JPH11231132A - 1/4-wavelength plate, circular polarizing plate, and liquid crystal display device - Google Patents

1/4-wavelength plate, circular polarizing plate, and liquid crystal display device

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Publication number
JPH11231132A
JPH11231132A JP10048752A JP4875298A JPH11231132A JP H11231132 A JPH11231132 A JP H11231132A JP 10048752 A JP10048752 A JP 10048752A JP 4875298 A JP4875298 A JP 4875298A JP H11231132 A JPH11231132 A JP H11231132A
Authority
JP
Japan
Prior art keywords
wavelength
plate
polarizing plate
stretched film
light
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.)
Pending
Application number
JP10048752A
Other languages
Japanese (ja)
Inventor
Hisashi Yamaoka
尚志 山岡
Hiroyuki Yoshimi
裕之 吉見
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nitto Denko Corp
Original Assignee
Nitto Denko Corp
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Nitto Denko Corp filed Critical Nitto Denko Corp
Priority to JP10048752A priority Critical patent/JPH11231132A/en
Publication of JPH11231132A publication Critical patent/JPH11231132A/en
Pending legal-status Critical Current

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  • Polarising Elements (AREA)
  • Liquid Crystal (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a circular polarizing plate which hardly causes color difference in reflected light between front view and oblique view and has superior wide-band characteristics for reflection prevention, heat resistance, etc., by obtaining a wavelength plate which functions as a 1/4-wavelength plate over a wide wavelength range of the entire visible light range, etc., and hardly causes differences in phase difference characteristics between front view and oblique view. SOLUTION: This device has the 1/4-wavelength plate 5 which is formed by stacking drawn films 1 and 3 giving a phase difference of 1/2 or 1/4 wavelength to monochromatic light so that their optical axes cross each other while one of the drawn films has a <=50×1/10<13> cm<2> /dyn coefficient of photoelasticity to light of 633 nm in wavelength and wavelength dependency Δn1 /Δn2 <1.05 of birefringence differences Δn1 and Δn2 to lights of 500(Δn1 ) and 550 nm (Dn) in wavelength and circular polarizing plates 1 to 5 consisting of the 1/4-wavelength plate 5 and polarizing plate 4. Consequently, the circular polarizing plates 1 to 5 are obtained which have superior field angle characteristics and wide-band characteristics.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の技術分野】本発明は、広い波長域にわたり1/
4波長の位相差を与える1/4波長板、及び広い波長域
にわたり反射を防止して視野角と耐久性に優れる円偏光
板、並びに視認特性に優れる液晶表示装置に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention
The present invention relates to a quarter-wave plate that provides a phase difference of four wavelengths, a circularly polarizing plate that prevents reflection over a wide wavelength range and is excellent in viewing angle and durability, and a liquid crystal display device that is excellent in viewing characteristics.

【0002】[0002]

【従来の技術】従来、1枚の延伸フィルムを用いてなる
1/4波長板が知られていた。しかしながら、その位相
差が波長毎に異なり、1/4波長板として機能しうる波
長が特定のものに限られる問題点があった。すなわち例
えば、波長が550nmの光に対して1/4波長板として
機能するものの場合、波長が450nmや650nmの光に
対しては1/4波長板として機能しない。そのため、例
えば偏光板に接着して円偏光板とし、それをディスプレ
イ等の表面反射を抑制するための反射防止フィルターと
して用いた場合、波長が550nmでない光に対しては充
分な反射防止機能を発揮せず、特に青色系の光に対する
反射防止機能に乏しくて、ディスプレイ等が青く見える
問題点があった。
2. Description of the Related Art Conventionally, a quarter-wave plate using one stretched film has been known. However, there is a problem that the phase difference differs for each wavelength, and the wavelength that can function as a quarter-wave plate is limited to a specific wavelength. That is, for example, in the case of a device that functions as a quarter-wave plate for light having a wavelength of 550 nm, it does not function as a quarter-wave plate for light having a wavelength of 450 nm or 650 nm. Therefore, for example, when a circularly polarizing plate is adhered to a polarizing plate and used as an antireflection filter for suppressing surface reflection of a display or the like, a sufficient antireflection function is exhibited for light having a wavelength other than 550 nm. However, there is a problem that the display or the like looks blue due to a poor antireflection function particularly for blue light.

【0003】前記に鑑みて本発明者らが属するグループ
は先に、1/4波長と1/2波長の位相差を与える複数
の延伸フィルムを光軸を交差させて積層してなる1/4
波長板を提案した(特開平5−100114号公報)。
これによれば、広い波長域にわたり1/4波長の位相差
を与えることができる。しかしながら、正面(垂直)と
斜め方向ではその位相差特性が相違して、例えばそれを
円偏光板として反射層の上に配置し、その反射防止性を
調べた場合に、正面方向では黒い均一な反射色となる
が、視角を変えて斜視するとやや明るい青色や淡黄色の
反射色となる難点のあることが判明した。
[0003] In view of the above, the group to which the present inventors belong firstly forms a 1/4 wavelength by laminating a plurality of stretched films giving a phase difference of 1/4 wavelength and 1/2 wavelength with their optical axes crossing each other.
A wavelength plate has been proposed (JP-A-5-100114).
According to this, a 1/4 wavelength phase difference can be given over a wide wavelength range. However, the phase difference characteristic is different between the front (vertical) and oblique directions. For example, when it is arranged on a reflective layer as a circularly polarizing plate and its antireflection property is examined, a black uniform It turned out to be a reflected color, but it turned out that there was a problem that a slightly bright blue or light yellow reflected color was obtained when the viewing angle was changed and the user looked obliquely.

【0004】[0004]

【発明の技術的課題】本発明は、全可視光域等の広い波
長域にわたって1/4波長板として機能しうる特徴を維
持しつつ、正面と斜視で位相差特性が相違しにくい波長
板を得て、反射光が正面と斜視で色相違を生じにくくて
視角特性に優れると共に、反射防止の広帯域性や耐熱性
等に優れる円偏光板の開発を目的とする。
SUMMARY OF THE INVENTION The present invention is directed to a wave plate having a phase difference characteristic that is unlikely to be different between a front surface and a perspective while maintaining a feature that can function as a quarter wave plate over a wide wavelength region such as the entire visible light region. It is another object of the present invention to develop a circularly polarizing plate which is excellent in viewing angle characteristics because reflected light hardly causes a color difference between a front and a perspective, and which is excellent in antireflection broadband property and heat resistance.

【0005】[0005]

【課題の解決手段】本発明は、単色光に対して1/2波
長の位相差を与える延伸フィルムと1/4波長の位相差
を与える延伸フィルムをそれらの光軸を交差させて積層
してなり、かつ前記延伸フィルムの少なくとも1枚が波
長633nmの光に対する光弾性係数が50×1/1013
cm2/dyn以下、複屈折率差△n1、△n2の波長依存性が
波長400nm(△n1)と550nm(△n2)の光に基づ
いて△n1/△n2<1.05のものであることを特徴と
する1/4波長板、並びにその1/4波長板と偏光板と
の積層体からなることを特徴とする円偏光板、及びその
円偏光板を有することを特徴とする液晶表示装置を提供
するものである。
According to the present invention, a stretched film that gives a phase difference of に 対 し て wavelength to a monochromatic light and a stretched film that gives a phase difference of 4 wavelength are laminated with their optical axes crossing each other. And at least one of the stretched films has a photoelastic coefficient of 50 × 1/10 13 with respect to light having a wavelength of 633 nm.
cm 2 / dyn or less, the wavelength dependence of the birefringence differences Δn 1 and Δn 2 is Δn 1 / Δn 2 <1 based on light having wavelengths of 400 nm (Δn 1 ) and 550 nm (Δn 2 ). .05, a quarter-wave plate, a circularly-polarized plate comprising a laminate of the quarter-wave plate and a polarizing plate, and having the circularly-polarized plate A liquid crystal display device characterized by the following.

【0006】[0006]

【発明の効果】単色光に対して1/2波長と1/4波長
の位相差を与える延伸フィルムの複数枚をそれらの光軸
を交差させて積層することにより、複屈折率差(△n)
と厚さ(d)の積(△nd)で定義される位相差の波長
分散を重畳ないし加減できて任意に制御でき、全体とし
ての位相差を所定の値に制御しつつ波長分散を抑制し
て、全可視光域等の広い波長域にわたり1/4波長の位
相差を示す波長板を得ることができる。
The birefringence difference (Δn) is obtained by laminating a plurality of stretched films that give a phase difference of 1 / wavelength and 1 / wavelength to monochromatic light with their optical axes crossing each other. )
The wavelength dispersion of the phase difference defined by the product of the thickness and the thickness (d) (△ nd) can be arbitrarily controlled by superimposing or adjusting the chromatic dispersion, thereby suppressing the chromatic dispersion while controlling the overall phase difference to a predetermined value. Thus, it is possible to obtain a wave plate exhibiting a 1/4 wavelength phase difference over a wide wavelength range such as the entire visible light range.

【0007】また前記の場合に、波長633nmの光に対
する光弾性係数が50×1/1013cm2/dyn以下で、複
屈折率差△n1、△n2の波長依存性が400nm(△
1)と550nm(△n2)の波長光に基づいて△n1
△n2<1.05である延伸フィルムを用いることによ
り、耐熱性に優れ、正面と斜視で位相差特性が相違しに
くくて、可視域等の広い波長域で1/4波長板として機
能するものを得ることができる。
In the above case, the photoelastic coefficient for light having a wavelength of 633 nm is 50 × 1/10 13 cm 2 / dyn or less, and the wavelength dependence of the birefringence differences Δn 1 and Δn 2 is 400 nm (Δn 2).
n 1) and on the basis of the wavelength of 550nm (△ n 2) △ n 1 /
By using a stretched film satisfying Δn 2 <1.05, it has excellent heat resistance, has little difference in retardation characteristics between the front and the oblique, and functions as a 波長 wavelength plate in a wide wavelength region such as a visible region. You can get things.

【0008】また前記の1/4波長板を用いて、反射光
が正面と斜視で色相違を生じにくくて視角特性に優れ、
反射防止の広帯域性や耐熱性等に優れて可視域等の光の
反射をほぼ防止する広帯域の反射防止フィルターなどと
して有用な円偏光板を得ることができる。
Further, by using the above-mentioned quarter wavelength plate, the reflected light is unlikely to cause a color difference between the front and the perspective, so that the viewing angle characteristic is excellent,
It is possible to obtain a circularly polarizing plate which is excellent as a broadband antireflection filter which is excellent in antireflection broadband properties and heat resistance and almost prevents reflection of light in a visible region or the like.

【0009】[0009]

【発明の実施形態】本発明による1/4波長板は、単色
光に対して1/2波長の位相差を与える延伸フィルムと
1/4波長の位相差を与える延伸フィルムをそれらの光
軸を交差させて積層してなり、かつ前記延伸フィルムの
少なくとも1枚が波長633nmの光に対する光弾性係数
が50×1/1013cm2/dyn以下、複屈折率差△n1
△n2の波長依存性が波長400nm(△n1)と550nm
(△n2)の光に基づいて△n1/△n2<1.05のも
のからなる。
BEST MODE FOR CARRYING OUT THE INVENTION A quarter-wave plate according to the present invention comprises a stretched film giving a phase difference of 1/2 wavelength and a stretched film giving a phase difference of 1/4 wavelength to monochromatic light. At least one of the stretched films has a photoelastic coefficient of 50 × 1/10 13 cm 2 / dyn or less for light having a wavelength of 633 nm, a birefringence difference Δn 1 ,
The wavelength dependence of Δn 2 is 400 nm (Δn 1 ) and 550 nm
It is composed of Δn 1 / Δn 2 <1.05 based on the light of (Δn 2 ).

【0010】本発明による1/4波長板の例を図1に示
した。1,3が1/2波長又は1/4波長の位相差を与
える延伸フィルムであり、2は透明な接着層である。本
発明による1/4波長板を得るための条件は、単色光に
対して1/2波長と1/4波長の位相差を与える少なく
とも2種の延伸フィルムを用いること、その延伸フィル
ムの少なくとも1枚に波長633nmの光に対する光弾性
係数が50×1/1013cm2/dyn以下で、複屈折率差△
1、△n2の波長依存性が400nm(△n1)と550n
m(△n2)の波長光に基づいて△n1/△n2<1.05
であるものを用いること、及び積層する各延伸フィルム
の光軸を交差させることである。
FIG. 1 shows an example of a quarter-wave plate according to the present invention. Reference numerals 1 and 3 are stretched films that give a retardation of 1 / wavelength or 1 / wavelength, and 2 is a transparent adhesive layer. The condition for obtaining the quarter-wave plate according to the present invention is that at least two types of stretched films that give a phase difference of 波長 wavelength and 1 / wavelength to monochromatic light are used, and at least one of the stretched films is used. The photoelastic coefficient for light having a wavelength of 633 nm is 50 × 1/10 13 cm 2 / dyn or less, and the birefringence difference Δ
The wavelength dependences of n 1 and Δn 2 are 400 nm (Δn 1 ) and 550 n
△ n 1 / △ n 2 <1.05 based on m (光 n 2 ) wavelength light
And crossing the optical axis of each stretched film to be laminated.

【0011】前記において、延伸フィルムの積層数は任
意である。光の透過率などの点より2〜5枚の積層が一
般的である。また、1/2波長の位相差を与える延伸フ
ィルムと1/4波長の位相差を与える延伸フィルムの配
置位置も任意である。
In the above, the number of layers of the stretched film is arbitrary. Generally, two to five sheets are stacked in terms of light transmittance and the like. Further, the arrangement positions of the stretched film that gives a retardation of 1 / wavelength and the stretched film that gives a retardation of 波長 wavelength are also arbitrary.

【0012】1/4波長の位相差を与える延伸フィルム
を1枚用いて、それを1/4波長板の出射側端に配置す
る場合を例として、各延伸フィルムの光軸の交差角度と
各延伸フィルムを出た偏光の方向(θ)の関係は次式で
表される。すなわち、1/2波長の位相差を与える延伸
フィルムの使用数をnとしてそれらをλ/2(1,2,
・・・n)で表し、入射直線偏光方向を基準(0°)に
して各λ/2(1,2,・・・n)の積層角度をθ1
θ2、・・・θnとすると、 積層角度=2(θ1+θ2+・・・+θn-1)+θn 各λ/2板を出た偏光の方向=2(θ1+θ2+・・・+
θn) で表され、それに1/4波長の位相差を与える延伸フィ
ルムを45度の角度で積層することにより円偏光が得ら
れる。
[0012] As an example, a case where one stretched film giving a phase difference of 1/4 wavelength is used and arranged at the exit side end of the 1/4 wavelength plate, the crossing angle of the optical axis of each stretched film and each stretched film are used. The relationship of the direction (θ) of polarized light leaving the stretched film is represented by the following equation. That is, assuming that the number of stretched films that give a half-wave retardation is n, they are λ / 2 (1, 2,
.. N), and the lamination angle of each λ / 2 (1, 2,... N) is θ 1 , with the incident linear polarization direction as a reference (0 °).
Assuming θ 2 ,... θ n , the stacking angle = 2 (θ 1 + θ 2 +... + θ n-1 ) + θ n The direction of polarized light leaving each λ / 2 plate = 2 (θ 1 + θ 2 + ... +
θ n ), a circularly polarized light can be obtained by laminating a stretched film having a phase difference of 波長 wavelength at an angle of 45 °.

【0013】前記した関係を、1/2波長の位相差を与
える延伸フィルムを3枚(λ/2(1,2,3))用い
た場合を例に次表に示した。なお、λ/4は1/4波長
の位相差を与える延伸フィルムを表す。
The above relationship is shown in the following table, taking as an example the case where three stretched films (λ / 2 (1, 2, 3)) giving a retardation of 波長 wavelength are used. Here, λ / 4 represents a stretched film that gives a retardation of 波長 wavelength.

【0014】本発明において用いる、単色光に対して1
/2波長又は1/4波長の位相差を与える延伸フィルム
は、例えば高分子フィルムを一軸や二軸等の適宜な方式
で延伸処理する方法などにより得ることができる。その
高分子の種類については特に限定はなく、透明性に優れ
るものが好ましく用いられる。その例としては、ポリカ
ーボネート系高分子やポリエステル系高分子、ポリスル
ホン系高分子やポリエーテルスルホン系高分子、ポリス
チレン系高分子やポリオレフィン系高分子、ポリビニル
アルコール系高分子や酢酸セルロース系高分子、ポリ塩
化ビニル系高分子やポリメチルメタクリレート系高分
子、ポリアリレート系高分子やポリアミド系高分子など
があげられる。
In the present invention, 1 is used for monochromatic light.
The stretched film giving a phase difference of wavelength or 1 / wavelength can be obtained, for example, by a method of stretching a polymer film by an appropriate method such as uniaxial or biaxial. The type of the polymer is not particularly limited, and those having excellent transparency are preferably used. Examples include polycarbonate-based polymers and polyester-based polymers, polysulfone-based polymers and polyethersulfone-based polymers, polystyrene-based polymers and polyolefin-based polymers, polyvinyl alcohol-based polymers and cellulose acetate-based polymers, and polystyrene-based polymers. Examples include a vinyl chloride polymer, a polymethyl methacrylate polymer, a polyarylate polymer, and a polyamide polymer.

【0015】就中、上記した光弾性係数と複屈折率差の
波長依存性の容易な実現性などの点よりは、ポリオレフ
ィン系高分子、就中、環状オレフィン系高分子や酢酸セ
ルロース系高分子、ポリメチルメタクリレート系高分子
などが好ましく用いうる。またかかる高分子は、1/4
波長の位相差を与える延伸フィルムの形成に特に好まし
く用いうる。
In particular, from the viewpoint of easy realization of the wavelength dependence of the photoelastic coefficient and the birefringence difference, polyolefin polymers, especially, cyclic olefin polymers and cellulose acetate polymers are preferred. And polymethyl methacrylate polymers can be preferably used. Also, such a polymer is 1 /
It can be particularly preferably used for forming a stretched film giving a wavelength retardation.

【0016】一方、1/2波長の位相差を与える延伸フ
ィルムの形成には、就中、その位相差付与の加工性や、
高い光弾性係数の付与及び400nm(△n1)と550n
m(△n2)の波長光に基づいて複屈折率差△n1、△n2
の波長依存性が△n1/△n2>1.05を満足する特性
の付与による正面と斜視での位相差の相違の抑制、ひい
ては視角特性の向上などの点より、例えばポリカーボネ
ート系高分子やポリスルホン系高分子、ポリエーテルス
ルホン系高分子やポリアリレート系高分子などが特に好
ましく用いうる。
On the other hand, in the formation of a stretched film giving a half-wave retardation, the workability of giving the retardation,
Grant and 400nm high photoelastic coefficient (△ n 1) and 550n
Based on the wavelength light of m (1n 2 ), the birefringence index differences △ n 1 , △ n 2
For example, a polycarbonate-based polymer is preferred in terms of suppressing the difference in phase difference between the front and the oblique view by providing a property that the wavelength dependency of △ n 1 / △ n 2 > 1.05 satisfies, and further improving the viewing angle property. And polysulfone-based polymers, polyethersulfone-based polymers and polyarylate-based polymers can be particularly preferably used.

【0017】従って前記した如く、耐熱性や視角特性な
どに優れる1/4波長板を得る点よりは、波長633nm
の光に対する光弾性係数50×1/1013cm2/dyn以下
で、△n1/△n2<1.05を満足する単色光に対して
1/4波長の位相差を与える延伸フィルムと、△n1
△n2>1.05を満足する単色光に対して1/2波長
の位相差を与える延伸フィルムとの組合せとすることが
好ましい。
Therefore, as described above, from the viewpoint of obtaining a quarter-wave plate having excellent heat resistance and viewing angle characteristics, the wavelength is 633 nm.
A stretched film that gives a phase difference of 1/4 wavelength to monochromatic light satisfying Δn 1 / Δn 2 <1.05 with a photoelastic coefficient of 50 × 1/10 13 cm 2 / dyn or less for the light of , △ n 1 /
It is preferable to use a combination with a stretched film that gives a half-wave retardation to monochromatic light satisfying Δn 2 > 1.05.

【0018】なお前記の光弾性係数や△n1/△n2を満
足する延伸フィルムは、形成材料の種類や延伸条件等を
制御することにより得ることができる。耐熱性の向上等
の点より、波長633nmの光に対する光弾性係数が50
×1/1013cm2/dyn以下である場合の好ましい光弾性
係数は、40×1/1013cm2/dyn以下、就中30×1
/1013cm2/dyn以下、特に20×1/1013cm2/dyn
以下である。
A stretched film satisfying the photoelastic coefficient and Δn 1 / Δn 2 can be obtained by controlling the type of forming material, stretching conditions, and the like. From the viewpoint of improving heat resistance, the photoelastic coefficient for light having a wavelength of 633 nm is 50.
When the photoelastic coefficient is not more than × 1 × 10 13 cm 2 / dyn, the preferable photoelastic coefficient is not more than 40 × 1/10 13 cm 2 / dyn, especially 30 × 1.
/ 10 13 cm 2 / dyn or less, especially 20 × 10 13 cm 2 / dyn
It is as follows.

【0019】また特定の波長域、特に短波長側で異なる
位相差となって1/4波長板の位相差特性を満足しなく
なることを抑制する点などより、前記の△n1/△n2
1.05を満足する場合の好ましい△n1/△n2(以下
同じ)は、0.95〜1.04、就中0.97〜1.0
3、特に0.98〜1.02である。
In addition, the above-mentioned Δn 1 / Δn 2 can be attained by suppressing a difference in phase difference in a specific wavelength range, particularly on the shorter wavelength side, from being satisfied with the phase difference characteristic of the 波長 wavelength plate. <
A preferable Δn 1 / Δn 2 (the same applies hereinafter) when 1.05 is satisfied is 0.95 to 1.04, particularly 0.97 to 1.0
3, especially 0.98 to 1.02.

【0020】一方、視角特性などの点より△n1/△n2
>1.05を満足する場合の好ましい△n1/△n2は、
1.06〜5、就中1.1〜4、特に1.15〜3であ
る。なお上記した1/2波長の位相差を与える延伸フィ
ルムの場合における高い光弾性係数としては、その位相
差付与の加工性などの点より60×1/1013cm2/dyn
以上、就中70×1/1013cm2/dyn以上、特に80×
1/1013cm2/dyn以上であることが好ましい。
On the other hand, △ n 1 / △ n 2
The preferred Δn 1 / Δn 2 when satisfying> 1.05 is:
1.06-5, especially 1.1-4, especially 1.15-3. The high photoelastic coefficient in the case of the above-mentioned stretched film giving a half-wave retardation is, for example, 60 × 10 13 cm 2 / dyn in view of the workability of giving the retardation.
More than 70 × 1/10 13 cm 2 / dyn, especially 80 ×
It is preferably at least 1/10 13 cm 2 / dyn.

【0021】さらに前記した複屈折率差の波長依存性の
満足性や特定の波長域での位相差の相違の抑制、視角変
化による着色化の防止などの点よりは、(nx−nz)/
(nx−ny)=Nz(以下同じ)として、式:0≦Nz≦
1を満足する延伸フィルムを用いることが好ましい。な
お式中のnxは面内における最大屈折率、nyはnxに直
交する方向の屈折率、及びnzは厚さ方向の屈折率であ
る。従って前記の式は、ny≦nz≦nxを意味する。延
伸フィルムの厚さ方向における屈折率を制御する必要の
ある場合には、例えば熱収縮性フィルムの接着下に高分
子フィルムを延伸処理する方式などにより行いうる。
Furthermore inhibition of difference of the phase difference in the wavelength dependence of the satisfiability or a specific wavelength range of the above-mentioned birefringence difference, from the viewpoint of prevention of coloration due to the viewing angle changes, (n x -n z ) /
As (n x -n y) = Nz ( hereinafter the same), the formula: 0 ≦ Nz ≦
It is preferable to use a stretched film that satisfies 1. Incidentally n x is the maximum refractive index in the plane in the formula, n y is a refractive index in a direction perpendicular to n x, is and n z is the refractive index in the thickness direction. Therefore the above formula means a n y ≦ n z ≦ n x . When it is necessary to control the refractive index in the thickness direction of the stretched film, it can be performed by, for example, a method of stretching a polymer film while bonding a heat-shrinkable film.

【0022】本発明による円偏光板は、上記した1/4
波長板と偏光板とを積層したものである。その例を図2
に示した。4が偏光板、5が1/4波長板、2は透明な
接着層である。円偏光板の形成は、上記した積層角度で
偏光板(4)と交差させることにより行うことができ、
1/2波長と1/4波長の位相差を示す延伸フィルムの
光軸に対し、偏光板の偏光軸が正面及び斜視の反射防止
特性が最適化される角度で偏光板を積層することが好ま
しい。その際、偏光板の透過軸(偏光軸)を90度変え
ることにより円偏光の方向(左回り、又は右回りの円偏
光)を変換することができる。
The circularly polarizing plate according to the present invention has the above-mentioned 1 /
It is obtained by laminating a wave plate and a polarizing plate. Figure 2 shows an example
It was shown to. 4 is a polarizing plate, 5 is a 1/4 wavelength plate, and 2 is a transparent adhesive layer. The circularly polarizing plate can be formed by crossing the polarizing plate (4) at the above-mentioned lamination angle,
It is preferable to laminate the polarizing plates at an angle such that the polarizing axis of the polarizing plate optimizes the front and oblique antireflection properties with respect to the optical axis of the stretched film exhibiting a phase difference of 波長 wavelength and 1 / wavelength. . At this time, by changing the transmission axis (polarization axis) of the polarizing plate by 90 degrees, the direction of circularly polarized light (counterclockwise or clockwise circularly polarized light) can be converted.

【0023】前記において正面及び斜視の反射防止特性
ないし視角特性などの点より、円偏光板の形成に好まし
く用いうる1/4波長板は、上記で定義したNzに基づ
いて、式:0.3≦Nz≦0.7を満足する延伸フィル
ムを少なくとも1枚含むものである。
In view of the anti-reflection characteristics and the viewing angle characteristics of the front and the oblique views, the quarter-wave plate which can be preferably used for forming a circularly polarizing plate is expressed by the following formula: It contains at least one stretched film satisfying ≦ Nz ≦ 0.7.

【0024】円偏光板の形成には適宜な偏光板を用いる
ことができ、特に限定はない。一般には、ポリビニルア
ルコール系や部分ホルマール化ポリビニルアルコール
系、エチレン・酢酸ビニル共重合体系部分ケン化物の如
き親水性高分子のフィルムにヨウ素及び/又は二色性染
料を吸着させて延伸したもの、ポリビニルアルコールの
脱水処理物やポリ塩化ビニルの脱塩酸処理物の如きポリ
エン配向フィルムなどからなる偏光フィルムが用いられ
る。
An appropriate polarizing plate can be used for forming the circularly polarizing plate, and there is no particular limitation. In general, a film obtained by adsorbing iodine and / or a dichroic dye on a film of a hydrophilic polymer such as a polyvinyl alcohol-based, partially formalized polyvinyl alcohol-based, or ethylene / vinyl acetate copolymer-based partially saponified product, polyvinyl A polarizing film composed of a polyene oriented film such as a dehydrated alcohol product or a dehydrochlorinated polyvinyl chloride product is used.

【0025】偏光フィルムの厚さは通例5〜80μmで
あるが、これに限定されない。偏光板は、偏光フィルム
の片面又は両面を透明保護層等で被覆したものなどであ
ってもよい。かかる透明保護層等は、偏光フィルムの補
強や耐熱性の向上、偏光フィルムを湿度等より保護する
ことなどの種々の目的を有するものであってよい。透明
保護層は、樹脂の塗布層や樹脂フィルムのラミネート層
などとして形成でき、拡散化や粗面化用等の微粒子を含
有していてもよい。
The thickness of the polarizing film is usually 5 to 80 μm, but is not limited to this. The polarizing plate may be one obtained by coating one or both sides of a polarizing film with a transparent protective layer or the like. Such a transparent protective layer or the like may have various purposes such as reinforcing the polarizing film, improving heat resistance, and protecting the polarizing film from humidity and the like. The transparent protective layer can be formed as a resin coating layer or a resin film laminate layer, and may contain fine particles for diffusion or surface roughening.

【0026】円偏光板の片面又は両面には、図3に例示
した如く表面反射を防止する点などより反射防止層6又
は防眩処理層の一方又は両方が設けられていることが好
ましく、また表面保護の点などよりハードコート層が設
けられていることが好ましい。かかる反射防止層等は、
偏光板にその反射防止層や防眩処理層やハードコート層
の1層又は2層以上を付設してその偏光板を1/4波長
板と積層する方式などにより設けることもできる。
One or both of the anti-reflection layer 6 and the anti-glare treatment layer are preferably provided on one or both sides of the circularly polarizing plate from the viewpoint of preventing surface reflection as exemplified in FIG. It is preferable that a hard coat layer is provided from the viewpoint of surface protection and the like. Such an anti-reflection layer,
The polarizing plate may be provided with one or more layers of an antireflection layer, an antiglare treatment layer, and a hard coat layer, and the polarizing plate may be laminated with a quarter-wave plate.

【0027】前記の反射防止層は、例えばフッ素系ポリ
マーのコート層や多層金属蒸着膜等の光干渉性の膜など
として適宜に形成することができる。また防眩処理層に
ついても、例えば微粒子を円偏光板表面にバインダ等を
介して散布固着させる方式や、円偏光板の表面をエンボ
ス加工やサンドブラスト加工やエッチング加工する方式
等の適宜な方式で微細凹凸構造を付与する方式、微粒子
を含有させた透明樹脂を塗布して表面に微細凹凸構造を
付与する方式、それらを併用する方式などにより表面反
射光が拡散する適宜な方式にて形成することができる。
さらにハードコート層についても、例えばシリコーン系
樹脂の硬化膜などからなる適宜な硬質膜にて形成するこ
とができる。
The anti-reflection layer can be appropriately formed as, for example, a light coherent film such as a fluorine-based polymer coat layer or a multilayer metal vapor-deposited film. The anti-glare treatment layer is also finely divided by an appropriate method such as a method in which fine particles are dispersed and fixed to the surface of the circularly polarizing plate via a binder or a method in which the surface of the circularly polarizing plate is embossed, sandblasted, or etched. It can be formed by an appropriate method in which surface reflected light is diffused by a method of providing a concave-convex structure, a method of applying a transparent resin containing fine particles to provide a fine concave-convex structure on the surface, or a method of using them in combination. it can.
Further, the hard coat layer can be formed of an appropriate hard film made of, for example, a cured film of a silicone resin.

【0028】なお前記した防眩処理層用の微粒子には、
例えば平均粒径が0.5〜20μmのシリカや酸化カル
シウム、アルミナやチタニア、ジルコニアや酸化錫、酸
化インジウムや酸化カドミウム、酸化アンチモン等の導
電性のこともある無機系微粒子や、ポリメチルメタクリ
レートやポリウレタの如き適宜なポリマーからなる架橋
又は未架橋の有機系微粒子などの適宜なものを1種又は
2種以上用いうる。
The fine particles for the antiglare treatment layer described above include:
For example, silica or calcium oxide having an average particle diameter of 0.5 to 20 μm, alumina or titania, zirconia or tin oxide, indium oxide or cadmium oxide, inorganic fine particles that may be conductive such as antimony oxide, or polymethyl methacrylate or One or more appropriate ones such as crosslinked or uncrosslinked organic fine particles made of an appropriate polymer such as polyurethane may be used.

【0029】本発明による1/4波長板や円偏光板を形
成する延伸フィルムや偏光板等の各層は、分離状態にあ
ってもよいが、層間の屈折率調節による反射の抑制や光
学系のズレ防止、ゴミ等の異物の侵入防止などの点より
その一部、就中、全部が固着処理されていることが好ま
しい。その固着処理には、例えば透明な接着剤などの適
宜なものを用いることができ、接着剤等の種類について
特に限定はない。構成部材の光学特性の変化防止などの
点より、接着処理時の硬化や乾燥の際に高温のプロセス
を要しないものが好ましく、長時間の硬化処理や乾燥時
間を要しないものが望ましい。かかる点よりは、粘着層
が好ましく用いうる。
Each layer such as a stretched film or a polarizing plate for forming a quarter-wave plate or a circularly polarizing plate according to the present invention may be in a separated state. It is preferable that a part, particularly, all of them are fixedly treated in order to prevent displacement and prevent invasion of foreign matter such as dust. For the fixing treatment, for example, an appropriate material such as a transparent adhesive can be used, and the kind of the adhesive and the like is not particularly limited. From the viewpoint of preventing a change in the optical properties of the constituent members, it is preferable that a high-temperature process is not required for curing and drying at the time of the bonding process, and that a long curing process and a drying time are not required. From such a point, an adhesive layer can be preferably used.

【0030】粘着層の形成には、例えばアクリル系重合
体やシリコーン系ポリマー、ポリエステルやポリウレタ
ン、ポリエーテルや合成ゴムなどの適宜なポリマーを用
いてなる透明粘着剤を用いることができる。就中、光学
的透明性や粘着特性、耐候性などの点よりアクリル系粘
着剤が好ましい。
For the formation of the pressure-sensitive adhesive layer, for example, a transparent pressure-sensitive adhesive using an appropriate polymer such as an acrylic polymer, a silicone-based polymer, polyester, polyurethane, polyether or synthetic rubber can be used. Above all, acrylic pressure-sensitive adhesives are preferred from the viewpoints of optical transparency, adhesive properties, weather resistance and the like.

【0031】また積層界面での反射の抑制などの点より
好ましく用いうる粘着層は、延伸フィルム等の接着対象
との屈折率差が0.1以下、就中0.08以下、特に
0.06以下のものである。粘着層の屈折率の調節は、
ベースポリマーの種類や屈折率調節剤の配合などにより
行うことができる。その屈折率調節剤としては、例えば
ベースポリマーよりも高屈折率又は低屈折率のポリマー
類などの適宜なものを用いうる。
The pressure-sensitive adhesive layer which can be preferably used from the viewpoint of suppressing reflection at the lamination interface has a refractive index difference of 0.1 or less, particularly 0.08 or less, particularly 0.06 or less with respect to an object to be bonded such as a stretched film. These are: Adjustment of the refractive index of the adhesive layer
It can be carried out by the kind of the base polymer or the blending of the refractive index regulator. As the refractive index adjusting agent, for example, an appropriate one such as polymers having a higher or lower refractive index than the base polymer can be used.

【0032】さらに粘着層は、積層体内部に熱により発
生する内部応力をその粘弾性に基づいて緩和し光弾性変
形を防止する機能に優れる点などよりも好ましく用いう
る。光弾性変形の防止等の点より特に好ましく用いうる
粘着層は、応力緩和性に優れるものである。就中、緩和
弾性率が2×105〜1×107dyne/cm2、特に2×1
6〜8×106dyne/cm2の粘着層が好ましい。なお1
/4波長板や円偏光板の片面又は両面に液晶セル等の被
着体に接着することを目的に必要に応じて設ける接着層
も、上記の理由等より粘着層であることが好ましい。
Further, the pressure-sensitive adhesive layer can be preferably used because it is excellent in the function of relieving internal stress generated by heat inside the laminate based on its viscoelasticity and preventing photoelastic deformation. The pressure-sensitive adhesive layer that can be particularly preferably used from the viewpoint of preventing photoelastic deformation has excellent stress relaxation properties. Above all, the relaxation modulus is 2 × 10 5 to 1 × 10 7 dyne / cm 2 , especially 2 × 1
0 6-8 adhesive layer × 10 6 dyne / cm 2 is preferred. 1
The adhesive layer provided as needed for the purpose of adhering to an adherend such as a liquid crystal cell on one or both sides of a 波長 wavelength plate or a circularly polarizing plate is also preferably an adhesive layer for the above-described reasons and the like.

【0033】本発明による1/4波長板や円偏光板は、
反射防止フィルターや防眩フィルター、液晶プロジェク
ター等の液晶表示装置などの種々の用途に用いうる。液
晶表示装置は一般に、偏光板、液晶セル、及び必要に応
じてのバックライトや反射板、位相差補償板等の構成部
品を適宜に組立てて駆動回路を組込むことなどにより形
成されるが、本発明においては上記した1/4波長板や
円偏光板を用いる点を除いて特に限定はなく、従来に準
じて液晶表示装置を形成しうる。
The quarter wave plate and the circularly polarizing plate according to the present invention
It can be used for various applications such as antireflection filters, antiglare filters, and liquid crystal display devices such as liquid crystal projectors. A liquid crystal display device is generally formed by appropriately assembling components such as a polarizing plate, a liquid crystal cell, and a backlight, a reflecting plate, and a phase difference compensating plate as necessary, and incorporating a driving circuit. In the present invention, there is no particular limitation except that the above-described 1 / wavelength plate or circularly polarizing plate is used, and a liquid crystal display device can be formed according to the related art.

【0034】前記において円偏光板は、自然光がその偏
光板側より入射した場合には上記したように1/4波長
板より円偏光を出射して円偏光形成板として機能し、1
/4波長板側より円偏光が入射すると1/4波長板にて
直線偏光化され、それが偏光板に入射して直線偏光形成
板として機能する。従って本発明による円偏光板は、前
記の円偏光形成機能板として液晶表示装置に適用するこ
ともできるし、直線偏光形成機能板として液晶表示装置
に適用することもできる。
In the above description, the circularly polarizing plate functions as a circularly polarized light forming plate by emitting circularly polarized light from the quarter-wave plate as described above when natural light enters from the polarizing plate side.
When circularly polarized light enters from the 波長 wavelength plate side, it is linearly polarized by the 波長 wavelength plate, and enters the polarizing plate to function as a linearly polarized light forming plate. Therefore, the circularly polarizing plate according to the present invention can be applied to a liquid crystal display device as the circularly polarized light forming functional plate, or can be applied to a liquid crystal display device as a linearly polarized light forming functional plate.

【0035】前者の円偏光形成板として機能は、液晶デ
ィスプレイ等の表面反射を抑制するための反射防止フィ
ルターなどとして有用である。後者の直線偏光形成板と
しての機能は、コレステリック液晶等からなる円偏光形
成板を設けたバックライトとの組合せで用いて液晶表示
装置の輝度を向上させるシステムの形成などに有用であ
る。本発明による円偏光板を用いることにより、明るく
てコントラストに優れ、視野角が広くて高耐久性の液晶
表示装置を得ることができる。
The former function as a circularly polarized light forming plate is useful as an anti-reflection filter for suppressing surface reflection of a liquid crystal display or the like. The latter function as a linearly polarized light forming plate is useful for forming a system for improving the brightness of a liquid crystal display device in combination with a backlight provided with a circularly polarized light forming plate made of cholesteric liquid crystal or the like. By using the circularly polarizing plate according to the present invention, a highly durable liquid crystal display device which is bright, has excellent contrast, has a wide viewing angle, and can be obtained.

【0036】なお液晶表示装置の形成に際しては、例え
ば視認側の偏光板の上に設ける光拡散板やアンチグレア
層やプリズムシート、反射防止膜や保護層や保護板、あ
るいは液晶セルと視認側又は/及びバックライト側の偏
光板の間に設ける位相差補償板やバックライトに設ける
プリズムシート等の光路制御板などの適宜な光学素子を
適宜に配置することができる。
In forming the liquid crystal display device, for example, a light diffusion plate, an antiglare layer, a prism sheet, an antireflection film, a protective layer, a protective plate, or a liquid crystal cell provided on a polarizing plate on the viewing side, or a liquid crystal cell and / or In addition, appropriate optical elements such as a phase difference compensating plate provided between the polarizing plates on the backlight side and an optical path control plate such as a prism sheet provided in the backlight can be appropriately arranged.

【0037】なお本発明による1/4波長板や円偏光
板、液晶表示装置を形成する延伸フィルムや偏光板、あ
るいはその他の粘着層や光拡散板や位相差補償板等の各
部品は、例えばサリチル酸エステル系化合物やベンゾフ
ェノール系化合物、ベンゾトリアゾール系化合物やシア
ノアクリレート系化合物、ニッケル錯塩系化合物等の紫
外線吸収剤で処理されたものの如く紫外線吸収能をもた
せたものであってもよい。また液晶表示装置もその各構
成部品が粘着層等を介して固着一体化されていることが
好ましい。
The components such as a quarter-wave plate and a circularly polarizing plate according to the present invention, a stretched film and a polarizing plate for forming a liquid crystal display device, and other components such as an adhesive layer, a light diffusion plate and a phase difference compensating plate are, for example, It may be one having an ultraviolet absorbing ability such as one treated with an ultraviolet absorbent such as a salicylic acid ester compound, a benzophenol compound, a benzotriazole compound, a cyanoacrylate compound, a nickel complex compound, or the like. Further, it is preferable that each component of the liquid crystal display device is also fixed and integrated via an adhesive layer or the like.

【0038】[0038]

【実施例】参考例1 屈折率1.59、厚さ50μmのポリカーボネートフィ
ルムを150℃で5%延伸処理し、複屈折光に基づいて
波長550nmの光に対して1/2波長の位相差を与える
光弾性係数が90×1/1013cm2/dyn、△n1/△n2
が1.16で、Nzが0.5のλ/2延伸フィルムを得
た。
Reference Example 1 A polycarbonate film having a refractive index of 1.59 and a thickness of 50 μm was stretched by 5% at 150 ° C., and a phase difference of 波長 wavelength with respect to light having a wavelength of 550 nm was determined based on birefringent light. The given photoelastic coefficient is 90 × 1/10 13 cm 2 / dyn, Δn 1 / Δn 2
Is 1.16, and a λ / 2 stretched film having an Nz of 0.5 is obtained.

【0039】参考例2 Nzが1である以外は、参考例1に準じたλ/2延伸フ
ィルムを得た。
Reference Example 2 A λ / 2 stretched film according to Reference Example 1 was obtained except that Nz was 1.

【0040】参考例3 参考例1に準じ、2.5%の延伸処理条件として1/4
波長の位相差を与えるNzが1のλ/4延伸フィルムを
得た。
Reference Example 3 According to Reference Example 1, a stretching treatment condition of 2.5% was 1 /.
A λ / 4 stretched film having an Nz of 1 giving a wavelength retardation was obtained.

【0041】参考例4 屈折率1.51、厚さ100μmの環状ポリオレフィン
フィルム(JSR社製、ARTON、以下同じ)を17
5℃で25%延伸処理し、複屈折光に基づいて波長55
0nmの光に対して1/4波長の位相差を与える光弾性係
数が4.1×1/1013cm2/dyn、△n1/△n2が1.
025で、Nzが1のλ/4延伸フィルムを得た。
Reference Example 4 A cyclic polyolefin film having a refractive index of 1.51 and a thickness of 100 μm (ARTON, manufactured by JSR Corporation, hereinafter the same) was used for 17
The film is stretched by 25% at 5 ° C. and a wavelength of 55
The photoelastic coefficient that gives a phase difference of 1/4 wavelength to light of 0 nm is 4.1 × 1/10 13 cm 2 / dyn, and Δn 1 / Δn 2 is 1.
At 025, a λ / 4 stretched film with Nz of 1 was obtained.

【0042】参考例5 屈折率1.51、厚さ100μmの環状ポリオレフィン
フィルムを175℃で50%延伸処理し、複屈折光に基
づいて波長550nmの光に対して1/2波長の位相差を
与える光弾性係数が4.1×1/1013cm2/dyn、△n
1/△n2が1.025で、Nzが1のλ/2延伸フィル
ムを得た。
Reference Example 5 A cyclic polyolefin film having a refractive index of 1.51 and a thickness of 100 μm was stretched at 175 ° C. by 50%, and a phase difference of 波長 wavelength with respect to light having a wavelength of 550 nm was determined based on birefringent light. The given photoelastic coefficient is 4.1 × 1/10 13 cm 2 / dyn, Δn
A λ / 2 stretched film having 1 / Δn 2 of 1.025 and Nz of 1 was obtained.

【0043】実施例1 参考例1で得たλ/2延伸フィルムと参考例4で得たλ
/4延伸フィルムをそれらの光軸(延伸軸)を交差させ
て屈折率1.47のアクリル系粘着剤を介し積層し、1
/4波長板を得た後、そのλ/2延伸フィルム側にアク
リル系粘着剤を介し反射防止層付きの防眩偏光板(日東
電工社製、NPF−EG1425DUAG30ARS、
以下同じ)を積層して円偏光板を得た。なお偏光板の偏
光軸に対する光軸の交差角は、λ/2延伸フィルムが1
2度、λ/4延伸フィルムが69度である。
Example 1 The λ / 2 stretched film obtained in Reference Example 1 and the λ / 2
The 延伸 stretched films are laminated via an acrylic pressure-sensitive adhesive having a refractive index of 1.47 with their optical axes (stretched axes) crossing each other.
After obtaining a 波長 wavelength plate, an anti-glare polarizing plate (Nitto Denko Corporation, NPF-EG1425DUAG30ARS, manufactured by Nitto Denko Corporation) having an anti-reflection layer on the λ / 2 stretched film side via an acrylic adhesive.
The same applies hereinafter) to obtain a circularly polarizing plate. The crossing angle of the optical axis with respect to the polarization axis of the polarizing plate was 1 for a λ / 2 stretched film.
2 degrees, the λ / 4 stretched film is 69 degrees.

【0044】比較例1 λ/2延伸フィルムとして参考例1で得たのものに代え
て、参考例2で得たものを用いたほかは実施例1に準じ
て1/4波長板と円偏光板を得た。
Comparative Example 1 A quarter-wave plate and a circularly polarizing plate were prepared in the same manner as in Example 1 except that the film obtained in Reference Example 2 was used instead of the film obtained in Reference Example 1 as a λ / 2 stretched film. I got

【0045】比較例2 参考例2で得たλ/2延伸フィルムと参考例3で得たλ
/4延伸フィルムの組合せてとし、偏光板の偏光軸に対
する光軸の交差角をλ/2延伸フィルムが17.5度、
λ/4延伸フィルムが80度となるようにしたほかは実
施例1に準じて1/4波長板と円偏光板を得た。
Comparative Example 2 The λ / 2 stretched film obtained in Reference Example 2 and the λ / 2
/ 4 stretched film, the crossing angle of the optical axis to the polarization axis of the polarizing plate is 17.5 degrees for the λ / 2 stretched film,
A 波長 wavelength plate and a circularly polarizing plate were obtained in the same manner as in Example 1 except that the λ / 4 stretched film was adjusted to 80 °.

【0046】比較例3 参考例5で得たλ/2延伸フィルムと参考例4で得たλ
/4延伸フィルムの組合せとしたほかは実施例1に準じ
て1/4波長板と円偏光板を得た。
Comparative Example 3 The λ / 2 stretched film obtained in Reference Example 5 and the λ / 2
A 波長 wavelength plate and a circularly polarizing plate were obtained in the same manner as in Example 1 except that a combination of a 延伸 stretched film was used.

【0047】評価試験 広帯域性 実施例、比較例で得た円偏光板を拡散反射板の上に置
き、正面での反射色を目視観察して、次の基準で評価し
た。 優良:反射色が黒い場合 不良:反射色が青い場合 不適:反射色が明るくて青い場合
Evaluation Test Broadband Property The circularly polarizing plates obtained in Examples and Comparative Examples were placed on a diffuse reflection plate, and the reflected color at the front was visually observed and evaluated according to the following criteria. Excellent: When the reflection color is black Bad: When the reflection color is blue Unsuitable: When the reflection color is bright and blue

【0048】視角特性 実施例、比較例で得た円偏光板を拡散反射板の上に置
き、正面と斜め45度での反射色と明るさを目視観察
し、次の基準で評価した。 優良:正面と斜視とで反射色と明るさに変化のない場合 不良:正面と斜視とで反射色が変化した場合 不適:正面と斜視とで反射色と明るさが大きく変化した
場合
Viewing Angle Characteristics The circularly polarizing plates obtained in the examples and comparative examples were placed on a diffuse reflector, and the reflection color and brightness at the front and at an angle of 45 ° were visually observed and evaluated according to the following criteria. Excellent: When there is no change in the reflection color and brightness between the front and the perspective. Poor: When the reflection color changes between the front and the perspective. Inappropriate: When the reflection color and the brightness change greatly between the front and the perspective.

【0049】耐熱性 実施例、比較例で得た円偏光板をアクリル系粘着層を介
してガラス板に接着して70℃に加熱し、その温度を維
持したまま反射板の上に置いて反射光の着色の有無と、
その色ムラ(色の均一性)を調べ、次の基準で評価し
た。 優良:着色と色ムラがない場合 不良:着色して色ムラがある場合
Heat resistance The circularly polarizing plates obtained in Examples and Comparative Examples were bonded to a glass plate via an acrylic pressure-sensitive adhesive layer, heated to 70 ° C., and placed on a reflecting plate while maintaining the temperature to reflect light. Whether there is light coloring,
The color unevenness (color uniformity) was examined and evaluated according to the following criteria. Excellent: When there is no coloring and color unevenness Poor: When there is coloring and color unevenness

【0050】前記の結果を次表に示した。 The results are shown in the following table.

【図面の簡単な説明】[Brief description of the drawings]

【図1】1/4波長板例の断面図FIG. 1 is a cross-sectional view of a quarter-wave plate example.

【図2】円偏光板例の断面図FIG. 2 is a cross-sectional view of an example of a circularly polarizing plate.

【図3】他の円偏光板例の断面図FIG. 3 is a sectional view of another example of a circularly polarizing plate.

【符号の説明】 5:1/4波長板 1:1/2波長の位相差を与える延伸フィルム 3:1/4波長の位相差を与える延伸フィルム 4:偏光板[Explanation of Signs] 5: 1/4 wavelength plate 1: Stretched film giving phase difference of 1/2 wavelength 3: Stretched film giving phase difference of 1/4 wavelength 4: Polarizing plate

Claims (6)

【特許請求の範囲】[Claims] 【請求項1】 単色光に対して1/2波長の位相差を与
える延伸フィルムと1/4波長の位相差を与える延伸フ
ィルムをそれらの光軸を交差させて積層してなり、かつ
前記延伸フィルムの少なくとも1枚が波長633nmの光
に対する光弾性係数が50×1/1013cm2/dyn以下、
複屈折率差△n1、△n2の波長依存性が波長400nm
(△n1)と550nm(△n2)の光に基づいて△n1
△n2<1.05のものであることを特徴とする1/4
波長板。
1. A stretched film which gives a phase difference of 波長 wavelength to a monochromatic light and a stretched film which gives a phase difference of 4 wavelength are laminated with their optical axes crossing each other, and said stretching is performed. At least one of the films has a photoelastic coefficient of 50 × 1/10 13 cm 2 / dyn or less for light having a wavelength of 633 nm;
The wavelength dependence of the birefringence index differences Δn 1 and Δn 2 is 400 nm.
Based on (△ n 1 ) and 550 nm (△ n 2 ) light, Δn 1 /
1/4 characterized by Δn 2 <1.05
Wave plate.
【請求項2】 請求項1において、当該光弾性係数と当
該△n1/△n2を示す延伸フィルムが単色光に対して1
/4波長の位相差を与えるものであり、単色光に対して
1/2波長の位相差を与える延伸フィルムの当該△n1
/△n2が1.05を超えるものである1/4波長板。
2. The stretched film according to claim 1, wherein said stretched film showing said photoelastic coefficient and said Δn 1 / Δn 2 is 1 to monochromatic light.
/ 4 is intended to provide a phase difference of the wavelength, the △ n 1 of oriented films giving a retardation of 1/2 wavelength with respect to monochromatic light
/ A quarter-wave plate wherein Δn 2 exceeds 1.05.
【請求項3】 請求項1又は2において、面内の最大屈
折率、それに直交する方向の屈折率及び厚さ方向の屈折
率をそれぞれnx、ny及びnzとしたとき、式:0≦
(nx−nz)/(nx−ny)≦1を満足する延伸フィル
ムを少なくとも1枚用いてなる1/4波長板。
3. The method of claim 1 or 2, the maximum in-plane refractive index, respectively n x direction of the refractive index and the thickness direction of the refractive index of the orthogonal thereto, when the n y and n z, wherein: 0 ≤
(N x -n z) / ( n x -n y) at least one reference quarter-wave plate comprising a stretched film satisfies ≦ 1.
【請求項4】 請求項1〜3に記載の1/4波長板と、
偏光板又は表面側に反射防止層、防眩処理層若しくはハ
ードコート層の少なくとも1層を有する偏光板との粘着
層を介した積層体からなることを特徴とする円偏光板。
4. The quarter wave plate according to claim 1, wherein:
A circularly polarizing plate comprising a polarizing plate or a laminate of a polarizing plate having at least one of an anti-reflection layer, an anti-glare treatment layer and a hard coat layer on the surface side with an adhesive layer interposed therebetween.
【請求項5】 請求項4において、1/4波長板が面内
の最大屈折率、それに直交する方向の屈折率及び厚さ方
向の屈折率をそれぞれnx、ny及びnzとしたとき、
式:0.3≦(nx−nz)/(nx−ny)≦0.7を満
足する延伸フィルムを少なくとも1枚含むものである円
偏光板。
5. The method of claim 4, 1/4 maximum refractive index of the wave plate is a plane, each n x direction of the refractive index and the thickness direction of the refractive index of the orthogonal thereto, when the n y and n z ,
Formula: 0.3 ≦ (n x -n z ) / (n x -n y) ≦ 0.7 circularly polarizing plate are those containing at least one of the stretched film satisfies.
【請求項6】 請求項4又は5に記載の円偏光板を有す
ることを特徴とする液晶表示装置。
6. A liquid crystal display device comprising the circularly polarizing plate according to claim 4 or 5.
JP10048752A 1998-02-12 1998-02-12 1/4-wavelength plate, circular polarizing plate, and liquid crystal display device Pending JPH11231132A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP10048752A JPH11231132A (en) 1998-02-12 1998-02-12 1/4-wavelength plate, circular polarizing plate, and liquid crystal display device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP10048752A JPH11231132A (en) 1998-02-12 1998-02-12 1/4-wavelength plate, circular polarizing plate, and liquid crystal display device

Publications (1)

Publication Number Publication Date
JPH11231132A true JPH11231132A (en) 1999-08-27

Family

ID=12812025

Family Applications (1)

Application Number Title Priority Date Filing Date
JP10048752A Pending JPH11231132A (en) 1998-02-12 1998-02-12 1/4-wavelength plate, circular polarizing plate, and liquid crystal display device

Country Status (1)

Country Link
JP (1) JPH11231132A (en)

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JPS6392302U (en) * 1986-12-05 1988-06-15
JPH05100114A (en) * 1991-10-07 1993-04-23 Nitto Denko Corp Laminated wavelength plate and circularly polarizing plate
JPH08271731A (en) * 1995-03-28 1996-10-18 Nitto Denko Corp Polarizing plate
JPH09189811A (en) * 1995-11-09 1997-07-22 Nitto Denko Corp Polarizing element and elliptically polarizing element

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JPS6392302U (en) * 1986-12-05 1988-06-15
JPH05100114A (en) * 1991-10-07 1993-04-23 Nitto Denko Corp Laminated wavelength plate and circularly polarizing plate
JPH08271731A (en) * 1995-03-28 1996-10-18 Nitto Denko Corp Polarizing plate
JPH09189811A (en) * 1995-11-09 1997-07-22 Nitto Denko Corp Polarizing element and elliptically polarizing element

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