JP7336072B2 - Decorative laminate, display device with decorative laminate, and decorative laminate with acoustic function - Google Patents

Description

TECHNICAL FIELD The present invention relates to a decorative laminate having a decorative sheet, a display device with a decorative laminate having the decorative laminate, and a decorative laminate with an acoustic function having the decorative laminate.

Display devices that display images are widely used. Such a display device normally appears black when no image is displayed. On the other hand, for surface members such as automobiles, furniture, and building materials for houses, designability is very important. 2. Description of the Related Art Currently, display devices that are applied to various fields are expected not only to have a function of simply displaying an image on the display device, but also to be harmonious in design with the surrounding environment.

2. Description of the Related Art In order to impart a design to a display device, it has been considered to provide a decorative sheet having a design portion at a position facing the display surface of the display device, as shown in Patent Document 1, for example. 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. By displaying the design by the design department on the surface of the decorative sheet, the display device with the decorative sheet can be provided with a design that can be in harmony with the surrounding environment. Further, the decorative sheet is provided with a transmission portion such as a hole so that the image light of the display device can pass through the decorative sheet.

Japanese Patent Application Laid-Open No. 2001-331132

By the way, the surface of the decorative sheet, which is the surface of the display device with the decorative sheet, and the display surface of the display device that displays an image are different surfaces. If the observer of the display device with the decorative sheet recognizes this, the observer feels uncomfortable. Therefore, it has been conceived to make the image displayed on the display surface of the display device three-dimensionally visible so that the image displayed on the display surface floats toward the viewer from the display surface. By doing so, the surface of the display device with the decorative sheet and the display surface for displaying the image can be viewed as the same surface. Therefore, the observer can observe the image displayed on the display surface and the design of the surface of the display device with the decorative sheet without discomfort.

However, there is a limit to the viewing angle at which an image displayed on the display surface of the display device can be viewed stereoscopically. That is, when observing from a position outside a certain angular range with respect to the display device, the image displayed on the display surface of the display device is not viewed stereoscopically, and therefore the surface of the display device with the decorative sheet and the image are displayed. The display surface to be displayed can be observed as a different surface. For this reason, the observer feels uncomfortable. Therefore, it is required to prevent the image from being observed at a viewing angle at which the image is not visually recognized stereoscopically.

The present invention has been made in consideration of such points, and restricts the image from being viewed at a viewing angle at which the image is not viewed stereoscopically, while displaying the design and allowing the image to be viewed stereoscopically. intended to

The decorative laminate of the present invention is a decorative laminate arranged facing a display device,
a decorative sheet, a lenticular lens layer arranged closer to the display device than the decorative sheet, and a light control layer arranged between the decorative sheet and the lenticular lens layer,
The decorative sheet has a design portion that forms a design and a plurality of transparent portions that are non-formed portions of the design portion,
the lenticular lens layer has a plurality of lens portions arranged in a first direction and extending in a second direction non-parallel to the first direction;
The light control layer includes: a plurality of light shielding portions arranged in a third direction non-parallel to the second direction and extending in a fourth direction non-parallel to the third direction; and a transparent portion disposed thereon.

In the decorative laminate of the present invention, an angle between the first direction and the third direction may be 30 degrees or less.

In the decorative laminate of the present invention, the pitch of arrangement of the light shielding portions of the light control layer in the first direction may be smaller than the pitch of arrangement of the lens portions of the lenticular lens layer in the first direction. .

In the decorative laminate of the present invention, the pitch of arrangement of the light shielding portions of the light control layer in the first direction may be smaller than the pitch of arrangement of the transmitting portions of the decorative sheet in the first direction. .

In the decorative laminated body of the present invention, the pitch of arrangement of the transparent portions of the decorative sheet in the first direction may be smaller than the pitch of arrangement of the lens portions of the lenticular lens layer in the first direction. .

In the decorative laminate of the present invention, a maximum circle inscribed in the transparent portion of the decorative sheet may have a diameter of 140 μm or less.

In the decorative laminate of the present invention, a ratio of an area occupied by the transparent portion in the decorative sheet may be 10% or more.

The decorative laminate of the present invention further comprises a second light control layer disposed between the decorative sheet and the light control layer,
The second light control layer includes a plurality of second light shielding portions arranged in a fifth direction non-parallel to the third direction and extending in a sixth direction non-parallel to the fifth direction; and second transparent portions alternately arranged in a fifth direction.

In the display device with a decorative laminate of the present invention,
a display device having a display surface;
Any one of the decorative laminates described above arranged to face the display surface of the display device.

In the display device with a decorative laminate of the present invention, the display surface of the display device may have a luminance of 500 cd/m ² or more.

The display device with a decorative laminate of the present invention may further include a directional speaker that outputs directional sound in a direction intersecting a plane including both the first direction and the second direction.

In the display device with a decorative laminate of the present invention, the directional speaker may output sound having directivity in a direction orthogonal to the second direction.

The decorative laminate with an acoustic function of the present invention is
any of the decorative laminates described above;
a directional speaker that outputs directional sound in a direction intersecting a plane including both the first direction and the second direction.

ADVANTAGE OF THE INVENTION According to this invention, while displaying a design and making an image visually recognized stereoscopically, it can restrict|limit that an image is visually recognized at the viewing angle from which an image is not visually recognized stereoscopically.

FIG. 1 is an exploded perspective view schematically showing each element of a display device with a decorative laminate. FIG. 2 is a diagram schematically showing a cross section of a display device with a decorative laminate. FIG. 3 is a front view showing an enlarged part of the decorative sheet of the decorative laminated body. FIG. 4 is a perspective view showing the lenticular lens layer of the decorative laminate. FIG. 5 is a cross-sectional view showing an enlarged part of the lenticular lens layer. FIG. 6 is a perspective view showing the light control layer of the decorative laminate. FIG. 7 is a cross-sectional view showing an enlarged part of the light control layer. FIG. 8 is a front view of a display device with a decorative laminate showing a state where the display device does not display an image. FIG. 9 is a front view of a display device with a decorative laminate showing a state in which the display device is displaying an image. FIG. 10 is a view of the display device with the decorative laminate observed from a direction inclined from the front direction, showing a state in which the display device is displaying an image. FIG. 11 is an exploded perspective view schematically showing each element of a modified example of the display device with the decorative laminate. FIG. 12 is a perspective view showing a second light control layer in a modified example of the decorative laminate.

An embodiment of the present invention will be described below with reference to the drawings. In the drawings, for the sake of ease of illustration and understanding, the scale and the ratio of vertical and horizontal dimensions are changed and exaggerated from the actual ones.

In this specification, the terms "layer", "sheet" and "film" are not to be distinguished from each other based only on the difference in designation. For example, the term "layer" is a concept that includes members that can be called sheets or films.

In addition, "sheet surface (plate surface, film surface)" refers to the target sheet-shaped member (plate-shaped, film-shaped) when viewed as a whole and broadly. member, film-like member).

Furthermore, the terms used herein to specify shapes and geometric conditions and their degrees, such as "parallel", "perpendicular", "identical", length and angle values, etc., are not strictly defined. It shall be interpreted to include the extent to which similar functions can be expected without being bound by the meaning.

FIG. 1 is an exploded perspective view schematically showing a display device 1 with a decorative laminate according to one embodiment of the present invention. As shown in FIG. 1, the display device 1 with a decorative laminate includes a display device 10 having a display surface 11 and a decorative laminate 40 arranged to face the display surface 11. . Moreover, the display device 1 with a decorative laminate has a directional speaker 30 . The decorative laminated body 40 and the directional speaker 30 form the decorative laminated body 20 with an acoustic function. That is, the decorative laminated body 20 with an acoustic function has the decorative laminated body 40 and the directional speaker 30 . In the illustrated example, the display device 1 with the decorative laminate is shown in a flat plate shape. The display device 1 with a curve may have a curved shape.

The display device 10 is a device for emitting image light, and has a display surface 11 capable of emitting image light. Any display device such as a liquid crystal display, a plasma display, an organic EL display, or the like can be used as the display device 10 . A display surface 11 of such a display device 10 is typically a glass surface.

Alternatively, the display device 10 may display an image by transmitting light through a printed transparent film or the like, or may display a bright and dark image by blocking part of the light with a light blocking material. may In this case, the display device 10 includes a light source that emits light, and a predetermined pattern portion such as a transparent film on which printing corresponding to the image to be displayed is applied, or a light shielding material having a shape corresponding to the image to be displayed. there is The display surface 11 is the surface of the transparent film or the portion where the shielding material is not formed. As the light source, it is preferable to use, for example, a surface light source device that emits light in a planar manner in order to make uniform the intensity of light that passes through a predetermined pattern portion.

The image displayed on the display surface 11 of the display device 10 is an image that can be viewed stereoscopically by the lenticular lens layer 60 of the decorative laminate 40, which will be described later. If the image is displayed with sufficient brightness, the viewer can easily perceive the image stereoscopically. Therefore, it is preferable that an image is displayed on the display surface 11 of the display device 10 with sufficient brightness. Specifically, the luminance on the display surface 11 of the display device 10 is preferably 500 cd/m ² or higher, more preferably 1000 cd/m ² or higher.

Display device 10 also includes a plurality of image components 15 that form an image. If the display device 10 is a liquid crystal display or the like, the image components 15 are pixels of the display. If the display device 10 is intended to display an image with a pattern of light and dark, the image component 15 is part of the predetermined pattern portion. As shown in FIG. 5, which will be described later, the image component 15, in order to stereoscopically observe an image, selects an image for the right eye according to a plurality of positions where the left eye or the right eye of the observer is assumed to be positioned. It includes component 15R and left eye image component 15L.

The decorative laminate 40 is arranged facing the display surface 11 of the display device 10 . As shown in FIG. 1 , the decorative laminate 40 includes a decorative sheet 50 , a lenticular lens layer 60 arranged closer to the display device 10 than the decorative sheet 50 , the decorative sheet 50 and the lenticular lens layer 60 . and a light control layer 70 disposed between. That is, in the decorative laminate 40, the lenticular lens layer 60, the light control layer 70, and the decorative sheet 50 are laminated in this order from the side near the display surface 11 of the display device 10. FIG. However, the decorative laminate 40 may have other components not shown.

Each component of the decorative laminate 40 will be described below.

First, the decorative sheet 50 will be described. The decorative sheet 50 is disposed on the opposite side of the decorative laminate 40 to the side facing the display device 10, in other words, on the surface side, and is arranged at least on the display surface 11 so that the display surface 11 is not directly observed from the outside. covering the whole. In addition, the decorative sheet 50 covers the entire lenticular lens layer 60 and the light control layer 70 so that the other layers of the decorative laminate 40, that is, the lenticular lens layer 60 and the light control layer 70 are not directly observed from the outside. there is The decorative sheet 50 has dimensions equal to or larger than those of the display surface 11, the lenticular lens layer 60, and the light control layer 70 so as to cover the entire display surface 11, the lenticular lens layer 60, and the light control layer 70 of the display device 10. have. In the example shown in FIG. 1, the decorative sheet 50 is a plate-like member extending in the same direction as the display surface 11 of the display device 10 as a whole. The thickness of the decorative sheet 50 is, for example, 20 μm or more and 550 μm or less.

The decorative sheet 50 displays a design and imparts a design to the display device 1 with a decorative laminate. The decorative sheet 50 has a base portion 51, a design portion 53 and a shielding portion 55 provided on the base portion 51, and a transparent portion 57 which is a portion in which the design portion 53 and the shielding portion 55 are not formed. are doing. The decorative sheet 50 is arranged so that the side on which the shielding portion 55 is provided faces the display device 10 side. In the example shown in FIG. 2 , a design portion 53 is provided in contact with the base material portion 51 , and a shielding portion 55 is provided overlapping the design portion 53 . However, without being limited to the example shown in FIG. 2 , the shielding portion 55 may be provided in contact with the base material portion 51 and the design portion 53 may be provided overlapping the shielding portion 55 .

The base portion 51 appropriately supports the design portion 53 and the shield portion 55 provided on the base portion 51 . The base material portion 51 is a transparent film-like member. As the base member 51, any material that transmits visible light and can appropriately support the design portion 53 and the shielding portion 55 may be used. Examples include polycarbonate, polystyrene, cyclic polyolefin, and ABS (acrylonitrile-butadiene-styrene copolymer). Further, the thickness of the base material portion 51 is, for example, 10 μm or more and 500 μm or less in consideration of visible light transmittance, appropriate supportability of the design portion 53 and the shield portion 55, and the like. In addition, as in the example shown in FIG. 2, when the base material portion 51 forms the surface of the decorative sheet 50, the base material portion 51 may be a scratch-resistant hard coat layer. When the base material portion 51 is a hard coat layer, the thickness of the base material portion 51 is, for example, 1 μm or more and 500 μm or less.

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

The design part 53 forms a design displayed by the decorative sheet 50 . The design section 53 can form designs such as figures, patterns, designs, colors, pictures, photographs, characters, marks, letters and numbers. In particular, as a design that can be harmonized with the surrounding environment in which the display device 1 with a decorative laminate is provided, a wood grain pattern, a marble pattern, and a geometric pattern can be exemplified. Further, the design section 53 may form a pattern formed by solid printing of a single color as a design. Note that the cross-sectional shape of the design portion 53 in the cross section in the direction perpendicular to the sheet surface of the decorative sheet 50 as shown in FIG. . If the thickness of the design portion 53 is sufficiently thick, the design formed by the design portion 53 can be made thick and clear. Here, the thickness of the design portion 53 is the length of the design portion 53 along the normal direction of the plate surface of the substrate portion 51 that supports the design portion 53 . As a specific example, the design portion 53 has a thickness of 1 μm or more and 20 μm or less.

The shielding portion 55 is provided so as to cover the design portion 53 from the side facing the display device 10 . The shielding portion 55 has a function of absorbing light so that the image light from the display device 10 does not enter the design portion 53 . The shielding part 55 may contain, for example, light absorbing particles in a binder resin. Examples of light-absorbing particles include black pigments such as carbon black and titanium black. The shielding portion 55 is preferably provided only at a position facing the design portion 53 so that the image light emitted from the display device 10 is not blocked by the shielding portion 55 from transmitting through the transmission portion 57 . Further, when the design portion 53 is covered with the shielding portion 55 having a sufficient thickness, the design formed by the design portion 53 can be formed to be deep and clear. As a specific example, the thickness of the shielding portion 55 is 1 μm or more and 20 μm or less.

The transmitting portion 57 is provided in the decorative sheet 50 to transmit the image light from the display device 10 . As shown in FIGS. 2 and 3, the transparent portion 57 is a non-formed portion of the design portion 53 and the shielding portion 55 when the decorative sheet 50 is viewed from the front. In order to sufficiently transmit the image light from the display device 10, the ratio of the area occupied by the transmission portion 57 in the decorative sheet 50 is preferably 10% or more, and is 15% or more. is more preferable, and 20% or more is even more preferable.

In the example of the front view of the decorative sheet 50 shown in FIG. 3, a plurality of transmissive portions 57 are arranged apart from each other. A design portion 53 is formed between each transmission portion 57 . In the illustrated example, each transmissive portion 57 has a circular shape when viewed from the front, and the plurality of transmissive portions 57 are arranged in a square lattice. When each transparent portion 57 is circular, diffusion of image light passing through the transparent portion 57 can be suppressed. Further, as in the example shown in FIG. 3, when the transmission portions 57 are arranged in a grid pattern, particularly in a square grid pattern, the image light from the display device 10 can be uniformly transmitted. unevenness is less likely to occur. However, the transmissive portion 57 is not limited to the illustrated example, and may have an arbitrary shape and may be arranged at an arbitrary position.

If each transparent portion 57 is large, each transparent portion 57 may be visually recognized, and a mesh pattern formed by the transparent portion 57 may be observed. Such a pattern can impair the image of the image light and the design of the decorative sheet 50 . For this reason, each transmitting portion 57 is preferably sufficiently small. The size of each transparent portion 57 can be defined by the diameter D of the largest circle inscribed in the transparent portion 57 . Specifically, the diameter D of the largest circle inscribed in each transmitting portion 57 is preferably 140 μm or less, more preferably 120 μm or less. However, from the viewpoint of workability for forming the transmitting portion 57, the diameter D of the maximum circle inscribed in the transmitting portion 57 is preferably 15 μm or more. In the illustrated example, each transparent portion 57 is circular, so the diameter D of the largest circle inscribed in the transparent portion 57 matches the diameter of the transparent portion 57 .

Furthermore, if the pitch of the arrangement of the transmissive portions 57 is too large, the difference between the portion where the image is displayed by the display device 10 and the portion where the image is not displayed becomes easily visible. Therefore, it is preferable that the pitch of the arrangement of the transmitting portions 57 is small. Here, the pitch of the arrangement of the transmissive portions 57 is the sum of the size of the transmissive portions 57 in the direction in which the transmissive portions 57 are arranged and the distance between the transmissive portions 57 . In the illustrated example, the transmissive portions 57 are arranged in a first direction d1, which will be described later. Therefore, the pitch P1 of the arrangement of the transmissive portions 57 in the first direction d1 is the pitch of the arrangement of the transmissive portions 57 . Specifically, the pitch P1 of the arrangement of the transmissive portions 57 in the first direction d1 is preferably 200 μm or less, and more preferably 140 μm or less. However, from the viewpoint of workability for forming the transmission portions 57, it is preferable that the pitch P1 of the arrangement of the transmission portions 57 in the first direction d1 is not too small. Specifically, it is preferable that the pitch P1 of the arrangement of the transmitting portions 57 in the first direction d1 is 30 μm or more.

Note that the transmitting portion 57 may be a hole or a gap as in the example shown in FIG. 2, but may also be formed of, for example, a transparent resin. Further, the transparent resin may be formed so as to cover not only the transmissive portion 57 but also the design portion 53 and the shielding portion 55 from the side opposite to the side on which the base portion 51 is provided. Such a transparent resin forms the transmitting portion 57 and can function as a transparent protective film that protects the design portion 53 and the shielding portion 55 .

For example, the transparent portion 57 irradiates the design portion 53 and the shielding portion 55 provided on the entire surface of the base portion 51 with a laser at a position where the transparent portion 57 is to be formed, and the position irradiated with the laser is irradiated. It is provided by removing the design portion 53 and the shielding portion 55 . It should be noted that the method of forming the transmitting portion 57 is an example, and the transmitting portion 57 may be formed by other methods.

Next, the lenticular lens layer 60 will be described with reference to FIGS. 4 and 5. FIG. 4 is a perspective view of the lenticular lens layer 60, and FIG. 5 is a cross-sectional view showing the lenticular lens layer 60 and a portion of the display device 10 arranged at a position facing the lenticular lens layer 60. FIG.

The lenticular lens layer 60 is arranged on the side of the decorative laminate 40 facing the display device 10, and refracts the image light from the display surface 11 of the display device 10 toward a desired position. The lenticular lens layer 60 covers the entire display surface 11 so that image light from the display surface 11 is incident thereon. Therefore, the lenticular lens layer 60 has dimensions equal to or larger than those of the display surface 11 . In the example shown in FIG. 1, the lenticular lens layer 60 is a plate-like member that extends in the same direction as the display surface 11 of the display device 10 as a whole. The thickness of the lenticular lens layer 60 is, for example, 15 μm or more and 4000 μm or less.

In the present embodiment, the lenticular lens layer 60 refracts image light so that an image displayed on the display surface 11 of the display device 10 can be viewed stereoscopically. More specifically, images can be stereoscopically observed using binocular parallax and motion parallax. As shown in FIG. 5, the image component 15 on the display surface 11 of the display device 10 is divided into a right-eye image component 15R and a right-eye image component 15R according to a plurality of positions where the viewer's left eye or right eye is supposed to be positioned. It is allocated to the image component for the left eye 15L. A plurality of image components 15 allocated according to the same position form the image to be viewed at the allocated position. On the other hand, the lenticular lens layer 60 is arranged at a position to which the image component 15 is assigned, out of a plurality of positions where the image light from each image component 15 is assumed to be positioned at the observer's left eye or right eye. refracts the image light so that it is directed toward the As a result, different images are observed by the right eye and the left eye of the observer at each position, and the observer can perceive the images stereoscopically. Also, by changing the observation direction, the image can be stereoscopically observed according to the observation position.

As shown in FIG. 4 , the lenticular lens layer 60 has a base material 61 and a plurality of lens portions 63 provided on the base material 61 . The base material 61 is a transparent portion that supports the lens portion 63 . The lens portions 63 are transparent, arranged in the first direction d1, and extending in the second direction d2. Here, the first direction d1 and the second direction d2 are non-parallel and preferably orthogonal. In the example shown in FIG. 5, the lens portion 63 is a convex lens having a semi-elliptical cross section in the cross section perpendicular to the second direction d2. The lens portion 63 spreads the light from the base material 61 side in the first direction d1 and emits the light. In order to avoid formation of a reflective interface between the substrate 61 and the lens portion 63, it is preferable that the refractive index of the substrate 61 and the lens portion 63 are the same. Typically, the base material 61 and the lens portion 63 are made of the same material and are integrally formed. The refractive index of the lens portion 63 is preferably, for example, 1.3 or more and 1.8 or less so that light can be appropriately refracted at the interface between the lens portion 63 and the outside of the lenticular lens layer 60 . Various materials can be used for the base material 61 and the lens portion 63. For example, polyester, polycarbonate, polyvinyl alcohol, polyvinylidene fluoride, polyolefin, norbornene-based polymer, polyetherketone, polyethersulfone, etc. can be used. , polysulfone, polyamide, polyimide, acrylic polymer, cellulose resin, polyarylate, polystyrene, polyvinyl alcohol, polyvinyl chloride, polyvinylidene chloride, acetate polymer and the like. Polyesters include, for example, PET (polyethylene terephthalate), PEN (polyethylene naphthalate), mixtures of PET and PEN, and copolymers such as PET-PEN copolymers. Examples of polyolefin include polyethylene and polypropylene. Acetate-based polymers include, for example, polyvinyl acetal-based polymers.

If the pitch of the arrangement of the lens units 63 in the first direction d1 is too small, especially with respect to the image component 15, the left eye of the observer will be positioned at a position assumed to be located, for example, the left eye of the observer. The image light of the image component 15 that is supposed to be observed cannot be directed, and the observer cannot appropriately observe the image. Therefore, it is preferable that the pitch P2 of the arrangement of the lens portions 63 in the first direction d1 is large. Specifically, the pitch P2 of the arrangement of the lens portions 63 in the first direction d1 is preferably 100 μm or more. On the other hand, if the pitch of the arrangement of the lens portions 63 in the first direction d1 is too large, the image displayed on the display surface 11 of the display device 10 will be viewed coarsely. Specifically, the pitch P2 of the arrangement of the lens portions 63 in the first direction d1 is preferably 1700 μm or less, and more preferably 840 μm or less.

Next, the light control layer 70 will be described with reference to FIGS. 6 and 7. FIG. 6 is a perspective view of the light control layer 70, and FIG. 7 is a cross-sectional view of the light control layer 70. FIG.

The light control layer 70 is arranged between the decorative sheet 50 and the lenticular lens layer 60 and controls the traveling direction of image light from the lenticular lens layer 60 . More specifically, the light control layer 70 limits the viewing angle at which the image light is observed so that the image light from the lenticular lens layer 60 does not spread too much in the first direction d1. The light control layer 70 preferably covers the entire lenticular lens layer 60 so that the image light from the lenticular lens layer 60 is incident thereon. Therefore, the light control layer 70 has dimensions equal to or larger than those of the lenticular lens layer 60 . In the example shown in FIG. 1, the light control layer 70 is a plate-like member that extends in the same direction as the display surface 11 of the display device 10 as a whole. The thickness of the light control layer 70 is, for example, 120 μm or more and 170 μm or less.

As shown in FIG. 6 , the light control layer 70 has a base portion 71 and a light control portion 73 provided on the base portion 71 . The light control section 73 has a light shielding section 75 arranged in a third direction d3 non-parallel to the second direction d2, and a transparent section 77 arranged alternately with the light shielding section 75 in the third direction d3. there is The light blocking portion 75 extends in a fourth direction d4 that is non-parallel to the third direction d3. Preferably, the third direction d3 and the fourth direction d4 are orthogonal. In addition, the angle formed by the first direction d1 and the third direction d3 is preferably 30 degrees or less, more preferably 10 degrees or less, and is 0 degrees, that is, the first direction d1 and the third direction d3. More preferably, they match. Similarly, the angle formed by the second direction d2 and the fourth direction d4 is preferably 30 degrees or less, more preferably 10 degrees or less, and is 0 degrees, that is, the angle between the second direction d2 and the fourth direction d4. more preferably match.

The base portion 71 is a member that can appropriately support the light control portion 73 . The base 71 has visible light transparency. Various materials can be used as the material forming the base portion 71. For example, polyester resin, acrylic resin, urethane resin, amide resin, silicone resin, epoxy resin, and polycarbonate resin can be used. In order to avoid formation of a reflective interface between the base portion 71 and the transparent portion 77 of the light control portion 73, it is preferable that the base portion 71 and the transparent portion 77 have the same refractive index. Typically, the base portion 71 is made of the same material as the transparent portion 77 of the light control portion 73 and is integrally formed.

The light shielding portion 75 has light absorption properties. The light shielding portion 75 may be a portion containing, for example, light absorbing particles in a binder resin. Examples of light-absorbing particles include black pigments such as carbon black and titanium black. On the other hand, the transparent portion 77 has visible light transmittance.

Various cross-sectional shapes can be adopted for the light shielding portion 75 and the transparent portion 77 according to the required functions. In the present embodiment, the width of the light shielding portion 75 along the third direction d3 changes so as to become thinner as the distance from the decorative sheet 50 increases, as shown in FIG. Here, the phrase "changes to become thinner with increasing distance from the decorative sheet" does not only mean that it continues to change continuously according to the distance from the decorative sheet. It means that it includes a portion whose width narrows with distance from the sheet and does not include a portion whose width increases with distance from the decorative sheet. However, preferably, the width of the light blocking portion 75 continuously decreases in at least a part of the region along the normal direction of the light control layer 70 .

Specifically, in the example shown in FIG. 7, the cross-sectional shape of the light shielding portion 75 is a trapezoidal shape whose one base is sufficiently smaller than the other base, and the cross-sectional shape of the transparent portion 77 is It has a trapezoidal shape with the other base being sufficiently smaller than the one base. The longer base side of the trapezoidal shape of the light shielding portion 75 faces the viewer side, that is, the side where the decorative sheet 50 is arranged, and the shorter base side faces the display device 10 side, that is, where the lenticular lens layer 60 is arranged. facing the side. The maximum length of the light blocking portion 75 along the third direction d3 in the cross section shown in FIG. The maximum length is, for example, 10 μm or more and 100 μm or less.

In the cross section shown in FIG. 7, the ratio of the length of the light shielding portion 75 along the direction orthogonal to the third direction d3 to the maximum length of the light shielding portion 75 along the third direction d3 is 2 or more. is preferred. In such a case, the traveling direction of the image light can be appropriately controlled. More specifically, it is possible to suppress the image light from spreading in the third direction d3, which is the direction in which the light shielding portions 75 are arranged. However, in the cross section shown in FIG. 7, the ratio of the length along the direction orthogonal to the third direction d3 to the maximum length along the third direction d3 of the light shielding portion 75 is 5 or less. preferable. In such a case, it is possible to prevent the image light from being absorbed by the light shielding portion 75 and the image to be observed dark.

If the pitch P3 of the arrangement of the light shielding portions 75 in the first direction d1 is too large, the image light traveling in a direction inclined with respect to the first direction d1 is likely to pass through the transparent portion 77. can not be controlled. In other words, the image light spreads in the first direction d1. Therefore, it is preferable that the pitch P3 of the arrangement of the light shielding portions 75 in the first direction d1 is small. Specifically, the pitch P3 of the arrangement of the light shielding portions 75 in the first direction d1 is preferably 200 μm or less. However, in order to easily form the light shielding portions 75, the pitch P3 of the arrangement of the light shielding portions 75 in the first direction d1 is preferably 50 μm or more.

By forming the light shielding part 75 and the transparent part 77 with materials having different refractive indices, the interface between the light shielding part 75 and the transparent part 77 can be used as a reflective surface. As shown in FIG. 7, it is possible to change the traveling direction of light incident on the interface between the light shielding portion 75 and the transparent portion 77 by reflection on the reflecting surface. This makes it possible to control the traveling direction of the image light while preventing the image light from being absorbed by the light blocking portion 75 .

It is preferable that the arrangement pitch P1 of the transparent portions 57 of the decorative sheet 50 in the first direction d1 is smaller than the arrangement pitch P2 of the lens portions 63 of the lenticular lens layer 60 in the first direction d1. In addition, it is preferable that the pitch P3 of the arrangement of the light shielding portions 75 of the light control layer 70 in the first direction d1 is smaller than the pitch P2 of the arrangement of the lens portions 63 of the lenticular lens layer 60 in the first direction d1. Furthermore, it is preferable that the pitch P3 of the arrangement of the light shielding portions 75 of the light control layer 70 in the first direction d1 is smaller than the pitch P1 of the arrangement of the transmitting portions 57 of the decorative sheet 50 in the first direction d1. That is, the arrangement pitch P1 in the first direction d1 of the transmitting portions 57 of the decorative sheet 50, the arrangement pitch P2 in the first direction d1 of the lens portions 63 of the lenticular lens layer 60, and the arrangement pitch P2 of the light shielding portions 75 of the light control layer 70 in the first direction d1. Among the array pitch P3 in the first direction d1, the array pitch P2 of the lens portions 63 of the lenticular lens layer 60 in the first direction d1 is the largest, and the array pitch P3 of the light shielding portions 75 of the light control layer 70 in the first direction d1. is the smallest.

The directional speaker 30 outputs directional sound. That is, the directional speaker 30 strongly outputs sound only in a specific direction. An observer positioned in the specific direction with respect to the directional speaker 30 can clearly hear the sound from the directional speaker 30, but an observer positioned in a direction deviating from the specific direction cannot hear the directional sound. The sound from the speaker 30 is difficult to hear. A plane speaker, a plane wave speaker, and a parametric speaker can be exemplified as the directional speaker 30 .

The directivity of the sound output by the directional speaker 30 is preferably the direction in which the image light can be observed. Therefore, the directional speaker 30 preferably outputs directional sound in a direction intersecting a plane including both the first direction d1 and the second direction d2. In particular, it is more preferable that the directivity of the sound output by the directional speaker 30 is the direction in which the image light refracted by the lenticular lens layer 60 travels. The lens portions 63 of the lenticular lens layer 60 are arranged in the first direction d1 and extend in the second direction d2. Therefore, the image light refracted by the lenticular lens layer 60 travels in a direction orthogonal to the second direction d2. That is, it is more preferable that the directional speaker 30 outputs sound having directivity in the direction perpendicular to the second direction d2.

Next, an example of the operation of the display device 1 with a decorative laminate according to the present embodiment will be described.

When no image is displayed on the display surface 11 of the display device 10, the design formed by the design portion 53 of the decorative sheet 50 is displayed as shown in FIG. That is, the display device 1 with a decorative laminate can display a design intended to be observed. The displayed design prevents the display surface 11 of the display device 10 from being observed by an outside observer, and the display device 1 with the decorative laminate can be harmonized with the surrounding environment in terms of design. In particular, when the shielding part 55 is provided only at a position facing the design part 53, the shielding part 55 is not observed by the observer, and the design of the decorative sheet 50 is prevented from being impaired by the shielding part 55. be able to.

On the other hand, when the display device 10 displays an image on the display surface 11 , the image light is refracted by the lens portions 63 of the lenticular lens layer 60 and transmitted through the transparent portions 77 of the light control layer 70 , and then the decorative sheet 50 . passes through the base material portion 51 and the transmission portion 57 of the . Thereby, as shown in FIG. 9, an observer positioned in the front direction of the display device 1 with the decorative laminate can observe the image. In particular, when the image light is refracted by the lens portion 63 of the lenticular lens layer 60, different images are observed by the right eye and the left eye of the observer, like the image light L51R and L51L shown in FIG. , the viewer can perceive the image stereoscopically. In particular, different images are observed by the right eye and left eye of the observer at each position. can be recognized. That is, the display device 1 with a decorative laminate can display an image intended to be observed, and an external observer can observe the image.

Further, the design portion 53 is covered from the display device 10 side by the shielding portion 55 . Therefore, the shielding portion 55 prevents the image light from entering the design portion 53 . Therefore, it is possible to prevent the image light from transmitting through the design portion 53 and the pattern represented by the design portion 53 and the image light from being mixed and observed. That is, it is possible to effectively prevent deterioration in color reproducibility of an image due to absorption of visible light in a specific wavelength range by the design portion 53 . Furthermore, when the shielding portion 55 is provided only in the region facing the design portion 53 , the shielding portion 55 prevents the image light passing through the transmission portion 57 from being blocked. That is, the image light can be efficiently used to display the image brightly.

When the display device 10 displays an image on the display surface 11, the light control layer 70 prevents the image light from spreading excessively in the first direction d1 in the direction greatly inclined in the first direction d1. controlled. More specifically, like the image light L72 shown in FIG. 7, the image light is absorbed by the light shielding portion 75 of the light control layer 70 with respect to the direction greatly inclined in the first direction d1. That is, the image light is not emitted from the display device 1 with the decorative laminate in the direction greatly inclined to the first direction d1. Therefore, as shown in FIG. 10, an observer positioned in a direction greatly inclined in the first direction d1 from the front direction of the display device 1 with the decorative laminate cannot observe the image, and the decorative sheet 50 The design formed by the design section 53 is observed. On the other hand, in the direction in which the inclination angle to the first direction d1 is small, the image light passes through the transparent portion 77 as it is, like the image light L71 shown in FIG. 7, or the image light L73 shown in FIG. , the light is reflected at the interface between the light shielding portion 75 and the transparent portion 77 and passes through the transparent portion 77 .

Further, in a state where the display device 10 displays an image on the display surface 11, the directional speaker 30 notifies an observer positioned around the display device 1 with a decorative laminate that the image is displayed. Outputs sound such as voice for Alternatively, the directional speaker 30 outputs sound only to an observer positioned at a position where the image can be observed.

By the way, in a conventional display device, in order to display a design that is in harmony with the surrounding environment, a decorative sheet that faces the display surface of the display device to form a design is provided, resulting in a display device with a decorative sheet. there is In this case, in the image display state of the display device, the viewer will recognize that the display surface of the display device is behind the surface of the display device with the decorative sheet, in other words, the surface of the decorative sheet. If the surface of the display device with the decorative sheet and the display surface of the display device are recognized as different surfaces, the observer feels uncomfortable. Such discomfort may deteriorate the visibility of the image displayed on the display surface of the display device.

Therefore, it has been considered to allow the observer to view the image three-dimensionally by arranging, for example, a lenticular lens layer between the decorative sheet and the display device. By appropriately refracting the image light from the image component in the lenticular lens layer, the image can be viewed stereoscopically. An image that is viewed stereoscopically is viewed as floating forward from the display surface of the display device. Therefore, the surface of the display device with the decorative sheet and the display surface for displaying the image can be observed as the same surface. Therefore, even if a decorative sheet for imparting designability is provided, the visibility of the image displayed on the display surface of the display device can be prevented from deteriorating.

However, the viewing angle at which an image can be viewed stereoscopically by arranging the lenticular lens layer is limited in the direction in which the lenses of the lenticular lens layer are arranged. That is, when an image is observed from a direction greatly inclined to the direction in which the lenses of the lenticular lens layer are arranged, the image cannot be viewed stereoscopically. Therefore, in a direction greatly inclined in the direction in which the lenses of the lenticular lens layer are arranged, the surface of the display device with the decorative sheet and the display surface of the display device are recognized as different surfaces, giving an uncomfortable feeling to the observer. put away.

In the display device 1 with the decorative laminate of the present embodiment, the decorative laminate 40 has the decorative sheet 50 , the lenticular lens layer 60 and the light control layer 70 . In the display device 1 with the decorative laminate, the decorative sheet 50 can display a design that is in harmony with the surrounding environment, and the lenticular lens layer 60 allows the image to be lifted forward from the display surface 11 of the display device 10 and visually recognized. Thus, the surface of the display device 1 with a decorative laminate and the display surface 11 for displaying an image can be viewed as the same surface. Further, the light control layer 70 includes a plurality of light shielding portions 75 arranged in a third direction d3 non-parallel to the second direction d2 and extending in a fourth direction d4, and transparent light shielding portions 75 and the light shielding portions 75 alternately arranged in the third direction. a portion 77; Such a light control layer 70 can suppress the spread in the direction in which the light shielding portions 75 are arranged, and can control the traveling direction of the transmitted image light. The direction in which the light blocking portions 75 are arranged is non-parallel to the second direction d2 and includes a component in the first direction d1. Therefore, the light control layer 70 can suppress the spread of image light in the first direction d1, which is the direction in which the lens portions 63 of the lenticular lens layer 60 are arranged. For this reason, it is difficult to observe an image in a direction greatly inclined in the first direction d1, which is the direction in which the lens portions 63 of the lenticular lens layer 60 are arranged. As described above, in the display device 1 with a decorative laminate according to the present embodiment, while displaying a design and making an image stereoscopically visible, the image can be visually recognized at a viewing angle at which the image is not stereoscopically visible. can be restricted.

Since the light shielding portion 75 of the light control layer 70 has light absorption properties, it is black or the like. If the light shielding portion 75 is visually recognized, the design will deteriorate. However, in the display device 1 with the decorative laminate of the present embodiment, the light control layer 70 is arranged between the decorative sheet 50 and the lenticular lens layer 60 . That is, the decorative sheet 50 is arranged closer to the viewer than the light control layer 70 is. By being covered with the decorative sheet 50, the black light shielding portion 75 of the light control layer 70 becomes difficult to be observed from the outside, and furthermore, the design of the decorative sheet 50 enhances the design of the display device 1 with the decorative laminate. can be granted.

The angle between the second direction d2 in which the lens portions 63 of the lenticular lens layer 60 extend and the fourth direction d4 in which the light blocking portions 75 of the light control layer 70 extend is 30 degrees or less. That is, the lens portion 63 and the light shielding portion 75 extend in substantially the same direction. Therefore, the third direction d3, which is the direction in which the light blocking portions 75 are arranged, contains many components in the first direction d1. The light control layer 70 can easily suppress the spread of the image light in the first direction d1, which is the direction in which the lens portions 63 of the lenticular lens layer 60 are arranged. Therefore, in a direction greatly inclined in the first direction d1, which is the direction in which the lens portions 63 of the lenticular lens layer 60 are arranged, the image becomes more difficult to observe. While the design is displayed and the image is viewed stereoscopically, it is possible to further restrict the image from being viewed at a viewing angle at which the image is not viewed stereoscopically.

The arrangement pitch P3 of the light shielding portions 75 of the light control layer 70 in the first direction d1 is smaller than the arrangement pitch P2 of the lens portions 63 of the lenticular lens layer 60 in the first direction d1. Therefore, the image light transmitted through a certain lens portion 63 is incident on the transparent portion 77 between the light shielding portions 75 . That is, the image light transmitted through one lens portion 63 is prevented from being completely blocked by the light blocking portion 75 . Image light from one image component 15 is not completely blocked by the light blocking portion 75 . Since the image light from each image component 15 can be properly observed, the observer can visually recognize the image stereoscopically.

The pitch P3 of arrangement of the light shielding portions 75 of the light control layer 70 in the first direction d1 is smaller than the pitch P1 of arrangement of the transmitting portions 57 of the decorative sheet 50 in the first direction d1. Therefore, the light shielding portion 75 and the transparent portion 57 of the decorative sheet 50 do not completely overlap each other, and the image light can be transmitted through the transparent portion 57 . That is, the observer can appropriately observe the image displayed by the display device 1 with the decorative laminate.

The arrangement pitch P1 of the transparent portions 57 of the decorative sheet 50 in the first direction d1 is smaller than the arrangement pitch P2 of the lens portions 63 of the lenticular lens layer 60 in the first direction d1. Therefore, image light transmitted through a certain lens portion 63 can enter the transmission portion 57 of the decorative sheet 50 . That is, the image light transmitted through one lens portion 63 is prevented from being completely blocked by the decorative sheet 50 . Image light from one image component 15 is not completely blocked by the decorative sheet 50. - 特許庁Since the image light from each image component 15 can be properly observed, the observer can visually recognize the image stereoscopically.

When the image displayed in the display device 1 with the decorative laminate is bright, the image is likely to be visually recognized stereoscopically. It is desired that the image be observed sufficiently bright. Therefore, it is preferable that the luminance on the display surface 11 of the display device 10 is 500 cd/m ² or more. Further, it is preferable that the ratio of the area occupied by the transmitting portion 57 is 10% or more so that the image light can easily pass through the decorative sheet 50 .

The diameter D of the maximum circle inscribed in the transparent portion 57 of the decorative sheet 50 is 140 μm or less. Since each transparent portion 57 is sufficiently small to be invisible, the mesh pattern of the transparent portion 57 is difficult to observe. Therefore, the image of the image light and the design of the decorative sheet 50 are less likely to be damaged.

Here, in FIG. 3, the vicinity of the boundary B1 between the area R1 where the display device 10 displays an image and the area R2 where the image is not displayed on the decorative sheet 50 is shown in an enlarged manner. The transmitting portion 57 of the decorative sheet 50 in the portion overlapping the region R1 transmits the image light from the display device 10, but the transmitting portion 57 of the decorative sheet 50 in the portion overlapping the region R2 transmits the image light. It is not incident and therefore does not transmit image light. At this time, an observer of the display device 1 with a decorative laminate sees a region where the image of the display device 10 itself is displayed as a boundary between a region R1 in which the display device 10 displays an image and a region R2 in which the display device 10 does not display an image. Not the boundary B1 between R1 and the area R2 where no image is displayed, but the boundary B2 between the transparent portion 57 of the decorative sheet 50 that transmits the image light and the transparent portion 57 that does not transmit the image light. This boundary B2 is observed in the form of a polygonal line, as shown in FIG. Therefore, it is difficult to observe a smooth boundary between the region R1 in which the display device 10 displays an image and the region R2 in which the display device 10 does not display an image.

As shown in FIG. 3, the shorter line segment of the line segments forming the polygonal boundary B2 is equal to the pitch P1 of the arrangement of the transmissive portions 57. As shown in FIG. Since the pitch of the arrangement of the transmissive portions 57 is sufficiently small, the shorter line segment of the line segments forming the boundary B2 becomes less visible, and the boundary B2 shown in FIG. 3 becomes less visible as a polygonal line. Become. That is, the boundary between the region R1 where the display device 10 displays an image and the region R2 where it does not display an image becomes easier to observe smoothly. Specifically, as in the present embodiment, since the pitch of the arrangement of the transmissive portions 57 is 200 μm or less, the boundary B2 is less likely to be visually recognized as a polygonal line, and the display device 10 displays an image in the region R1. and the region R2 where no image is displayed can be observed smoothly.

The directional speaker 30 outputs directional sound in a direction intersecting a plane including both the first direction d1 and the second direction d2. In particular, the directional speaker 30 outputs directional sound in a direction perpendicular to the second direction d2. For example, a passerby who is going to pass near the front of the display device 1 with the decorative laminate in the first direction d1 approaches the display device 1 with the decorative laminate from a direction greatly inclined in the first direction d1. are doing. Even if an image is displayed on the display device 1 with the decorative laminate, such passers-by cannot see the image unless they move to the vicinity of the front of the display device 1 with the decorative laminate. A passerby who has moved to the vicinity of the front of the display device 1 with the decorative laminate cannot recognize the display device 1 with the decorative laminate because the image is not observed from the direction greatly inclined in the first direction d1. Therefore, the person passes by without observing the image of the display device 1 with the decorative laminate. By notifying such a passerby of the presence of the display device 1 with the decorative laminate by the directional speaker 30 that outputs a directional sound in a direction orthogonal to the second direction d2, the decorative laminate The display device 1 with the decorative laminate can be recognized, and the image displayed on the display device 1 with the decorative laminate can be observed. Alternatively, an observer who observes the display device 1 with the decorative laminate from a direction greatly inclined in the first direction d1 cannot observe the image, and the display device 1 with the decorative laminate cannot be observed in the first direction d1. Only an observer positioned near the front can observe the image. The directional speaker 30, which outputs sound directional in the direction perpendicular to the second direction d2, can output sound only to an observer who can observe such an image.

As described above, the decorative laminated body 40 of the present embodiment is arranged to face the display device 10 , and is composed of the decorative sheet 50 and the display device 10 from the decorative sheet 50 . and a light control layer 70 arranged between the decorative sheet 50 and the lenticular lens layer 60. The decorative sheet 50 has a design portion 53 forming a design. and a plurality of transmissive portions 57 that are portions in which the design portion 53 is not formed. The light control layer 70 includes a plurality of light shielding portions 75 arranged in a third direction d3 non-parallel to the second direction d2 and extending in a fourth direction d4 non-parallel to the third direction d3; It has light shielding portions 75 and transparent portions 77 alternately arranged in the third direction d3. According to such a decorative laminate 40, the light control layer 70 can suppress the spread of image light in the first direction d1, which is the direction in which the lens portions 63 of the lenticular lens layer 60 are arranged. For this reason, it is difficult to observe an image in a direction greatly inclined in the first direction d1, which is the direction in which the lens portions 63 of the lenticular lens layer 60 are arranged. In this way, it is possible to restrict the image from being viewed at a viewing angle at which the image is not viewed stereoscopically while displaying the design and allowing the image to be viewed stereoscopically.

Various modifications can be made to the above-described embodiment.

For example, in the embodiment described above, the decorative laminate 40 has only one light control layer 70, but may have two light control layers. That is, as shown in FIG. 11 , the decorative laminate 40 may further have a second light control layer 80 in addition to the light control layer 70 . The second light control layer 80 is arranged between the decorative sheet 50 and the lenticular lens layer 60 in the same way as the light control layer 70 , and controls the traveling direction of the image light from the lenticular lens layer 60 .

As shown in FIG. 12 , the second light control layer 80 has a second base portion 81 and a second light control portion 83 provided on the second base portion 81 . The second light control section 83 includes second light shielding sections 85 arranged in a fifth direction d5 non-parallel to the third direction d3, and second transparent light control sections arranged alternately with the second light shielding sections 85 in the fifth direction d5. a portion 87; The second light shielding portion 85 extends in a sixth direction d6 that is non-parallel to the fifth direction d5. Preferably, the fifth direction d5 and the sixth direction d6 are orthogonal. Moreover, it is preferable that the third direction d3 and the sixth direction d6 match, and the fourth direction d4 and the fifth direction d5 match.

According to the second light control layer 80, the viewing angle at which the image light is observed can be restricted so that the image light from the lenticular lens layer 60 does not spread too much in the second direction d2. The viewing angle is limited in both the first direction d1 and the second direction d2. Therefore, the image can be observed only from the substantially front direction of the display device 1 with the decorative laminate.

The above-described decorative laminated body 40 and the decorative laminated body-equipped display device 1 having the decorative laminated body 40 can be used, for example, as interior or exterior members of moving bodies such as vehicles such as automobiles and railways, aircraft, ships, and spacecraft. Used. As a specific application example, the decorative laminated body 40 and the display device 1 with the decorative laminated body having the decorative laminated body 40 are used for the center console and door trim of automobiles. Alternatively, the decorative laminated body 40 and the decorative laminated body-equipped display device 1 may be used by being incorporated in an interior member or an exterior member of a building, an electronic device, a piece of furniture, or an electrical appliance.

1 Display device with decorative laminated body 10 Display device 11 Display surface 20 Decorative laminated body with acoustic function 30 Directional speaker 40 Decorative laminated body 50 Decorative sheet 51 Base material part 53 Design part 55 Shielding part 57 Transmission part 60 Lenticular Lens layer 61 base material 63 lens portion 70 light control layer 71 base portion 73 light control portion 75 light shielding portion 77 transparent portion 80 second light control layer 81 second base portion 83 second light control portion 85 second light shielding portion 87 second transparent portion

Claims (13)

A decorative laminate arranged facing a display device,
a decorative sheet, a lenticular lens layer arranged closer to the display device than the decorative sheet, and a light control layer arranged between the decorative sheet and the lenticular lens layer,
The decorative sheet has a design portion that forms a design and a plurality of transparent portions that are non-formed portions of the design portion,
the lenticular lens layer has a plurality of lens portions arranged in a first direction and extending in a second direction non-parallel to the first direction;
The light control layer includes: a plurality of light shielding portions arranged in a third direction non-parallel to the second direction and extending in a fourth direction non-parallel to the third direction; A decorative laminate having a transparent portion disposed thereon. The decorative laminate according to claim 1, wherein an angle formed by said first direction and said third direction is 30 degrees or less. 3. The decorative lamination according to claim 1, wherein the pitch of arrangement of said light shielding portions of said light control layer in said first direction is smaller than the pitch of arrangement of said lens portions of said lenticular lens layer in said first direction. body. 4. The light control layer according to any one of claims 1 to 3, wherein the light shielding portions of the light control layer are arranged at a pitch in the first direction smaller than the arrangement pitch of the transparent portions of the decorative sheet in the first direction. The decorative laminate described. 5. The method according to any one of claims 1 to 4, wherein an arrangement pitch in the first direction of the transparent portions of the decorative sheet is smaller than an arrangement pitch in the first direction of the lens portions of the lenticular lens layer. The decorative laminate described. The decorative laminate according to any one of claims 1 to 5, wherein the diameter of the largest circle inscribed in the transparent portion of the decorative sheet is 140 µm or less. The decorative laminate according to any one of claims 1 to 6, wherein a ratio of an area occupied by the transmitting portion in the decorative sheet is 10% or more. further comprising a second light control layer disposed between the decorative sheet and the light control layer;
The second light control layer includes a plurality of second light shielding portions arranged in a fifth direction non-parallel to the third direction and extending in a sixth direction non-parallel to the fifth direction; The decorative laminate according to any one of claims 1 to 7, further comprising second transparent portions alternately arranged in the fifth direction. a display device having a display surface;
A display device with a decorative laminate, comprising: the decorative laminate according to any one of claims 1 to 8, which is arranged to face the display surface of the display device. The display device with a decorative laminate according to claim 9, wherein the display surface of the display device has a brightness of 500 cd/m2 or ^more . 11. The display device with a decorative laminate according to claim 9, further comprising a directional speaker that outputs directional sound in a direction intersecting a plane including both the first direction and the second direction. 12. The display device with a decorative laminate according to claim 11, wherein said directional speaker outputs sound having directivity in a direction orthogonal to said second direction. The decorative laminate according to any one of claims 1 to 8;
A decorative laminate with an acoustic function, comprising: a directional speaker that outputs directional sound in a direction intersecting a plane including both the first direction and the second direction.

Images