JP5760428B2 - Display device - Google Patents

Description

  The present invention relates to a display device.

  A multi-viewpoint display device that displays different images for a plurality of viewpoint directions is known. As an example, the multi-viewpoint display device includes a transmissive display monitor, a light source that emits light from the back side of the transmissive display monitor, and a lenticular lens provided between the transmissive display monitor and the light source. The lenticular lens refracts the light emitted from the light source in the directions of the plurality of viewpoint positions.

  By the way, in such a multi-viewpoint display device, since light is refracted by a lenticular lens, it is difficult to widen the left and right viewing angles.

  In order to solve the above-mentioned problem, in the first aspect of the present invention, there is provided a display device that displays an image toward a plurality of viewing positions, the display panel displaying an image, and a back surface of the display panel. On the optical path between the backlight unit that irradiates parallel light and the backlight unit and the display panel, the backlight unit is provided corresponding to each of a plurality of viewing positions, and each is in the direction of the corresponding viewing position. A plurality of Fresnel prisms that refract parallel light, a plurality of shutter units provided corresponding to each of the plurality of Fresnel prisms on an optical path between the backlight unit and the display panel, and the plurality of shutters Light that passes through each of the sections and each of the plurality of Fresnel prisms to a viewing position corresponding to each of the Fresnel prisms Comprising a part, and each of the plurality of shutter portions to provide a display device having a plurality of shutters that passes or blocks light at each position in the horizontal direction of the display panel.

  It should be noted that the above summary of the invention does not enumerate all the necessary features of the present invention. In addition, a sub-combination of these feature groups can also be an invention.

The structure of the display apparatus 10 which concerns on this embodiment is shown. The respective configurations of the display panel 20, the backlight unit 22, the shutter panel 24, the prism panel 26, the vertical diffusion plate 28, and the optical unit 30 provided in the display device 10 according to the present embodiment are shown. An example of the structure of the display apparatus 10 which concerns on this embodiment, and the light given to a 1st viewer from the display apparatus 10 is shown. An example of the structure of the display apparatus 10 which concerns on this embodiment, and the light given to a 2nd viewer from the display apparatus 10 is shown. An example of the structure of the shutter panel 24 which concerns on this embodiment is shown. The control timing in the case of providing the same stereoscopic image to a plurality of viewers is shown. The control timing in the case of providing a different stereoscopic image to each of a plurality of viewers is shown. An example of the structure of the backlight part 22 which concerns on this embodiment is shown.

  Hereinafter, the present invention will be described through embodiments of the invention, but the following embodiments do not limit the invention according to the claims. In addition, not all the combinations of features described in the embodiments are essential for the solving means of the invention.

  FIG. 1 shows a configuration of a display device 10 according to the present embodiment. The display device 10 displays images toward a plurality of viewing positions.

  More specifically, the display device 10 displays an image for the right eye and gives it to the right eye of each of a plurality of viewers, and displays an image for the left eye and gives it to each of the left eyes of a plurality of viewers. be able to. Such a display device 10 can provide a stereoscopic image to a plurality of viewers who do not wear dedicated glasses for image separation, that is, a plurality of viewers with naked eyes.

  The display device 10 includes a display panel 20, a backlight unit 22, a shutter panel 24, a prism panel 26, a vertical diffusion plate 28, an optical unit 30, a shutter control unit 32, and a display control unit 34. Prepare. The display panel 20 displays a right eye image and a left eye image. The display panel 20 is a transmissive panel that provides a viewer with a displayed image by transmitting light emitted from the back side.

  The backlight unit 22 is provided on the back side of the display panel 20. The backlight unit 22 irradiates the back surface of the display panel 20 with light. In the present embodiment, the backlight unit 22 irradiates the back surface of the display panel 20 with parallel light. The light irradiated on the back surface of the display panel 20 is transmitted to the display panel 20 and given to each of a plurality of viewers. Thereby, each of a plurality of viewers can see the image displayed on the display panel 20.

  The shutter panel 24 is provided on the optical path between the backlight unit 22 and the display panel 20. The shutter panel 24 transmits or blocks light output from the backlight unit 22 for each area of the display panel 20.

  The prism panel 26 is provided on the optical path between the backlight unit 22 and the display panel 20. The prism panel 26 refracts the light output from the backlight unit 22 in different directions for each region of the display panel 20.

  The vertical diffusion plate 28 is provided on the optical path between the prism panel 26 and the display panel 20. The vertical diffusion plate 28 diffuses the light emitted from the shutter panel 24 in the vertical direction of the display panel 20.

  The optical unit 30 condenses the light that has passed through the shutter panel 24 and the prism panel 26 in the directions of the plurality of viewing positions. For example, when providing a stereoscopic image to each of the first viewer and the second viewer, the optical unit 30 includes a viewing position corresponding to the right eye of the first viewer, the first viewer Viewing position corresponding to the left eye of the second viewer, viewing position corresponding to the right eye of the second viewer, and viewing position corresponding to the left eye of the second viewer The light corresponding to each viewing position is condensed.

  The shutter control unit 32 controls the position and timing of transmitting and blocking light in the shutter panel 24. The display control unit 34 controls the display timing of the right eye image and the left eye image.

  FIG. 2 shows configurations of the display panel 20, the backlight unit 22, the shutter panel 24, the prism panel 26, the vertical diffusion plate 28, and the optical unit 30 provided in the display device 10 according to the present embodiment.

  The backlight unit 22 includes a backlight panel 36 and a collimator lens panel 38. The backlight panel 36 irradiates the entire back surface of the display panel 20 with light. As an example, the backlight panel 36 includes a plurality of light sources 50 arranged in a horizontal direction and a vertical direction of the display panel 20 at a predetermined pitch.

  The collimator lens panel 38 converts each light output from the plurality of light sources 50 of the backlight panel 36 into parallel light. As an example, the collimator lens panel 38 includes a plurality of elongated collimator lenses 52 arranged in the horizontal direction and extending in the vertical direction. Each of the plurality of collimator lenses 52 is provided corresponding to each of the plurality of light sources 50 arranged in the horizontal direction of the display panel 20. Each of the plurality of collimator lenses 52 sets the horizontal component in the light from the corresponding light source 50 as parallel light.

  The prism panel 26 is provided on the optical path between the backlight unit 22 and the display panel 20. For example, the prism panel 26 is disposed between the shutter panel 24 and the display panel 20. The prism panel 26 may be disposed between the backlight unit 22 and the shutter panel 24 as an example.

  The prism panel 26 has a plurality of Fresnel prisms 44 provided corresponding to each of a plurality of viewing positions on the optical path between the backlight unit 22 and the display panel 20. The plurality of Fresnel prisms 44 refract the parallel light output from the backlight unit 22 toward the corresponding viewing position.

  Each of the plurality of Fresnel prisms 44 has a strip shape extending in the horizontal direction of the display panel 20. The plurality of Fresnel prisms 44 are arranged side by side in the vertical direction.

  Each of the plurality of Fresnel prisms 44 includes a plurality of prisms 54 arranged in the horizontal direction of the display panel 20 at a predetermined pitch. Each of the plurality of prisms 54 has an inclined surface having an angle corresponding to the corresponding observation position (viewer), and refracts parallel light incident from the back side in the direction of the corresponding observation position.

  In this example, the prism panel 26 includes a plurality of Fresnel prisms 44-1 corresponding to the first viewer and a plurality of Fresnel prisms 44-2 corresponding to the second viewer. In this example, in the prism panel 26, the Fresnel prism 44-1 corresponding to the first viewer and the Fresnel prism 44-2 corresponding to the second viewer are alternately arranged in the vertical direction. In each of the plurality of Fresnel prisms 44, another Fresnel prism 44 that refracts parallel light in the direction of another observation position is provided adjacent to the vertical direction.

  In this example, each of the plurality of prisms 54 included in the Fresnel prism 44-1 corresponding to the first viewer refracts the parallel light incident from the back surface to the left side of the display panel 20. Each of the plurality of prisms 54 included in the Fresnel prism 44-2 corresponding to the second viewer refracts the parallel light incident from the back surface to the right side of the display panel 20.

  The shutter panel 24 has a plurality of shutter units 42 provided corresponding to the plurality of Fresnel prisms 44 on the optical path between the backlight unit 22 and the display panel 20. That is, the shutter panel 24 has a plurality of corresponding shutter portions 42 corresponding to each of a plurality of observation positions. Each of the plurality of shutter portions 42 has, for example, the same shape as the corresponding Fresnel prism 44, and transmits and transmits the light emitted from the corresponding Fresnel prism 44 or the light incident on the corresponding Fresnel prism 44. It is arranged at a position where it can be shut off.

  In this example, the shutter panel 24 includes a plurality of shutter units 42-1 corresponding to each of the plurality of Fresnel prisms 44-1 corresponding to the first viewer, and a plurality of shutters corresponding to the second viewer. And a plurality of shutter portions 42-2 corresponding to each of the Fresnel prisms 44-2. That is, the plurality of shutter units 42-1 correspond to the first viewer. The plurality of shutter units 42-2 correspond to the second viewer.

  The vertical diffusion plate 28 diffuses light emitted from the plurality of shutter portions 42 in the vertical direction of the display panel 20. Accordingly, the vertical diffusion plate 28 can uniformly irradiate the display panel 20 with the light output from each of the strip-shaped shutter portions 42 extending in the horizontal direction in the vertical direction.

  The optical unit 30 is provided between the display panel 20 and the shutter panel 24. The optical unit 30 condenses the light that has passed through each of the plurality of shutter units 42 and each of the plurality of Fresnel prisms 44 to a viewing position corresponding to each Fresnel prism 44.

  In this example, the optical unit 30 converts the light that has passed through each of the plurality of shutter units 42-1 and the plurality of Fresnel prisms 44-1 corresponding to the first viewer to the first viewer. Focus to the viewing position corresponding to. Further, in this example, the optical unit 30 uses the light that has passed through each of the plurality of shutter units 42-2 and the plurality of Fresnel prisms 44-2 corresponding to the second viewer. The light is condensed to the viewing position corresponding to the second viewer.

  The optical unit 30 includes a lenticular lens 46 and a lens 48 as an example. The lenticular lens 46 refracts the light that has passed through each of the plurality of shutter portions 42 and each of the plurality of Fresnel prisms 44 toward the viewing position corresponding to each Fresnel prism 44. For example, the lenticular lens 46 includes a plurality of elongated lenses arranged in the horizontal direction and extending in the vertical direction. In the lenticular lens 46, the pitch between the lenses is the same as the pitch between the prisms 54 in each of the plurality of Fresnel prisms 44. Thus, the lenticular lens 46 can refract light with high accuracy in the direction of the corresponding observation position.

  In this example, the lenticular lens 46 transmits the light that has passed through each of the plurality of shutter portions 42-1 and the plurality of Fresnel prisms 44-1 corresponding to the first viewer to the first viewer. Refracts in the direction of the viewing position corresponding to. In this example, the lenticular lens 46 transmits the light that has passed through each of the plurality of shutter units 42-2 and the plurality of Fresnel prisms 44-2 corresponding to the second viewer to the second view. The light is refracted in the direction of the viewing position corresponding to the viewer.

  The lens 48 condenses the light that has passed through the lenticular lens 46 to the corresponding viewing position. In this example, the lens 48 transmits light that has passed through each of the plurality of shutter units 42-1 and the plurality of Fresnel prisms 44-1 corresponding to the first viewer to the first viewer. Focus on the corresponding viewing position. In this example, the lens 48 transmits the light that has passed through each of the plurality of shutter units 42-2 and the plurality of Fresnel prisms 44-2 corresponding to the second viewer to the second viewer. Focus on the viewing position corresponding to the person.

  The lenticular lens 46 may further have the function of the lens 48. In this case, in the lenticular lens 46, it is preferable that the horizontal pitch of the plurality of elongated lenses extending in the vertical direction is shorter than the pitch of the plurality of light sources 50.

  FIG. 3 shows an example of the configuration of the display device 10 according to the present embodiment and light given from the display device 10 to the first viewer. FIG. 4 shows an example of the structure of the display device 10 according to the present embodiment and the light given from the display device 10 to the second viewer.

  As shown in FIG. 3, the parallel light emitted from the backlight unit 22 corresponds to the plurality of shutter units 42-1 provided for the first viewer and the first viewer. Are sequentially passed through the plurality of Fresnel prisms 44-1, the vertical diffusion plate 28, the optical unit 30, and the display panel 20, and are condensed at the viewing position of the first viewer. As shown in FIG. 4, the parallel light emitted from the backlight unit 22 corresponds to the shutter unit 42-2 provided corresponding to the second viewer and the first viewer. Are sequentially passed through the Fresnel prism 44-2, the vertical diffusing plate 28, the optical unit 30, and the display panel 20, which are condensed to the viewing position of the second viewer.

  Here, the display panel 20 displays the right-eye image and the left-eye image in a time division manner. The display control unit 34 controls the display timing of the right eye image and the left eye image.

  As illustrated in FIG. 3, the shutter unit 42-1 corresponding to the first viewer has a plurality of right-eye openings 70-1-R during the period in which the right-eye image is displayed. Form. Each of the plurality of right-eye openings 70-1-R emits only the light in the direction given to the viewing position of the right eye of the first viewer among the lights output from the backlight unit 22. To Penetrate. Then, the Fresnel prism 44-1 corresponding to the first viewer views the light emitted from the corresponding shutter unit 42-1 or the light incident on the corresponding shutter unit 42-1 for the first viewing. Refract in the direction toward the right eye of the person.

  Accordingly, the shutter unit 42-1 corresponding to the first viewer transmits light toward the right eye of the first viewer during the period in which the right eye image is displayed, and the other Light can be blocked. The Fresnel prism 44-1 corresponding to the first viewer transmits the light transmitted through the corresponding shutter unit 42-1 during the period in which the right-eye image is displayed. Can be refracted to the right eye. Therefore, the display device 10 can provide the right eye image only to the right eye of the first viewer.

  In addition, as illustrated in FIG. 3, the shutter unit 42-1 corresponding to the first viewer has a plurality of left-eye openings 70-1-L during the period in which the left-eye image is displayed. Form. Each of the plurality of openings 70-1-L for the left eye only emits light in a direction given to the viewing position of the left eye of the first viewer among the lights output from the backlight unit 22. To Penetrate. Then, the Fresnel prism 44-1 corresponding to the first viewer views the light emitted from the corresponding shutter unit 42-1 or the light incident on the corresponding shutter unit 42-1 for the first viewing. Refract in the direction toward the left eye of the person.

  As a result, the shutter unit 42-1 corresponding to the first viewer transmits light toward the left eye of the first viewer during the period in which the left-eye image is displayed. Light can be blocked. The Fresnel prism 44-1 corresponding to the first viewer transmits the light transmitted through the corresponding shutter unit 42-1 during the period in which the left-eye image is displayed. Can be refracted to the left eye. Accordingly, the display device 10 can provide the left eye image only to the left eye of the first viewer.

  Similarly, as illustrated in FIG. 4, the shutter unit 42-2 corresponding to the second viewer has a plurality of right-eye openings 70-2-2 during the period in which the right-eye image is displayed. R is formed. Each of the plurality of right-eye openings 70-2-R emits only the light in the direction given to the viewing position of the right eye of the second viewer among the lights output from the backlight unit 22. To Penetrate. Then, the Fresnel prism 44-2 corresponding to the second viewer views the light emitted from the corresponding shutter unit 42-2 or the light incident on the corresponding shutter unit 42-2 for the second viewing. Refract in the direction toward the left eye of the person.

  As a result, the shutter unit 42-2 corresponding to the second viewer transmits the light toward the right eye of the second viewer during the period in which the right-eye image is displayed. Light can be blocked. The Fresnel prism 44-2 corresponding to the second viewer transmits the light transmitted through the corresponding shutter unit 42-2 during the period in which the right-eye image is displayed. Can be refracted to the right eye. Therefore, the display device 10 can provide the right eye image only to the right eye of the second viewer.

  In addition, as illustrated in FIG. 4, the shutter unit 42-2 corresponding to the second viewer has a plurality of left-eye openings 70-2-L during a period in which the left-eye image is displayed. Form. Each of the plurality of openings 70-2-L for the left eye only emits light in a direction given to the viewing position of the left eye of the second viewer among the lights output from the backlight unit 22. To Penetrate. Then, the Fresnel prism 44-2 corresponding to the second viewer views the light emitted from the corresponding shutter unit 42-2 or the light incident on the corresponding shutter unit 42-2 for the second viewing. Refract in the direction toward the left eye of the person.

  Accordingly, the shutter unit 42-2 corresponding to the second viewer transmits light toward the left eye of the second viewer during the period in which the image for the left eye is displayed. Light can be blocked. The Fresnel prism 44-2 corresponding to the second viewer transmits the light transmitted through the corresponding shutter unit 42-2 during the period in which the left-eye image is displayed. Can be refracted to the left eye. Therefore, the display device 10 can provide the left eye image only to the left eye of the second viewer.

  As described above, according to the display device 10 according to the present embodiment, it is possible to display individual images toward each of a plurality of viewing positions. Therefore, according to the display device 10, a stereoscopic image can be provided to a plurality of viewers who do not wear dedicated glasses for image separation, that is, a plurality of viewers with naked eyes.

  Furthermore, in the display device 10 according to the present embodiment, the parallel light output from the backlight unit 22 is refracted by a plurality of Fresnel prisms 44 corresponding to a plurality of viewing positions. Therefore, according to the display device 10, the left and right viewing angles can be widened.

  FIG. 5 shows an example of the configuration of the shutter panel 24 according to the present embodiment. Each of the plurality of shutter portions 42 included in the shutter panel 24 includes a plurality of shutters 60 that pass or block light at each position in the horizontal direction of the display panel 20. As an example, the plurality of shutters 60 is a group of liquid crystal shutters arranged in the horizontal direction.

  Each of the plurality of shutters 60 is sufficiently smaller than the size of the light emitting surface of one light source 50. Thus, each of the plurality of shutters 60 can transmit part of the light output from one light source 50 and block the other.

  Such a plurality of shutters 60 form a plurality of openings 70 arranged in the horizontal direction corresponding to each of the plurality of light sources 50. The plurality of openings 70 are formed by providing a group of at least one adjacent shutter 60 in a transmissive state in a part of the plurality of shutters 60 in a blocked state.

  In addition, each of the plurality of openings 70 has a horizontal position with respect to the corresponding light source 50 depending on the corresponding viewing position. For example, the right-eye opening 70-R that transmits light to the right eye and the left-eye opening 70-L that transmits light to the left eye have different horizontal positions.

  Further, the horizontal position of each of the plurality of openings 70 is controlled by the shutter control unit 32. Then, the shutter control unit 32 forms, at appropriate positions, a plurality of openings 70 that transmit light radiated to the right and left eyes of each viewer according to the respective positions of the plurality of viewers. To do. As an example, the shutter control unit 32 changes the positions of the plurality of openings 70 based on previously registered information and viewing positions.

  By forming the plurality of openings 70 in this way, the display device 10 can irradiate each of the plurality of observation positions with only the corresponding light and not with other light. Thereby, the display apparatus 10 according to the present embodiment can accurately collect light at each of a plurality of viewing positions and eliminate leakage to other viewing positions.

  FIG. 6 shows the control timing when the same stereoscopic image is provided to a plurality of viewers. As illustrated in FIG. 6, the display device 10 controls the opening / closing timing of the shutter unit 42 and the display timing of the display panel 20.

  First, the display panel 20 corresponds to the right eye image and the left eye that are displayed toward the right eye position that should correspond to the right eye of a plurality of viewers viewing the display panel 20 from the viewing position. The left-eye image to be displayed toward the left eye position to be displayed is displayed in a time division manner. More specifically, the display panel 20 alternately displays the right eye image and the left eye image.

  Each of the plurality of shutter units 42 receives light directed to the respective right eye positions of the plurality of viewers corresponding to the respective shutter units 42 at the timing when the display panel 20 displays the right-eye image. The shutter 60 is opened, and the shutter 60 that receives light toward the left eye position is closed. Thereby, each of the plurality of shutter units 42 can give the right-eye image only to the right eye of each of the plurality of viewers and not to the left eye.

  In addition, each of the plurality of shutter units 42 receives light toward the right eye positions of the plurality of viewers corresponding to the respective shutter units 42 at the timing when the display panel 20 displays the left-eye image. The shutter 60 is closed, and the shutter 60 that receives light toward the left eye position is opened. Thereby, each of the plurality of shutter units 42 can give the image for the left eye only to the left eye of each of the plurality of viewers and not to the right eye.

  By controlling the opening / closing and display of the shutter 60 at the timing as described above, the display device 10 can provide the same stereoscopic image to a plurality of viewers who are not wearing dedicated glasses.

  FIG. 7 shows control timings when different stereoscopic images are provided to a plurality of viewers. When providing different three-dimensional images, the display device 10 controls the opening / closing timing of the shutter unit 42 and the display timing of the display panel 20, as shown in FIG.

  First, the display panel 20 displays a plurality of right-eye images to be displayed toward the right eye position corresponding to the right eye for each viewer who views the display panel 20 from the viewing position, and the left eye. A plurality of left-eye images to be displayed toward the corresponding left eye position are displayed in a time-sharing manner.

  For example, when the display panel 20 displays different stereoscopic images for the first to Nth (N is an integer of 2 or more) viewers, as an example, first, the right eye image of the first viewer Is displayed, followed by the first viewer's left eye image, the second viewer's right eye image, and then the second viewer's left eye image. Display an image. Thereafter, the display panel 20 similarly displays the right eye image and the left eye image of each viewer. The display panel 20 displays the right eye image and the left eye image of the Nth viewer, and then returns to the display of the right eye image and the left eye image of the first viewer.

  Each of the plurality of shutter units 42 is a viewer corresponding to each shutter unit 42 at the timing when the display panel 20 displays the right-eye image toward the viewing position corresponding to each shutter unit 42. The shutter 60 that receives light toward the right eye position is opened, and the shutter 60 that receives light toward the left eye position is closed. Thereby, each of the plurality of shutter units 42 gives the right-eye image to be displayed to the viewer at the corresponding viewing position only to the right eye of the viewer, and the left of the viewer Can not be given to the eyes.

  In addition, each of the plurality of shutter units 42 is a viewer corresponding to each shutter unit 42 at the timing when the display panel 20 displays the left-eye image directed to the viewing position corresponding to each shutter unit 42. The shutter 60 that receives light toward the right eye position is closed, and the shutter 60 that receives light toward the left eye position is opened. Thereby, each of the plurality of shutter units 42 gives the left-eye image to be displayed to the viewer at the corresponding viewing position only to the left eye of the viewer, and the right of the viewer Can not be given to the eyes.

  Further, each of the plurality of shutter units 42 is provided on each shutter unit 42 at a timing when the display panel 20 displays the right-eye image and the left-eye image toward the viewing position corresponding to the other shutter units 42. The shutter 60 into which the light toward the right eye position and the left eye position of the corresponding viewer enters is closed. Thus, each of the plurality of shutter units 42 gives the right eye image and the left eye image to be displayed to the viewer's right eye and left eye to be displayed to the viewer other than the viewer at the corresponding viewing position. Can not.

  By controlling the opening / closing and display of the shutter 60 at the timing as described above, the display device 10 provides a different three-dimensional image to each of a plurality of viewers not wearing dedicated glasses. Can do.

  FIG. 8 shows an example of the configuration of the backlight unit 22 according to the present embodiment. As an example, the backlight unit 22 may have a configuration to which a light source described in Document 1 below is applied.

  Reference 1 Adrian Travis, Tim Large, Neil Emerton, and Steven Bathiche, "Collimated light from a waveguide for a display backlight", OPTICS EXPRESS 19719, Vol. 17, No. 22, 2009

  The backlight unit 22 to which the light source described in Document 1 is applied includes, as an example, a thin plate-shaped irradiation light guide unit 82 and at least one light source 50. At least one light source 50 allows light to enter the irradiation light guide 82 from one side of the irradiation light guide 82.

  The irradiation light guide unit 82 emits light incident from the light source 50 to the inside perpendicularly to the main surface from one main surface. Such a backlight unit 22 can emit uniform parallel light to the back surface of the display panel 20.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

  The order of execution of each process such as operations, procedures, steps, and stages in the apparatus, system, program, and method shown in the claims, the description, and the drawings is particularly “before” or “prior to”. It should be noted that the output can be realized in any order unless the output of the previous process is used in the subsequent process. Regarding the operation flow in the claims, the description, and the drawings, even if it is described using “first”, “next”, etc. for convenience, it means that it is essential to carry out in this order. It is not a thing.

DESCRIPTION OF SYMBOLS 10 Display apparatus, 20 Display panel, 22 Backlight part, 24 Shutter panel, 26 Prism panel, 28 Vertical diffusing plate, 30 Optical part, 32 Shutter control part, 34 Display control part, 36 Backlight panel, 38 Collimator lens panel , 42 shutter part, 44 Fresnel prism, 46 lenticular lens, 48 lens, 50 light source, 52 collimator lens, 54 prism, 60 shutter, 70 aperture, 82 irradiation light guide part

Claims (10)

A display device that displays images toward a plurality of viewing positions,
A display panel for displaying images,
And a backlight unit that y de a flat row light,
A plurality of Fresnel prisms provided corresponding to each of a plurality of viewing positions on the optical path between the backlight unit and the display panel, each refracting the parallel light toward the corresponding viewing position; ,
On the optical path between the backlight unit and the display panel, a plurality of shutter units provided corresponding to each of the plurality of Fresnel prisms;
An optical unit having a lenticular lens including a plurality of lenses , and condensing light that has passed through each of the plurality of shutter units and each of the plurality of Fresnel prisms to a viewing position corresponding to each of the Fresnel prisms; ,
With
Each of the plurality of shutter units includes a plurality of shutters that pass or block light at each position in the horizontal direction of the display panel. Each of the plurality of Fresnel prisms has a strip shape extending in the horizontal direction of the display panel, and another Fresnel prism that refracts the parallel light in the direction of another observation position is provided adjacent to the vertical direction. Item 4. The display device according to Item 1. The lenticular lens pitch between lenses, display device according to claim 1 or 2 is identical to the pitch between the prisms in each of the plurality of Fresnel prisms. Wherein the plurality of Fresnel prisms, the backlight unit and the plurality of shutter display device according to any one of claims 1 to 3 disposed between. Wherein the plurality of Fresnel prisms display device according to any one of claims 1 to 3 disposed between said plurality of shutter unit and the display panel. The backlight unit is
A plurality of light sources arranged in a horizontal direction of the display panel;
A plurality of collimator lenses provided corresponding to each of the plurality of light sources, each of which collimates light from the corresponding light source;
The display device according to any one of claims 1 to 5 . The backlight unit is
A thin plate-shaped irradiation light guide,
A light source for entering light from one side of the irradiation light guide into the irradiation light guide;
Have
The irradiation light unit, a display device according to any one of claims 1 5 for emitting light perpendicularly incident light with respect to the main surface from one major surface to the inside from the light source. Display device according to any one of claims 1 to 7, further comprising a vertical diffusion plate for diffusing the light emitted from the plurality of shutter portions in the vertical direction of the display panel. The display panel includes a right eye image to be displayed toward a right eye position corresponding to the right eye of a viewer who views the display panel from a viewing position, and a left eye position corresponding to the left eye. The left-eye image to be displayed toward the
Each of the plurality of shutter portions is
At the timing when the display panel displays the right-eye image, the shutter that receives light toward the right eye position of the viewer corresponding to each shutter unit is opened, and the shutter that receives light toward the left eye position is closed. ,
At the timing when the display panel displays the image for the left eye, the shutter that receives light toward the right eye position of the viewer corresponding to each shutter unit is closed, and the shutter that receives light toward the left eye position is opened. ,
Display device according to any one of claims 1 to 8. The display panel should correspond to a plurality of right-eye images to be displayed toward a right eye position that should correspond to the right eye and a left eye for each viewer who views the display panel from the viewing position. Multiple left-eye images to be displayed toward the left eye position are displayed in time division
Each of the plurality of shutter portions is
At the timing when the display panel displays the image for the right eye toward the viewing position corresponding to each shutter unit, the shutter that receives light toward the right eye position of the viewer corresponding to each shutter unit is opened. , Close the shutter where the light toward the left eye position enters,
At the timing when the display panel displays the image for the left eye toward the viewing position corresponding to each shutter unit, the shutter that receives light toward the right eye position of the viewer corresponding to each shutter unit is closed. , Open the shutter where the light toward the left eye is incident,
At the timing when the display panel displays the image for the right eye and the image for the left eye toward the viewing position corresponding to the other shutter unit, the right eye position and the left eye position of the viewer corresponding to each shutter unit Close the shutter where the light going toward
Display device according to any one of claims 1 to 9.

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