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TWI553272B - Side view backlight modul - Google Patents

Side view backlight modul Download PDF

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Publication number
TWI553272B
TWI553272B TW102135440A TW102135440A TWI553272B TW I553272 B TWI553272 B TW I553272B TW 102135440 A TW102135440 A TW 102135440A TW 102135440 A TW102135440 A TW 102135440A TW I553272 B TWI553272 B TW I553272B
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TW
Taiwan
Prior art keywords
light
guide plate
light guide
backlight module
lens
Prior art date
Application number
TW102135440A
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Chinese (zh)
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TW201514423A (en
Inventor
蔡政諭
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榮創能源科技股份有限公司
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Publication of TW201514423A publication Critical patent/TW201514423A/en
Application granted granted Critical
Publication of TWI553272B publication Critical patent/TWI553272B/en

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S8/00Lighting devices intended for fixed installation
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V19/00Fastening of light sources or lamp holders
    • F21V19/001Fastening of light sources or lamp holders the light sources being semiconductors devices, e.g. LEDs
    • F21V19/0015Fastening arrangements intended to retain light sources
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V5/00Refractors for light sources
    • F21V5/04Refractors for light sources of lens shape
    • F21V5/046Refractors for light sources of lens shape the lens having a rotationally symmetrical shape about an axis for transmitting light in a direction mainly perpendicular to this axis, e.g. ring or annular lens with light source disposed inside the ring

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Planar Illumination Modules (AREA)

Description

側入式背光模組 Side-in backlight module

本發明涉及一種背光模組,特別涉及一種側入式背光模組。 The invention relates to a backlight module, in particular to a side-entry backlight module.

習知的側入式背光模組包括承載板、裝設於承載板上的發光二極體、包覆發光二極體的封裝層及設於承載板及發光二極體上方的透鏡。封裝層內均勻分佈有螢光粉。發光二極體發出的光線激發封裝層內的螢光粉後得到特定色溫及顏色的預定光線,這些預定光線經透鏡擴散後進行照明。然而,由於發光二極體具有中部光強大、周緣光強小的發光特性,因此,封裝層內部的各處螢光粉激發不一致,如此,導致進入承載板各處的預定光線的亮度不一致而導致背光模組各處明暗不均及色光圈的產生。 The conventional side-lit backlight module includes a carrier board, a light-emitting diode mounted on the carrier board, an encapsulation layer covering the LED body, and a lens disposed on the carrier board and the LED body. Fluorescent powder is uniformly distributed in the encapsulation layer. The light emitted by the light-emitting diode excites the phosphor in the encapsulation layer to obtain predetermined light of a specific color temperature and color, and the predetermined light is diffused by the lens to illuminate. However, since the light-emitting diode has a light-emitting characteristic in which the central light is strong and the peripheral light intensity is small, the phosphor powders in the interior of the package layer are inconsistently excited, and thus the brightness of the predetermined light entering the carrier plate is inconsistent. The backlight module has uneven brightness and color aperture.

有鑒於此,有必要提供一種各處亮度均勻的側入式背光模組。 In view of this, it is necessary to provide a side-in type backlight module with uniform brightness everywhere.

一種側入式背光模組,包括導光板、設置在所述導光板的端面的發光二極體、設置在所述導光板頂面的透鏡,所述透鏡包括貼設於所述導光板頂面的底面及自底面延伸的配光面,所述導光板與頂面相對的底面設置有網點區域,所述網點區域與所述透鏡的配光面中部正對設置。 A side-lit backlight module includes a light guide plate, a light-emitting diode disposed on an end surface of the light guide plate, and a lens disposed on a top surface of the light guide plate, wherein the lens includes a top surface of the light guide plate The bottom surface and the light distribution surface extending from the bottom surface, the bottom surface of the light guide plate opposite to the top surface is provided with a dot area, and the dot area is disposed opposite to the middle of the light distribution surface of the lens.

與習知技術相比,本發明中設置在透鏡一側的發光二極體發出的光線經透鏡底面的網點區域散射及出光面的配光面配光後,即可 實現減弱透鏡中部光強、增強透鏡周緣光強,從而達到了消除暗區、均勻光線的作用,結構簡單、光學效果好。 Compared with the prior art, the light emitted by the light-emitting diode disposed on one side of the lens is scattered by the dot area of the bottom surface of the lens and the light distribution surface of the light-emitting surface is light-distributed. The light intensity in the middle of the lens is weakened, and the light intensity around the lens is enhanced, thereby achieving the effect of eliminating dark areas and uniform light, and the structure is simple and the optical effect is good.

下面參照附圖,結合具體實施例對本發明作進一步的描述。 The invention will now be further described with reference to the specific embodiments thereof with reference to the accompanying drawings.

10‧‧‧導光板 10‧‧‧Light guide plate

30‧‧‧發光二極體 30‧‧‧Lighting diode

50‧‧‧網點區域 50‧‧‧ outlet area

51‧‧‧凹穴 51‧‧‧ recesses

53‧‧‧微結構 53‧‧‧Microstructure

70、70a‧‧‧透鏡 70, 70a‧‧ lens

71、71a‧‧‧底面 71, 71a‧‧‧ bottom

73、73a‧‧‧第一出光面 73, 73a‧‧‧The first shiny surface

75‧‧‧第二出光面 75‧‧‧second glazing

77、77a‧‧‧配光面 77, 77a‧‧‧Glossy surface

90‧‧‧反射板 90‧‧‧reflector

100、100a‧‧‧側入式背光模組 100, 100a‧‧‧ Side-in backlight module

圖1是本發明第一實施例的側入式背光模組的除去反射板後的側視圖。 1 is a side view of the side-lit backlight module of the first embodiment of the present invention with the reflector removed.

圖2是圖1所示側入式背光模組的俯視圖。 2 is a top plan view of the side-entry backlight module of FIG. 1.

圖3是圖2所示的側入式背光模組的剖視圖。 3 is a cross-sectional view of the side-entry backlight module shown in FIG. 2.

圖4是本發明第二實施例的側入式背光模組的剖視圖。 4 is a cross-sectional view of a side-lit backlight module in accordance with a second embodiment of the present invention.

如圖1及圖2所示,本發明第一實施例的側入式背光模組100包括一導光板10、設置在所述導光板10一端的一發光二極體30、設置於導光板10底面的多個網點區域50、固定於導光板10頂面且正對網點區域50的多個透鏡70及固定於所述導光板10相對兩側的二反射板90(見圖3)。 As shown in FIG. 1 and FIG. 2 , the side-lit backlight module 100 of the first embodiment of the present invention includes a light guide plate 10 , a light-emitting diode 30 disposed at one end of the light guide plate 10 , and the light guide plate 10 . A plurality of halftone dot regions 50 on the bottom surface, a plurality of lenses 70 fixed to the top surface of the light guide plate 10 and facing the halftone dot regions 50, and two reflective plates 90 (see FIG. 3) fixed to opposite sides of the light guide plate 10.

所述導光板10為一縱長且厚度均勻的板體,用於混合發光二極體30發出的光線。所述導光板10的底面平行於其頂面。 The light guide plate 10 is a longitudinally long and uniform thickness plate for mixing the light emitted by the LEDs 30. The bottom surface of the light guide plate 10 is parallel to the top surface thereof.

所述網點區域50沿導光板10的縱向平行間隔設置。每一網點區域50沿導光板10的橫向延伸且貫穿整個導光板10的橫向。所述網點區域50用於用於散射到達網點區域50處的光線。每一網點區域50包括自所述導光板10的底面朝向頂面凹陷的凹穴51及位於所述凹穴51內的微結構53。這些凹穴51沿導光板10的長度方向平行間隔設置。每一凹穴51貫穿導光板10的橫向。每一凹穴51的縱截面大 致呈正方形。每一網點區域50各處的微結構53的密度相同。不同網點區域50的微結構53的密度沿導光板10的縱向、自靠近發光二極體30的一端向遠離發光二極體30的一端逐漸增加。可以理解的,這些微結構可為這種的凸起、凹陷或者其他結構,只要能達到散射光線的效果即可。 The halftone dot areas 50 are spaced apart in parallel along the longitudinal direction of the light guide plate 10. Each of the halftone dot regions 50 extends in the lateral direction of the light guide plate 10 and extends through the entire lateral direction of the light guide plate 10. The dot area 50 is used to scatter light reaching the halftone dot area 50. Each of the halftone dot areas 50 includes a recess 51 recessed from the bottom surface of the light guide plate 10 toward the top surface and a microstructure 53 located in the recess 51. These pockets 51 are arranged in parallel along the longitudinal direction of the light guide plate 10. Each of the pockets 51 extends through the lateral direction of the light guide plate 10. Large vertical section of each pocket 51 A square is formed. The microstructures 53 at each dot area 50 have the same density. The density of the microstructures 53 of the different halftone dot regions 50 gradually increases along the longitudinal direction of the light guide plate 10 from the end near the light emitting diode 30 toward the end remote from the light emitting diode 30. It can be understood that these microstructures can be such protrusions, depressions or other structures as long as the effect of scattering light can be achieved.

請同時參閱圖3,所述反射板90由高反射材料製成,貼設於所述導光板10的相對兩側面上。每一反射板90的面積大於或等於所述導光板10的側面的面積,從而完全遮蓋導光板10的側面。本實施例中,每一反射板90均為一縱長的薄板,其尺寸等於所述導光板10的側面的尺寸,並且反射板90正對導光板10的側面貼設,從而完全遮蓋導光板10的側面。 Referring to FIG. 3 simultaneously, the reflector 90 is made of a highly reflective material and is attached to opposite sides of the light guide plate 10. The area of each of the reflecting plates 90 is greater than or equal to the area of the side of the light guiding plate 10, thereby completely covering the side of the light guiding plate 10. In this embodiment, each of the reflecting plates 90 is an elongated thin plate having a size equal to the size of the side surface of the light guiding plate 10, and the reflecting plate 90 is attached to the side of the light guiding plate 10 to completely cover the light guiding plate. The side of the 10th.

請再次參閱圖1及圖3,每一透鏡70包括一底面71、自底面71邊緣向外凸伸的第一出光面73、自第一出光面73頂端垂直向上延伸的第二出光面75及自第二出光面75頂端朝向導光板10凹陷形成的一配光面77。所述透鏡70為一旋轉體,其第一出光面73的縱截面呈外凸的括弧形,所述第二出光面75的縱截面呈矩形,所述配光面77的縱截面呈V形。所述底面71貼設在導光板10的頂面且其中部正對相應的網點區域50。所述第一出光面73的外徑大於第二出光面75的外徑。底面71的直徑等於或大於所述導光板10橫向的尺寸,從而使透鏡70貼設在導光板10上後,能夠完全遮蓋相應的網點區域50。本實施例中,每一透鏡70的底面71的直徑等於導光板10橫向的尺寸。所述配光面77為反射面,用於將所述將到達透鏡70的光線反射後,自第一出光面73及第二出光面75向外出射,從而降低透鏡70中部的光強、加強透鏡70周緣的光強,進而使光線均 勻向外出射。 Referring to FIG. 1 and FIG. 3 again, each lens 70 includes a bottom surface 71, a first light-emitting surface 73 protruding outward from the edge of the bottom surface 71, and a second light-emitting surface 75 extending vertically upward from the top end of the first light-emitting surface 73. A light distribution surface 77 formed concavely from the top end of the second light-emitting surface 75 toward the light guide plate 10. The lens 70 is a rotating body, and a longitudinal section of the first light-emitting surface 73 is convexly curved, a longitudinal section of the second light-emitting surface 75 is rectangular, and a longitudinal section of the light-distributing surface 77 is V-shaped. . The bottom surface 71 is attached to the top surface of the light guide plate 10 and the middle portion faces the corresponding half dot area 50. The outer diameter of the first light-emitting surface 73 is larger than the outer diameter of the second light-emitting surface 75. The diameter of the bottom surface 71 is equal to or larger than the lateral dimension of the light guide plate 10, so that after the lens 70 is attached to the light guide plate 10, the corresponding dot area 50 can be completely covered. In this embodiment, the diameter of the bottom surface 71 of each lens 70 is equal to the lateral dimension of the light guide plate 10. The light distribution surface 77 is a reflection surface for reflecting the light reaching the lens 70, and then exiting from the first light exit surface 73 and the second light exit surface 75, thereby reducing the light intensity and strengthening in the middle of the lens 70. The intensity of the light around the periphery of the lens 70, which in turn causes the light to Even out and shoot out.

所述發光二極體30安裝在導光板10一端,其且尺寸小於或等於導光板10相應端部的尺寸。本實施例中,所述發光二極體30的尺寸等於所述導光板10相應端部的尺寸。 The light emitting diode 30 is mounted at one end of the light guide plate 10 and has a size smaller than or equal to the size of the corresponding end portion of the light guide plate 10. In this embodiment, the size of the light emitting diode 30 is equal to the size of the corresponding end of the light guide plate 10.

所述側入式背光模組100工作時,發光二極體30發出的光線自導光板10的一端朝向相對的另一端射入導光板10內並沿導光板10的長度方向上進行混光。其中,一部分光線到達網點區域50後,網點區域50的微結構53對這些光線進行散射後,使這些光線朝向透鏡70出射,其中,一部分光線穿過透鏡70的底面71直接經第一出光面73與第二出光面75出射,另一部分光線經配光面77反射後經第一出光面73、第二出光面75出射,如此,達到消弱透鏡70中部光強、增強周緣光強,以此來達到均勻光線強度、增大出光角度的目的;另一部分光線射向二反射板90,經二反射板90反射後重複上述自微結構53散射到透鏡70,經透鏡70配光的出光路徑後,實現光線的均勻出射。 When the side-lit backlight module 100 is in operation, light emitted from the light-emitting diodes 30 enters the light guide plate 10 from one end of the light guide plate 10 toward the opposite end and is mixed in the longitudinal direction of the light guide plate 10. After a part of the light reaches the halftone dot area 50, the microstructure 53 of the halftone dot area 50 scatters the light rays, and then the light rays are emitted toward the lens 70. A part of the light passes through the bottom surface 71 of the lens 70 directly through the first light exiting surface 73. The second light exit surface 75 is emitted, and the other portion of the light is reflected by the light distribution surface 77 and then exits through the first light exit surface 73 and the second light exit surface 75. Thus, the light intensity in the middle portion of the lens 70 is weakened, and the peripheral light intensity is enhanced. The purpose of achieving the uniform light intensity and increasing the light exit angle; the other part of the light is directed to the two reflectors 90, and after being reflected by the two reflectors 90, the self-microstructure 53 is repeatedly scattered to the lens 70, and the light path of the light is distributed through the lens 70. , to achieve a uniform output of light.

圖4所示為本發明第二實施例的側入式背光模組100a,所述側入式背光模組100a與第一實施例的側入式背光模組100相似,其區別在於:所述透鏡70a具有底面71a、自底面71a邊緣向外凸設形成的第一出光面73a及自第一出光面73a頂端內凹形成的配光面77a,所述配光面77a為呈V形的折射面,所述透鏡70a的縱截面呈“M”形。所述配光面77a用於反射到達透鏡70a中部的光線,使其朝向第一出光面73a出射。 4 is a side-lit backlight module 100a according to a second embodiment of the present invention. The side-entry backlight module 100a is similar to the side-entry backlight module 100 of the first embodiment, and the difference is that: The lens 70a has a bottom surface 71a, a first light-emitting surface 73a protruding outward from the edge of the bottom surface 71a, and a light-receiving surface 77a recessed from the top end of the first light-emitting surface 73a. The light-receiving surface 77a is V-shaped. The longitudinal section of the lens 70a has an "M" shape. The light distribution surface 77a is for reflecting light reaching the middle of the lens 70a to be emitted toward the first light exit surface 73a.

本實施例中,所述側入式背光模組100a工作時,發光二極體30發出的光線自導光板10的一端朝向相對的另一端射入導光板10內並 沿導光板10的長度方向上進行混光。其中,一部分光線到達網點區域50後,網點區域50的微結構53對這些光線進行散射後,使這些光線朝向透鏡70a出射,其中,一部分光線穿過透鏡70的底面71直接經第一出光面73a出射,另一部分光線射向配光面77a,射向配光面77a的光線中,一部分直接穿過配光面77a出射,另一部分光線經配光面77a反射後自第一出光面73a出射,如此,達到消弱透鏡70a中部光強、增強周緣光強,以此來達到均勻光線強度、增大出光角度的目的;另一部分光線射向二反射板90,經二反射板90反射後重複上述自微結構53散射到透鏡70a,經透鏡70a配光的出光路徑後,實現光線的均勻出射。 In the embodiment, when the side-lit backlight module 100a is in operation, the light emitted from the LEDs 30 is incident on the light guide plate 10 from one end of the light guide plate 10 toward the opposite end. The light is mixed along the length direction of the light guide plate 10. After a part of the light reaches the halftone dot area 50, the microstructure 53 of the halftone dot area 50 scatters the light, and then the light is emitted toward the lens 70a. A part of the light passes through the bottom surface 71 of the lens 70 directly through the first light exiting surface 73a. The other part of the light is emitted toward the light distribution surface 77a, and a part of the light is directly emitted through the light distribution surface 77a, and the other part of the light is reflected by the light distribution surface 77a and then emitted from the first light exit surface 73a. In this way, the light intensity in the middle of the lens 70a is weakened, and the peripheral light intensity is enhanced, thereby achieving the purpose of uniform light intensity and increasing the light exit angle; another portion of the light is directed to the two reflectors 90, and is reflected by the two reflectors 90. After the microstructures 53 are scattered to the lens 70a, the light exiting the light path through the lens 70a achieves uniform light emission.

與習知技術相比,本發明中設置在導光板10一側的發光二極體30發出的光線經導光板10底面的網點區域50散射及透鏡70的配光面77配光後,即可實現消除暗區、均勻光線的作用。 Compared with the prior art, the light emitted by the light-emitting diode 30 disposed on the light guide plate 10 in the present invention is scattered by the halftone dot area 50 of the bottom surface of the light guide plate 10 and the light distribution surface 77 of the lens 70 is light-distributed. Achieve the role of eliminating dark areas and even light.

並且本發明中,發光二極體30的大小不受網點區域50尺寸大小的限制,只要能夠與導光板10的端面配合,將光線全部導入導光板10即可。 Further, in the present invention, the size of the light-emitting diode 30 is not limited by the size of the halftone dot region 50, and any light can be introduced into the light guide plate 10 as long as it can be fitted to the end surface of the light guide plate 10.

可以理解的是,對於本領域的普通技術人員來說,可以根據本發明的技術構思做出其他各種相應的改變與變形,而所有這些改變與變形都應屬於本發明權利要求的保護範圍。 It is to be understood that those skilled in the art can make various other changes and modifications in accordance with the technical concept of the present invention, and all such changes and modifications are intended to fall within the scope of the appended claims.

10‧‧‧導光板 10‧‧‧Light guide plate

50‧‧‧網點區域 50‧‧‧ outlet area

51‧‧‧凹穴 51‧‧‧ recesses

53‧‧‧微結構 53‧‧‧Microstructure

70‧‧‧透鏡 70‧‧‧ lens

71‧‧‧底面 71‧‧‧ bottom

73‧‧‧第一出光面 73‧‧‧The first glazing

75‧‧‧第二出光面 75‧‧‧second glazing

77‧‧‧配光面 77‧‧‧Glossy surface

90‧‧‧反射板 90‧‧‧reflector

100‧‧‧側入式背光模組 100‧‧‧Side-in backlight module

Claims (9)

一種側入式背光模組,包括導光板、設置在所述導光板的端面的發光二極體、設置在所述導光板頂面的透鏡,所述透鏡包括貼設於所述導光板頂面的底面及自底面延伸的配光面,其改良在於:所述導光板與頂面相對的底面設置有網點區域,所述網點區域與所述透鏡的配光面中部正對設置,所述網點區域包括自所述導光板的底面朝向頂面凹陷的複數個凹穴及位於每一凹穴內的複數個微結構。 A side-lit backlight module includes a light guide plate, a light-emitting diode disposed on an end surface of the light guide plate, and a lens disposed on a top surface of the light guide plate, wherein the lens includes a top surface of the light guide plate The bottom surface and the light distribution surface extending from the bottom surface are improved in that a bottom surface of the light guide plate opposite to the top surface is provided with a dot area, and the dot area is disposed opposite to the middle of the light distribution surface of the lens, and the dot is disposed The region includes a plurality of pockets recessed from a bottom surface of the light guide plate toward the top surface and a plurality of microstructures located in each pocket. 如申請專利範圍第1項所述的側入式背光模組,其中,所述網點區域的數量有多個,且這些網點區域沿導光板的縱向平行間隔設置且貫穿導光板的橫向。 The side-entry backlight module of claim 1, wherein the number of the dot areas is plural, and the dot areas are arranged in parallel along the longitudinal direction of the light guide plate and extend through the lateral direction of the light guide plate. 如申請專利範圍第2項所述的側入式背光模組,其中,所述多個網點區域的微結構的密度沿導光板的縱向、自靠近發光二極體的一端向遠離發光二極體的一端逐漸增加。 The side-entry backlight module of claim 2, wherein the density of the microstructures of the plurality of dot regions is along a longitudinal direction of the light guide plate from an end near the light emitting diode to away from the light emitting diode One end gradually increases. 如申請專利範圍第2項所述的側入式背光模組,其中,所述每一網點區域各處的微結構的密度相同。 The side-entry backlight module of claim 2, wherein the density of the microstructures in each of the dot areas is the same. 如申請專利範圍第1項所述的側入式背光模組,其中,所述導光板的相對兩側面上分別貼設有反射板。 The side-entry backlight module of claim 1, wherein the opposite sides of the light guide plate are respectively provided with a reflective plate. 如申請專利範圍第5項所述的側入式背光模組,其中,所述反射板完全遮蓋所述導光板的相對兩側面。 The side-entry backlight module of claim 5, wherein the reflector completely covers opposite sides of the light guide plate. 如申請專利範圍第1項所述的側入式背光模組,其中,所述配光面的縱截面呈V形。 The side-entry backlight module of claim 1, wherein the light distribution surface has a V-shaped longitudinal section. 如申請專利範圍第7項所述的側入式背光模組,其中,所述配光面為反射面或折射面。 The side-entry backlight module of claim 7, wherein the light distribution surface is a reflective surface or a refractive surface. 如申請專利範圍第1項所述的側入式背光模組,其中,所述透鏡還包括連接所述配光面及底面的出光面。 The side-entry backlight module of claim 1, wherein the lens further comprises a light-emitting surface connecting the light distribution surface and the bottom surface.
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