on the human visual screen can be suppressed.
- the luminance distribution (brightness / darkness contrast) from the light diffusion lens 5 is intentionally adjusted and controlled by the difference in reflectance between the white resists 6A and 6B to cancel out the bright portion 8 and the dark portion 7, thereby greatly increasing the luminance unevenness. Can be suppressed.
- streaky luminance unevenness generated over the entire screen can be eliminated, and the display quality can be improved by improving the quality of the surface light source. it can. Therefore, it is possible to improve the display quality of the surface light source by suppressing the luminance unevenness of the surface light source.
- the pitch interval of the LEDs 4 can be widened.
- the light source unit including the LEDs 4 You can also reduce the number.
- the light emitting element module 2A having a high luminance peak value of the light source unit light and a large contrast difference between the light sources and the light emitting element module 2B having a low luminance peak value of the light source unit light and a small difference between the light and dark contrasts are alternately arranged.
- the present invention is not limited to this.
- a light source unit having a high luminance peak value and a large contrast difference between light sources and a light source unit having a low luminance peak value and a small contrast difference between light and dark are alternately arranged.
- the luminance peak value of the light source unit light is high and the luminance peak value of the light source unit light is low.
- the light emitting element modules 2B having a small contrast difference between light and dark are alternately arranged, luminance unevenness of the surface light source is suppressed. In which functions and effects of improving the display quality of the light source.
- the light source unit is a reflective material provided on the printed wiring board 3 immediately below the light diffusion lens 5 in addition to the LED 4 as a light emitting element and the light diffusion lens 5 placed thereon.
- the white resists 6A and 6B, the light source part having a high luminance peak value and a large contrast difference between light and dark and the light source part having a low brightness peak value and a small contrast difference between light and dark are constituted by the difference in reflectance of the white resists 6A and 6B.
- the present invention is not limited to this, and a reflective sheet having a different reflectance as a reflective material may be provided on the printed wiring board 3 immediately below the light diffusion lens 5.
- the white resists 6A and 6B having different reflectances may be set according to the number of times the white resist is applied, or the material of the white resist may be changed according to the reflectance.
- the second embodiment has a high luminance peak value for each row or each column, and a light distribution angle (light directivity). ) Will be described in which light source portions with a narrow brightness peak value and light source portions with a low luminance peak value and a wide light distribution angle (light directivity) are alternately arranged.
- the light distribution angle is narrow (narrow light distribution) instead of the light source unit having a high luminance peak value and a large contrast difference between the first embodiment and the light source unit having a low luminance peak value and a small contrast difference.
- Characteristics A difference from the first embodiment is that a light source part and a light source part having a wide light distribution angle (light directivity) (wide light distribution characteristic) are used.
- a light source unit with a narrow light distribution angle (light directivity) and a light source unit with a wide light distribution angle (light directivity) have a low luminance peak value and a light source unit with a high luminance peak value and a large contrast difference between light and dark.
- the light source unit in which the grid-like unevenness due to the bright part as the first luminance unevenness and the light source unit in which the oblique unevenness due to the bright part as the second luminance unevenness occurs is there.
- a light source unit that generates a grid-like unevenness due to a bright part and a light source that causes an oblique unevenness due to a bright part for each row or column Are arranged alternately so that the grid-like unevenness as the first luminance unevenness and the oblique unevenness as the second luminance unevenness cancel each other and are alleviated.
- FIG. 7 is a partial longitudinal sectional view schematically showing a configuration example of a main part of a liquid crystal display device in which the LED light source device according to Embodiment 2 of the present invention is incorporated, and a diagram showing luminance corresponding to the corresponding position.
- FIG. 8 is a partial vertical cross-sectional view schematically showing an exemplary configuration of a main part of a liquid crystal display device for explaining a light source unit having a narrow light distribution angle.
- FIG. 9 is a partial longitudinal sectional view schematically showing an example of the configuration of the main part of a liquid crystal display device for explaining a light source unit having a wide light distribution angle.
- the same member numbers are used for the description of the components having the same effects as the components of FIG.
- the LED 4 as the light emitting element and the light diffusion lens 5 covering the light emitting element are used as the light source unit, and the light distribution angle.
- a light source part with a narrow (light directivity) and a light source part with a wide light distribution angle (light directivity) are a plurality of (here, three) main column parts 5a1 of the light diffusion lens 5C in FIG. 8 and the light in FIG.
- the diffusing lens 5D is configured by a difference in length from a plurality (here, three) main pillar portions 5a2.
- the luminance distribution is the light distribution angle (light directivity).
- the light distribution angle (light directivity) is narrowed by the light diffusion lens 5C having a long foot in FIG. 8, and the light distribution angle (light directivity) is widened by the light diffusion lens 5D having a short foot in FIG.
- the luminance peak from the light diffusion lens 5D having a short foot in FIG. 9 corresponds to the amount of light distribution angle (light directivity) spread by the light diffusion lens 5D. It is lower than the luminance peak from the long light diffusion lens 5C.
- the LED module 2C as a light emitting element module having one or a plurality of light source sections with a narrow light distribution angle (light directivity), and the light distribution angle (light directivity) as compared with the LED module 2C.
- the LED modules 2D as light-emitting element modules having a wide light source unit or a plurality of light source units are alternately arranged in units of substrates so that the mutual luminance unevenness is offset and the mutual luminance unevenness is reduced.
- the light source unit includes the LED 4 and the light diffusion lens 5C or 5D, and the light source unit having a narrow light distribution angle (light directivity) and the light source unit having a wide light distribution angle (light directivity) are the light diffusion lenses 5C or 5D.
- the legs main pillar portions 5a1 and 5a2).
- the LED module 2C having one or a plurality of light source units with a narrow light distribution angle (light directivity) and the one or a plurality of light source units with a wide light distribution angle (light directivity). Since the light emitting element modules 2D having the above are alternately arranged, the light emission luminance on the optical axis passing through the light emitting element is large and the light emission luminance at the skirt portion away from the optical axis is small, and the light emitting element passes through the light emitting element.
- the light emission luminance on the optical axis is smaller than the light emission luminance on the optical axis at the light source unit, and the light emission luminance at the skirt portion away from the optical axis is the light emission at the skirt portion away from the optical axis of the light source unit.
- the pitch interval of the LEDs 4 can be widened.
- the light source unit including the LEDs 4 You can also reduce the number.
- the LED module 2C having one or a plurality of light source portions with a narrow light distribution angle (light directivity) and the LED having one or a plurality of light source portions with a wide light distribution angle (light directivity).
- the present invention is not limited to this, and the light source section and the light distribution angle (light directivity) having a narrow light distribution angle (light directivity) are not limited to this.
- Wide light source units may be arranged alternately, and even if these plurality of light source units are arranged in a matrix in plan view, one or more light source units having a narrow light distribution angle (light directivity) As in the case where the LED module 2C having the LED module 2D and the LED module 2D having one or a plurality of light source portions having a wide light distribution angle (light directivity) are alternately arranged in units of substrates, the luminance unevenness of the surface light source is suppressed. Display quality of surface light source Operational effects of improving.
- the light source section and the light distribution angle (light directivity) with a narrow light distribution angle (light directivity) for each row or column may be alternately arranged.
- the light source part having a narrow light distribution angle (light directivity) and the light source part having a wide light distribution angle (light directivity) are the lengths of the legs of the plurality of main column parts 5 a of the light diffusion lens 5.
- the light source unit with a narrow light distribution angle and the light source unit with a wide light distribution angle are not limited to the lengths of the plurality of main pillar portions 5a of the light diffusion lens 5, or Along with the lengths of the plurality of main column portions 5a of the diffusion lens 5, the light diffusion lens 5 can be configured by a difference in at least one of the thickness and shape.
- the light source part with a narrow light distribution angle (light directivity) and the light source part with a wide light distribution angle (light directivity) are realized by the difference in leg lengths of the plurality of main pillar parts 5a of the light diffusion lens 5.
- the height of one or a plurality of light emitting sections in the LED 4 as a light emitting element is not limited to this, and a light source section with a narrow light distribution angle (light directivity) and a light source section with a wide light distribution angle (light directivity) are used. It can also be configured by the difference.
- the height d1 of one or more light emitting units in the LED 4a is higher than the height d2 of one or more light emitting units in the LED 4b as shown in FIG. 10C, for example. Since the light emitting portion in the LED 4a is closer to the light diffusing lens 5 than the light emitting portion in the LED 4b, the leg length of the plurality of main pillar portions 5a of the light diffusing lens 5 is shortened in the second embodiment. Thus, the same effect as that obtained when a light source unit having a wide light distribution angle (light directivity) is realized. In short, a light source unit having a wide light distribution angle (light directivity) using the LED 4a shown in FIG. 10B and a light source unit having a narrow light distribution angle (light directivity) using the LED 4b shown in FIG. It can be.
- the LED module 2E as a light emitting element module having one or a plurality of light source units in which a light distribution angle (light directivity) is set wide by the LED 4a having a high light emitting unit height, and light emission
- a light source unit with a narrow light distribution angle (light directivity) by the LEDs 4 b and 4 a and a light source unit with a wide light distribution angle (light directivity) are alternately arranged. Can also achieve the object of the present invention.
- a light source part with a narrow light distribution angle (light directivity) and a light source part with a wide light distribution angle (light directivity) are arranged at the height of one or a plurality of light emitting parts in the LED 4 as a light emitting element.
- the light source unit has the LED 4 as a light emitting element, and the light source unit with a narrow light distribution angle and the light source unit with a wide light distribution angle are resin-sealed portions from which light is emitted from the LED 4. You may be comprised by the difference in shape.
- the dome-shaped sealing portion from which light is emitted from the LED 4 is filled with a phosphor that changes blue light emission to white, and also serves as a lens portion for squeezing light in a predetermined direction.
- a light source unit having a high luminance peak value using a difference in reflectance between the white resists 6A and 6B and the reflection sheet and a light / dark contrast difference is large, and a light source having a low luminance peak value and a small light / dark contrast difference.
- the light source portions are alternately arranged, and the light source portion having a narrow light distribution angle (light directivity) and the light source portion having a wide light distribution angle (light directivity) are alternated by the light diffusion lenses 5C and 5D.
- the display quality of the surface light source can be improved by combining the first and second embodiments to suppress the luminance unevenness of the surface light source. Aim can be achieved.
- the light source part with a narrow light distribution angle (light directivity) and the light source part with a wide light distribution angle (light directivity) are the main column part 5a1 of the light diffusion lens 5C and the light diffusion lens 5D. This is realized by configuring the main column portion 5a2 to be longer than that of the main column portion 5a2.
- the present invention is not limited to this.
- a light source unit with a wide light directivity can be realized.
- the reflectance is different from the case where the main column portion 5a of the light diffusion lens 5 is fixed on the white resists 6A and 6B and the reflection sheet having different reflectances.
- the length of the leg of the main column portion 5a of the light diffusing lens 5 is also changed depending on whether the main column portion 5a of the light diffusing lens 5 is fixed on the substrate region where the white resists 6A and 6B and the reflection sheet are not provided. The same effect as the case can be obtained.
- the LED light source devices 1, 11, and 12 using the LED 4 as the light emitting element have been described.
- a combination of a laser element and a phosphor may be used as the light emitting element.
- the present invention relates to a light source device in which a plurality of LED modules and the like on which a plurality of light emitting diodes (LEDs) are mounted as a light source unit, and a liquid crystal display device in which the light source device is used as a backlight.
- a light source with high emission brightness on the passing optical axis and low emission brightness at the bottom part away from the optical axis, and the light emission brightness on the optical axis passing through the light emitting element is the light emission brightness on the optical axis of the light source part.
- the light emission luminance between the light source parts is reduced by combining a light source unit that is smaller than the light emission luminance at the bottom part away from the optical axis and larger than the light emission brightness at the bottom part away from the optical axis of the light source part.
- the luminance difference between the light source unit and the light source unit is reduced, so that it is possible to suppress luminance unevenness on the human visual screen and improve the display quality of the surface light source. be able to.
- the pitch interval of the light emitting elements can be widened. As a result, the light source The number of parts can also be reduced.
Abstract
Description
2 LEDモジュール(発光素子モジュール)
2A 輝度が高く明暗コントラスト差が大きく設定されたLEDモジュール
2B 輝度が低く明暗コントラスト差が小さく設定されたLEDモジュール
2C、2F 配光角度が狭く設定されたLEDモジュール
2D、2E 配光角度が広く設定されたLEDモジュール
3 プリント配線基板
4、4a、4b LED(発光素子)
5、5C、5D 光拡散レンズ(レンズ)
5a、5a1、5a2 支柱部
5b 拡散パターン
6 反射シート
6a 傾斜面
6A 反射率の高い白レジスト
6B 反射率の低い白レジスト
20、20C、20E 液晶表示装置
21 光学シート
22 光透過型液晶パネル
7,7A、7B 暗部
8 明部
9 シャーシ(筐体)
図1は、本発明の実施形態1におけるLED光源装置のLEDモジュール配置例を模式的に示す平面図である。
上記実施形態1では、平面視で複数の光源部が行方向と列方向にマトリクス状に配置された場合に、行毎または列毎に、輝度ピーク値が高く明暗コントラスト差が大きい光源部と輝度ピーク値が低く明暗コントラスト差が小さい光源部とが交互に配置されている場合について説明したが、本実施形態2では、行毎または列毎に、輝度ピーク値が高く配光角度(光指向性)が狭い光源部と輝度ピーク値が低く配光角度(光指向性)が広い光源部とが交互に配置されている場合について説明する。
Claims (14)
- 基板上に一または複数の発光素子が搭載された複数の発光素子モジュールが配設されて面状に光照射する光源装置において、
平面視で複数の光源部が行方向と列方向にマトリクス状に配置された場合に、行毎または列毎に、狭い配光特性の光源部と広い配光特性の光源部とが交互に配置されている光源装置。 - 請求項1に記載の光源装置において、
前記狭い配光特性の光源部が明暗コントラスト差が大きい光源部であり、前記広い配光特性の光源部が該明暗コントラスト差が小さい光源部である光源装置。 - 請求項2に記載の光源装置において、
前記明暗コントラスト差が大きい一または複数の光源部を有する発光素子モジュールと該明暗コントラスト差が小さい一または複数の光源部を有する発光素子モジュールとが交互に配置されている光源装置。 - 請求項2に記載の光源装置において、
前記発光素子モジュールには、前記明暗コントラスト差が大きい光源部と該明暗コントラスト差が小さい光源部とが交互に配置されている光源装置。 - 請求項1~4のいずれかに記載の光源装置において、
前記光源部は、前記発光素子に加えて、該発光素子の周囲の基板領域上に設けられた反射材を有し、前記明暗コントラスト差が大きい光源部と該明暗コントラスト差が小さい光源部は、該反射材の反射率の違いにより構成されている光源装置。 - 請求項5に記載の光源装置において、
前記発光素子毎にレンズが搭載され、前記発光素子の周囲の基板領域は、該レンズ直下の基板領域である光源装置。 - 請求項1に記載の光源装置において、
前記狭い配光特性の光源部が配光角度が狭い光源部であり、前記広い配光特性の光源部が配光角度が広い光源部である光源装置。 - 請求項7に記載の光源装置において、
前記配光角度が狭い一または複数の光源部を有する発光素子モジュールと、該配光角度が広い一または複数の光源部を有する発光素子モジュールとが交互に配置されている光源装置。 - 請求項7に記載の光源装置において、
前記発光素子モジュールには、前記配光角度が狭い光源部と該配光角度が広い光源部とが交互に配置されている光源装置。 - 請求項7~9のいずれかに記載の光源装置において、
前記光源部は、前記発光素子および、該発光素子毎に搭載されたレンズを有し、前記配光角度が狭い光源部と該配光角度が広い光源部は、該レンズの複数の主柱部の長さ、該レンズの厚さおよびその形状のうちの少なくともいずれかの違いにより構成されている光源装置。 - 請求項7~9のいずれかに記載の光源装置において、
前記光源部は、前記発光素子を有し、前記配光角度が狭い光源部と該配光角度が広い光源部は、該発光素子の一または複数の発光部の高さの違いにより構成されている光源装置。 - 請求項7~9のいずれかに記載の光源装置において、
前記光源部は、前記発光素子を有し、前記配光角度が狭い光源部と該配光角度が広い光源部は、該発光素子から光が出射される封止部の形状の違いにより構成されている光源装置。 - 請求項1に記載の光源装置において、
2次元状に配置された前記一または複数の発光素子の上部に光拡散手段を配置し、該一または複数の発光素子からの光を該光拡散手段に透過させると共に、該光拡散手段による光の拡散、多重反射および再帰反射の効果により該一または複数の発光素子からの光を更に平面状に広げ、得られた光の広がりパターンの重ね合わせにより輝度的に平坦な特性の面発光を得るように構成されている光源装置。 - 請求項1~4、7~9および13のいずれかに記載の光源装置が液晶パネルの背面側に設けられてバックライトとして用いられた液晶表示装置。
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Also Published As
Publication number | Publication date |
---|---|
US9195094B2 (en) | 2015-11-24 |
CN103649620B (zh) | 2016-02-24 |
US20140104816A1 (en) | 2014-04-17 |
JP6025309B2 (ja) | 2016-11-16 |
CN103649620A (zh) | 2014-03-19 |
JP2013012417A (ja) | 2013-01-17 |
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