CN105445951B - Stereoscopic image display - Google Patents

Abstract

The present invention can provide a kind of stereoscopic image display, is a kind of for the optical filter of stereoscopic image display, the polaroid glasses for watching stereo-picture or a kind of method for improving stereo image quality, the stereoscopic image display can prevent crosstalk or visual angle from reducing when showing stereo-picture, and improve picture quality (for example, contrast).

Description

Stereoscopic image display

The application be on April 14th, 2011 applying date, it is entitled " three-dimensional application No. is 201180019145.0 The divisional application of the application for a patent for invention (international application no: PCT/KR2011/002660) of image display ".

Technical field

The present invention relates to a kind of stereoscopic image display, it is a kind of for the optical filter of stereoscopic image display, for watching The glasses of stereo-picture and a kind of method for improving the quality of stereo-picture.

Background technique

Stereoscopic image display is a kind of by the display, and spectators can dimensionally watch the display of shown object Device.

Stereoscopic image display can be divided into goggle type display and glasses-free escope.In addition, the glasses type can To be divided into polaroid glasses type and LC shutter glass, and anophthalmia mirror-type can be divided into eyes/multi-angle of view binocular vision difference type, body Product type or holographic etc..

Summary of the invention

Technical problem

The purpose of the present invention includes providing a kind of stereoscopic image display, a kind of optical filtering for stereoscopic image display Piece, the glasses for watching stereo-picture and a kind of method for improving the quality of stereo-picture.

Technical solution

The present invention relates to a kind of stereoscopic image displays comprising: image display part, described image display unit can Generation includes the picture signal of the image light for right eye and the image light for left eye, they can also be then sent to sight Many sides；And phase shift films, the phase shift films have the phase difference of thickness direction, and it is arranged and makes from described image display unit The picture signal of transmission can pass through the phase shift films according to thickness direction, be then transmitted to viewer side.

It will be explained below the stereoscopic image display.

In the present specification, the term (for example, vertical, horizontal, perpendicular or parallel) used when defining angle indicates It does not damage generally vertical, horizontal, perpendicular or parallel in the range of required effect, and can have, it may for example comprise production misses Difference or the error of deviation etc..For example, the term can respectively include no more than about ± 15 degree of error, preferably more than about ± 10 degree of error, and more preferably no more than about ± 5 error.

In the present specification, unless defined, otherwise the unit of angle is " degree ", and the unit of phase difference is " nm ", with And crosstalk ratio or the unit of brightness are " cd/m²”。

If generated in the image display part of stereoscopic image display for the image light of right eye and for left eye Image light during they are sent to spectators by suitably by or block, each image light can be by the right eye of spectators Or left eye is accurately watched, and therefore, light and shade can be clearly differentiated, while picture quality can be improved, such as Contrast.

It is however generally that being difficult to suitably prevent for the right side if watching the stereoscopic image display with oblique angle The light leakage of the image light of eye or left eye, and therefore, so-called crosstalk phenomenon occurs, wherein the image light for right eye is by left eye It watches, or the image light for left eye is watched by right eye.In addition, visual angle narrows.Crosstalk phenomenon in order to prevent, described Light shielding part can be formed in display；However, forming the decline that light shielding part inevitably leads to brightness.

In the stereoscopic image display, have the phase shift films of phase difference in a thickness direction along following path quilt Setting: when display operation, spectators watch picture signal, that is, the phase shift films, which are arranged on, generates picture signal Between image display part and spectators.The optics that the phase shift films can control the picture signal generated by image display part is special Then they are sent to spectators by sign, thus solve the problems, such as that such as crosstalk or visual angle reduce without reducing contrast, and Stereo image quality can also be improved.Terminology used in this article " display operation " refer to when display showing it is vertical State when body image.

As long as the phase shift films have the phase difference (positive phase difference in preferred thickness direction) of thickness direction, can make With a variety of phase shift films known in the art, for example,+C plate or+B plate.+ C plate used in the description indicates meeting formula 1 The film of relationship and+B plate used in the description indicate the film for meeting the relationship of following formula 2 or formula 3.

[formula 1]

N_x=N_y<N_z

[formula 2]

N_x≠N_y≠N_z

[formula 3]

N_x≠N_y<N_z

Wherein, N_xIndicate refractive index, N in the face on the slow-axis direction of phase shift films_yIt indicates on the fast axis direction of phase shift films Face in refractive index and N_zIndicate the refractive index on the thickness direction of phase shift films.

As described above, phase difference (the R of the thickness direction of the phase shift films_th) can be calculated by formula 4 and the phase shift films Face in direction phase difference (R_in) can be calculated by following formula 5.

[formula 4]

R_th=d × (N_z-N_y)

[formula 5]

R_in=d × (N_y-N_x)

Wherein, N_x、N_yAnd N_zIdentical and d indicates the thickness of the phase shift films with the restriction in formula 1-3.

In the art, for measuring the N of the phase shift films_x、N_y、N_z、R_thAnd R_inMethod be widely known, because This, those skilled in the art can easily measure the N of the phase shift films_x、N_y、N_z、R_thAnd R_in。

The range of the phase difference of the thickness direction of the phase shift films is not particularly limited, and can be aobvious according to stereo-picture Show that the type of device or phase shift films etc. determines.

In one embodiment, the phase difference of+C plate in the phase shift films can with meeting formula 6 or the relationship of formula 7, And the phase difference of+B plate can meet any relationship of the following formula 8 into formula 11.

[formula 6]

Y_LOr Y_R=0.0201X²-0.0398X+0.0339≤0.5

[formula 7]

Y_L=0.0192X²-0.0763X+0.0899≤0.5

[formula 8]

Y_R=(9.24 × 10^-7)X²-0.000236X+0.0288≤0.5

[formula 9]

Y_L=(5.5 × 10^-7)X²-0.000347X+0.067≤0.5

[formula 10]

Y_R=(1.97 × 10^-6)X²-0.000616X+0.0644≤0.5

[formula 11]

Y_L=(1.99 × 10^-6)X²-0.00125X+0.206≤0.5

Wherein, the X of formula 6 and formula 7 is the phase difference of the thickness direction of+C plate and the X of formula 8 to formula 11 is the thickness of+B plate The phase difference in direction.

In addition, Y of the formula 6 to formula 11_LIndicate the crosstalk ratio in stereoscopic image display operation in the left eye of spectators (unit: cd/m²)。Y_LCan be preferably 0.3 hereinafter, more preferable 0.1 hereinafter, even more preferably from 0.05 hereinafter, and most preferably 0.01 with Under.In addition, Y_RIndicate the crosstalk ratio (unit: cd/m in stereoscopic image display operation in the right eye of spectators²)。Y_RIt can To be preferably 0.3 hereinafter, more preferable 0.1 hereinafter, even more preferably from 0.05 hereinafter, and most preferably 0.01 or less.

According to formula 6 to formula 11, the phase difference of the thickness direction of the phase shift films, the image light for right eye in phase shift films The region of process with for left eye image light pass through region thickness direction phase difference can be designed to it is mutually the same or It is different from each other.In conclusion being not particularly limited for the image light of right eye and the difference between the image light of left eye.Example Such as, such as will be as described below, when the display be include the polaroid glasses escope of polarisation control layer when, according to polarisation control Difference between the type of preparative layer, the image light for right eye and the image light for left eye can be limited by following situation.

When the phase difference is designed to different from each other, in+C plate, for right eye image light pass through region and The phase difference of the thickness direction in the region that the image light for left eye is passed through can be with the relationship of meeting formula 6；Alternatively, for right eye Image light pass through region thickness direction phase difference can with the relationship of meeting formula 6, and be used for left eye image light pass through The phase difference of the thickness direction in region can with the relationship of meeting formula 7, but be not restricted to that this.In addition, being used for right eye in+B plate Image light pass through region thickness direction phase difference can with the relationship of meeting formula 8, and be used for left eye image light pass through The phase difference of thickness direction in region can be with the relationship of meeting formula 9；Alternatively, the thickness in the region that the image light for right eye is passed through The phase difference for spending direction can be used for the phase of the thickness direction in the region of the image light process of left eye with the relationship of meeting formula 10 Difference can be with the relationship of meeting formula 11, and but it is not limited to this.

In one embodiment, the phase difference of the thickness direction of the phase shift films can be, for example, 30nm to 350nm. In addition, the film can have the phase of the phase difference and thickness direction in direction in face in the case where the phase shift films are+B plate Potential difference, and the phase difference in the direction in face can be properly selected according to stereo image quality, for example, can be in about 120nm It is selected in the range of to 160nm.

However, the range of the phase difference is only illustrative example and the phase difference (R_thAnd R_in) can basis The type or concrete composition of display designs.Preferably, such embodiment controlled can be implemented according to above-mentioned formula.

The described image display unit for including in the display is not particularly limited to any type, can be used in ability Image display part all used in known various stereoscopic image displays in domain.

In one embodiment, the display can be glasses type, and particularly, polaroid glasses type stereo-picture is shown Device.Described image display unit may include: image production components, and described image generating means can produce including for right eye Image light and the image light for left eye picture signal, they are then sent to viewer side；It is described with polarisation control layer Polarisation control layer is arranged on the viewer side from image production components, and if when described image signal is entered wherein, described Polarisation control layer can control picture signal and make the image light for right eye and the image light for left eye with different from each other Polarization state, then they can also be sent to viewer side.

Fig. 1 is the figure for indicating the one aspect of stereoscopic image display (1) as shown above.

The image production components for including in the illustrative display (1) of Fig. 1 may include light source (11), the first polarisation Plate (12), image generating layer (13) and the second polarizer (14), and polarisation control layer (15) can be arranged on image generation Spectators (17) side of component.

In one embodiment, spectators (17) can wear polaroid glasses viewing stereo-picture.The polaroid glasses can be with, For example, having the eyeglass for right eye and the eyeglass for left eye and the eyeglass for right eye and for left eye can be with Respectively include polarizer.By the absorption axiss for being designed to the polarizer in each eyeglass to have different, for example, being used for by control The absorption axiss of polarizer in the eyeglass of right eye and absorption axiss for the polarizer in the eyeglass of left eye keep it perpendicular to one another, can It is only watched by left eye with being used in the image light of left eye, and the image light for being used for right eye is only watched by right eye.In a reality It applies in mode, the eyeglass for right eye and for left eye respectively can further respectively include the wavelength layer of λ/4 and polarizer.At this In the case of kind, the absorption axiss of the polarizer do not need always different from each other.For example, in the above-described embodiment, passing through control For the polarizer of right eye and the eyeglass of left eye to make it have absorption axiss parallel to each other, and also control is used for right eye and a left side The wavelength layer of λ/4 of the eyeglass of eye is to make it have the optical axis in different directions from each other, for example, right eye and left eye will be used for The optical axis of the wavelength layer of the λ of eyeglass/4 is designed to can be used vertically and only be watched by left eye in the image light of left eye, and is used for The image light of right eye is only watched by right eye.In addition it is also possible to using control for the polarizer of the eyeglass of right eye and left eye so that Its with different directions from each other and also control for the wavelength layer of λ/4 in the eyeglass of right eye and left eye optical axis so that its that This parallel method.Term " wavelength layer of λ/4 " as used herein indicates can be by the phase retardation of incident light to lambda1-wavelength The phase retardation element of the degree of 1/4 wavelength.

In the display (1) of Fig. 1, the light source (11) is the part of image production components, and, for example, can be with Unpolarized white light is issued to polarizer (12) using the state of display (1).As light source (11), it is, for example, possible to use logical It is commonly used for the straight-down negative or edge-lit backlight unit (BLU) of liquid crystal display.

In the display (1) of Fig. 1, the first polarizer (12) is arranged on the side of light source (11).First polarisation Plate (12) can have light transmission shaft and the absorption axiss perpendicular to the light transmission shaft.It is issued from the light source (11) when watching Light time, the light in the incident light only with the polarizing axis for being parallel to light transmission shaft can just pass through first polarizer (12).The direction of the polarizing axis can be the direction of vibration of electric field.

In the display (1) of Fig. 1, described image generating layer (13) can be, for example, transmission liquid crystal display, wherein It can generate and be arranged for the single pixel of the image light of right eye or left eye or multiple pixels with the direction for arranging and/or arranging.This The display panel of sample can be generated according to each pixel of the signal in the state of using display (1) including being used for by display The picture signal of the image light of left eye and right eye, and resulting picture signal is sent to the second polarizer (14).The display Panel may include, for example, the substrate that order is arranged from light source (11), pixel electrode, oriented layer, liquid crystal layer, another orientation Layer, ordinary electrode, colored filter and substrate.In the display panel, single pixel or at least two pixels can form use Image production section (UR) in right eye or the image production section (UL) for left eye.For example, the image for left eye produces Raw region (UL) and image production section (UR) for right eye can be to be shown in the alternative bands for extending to common direction of Fig. 2 Pattern setting is arranged with being shown in the grid pattern of Fig. 3.

When running the stereoscopic image display, generated respectively for the image production section of right eye and left eye for the right side The image and image for left eye of eye.For example, being issued in the illustrative display (1) of Fig. 1 when from the light source (11) Light pass through the first polarizer (12), when then into display unit (13), by the image production section (R) for right eye Light become the image for right eye, and the light for passing through the image production section (L) for left eye becomes the image for left eye. In one embodiment, the image for right eye and left eye can be linear inclined with each polarizing axis in a particular direction Shake light, and the direction of these polarizing axis can be parallel to each other.

In the display of figure (1), the second polarizer (14) is set towards viewer side.When the light for right eye and left eye When entering the second polarizer (14), the light for being only parallel to the light transmission shaft of the polarizer (14) can pass through polarizer (14).In one embodiment, the light transmission shaft of first and second polarizer (12,14) can be set as follows respectively It sets: so that they form 90 degree of angle each other.

In the display (1) of Fig. 1, the polarisation control layer (15) includes the polarisation control zone of the image light for right eye The polarisation control area (AL) in domain (AR) and the image light for left eye.The polarisation control area (AR) of image light for right eye To control the polarized condition of generation and the image light for right eye transmitted from the image production section (UR) for right eye Region, and can be set such that the image light for right eye can enter.The polarisation control area of image light for left eye (AL) for control from the polarisation shape of the middle image light for left eye for generating and transmitting of image production section (UL) for left eye The region of state, and can be set such that the image light for left eye can enter.For example, if in image generating layer (13) The image production section for right eye and left eye by the setting in the form of such as Fig. 2, accordingly, the polarisation control area (AR, AL) can be arranged in the form of such as Fig. 4, and if image production section (UR, UL) is arranged with such as Fig. 3, accordingly, the polarisation Control area (AR, AL) can be arranged such as the form of Fig. 5, and but it is not limited to this.

After by the polarisation control layer (15), there is polarisation different from each other for the image light of right eye and left eye State.In one embodiment, the image light for right eye and left eye may include linear polarization with have it is basic that The light in this vertical direction, or may include left circularly polarized light or right-circularly polarized light.

If Fig. 1 is schematically shown, phase shift films (16) are arranged on image production components and sight in the display (1) Between many (17).The phase shift films (16) have the phase difference of thickness direction, and it is arranged and makes that picture signal ought be transmitted Picture signal can pass through film (16) according to its thickness direction when to spectators (17).As shown in Figure 1, being in stereoscopic image display In the case where polaroid glasses escope, by be attached on the polarisation control layer (15) of image display part can integrate it is described Phase shift films (16), or can be attached on the polaroid glasses that spectators (17) wear.

In the display (1) of Fig. 1, the polarisation control layer (15) includes the polarisation for the image light of right eye and left eye Control area (AR, AL) and the image light for right eye and left eye can be linearly after by control layer (15) Polarization, or can be with Left-hand circular polarization and right-hand circular polarization with direction substantially perpendicular to each other.

In one embodiment, when the image light for right eye and left eye is respectively that left circularly polarized light or dextrorotation circle are inclined Shake light when, polarisation control layer may include the inclined of the polarisation control area of the image light for right eye and the image light for left eye Photocontrol region, and the control layer further includes the polarisation control area being arranged in simultaneously for the image light of right eye and left eye On the wavelength layer of λ/4, and the wavelength layer of λ/4 in the polarisation control area of the image light for right eye and for left eye The wavelength layer of λ/4 in the polarisation control area of image light can also have optical axis different from each other.Here, the optical axis can be with table It is shown as fast axle or slow axis when incident light is by corresponding region.In the polarisation control area of the image light for right eye The optical axis of the optical axis of the wavelength layer of λ/4 and the wavelength layer of λ/4 in the polarisation control area of the image light for left eye can be each other Form 90 degree of angle.Hereinafter, polarisation control layer as described above can be referred to as " wavelength layer of patterned λ/4 ".Another In one embodiment, the polarisation control layer of generation left circularly polarized light and right-circularly polarized light may include the figure for right eye The polarisation control area of image light as the polarisation control area of light and for left eye, and the control layer further includes being used for The wavelength layer of λ/4 in the polarisation control area of the image light of right eye and left eye and only in the inclined of the image light for right eye and left eye The wavelength layer of λ/2 in any region in photocontrol region.Hereinafter, this polarisation control layer can be referred to as " (λ/4 λ/2+) wave Long layer ".In addition, the definition of the wavelength layer of λ/4 is same as described above and term " wavelength layer of λ/2 " as used herein indicate can will The phase retardation of incident light to the lambda1-wavelength 1/2 wavelength degree phase retardation element.

When the picture signal issued from the polarisation control layer includes above-mentioned left circularly polarized light and right-circularly polarized light When, in order to suitably watch described image signal, spectators can wear polaroid glasses comprising for the eyeglass of right eye and left eye, The eyeglass for right eye and left eye respectively includes the wavelength layer of λ/4 and polarizer.Hereinafter, including λ/4 as described above The polaroid glasses of wavelength layer can be referred to as rotatory polarization glasses.In addition, in one embodiment, when spectators wear glasses, in circle In polaroid glasses can sequentially include the wave of eyeglass, polarizer and λ/4 from viewer side for the eyeglass of right eye and left eye respectively Long layer.In addition, can also watch picture signal as described above by wearing polaroid glasses, the polaroid glasses include for the right side The eyeglass of eye and left eye, the eyeglass for right eye and left eye includes polarizer.Hereinafter, this polaroid glasses can claim Make linear polarization glasses.Can control as described above the wavelength layer in rotatory polarization glasses and linear polarization glasses optical axis and partially The absorption axiss of tabula rasa.

In the polaroid glasses escope, when the polarisation control layer is (λ/4 λ/2+) wavelength layer, the delay Film can be+C plate or+B plate.

In the present specification, it when the polarisation control layer is (λ/4 λ/2+) wavelength layer, has already passed through in polarisation control layer The light in only region existing for the wavelength layer of λ/4 can be referred to as the image light for right eye；And have already passed through polarisation control layer There are the light in the region of the wavelength layer of λ/2 and the wavelength layer of λ/4 can be referred to as the image light for left eye while middle.

As described above, in the case where the phase shift films are+C plate, according to the phase for the thickness direction that formula 6 or formula 7 determine Difference can be, for example, about 50nm to 270nm.Preferably, it can be passed through according to the image light for right eye in 6 control+C plate of formula The phase difference of the thickness direction in the region crossed, and can be, for example, 140nm to 200nm, and preferably 150nm to 190nm. Furthermore, it is possible to the phase difference according to the control of formula 7 for the thickness direction in the region of the image light process of left eye, and can be, For example, 60nm to 120nm, and preferably 70nm to 110nm.Furthermore in this case, it is preferable that spectators' wearing is above-mentioned Rotatory polarization glasses watch the stereoscopic image display, and but it is not limited to this.In addition, as long as above-mentioned phase shift films are arranged on image Between display unit and spectators, position is just not particularly limited.For example, it can be attached in image display part On polarisation control layer or before polaroid glasses.However, if having for the image light of right eye and the image light for left eye The phase difference of thickness direction different from each other, for convenience's sake, the phase shift films are preferably attached to before polaroid glasses.So And even if in these cases, described phase shift films itself can also be made graphical and be integrated on display, without by its It is attached to before polaroid glasses.

In addition, if the phase shift films are+B plate, can be according to the phase difference of thickness direction that formula determines, for example, About 50nm to 350nm.In addition, in this case, the phase difference (R in the face of+B plate on direction_in) can be, for example, about 120nm to 160nm.Preferably, the thickness side in the region that can be passed through according to the image light for right eye in 8 control+B plate of formula To phase difference, and can be, for example, 150nm to 350nm, and preferably 200nm to 300nm.Furthermore, it is possible to according to formula 9 The phase difference of the thickness direction in the region that the image light for left eye in control+B plate is passed through, and can be, for example, 50nm To 250nm, and preferably 100nm to 150nm.In this case, it is preferable that the region that the image light for left eye is passed through There is the phase difference of thickness direction different from each other with the region of the image light process for right eye.In addition, in this case, Preferably, spectators wear linear polarization glasses and watch the stereoscopic image display, and but it is not limited to this.In addition, for setting The position for setting above-mentioned phase shift films can be same as described above.

In polaroid glasses escope, if the polarisation control layer is the wavelength layer of patterned λ/4, the delay Film can be+C plate or+B plate, but be more preferably+C plate.

In the present specification, when the polarisation control layer is patterned λ/4 wavelength layer, having already passed through has each other not Light with the wavelength layer of any λ/4 in the wavelength layer of λ/4 of optical axis can be referred to as the image light for right eye, and having already passed through has The light of other wavelength layers of any λ/4 in the wavelength layer of the λ of optical axis different from each other/4 can be referred to as the image light for left eye.

As described above, the phase difference of the thickness direction determined according to formula can be example when the phase shift films are+C plate Such as, about 30nm to 350nm.Preferably, the thickness in the region that can be passed through according to the image light for right eye in 6 control+C plate of formula The phase difference in direction is spent, and, for example, can be 150nm to 350nm, and preferably 200nm to 300nm.Furthermore, it is possible to root Phase difference according to the control of formula 6 for the thickness direction in the region of the image light process of left eye, and, for example, can be for 50nm extremely 250nm, and preferably 100nm to 150nm.Furthermore in this case, it is preferable that spectators wear the rotatory polarization glasses The stereoscopic image display is watched, but it is not limited to this.In addition, the position for above-mentioned phase shift films to be arranged can be with above-mentioned phase Together.

In polaroid glasses escope as shown in Figure 1, when the polarisation control layer generates linearly polarized photon to have When direction substantially perpendicular to each other, the polarisation control layer may include polarisation control area and the use of the image light for right eye In the polarisation control area of the image light of left eye, and the control layer may include being provided only on for the inclined of right eye and left eye The wavelength layer of λ/2 on any region in photocontrol region.Polarisation control layer as described above can be referred to as " the wave of patterned λ/2 Long layer ".

In polaroid glasses escope, when the polarisation control layer is patterned λ/2 wavelength layer, the phase shift films It can be+C plate or+B plate, but be more preferably+B plate.

In the present specification, when the polarisation control layer is patterned λ/2 wavelength layer, polarisation control layer is had already passed through In there is no the light in the region of the wavelength layer of λ/2 can be referred to as the image light for right eye, and have already passed through in polarisation control layer There are the light in the region of the wavelength layer of λ/2 can be referred to as left eye image light.

Here, the phase difference of the thickness direction of+B plate determined according to formula can be, for example, about 50nm to 350nm.This Outside, in this case, in the face of+B plate direction phase difference (R_in) can be, for example, about 120nm to 160nm.Preferably, The phase difference of the thickness direction in the region that the image light for right eye in+B plate is passed through can be controlled according to formula 10, with It and for example, can be 150nm to 350nm, and preferably 200nm to 300nm.Furthermore, it is possible to be used for left eye according to the control of formula 11 Image light pass through region thickness direction phase difference, and, for example, can be 50nm to 250nm, and preferably 100nm to 200nm.Furthermore in this case, it is preferable that spectators, which wear above-mentioned rotatory polarization glasses, watches the perspective view As display, but it is not limited to this.In addition, the position for above-mentioned phase shift films to be arranged can be same as described above.

The phase shift films that can be used in above description are not particularly limited to any specific type, and this field can be used In known a variety of phase shift films, as long as they indicate phase difference features as described above.In one embodiment, described Phase shift films can be liquid crystal film or the polymer film of routine.In the case of a polymer film, can for wherein by uniaxial or The polymer film of the phase difference of biaxial stretch-formed control thickness direction.

The invention further relates to a kind of optical filters for stereoscopic image display comprising: polarisation control layer, the polarisation Control layer can control the picture signal including the image light for right eye and the image light for left eye and make for right eye And then image light and image light for left eye have polarized condition different from each other, if described image signal enters When, they can be launched；And phase shift films, the phase shift films are attached to the side of the control layer, described image light From wherein emitting and it also has the phase difference of thickness direction.

The optical filter has the optical filtering for the shape for being similar to the phase shift films as described above for being used to improve picture quality Piece is integrated and being attached on polarisation control layer, and can be applied in above-mentioned polaroid glasses type stereoscopic image display. Fig. 6 indicates an illustrative optical filter (6), wherein the phase shift films (16) are attached on the polarisation control layer (15).Figure Arrow in 6 indicates to include the picture signal warp for the image light of left eye and right eye when stereoscopic image display operation The direction crossed.

Therefore, above-mentioned situation can be applied similarly to specific kind of phase shift films or value (such as phase difference).

For example, the phase shift films for including in the optical filter be+C plate, phase difference can with meeting formula 6 or the relationship of formula 7, Or+B plate, phase difference can meet any relationship of following formula 8 to formula 11.

[formula 6]

Y_LOr Y_R=0.0201X²-0.0398X+0.0339≤0.5

[formula 7]

Y_L=0.0192X²-0.0763X+0.0899≤0.5

[formula 8]

Y_R=(9.24 × 10^-7)X²-0.000236X+0.0288≤0.5

[formula 9]

Y_L=(5.5 × 10^-7)X²-0.000347X+0.067≤0.5

[formula 10]

Y_R=(1.97 × 10^-6)X²-0.000616X+0.0644≤0.5

[formula 11]

Y_L=(1.99 × 10^-6)X²-0.00125X+0.206≤0.5

In above-mentioned formula, the X of formula 6 and formula 7 is the phase difference of the thickness direction of+C plate and the X of formula 8 to formula 11 is+B plate Thickness direction phase difference.

Y of the formula 6 into formula 11_RAnd Y_LWhen being illustrated respectively in the stereoscopic image display operation for applying the optical filter, Crosstalk ratio (Cd/m in left eye and right eye²) and described value can separately or concurrently, preferably 0.3 hereinafter, more preferable 0.1 Hereinafter, even more preferably from 0.05 hereinafter, and most preferably 0.01 or less.

In addition, the polarisation control layer in the optical filter can be by the polarisation control in above-mentioned stereoscopic image display Preparative layer composition, and can be, for example, the wavelength layer or (λ/4 λ/2+) wavelength layer of above-mentioned patterned λ/2 or λ/4.In solid In field of image, it is known that a variety of wavelength layers of patterned λ/2, the wavelength layer of patterned λ/4 or (λ/4 λ/2+) wavelength layer Or realize that their method and all above-mentioned known methods can be used for constituting polarisation control layer.

In the case where optical filter is applied to the display, it can be set, the polarisation control layer is set On the side that the picture signal generated by image display part enters, and have already passed through the described image letter of polarisation control layer Number viewer side is transferred to by phase shift films.

In addition, the method that the phase shift films are attached on polarisation control layer is not particularly limited and the optical filter can Think, for example, being laminated them by using conventional contact adhesive and preparing.

The invention further relates to for watching stereo-picture and having the inclined of the eyeglass for the eyeglass of right eye and for left eye Optical glasses.It respectively include the phase shift films and polarizer with the phase difference of thickness direction for the eyeglass of right eye and left eye.

The polaroid glasses can be used for watching the image issued from polaroid glasses type stereoscopic image display.It is described inclined Optical glasses can be above-mentioned rotatory polarization glasses or linear polarization glasses, with for improving figure before the polaroid glasses The phase shift films of image quality amount.Fig. 7 is the figure for indicating schematical polaroid glasses.Fig. 7 (A) indicates to include the left eye that spectators are arranged in (LE) use of eyeglass (it includes polarizer (71L) and phase shift films (72L)) and setting on right eye (RE) for left eye on In the eyeglass of right eye (it includes polarizer (71R) and phase shift films (72R)).Arrow in Fig. 7 (A) and (B) indicates aobvious to spectators The direction for the picture signal shown.

Therefore, above-mentioned situation can be applied similarly to specific kind of phase shift films or value (such as phase difference).

For example, the phase shift films for including in the polaroid glasses are+C plate, phase difference can be with the pass of meeting formula 6 or formula 7 System, or+B plate, phase difference can meet any relationship of following formula 8 to formula 11.

[formula 6]

Y_LOr Y_R=0.0201X²-0.0398X+0.0339≤0.5

[formula 7]

Y_L=0.0192X²-0.0763X+0.0899≤0.5

[formula 8]

Y_R=(9.24 × 10^-7)X²-0.000236X+0.0288≤0.5

[formula 9]

Y_L=(5.5 × 10^-7)X²-0.000347X+0.067≤0.5

[formula 10]

Y_R=(1.97 × 10^-6)X²-0.000616X+0.0644≤0.5

[formula 11]

Y_L=(1.99 × 10^-6)X²-0.00125X+0.206≤0.5

In above-mentioned formula, it is in the phase difference for the thickness direction that the X of formula 6 and formula 7 is+C plate, and in the X of formula 8 to formula 11 The phase difference of the thickness direction of+B plate.

Y of the formula 6 into formula 11_RAnd Y_LBe illustrated respectively in during using polaroid glasses viewing stereo-picture, in left eye and Crosstalk ratio (Cd/m in right eye²) and described value can separately or concurrently, preferably 0.3 hereinafter, more preferable 0.1 hereinafter, also More preferable 0.05 hereinafter, and most preferably 0.01 or less.

In addition, in the case where the polaroid glasses are rotatory polarization glasses, it can be into one for the eyeglass of left eye and right eye Step includes the wavelength layer of λ/4.In this case, as described above, the polarizer for including in the eyeglass for right eye and left eye Absorption axiss can be with direction parallel to each other, and the wavelength layer of λ/4 for including in the eyeglass for right eye and left eye can have There is optical axis different from each other.In other embodiments, the absorption for the polarizer for including in the eyeglass for right eye and left eye Axis can have different directions from each other, and the wavelength layer of λ/4 for including in the eyeglass for right eye and left eye can have Optical axis parallel to each other.

Fig. 7 (B) is the schematical figure of polaroid glasses and its expression includes the use being arranged on the left eye (LE) of spectators In the eyeglass (it includes polarizer (71L), the wavelength layer of λ/4 (73L) and phase shift films (72L)) of left eye and setting on right eye (RE) The eyeglass for right eye (it includes polarizer (71R), the wavelength layer of λ/4 (73R) and phase shift films (72R)).

It is described the invention further relates to a kind of method for improving the quality of the stereo-picture shown by image display part Image display part can be generated including the image light for right eye and left eye watched respectively by spectators' right eye and left eye Then they are sent to viewer side by picture signal.Described method includes following steps: the phase difference with thickness direction is arranged Phase shift films so that the phase shift films can be passed through with thickness direction from the picture signal of the sending of image display part, so After be transferred into viewer side.

In one embodiment, the method for the quality for improving stereo-picture can be to be used to prepare stereo-picture to show Show the method for device, optical filter or polaroid glasses, wherein can be by being arranged phase shift films between image display part and spectators And the quality of stereo-picture being improved, or use the method for the stereoscopic image display, wherein spectators wear polaroid glasses, Then stereo-picture is watched.

Therefore, what above-mentioned situation can be similar is applied in specific kind of phase shift films, phase difference value and the above method Display or glasses in setting.

For example, the phase shift films for including in the method be+C plate, phase difference can with meeting formula 6 or the relationship of formula 7, or Person's+B plate, phase difference can be with any relationships of meeting formula 8 to formula 11.

[formula 6]

Y_LOr Y_R=0.0201X²-0.0398X+0.0339≤0.5

[formula 7]

Y_L=0.0192X²-0.0763X+0.0899≤0.5

[formula 8]

Y_R=(9.24 × 10^-7)X²-0.000236X+0.0288≤0.5

[formula 9]

Y_L=(5.5 × 10^-7)X²-0.000347X+0.067≤0.5

[formula 10]

Y_R=(1.97 × 10^-6)X²-0.000616X+0.0644≤0.5

[formula 11]

Y_L=(1.99 × 10^-6)X²-0.00125X+0.206≤0.5

In above-mentioned formula, it is in the phase difference for the thickness direction that the X of formula 6 and formula 7 is+C plate, and in the X of formula 8 to formula 11 The phase difference of the thickness direction of+B plate.

In Y of the formula 6 into formula 11_RAnd Y_LIt respectively indicates when stereoscopic image display operation, in left eye and right eye Crosstalk ratio (Cd/m²) and described value can separately or concurrently, preferably 0.3 hereinafter, more preferable 0.1 hereinafter, even more preferably from 0.05 hereinafter, and most preferably 0.01 or less.

In the case where the method is to prepare the method for stereoscopic image display, optical filter or polaroid glasses etc., as long as The method includes the phase shift films are arranged in place, the type of other specific steps or the element used Etc. being not particularly limited, and in the art, known all conventional contents can be applied to this.

Beneficial effect

The present invention can provide a kind of stereoscopic image display, a kind of optical filter for stereoscopic image display, be used for The polaroid glasses of viewing stereo-picture or a kind of method for improving the quality of stereo-picture, the stereoscopic image display energy It enough prevents crosstalk or visual angle from reducing, and also prevents the decline of the brightness when showing stereo-picture, while improving picture quality (example Such as, contrast).

Detailed description of the invention

Fig. 1 is the cross-sectional view for describing a schematical display.

Fig. 2 and 3 is image production section for right eye and left eye of the schematic description in stereoscopic image display The figure of configuration.

Figure 4 and 5 are polarisation for right eye and left eye of the schematic description in stereoscopic image display polarisation control layer The figure of the configuration of control area.

Fig. 6 is figure of the description for the schematical optical filter of stereoscopic image display.

Fig. 7 is the figure described for watching the schematical polaroid glasses of stereo-picture.

Fig. 8 to 16 is the figure for illustrating measurement result.

Specific embodiment

It will be described in detail the present invention by embodiment according to the present invention and without comparative example according to the present invention, But the present invention is not limited to the following examples.

In the present specification, physical property is measured by method as described below.

1, the phase difference of phase shift films

The light measurement that wavelength is 550nm or 589nm can be used in the phase difference of phase shift films.Phase difference can be by phase shift films 16 Muller matrixes obtain, and are measured by Axoscan (being produced by Axomatrics), Axoscan is that one kind being capable of root The instrument of 16 Muller matrixes is measured according to the specification of manufacturer.

2, the method for crosstalk ratio is assessed

Ratio of the crosstalk of stereoscopic image display than brightness between dark-state and illuminated state can be defined as.According to stereo-picture The type of display, the methods of known a variety of measurement crosstalk ratios in the art.For example, using polaroid glasses type stereo-picture Crosstalk in the embodiment of display by following method than that can be measured.Firstly, the polarisation eye for watching stereo-picture Mirror is arranged on the conventional viewing point of stereoscopic image display.As described above, the conventional viewing point is apart from described aobvious The central point for showing device is 3/2 times of point of the horizontal length of the display.The polaroid glasses are with following condition setting: normal The viewing point of rule, they are towards the center of the display.The horizontal length can be for relative to the viewing stereo-picture Spectators, the length of the horizontal direction of the display, that is, can be the display transverse width.In above-mentioned configuration, In the state that the display shows the image for left eye, brightness measurer (SR-U2 photometer) is separately positioned on partially Optical glasses are used for behind the eyeglass of left eye and right eye, then, measure the brightness after left eyeglass lens and the eyeglass for right eye Subsequent brightness.As described above, the subsequent brightness of eyeglass for left eye is the brightness of illuminated state, and in the eyeglass for right eye The brightness measured below is the brightness of dark-state.After measuring brightness, the ratio of the brightness of the brightness of dark-state relative to illuminated state is calculated Rate ([brightness of dark-state]/[brightness of illuminated state]), the crosstalk ratio (Y that can be referred to as in left eye_L).Furthermore, it is possible to by with it is upper Crosstalk ratio (Y in the identical method measurement right eye_R), specifically, it can be by measuring in the stereo-picture Display shows the brightness for the illuminated state and dark-state being used in the state of the image of right eye and calculates.In this case, it is used for The subsequent brightness of the eyeglass of right eye is the brightness of illuminated state, and the brightness measured below in the eyeglass for left eye is the bright of dark-state Degree.In addition, ratio ([brightness/illuminated state brightness of dark-state]) can similarly be referred to as crosstalk ratio (Y_R)。

3, the method for the crosstalk ratio according to horizontal view angle is assessed

The crosstalk ratio according to horizontal view angle can be assessed by following method.Such as the use described in above-mentioned project 2 In the method for assessment crosstalk ratio, the polaroid glasses for watching stereo-picture are arranged on the conventional viewing of the display On point, then, changes viewing angle with 5 degree in 0 to 80 degree range in the horizontal direction by referring to spectators for interval, pass through As the identical method described in project 2 measures crosstalk ratio (Y_LAnd Y_R).Here, by measurement so that the sight of spectators is from water Square to baseline (0 degree) relative to when spectators when conventional viewing point watches the center of the display sight of spectators The angle of the variation of angle obtains viewing angle.In addition, the crosstalk in above-mentioned project 2 is than in the value of 0 degree of viewing angular measurement.

4, the method for the brightness and crosstalk according to horizontal view angle is assessed

It is described for watching the inclined of stereo-picture such as the method described in above-mentioned project 3 for measuring crosstalk ratio Optical glasses are arranged on the conventional viewing point of the display, then, by referring to spectators in the horizontal direction in 0 to 80 degree Change viewing angle with 5 degree in range for interval, is measured by such as the identical method described in project 2 according to horizontal view angle Crosstalk brightness.It is calculated by formula 12 according to the crosstalk brightness (CR in the left eye of horizontal view angle_{It is left}), and calculated by formula 13 according to water Look squarely the crosstalk brightness (CR in the right eye at angle_{It is right})。

[formula 12]

CR_{It is left}In=brightness/left eye by the image light for left eye in the region for left eye in polaroid glasses Crosstalk ratio (Y_L)

[formula 13]

CR_{It is right}In=brightness/right eye by the image light for right eye in the region for right eye in polaroid glasses Crosstalk ratio (Y_R)

Embodiment 1

Prepare the structure represented by having in Fig. 1 and including polarisation control layer (15 in Fig. 1) ((λ/4 λ/2+) wavelength Layer) display.In the polarisation control layer (15 in Fig. 1) ((λ/4 λ/2+) wavelength layer), have with polarizer (in Fig. 1 14) light transmission shaft at the wavelength layer of λ/4 of 45 degree of slow axis be arranged on the image light for right eye polarisation control area (figure R in the 15 of 1) in；And there is the wavelength layer of λ/2 and tool for the slow axis spent with the light transmission shaft of polarizer (14 in Fig. 1) at -45 There is the image light being arranged at the wavelength layer of λ/4 of 45 degree of slow axis with the light transmission shaft of polarizer (14 in Fig. 1) for left eye Polarisation control area (L in the 15 of Fig. 1) in.Then, using the polaroid glasses (circle for the eyeglass having for right eye and left eye Polaroid glasses) image issued from stereoscopic image display is watched, in the polaroid glasses, have with polarizer (in Fig. 1 14) light transmission shaft at 90 degree of light transmission shaft light polarizing film, have with the light transmission shaft of polarizer (14 in Fig. 1) into 45 degree of slow axis The wavelength layer of λ/4 and+C plate be successively attached to the eyeglass for right eye, and there is the light transmission with polarizer (14 in Fig. 1) Axis is at the light polarizing film of 90 degree of light transmission shaft, the wave of λ/4 for the slow axis spent with the light transmission shaft with polarizer (14 in Fig. 1) at -45 Long layer and+C plate are successively attached to the eyeglass for left eye.In above-mentioned steps, it is attached to by changing for left eye and right eye Eyeglass on+C plate thickness direction phase difference, measure crosstalk ratio in left eye or right eye and result be shown in Fig. 8 In.+ C the plate is conventional liquid crystal type phase shift films, wherein is prepared using by using the liquid crystal of vertically oriented light curable And with 0.1 the birefringent (phase shift films of Δ n).Fig. 8 (a) indicates the crosstalk ratio (Y in left eye in the scenario above_L), Wherein, the phase difference (unit: nm) of the thickness direction of x-axis expression+C plate and y-axis indicate crosstalk ratio (Cd/m²).In addition, Fig. 8 (b) the crosstalk ratio (Y in right eye is indicated_R), wherein the phase difference (unit: nm) and y-axis of the thickness direction of x-axis expression+C plate Indicate crosstalk ratio (Cd/m²)。

Embodiment 2

In addition in view of embodiment 1 as a result, by the phase difference of thickness direction be 170nm+C plate (by with 1.7 μm Thickness coating is attached to 0.1 birefringent (the liquid crystal type phase shift films of the liquid crystal preparation of the vertically oriented light curable of Δ n)) (have by the thickness coating with 0.9 μm for the eyeglass of right eye, and by the+C plate that the phase difference of thickness direction is 90nm 0.1 birefringent (the liquid crystal type phase shift films of the liquid crystal preparation of the vertically oriented light curable of Δ n)) are attached to the mirror for left eye Except on piece, stereoscopic image display and polaroid glasses are prepared by method same as Example 1.

Comparative example 1

Other than+C plate not being attached on the eyeglass for being used for right eye and left eye, prepared in method same as Example 2 Stereoscopic image display and polaroid glasses.

EXPERIMENTAL EXAMPLE 1

When using the display in embodiment 2 and comparative example 1, the figure of left eye is used for by above method measurement Image light as light and for right eye is and shown in Figure 9 according to the crosstalk ratio of horizontal view angle.Fig. 9 (a) indicates to regard according to level Crosstalk ratio in the left eye at angle, wherein x-axis indicates that horizontal view angle (unit: degree) and y-axis indicate crosstalk ratio (Cd/m²).Fig. 9 (b) it indicates according to the crosstalk ratio in the right eye of horizontal view angle, wherein x-axis indicates that horizontal view angle (unit: degree) and y-axis indicate Crosstalk ratio (Cd/m²).In the various figures, dotted line indicate comparative example 1 as a result, and solid line indicate embodiment 2 result.

EXPERIMENTAL EXAMPLE 2

During using the display of embodiment 2 and comparative example 1, measured by the above method by according to level Brightness that the crosstalk at visual angle generates and shown in Figure 10.In Figure 10 (a), x-axis is indicated horizontal view angle (unit: degree), and Y-axis indicates brightness (CR_{It is left}).In Figure 10 (b), x-axis indicates that horizontal view angle (unit: degree) and y-axis indicate brightness (CR_{It is right}).? In each figure, dotted line indicate comparative example 1 as a result, and solid line indicate embodiment 2 result.

Embodiment 3

Other than preparing following polaroid glasses (linear polarization glasses), prepared by method same as Example 1 vertical Body image display and polaroid glasses simultaneously watch the image issued from the display of preparation, and the polaroid glasses include being used for right eye With the eyeglass of left eye, wherein having with the light transmission shaft of polarizer (14 in Fig. 1) into the light polarizing film of 90 degree of light transmission shaft and having Phase difference (the R in direction in the face of 140nm_in)+B plate be successively attached to the eyeglass for right eye；And have and polarizer The light transmission shaft of (14 in Fig. 1) at direction in the light polarizing film of 90 degree of light transmission shaft and the face with 140nm phase difference (R_in)+ B plate is successively attached to the eyeglass for left eye.In above-mentioned viewing step, by changing the mirror being attached to for left eye and right eye The phase difference of the thickness direction of+B plate of on piece measures the crosstalk ratio watched in left eye or right eye by the above method, with And result is shown in Figure 11.As+B plate, COP (cyclic olefin polymer) phase shift films for being often used as+B plate are used.Figure 11 (a) Indicate the crosstalk ratio (Y in left eye_L), wherein the phase difference (unit: nm) and y-axis table of the thickness direction of x-axis expression+B plate Show crosstalk ratio (Cd/m²).In addition, Figure 11 (b) indicates the crosstalk ratio (Y in right eye_R), wherein the thickness direction of x-axis expression+B plate Phase difference (unit: nm) and y-axis indicate crosstalk ratio (Cd/m²)。

Embodiment 4

In addition in view of embodiment 3 as a result, by the phase difference of thickness direction be 240nm and face in the phase difference in direction be + B the plate (COP (cyclic olefin polymer) phase shift films (80 μm of thickness)) of 137.5nm is attached to the eyeglass for right eye, and will be thick Spend direction phase difference be 130nm and face in direction phase difference be 137.5nm+B plate (COP (cyclic olefin polymer) delay Film (thickness: 80 μm)) be attached on the eyeglass for left eye except, it is aobvious that stereo-picture is prepared by method same as Example 3 Show device and polaroid glasses.

Comparative example 2

Other than+B plate not being attached on the eyeglass for being used for right eye and left eye, constituted in method same as Example 4 Stereoscopic image display and polaroid glasses.

EXPERIMENTAL EXAMPLE 3

During using the display of embodiment 4 and comparative example 2, by above method measurement for left eye Image light and image light for right eye are shown in Figure 12 according to the crosstalk ratio of horizontal view angle.Figure 12 (a) is indicated according to water Look squarely the crosstalk ratio (Y in the left eye at angle_L), wherein x-axis indicates that horizontal view angle (unit: degree) and y-axis indicate crosstalk ratio (Cd/m²).Figure 12 (b) is indicated according to the crosstalk ratio (Y in the right eye of horizontal view angle_R), wherein x-axis expression horizontal view angle (unit: Degree) and y-axis expression crosstalk ratio (Cd/m²).In the various figures, dotted line indicate comparative example 2 as a result, and solid line indicate The result of embodiment 4.

EXPERIMENTAL EXAMPLE 4

During using the display of embodiment 4 and comparative example 2, by above method measurement for left eye The brightness that image light and image light for right eye generate due to the crosstalk according to horizontal view angle, and be shown in Figure 13.In Figure 13 (a) in, x-axis indicates that horizontal view angle (unit: degree) and y-axis indicate brightness (CR_{It is left}).In Figure 13 (b), x-axis indicates horizontal view Angle (unit: degree) and y-axis indicate brightness (CR_{It is right}).In the various figures, dotted line indicate comparative example 2 as a result, and solid line Indicate the result of embodiment 4.

Embodiment 5

It is prepared by the way that+B the plate of the phase difference in direction in the face with 140nm to be attached to before the polarisation control layer Including polarisation control layer (15 in Fig. 1) (wavelength layer of patterned λ/2) and with the display of structure shown in FIG. 1, wherein The image for left eye is existed only at the wavelength layer of λ/2 of the slow axis of -45 degree with the light transmission shaft with polarizer (14 in Fig. 1) On the polarisation control area (15 L in Fig. 1) of light.Then, using the polaroid glasses with the eyeglass for right eye and left eye (rotatory polarization glasses) watch the image issued from display, in the polaroid glasses, have and polarizer (14 in Fig. 1) Light transmission shaft at 90 degree of light transmission shaft light polarizing film and have with the light transmission shaft of polarizer (14 in Fig. 1) into 45 degree of slow axis The wavelength layer of λ/4 is successively attached to the eyeglass for right eye；And have with the light transmission shaft of polarizer (14 in Fig. 1) into 90 degree The light polarizing film of light transmission shaft and have with the light transmission shaft of polarizer (14 in Fig. 1) at the slow axis of -45 degree the wavelength layer of λ/4 successively by It is attached to the eyeglass for left eye.In above-mentioned viewing step, by the thickness for changing+B plate being attached to before polarisation control layer The phase difference in direction, measures the crosstalk ratio watched in left eye or right eye and result is shown in Figure 14.Here, conduct+B Plate uses COP (cyclic olefin polymer) phase shift films for being often used as+B plate.In Figure 14, dotted line indicates the crosstalk in left eye Than (Y_L)(Cd/m²) and solid line indicate right eye crosstalk ratio (Y_R)(Cd/m²), wherein the thickness direction of x-axis expression+B plate Phase difference (unit: × 100nm) and y-axis indicate crosstalk ratio (Cd/m²)。

Embodiment 6

In addition to consideration embodiment 5 is as a result, by the thickness side of the phase difference in direction in the face with 137.5nm and 210nm To phase difference+B plate (COP (cyclic olefin polymer) phase shift films (thickness: 80 μm)) be attached to the polarisation in described device control Except before layer, stereoscopic image display and polaroid glasses are prepared in method same as Example 5.

Comparative example 3

Other than affixed thereto not by+B plate, by method same as Example 6 constitute stereoscopic image display and Polaroid glasses.

EXPERIMENTAL EXAMPLE 5

During using the display of embodiment 6 and comparative example 3, by above method measurement for left eye Image light and image light for right eye are shown in Figure 15 according to the crosstalk ratio of horizontal view angle.In Figure 15 (a), x-axis is indicated Horizontal view angle (unit: degree) and y-axis indicate the crosstalk ratio (Y in left eye_L)(Cd/m²).In Figure 15 (b), x-axis indicates horizontal Visual angle (unit: degree) and y-axis indicate crosstalk ratio (Y_R)(Cd/m²).In the various figures, dotted line indicate comparative example 3 as a result, And solid line indicates the result of embodiment 6.

EXPERIMENTAL EXAMPLE 6

During using the display of embodiment 6 and comparative example 3, by above method measurement for left eye Image light and image light for right eye are shown in Figure 16 according to the brightness of the crosstalk of horizontal view angle.In Figure 16 (a), x-axis Indicate that horizontal view angle (unit: degree) and y-axis indicate brightness (CR_{It is left}).In Figure 16 (b), x-axis expression horizontal view angle (unit: Degree) and y-axis expression brightness (CR_{It is right}).In the various figures, dotted line indicate comparative example 3 as a result, and solid line indicate implement The result of example 6.

Appended drawing reference

1: dimensional image display

11: light source 12,14: polarizer

13: image generating layer

15: polarisation control layer

16: phase shift films

UR: the generating region of the image light for right eye

UL: the generating region of the image light for left eye

AR: the polarisation control area of the image light for right eye

AL: the polarisation control area of the image light for left eye

6: optical filter

LE: left eye RE: right eye

71L, 71R: polarizer

72L, 72R: phase shift films

The wavelength layer of 73L, 73R: λ/4

Claims (9)

1. a kind of stereoscopic image display comprising:

Image display part, described image display unit include image production components, and described image generating means can generate packet Include the picture signal of the image light for right eye and the image light for left eye, additionally it is possible to which they are sent to viewer side；With it is inclined Optical control layer, the polarisation control layer described image generating means viewer side, and, if described image signal enter its When middle, the polarisation control layer can control them and the image light for right eye and the image light for left eye are had each other Different polarized condition, additionally it is possible to they are sent to viewer side, the polarisation control layer includes the image light for right eye The polarisation control area of polarisation control area and the image light for left eye, and further include in the image for right eye and left eye The wavelength layer of λ/4 on the polarisation control area of light, wherein the wave of λ/4 on the polarisation control area of the image light for right eye The optical axis that long layer and the wavelength layer of λ/4 on the polarisation control area of the image light for left eye have direction different from each other, and

+ C the plate ,+C plate are attached to the side of the polarisation control layer, and described image signal emits from+C the plate ,+the C The phase difference of the thickness direction of plate be 30nm to 350nm, be arranged its make the picture signal from described image display unit by According to thickness direction by the+C plate, it is then transmitted to viewer side,

Wherein, described image generating means includes light source, the first polarizer, image generating layer and the second polarizer,

Wherein, described image generating layer include extend to common direction alternative bands pattern setting or alternately grid pattern The image production section for left eye and the image production section for right eye being arranged.

2. stereoscopic image display according to claim 1, wherein the area in+C plate that the image light for right eye is passed through The phase difference of the thickness direction in domain is 150nm to 350nm, and for the thickness in the region in the+C plate of the image light process of left eye The phase difference for spending direction is 50nm to 250nm.

3. stereoscopic image display according to claim 1, wherein the area in+C plate that the image light for right eye is passed through The phase difference of the thickness direction in domain is 200nm to 300nm, and for the thickness in the region in the+C plate of the image light process of left eye The phase difference for spending direction is 100nm to 150nm.

4. a kind of optical filter for stereoscopic image display comprising:

Polarisation control layer, if including that the picture signal of the image light for right eye and the image light for left eye enters wherein When, the polarisation control layer can control them and the image light for right eye and the image light for left eye are had each other not With polarized condition, and them can also be emitted and the polarisation control layer includes the polarisation of the image light for right eye The polarisation control area of control area and the image light for left eye, and further include in the image light for right eye and left eye The wavelength layer of λ/4 on polarisation control area, wherein the wavelength layer of λ/4 on the polarisation control area of the image light for right eye The optical axis for having direction different from each other with the wavelength layer of the λ on the polarisation control area of the image light for left eye/4, and

+ C the plate ,+C plate are attached to the side of the polarisation control layer, and described image signal emits from+C the plate, and institute The phase difference for stating the thickness direction of+C plate is 30nm to 350nm,

Wherein, the stereoscopic image display includes image display part, and described image display unit includes image production components, Described image generating means includes light source, the first polarizer, image generating layer and the second polarizer,

Wherein, described image generating layer include extend to common direction alternative bands pattern setting or alternately grid pattern The image production section for left eye and the image production section for right eye being arranged.

5. the polaroid glasses for watching stereo-picture comprising the eyeglass for right eye and the eyeglass for left eye, wherein institute State the eyeglass for right eye and the eyeglass for left eye respectively and include :+C plate, the wavelength layer of λ/4 of the phase difference with thickness direction And polarizer, wherein+C plate is the phase difference of the phase shift films of the relationship of meeting formula 1 and the thickness direction of the phase shift films (Rth) it is calculated by formula 4:

[formula 1]

N_x=N_y<N_z

[formula 4]

R_th=d × (N_z-N_y)

Wherein, N_xIndicate refractive index, N in the face on the slow-axis direction of phase shift films_yIndicate the face on the fast axis direction of phase shift films Interior refractive index, N_zIndicate that refractive index and d on the thickness direction of phase shift films indicate the thickness of the phase shift films,

The phase difference of the thickness direction of+C plate is 30nm to 350nm, and

It is each other horizontal direction in the absorption axiss for the polarizer in the eyeglass of right eye and the eyeglass of left eye, and described For the optical axis that the wavelength layer of the λ in the eyeglass of right eye and the eyeglass of left eye/4 has direction different from each other, or it is being used for right eye Eyeglass and left eye eyeglass in the absorption axiss of polarizer there are different directions from each other and in the eyeglass for right eye There is optical axis parallel to each other with the wavelength layer of the λ in the eyeglass of left eye/4.

6. polaroid glasses according to claim 5, wherein in the eyeglass for right eye, the thickness direction of+C plate Phase difference be 140nm to 200nm, and in the eyeglass for left eye, the phase difference of the thickness direction of+C plate is 60nm to 120nm.

7. polaroid glasses according to claim 5, wherein in the eyeglass for right eye, the thickness direction of+C plate Phase difference be 150nm to 350nm, and in the eyeglass for left eye, the phase difference of the thickness direction of+C plate is 50nm to 250nm.

8. polaroid glasses according to claim 5, wherein in the eyeglass for right eye, the thickness direction of+C plate Phase difference be 200nm to 300nm, and in the eyeglass for left eye, the phase difference of the thickness direction of+C plate is 100nm to 150nm.

9. a kind of method for improving the quality of the stereo-picture shown by image display part, described image display unit packet Include: image production components, described image generating means can be generated including the image light for right eye and for the image of left eye The picture signal of light, and they can also be sent to viewer side；With polarisation control layer, the polarisation control layer is in the figure As the viewer side of generating means, and, if described image signal is entered wherein, the polarisation control layer can control them So that the image light for right eye and the image light for left eye have polarized condition different from each other, additionally it is possible to transmit them To viewer side, the polarisation control layer includes the polarisation control area of the image light for right eye and the image light for left eye Polarisation control area, and further include the wavelength layer of λ/4 on the polarisation control area for right eye and the image light of left eye, with And it the wavelength layer of λ/4 on the polarisation control area of the image light for right eye and is controlled in the polarisation of the image light for left eye The optical axis that the wavelength layer of λ/4 on region has direction different from each other,

The method includes+the C that the phase difference in the side of polarisation control layer setting thickness direction is 30nm to 350nm Plate, so that the picture signal issued from described image display unit is then transmitted to thickness direction+C plate described in Viewer side, described image signal emit from+C the plate,

Wherein, described image generating means includes light source, the first polarizer, image generating layer and the second polarizer,

Wherein, described image generating layer include extend to common direction alternative bands pattern setting or alternately grid pattern The image production section for left eye and the image production section for right eye being arranged.