JP2020046472A - Parallax barrier and display device with barrier - Google Patents

Abstract

To make it difficult to recognize that a surface of a device being observed and a display surface displaying an image are different surfaces.SOLUTION: A parallax barrier 30 comprises a design portion 33, a shielding portion 35 stacked on the design portion 33, and a plurality of translucent potions 37 having no designed portion 33 and shielding portion 35 formed therein. The design portion 33 constitute a design.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a parallax barrier and a display device with a barrier having the parallax barrier.

  Display devices for displaying images are widely used. Such a display device is usually observed in black when no image is displayed. On the other hand, in the case of surface members such as automobiles, furniture, and house building materials, design is very important. At present, display devices applied to various fields are not only expected to have a function of simply displaying an image on the display device, but are also required to harmonize the design with the surrounding environment.

  In order to impart design properties to a display device, for example, as disclosed in Patent Document 1, it has been considered to provide a decorative sheet having a decorative layer at a position facing a display surface of the display device. The decorative sheet can give the display device a design that can be harmonized with the surrounding environment. In addition, a transmitting portion such as a hole is provided in a region facing the display surface of the decorative sheet so that the image light of the display device can transmit through the decorative sheet.

JP 2001-331132 A

  By the way, when the decorative sheet is provided at a position facing the display surface of the display device, the surface of the decorative sheet becomes the surface of the display device with the decorative sheet. That is, the surface of the display device with the decorative sheet and the display surface for displaying an image are different surfaces. If this is recognized by the observer of the display device with the decorative sheet, the observer will feel uncomfortable. The present invention has been made in view of such a point, and an object of the present invention is to make it difficult to recognize that the surface of the device to be observed and the display surface for displaying an image are different surfaces.

The parallax barrier of the present invention,
A design department that forms a design,
A shielding part laminated on the design part,
A plurality of transmissive portions that are non-formed portions of the design portion and the shielding portion.

  In the parallax barrier of the present invention, the outline of the transmitting portion may include a circular arc or an elliptical arc.

  In the parallax barrier of the present invention, the ratio occupied by the transmitting portion in a plan view may be 35% or more and 50% or less.

The display device with a barrier according to the present invention includes:
Any of the parallax barriers described above,
A display device having a plurality of pixels disposed on a side of the parallax barrier facing the shielding portion,
The transmission part is formed corresponding to the pixel.

  In the display device with a barrier according to the present invention, the transmission portions may be arranged irregularly.

  In the display device with a barrier according to the present invention, an aspect ratio of the transmission portion may be 0.9 times or less of an aspect ratio of the pixel.

  In the display device with a barrier according to the present invention, a pitch of the transmission portion may be larger than twice a pitch of the pixel.

The display device with a barrier according to the present invention includes:
Further comprising an outer frame portion surrounding the display device,
The design part may display the design darker than the outer frame part.

  According to the present invention, it is possible to make it difficult to recognize that the surface of the device to be observed is different from the display surface on which an image is displayed.

FIG. 1 is an exploded perspective view schematically showing each element of the display device with a barrier. FIG. 2 is a front view of the display device with a barrier in FIG. FIG. 3 is a sectional view of the display device with a barrier shown in FIG. FIG. 4 is an enlarged view showing a part of the display device with a barrier shown in FIG. 1, and is a view showing an example of a parallax barrier. FIG. 5 is an enlarged view of a part of the display device with a barrier shown in FIG. 1 and is a view showing a modification of the parallax barrier. FIG. 6 is an enlarged view of a part of the display device with a barrier shown in FIG. 1 and is a view showing another modification of the parallax barrier.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the drawings attached to the present specification, the scale and the size ratio in the vertical and horizontal directions are appropriately changed and exaggerated for the sake of convenience of illustration and understanding.

  Note that in this specification, the terms “layer”, “sheet”, and “film” are not distinguished from each other based only on the difference in names. For example, the term “layer” is a concept including a member that can be called a sheet or a film.

  Further, in this specification, to specify the shape and geometric conditions and the degree thereof, for example, the term "parallel", "orthogonal", "identical" and the like, and the value of the length and angle, etc., strict Without being constrained by the meaning, it should be interpreted to include a range in which a similar function can be expected.

  FIG. 1 is an exploded perspective view schematically showing a display device with a parallax barrier (hereinafter, also simply referred to as “display device with a barrier”) 10 according to an embodiment of the present invention. As shown in FIG. 1, the display device 10 with a barrier includes a display device 20 having a display surface 21, a parallax barrier 30 arranged facing the display surface 21, and an outer frame portion 15 surrounding the display device 20. And The parallax barrier 30 allows a viewer to stereoscopically view an image displayed on the display device with a barrier 10.

  In the illustrated example, the parallax barrier 30 forms the surface 11 of the display device 10 with a barrier. In the display device 10 with a barrier, the display device 20 is disposed on the side of the parallax barrier 30 facing a later-described shielding unit 35. In the illustrated example, the barrier-equipped display device 10 is shown in a flat plate shape. However, since each component of the barrier-equipped display device 10 is curved, the barrier-equipped display device 10 has a curved shape. There may be.

  The display device 20 is a device that emits image light, and has a display surface 21 that can emit image light. As the display device 20, any display device such as a liquid crystal display, a plasma display, and an organic EL display can be used. The display surface 21 of such a display device 20 is typically a glass surface. The display device 20 includes a plurality of pixels 25 regularly two-dimensionally arranged on the display surface 21 in a first direction d1 and a second direction d2 that is not parallel to the first direction d1. That is, the display device 20 is a so-called dot matrix display. In each pixel 25, the second direction d2 is the longitudinal direction. In the illustrated example, the first direction d1 and the second direction d2 are orthogonal to each other. Further, the display device 20 is arranged such that the first direction d1 is a horizontal direction with respect to the observer, and the second direction d2 is a vertical direction with respect to the observer. The pixel 25 includes a right-eye pixel 25R that forms a right-eye image visually recognized by a right eye R of an observer at a predetermined position, and a left-eye pixel that forms a left-eye image visually recognized by a left eye L. 25L. Further, the pixel 25 may include a pixel that forms neither the right-eye image nor the left-eye image.

  The outer frame 15 is a member arranged around the display device 20. The outer frame part 15 is a non-display area where the image of the display device with barrier 10 is not displayed. The outer frame 15 can display a design. The outer frame 15 displays, for example, a figure, a pattern, a design, a color, a picture, a photograph, a character, a mark, a picture such as a character or a number as a design. As a specific example, the design displayed by the outer frame portion 15 is a woodgrain-like or marble-like design, a geometric design, or a design of a single color. Further, as shown in FIG. 2, an opening 16 is provided in the outer frame 15. The display device 20 and the parallax barrier 30 are arranged in the opening 16. The dimensions of the opening 16 in front view are equal to or larger than the dimensions of the display device 20 and the parallax barrier 30 so that the display device 20 and the parallax barrier 30 can be arranged. In the image display state of the barrier-equipped display device 10, an image displayed on the display surface 21 of the display device 20 is observed by an observer through the opening 16.

  The parallax barrier 30 is disposed so as to face the display surface 21 of the display device 20 and covers at least the entire display surface 21. The parallax barrier 30 has a size equal to or larger than the size of the display surface 21 so that the entire display surface 21 of the display device 20 can be covered. In the example illustrated in FIG. 1, the parallax barrier 30 is a flat plate-shaped member that spreads in the same direction as the display surface 21 of the display device 20 as a whole. The thickness of the parallax barrier 30 is, for example, not less than 500 μm and not more than 1000 μm.

  The parallax barrier 30 includes a base portion 31, a design portion 33 and a shielding portion 35 provided on the base portion 31, and a transmission portion 37 which is a non-formed portion of the design portion 33 and the shielding portion 35. doing. In other words, the transmission part 37 is defined by the design part 33 and the shielding part 35. The side of the parallax barrier 30 opposite to the side where the design part 33 is provided, that is, the side where the shielding part 35 is provided faces the display device 20. In the example shown in FIG. 3, the shielding part 35 is laminated on the design part 33 and is in contact with the base part 31. That is, the shielding part 35 is provided between the base part 31 and the design part 33. However, the design part 33 may be provided between the base part 31 and the shielding part 35.

  In the parallax barrier 30, the design part 33, the shielding part 35, and the transmission part 37 are alternately arranged at least in the first direction d1 (lateral direction). As shown in FIG. 3, the parallax barrier 30 allows the observer's right eye R to visually recognize only the right-eye image formed by the right-eye pixels 25R, and the left eye L to display the left-eye pixels. Only the image for the left eye formed by 25L is visually recognized. By providing parallax between the right-eye image and the left-eye image, the observer can view the image three-dimensionally.

  Further, the parallax barrier 30 can display a design formed by the design portion 33. The design displayed by the parallax barrier 30 can impart design properties to the display device with barrier 10. The design displayed by the parallax barrier 30 is observed by an observer when the image of the display device 20 is not displayed.

  The base part 31 appropriately supports the design part 33 and the shielding part 35 provided on the base part 31. The base 31 is a transparent film-shaped member. As the base portion 31, any material may be used as long as it transmits visible light and can appropriately support the design portion 33 and the shielding portion 35. For example, polymethyl methacrylate, polyethylene terephthalate, polyethylene naphthalate, Examples thereof include polycarbonate, polystyrene, cyclic polyolefin, and ABS (acrylonitrile butadiene styrene copolymer). Moreover, it is preferable that the base material part 31 has a thickness of 10 μm or more and 500 μm or less in consideration of visible light transmittance, appropriate supportability of the design part 33 and the shielding part 35, and the like.

  The term “transparent” refers to the transmittance at each wavelength when measured using a spectrophotometer (“UV-3100PC” manufactured by Shimadzu Corporation, conforming to JIS K 0115) within a measurement wavelength range of 380 nm to 780 nm. Means that the visible light transmittance specified as an average value is 80% or more.

  The design part 33 forms a design displayed by the parallax barrier 30. The design formed by the design portion 33 is a design that can be harmonized with the surrounding environment, that is, a design that can be harmonized with the outer frame portion 15. The design formed by the design part 33 is, for example, a pattern such as a figure, a pattern, a design, a color, a picture, a photograph, a character, a mark, a character or a number, and in particular, a woodgrain-like or marble-like pattern or a geometric pattern. It is. In order to display a design, the design part 33 contains a pigment. The pigment may be a pigment of any color, for example carbon black, a black pigment. As shown in FIG. 3, the design portion 33 is stacked over the entire area of the shielding portion 35 from the observer side. Therefore, the observer can observe the design formed by the design part 33 without visually recognizing the shielding part 35. The design part 33 preferably has a sufficient thickness to clearly display the design to be formed. Specifically, the thickness of the design portion 33 is, for example, not less than 4 μm and not more than 15 μm.

In addition, from the viewpoint of harmony with the surrounding environment, it is preferable that the value of L ^* in the L ^* a ^* b ^* color system is 12 or more in at least a part of the design part 33 forming the design. ^Here, L ^* a * ^{b *} values of ^{L *} in the colorimetric system, for example, may use a spectrophotometer (manufactured by Konica Minolta "CM-700 d"), it is measured.

  Further, the design formed by the design portion 33 is observed thinner by the transmission portion 37 which is a non-formed portion of the design portion 33 than the design formed without the transmission portion 37. That is, the design formed by the design part 33 is thinned by the transmission part 37. For this reason, when the design formed by the design portion 33 and the design of the outer frame portion 15 are formed in the same manner, a difference may occur in the density of the design. In order to display the design displayed on the parallax barrier 30 with the same density as the design of the outer frame portion 15, it is preferable that the design portion 33 displays the design darker than the outer frame portion 15. For example, the thickness of the design portion 33 is greater than the thickness of the member forming the design of the outer frame portion 15, and the density of the pigment included in the design portion 33 is higher than the density of the pigment included in the outer frame portion 15. And that the area ratio of the halftone dots forming the design in the design part 33 is larger than the area ratio of the halftone dots forming the design in the outer frame part 15. Thus, the design portion 33 can display the design more densely than the outer frame portion 15. However, the configuration for the design part 33 to display the design darker than the outer frame part 15 is not limited to these.

  The shielding part 35 is provided so as to cover the design part 33 from the side facing the display device 20, that is, from the side of the base part 31 in the example shown in FIG. The shielding unit 35 prevents the image light from the display device 20 from being incident on the design unit 33, and the right-eye image formed by the right-eye pixels 25R is visually recognized by the left eye L, or the left-eye image is formed. It has a function of absorbing light so that the image for the left eye formed by the pixel 25L is not visually recognized by the right eye R. The shielding portion 35 may include, for example, light absorbing particles in a binder resin. Examples of the light absorbing particles include black pigments such as carbon black and titanium black. Further, when the shielding portion 35 having a sufficient thickness covers the design portion 33, the pattern formed by the design portion 33 can be formed densely and clearly. As a specific example, the thickness of the shielding portion 35 is 1 μm or more and 20 μm or less.

  The transmitting part 37 is a part where the design part 33 and the shielding part 35 are not formed, and is defined by the design part 33 and the shielding part 35. The transmitting portion 37 may be a hole or a void, but may be formed of, for example, a transparent resin. The transmitting portion 37 transmits image light from the display device 20 to transmit an image to an observer. Can be observed. The transmission part 37 is formed corresponding to the pixel 25 of the display device 20. Specifically, as shown in FIG. 3, only the right-eye image formed by the right-eye pixels 25R is visually recognized by the right eye R of the observer at a predetermined position, and the left-eye L Is formed at a position where only the image for the left eye formed by the pixel 25L for the left eye is visually recognized.

  It is preferable that the proportion occupied by the transmissive portion 37 of the parallax barrier 30 in a plan view is higher, so that the observer can easily observe the image in the image display state of the display device 20. Specifically, the ratio occupied by the transmission portion 37 in a plan view is preferably 35% or more, and more preferably 40% or more. However, in order to exhibit the function as the parallax barrier 30 that allows the image to be viewed three-dimensionally, that is, only the right-eye image formed by the right-eye pixel 25R is viewed by the right eye R of the observer at a predetermined position. The ratio occupied by the transmission portion 37 is 50% or less so that only the left-eye image formed by the left-eye pixel 25L is visually recognized by the left eye L. In addition, it is preferable that the proportion occupied by the design portion 33 of the parallax barrier 30 in a plan view is high so that the observer can easily observe the design formed by the design portion 33 in the image non-display state of the display device 20. That is, the ratio occupied by the transmission portion 37 of the parallax barrier 30 in a plan view is preferably lower. Specifically, the proportion occupied by the transmitting portion 37 in a plan view is preferably 50% or less, and more preferably 45% or less. The proportion occupied by the transmitting portions 37 in a plan view can be adjusted by, for example, changing the area of each transmitting portion 37 or changing the number of the transmitting portions 37.

  In the example illustrated in FIG. 4, the second direction d2 of the transmission section 37 is the longitudinal direction. The aspect ratio of the transmission section 37 is, for example, 1 or more and 1.2 or less. Further, the aspect ratio of the transmissive portion 37 is smaller than the aspect ratio of the pixel 25, and specifically, is preferably 0.9 times or less. The aspect ratio of the transmissive portion 37 and the aspect ratio of the pixel 25 refer to the ratio of the length in the longitudinal direction to the length in the lateral direction of the transmissive portion 37 and the pixel 25, and in particular, the example shown in FIG. Is the ratio of the length of the second direction d2 to the length of the first direction d1.

  As shown in FIG. 4, the plurality of transmission portions 37 are regularly arranged in the first direction d1 and the second direction d2. Further, the pitch of the transmission portions 37 in the first direction d1 is larger than twice the pitch of the pixels 25. Further, the pitch of the transmission portions 37 in the first direction d1 is preferably an integral multiple of the pitch of the pixels 25. In the examples shown in FIGS. 3 and 4, the pitch of the transmission portions 37 in the first direction d1 is three times the pitch of the pixels 25. Further, the pitch of the transmission portions 37 in the second direction d2 may be larger than twice the pitch of the pixels 25.

  Such a transmission part 37 can be formed in any shape. However, in order to make the design part 33 large enough to make the design formed by the design part 33 easy to observe, Preferably, the contour includes a circular arc or an elliptical arc. In the illustrated example, the outline of the transmission part 37 is an elliptical arc as a whole.

  The design displayed on the parallax barrier 30 by the design part 33 and the design displayed on the outer frame part 15 are not limited to the above-described patterns, and may be glossy or polished by a diffusion layer.

  Next, an example of a method for manufacturing the parallax barrier 30 of the present embodiment will be described.

  First, a shielding film for forming the shielding portion 35 is provided on the base 31, and a design film for forming the design portion 33 is provided on the shielding film. The design film and the shielding film can be formed by, for example, printing.

  Thereafter, a resist pattern is provided on the design film. The resist pattern has a shape corresponding to the arrangement pattern of the design portion 33 and the shielding portion 35 to be formed. This resist pattern can be formed, for example, by patterning using a known photolithography technique.

  Next, the design film and the shielding film are etched using the resist pattern as a mask. By this etching, the design film and the shielding film are patterned into a pattern substantially the same as the resist pattern. As a result, the design part 33 is formed from the patterned design film. Further, a shielding portion 35 is formed from the patterned shielding film. Further, the portion from which the design film and the shielding film are removed by the etching becomes the transmission portion 37 defined by the design portion 33 and the shielding portion 35.

  Note that a known method can be adopted as the etching method. For example, when the design film and the shielding film are photo-curable resins having photosensitivity, the design portion 33 and the shielding portion 35 can be formed by photoetching. Alternatively, the etching method may be wet etching using an etchant, plasma etching, or the like. After the etching step, the resist pattern is removed. Through the above steps, the parallax barrier 30 is manufactured.

  Next, the operation of the display device with a barrier 10 having the parallax barrier 30 of the present embodiment will be described.

  In a state where no image is displayed on the display surface 21 of the display device 20, the design formed by the design portion 33 of the parallax barrier 30 is displayed on the display device 10 with barrier. That is, the barrier-equipped display device 10 can display a design intended to be observed. The displayed design allows the barrier-equipped display device 10 to be harmonized with the surrounding environment in the design.

  On the other hand, when the display device 20 displays an image on the display surface 21, the image light passes through the transmission portion 37 of the parallax barrier 30 as shown in FIG. Thereby, the observer can observe the image. That is, the display device with barrier 10 can display an image intended to be observed, and an external observer can observe the image.

  The design part 33 is covered by the shielding part 35 from the display device 20 side. Therefore, the shielding portion 35 prevents image light from entering the design portion 33. For this reason, it is possible to prevent the image light transmitted through the design part 33 and the pattern represented by the design part 33 and the image light from being mixed and observed. That is, it is possible to effectively prevent the color reproducibility of an image from deteriorating due to absorption of visible light in a specific wavelength range by the design part 33.

  By the way, as described above, in the conventional display device, in order to display a design that is in harmony with the surrounding environment, the decorative sheet that forms the design facing the display surface of the display device is provided. In this case, in the image display state of the display device, the observer recognizes that the display surface of the display device is located on the surface of the display device with the decorative sheet, in other words, on the back side of the surface of the decorative sheet. If the surface of the display device with a decorative sheet and the display surface of the display device are recognized as different surfaces, the observer will feel uncomfortable. Such discomfort may degrade the visibility of the image displayed on the display surface of the display device.

  On the other hand, in the barrier-equipped display device 10 of the present embodiment, the parallax barrier 30 having the design portion 33 for forming a design is provided facing the display surface of the display device 20. The parallax barrier 30 allows the observer to stereoscopically view an image displayed on the display surface 21 of the display device 20. In other words, the image displayed on the display surface 21 rises toward the viewer from the display surface 21 and is recognized. For this reason, the front surface 11 of the barrier-equipped display device 10 and the display surface 21 of the display device 20 can be visually recognized by an observer as the same surface. Therefore, even if a member for providing design properties is provided, it is possible to prevent the visibility of an image displayed on the display surface of the display device from deteriorating.

  Specifically, in the display device with a barrier 10 of the present embodiment, the transmissive portion 37 is formed corresponding to the pixel 25 of the display device 20. Thereby, as shown in FIG. 3, only the right-eye image formed by the right-eye pixel 25R among the pixels 25 is visually recognized by the observer's right eye, and Only the image for the left eye formed by the pixel 25L for the left eye among the pixels 25 can be visually recognized. By arranging the parallax barrier 30 provided with such a transmissive portion 37 so as to face the display surface 21 of the display device 20, an observer can view an image three-dimensionally.

  In the parallax barrier 30 of the present embodiment, the outline of the transmission portion 37 includes a circular arc or an elliptical arc. When the outline of the transmitting portion 37 includes a circular arc or an elliptical arc, the size of the integrated design portion 33, in other words, when the size of each transmitting portion 37 is made equal to that of a rectangular shape, in other words, And the distance between the adjacent transmission portions 37 can be increased. Therefore, each part of the design formed by the design part 33 is easily recognized, and the entire design is easily observed.

  Further, in parallax barrier 30 of the present embodiment, the ratio occupied by transmission portion 37 in a plan view is 35% or more and 50% or less. In this case, the image light from the display device 20 can be sufficiently transmitted so that the image can be easily observed in the image display state, and the ratio of the design portion 33 can be increased to allow the design to be observed in the image non-display state. It is possible to achieve both easy and easy.

  In the display device with a barrier 10 according to the present embodiment, the aspect ratio of the transmissive portion 37 is 0.9 times or less the aspect ratio of the pixel 25. That is, the transmissive portion 37 is shorter than the corresponding pixel 25 in the second direction d2 which is the longitudinal direction. For this reason, it is possible to reduce the size of the transmissive portion 37 and thus increase the size of the design portion 33. That is, each part of the design formed by the design part 33 is easily recognized, and the design formed by the design part 33 can be more clearly recognized by an observer. Further, even if the height at which the display device with barrier 10 is observed is changed, that is, even if the observation direction of the display device with barrier 10 is shifted in the second direction d2, the transmission unit 37 generates the image light from the corresponding pixel 25. Can be emitted.

  Furthermore, in the barrier-equipped display device 10 of the present embodiment, the pitch of the transmissive portions 37 is larger than twice the pitch of the pixels 25. Since the pitch of the transmission portions 37 is sufficiently large, the design portion 33 can be enlarged. That is, each part of the design formed by the design part 33 is easily recognized, and the design formed by the design part 33 can be more clearly recognized by an observer. In addition, since the pixel 25 can include a pixel that does not form any of the right-eye image and the left-eye image, a display device generally used as the display device 20 can be used.

  Further, in the display device with a barrier 10 according to the present embodiment, the pitch of the transmission portions 37 is an integral multiple of the pitch of the pixels 25. In this case, the transmissive portion 37 can be easily arranged corresponding to the pixel 25.

  As described above, the parallax barrier 30 of the present embodiment is a design part 33 that forms a design, a shielding part 35 laminated on the design part 33, and a part where the design part 33 and the shielding part 35 are not formed. A plurality of transmission parts 37. According to such a parallax barrier 30, the design formed by the design portion 33 can impart design properties to the barrier-equipped display device 10 having the parallax barrier 30. Further, the parallax barrier 30 allows the image displayed on the display surface 21 of the display device 20 of the display device with barrier 10 to be viewed three-dimensionally. By causing the image to be viewed three-dimensionally, it is possible to make it difficult to recognize that the surface 11 of the display device 10 with a barrier to be observed is different from the display surface 21 of the display device 20 that displays the image.

  The above-described parallax barrier 30 and the display device 10 with a barrier including the parallax barrier 30 are used for, for example, an interior member or an exterior member of a moving object such as a vehicle such as an automobile or a railway, an aircraft, a ship, and a spacecraft. In particular, when used as an interior material of an automobile, an observer observes the barrier-equipped display device 10 from a predetermined position, so that an image displayed on the display surface 21 of the display device 20 can be easily viewed three-dimensionally. That is, it is possible to make it difficult to easily recognize that the front surface 11 of the barrier-equipped display device 10 is different from the display surface 21 of the display device 20 that displays an image.

  Note that various changes can be made to the above-described embodiment.

  For example, in the above-described embodiment, as shown in FIG. 4, the transmission portions 37 are regularly arranged in the first direction d1 and the second direction d2. However, as shown in FIG. 5, as long as they correspond to the pixels 25 of the display device 20, they may be arranged regularly in the first direction d1 and irregularly in the second direction d2. Further, as shown in FIG. 6, the transmission portions 37 may be irregularly arranged in the first direction d1 and the second direction d2. Since the transmissive portions 37 are regularly arranged in the first direction d1, the viewer can easily view the image three-dimensionally by the parallax barrier 30. On the other hand, since the transmissive portions 37 are arranged irregularly, it is possible to make it difficult for the observer to observe the arrangement pattern of the transmissive portions 37 and the design portions 33.

Reference Signs List 10 Display device with barrier 11 Surface 15 Outer frame 16 Opening 20 Display 21 Display surface 25 Pixel 30 Parallax barrier 31 Base 33 Design 35 Shield 37 Transmitter

Claims (8)

A design department that forms a design,
A shielding part laminated on the design part,
A parallax barrier comprising: the design portion; and a plurality of transmission portions which are portions where the shielding portion is not formed.   The parallax barrier according to claim 1, wherein the outline of the transmission portion includes a circular arc or an elliptical arc.   The parallax barrier according to claim 1, wherein a ratio occupied by the transmission portion in a plan view is 35% or more and 50% or less. A parallax barrier according to any one of claims 1 to 3,
A display device having a plurality of pixels, which is disposed on a side of the parallax barrier facing the shielding portion,
The display device with a barrier, wherein the transmission unit is formed corresponding to the pixel.   The display device with a barrier according to claim 4, wherein the transmission units are arranged irregularly.   The display device with a barrier according to claim 4, wherein an aspect ratio of the transmission portion is 0.9 times or less of an aspect ratio of the pixel.   The display device with a barrier according to any one of claims 4 to 6, wherein a pitch of the transmission portion is larger than twice a pitch of the pixels. Further comprising an outer frame portion surrounding the display device,
The display device with a barrier according to any one of claims 4 to 7, wherein the design portion displays the design darker than the outer frame portion.