JP7589485B2 - Decorative sheet and manufacturing method thereof - Google Patents

Description

The present invention relates to a decorative sheet that can be positioned, for example, in front of a display medium, and installed naturally as if it were part of a wall when not in use, and can conceal the display medium, and a method for manufacturing the same.

Conventionally, a decorative sheet with openings (translucent areas) in various places in the picture layer has been known as a method for providing a picture layer that can transmit light from a display medium (see paragraph [0011] and Figures 2 and 4 of Patent Document 1, and paragraph [0020] and Figures 3 and 5 of Patent Document 2).

JP 2018-163341 A JP 2020-034886 A

However, the conventional "decorative sheet" described above had problems such as the color of the display medium being visible through the opening (translucent portion) when the display medium was not displayed, and the difference in color tone between when the display medium was lit and when it was not displayed being noticeable. There was also a problem that a special design had to be prepared to provide blank spaces in the picture layer.
Therefore, the present invention provides a decorative sheet that can conceal the display medium while suppressing color change when not in use, by providing a concealing layer with openings without providing blank areas (translucent areas) here and there in the picture layer.
In other words, if a "blank space" is added to the design layer, a "dedicated pattern" is required to make the "blank space" less noticeable so that it does not interfere with the design. In contrast, this patent has the advantage that a "dedicated pattern" is not required and existing designs can be reused.

The decorative sheet according to one aspect of the present invention can be used on the front surface of a display medium or on the front surface of a display panel that combines the display medium with a support that supports it, and is capable of transmitting image light projected from the display medium to the observation side to display an image. The decorative sheet has at least a transparent sheet substrate, and a pattern layer and a concealing layer printed on both sides or one side of the transparent sheet substrate, the pattern layer being located on the observation side, the concealing layer having a colored layer printed with a colored ink containing a pigment and having light-transmitting properties, and a plurality of openings that are dotted among the colored layers and are not coated with pigment, and the decorative sheet has a visible light transmittance of 2 to 40%, and an aperture ratio of the openings is 2 to 40%.

In addition, the decorative sheet according to one aspect of the present invention is characterized in that the opening ratio of the openings is 2 to 40%.
In addition, the decorative sheet according to one aspect of the present invention is characterized in that the concealing layer has an overall visible light transmittance of 10 to 70% including the colored layer and the opening.
A decorative sheet according to one aspect of the present invention is characterized in that the decorative sheet has a visible light transmittance of 2 to 40%.
The decorative sheet according to one aspect of the present invention is characterized in that the decorative sheet has a protective layer on the outermost layer on the observation side.

The method for manufacturing a decorative sheet according to one aspect of the present invention can be used on the front surface of a display medium or on the front surface of a display panel that combines the display medium with a support that supports it, and can display an image by transmitting image light projected from the display medium to the observation side. The method includes a step of printing a concealing layer on the surface located on the observation side of the transparent sheet substrate, and a step of printing a pattern layer on the concealing layer, and the concealing layer is printed with a colored ink containing a pigment and has a colored layer that is light-transmitting and a plurality of openings that are dotted between the colored layers and are not coated with pigment, and the visible light transmittance of the decorative sheet is 2 to 40%.

The method for manufacturing a decorative sheet according to one aspect of the present invention can be used on the front surface of a display medium or on the front surface of a display panel that combines the display medium with a support that supports it, and can display an image by transmitting image light projected from the display medium to the observation side. The method includes a step of printing a pattern layer on the back surface of a transparent sheet substrate that faces the display medium, and a step of printing a concealing layer on the pattern layer, and the concealing layer has a colored layer that is printed with a colored ink containing a pigment and has light-transmitting properties, and a plurality of openings that are dotted between the colored layers and are not coated with pigment, and the visible light transmittance of the decorative sheet is 2 to 40%.

According to one aspect of the present invention, by providing a concealing layer having an opening, it is possible to conceal the display medium while suppressing color change during non-display.
Furthermore, according to one aspect of the present invention, when the display medium is combined with a support that supports the display medium, the boundary between the display medium and the support can be concealed.

FIG. 2 is a cross-sectional view of the decorative sheet according to the first embodiment. FIG. 2 is a partially exploded perspective view showing an attached state of the decorative sheet according to the first embodiment. FIG. 2 is a partial cross-sectional view showing an attached state of the decorative sheet according to the first embodiment. 1 is a partial front view showing an attached state of a support according to the first embodiment. 1 is a partial front view showing an attached state of a decorative sheet according to a first embodiment. FIG. 11 is a cross-sectional view of a decorative sheet according to a second embodiment. FIG. 11 is a cross-sectional view of a decorative sheet according to a third embodiment. FIG. 13 is a cross-sectional view of a decorative sheet according to a fourth embodiment. FIG. 13 is a cross-sectional view of a decorative sheet according to a fifth embodiment. FIG. 13 is a cross-sectional view of a decorative sheet according to a sixth embodiment.

(Embodiment 1)
A first embodiment of the present invention will be described below with reference to the drawings.
Here, the drawings are schematic, and the relationship between thickness and planar dimensions, the thickness ratio of each layer, etc. differ from the actual ones. Furthermore, the embodiments shown below are examples of configurations for embodying the technical idea of the present invention, and the technical idea of the present invention is not limited to the materials, shapes, structures, etc. of the components described below. The technical idea of the present invention can be modified in various ways within the technical scope defined by the claims.

(Decorative sheet 10)
In FIG. 1, 10 is a decorative sheet. The decorative sheet 10 is used in a display panel 100, for example as shown in FIGS. 2 to 5, and is positioned in front of a display medium 110. When not in use, the sheet is installed in a manner that makes it look natural like part of a wall surface, and can conceal the display medium.
The visible light transmittance of the decorative sheet 10 is desirably 2 to 40%.
If it is less than 2%, the display visibility is poor, and if it exceeds 40%, the hiding power is poor.

(Visible light transmittance)
The visible light transmittance in this case is determined with reference to the following measured values.
Transmittance measurements are carried out with a spectrophotometer equipped with an integrating sphere unit.
The value in this case means the light transmittance that is a combination of transmitted light observed as traveling straight through the sample described later in the examples, and diffuse transmitted light.
The average value of the transmittance at three wavelengths of 550 nm, 600 nm, and 650 nm is adopted as the visible light transmittance.

(Each layer of the decorative sheet 10)
As shown in FIG. 1, the decorative sheet 10 is formed by laminating the following three layers in order.
The following layers will be described later.
(1) Transparent sheet substrate 20
(2) Pattern layer 30
(3) Concealing layer 40
The layers of the decorative sheet 10 are not limited to the above-mentioned (1) to (3). For example, as shown in FIG. 6 and FIG. 8, a protective layer 50 may be provided on the outermost layer of the decorative sheet 10.

(Layer stacking order of the decorative sheet 10)
The three layers constituting the decorative sheet 10 may be laminated in the following three orders.
1, the first lamination order is transparent sheet substrate 20/concealing layer 40/pattern layer 30. In this case, concealing layer 40 is always positioned on the display medium 110 side (in the direction of arrow A) with respect to pattern layer 30.
(2) Second Stacking Order In the second stacking order, as shown in the third embodiment described later with reference to Fig. 7, the layers are stacked in the order of concealing layer 40, design layer 30, and transparent sheet substrate 20. In this case, as in the first stacking order, the concealing layer 40 is always positioned on the side of the display medium 110 (in the direction of arrow A) with respect to the design layer 30.
(3) Third Stacking Order In the third stacking order, as shown in embodiment 5 described later with reference to Fig. 9, the layers are stacked in the order of concealment layer 40/transparent sheet substrate 20/pattern layer 30. That is, with the transparent sheet substrate 20 sandwiched between them, the pattern layer 30 is positioned on the observation side (direction of arrow B) and the concealment layer 40 is positioned on the display medium 110 side (direction of arrow A).

The stacking order of the decorative sheet 10 is not limited to the above (1) to (3), and a protective layer 50 may be added to the three layers in the first stacking order, and the layers may be stacked in the order of transparent sheet base material 20/concealing layer 40/design layer 30/protective layer 50, as shown in embodiment 2 described later using FIG. 6. Also, a protective layer 50 may be added to the three layers in the second stacking order, and the layers may be stacked in the order of concealing layer 40/design layer 30/transparent sheet base material 20/protective layer 50, as shown in embodiment 4 described later using FIG. 8.

(First stacking order)
In the first lamination order, the remaining pattern layer 30 and concealing layer 40 are laminated on one of the surfaces of the decorative sheet 10, that is, on the front surface side located on the observation side (the direction of the arrow B) as shown in Fig. 1 in this embodiment 1. That is, the layers are laminated in the order of transparent sheet substrate 20/concealing layer 40/pattern layer 30.
According to the first layering order, it is possible to conceal the color of the display medium 110 while displaying a clear image through the display medium 110 .
In addition, by providing the concealing layer 40, the boundary between the display medium 110 and the support 130 can be concealed when the display medium 110 is attached to the support 130 as shown in FIGS.

(Second Stacking Order)
The second lamination order is a case where the remaining pattern layer 30 and concealing layer 40 are laminated on the other surface of the decorative sheet 10, that is, on the back surface side located on the side of the display medium 110 (the direction of the arrow A) as shown in the third embodiment described later with reference to Fig. 7. That is, the layers are laminated in the order of concealing layer 40/pattern layer 30/transparent sheet substrate 20.
According to the second stacking order, the same effects as those of the first stacking order can be obtained, while deterioration of the pattern layer 30 and the concealing layer 40 due to scratches or the like can be suppressed.
In addition, by providing the concealing layer 40, the boundary between the display medium 110 and the support 130 can be concealed when the display medium 110 is attached to the support 130 as shown in FIGS.

(Display Panel 100)
As shown in FIGS. 2 to 5, the display panel 100 includes the following parts:
The following parts will be described later:
(1) Display medium 110
(2) Construction wall 120
(3) Support 130
The parts of the display panel 100 are not limited to the above-mentioned (1) to (3). Although not shown, the decorative sheet 10 may be placed directly on the front surface of the display medium 110, and either or both of the construction wall 120 and the support 130 may be omitted.

(Transparent sheet substrate 20)
The transparent sheet substrate 20 serves as a support for the decorative sheet 10, and can be made of a wide variety of resins having transparency, but it is preferable to use a material having a certain degree of heat resistance, such as PET, since it is affected by heat from the display medium 110. Specifically, the transparent sheet substrate 20 is made of PET having a thickness of, for example, 200 μm.
By using the transparent sheet base material 20 for the decorative sheet 10, the transparency of the decorative sheet 10 can be increased, and visibility can be improved. Therefore, the display medium 110 can be used at low brightness, the temperature rise caused by the display medium 110 can be suppressed, and visibility can be improved. In other words, by using a normal liquid crystal monitor as the display medium 110 and displaying at low brightness, the rise in surface temperature can be suppressed. By displaying at low brightness for the display medium 110, the surface temperature can be kept below 45°C, which is the temperature at which low-temperature burns occur.
Furthermore, by using the transparent sheet substrate 20, visibility can be improved even in low brightness display.
Furthermore, since a low-luminance display is sufficient for the display medium 110, a high-luminance monitor is not required, and material costs can be reduced.

(Concealing layer 40)
The concealing layer 40 is formed by a printing method on one of the surfaces of the transparent sheet substrate 20, in this embodiment 1, on the surface on the side of the display medium 110 as shown in FIG. 1, for the purpose of concealing the color of the display medium 110 while allowing a clear image to be displayed through the display medium.
It is desirable for the concealing layer 40 to have a certain degree of light transmittance and openings 41 where no pigment is applied.
The visible light transmittance of the concealing layer 40 is desirably 10 to 70%.
If it is less than 10%, the display visibility is poor, and if it exceeds 70%, the hiding power is poor.

(Arrangement of concealing layer 40)
The concealing layer 40 is always positioned on the display medium 110 side (in the direction of arrow A) with respect to the picture layer 30 .
In contrast, if the concealing layer 40 is positioned closer to the observation side (in the direction of arrow B) than the design layer 30, the design layer 30 becomes invisible or difficult to see.

(Printing method of concealing layer 40)
The concealing layer 40 is printed using an inkjet device, for example, with a white ink containing titanium oxide. Specifically, the concealing layer 40 is formed by, for example, printing a solid white ink on the back surface of the design layer 30.
Although an inkjet device has been exemplified as the printing method, the printing method is not limited to this.
As the printing method, in addition to the ink jet printing method, various printing methods such as gravure printing, offset printing, letterpress printing, flexographic printing, screen printing, and electrostatic printing can be used.
The printing method is not limited to the above-mentioned examples, and any conventionally known image forming means can be used, such as a hand-drawing method, a ink-flowing method, a transfer method, a photography method, an electrophotography method, a photosensitive resin method, a vacuum deposition method, a chemical etching method, a thermal coloring method, or a discharge breakdown method.

(Opening 41)
The openings 41 are areas where no pigment is applied.
That is, the concealing layer 40 is a layer made up of the following parts:
(1) Colored Layer The colored layer is a portion to which a pigment and a resin are applied.
The colored layer can be applied in various colors, but a light color is preferable, and white is most preferable.
(2) Opening 41
The openings 41 are interspersed among the colored layers, and are unpainted areas that have neither pigment nor resin, i.e., are unprinted, empty spaces or gaps.
That is, when the surface of the two layers, transparent sheet substrate 20 and concealing layer 40, is observed, it is as if the opening 41 is a portion from which one can directly see through to the other side.

The aperture ratio of the opening 41 is preferably 2 to 40%.
If it is less than 2%, the display visibility is poor, and if it exceeds 40%, the hiding power is poor.
Furthermore, by providing the openings 41 in the concealing layer 40, it is possible to conceal the display medium 110 while suppressing color change when the display medium is not displayed.
Furthermore, by providing the openings 41 in the concealing layer 40, the transparency of the decorative sheet 10 can be increased, and the visibility can be improved. Therefore, the display medium 110 can be used at low luminance, the temperature rise caused by the display medium 110 can be suppressed, and the visibility can be improved.
The concealing layer 40, including the colored layer and the openings 41, has a visible light transmittance of 10 to 70% as a whole.
If it is less than 10%, the display visibility is poor, and if it exceeds 70%, the hiding power is poor.

(Pattern layer 30)
The pattern layer 30 is formed on the surface of the concealing layer 40 by a printing method, and is provided for the purpose of imparting design to the desired decorative sheet 10 .
The design layer 30 may be applied to the entire surface as long as it has a certain degree of light transmittance.
The pattern layer 30 does not need to have an "opening 41" as in the concealing layer 40, and therefore can have a highly detailed design.
Specifically, the design layer 30 is printed using an inkjet device, and a "wood grain pattern" is printed using, for example, four colors of printing ink: cyan, magenta, yellow, and black.
Although an inkjet device has been exemplified as a printing method for the design layer 30, the printing method is not limited to this, and various printing methods can be applied, as with the concealing layer 40.

(Pattern of the picture layer 30)
Although a "wood grain pattern" is given as an example of the type of pattern of the design layer 30, the type is not limited to this and may be any pattern depending on the purpose of use, the user's preferences, etc. In addition to the wood grain pattern, other common patterns include, for example, a stone pattern and an abstract pattern. The type of pattern is not limited to the types given above as examples and may be, for example, a full-surface solid print.

(Relationship between the concealing layer 40 and the pattern layer 30)
As shown in FIG. 1 , when the design layer 30 is printed on the concealing layer 40 , it is conceivable that the ink of the design layer 30 may penetrate into the openings 41 of the concealing layer 40 .
At this time, it is assumed that the concealing layer 40 has a structure in which the colored layer and the pattern layer 30 are mixed together.
However, in terms of manufacturing, there was no problematic effect on the aperture ratio of the opening 41 in the concealing layer 40, the overall visible light transmittance including the colored layer and the opening of the concealing layer 40, or the visible light transmittance of the decorative sheet 10, and the pattern layer 30 and the concealing layer 40 each functioned independently, so there were no problems.

(Display medium 110)
The display medium 110 is disposed on the rear side of the decorative sheet 10 as shown in FIGS. 2 and 3, and is, for example, a general-purpose liquid crystal display (700 cd) of 300 to 1200 cd/m ² .
In addition, when concealing with a decorative sheet as in the present case, a monitor with a brightness of 1200 cd/ ^m2 or more at an environmentally friendly level of 300 lx is required. In comparison with this, the general-purpose liquid crystal monitor used in this embodiment has a relatively low brightness.
The display medium 110 is fixed to the construction wall 120 by, for example, a mounting bracket (not shown).
Although a liquid crystal display (LCD) has been given as an example of the display medium 110, the present invention is not limited to this and a cathode ray tube display (CRT), a plasma display (PDP), an electroluminescence display (ELD), or a field emission display (FED) may also be used.

(Construction wall 120)
The construction wall 120 is for supporting the support 130 in addition to the display medium 110 .

(Support 130)
The support body 130 is made of a material that can ensure strength, such as iron, and is fixed to the construction wall 120 by a jig or the like (not shown).
The support 130 surrounds the display medium 110 fixed to the construction wall 120 on three sides, ie, the front, left and right sides.
The front wall of the support 130 is located in front of the display medium 110, and its front surface is smooth and highly flat. The decorative sheet 10 is attached to it using, for example, double-sided tape, although a tack sheet may also be used.

Although only the periphery of the transparent sheet substrate 20 is adhered with, for example, double-sided tape, this is not limiting, and the entire surface may be adhered with an optical adhesive or the like.
As shown in Figures 2 and 3, the support 130 surrounds the front and the left and right sides of the display medium 110, but this is not limited to this, and although not shown, from the viewpoint of waste heat, three sides are preferable, but it may be formed to surround either the top or bottom, or both.
The front wall of the support 130 is located in front of the display medium 110, and its front surface is free of irregularities and highly flat.

The rear surface of the front wall is also formed flat since it faces the front surface of the display medium 110 .
The height of the front wall is set to be equal to or greater than the height of the display medium 110, and the width is also set to be equal to or greater than the width of the display medium 110.
The left and right side walls are bent from the left and right ends of the front wall in a channel shape, and extend toward the display medium 110 .
Although left and right side walls are formed in the above embodiment, the present invention is not limited to this, and although not shown in the drawings, only one side wall may be formed.

In order to improve concealment, the support 130 is painted black, that is, a color similar to the display surface of the display medium 110 when no display is displayed.
The coating is applied to the surface of the support 130, but is not limited thereto. It may be applied only to the front surface of the front wall, or the entire surface of the support 130 including the back surface as well as the front surface may be coated.
Here, as a guideline for "similar colors", for example, the color difference ΔE between the intermediate color layer and the surface color layer is within 0.5, preferably within 0.3.

(Each part of the support 130)
The following (1) and (2) will be described later.
(1) Window portion 131
(2) Transparent plate 132
The components of the support 130 are not limited to those described above in terms of (1) and (2).

(Window portion 131)
As shown in FIGS. 2 and 3, the window portion 131 faces the display surface of the display medium 110 fixed to the construction wall 120 and is formed in a penetrating manner.
The window portion 131 is an opening smaller than the display area in order to conceal the periphery of the display surface of the display medium 110 .

(Transparent plate 132)
The transparent plate 132 is fitted and fixed in the window portion 131 of the support 130, and is made of a highly transparent material such as acrylic, glass, or PET, with a thickness of about 2 to 5 mm to maintain strength and transparency.
The size of the transparent plate 132 is made smaller than the window portion 131 of the support 130 so that its surface matches the surface of the support 130 , and the transparent plate 132 is fitted into the window portion 131 so as to be flush with the surface of the support 130 .
The transparent plate 132 is disposed in the window portion 131 of the transparent plate 132 in order to eliminate irregularities on the surface of the support 130 and improve flatness.
Also, the transparent plate 132 is flush with the surface of the support 130 .

On the other hand, since the support 130 is provided with a window portion 131, the display surface of the display medium 110 becomes an opening, and since a transparent plate 132 is used, unevenness and color differences due to partial differences in materials such as the display medium 110 and the support 130 can be concealed.
Furthermore, by positioning the transparent plate 132 between the decorative sheet 10 and the display medium 110, when a load is applied to the display medium 110, the load is dispersed and is not concentrated.
Since the transparent plate 132 is positioned only in front of the display surface of the display medium 110, safety is high compared with the case where the front of the display medium 110 is entirely covered with glass, and the weight of the entire display panel 100 or the support 130 can be reduced, improving workability.

(Method of manufacturing the decorative sheet 10)
The decorative sheet 10 having the above-mentioned configuration is manufactured in the following manner.
The manufacturing method includes a step of printing a concealing layer 40 on the surface located on the observation side (direction of arrow B) of the transparent sheet substrate 20 , and a step of printing a design layer 30 on the concealing layer 40 .
Specifically, the concealing layer 40 is printed on one side, for example the front side, of the transparent sheet substrate 20 made of PET with a thickness of 200 μm so that the opening ratio of the openings 41 is 2 to 40%.
The pattern layer 30 is printed and laminated on the concealing layer 40 to form the pattern layer 30, thereby producing the decorative sheet 10.

(Actions and Effects of the First Embodiment)
The functions and effects of the first embodiment are as follows.
According to the first embodiment, a decorative sheet 10 can be used on the front surface of a display medium 110 or on the front surface of a display panel 100 that combines the display medium 110 with a support 130 that supports the display medium 110, and can display an image by transmitting image light projected from the display medium 110 to the observation side (in the direction of arrow B). The decorative sheet 10 has at least a transparent sheet substrate 20, a pattern layer 30 and a concealing layer 40 printed on both sides or one side of the transparent sheet substrate 20, the pattern layer 30 is located on the observation side (in the direction of arrow B), the concealing layer 40 has a colored layer that is printed with a colored ink containing a pigment and has light transmittance, and a plurality of openings 41 that are dotted between the colored layers and are not coated with pigment, and the visible light transmittance of the decorative sheet 10 is 2 to 40%, so that the display medium 110 is concealed while color change when not displayed can be suppressed.

Furthermore, according to one aspect of the present invention, when the display medium 110 and the support 130 that supports it are combined, the boundary between the display medium and the support can be concealed.
On the other hand, by stacking the transparent sheet substrate 20/concealing layer 40/pattern layer 30 in that order, i.e., by printing the concealing layer 40 and the pattern layer 30 on the front side of the transparent sheet substrate 20, it is possible to conceal the color of the display medium 110 while clearly displaying an image through the film.
Furthermore, by stacking the concealing layer 40/pattern layer 30/transparent sheet substrate 20 in that order, i.e., by printing the concealing layer 40 and pattern layer 30 on the back side of the transparent sheet substrate 20, the same effect as above can be obtained while preventing deterioration of the pattern layer 30 and concealing layer 40 due to scratches, etc.

According to the first embodiment, the aperture ratio of the opening 41 is 2 to 40%, so that the concealing layer 40 can conceal the color of the display medium 110 while allowing a clear image to be displayed through the opening 41 .
Furthermore, according to this embodiment 1, the concealing layer 40 has an overall visible light transmittance of 10 to 70%, including the colored layer and the opening 41, so that the concealing layer 40 can conceal the color of the display medium 110 while allowing a clear image to be displayed through the display medium 110.
According to the first embodiment, by providing the protective layer 50 on the outermost layer on the observation side (the direction of the arrow B), deterioration of the picture layer 30 and the transparent sheet substrate 20 can be suppressed.

According to the manufacturing method of the present embodiment 1, the method for manufacturing the decorative sheet 10 can be used on the front surface of the display medium 110 or on the front surface of the display panel 100 that combines the display medium 110 and the support 130 that supports it, and can display an image by transmitting the image light projected from the display medium 110 to the observation side (in the direction of the arrow B). The method includes a step of printing a concealing layer 40 on the surface located on the observation side (in the direction of the arrow B) of the transparent sheet substrate 20, and a step of printing a pattern layer 30 on the concealing layer 40. The concealing layer 40 has a colored layer that is printed with a colored ink containing a pigment and has light transmittance, and a plurality of openings 41 that are dotted between the colored layers and are not coated with pigment. The visible light transmittance of the decorative sheet 10 is 2 to 40%, so that the display medium 110 is concealed while color change when not displayed can be suppressed.

According to the manufacturing method of the present embodiment 1, the method for manufacturing the decorative sheet 10 can be used on the front surface of the display medium 110 or on the front surface of the display panel 100 that combines the display medium 110 and the support 130 that supports it, and can display an image by transmitting the image light projected from the display medium 110 to the observation side (in the direction of the arrow B). The method includes a step of printing a pattern layer 40 on the surface located on the observation side (in the direction of the arrow B) of the transparent sheet substrate 20, and a step of printing a concealing layer 40 on the pattern layer 40. The concealing layer 40 has a colored layer that is printed with a colored ink containing a pigment and has light transmittance, and a plurality of openings 41 that are dotted between the colored layers and are not coated with pigment. The visible light transmittance of the decorative sheet 10 is 2 to 40%, so that the display medium 110 is concealed while color change when not displayed can be suppressed.

(Embodiment 2)
The second embodiment will be described with reference to FIG.
The second embodiment is characterized in that a protective layer 50 is provided on the outermost layer on the observation side (the direction of the arrow B), that is, on the surface of the design layer 30 .
That is, the decorative sheet 10 is formed by laminating the transparent sheet substrate 20 / the concealing layer 40 / the design layer 30 / the protective layer 50 in this order.
According to the second embodiment, deterioration of the picture layer 30 can be suppressed.

(Embodiment 3)
The third embodiment will be described with reference to FIG.
The third embodiment is characterized in that the remaining pattern layer 30 and concealing layer 40 are laminated on the other surface of the decorative sheet 10, that is, the back surface side located on the side of the display medium 110 (the direction of the arrow A).
That is, the concealing layer 40 /the design layer 30 /the transparent sheet substrate 20 are laminated in this order, that is, the concealing layer 40 and the design layer 30 are printed on the back side of the transparent sheet substrate 20 .
The manufacturing method of embodiment 3 includes a step of printing a pattern layer 30 on the back surface of the transparent sheet substrate 20 facing the display medium 110 (in the direction of arrow A), and a step of printing a concealing layer 40 on the pattern layer 30.
According to the third embodiment, not only can the display medium 110 be concealed while suppressing color change when not displayed, but deterioration of the picture layer 30 and the concealing layer 40 due to scratches or the like can also be suppressed.
In addition, according to embodiment 3, by providing a concealing layer 40, the boundary between the display medium 110 and the support 130 can be concealed when the display medium 110 is attached to the support 130, as shown in Figures 2 and 3.

(Embodiment 4)
The fourth embodiment will be described with reference to FIG.
The fourth embodiment is characterized in that a protective layer 50 is provided on the outermost layer on the observation side (the direction of the arrow B), that is, on the surface of the transparent sheet substrate 20 .
That is, the decorative sheet 10 is formed by laminating the transparent sheet substrate 20 / the concealing layer 40 / the design layer 30 / the protective layer 50 in this order.
According to the fourth embodiment, deterioration of the transparent sheet substrate 20 can be suppressed.

(Embodiment 5)
The fifth embodiment will be described with reference to FIG.
The fifth embodiment is characterized in that a transparent sheet substrate 20 is sandwiched between the image layer 30 and the display medium 110, and the image layer 30 is positioned on the observation side (in the direction of arrow B) and the concealing layer 40 is positioned on the display medium 110 side (in the direction of arrow A).
That is, the decorative sheet 10 is formed by laminating the concealing layer 40 / the transparent sheet substrate 20 / the design layer 30 in this order.
According to the fifth embodiment, not only can the color change during non-display be suppressed while concealing the display medium 110, but also deterioration of the concealing layer 40 due to scratches or the like can be suppressed.
In addition, according to embodiment 5, by providing a concealing layer 40, the boundary between the display medium 110 and the support 130 can be concealed when the display medium 110 is attached to the support 130, as shown in Figures 2 and 3.

(Embodiment 6)
The sixth embodiment will be described with reference to FIG.
The sixth embodiment is characterized in that a protective layer 50 is provided on the outermost layer on the observation side (the direction of the arrow B), that is, on the surface of the design layer 30 .
That is, the decorative sheet 10 is formed by laminating the concealing layer 40 / transparent sheet substrate 20 / design layer 30 / protective layer 50 in this order.
According to the sixth embodiment, deterioration of the picture layer 30 can be suppressed.

The present invention will be specifically explained below with reference to Examples 1 to 4 and Comparative Examples 1 to 4. However, the present invention is not limited to the following Examples 1 to 4.

Example 1
In Example 1, a 200 μm PET sheet was used as the transparent sheet substrate 20 .
Both the design layer 30 and the concealing layer 40 were printed by an inkjet device. The concealing layer 40 was printed with white ink containing titanium oxide. The design layer 30 was printed with a wood grain pattern in four colors, cyan, magenta, yellow, and black.
If the concealing layer 40 is located closer to the observation side (in the direction of arrow B) than the pattern layer 30, the pattern will not be visible. Therefore, as shown in Figure 1, the prepared decorative sheet 10 was placed in front of the display medium 110 so that the pattern layer 30 was always laminated closer to the observation side (in the direction of arrow B) than the concealing layer 40, and the display visibility when displayed and the concealment of the display medium 110 when not displayed were confirmed.
Then, a concealing layer 40 was printed on a 200 μm-thick PET transparent sheet substrate 20 so that the aperture ratio of the openings 41 was 10%, and a pattern layer 30 was printed and laminated on the concealing layer 40 to produce the decorative sheet 10 of Example 1. At this time, the side on which the pattern layer 30 was printed becomes the observation side (the direction of the arrow B) as shown in FIG.
The visible light transmittance of the decorative sheet 10 is 20%, as shown in Table 1 below.

Example 2
In Example 2, as shown in Fig. 7, a pattern layer 30 was printed on a 200 μm-thick PET transparent sheet substrate 20, and a concealing layer 40 was printed and laminated on the pattern layer 30 so that the aperture ratio was 10%, to produce a decorative sheet 10 of Example 2. At this time, the side on which the pattern layer 30 was not printed was the observation side (the direction of arrow B) as shown in Fig. 6, and the printed surface of the pattern layer 30 was on the side of the display medium 110 from the transparent sheet substrate 20 (the direction of arrow A).

Example 3
In Example 3, the decorative sheet 10 was obtained under the same conditions as in Example 2, except that the visible light transmittance of the decorative sheet 10 was set to 2%.
Example 4
In Example 4, the decorative sheet 10 was obtained under the same conditions as in Example 2, except that the visible light transmittance of the decorative sheet 10 was set to 40%.

(Comparative Example 1)
In Comparative Example 1, the concealing layer 40 was not provided, the visible light transmittance of the decorative sheet 10 was set to 20%, and the other conditions were the same as those of Example 1 to obtain a decorative sheet of Comparative Example 1.
(Comparative Example 2)
In Comparative Example 2, the concealing layer 40 was not provided, the visible light transmittance of the decorative sheet 10 was set to 20%, and the other conditions were the same as those of Example 2 to obtain a decorative sheet of Comparative Example 2.

(Comparative Example 3)
In Comparative Example 3, the decorative sheet 10 had a visible light transmittance of 1.5%, and the other conditions were the same as those in Example 2 to obtain a decorative sheet of Comparative Example 3.
(Comparative Example 4)
In Comparative Example 4, the decorative sheet 10 had a visible light transmittance of 50%, and the other conditions were the same as those in Example 2 to obtain a decorative sheet of Comparative Example 4.

(Evaluation Method)
The prepared decorative sheets of Examples 1 to 4 and Comparative Examples 1 to 4 were visually evaluated for (1) "display visibility" and (2) "concealment ability."
For "display visibility," the decorative sheet 10 was placed in front of the display medium 110, and the appearance of the pattern of the pattern layer 30 from the outermost surface of the decorative sheet 10 was evaluated when the display medium 110 was displayed.
Similarly, for "concealment ability," the decorative sheet 10 was placed in front of the display medium 110, and the appearance of the color of the display medium 110 transmitted through the top surface of the decorative sheet 10 on the display medium 110 when not in display was evaluated.

(Evaluation Criteria)
Regarding "display visibility," it was evaluated on a two-level scale of "○" and "×," with "○" indicating that the pattern of the pattern layer 30 was visible from the outermost surface of the decorative sheet 10 and "×" indicating that the pattern of the pattern layer 30 was unclear.
The "concealment ability" was also evaluated on a two-level scale of "○" and "×", with "○" indicating that the color of the display medium 110 was not visible through the light and "×" indicating that the color of the display medium 110 was visible through the light.

(Evaluation Results)
The results are shown in Table 1.

In Examples 1 to 4, both the "display visibility" and the "concealment" were rated as "good", and the samples were passed.
In contrast, in Comparative Examples 1 to 4, at least one of "display visibility" and "concealment" was rated "x", and the samples were unsuccessful.
In Comparative Example 1 and Comparative Example 2, both the "display visibility" and the "concealment ability" were rated "x".
This is presumably because the concealing layer 40 was not provided.

In Comparative Example 3, the "concealment ability" was rated "good", but the "display visibility" was rated "poor".
This is presumably because the visible light transmittance of the decorative sheet 10 in Comparative Example 3 was 1.5%, which was too low compared to the visible light transmittance of Example 3, which was 2%.
In Comparative Example 4, the "display visibility" was rated "good", but the "concealment ability" was rated "poor".
This is presumably because the visible light transmittance of the decorative sheet 10 in Comparative Example 4 was 50%, which was too high compared to the visible light transmittance of Example 4, which was 40%.
As a result, it can be estimated that the appropriate visible light transmittance of the decorative sheet 10 is 2% to 40%.

REFERENCE SIGNS LIST 10 Decorative sheet 20 Transparent sheet substrate 30 Design layer 40 Concealing layer 41 Opening 50 Protective layer 100 Display panel 110 Display medium 120 Construction wall 130 Support 131 Window 132 Transparent plate A Display medium side B Observation side

Claims (8)

It can be used on the front surface of a display medium, or on the front surface of a display panel that combines the display medium with a support that supports it,
A decorative sheet capable of displaying an image by transmitting image light projected from the display medium to an observation side,
The decorative sheet has at least a transparent sheet substrate, and a pattern layer and a concealing layer printed on both sides or one side of the transparent sheet substrate,
The pattern layer is located on the observation side,
The concealing layer includes a colored layer printed with a colored ink containing a pigment and having light transmittance;
a plurality of openings, which are interspersed among the colored layers and to which no pigment is applied;
The decorative sheet has a visible light transmittance of 2 to 40%,
The decorative sheet , wherein the colored layer is a layer printed with a white ink containing titanium oxide as the pigment . The decorative sheet according to claim 1, characterized in that the opening ratio of the openings is 2 to 40%. The decorative sheet according to claim 1 or 2, characterized in that the concealing layer has an overall visible light transmittance of 10 to 70%, including the colored layer and the opening. The decorative sheet according to any one of claims 1 to 3, characterized in that the decorative sheet has a protective layer on the outermost surface on the observation side. 5. The decorative sheet according to claim 4, wherein the protective layer is in contact with only the design layer. It can be used on the front surface of a display medium, or on the front surface of a display panel that combines the display medium with a support that supports it,
A method for manufacturing a decorative sheet capable of displaying an image by transmitting image light projected from the display medium to a viewing side, comprising the steps of:
A step of printing a picture layer on the back surface of the transparent sheet substrate, the back surface being located on the display medium side;
and printing a concealing layer on the design layer.
The concealing layer includes a colored layer printed with a colored ink containing a pigment and having light transmittance;
a plurality of openings, which are interspersed among the colored layers and to which no pigment is applied;
The decorative sheet has a visible light transmittance of 2 to 40%,
2. A method for producing a decorative sheet, wherein the colored layer is a layer printed with a white ink containing titanium oxide as the pigment . It can be used on the front surface of a display medium, or on the front surface of a display panel that combines the display medium with a support that supports it,
A method for manufacturing a decorative sheet capable of displaying an image by transmitting image light projected from the display medium to a viewing side, comprising the steps of:
A step of printing a concealing layer on a surface of the transparent sheet substrate located on the observation side;
and printing a design layer on the concealing layer.
The concealing layer includes a colored layer printed with a colored ink containing a pigment and having light transmittance;
a plurality of openings, which are interspersed among the colored layers and to which no pigment is applied;
The decorative sheet has a visible light transmittance of 2 to 40%,
2. A method for producing a decorative sheet, wherein the colored layer is a layer printed with a white ink containing titanium oxide as the pigment . Further comprising a step of forming a protective layer on the design layer,
The method for manufacturing a decorative sheet according to claim 7, wherein the protective layer is in contact with only the design layer.

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