JP3528261B2 - Backlight for panel - Google Patents
Backlight for panelInfo
- Publication number
- JP3528261B2 JP3528261B2 JP21103694A JP21103694A JP3528261B2 JP 3528261 B2 JP3528261 B2 JP 3528261B2 JP 21103694 A JP21103694 A JP 21103694A JP 21103694 A JP21103694 A JP 21103694A JP 3528261 B2 JP3528261 B2 JP 3528261B2
- Authority
- JP
- Japan
- Prior art keywords
- light
- guide plate
- light guide
- diffusing
- backlight
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Light Guides In General And Applications Therefor (AREA)
- Liquid Crystal (AREA)
- Securing Globes, Refractors, Reflectors Or The Like (AREA)
- Planar Illumination Modules (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、透過型、又は半透過型
パネルを背面より照射するパネル用バックライトに関す
る。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backlight for a panel which illuminates a transmissive or semi-transmissive panel from the back side.
【0002】[0002]
【従来の技術】近時、ラップトップ型、又はノ−トブッ
ク型のワ−ドプロセッサ−やコンピュ−タ等の表示装置
として、薄型でしかも見易いバックライト機構を有する
液晶表示装置が用いられている。このようなバックライ
トには、図1に示すように透光性の導光板の一端部に、
蛍光管のような線状光源を併設する1灯型エッジライト
方式、図3に示すように透光性の導光板の対向する二端
部に線状光源を併設する2灯型エッジライト方式がよく
用いられる。このエッジライト方式の場合、図2又は図
4に示すように、導光板の一方の面に光を拡散させる機
能を有する光拡散エレメントを形成し(例えば、この導
光板材料よりも屈折率が大きい光拡散物質を部分的に被
覆する、導光板表面を粗面化する、導光板に穴を開ける
など)、前記導光板の出光面に光拡散板を配し、前記導
光板の出光面の反対側の面を反射板で覆うように配置さ
れたものが多い。2. Description of the Related Art Recently, a liquid crystal display device having a thin and easy-to-read backlight mechanism has been used as a display device for a laptop type or notebook type word processor, a computer or the like. . In such a backlight, as shown in FIG. 1, at one end of a light-transmitting light guide plate,
A one-lamp type edge light system in which a linear light source such as a fluorescent tube is provided, and a two-lamp type edge light system in which a linear light source is provided at two opposite ends of a light-transmitting light guide plate as shown in FIG. Often used. In the case of this edge light method, as shown in FIG. 2 or 4, a light diffusing element having a function of diffusing light is formed on one surface of the light guide plate (for example, the refractive index is larger than that of the light guide plate material). (Partially covering the light diffusing substance, roughening the surface of the light guide plate, making holes in the light guide plate, etc.), arranging the light diffuser plate on the light exit surface of the light guide plate, and opposite the light exit surface of the light guide plate. Many are arranged so that the side surface is covered with a reflector.
【0003】このようなバックライトに用いる導光板
は、導光板とバックライトの構成部品(例えば、光拡散
板、光反射板など)や透過型又は半透過型パネルの基板
とを固定するための孔、又は接(溶)着部(固定・保持
部)をその周囲部分に有するのが常である。The light guide plate used for such a backlight is for fixing the light guide plate and the components of the backlight (for example, a light diffusion plate, a light reflection plate, etc.) and a substrate of a transmissive or semi-transmissive panel. It is usual to have a hole or a contact (welding) portion (fixing / holding portion) in its peripheral portion.
【0004】特に近時、ラップトップ型又はノ−トブッ
ク型パソコンやワ−プロの小型軽量化傾向が著しく、こ
れらの構成要素であるバックライトの小形軽量化が切望
されており、導光板の大きさを、面状発光させる範囲
(光拡散エレメントが導光板上に形成されている範囲を
言い、以下発光部分と記す)の大きさに可能な限り近付
けることがなされている。In recent years, in particular, laptop and notebook type personal computers and word processors have been remarkably reduced in size and weight, and there is a strong demand for reduction in size and weight of the backlight, which is a component thereof, and the size of the light guide plate. That is, the size is made as close as possible to the size of the area in which planar light emission is performed (the area in which the light diffusing element is formed on the light guide plate, hereinafter referred to as the light emitting portion).
【0005】しかし、導光板は通常バックライトとして
の構成要素(例えば、光拡散板、光反射板)やパネルの
基板とで固定されて用いられることが多く、このための
手段として、ネジ又はリベット等を挿入するための孔、
又は接着あるいは溶着等のための部分が発光部分以外に
必要である。そこで、導光板の周辺部に突出部(例えば
図5中7,8)を形成してこれらの固定に用いているも
のが多い。However, the light guide plate is usually used by being fixed to a component as a backlight (for example, a light diffusing plate, a light reflecting plate) or a substrate of a panel, and as a means for this, a screw or a rivet is used. Holes for inserting etc.,
Alternatively, a portion for adhesion or welding is required in addition to the light emitting portion. Therefore, in many cases, protrusions (for example, 7 and 8 in FIG. 5) are formed on the periphery of the light guide plate and used for fixing them.
【0006】導光板内に入射した光は導光板内部面で反
射を繰り返し所定の方向に進行するが、前記したような
導光板に突出部が形成されているとその部分に光が進入
し、結果として突出部に近接する発光部分近傍の輝度が
小さくなり、他の部分を含めた導光板発光部分の輝度が
不均一となるばかりでなく、更に発光効率の低下を招く
という問題があった。The light incident on the light guide plate is repeatedly reflected on the inner surface of the light guide plate and travels in a predetermined direction. When the light guide plate has a protruding portion as described above, the light enters the portion, As a result, there is a problem that the brightness in the vicinity of the light emitting portion close to the protrusion becomes small, the brightness of the light emitting portion of the light guide plate including other portions becomes non-uniform, and further the luminous efficiency is lowered.
【0007】[0007]
【発明が解決しようとする課題】本発明の課題は、強固
に固定できかつ均一な輝度面が得られるエッジライト式
のバックライトを提供することにある。SUMMARY OF THE INVENTION An object of the present invention is to provide an edge light type backlight which can be firmly fixed and can obtain a uniform luminance surface.
【0008】[0008]
【課題を解決するための手段】本発明者らは、上述の問
題点につき種々の検討を行った結果、導光板等を固定す
るための機能を持つ導光板の突出部近傍の発光面の光拡
散機能をある条件で変化させることにより、発光域が突
出部に接近しても、発光部分全体の輝度分布が均一なパ
ネル用バックライトとすることが可能なことを見出し
た。As a result of various studies on the above problems, the inventors of the present invention have found that the light on the light emitting surface near the protrusion of the light guide plate has a function of fixing the light guide plate and the like. It has been found that by changing the diffusion function under certain conditions, it is possible to provide a backlight for a panel in which the luminance distribution of the entire light emitting portion is uniform even if the light emitting region approaches the protruding portion.
【0009】即ち本発明は、透光性材料からなる導光板
の側面端部の少なくとも一方に、これに近接して線状光
源を有し、かつ、前記導光板の一方の面に、光を拡散さ
せる機能を有する光拡散エレメントを線状光源から離れ
るに従ってその機能が大となるように形成し、前記導光
板の出光面側に光拡散板を、出光面の反対側の面側に光
反射板を配したパネル用バックライトにおいて、一箇所
以上の突出部を持つ導光板を用い、突出部に近接した導
光板面の光拡散エレメントを、少なくともその周囲近傍
に比較して密に形成したパネル用バックライトに関する
ものである。That is, according to the present invention, a linear light source is provided on at least one of the side end portions of the light guide plate made of a translucent material, and a light source is provided on one surface of the light guide plate. A light diffusing element having a function of diffusing is formed so that its function becomes larger as the distance from the linear light source increases, and a light diffusing plate is provided on the light emitting surface side of the light guide plate, and light is reflected on the surface side opposite to the light emitting surface. In a panel backlight in which a plate is arranged, a light guide plate having one or more protrusions is used, and a light diffusing element on the surface of the light guide plate close to the protrusions is densely formed at least as compared with the vicinity thereof. For backlights for automobiles.
【0010】次に本発明を図面に基づいて更に詳述す
る。本発明の基本的な構成は例えば図1〜4の斜視図、
断面図に示したものと同様である。図中1は導光板であ
り、光を効率よく通過させる物質であればよく、石英、
ガラス、透光性の天然又は合成樹脂、例えばアクリル系
樹脂等である。Next, the present invention will be described in more detail with reference to the drawings. The basic configuration of the present invention is, for example, a perspective view of FIGS.
It is similar to that shown in the sectional view. In the figure, 1 is a light guide plate, which may be any substance that allows light to pass efficiently, such as quartz,
Examples of the material include glass and translucent natural or synthetic resin such as acrylic resin.
【0011】本発明で言う光拡散エレメントは光拡散機
能を持つ要素を意味し、この光拡散機能は導光板のヘー
ズ値を基準として表すことができる。例えば光拡散エレ
メントを形成した導光板のヘ−ズ値が前記光拡散エレメ
ントを形成しない同一の導光板のヘ−ズ値よりも大き
い。尚、ここで言うヘ−ズ値はJIS−K7105に準
拠して測定したときの値を言う。The light diffusing element referred to in the present invention means an element having a light diffusing function, and this light diffusing function can be expressed based on the haze value of the light guide plate. For example, the light guide plate having the light diffusing element has a haze value larger than that of the same light guide plate having no light diffusing element. The haze value referred to here is a value measured according to JIS-K7105.
【0012】光拡散エレメントを形成する方法は、導光
板面上に直接ドット状に光拡散物質を印刷するか、導光
板面上を粗面化するか、又、導光板面に小穴を多数設け
るなどで、光拡散機能を光源から離れるに従って密とな
るように形成したものを言い、図中6に示したように、
導光板に光散乱物質を用いて光拡散機能を持たせる場合
は、拡散反射率が大きい顔料(例えばチタニア)を含ん
だ塗料、印刷インキ等を用い、これらをスクリ−ン印刷
等の方法で導光板面上にドット状に印刷する。The method of forming the light diffusing element is to print the light diffusing substance in a dot shape directly on the light guide plate surface, to roughen the light guide plate surface, or to provide a large number of small holes on the light guide plate surface. In the figure, the light diffusing function is formed so as to become denser as the distance from the light source increases.
When a light-scattering substance is used for the light guide plate to provide a light-diffusing function, paint or printing ink containing a pigment with a high diffuse reflectance (such as titania) is used, and these are guided by a screen printing method. Dots are printed on the light plate surface.
【0013】鏡面ないし光反射板(図中3)は導光板の
出光面の反対側の面のほぼ全面を覆うように配置する
が、更に導光板の線状光源を近接させていない残りの端
面部のほぼ全面もを覆うように配置すると光の利用効率
及び均一な面状発光を得る点で更に良い。The mirror surface or the light reflecting plate (3 in the figure) is arranged so as to cover almost the entire surface of the light guide plate opposite to the light emitting surface, and the remaining end face of the light guide plate which is not brought close to the linear light source. It is even better to dispose so as to cover almost the entire surface of the part in terms of light utilization efficiency and uniform planar light emission.
【0014】2は光拡散板で、導光板面より出光した光
を散乱させて通過させるものであり、本発明ではこの光
拡散板を1枚又は複数枚用る。Reference numeral 2 denotes a light diffusing plate which scatters and allows the light emitted from the light guide plate surface to pass therethrough. In the present invention, one or more light diffusing plates are used.
【0015】4は線状光源(棒状光源)で、好ましい態
様としては、導光板の端部に光が入光するための間隙
(スリット)を有する光反射器5で、線状光源の光源面
とある幅の間隙をもたせた状態で覆われており、導光板
の少なくとも一端面部に近接してその中心軸が導光板の
端面とほぼ平行となるように設置される。前記線状光源
は、蛍光管、タングステン白熱管、オプティカルロッ
ド、LEDを配列した物等があるが、蛍光管が好まし
く、省電力の面から、電極部を除く均一発光部の長さ
が、近接する導光板の端部の長さとほぼ等しいことが好
ましい。Reference numeral 4 denotes a linear light source (rod-shaped light source), and in a preferred embodiment, a light reflector 5 having a gap (slit) at the end of the light guide plate for allowing light to enter, and the light source surface of the linear light source. It is covered with a gap of a certain width, and is installed close to at least one end face of the light guide plate such that its central axis is substantially parallel to the end face of the light guide plate. The linear light source may be a fluorescent tube, a tungsten incandescent tube, an optical rod, an LED array, or the like, but a fluorescent tube is preferable, and from the viewpoint of power saving, the length of the uniform light emitting section excluding the electrode section is close to each other. It is preferable that the length is substantially equal to the length of the end portion of the light guide plate.
【0016】図5に、バックライトとしての構成要素
や、透過型又は半透過型パネルの基板に固定する機能を
発光部分の外に設けた導光板の例を示す。図中7、8は
バックライトの他の構成要素又は、透過型又は半透過型
パネルの基板とネジ又はリベットを挿入して固定するた
めの孔を有する突出部であり、図中9は光拡散エレメン
ト(図中6)を形成した部分即ち発光部分を示す。図中
10は、突出部の外側(端部面)に設けた反射板を示
す。導光板の側面から突出した突出部においては、導光
板内を進行する光がその形状に由来して複雑となり、そ
の端部面では必要以上に発光することがある。従って、
前記した反射板(図中10)はこの部分での光の損失を
防止する上で効果的である。この反射板は少なくとも突
出部周囲の端部面の厚さに相当する部分を被覆すればよ
い。FIG. 5 shows an example of a light guide plate in which a component as a backlight and a function of fixing to a substrate of a transmissive or semi-transmissive panel are provided outside a light emitting portion. Reference numerals 7 and 8 in the drawing denote other constituent elements of the backlight or projections having holes for inserting and fixing screws or rivets to the substrate of the transmissive or semi-transmissive panel, and 9 in the drawing shows light diffusion. A portion in which an element (6 in the drawing) is formed, that is, a light emitting portion is shown. Reference numeral 10 in the drawing denotes a reflector provided on the outer side (end surface) of the protruding portion. At the protruding portion protruding from the side surface of the light guide plate, the light traveling in the light guide plate becomes complicated due to its shape, and the end face thereof may emit more light than necessary. Therefore,
The above-mentioned reflector (10 in the figure) is effective in preventing light loss in this portion. The reflector may cover at least a portion corresponding to the thickness of the end face around the protrusion.
【0017】図6、図7は、導光板面において突出部に
近接した部分に形成された光拡散エレメントの状態を示
す一実施態様の概略図であり、9が発光部分を示し、本
例では、図6の11、図7の12に示した範囲(図中直
線を交差させた部分)で、光拡散機能を他の部分と変化
させている。即ち、その周囲近傍に比べて光拡散機能が
大(光拡散エレメントを密に形成)となるようにするこ
とが本発明では必須である。光拡散エレメントを周囲近
傍に比べて密に形成する際の目安は、(周辺部の輝度値
/暗部の輝度値)×暗部の割合でヘーズ値を大にすれば
良い。FIG. 6 and FIG. 7 are schematic views of an embodiment showing the state of the light diffusing element formed in the portion close to the protrusion on the surface of the light guide plate, and 9 indicates the light emitting portion, and in this example, , 11 in FIG. 6 and 12 in FIG. 7 (the portions where the straight lines intersect in the drawing), the light diffusion function is changed from that of the other portions. That is, it is essential in the present invention that the light diffusing function is large (the light diffusing elements are densely formed) as compared with the vicinity thereof. When forming the light diffusing element more densely than in the vicinity of the surroundings, the haze value may be increased by the ratio of (luminance value of peripheral portion / luminance value of dark portion) × dark portion.
【0018】上記した突出部近傍の導光板面において他
の部分に比べて光拡散機能を大とする方法は、例えば、
光拡散エレメントの光を拡散させる機能がその周囲近傍
に比べて大となる部分の範囲、即ち、前記突出部の発光
部分に接する辺を底辺として、発光部分の垂直方向に頂
きを持つように形成された山形の内側部分をドット状に
光拡散物質を印刷するか導光板面上を粗面化する方法で
ある。即ち、ドット状に光拡散物質を印刷する場合は、
その単位面積当たりの被覆率(密度)を周囲近傍に比べ
て大にすること、又、粗面化する方法であればその粗面
化の割合を同じく大にすることである。A method of increasing the light diffusing function on the surface of the light guide plate in the vicinity of the protruding portion as compared with other portions is, for example,
The light-diffusing element has a function of diffusing light larger than the surrounding area, that is, a side in contact with the light-emitting portion of the projecting portion is the bottom side, and is formed to have a peak in the vertical direction of the light-emitting portion. This is a method of printing the light diffusion material in a dot shape on the inner portion of the formed chevron or roughening the surface of the light guide plate. That is, when printing the light diffusion material in dots,
The covering rate (density) per unit area is made larger than that in the vicinity of the surroundings, and if the method is roughening, the proportion of roughening is also made large.
【0019】導光板に形成された突出部を中心とした近
傍の、光拡散エレメントを密に形成する導光板面におけ
る部分(図6の11、図7の12に示した範囲)の面積
の目安は、突出部(同7、8)の一面の面積の0.5〜
5倍に相当する面積であることが全体の輝度を均一とす
る上で好ましい。又、光拡散エレメントを密に形成する
度合は、導光板に形成された突出部近傍の光拡散エレメ
ントを、少なくともその周囲近傍の密度に比較して、そ
れより大な密度から1.5倍の範囲の密度(被覆率)に
形成することが同じく全体の輝度を均一とする上で好ま
しい。又、線状光源との位置関係により、図6に示すよ
うに突出部の発光部分に接する辺を底辺とみた場合の中
心線上に上記の山形の頂が必ずしも一致するとは限らな
い。A guide for the area of the portion (the range shown by 11 in FIG. 6 and 12 in FIG. 7) in the vicinity of the protrusion formed on the light guide plate in the light guide plate surface where the light diffusion elements are densely formed. Is 0.5-of the area of one surface of the protrusion (7, 8).
An area corresponding to 5 times is preferable in order to make the entire brightness uniform. Further, the degree of densely forming the light diffusing elements is such that the density of the light diffusing elements in the vicinity of the protruding portion formed on the light guide plate is at least 1.5 times higher than the density in the vicinity of the periphery thereof. It is also preferable to form the density (coverage) within the range in order to make the entire brightness uniform. Further, depending on the positional relationship with the linear light source, the top of the above-mentioned mountain shape does not always coincide with the center line when the side in contact with the light emitting portion of the protrusion is regarded as the bottom side as shown in FIG.
【0020】尚、本発明において光拡散エレメントを密
にする際、その度合は可能な限り滑らかに連続的に変化
させることが好ましく、光拡散エレメントの存在する周
辺部から序々に密度を増加させることが好ましい(従っ
て、この場合は、導光板の発光部分の、突出部に相対す
る部分のほぼ中央部の密度が最大となる)。In the present invention, when the light diffusing elements are made dense, it is preferable that the degree of the light diffusing elements is continuously changed as smoothly as possible, and the density is gradually increased from the peripheral portion where the light diffusing elements are present. Is preferable (therefore, in this case, the density of the light emitting portion of the light guide plate is maximized in the substantially central portion of the portion facing the protrusion).
【0021】本発明は、光拡散板の上面に液晶パネルな
どの透過型又は半透過型表示パネルを設置して使用され
る。The present invention is used by installing a transmissive or semi-transmissive display panel such as a liquid crystal panel on the upper surface of the light diffusion plate.
【0022】[0022]
【発明の効果】本発明は、導光板の発光面側の面積に比
較して極めて大きな均一な発光部分を得られるので、小
型軽量で均一な面状発光が得られるバックライトとして
使用できる。Industrial Applicability According to the present invention, an extremely large and uniform light emitting portion can be obtained as compared with the area on the light emitting surface side of the light guide plate, so that the present invention can be used as a backlight which is small in size and light in weight and uniform in planar light emission.
【0023】[0023]
【実施例】次に比較例及び実施例で本発明を更に詳述す
る。図5に示すような厚さ3mmの長方形導光板(215 mm
×160 mm)の長手の端部に、直径3mmの太さの冷陰極蛍
光管を配置し、導光板に接する部分に3mmのスリットを
持つ筒型アルミ反射器の内面に光拡散フィルムをラミネ
−トしたもので光源を覆い、スリットから出光した光が
導光板の端部から導光板に入光するように配置した。EXAMPLES Next, the present invention will be described in more detail with reference to Comparative Examples and Examples. A rectangular light guide plate with a thickness of 3 mm (215 mm
A cold cathode fluorescent tube with a diameter of 3 mm is arranged at the long end of (160 mm), and a light diffusion film is laminated on the inner surface of a cylindrical aluminum reflector having a slit of 3 mm in the portion in contact with the light guide plate. The light source was covered with the light source and arranged so that the light emitted from the slit enters the light guide plate from the end portion of the light guide plate.
【0024】一方、導光板面上(導光板の裏面)に被覆
する光拡散物質(チタンホワイトを含む塗料)は、円形
のドットパタ−ンをスクリ−ン印刷したもので下記の条
件で作成した。光拡散物質の被覆率が、光源側の最小の
地点で6% (ヘ−ズ値で1.8% )、光源と反対側の導
光板端部の最大の地点で80% (ヘ−ズ値で58% )、
その中間ではこれらの比率を順次増加した値となるよう
に作図した。発光域(発光部分)の大きさは213mm×
157mmである。On the other hand, the light-diffusing substance (paint containing titanium white) coated on the surface of the light guide plate (the back surface of the light guide plate) was formed by screen-printing circular dot patterns under the following conditions. The light-diffusing material coverage is 6% at the minimum point on the light source side (1.8% in haze value) and 80% at the maximum point at the end of the light guide plate opposite to the light source (haze value). 58%),
In the middle, the plots were made so that these ratios would gradually increase. The size of the light emitting area (light emitting part) is 213 mm ×
It is 157 mm.
【0025】さらに、導光板の出光面側に光拡散フィル
ム(辻本電機製作所D-204 )を1枚配置した。導光板の
入光面と出光面以外の面は光拡散反射板を配置した。導
光板の側面の冷陰極蛍光管に近い部分には、図6に示し
たように導光板を固定するためのネジを挿入するための
直径2.5mmの孔が開けられた幅5.3mm、長さ5mmの
突出部が設けられている。また、冷陰極蛍光管の反対側
の導光板端部には、幅10mm、長さ5mmの同様の突出部
が設けられている。導光板の端部より発光部分までの距
離は約1mmとした。Further, one light diffusion film (Tsujimoto Denki Seisakusho D-204) was arranged on the light exit surface side of the light guide plate. A light diffusive reflector was arranged on the surface of the light guide plate other than the light entrance face and the light exit face. At a portion of the side surface of the light guide plate near the cold cathode fluorescent tube, a width of 5.3 mm with a hole having a diameter of 2.5 mm for inserting a screw for fixing the light guide plate as shown in FIG. 6, A 5 mm long protrusion is provided. A similar protrusion having a width of 10 mm and a length of 5 mm is provided at the end of the light guide plate on the opposite side of the cold cathode fluorescent tube. The distance from the end of the light guide plate to the light emitting portion was about 1 mm.
【0026】冷陰極管にインバ−タより30KHzの交
番電圧をかけて一定電流で駆動させたときの面輝度を、
輝度計(トプコンBM-8)により視野角0.2度、出光面
に降した法線方向に対して、出光面から輝度計(アタッ
チメントレンズ先端)までの距離12mmで図8中13方
向及び14方向で測定した結果を図9(a)に示した
(縦軸は輝度…相対値、横軸は矢印方向の距離を示す。
図中点線は全体の平均輝度を示す)。このときの面状発
光の状態を目視により観察したところ図8中11の部分
の輝度はその回りの発光部分(図中9)に比べて低下し
た状態であった(比較例)。The surface luminance when an alternating voltage of 30 KHz is applied to the cold cathode tube by an inverter and driven by a constant current,
With a luminance meter (Topcon BM-8), the viewing angle is 0.2 degrees, and the distance from the light emitting surface to the luminance meter (attachment lens tip) is 12 mm with respect to the direction normal to the light emitting surface. The result of measurement in the direction is shown in FIG. 9 (a) (the vertical axis represents the luminance ... Relative value, and the horizontal axis represents the distance in the arrow direction.
The dotted line in the figure shows the average luminance of the whole). When the state of planar light emission at this time was visually observed, the luminance of the portion 11 in FIG. 8 was lower than that of the surrounding light emitting portion (9 in the figure) (Comparative Example).
【0027】次に図8中11の部分の光拡散機能がその
周囲近傍に比べて大となるように、即ち、導光板面上に
被覆する光拡散物質のドットの直径を10〜250μm
の範囲で変化させて、この部分の被覆率を12〜20%
(ヘーズ値2.9〜6.3%)とした以外は比較例と同
一の装置、条件で操作し測定した結果を図9(b)に示
した(縦軸は輝度…相対値、横軸は矢印方向の距離を示
す。図中点線は全体の平均輝度を示す)。尚、光拡散機
能を変化させた部分の面積は、ほぼ突出部(図中7…但
し孔の部分の面積も含む)の面積と同じとした。又、図
8中11の部分以外の部分の被覆率は12% 前後であっ
た。さらに、図7で示した導光板の光源から最も遠い端
部の突出部(図中8)に対応する部分(図中12)につ
いても同様の結果が得られた。尚、この場合、突出部の
外側に反射板(図中10)を設け、被覆率を78% とし
た(図中12以外の部分の被覆率は78〜100% …ヘ
ーズ値で57〜90% )。又、このときの面状発光の状
態は目視で観察した結果均一な面状発光の状態であった
(実施例)。Next, in order to make the light diffusing function of the portion 11 in FIG. 8 larger than that of the vicinity thereof, that is, the diameter of the dot of the light diffusing substance coated on the surface of the light guide plate is 10 to 250 μm.
By changing in the range of, the coverage of this part is 12 to 20%
FIG. 9B shows the results measured by operating under the same apparatus and conditions as those of the comparative example except that the haze value was set to 2.9 to 6.3% (the vertical axis represents luminance ... Relative value, horizontal axis). Indicates the distance in the direction of the arrow. The dotted line in the figure indicates the average luminance of the whole). The area of the portion where the light diffusing function was changed was substantially the same as the area of the projecting portion (7 in the figure, but including the area of the hole portion). Further, the coverage of the portion other than the portion 11 in FIG. 8 was around 12%. Further, similar results were obtained for the portion (12 in the figure) corresponding to the protrusion (8 in the figure) at the end farthest from the light source of the light guide plate shown in FIG. In this case, a reflection plate (10 in the figure) is provided outside the protruding portion, and the coverage is set to 78% (the coverage other than 12 in the drawing is 78 to 100% ... 57 to 90% in haze value). ). In addition, the state of planar light emission at this time was visually observed, and as a result, it was a state of uniform planar light emission (Example).
【図1】1灯型エッジライト方式のバックライトの1例
を示す斜視図FIG. 1 is a perspective view showing an example of a one-light type edge light type backlight.
【図2】1灯型エッジライト方式のバックライトの1例
を示す断面図FIG. 2 is a cross-sectional view showing an example of a one-lamp edge-light type backlight.
【図3】2灯型エッジライト方式のバックライトの1例
を示す斜視図FIG. 3 is a perspective view showing an example of a two-light type edge light type backlight.
【図4】2灯型エッジライト方式のバックライトの1例
を示す断面図FIG. 4 is a cross-sectional view showing an example of a two-light type edge light type backlight.
【図5】突出部を持つ導光板を示す図FIG. 5 is a diagram showing a light guide plate having a protrusion.
【図6】突出部に近接する導光板面の光拡散エレメント
の状態を示す図FIG. 6 is a diagram showing a state of a light diffusing element on a surface of a light guide plate which is close to a protrusion.
【図7】突出部に近接する導光板面の光拡散エレメント
の状態を示す図FIG. 7 is a diagram showing a state of a light diffusing element on a surface of a light guide plate which is close to a protrusion.
【図8】突出部に近接する導光板面の光拡散エレメント
の状態を示す図FIG. 8 is a diagram showing a state of a light diffusing element on a surface of a light guide plate which is close to a protrusion.
【図9】導光板面の輝度を示す図FIG. 9 is a diagram showing the brightness of the light guide plate surface.
1:導光板 2:光拡散板 3:光反射板 4:線状光源 5:光反射器 6:光拡散エレメント 7:接(溶)着用の突出部 8:接(溶)着用の突出部 9:発光部分 10:突出部の外側に設けた反射板 11:光拡散機能がその周囲近傍に比べて大とした範囲 12:光拡散機能がその周囲近傍に比べて大とした範囲 13:輝度測定方向 14:輝度測定方向 1: Light guide plate 2: Light diffusion plate 3: Light reflector 4: Linear light source 5: Light reflector 6: Light diffusion element 7: Protrusion part for contact (melt) wear 8: Protrusion part for welding (melting) 9: Light emitting part 10: Reflector provided outside the protruding portion 11: Range where the light diffusion function is larger than that of the vicinity 12: Range where the light diffusion function is larger than that of the vicinity 13: Brightness measurement direction 14: Brightness measurement direction
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) G02F 1/13 - 1/141 G02B 6/00 F21V 8/00 ─────────────────────────────────────────────────── ─── Continuation of front page (58) Fields surveyed (Int.Cl. 7 , DB name) G02F 1/13-1/141 G02B 6/00 F21V 8/00
Claims (6)
なくとも一方に、これに近接して線状光源を有し、か
つ、前記導光板の一方の面に、光を拡散させる機能を有
する光拡散エレメントを線状光源から離れるに従ってそ
の機能が大となるように形成し、前記導光板の出光面側
に光拡散板を、出光面の反対側の面側に光反射板を配し
たパネル用バックライトにおいて、一箇所以上の突出部
を持つ導光板を用い、突出部に近接した導光板面の光拡
散エレメントを、少なくともその周囲近傍の光拡散エレ
メントに比較して密に形成したパネル用バックライト。1. A light guide plate made of a translucent material, which has a linear light source adjacent to at least one of the side surface end portions thereof, and has a function of diffusing light on one surface of the light guide plate. A light diffusing element having a function increasing as the distance from the linear light source increases, and a light diffusing plate is arranged on the light emitting surface side of the light guide plate and a light reflecting plate is arranged on the surface side opposite to the light emitting surface. In the backlight for a panel, a light guide plate having one or more protrusions is used, and the light diffusion element on the light guide plate surface close to the protrusion is formed densely at least as compared with the light diffusion elements in the vicinity thereof. Backlight for panel.
持つものである請求項1記載のバックライト。2. The backlight according to claim 1, wherein the protruding portion of the light guide plate has a function of fixing the light guide plate.
エレメントを密に形成した導光板面における面積が、突
出部の一面の表面積の0.5〜5倍に相当するものであ
る請求項1又は2記載のバックライト。3. The area of the surface of the light guide plate on which the light diffusing elements are densely formed, in the vicinity of the protrusion formed on the light guide plate, corresponds to 0.5 to 5 times the surface area of one surface of the protrusion. The backlight according to claim 1.
レメントを、少なくともその周囲近傍の密度より大きく
1.5倍以下の範囲の密度に形成した請求項1〜3のい
ずれか1項に記載のパネル用バックライト。Wherein the light diffusing element of the projection vicinity formed on the light guide plate, at least around the vicinity claims 1 to 3 was formed to a density of 1.5 times or less in the range greater than the density of the noise
The backlight for a panel according to item 1 .
射板で被覆した請求項1〜4のいずれか1項に記載のパ
ネル用バックライト。5. A panel backlight according to end faces of at least the projecting portion on any one of claims 1 to 4 coated with a light reflecting plate of the light guide plate.
ト状物、粗面、小孔から選ばれるものである請求項1〜
5のいずれか1項に記載のバックライト。6. The light-diffusing element is selected from a light-diffusing dot-like material, a rough surface, and small holes.
The backlight according to any one of 5 above.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP21103694A JP3528261B2 (en) | 1994-09-05 | 1994-09-05 | Backlight for panel |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP21103694A JP3528261B2 (en) | 1994-09-05 | 1994-09-05 | Backlight for panel |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0876116A JPH0876116A (en) | 1996-03-22 |
JP3528261B2 true JP3528261B2 (en) | 2004-05-17 |
Family
ID=16599311
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP21103694A Expired - Fee Related JP3528261B2 (en) | 1994-09-05 | 1994-09-05 | Backlight for panel |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3528261B2 (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR0169444B1 (en) | 1996-07-11 | 1999-01-15 | 김광호 | Display device |
JP3662788B2 (en) * | 1999-10-06 | 2005-06-22 | Nec液晶テクノロジー株式会社 | Liquid crystal display device and portable information terminal device |
JP4045721B2 (en) * | 2000-04-21 | 2008-02-13 | 三菱電機株式会社 | Sidelight surface light source device |
KR100701014B1 (en) * | 2000-11-22 | 2007-03-29 | 삼성전자주식회사 | A light guide plate, a liquid crystal display module and a liquid crystal display device having the same |
KR101660426B1 (en) * | 2009-08-05 | 2016-09-28 | 엘지디스플레이 주식회사 | Liquid crystal display device |
-
1994
- 1994-09-05 JP JP21103694A patent/JP3528261B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH0876116A (en) | 1996-03-22 |
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