JP4259829B2 - Image display - Google Patents

Description

【図面の簡単な説明】
【図１】 本発明の光透過着色フィルムの一例の模式的断面図である。
【符号の説明】
１０：光透過着色フィルム、１：第１光透過層、２：第２光透過層、３：ベース層[0001]
BACKGROUND OF THE INVENTION
  The present inventionImproved,Light transmissive colored film (colored film having light transmittance) provided with a layer containing a black colorant or a dark colorantImage display usingAbout.
  The present inventionUsed inThe light-transmitting colored film illuminates one main surface with white light in a dark environment and looks almost white when the transmitted light is viewed from the other main surface. When the other main surface is viewed under reflection conditions, it has excellent concealment.
  The present inventionUsed inLight transmissive colored film is useful as a light transmissive concealing film, and is used by placing it on the surface of image display bodies such as internally illuminated signs, signs, and guide plates.YouThe In this way, a hidden image that cannot be seen when the inner light is turned off can be seen when the inner light is turned on, and a variable image display can be easily manufactured.
[0002]
[Prior art]
Conventionally, colored films such as marking films containing coloring materials such as dyes and pigments have been used to form images composed of characters and designs on the surface of image display bodies such as signs, signs, and guide plates. Has been. The colored film is a film including at least one colored layer including a polymer and a coloring material dispersed in the polymer. Increasing the content of the coloring material in the colored layer increases the concealability of the colored film. Conversely, when the content of the coloring material is reduced to an appropriate range, the colored film becomes translucent. This translucent film is used by being placed on the surface of an internally illuminated image display.
[0003]
An example in which a colored film containing a black coloring material (for example, a black pigment such as carbon black) is used on the surface of an internally illuminated image display body is disclosed in, for example, JP-A-9-31633. ing. In this publication, a polymer film containing 0.4 to 0.7 parts by weight of carbon black with respect to 100 parts by weight of a light-transmitting synthetic polymer, the light transmittance is 40 to 50%, A light transmissive colored film (light transmissive colored film) is disclosed. This colored film is useful for forming a light-transmitting cut character on the display surface of the internally illuminated sign.
For example, a cut character produced by cutting out a colored film is bonded to the surface of a base layer made of a light-transmitting marker plate. A sign other than the part where the cut characters of the base layer are bonded is applied with a light color paint other than black (for example, yellow) to complete the sign. In this way, during the daytime, black characters can be seen against a light-colored background. In this case, daytime sunlight hits the surface of the base layer, and black characters are visually recognized under reflection conditions. On the other hand, when the back of the base layer is irradiated with light such as a fluorescent lamp at night under internal illumination conditions, non-black characters can be visually recognized, resulting in an image with a color tone different from that of the reflection conditions.
[0004]
International Publication No. WO 98/30998 (Japanese Patent Publication No. 2001-507821) discloses a light leakage film in which a plurality of fine holes are formed in an opaque polymer film. This light leaking film is a film obtained by perforating an opaque film comprising a black surface layer / white back layer. The content of the colorant in each layer is high, and the concealability of the portion without micropores is high. A variable image display can be manufactured by combining this light leakage film and a milky white light-transmitting base layer. For example, the light leakage film is laminated on the surface of the base layer so as to hide an image drawn with a black or dark colorant (paint, toner, ink, etc.) on the base layer. In this case, the image is difficult to see under daytime reflection conditions, and the image looks good under nighttime illumination conditions (light irradiation from the back of the base layer). In other words, it is possible to make an image hidden and visible during the daytime appear at night and change the visual image during the day and night.
[0005]
On the other hand, a metallic luster pigment is used to give the colored film a metallic appearance. For example, JP-A 2000-198944 discloses a pigment mixture containing a metallic luster pigment. Since the film containing such a pigment mixture and a polymer is usually used as a highly concealing film having a metallic appearance, the pigment content is relatively high. Therefore, it has not been used by being arranged on the surface of an internally illuminated image display.
In any of the above publications, no example is disclosed in which a light-transmitting colored film is formed by laminating two or more colored light-transmitting layers.
[0006]
[Problems to be solved by the invention]
However, the conventional light-transmitting colored film has the following points to be improved when it is used on the surface of an internally illuminated image display.
In the film containing the above-mentioned black colorant, when the content of the colorant is lowered, the light transmittance is increased, and it does not look black with high concealability under reflection conditions, but looks gray. In addition, since the concealability is low, it is disadvantageous to hide the image under the film so that it cannot be seen in the daytime when it is desired to change the visual image day and night. On the other hand, when the content of the coloring material is increased, the concealing property is enhanced, and it is effective for hiding the image under the film so that it cannot be seen in the daytime. However, the amount of transmitted light decreases under the internal illumination conditions, and a bright image as in the case where the content of the colorant is low cannot be obtained.
[0007]
Further, in the case of the above-described light leakage film, when the brightness of light hitting the base layer and the colored film surface under a reflection condition is relatively dark (for example, when used indoors), the image can be effectively concealed. . However, when the image display body is used outdoors, the image under the film is easily visually recognized under relatively bright environmental illumination (sunlight on a sunny day). In particular, it is difficult to hide the white background when drawing characters and designs on the milky white base layer, and the white background of the base layer is used as the background. It was difficult. Accordingly, an object of the present invention is a colored film having a concealing property that looks almost black or dark under reflection conditions, so that an image can be effectively displayed under the film so that it is not visible under relatively bright ambient illumination. It is an object of the present invention to provide a light-transmitting colored film, a light-transmitting concealing film using the same, and an image display body, which can be concealed and can make a bright image visible under internal illumination conditions.
[0008]
[Means for Solving the Problems]
  In order to solve the above problems, the present invention provides:An image display body comprising a light-transmitting base layer and a light-transmitting colored film disposed on the surface of the base layer,
  The light-transmitting colored film isEach includes a colored first light transmission layer and a second light transmission layer, and one main surface of the first light transmission layer and one main surface of the second light transmission layer are arranged to face each other. From the laminated bodyBecome(A) the first light transmission layer contains a polymer and a metallic luster pigment dispersed in the polymer; and (b) the second light transmission layer is dispersed in the polymer and the polymer. Light transmissive colored film containing a black or dark colorantIs,Provide an image display.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
[Action]
The light transmissive colored film of the present invention comprises two colored light transmissive layers as essential elements. The first light transmission layer includes a polymer and a metallic luster pigment dispersed in the polymer, and the second light transmission layer includes a polymer and a black or dark colorant dispersed in the polymer. Containing. One main surface (for example, the front surface) of the first light transmission layer and one main surface (for example, the back surface) of the second light transmission layer are arranged to face each other. The interaction of these two light-transmitting layers provides high hiding so that it appears almost black (dark) under reflective conditions, and effectively images under the film so that it cannot be seen under relatively bright ambient lighting. At the same time it can be hidden, bright images are visible under internal lighting conditions.
[0010]
The first light-transmitting layer enhances the concealability by suppressing the decrease in light transmittance (total light transmittance) with respect to the light transmitted through the light-transmitting colored film by the action of the metallic luster pigment present in a dispersed state. It works in the same way. That is, under the reflection conditions, the first light transmission layer exhibits the effect of reinforcing the concealment performance of the second light transmission layer by the action of the metallic luster pigment that exists in a dispersed state. Under the internal lighting conditions, the metallic luster pigment of the first light transmission layer reflects without absorbing light, and transmits the light incident on the first light transmission layer well, so that the light transmission coloring film emits light. Works. Hereinafter, such an operation will be described in detail.
[0011]
The light-transmitting colored film of the present invention is used, for example, in a state where the other main surface (for example, the surface) of the second light-transmitting layer is visible to an observer and laminated on the base layer. The base layer is made of a light transmissive plate or film.
Thus, the case where a light transmission colored film is used on reflection conditions is demonstrated. Part of the light irradiated to the second light transmission layer is transmitted through the second light transmission layer, and the remaining light is absorbed by the black or dark colorant. Part of the light transmitted through the second light transmission layer is reflected at the interface between the second light transmission layer and the first light transmission layer, and the remaining light reaches the first light transmission layer. A part of the light reaching the first light transmission layer is reflected by the metallic luster pigment toward the second light transmission layer, and the remaining light reaches the interface between the first light transmission layer and the base layer. Reflection also occurs at this interface, and the amount of light reaching the base layer is effectively reduced, and the light-transmitting colored film appears almost black and exhibits high hiding performance.
[0012]
On the other hand, the operation when the light-transmitting colored film is used under internal illumination conditions will be described as follows. When white light is back-lit from the back side of the base layer under internal lighting conditions, that is, in a relatively dark environment (for example, at night), the light source is relatively close to the light-transmitting colored film. Under such conditions, the amount of light traveling from the outside into the light-transmitting colored film is greater than in the reflection condition. Accordingly, the amount of light transmitted through the light transmissive colored film is increased. Moreover, since the metallic luster pigment of the first light transmission layer diffuses without absorbing light, the light transmission colored film emits bright light and looks almost white.
[0013]
In the above case, an image is placed on the base layer, and the light transmission colored film is placed on the surface of the base layer with the other main surface of the first light transmission layer facing the image so as to cover the image. Can be placed and used. In such a case, when back illumination is performed from the back side of the base layer in a relatively dark environment, the image is viewed brightly when the other main surface of the second light transmission layer is viewed. On the other hand, when the other main surface of the second light transmission layer is viewed in a relatively bright environment (for example, in the daytime) without performing the back lighting, the high concealment performance is exhibited as described above. Therefore, the image is hidden and hardly visible. The image is preferably formed using a black colorant. This is because it is advantageous for enhancing the image hiding effect. Similarly, when the second light-transmitting layer contains a dark colorant (not black), the light-transmitting colored film exhibits high hiding performance and appears to emit light brightly due to light scattering of the metallic luster pigment. However, since the dark color material of the second light transmission layer is directly visually recognized under the reflection condition, when the dark color material is other than black, the light transmission color film looks in that color (dark color).
[0014]
In the reflection condition, when it is desired to make the light-transmitting colored film appear black or dark, it is preferable to use the second light-transmitting layer so that the second light-transmitting layer can be seen as described above. It is also possible to use the two light transmission layers by exchanging their positions (front and back). Even in this manner, the light-transmitting colored film exhibits high hiding performance and appears to emit bright light due to light scattering of the metallic luster pigment. However, when the light-transmitting colored film is viewed under reflection conditions, the metallic luster pigment of the first light-transmitting layer is directly visually recognized, so the appearance is different from the above case, and the visual color is metallic.
[0015]
(Light transmission colored film)
A suitable example of the light-transmitting colored film of the present invention will be described with reference to FIG. FIG. 1 is a cross-sectional view schematically showing a form in which the light-transmitting colored film of this example is arranged on the surface of the base layer. The light transmissive colored film (10) includes a first light transmissive layer (1) on the base layer (3) side and a second light transmissive layer (2) in close contact with the front surface of the first light transmissive layer (1). ).
[0016]
The first light transmission layer (1) and the second light transmission layer (2) are usually bonded via an adhesive layer (not shown). The adhesive for the adhesive layer is not particularly limited, and is usually a pressure-sensitive adhesive (also referred to as an adhesive) containing a tacky polymer, a thermally active adhesive, a hot melt adhesive, or the like. For example, the adhesive layer containing a pressure sensitive adhesive is a pressure sensitive adhesive film in the form of a single layer film containing a tacky polymer. The adhesive may be cured by radiation or heat.
The refractive index of the adhesive polymer is preferably smaller than the refractive index of the light transmissive layer polymer. Under reflection conditions, a part of the light transmitted through one transmission layer is reflected at the interface between the first light transmission layer and the second light transmission layer, and the amount of light reaching the other light transmission layer is reduced. Therefore, it is advantageous to improve the concealment performance of the light transmission colored film. Such a polymer combination is, for example, a combination in which the polymer of the light transmission layer is polyvinyl chloride and the polymer of the adhesive is an acrylic polymer. In addition, as long as the effect of this invention is not impaired, you may add a pigment and dye to a contact bonding layer.
[0017]
The polymer of the first light transmission layer is preferably a highly transparent polymer such as the above-mentioned polyvinyl chloride, polyurethane, polycarbonate, polyester, polyvinyl acetate, or polyolefin. A polymer containing an epoxy resin or a phenoxy resin can also be used. The polymer of the second light transmission layer can be the same as the polymer of the first light transmission layer, and may be the same as or different from the polymer of the first light transmission layer.
[0018]
The metallic luster pigment is, for example, flaky or scaly metal particles. As the metal, aluminum, nickel, silver or the like is preferable.
The content of the metallic luster pigment is usually 0.01 to 3.0 parts by mass, preferably 0.1 to 1.5 parts by mass, particularly preferably 0. It is 15-1.0 mass part. If the amount is too small, the concealment performance may be lowered. On the other hand, if the amount is too large, the light transmittance may be lowered, and a bright image may not be visible under the internal lighting conditions.
[0019]
The colorant is preferably a pigment. An example of the black colorant is a black pigment. Examples of the pigment are carbon black, black titanium oxide and the like. Examples of carbon black are thermal black, ketjen black, furnace black, acetylene black, and the like.
The content of the black colorant varies depending on the hiding power of the colorant, but is suitably determined so that the light transmittance of the second light transmission layer is in an optimal range (details will be described later). Usually, with respect to 100 parts by mass of the polymer of the light transmission layer, usually 0.01 to 3.0 parts by mass, preferably 0.1 to 1.5 parts by mass, particularly preferably 0.2 to 1.0 parts by mass. Part. If the amount is too small, the concealment performance may be lowered. On the other hand, if the amount is too large, the light transmittance may be lowered, and a bright image may not be visible under the internal lighting conditions.
[0020]
In addition to a black colorant, a colorant having a low brightness (a dark colorant), for example, a dark color pigment, can also be used. As the dark pigment, a pigment having a low brightness, for example, a high-temperature fired metal oxide can be used. Examples of the metal include iron, manganese, copper, and chromium. The content of the dark pigment also varies depending on the hiding power of the coloring material, and it is preferable to appropriately determine the light transmittance of the second light transmission layer within the optimum range.
[0021]
Each light transmission layer can be manufactured as follows, for example. A coating material (a paste or paint) containing a polymer and a colorant or pigment dispersed in the polymer can be applied on a release surface of a process substrate such as a liner and solidified to form. A normal coater, for example, a bar coater, a knife coater, a roll coater, a die coater or the like can be used for the coating apparatus. The solidification operation is a drying operation in the case of a paint containing a volatile solvent or an operation for cooling a molten polymer component. Further, it can be formed by a melt extrusion molding method.
The first and second light-transmitting layers are usually formed separately and then brought into close contact with each other via an adhesive. On one light-transmitting layer, the other light-transmitting layer coating is applied and solidified. Then, the two layers may be in direct contact with each other.
[0022]
The total thickness of the light-transmitting colored film is usually 20 to 300 μm, preferably 40 to 200 μm, particularly preferably 40 to 120 μm. If the thickness is too thin, the concealment performance may be reduced. On the other hand, if the thickness is too thick, the light transmittance may be reduced, and a bright image may not be visible under internal illumination conditions. The thickness of the first light transmission layer is usually 10 to 150 μm, preferably 20 to 100 μm, particularly preferably 25 to 60 μm. The thickness of the second light transmission layer is usually 10 to 150 μm, preferably 20 to 100 μm, particularly preferably 25 to 60 μm.
[0023]
The light transmittance of the entire light-transmitting colored film is usually 10 to 35%, preferably 12 to 33%, particularly preferably 15 to 30%. If the light transmittance is too high, the concealment performance may be lowered. On the other hand, if the light transmittance is too low, a bright image may not be visible under the internal lighting conditions.
The light transmittance of the first light transmission layer is usually 60 to 90%, preferably 65 to 88%, particularly preferably 70 to 85%. If the light transmittance is too high, the concealment performance may be lowered. On the other hand, if the light transmittance is too low, a bright image may not be visible under the internal lighting conditions.
The light transmittance of the second light transmission layer is usually 10 to 40%, preferably 15 to 35%, particularly preferably 20 to 30%. If the light transmittance is too high, the concealment performance may be lowered. On the other hand, if the light transmittance is too low, a bright image may not be visible under the internal lighting conditions.
In addition, the "light transmittance" in this specification means the total light transmittance measured using a spectrophotometer or a haze meter that also has a photometer function and using 550 nm light.
[0024]
A transparent protective film may be disposed on the surface of the light transmission colored film. The protective film is preferably a polymer film containing a highly transparent polymer. The polymer of the polymer film is, for example, a fluorine polymer, a phthalate polyester (PET, PEN, etc.), an acrylic polymer, or the like. The fluorine-based polymer is a polymer obtained by polymerizing a fluorine-based monomer. Moreover, in order to provide a protective film with antifouling property and self-cleaning property, a coating film containing a hydrophilizing agent can be formed on the surface of the protective film. In addition, the thickness of a protective film is 5-100 micrometers normally.
[0025]
(Base layer)
As the base layer, a sheet, a film, a plate or the like for forming the image display part of the internally illuminated signboard can be used. For example, a scrim made of a synthetic fiber fabric can be used. The fiber is usually a fiber made of a synthetic resin such as polyester, polyamide, polyolefin, or polyaramid, and is a fiber composed of continuous yarn. Moreover, the sheet | seat which consists of a multilayer transparent film formed by bonding together the several layer of a resin sheet can also be utilized. Such a sheet has, for example, a structure in which rigid polyester (or copolyester) layers and ductile polymer material layers are alternately laminated. The rigid polyester is polyethylene terephthalate and the ductile polymer material is (1) a reaction product of terephthalic acid, sebacic acid and ethylene glycol, (2) a reaction product of terephthalic acid, sebacic acid and cyclohexanedicarboxylic acid, (3) It may be selected from the group consisting of 1,4-cyclohexanedicarboxylic acid, the reaction product of 1,4-cyclohexanedimethanol and polytetramethylene ether glycol, and (4) polyethylene co- (co) vinyl acetate.
[0026]
Characters and designs included in the image on the surface of the base layer can be formed of a coloring material. The colorant is usually toner or ink. Alternatively, the colored marking film may be cut into a shape representing a character or a design and adhered to the surface of the base layer. When toner or ink is used, characters and designs may be drawn on the surface of the base layer using a normal printing method such as electrostatic printing or inkjet printing. The colorant is usually light transmissive, but a material having almost no light transmissive property can also be used. Further, an image may be formed using a luminous pigment ink.
[0027]
Moreover, you may make it have a character and a design inside a light transmissive coloring film. For example, a cut character is formed in one of the first and second light transmissive layers, and the cut character is bonded to the front or back surface of the other light transmissive layer. In this case, in order to improve the concealment property of the image, it is necessary to manufacture the image display body such that the cut-out light transmission layer is positioned between the non-cut-off light transmission layer and the base layer. good. In such a case, when the cut character is formed by the first light transmission layer, the same metallic luster pigment as the first light transmission layer is contained between the cut light transmission layer and the second light transmission layer. Layers may be placed.
[0028]
The image display body of the present invention can be used, for example, as a structural member such as an internally illuminated signboard, a sign, or a guide plate. As the back illumination, a light box incorporating a light source such as a fluorescent lamp, an electroluminescence element, a phosphorescent film, or the like can be used. The illumination intensity of the back lighting is usually 100 to 20,000 cd / m², Preferably 500 to 5,000 cd / m²It is. The illuminance of the back lighting is better to brighten the light-transmitting colored film, but if it is too high, the lighting device will be too large, or the amount of heat generated by the lighting device will be too large, causing the image display and the illumination to illuminate. The combination with the device may not be suitable for use as an interior lighting signboard or the like. In order to make the light-transmitting colored film appear white, it is preferably 3,000 cd / m.²It is good to irradiate white light with the above illuminance.
[0029]
【Example】
Example
(1) Production of black light transmission layer (second light transmission layer):
A paste containing a vinyl chloride polymer containing a plasticizer and carbon black dispersed in the polymer is applied onto the peeled process substrate so as to have a dry thickness of 40 μm and dried. A transparent black layer was produced. The content of carbon black was 0.5 parts by mass with respect to 100 parts by mass of the vinyl chloride polymer. The process substrate was a polyethylene terephthalate film having a thickness of 50 μm. The carbon black was “Raven ™ 1200” from Columbian Chemicals.
The light transmittance of this black light transmission layer is 27.9%, and the transmission lightness L^*Was 51.7. In addition, the measuring method of light transmittance and transmitted lightness will be described later.
[0030]
(2) Production of aluminum flake-containing layer (first light transmission layer):
In the same manner as in the above (1), it was applied so that the dry thickness was 40 μm and dried to produce an aluminum flake-containing layer. The paste contains a vinyl chloride polymer containing the same plasticizer as described above, and aluminum flakes dispersed in the polymer, and the content of aluminum flakes is 100 parts by mass of the vinyl chloride polymer. The amount was 0.2 parts by mass. Aluminum flakes were added to the paste as an aluminum flake-containing paint. This paint was “Alpaste (trademark) 54-542: solid content 70% by mass” manufactured by Toyo Aluminum Co., Ltd. The light transmittance of this aluminum flake-containing layer is 77.8%, and the transmission lightness L^*Was 88.9.
[0031]
(3) Production of light transmission colored film and image display:
The black light-transmitting layer and the aluminum flake-containing layer obtained as described above are each peeled off from the process base material and adhered to each other using a transparent acrylic adhesive, and a light-transmitting colored film having a structure as shown in FIG. Was completed. The light transmittance of this light-transmitting colored film was 23.0% when light was incident from the surface of the black light-transmitting layer and when light was incident from the surface of the aluminum flake-containing layer. . Further, the transmission lightness L^*When the light was incident from the surface of the black light transmission layer and the light was incident from the surface of the aluminum flake-containing layer, the measured value was 46.8.
[0032]
Next, this light-transmitting colored film was bonded to the surface of the light-transmitting base layer using a transparent acrylic adhesive to complete an image display having a structure as shown in FIG. The base layer was a milky white light-transmitting sheet (Panaflex: Trademark) manufactured by 3M, which is used as a light emitting member of an internally illuminated signboard.
[0033]
As shown in the figure, this image display structure was black light transmitting layer / aluminum flake containing layer / base layer from the surface. Further, an image composed of a letter “M” formed by cutting and processing a black film and a white background of the base layer was arranged on the surface of the base layer. A light transmissive colored film was placed to cover this image. Thus, the light transmission colored film of this example was used as a light transmission hiding film.
The performance of this image display was evaluated by the method described later. The evaluation results are shown in Table 1.
[0034]
(Comparative Example 1)
The base layer with an image used in Example 1 was used as it was, and an image display body of this example was evaluated in the same manner as in Example 1.
(Comparative Example 2)
In this example, a light-transmitting colored film consisting only of a black light-transmitting layer was used, an image display body of this example was produced, and evaluated in the same manner as in Example 1. The black light transmission layer was produced in the same manner as (1) of Example 1 except that the amount of carbon black was 0.6 parts by mass. This image display body structure was a black light transmission layer / base layer.
[0035]
(Comparative Example 3)
In this example, a light-transmitting colored film consisting only of a black light-transmitting layer was used, an image display body of this example was produced, and evaluated in the same manner as in Example 1. The black light transmission layer was prepared in the same manner as (1) of Example 1 except that the amount of carbon black was 0.4 parts by mass. This image display body structure was a black light transmission layer / base layer.
[0036]
(Comparative Example 4)
As the light-transmitting colored film, a light leakage film having a structure similar to that disclosed in the above-mentioned International Publication No. WO98 / 30998 is used except that “product number: PWMF (opening area ratio = 50%)” manufactured by 3M Company is used. The image display body of this example was prepared in the same manner as in Example 1, and was evaluated in the same manner as in Example 1. The light leakage film was composed of a black opaque polymer film, a white opaque polymer film, Are arranged so that the surface layer side (visible side) is black / the back side (base layer adhesion side) is white.
[0037]
<Evaluation method>
Reflection color / transmission color
The background color of the image was determined visually.
Concealment performance
It was determined by visual observation whether or not the letter “M” was visible.
Lightness L ^* And transmission lightness L ^*
The lightness of the color under the reflection condition on the surface (light transmission colored film surface) of the image display was measured with a color difference meter “product number: Σ90” manufactured by NOPON DENSHOKU. Further, the transmission brightness was measured in the same manner except that light was irradiated from the back surface of the base layer. In both cases, a D65 light source was used and measurement was performed on a circular surface having a diameter of 30 mm.
[0038]
Light transmittance [%]
The total light transmittance was measured using “Product Name: Haze mater” manufactured by NOPON DENSHOKU Co., Ltd. The light used for the measurement was irradiated from the back surface of the base layer.
Luminance [cd / m ² ]
Using a luminance meter “Part No. LS-110” manufactured by Minolta Co., Ltd., the luminance of the light transmission colored film surface of the image display body was measured under the internal illumination conditions. The light source used for internal illumination was a 40 W white fluorescent tube, and the distance between the back surface of the base layer and the light source was 30 cm. Illuminance is 3,500 cd / m²Met.
[0039]
<Consideration of evaluation results>
From the comparison between Examples and Comparative Examples, the effect of bringing the metallic luster pigment (aluminum flake) -containing layer into close contact with the black light transmission layer can be clearly seen. That is, according to the configuration of the present invention, the concealability under the reflection condition can be increased (the reflection color is black and the brightness is low), and at the same time, the transmission color under the internal illumination condition is bright and white (light transmittance and luminance are reduced). (High).
[0040]
[Table 1]

[Brief description of the drawings]
FIG. 1 is a schematic cross-sectional view of an example of a light-transmitting colored film of the present invention.
[Explanation of symbols]
10: light transmission colored film, 1: first light transmission layer, 2: second light transmission layer, 3: base layer

Claims (3)

An image display body comprising a light-transmitting base layer and a light-transmitting colored film disposed on the surface of the base layer,
The light-transmitting colored film includes a first light-transmitting layer and a second light-transmitting layer that are colored , respectively, and one main surface of the first light-transmitting layer and one main surface of the second light-transmitting layer. a laminated body surface and are arranged opposite each other,
(A) The first light transmission layer contains a polymer and a metallic luster pigment dispersed in the polymer,
(B) the second light transmission layer contains a polymer and a black or dark colorant dispersed in the polymer;
An image display body, which is a light transmission colored film. When the other main surface of the first light transmission layer is irradiated with white light at an illuminance of 3,000 cd / m ² or more at night, the other main surface of the second light transmission layer is substantially viewed. 2. The image display according to claim 1, wherein the image display body looks white when viewed from the other main surface of the second light transmission layer in the daytime without being irradiated with the white light. An imaged base layer comprising the light transmissive base layer, an image disposed on the surface thereof, and the light transmissive colored film disposed on the surface of the base layer so as to cover the image. The image display body of Claim 1 or 2 provided .

Images