JP2009069550A - Information display member - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information display member capable of observing a reflection image and a projection image and concealing back ground etc. on the opposite side of a half mirror as viewed from an observer. <P>SOLUTION: The information display member is configured such that a transmission type screen 4 and a light-shielding layer 3 formed with a mixed pattern of light transmission parts 31 and light-shielding parts 32 are disposed on one side surface of the half mirror 2. Preferably, the information display member is configured such that the area proportion of the light-shielding part 32 in the light-shielding layer 3 falls into the range of 20 to 80%. Further, it is preferable that the light-shielding layer 3 has a dot-type structure. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an information display member capable of displaying not only a reflected image but also various information on a mirror surface.

  Mirrors vary in various places, such as a place to check appearances such as a washroom or a bathroom, a place to check products such as a clothing store, a place where general people gather such as beauty salons, barbers, and pillars of buildings. It is used for various purposes. In addition, half mirrors that can be seen through the front side of the mirror through the back are used as sun visors in buildings and passenger car windows, and installed in stores for crime prevention purposes.

  However, until now, the mirror only reflected the reflected image. For example, when the same mirror is seen every day, such as a mirror on a washbasin at home, only the same reflected image can be seen every day. On the other hand, if additional information other than the reflected image, such as the weather forecast or news for the day, can be displayed on the surface of the mirror, the user can display different information every day in addition to the reflected image on the mirror surface. Obtainable. Moreover, if additional information other than the reflected image can be displayed on the surface of the mirror, a great advertising effect can be expected in a place where many people gather.

  In order to solve this problem, a transmissive hologram screen and a half mirror are overlapped to form a display member, and a means for projecting an image on the display member with a projector (Patent Document 1), a transmissive type having a light scattering layer Means (Patent Documents 2 and 3) for forming a display member by overlapping a screen and a half mirror and projecting an image on the display member with a projector have been proposed. According to the means of these patent documents 1 to 3, the user can observe the projected video together with the reflected image.

JP 2003-66536 A JP 2006-145645 A JP 2006-330011 A

  However, since the hologram screen of Patent Document 1 has excellent transparency, the observer can see the reflected image and the projected image, and the observer of the display member unless the other side of the display member is darkened. The opposite side is visible and there is a problem that the targeted visual effect cannot be obtained. In addition, there is a problem that the hologram screen is difficult to use due to angle limitations in projection.

  Patent Documents 2 and 3 have a transmissive screen having a light scattering layer. The light scattering layer generally diffuses light forward and backward and is opaque to white, so that it is difficult for an observer to see the opposite side of the display member from the observer. However, although objects and people far away from the light scattering layer cannot be seen, shadows are faintly seen on objects very close to the light scattering layer, and the targeted visual effect cannot be obtained.

  Then, an object of this invention is to provide the information display member which can acquire the aimed visual effect.

  The information display member of the present invention that solves the above-described problems is characterized in that it has a transmissive screen and a light shielding layer composed of a mixed pattern of a light transmission part and a light shielding part on one surface of the half mirror. Is.

  The information display member of the present invention is characterized in that the area ratio of the light shielding portion in the light shielding layer is 20 to 80%.

  The information display member of the present invention is characterized in that the transmissive screen and the light shielding layer are provided in this order on one surface of the half mirror.

  Since the information display member of the present invention has the transmission screen on the half mirror, the reflected image and the projected image can be observed simultaneously. Furthermore, since the information display member of the present invention has a light shielding layer, even if an object is very close to the light scattering layer of the transmission screen, the object shadow is hardly visible, and the visibility of the reflected image and the projected image is two. Is not hindered.

  The information display member of the present invention is characterized in that it has a transmissive screen and a light shielding layer composed of a mixed pattern of a light transmission part and a light shielding part on one surface of the half mirror. Hereinafter, embodiments of the information display member of the present invention will be described.

  1 and 2 are sectional views showing an embodiment of the information display member 1 of the present invention. In FIG. 1 and FIG. 2, on one surface of the half mirror 2, a light-transmitting screen 4 composed of a transparent substrate 41 and a light scattering layer 42, and a light-shielding layer 3 composed of a mixed pattern of light-transmitting portions 31 and light-shielding portions 32. It has the composition which has. FIG. 3 is a diagram showing a usage state of the information display member 1 of the present invention, and shows a state in which the projection light 51 is projected from the projector 5 on the information display member 1. 4 to 6 are plan views or cross-sectional views showing an embodiment of the light shielding layer 3.

  The half mirror reflects a part of incident light and transmits a part thereof. Such a half mirror can be obtained by forming a metal thin film or a dielectric multilayer film on a transparent substrate, and a conventionally known one can be used. The reflectance and transmittance of the half mirror can be adjusted by the type and thickness of the metal thin film or dielectric multilayer film, the number of layers to be laminated, and the like. A general half mirror has a reflectance of 10 to 60% and a transmittance of about 5 to 60%. In the present invention, the reflectance of 40 to 60% is used to make it difficult to see the opposite side of the display member from the observer. The transmittance is preferably 5 to 20%.

  The transmissive screen has a role of forming and scattering an image projected from the projector, and also has a role of making it difficult to see the opposite side of the display member from the observer. Such a transmission screen is composed of at least a light scattering layer. The light scattering layer is mainly composed of fine particles and a transparent binder.

  The transparent binder is not limited to a solid and may be a fluid such as a liquid or a liquid crystal as long as it is transparent and can uniformly hold fine particles. However, in order to maintain the shape of the transmissive screen with a single light scattering layer, glass or a polymer resin is preferable, and a polymer resin is preferable from the viewpoint of handleability and dispersion stability.

  The glass is not particularly limited as long as the light transmittance of the light scattering layer is not lost, but generally includes an oxide glass such as silicate glass, phosphate glass, and borate glass. .

  The polymer resin is not particularly limited as long as the light transmission property of the light scattering layer is not lost. Polyester resin, acrylic resin, acrylic urethane resin, polyester acrylate resin, polyurethane acrylate resin, epoxy acrylate resin Resin, urethane resin, epoxy resin, polycarbonate resin, cellulose resin, acetal resin, vinyl resin, polyethylene resin, polystyrene resin, polypropylene resin, polyamide resin, polyimide resin, melamine resin, Thermoplastic resins such as phenolic resins, silicone resins, and fluorine resins, thermosetting resins, ionizing radiation curable resins, and the like can be used.

  As fine particles to be included in the transparent binder, inorganic fine particles such as silica, alumina, talc, zirconia, zinc oxide and titanium dioxide, and organic fine particles such as polymethyl methacrylate, polystyrene, polyurethane, benzoguanamine and silicone resin are used. can do.

  The particle diameter of the fine particles is preferably 1 to 20 μm in average particle diameter. Further, the particle size distribution of the fine particles may be monodispersed or polydispersed, but is preferably monodispersed from the viewpoint of further improving the sharpness of the image.

  The transmission screen may be composed of a single light scattering layer, or may have a light scattering layer on a transparent substrate such as a plastic film or glass.

  Moreover, as an optical characteristic of a transmissive screen, haze (JIS K7136: 2000) is preferably 60% or more, and more preferably 80% or more. By setting the haze to 60% or more in this way, the viewing angle of the image projected from the projector can be made sufficiently wide, and the side opposite to the viewer of the display member can be made difficult to see. Further, if the haze is too high, the total light transmittance tends to decrease and the projected image tends to become dark, so the upper limit of haze is preferably 95%. The haze can be set to the above-described range by appropriately adjusting the content of fine particles contained in the light scattering layer and the thickness of the light scattering layer. In the transmission screen of the present invention, the total light transmittance (JIS K7361-1: 1997) is preferably 70% or more.

  The light shielding layer has a role of making the effect of the light scattering layer (an effect of making it difficult to see the side opposite to the viewer of the display member) more satisfactory. In other words, when a transmissive screen is provided on one side of the half mirror, objects or persons far away from the light scattering layer will not be visible, but shadows will be blurred in objects that are very close to the light scattering layer. However, by further providing a light-shielding layer, the brightness of the object on the light-shielding layer side (B side in FIG. 3) of the half mirror seen through the display member is higher than the brightness on the surface side (A side in FIG. 3) of the half mirror. The object on the B side from the surface side (A side in FIG. 3) of the half mirror can be made more difficult to see.

  The above effect is the same when the projector projects from the B side. That is, even when projected by the projector, the light of the projector itself is bright, but unless the projector light illuminates the object on the B side, the brightness of the object on the B side as viewed from the A side is darker than the A side. It is because it does not change.

  In order to obtain the above effect, means for increasing the haze of the light scattering layer to near 100% or reducing the total light transmittance without using a light shielding layer can be considered. However, in the case of such a configuration, the transmittance is uniformly reduced, the display becomes dark, and the screen gain (SG value) is lowered. On the other hand, in the case of the light shielding layer used in the present invention, since the transmittance of the light transmitting portion does not decrease when viewed microscopically, it is difficult to decrease the display brightness and the SG value.

  The light shielding layer includes a mixed pattern of light transmitting portions and light shielding portions. For example, as shown in FIG. 4, an infinite number of light shielding portions 32 are arranged in the light transmitting portions 31, or the light transmitting portions 31 in FIG. 4. And the light shielding portion 32 inverted (hereinafter, the type in which FIG. 4 and FIG. 4 are reversed is referred to as a halftone dot type), as shown in FIG. 6 having a plurality of protrusions composed of a light transmitting surface (light transmitting portion 31) and a light shielding surface (light shielding portion 32) as shown in FIG. 6 (the type shown in FIG. 6 is a louver type). Etc.). Moreover, although not shown in figure, what formed many holes used as a light transmissive part in the sheet-like material which has light-shielding property may be used. Among these, a halftone dot type that is excellent in the visibility of the projected image and that does not limit the viewing angle of the image is preferable. In each drawing, the width, diameter, shape, interval, etc. of the light shielding portion are the same in the drawings, but these conditions may be changed in some places in the light shielding layer. Moreover, the shape of the light-shielding part shown in the figure is an example, and is not limited to this shape. For example, in the case of FIG. 4, the light shielding portions 32 may have different sizes, and the shape of the light shielding portions 32 may be other shapes such as a quadrangle.

  The area ratio of the light shielding portion of the light shielding layer is preferably 20 to 80%, and more preferably 40 to 60%. By setting it to 20% or more, it is possible to darken the light shielding layer side (B side in FIG. 3) of the information display member and make it difficult to see the light shielding layer side from the half mirror side (A side in FIG. 3). By making the following, it is possible to prevent the projected image from becoming too dark.

  The size of the light transmission part of the light shielding layer (diameter in the case of FIG. 4, width in the case of FIG. 5, length in the height direction of the light transmission surface in the case of FIG. 6) is preferably 0.50 mm or less. . By setting it as such a range, the light shielding layer side can be made difficult to see from the half mirror side of the information display member. Moreover, it is preferable that the minimum of the magnitude | size of a light transmissive part shall be about 0.01 mm.

  The light shielding portion of the light shielding layer is mainly formed from a polymer resin and a colorant. Examples of the polymer resin include the same as those exemplified for the light scattering layer. Examples of the colorant include black dyes and pigments such as carbon black, graphite and titanium black, and metal powders such as aluminum and silver. The light transmitting portion may be made of a polymer resin or the like, but there may be nothing in the case where the light transmitting portion corresponds to a hole portion.

  The information display member of the present invention may be in the order of half mirror-transmissive screen-light-shielding layer or in the order of half-mirror-light-shielding layer-transmissive screen, but the former order is preferred. By using the former order, the light-shielding pattern of the light-shielding layer when viewed from the half mirror side can be made difficult to see due to the light scattering effect of the transmissive screen, and the information display member can be compared with the latter because of the contrast. It is possible to make it difficult to see the background on the light shielding layer side from the half mirror side. In the information display member of the present invention, the transmissive screen and the light shielding layer may be simply overlaid on the half mirror, or may be bonded with an adhesive.

  The information display member as described above is used by being projected by a projector from the side opposite to the half mirror. When projecting, it may be projected on the entire surface of the information display member, or may be projected on a part thereof. By using in this way, an observer on the half mirror side can observe his / her reflection image and the projected image by the projector at the same time, and objects on the opposite side of the half mirror are not seen. In addition, since the transmissive screen also scatters light backward, it can be projected by a projector from the half mirror side.

  The following examples further illustrate the present invention. “Parts” and “%” are based on weight unless otherwise specified.

[Example 1]
On one side of a half mirror (New Magic Mirror: Hosaka Glass Co., Ltd., transmittance 8%, film surface reflectance about 50%), a halftone dot type light shielding layer (AK Tinto: Kimoto Co., 150 lines, light shielding area ratio) 20%) and a transmission type screen (Dirad Screen GS: Kimoto Co., Haze 92%) were stacked in this order, and the periphery was fixed with a frame to obtain the information display member of Example 1.

[Examples 2 to 7]
Example 1 except that the light shielding layer of Example 1 was changed to a light shielding layer with an area ratio of 30%, 40%, 50%, 60%, 70%, and 80% (AK Tinto: Kimoto Co., 150 lines). Similarly, the information display member of Examples 2-7 was obtained.

[Examples 8 to 14]
Information display members of Examples 8 to 14 were obtained in the same manner as in Examples 1 to 7, except that the order of the transmissive screens and the light shielding layers of Examples 1 to 7 was changed.

[Comparative Example 1]
An information display member of Comparative Example 1 was obtained in the same manner as in Example 1 except that the light shielding layer was removed from Example 1.

  Images were projected on the information display members of Examples 1 to 7 thus obtained from the side opposite to the half mirror by a projector, and observed from the half mirror side. As a result, any of Examples 1 to 7 can observe two images, a reflected image of the observer and a projected image, and in particular, those of Examples 1 to 5 have a bright projected image and excellent visibility. Met. Moreover, when a person approaches the light-shielding layer side of the information display members of Examples 1 to 7, it is difficult to recognize a human figure from the half mirror side in any case. Particularly, those in Examples 3 to 7 are in contact with a person. It was difficult to recognize people even when approaching to the extent.

  Next, similarly to Examples 1 to 7, images were projected on the information display members of Examples 8 to 14 by a projector from the side opposite to the half mirror, and observed from the half mirror side. As a result, in Example 8, it was more difficult to recognize a human figure than in Example 1, and the light shielding pattern of the light shielding layer was not visible even when approaching the half mirror side (hereinafter referred to as Examples 9 to 14). The relationship with Examples 2-7 is also the same).

  Next, as in Examples 1 to 7, an image was projected on the information display member of Comparative Example 1 from the side opposite to the half mirror by a projector, and observation was performed from the half mirror side. As a result, although two images of the observer's reflection image and the projected image could be observed, a human figure was seen when a person approached the opposite side of the half mirror.

Sectional drawing which shows one Example of the information display member of this invention Sectional drawing which shows the other Example of the information display member of this invention The figure which shows one Example of the use condition of the information display member of this invention The top view which shows one Example of a light shielding layer The top view which shows the other Example of a light shielding layer Sectional drawing which shows the other Example of a light shielding layer

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Information display member 2 ... Half mirror 31 ... Light transmission part 32 ... Light shielding part 33 ... Transparent base material 3 ... Light shielding layer 41 ... Transparent base material 42 ... Light scattering layer 4 ... Transmission screen 5 ... Projector 51 ... Projection light

Claims (3)

  An information display member comprising a transmissive screen and a light shielding layer comprising a mixed pattern of a light transmission part and a light shielding part on one surface of the half mirror.   The information display member according to claim 1, wherein an area ratio of the light shielding portion in the light shielding layer is 20 to 80%.   The information display member according to claim 1, wherein the transmissive screen and the light shielding layer are provided in this order on one surface of the half mirror.

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