JP4580584B2 - Latent image display - Google Patents

Description

【００３６】
ここで、仮に、Ａ；黄色、Ｂ；青色、Ｃ；赤色、Ｄ；白色とすると、例えば、Ｓ’方向から見た（イ）のＡとＢの混色は黄緑色、Ｓ’方向から見た（ニ）のＢとＡの混色も黄緑色であるので、「表２」のようになる。
【００３７】
【表２】

【００３８】
例えば、あるパターンを（ロ）の位置に形成した凹部の集合で形成し、パターン以外の部分を（イ）の位置に形成した凹部の集合で形成すると、Ｎ’方向からは桃色の背景中に黄緑色のパターンが見え、正反対のＳ’方向からは、黄緑色の背景中に桃色のパターンが見える。ただ、この場合、Ｗ’方向およびＥ’方向からは、背景とパターンの色の違いが無いので、パターンが見えない。
また、パターンを（ハ）の位置に形成した凹部の集合で形成し、パターン以外の部分を（イ）の位置に形成した凹部の集合で形成すると、Ｗ’方向からは水色の背景中に橙色のパターンが見え、正反対のＥ’方向からは、橙色の背景中に水色のパターンが見える。ただ、この場合、Ｎ’方向およびＳ’方向からは、背景とパターンの色の違いが無いので、パターンが見えない。
【００３９】
あるパターンを（二）の位置に形成した凹部の集合で形成し、パターン以外の部分を（イ）の位置に形成した凹部の集合で形成すると、Ｎ’方向からは桃色の背景中に黄緑色のパターンが見え、正反対のＳ’方向からは、黄緑色の背景中に桃色のパターンが見える。さらに、この場合、Ｗ’方向からは、水色の背景中に橙色のパターンが見え、正反対のＥ’方向からは、橙色の背景中に水色のパターンが見える。
【００４０】
上記のように（ニ）の位置に形成した凹部の集合からなるパターンは、（イ）との関係において、Ｎ’方向、Ｓ’方向、Ｗ’方向、およびＥ’方向の四方向から見ることができる。
こことを利用して、あるパターンを（ロ）と（ニ）の位置の凹部とで形成し、背景を（イ）の位置の凹部で形成しておき、Ｎ’方向からは、桃色の背景中に黄緑色のパターンが見え、Ｓ’方向からは、黄緑色の背景中に桃色のパターンが見えるようにし、さらに、上記のパターンとは別のパターンを、（ハ）と（ニ）の位置の凹部とで形成すると、Ｗ’方向からは、水色の背景中に橙色のパターンが見え、正反対のＥ’方向からは、橙色の背景中に水色のパターンが見える。
従って、（イ）を背景とするときは、異なる二つのパターンの重複部の凹部を（ニ）の位置とすることが好ましい。
【００４１】
図７および図８は、背景中に二つのパターンが重複部を有して重なった表示部の作製を示す図である。
【００４２】
図７は、図６（ａ）の右側に示したものと同じ着色層３に、各単位混色区域の中心に四角錐８の中心を合わせた状態を示す。図６（ｂ）の（イ）に相当する位置である。一応、各単位混色区域の中心を、標準的な位置であるとする。
【００４３】
図６（ａ）に示す着色層３に、図６（ｂ）に、ハート形に線１１で囲み、かつ黒丸を付した個所において、このハート形を表示するために凹部を形成すべき位置を、上記の標準的な位置から、四角錐の寸法ａに対しａ／２だけ、上方にずらし、図６（ｂ）の（ロ）に相当する位置に移動させる。移動後の状態を図８（ａ）に示す。このハート形を第１のパターンとする。
【００４４】
ここで、ハート形とほぼ大きさの等しい英文字「Ｈ」（ただし、９０°回転させたものとする。）を第２のパターンとし、図８（ａ）中に線１３で囲み、かつ黒丸を付した個所において、凹部を形成すべき位置を、四角錐の寸法ａに対しａ／２だけ、右方にずらし、図８（ｂ）の状態にする。
このとき、ハート形を表示する目的でずらした凹部を形成すべき位置は、最終的には、図６（ｂ）の（ニ）の位置になり、今回、初めてずらされた凹部の位置は、（ハ）の位置になる。また、先にハート形を表示する目的でずらしたが、今回はずらさなかった凹部の位置は、（ロ）のままである。
【００４５】
図９に、以上のプロセスにより決定し、形成した凹部を塗り分けて示す。
図９中に示した（イ）〜（ニ）は、見る方向により、「表２」に示したような色が見えるものであるので、例えば、Ｎ’方向から見るとき、（イ）と（ハ）が桃色、（ロ）と（ニ）が黄緑色であり、Ｓ’方向から見るとき、（イ）と（ハ）が黄緑色、（ロ）と（ニ）が桃色のようにちょうど反転し、図１０（ａ）（ｂ）に模式的に示すように、Ｎ’方向からも、Ｓ’方向からも、ハート形の形状が見える。
また、図９中の（イ）〜（ニ）は、Ｗ’方向から見るとき、（イ）と（ロ）が水色、（ハ）と（ニ）が橙色であり、Ｅ’方向から見るとき、（イ）と（ロ）が橙色、（ハ）と（ニ）が水色のように、やはり反転し、図１０（ｃ）（ｄ）に模式的に示すように、Ｗ’方向からも、Ｅ’方向からも、９０°回転したＨの字の形状が見える。
【００４６】
より好ましい、着色層３の微細着色区域の配置、凹部の形成位置、およびこれらを利用した複数の表示、角度を変えることによるパターンの色の変化について説明したが、上記の例においても、なお、種々の変形態様をとることができる。
【００４７】
上記の例では、単位混色区域を構成する微細着色区域を、白も含めて全て異なる色としたが、Ａ、Ｂ、Ｃ、およびＤを順に、赤色、赤色、赤色、および白色としてもよく、この場合、潜像は、赤色もしくは桃色で表現されて見える。なお、白色の微細着色区域は、白色の基材の表面を利用したものであってもよい。
あるいは、Ａ、Ｂ、Ｃ、およびＤを順に、黄色、青色、赤色、および赤色としてもよく、潜像は、緑色、赤色、紫色、もしくは橙色で表現されて見える。
着色層は、通常、一様に形成するが、意匠的な都合で、着色層の半分を異なる混色にする等のバリエーションを行なってもよい。
【００４８】
潜像を凹部や凸部で形成するとき、背景を設ける必要は必ずしも無いが、背景なしで、パターンを形成すると、パターンの外形が目立ってしまうこともあり得るので、背景も含めて凹部や凸部を形成し、背景も含めた凹部もしくは凸部の形成部分の外形が特に意味を持たないようにすることが好ましい。
背景の部分においても、パターンの部分においても、凹部もしくは凸部における色は同じであるから、正面から見ただけでは、特定の凹部もしくは凸部が、いずれを形成しているかは分かりにくい。
【００４９】
本発明の潜像表示体は、紙、プラスチック、もしくは金属箔等の任意の素材のシートもしくは板状のもの、またはそれらの任意の組み合わせからなる複合体の基材の表面の一部もしくは全部に形成することができる。
基本的には、基材上に微細着色区域からなる混色の着色層を形成し、着色層上から、先端が凸部もしくは凹部となった型を用い、基材ごとＸ−Ｙテーブル上で移動させつつ刻印するか、同じ物を多量に作る場合には、必要な面積に必要な数の凸部もしくは凹部を形成した型板を形成しておいて、押し付けることにより形成することができる。
【００５０】
着色層は、通常のインキを用い、オフセット等の通常の印刷方式により形成することができる。着色層はその形成の際に精密さを要し、概ね小さい面積であるので、昇華転写等の転写法で形成してもよい。
また、着色層上には、透明な保護層を形成しておいて、摩耗を防止することができる。
【００５１】
なお、基材には、用途に応じて、任意な印刷等の装飾を施しておいてよい。また、印刷を着色層上に、潜像を表示する部分のカモフラージュのために行なってもよい。
【００５２】
本発明の潜像表示体は、以上に説明したような構造を持ち、正面からは確認できないが、角度を付けて見ることにより、潜像が背景と異なる色を呈するため、見えるようになり、確認のために特別な判定器具、判定機器を要しない特徴がある。
また、本発明の潜像表示体は、着色の構造に加えて、凹部もしくは凸部を特定の形状で、特定の位置に形成してあるものであるため、カラーコピー機やカラースキャナー等の光学的な手段のみでは不正な意図による複製が困難である。
なお、微細着色区域の色の一部もしくは全部を、可視領域以外での反射もしくは吸収を持つもので形成しておくことにより、外観的な確認のみならず、赤外領域もしくは紫外領域に感度を持つセンサーを用いての確認を行なうことも可能である。
【００５３】
本発明の潜像表示体は、不正な意図での偽装や変造が行なわれる可能性のある次のような種々の用途に、それらを構成する基材を潜像表示体の基材として、適用するか、もしくはそれらの基材に潜像表示体を貼り付ける等により適用することができる。種々の用途としては、次の様なものがある；
紙幣、商品券、株券、もしくは証券等。
運転免許証、パスポート、カード型の証書、例えば、防火、消毒もしくは防火等の保安、衛生上の資格、もしくは等級を示すもの等。
乗車券、乗船券、航空券等。
宝くじや各種のくじ、競馬・競輪等の勝馬投票券・車券等、各種催事の入場券等。
金融機関の取引明細や各種証明用途で使用されるジャーナル（例；銀行カードでの取引の際に発光される明細書）等。
値札や種別の表示用タグやラベル等。
各種パッケージ、包装紙、紙器等。
【００５４】
第１の発明によれば、四つに区分された単位混色区域の各々に微細着色区域を形成して、着色層を形成し、各単位混色区域に定められた四つの凹部もしくは凸部の形成可能な位置を選んで、凹部もしくは凸部を形成して潜像を形成するので、位置の選択により有する潜像の色や見える角度を変えることが可能な潜像表示体を提供することができる。第２の発明によれば、第１の発明の効果に加え、見える色や見える角度をパターンごとに変えた二つの潜像を有する潜像表示体を提供することができる。第３の発明によれば、第１の発明の効果に加え、パターン、および背景の各々を異なる色、異なる見える角度とした、潜像表示体を提供することができる。第４の発明によれば、第２の発明の効果に加え、互いに重複部を有する二つのパターンを、角度を変えたときに各々が重複部で損なわれることなく見える、潜像表示体を提供することができる。第５の発明によれば、第４の発明の効果に加え、背景を有しており、二つのパターンのいずれを見る際にも、角度により、背景とパターンとが異なる色で見えるため、それぞれのパターンの視認性を損なわない、潜像表示体を提供することができる。
【図面の簡単な説明】
【図１】着色層が二色の混色である潜像表示体の図である。
【図２】着色層が三色の混色である潜像表示体の図である。
【図３】着色層が四色の混色である潜像表示体の図である。
【図４】四角錐状の凸部もしくは凹部を示す図である。
【図５】円錐状の凸部もしくは凹部を示す図である。
【図６】好ましい着色層と凹部の形成位置を示す図である。
【図７】二つのパターンのうち、第１のパターンの形成を示す図である。
【図８】二つのパターンのうち、第２のパターンの形成を示す図である。
【図９】二つのパターンを形成した際の凹部もしくは凸部の位置を示す図である。
【図１０】二つのパターンの見え方を示す図である。
【符号の説明】
１ 潜像表示体
２ 基材
３ 着色層
４ 傾斜面
５ 表示部（５ａ；表示単位）
８、９ 凹部もしくは凸部
１０ 単位混色区域[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a display body having a latent image that cannot be seen in a normal state but allows a pattern of a color different from the ground color to be seen by changing the observation angle. The present invention also relates to a display body having a latent image in which the above pattern appears to be colored in two or more different colors by changing an observation angle.
[0002]
[Prior art]
Various types of methods are known as attempts to make a pattern become visible depending on the viewing angle, or to make the pattern appear to be switched to another color or pattern.
For example, in Japanese Patent Application Laid-Open No. 5-177799, a pattern is printed on the back side of a transparent base film, and a fine projection is provided on the front side so that the pattern can be seen from between the projections depending on the viewing angle. In addition, a decorative sheet is described in which a convex portion or a top portion of the convex portion is colored so that the pattern is colored.
[0003]
However, in the above decorative sheet, since the pattern is formed by an ordinary printing method, when viewed from an oblique direction, the pattern becomes invisible only when the gap between the convex portions is not visible, When viewed from the front in the normal state, the pattern looks easy. Also, changing the pattern requires replacing the printing plate.
As for coloring, coloring is performed between the protruding portions and the protruding portions so that the coloring can be seen over the blinds, and the coloring of the pattern is also pseudo.
[0004]
Further, as a display tape for a cloth such as a fabric, a ridge (ridge or ridge) is formed, and different indications are given on both sides of the ridge with prints and colored threads. No. 298847.
Even in this method, when the display is changed, it is necessary to change the printing plate every time, and it is difficult to print on the side surface of the ridge, and any pattern can be seen in a normal state. is there.
[0005]
Recently, hologram stickers are often used from the viewpoint of preventing counterfeiting, and the patterns that are visible depending on the angle are switched or appear to be colored in various colors due to light interference. Hologram stickers are expensive to manufacture because they require a large number of manufacturing processes and require advanced technology. Therefore, the use of hologram stickers is limited to credit cards and high-priced products that are subject to counterfeiting by unauthorized persons. This is the current situation.
Also, in order to change the hologram image on the hologram sticker, each time it must go through a series of steps beginning with taking a hologram or creating a CG hologram. What is possible is desired.
[0006]
[Problems to be solved by the invention]
Therefore, in the present invention, in the above-described conventional technology, the point that the pattern can be easily seen, the point that the coloring of the pattern is pseudo is eliminated, and the number of manufacturing steps in the hologram seal is large, and the manufacturing is difficult. The problem is to eliminate this.
[0007]
[Means for solving the problems]
As a result of the inventor's study, for example, each of four areas obtained by dividing a square vertically and horizontally into yellow, red, blue, and white colored units are arranged side by side in a large number on the left, right, and top, Using a sharpened embossed plate with a quadrangular pyramid shape, form a recess at the center of the four areas, and when observed from an appropriate angle, if two colors are lined up according to the coloring state of the wall surface of the recess, the mixture Colors are observed, and in some cases, different colors can be observed for each wall surface, and in the part where the concave portions are not formed, the mixed color can be seen because the four color areas when forming each unit are fine. There was found.
And if the concave portions are formed in a pattern, it is found that the pattern is not formed by direct coloring, so that the pattern is appropriately concealed and more than two kinds of colors can be realized depending on the viewing angle. And the present invention has been reached.
[0008]
According to a first aspect of the present invention, two or more kinds of colors are provided on each of the rectangular unit mixed color areas in which the area is divided into vertical and horizontal parts on the substrate. Fine A mixed color layer is formed by arranging innumerable finely colored areas arranged in a lattice pattern, and constitutes at least the colored layer adjacent to a predetermined portion of the colored layer. The surface of the finely colored area of a type less than the type of color of the finely colored area is an inclined surface having an inclination with the substrate, Arrival A display unit area for displaying a color different from the color layer is formed, and a set of the display unit areas forms a display unit, and the colored layer includes a vertical length a and a horizontal length of the unit color mixture area. A convex part having a quadrangular pyramid shape with a / 2 being the length of the vertical base and b / 2 being the length of the horizontal base with respect to the length b, or a set of concave parts having an inverted shape of the square pyramid A center of the concave portion or the center of the convex portion is (1) a center position of the unit color mixture area, (2) a position moved a / 2 in the vertical direction from the center, (3) at least one of a position moved by b / 2 in the horizontal direction from the center, and (4) a position moved by a / 2 in the vertical direction from the center and b / 2 in the horizontal direction. And a latent image display body. 2nd invention has 2 or more different display parts which have the center of the said recessed part or the said convex part in the different position selected from said (1)-(4) in 1st invention. And a latent image display body. According to a third invention, in the first invention, the display unit includes a background part and a pattern part, and the center of the concave part or the convex part in the background part and the pattern part is the above (1) to ( 4) The present invention relates to a latent image display body characterized by being in a different position selected from among 4). According to a fourth aspect, in the second aspect, the position of the concave portion or the convex portion of the non-overlapping portion of the two display portions having the overlapping portion is the position of the concave portion or the convex portion in the overlapping portion in one display portion. The position is moved a / 2 in the vertical direction with respect to the position of the convex part, and in the other display part, the position is moved b / 2 in the horizontal direction with respect to the position of the concave part or the convex part in the overlapping part. The present invention relates to a latent image display body characterized by the above. According to a fifth invention, in the fourth invention, the display unit has a background portion, and the position of the concave portion or the convex portion of the background portion is the position of the concave portion or the convex portion in the overlapping portion. The present invention relates to a latent image display body characterized by being at a position moved by a / 2 in the vertical direction and b / 2 in the horizontal direction with respect to the position.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a diagram showing the simplest configuration of a display body according to the present invention, and the display body 1 is formed by laminating a colored layer 3 on a substrate 2 as shown in the lower part of FIG. Thus, the colored layer 3 is laminated in parallel on the substrate 2, and most of the colored layer 3 is flat, but a part of the colored layer 3 forms the inclined surface 4.
[0010]
The colored layer 3 is composed of finely colored areas 3a and 3b of two different colors that are alternately arranged in contact with each other at the four corners so that the same colors do not touch at the sides. Note that in this specification, a color is not simply distinguished only by hue, but is distinguished by any one of hue, lightness, saturation, or a combination thereof.
In FIG. 1, one finely colored area 3a is hatched and the other finely colored area 3b is shown as a white background, but both are colored. Although both areas 3a and 3b can be distinguished on the figure, in reality, the size of both finely colored areas is sufficiently small compared to the viewing distance, and the observer can mix colors of both colors. What is visible as a layer. As an example, the size of the finely colored area is about 350 μm.
[0011]
Of the finely colored areas 3a and 3b that form the colored layer 3, the area indicated by the bold line in the figure has an inclination with respect to the substrate surface as shown in the lower part of FIG. An upwardly inclined surface 4 is formed. When this colored layer 3 is viewed from directly above, both of the finely colored areas 3a and 3b are visible, so the color of the mixed color layer can be seen. When viewed from the diagonally upper left direction 7 at a shallow angle, the color of the finely colored area 3b shown in white in the figure is preferentially visible, so that the color can be distinguished from the surrounding colored layer.
[0012]
Therefore, by utilizing this fact, the minute colored area 3b that becomes the inclined surface 4 is used as a display unit 5a, and the minute colored area 3b at an appropriate position is inclined so that a set of the display units 5a forms a character or a pattern. By setting it as the surface 4, as shown in FIG.1 (b), the display part 5 (here it is a triangle) can be formed.
[0013]
In the example described with reference to FIG. 1, the display unit 5 is formed using two different types of colors, but three, four, or more colors can be used.
[0014]
As shown in FIG. 2 (a), the colored layer 3 has finely colored areas of three different colors (here, for the sake of clarity, color names A, B, and C are assigned to the areas). A, B, and C are also used as the area names.) A, B, and C are repeatedly arranged in this order in each row, and if the top of the first row is A, the top of the second row is B, the top of the third row is arranged so as to be shifted sequentially like C, and constitutes a mixed color layer of three colors A, B, and C.
[0015]
In this example, the first A in the first row, B and C immediately after three columns from A, and A immediately after three columns, and three columns from A are further opened. A fine coloring area is selected according to a rule such as B immediately after C and the following C, and a slope A 4b is lowered to the right of A alone, and B and C adjacent to each other in the same line are The inclined surface 4a is formed.
[0016]
Accordingly, when the display body 1 is viewed from directly above, the fine coloring areas A, B, and C can be seen, so that the colored layer 3 of these three mixed colors can be seen, but the inclined surface 4a is displayed on the display body. 1 when viewed from the diagonally upper left direction 7a, the mixed color of B and C constituting the inclined surface 4a can be seen, and when the inclined surface 4b is viewed from the diagonally upper right direction 7b of the display body 1, the color of A constituting the inclined surface 4b can be seen. The color can be seen, and both appear to be color-separated from the surrounding colored layer.
Accordingly, the display 1 has a relatively narrow diagonal line display portion 5b having a color A and a relatively wide diagonal line having a mixed color of B and C by changing the angle. The display 5a can be seen.
As described above, when inclined surfaces having different inclinations are mixed in one display body 1, one of the display bodies 1 can be easily seen depending on the viewing angle, so that different display is possible depending on the angle.
[0017]
In FIG. 3, the colored layer 3 is divided into finely colored areas of four different colors (color names and area names of the areas are A, B, C, and D, according to the example of FIG. 2). In the configured example, the first line is composed of A, B, C, and D from the beginning, and the repetition of these in the following order. The second line is C at the beginning, D is the next, and thereafter , A, B, C, and D. In the third and subsequent lines, the odd lines are the same as the first line, and the even lines are the same as the second line.
In FIG. 3 as well, a mixed color layer 3 is formed with four colors A, B, C, and D.
[0018]
In the example shown in FIG. 3, continuous A, B, C, and D in each row can be selected every two cycles, of which A and B form a slope that rises to the right, and C and D that slope to the right. Is forming.
Accordingly, when the display body 1 is viewed from directly above, the fine colored areas A, B, C and D can be seen, so that the colored layer 3 of these four mixed colors can be seen, but the inclined surface 4a is displayed. When viewed from the diagonally upper left direction 7a of the body 1, a mixed color display 5a of A and B constituting the inclined surface 4a is seen, and when the inclined surface 4b is viewed from the diagonally upper right direction 7b of the display body 1, the inclined surface 4b is viewed. The mixed color display 5b of C and D is visible, both of which are color-separated from the surrounding colored layer.
Therefore, by changing the angle, the display body 1 can see a display unit with diagonal lines having a mixed color of A and B and a display unit with diagonal lines having a mixed color of C and D. Since they are almost the same place, it looks as if the color of the same line has changed by looking at different angles.
[0019]
In the example using FIGS. 1 to 3, the example in which the inclined surface 4 is formed corresponding to each fine colored area constituting the colored layer 3 has been shown. It can also be formed as a concave or convex portion at the boundary.
FIG. 4 and FIG. 5 show such an example in principle. In any of the drawings, finely colored areas A, B, C and D are formed on the substrate 2 as shown in FIG. A state in which concave portions or convex portions are formed in the arranged display units is shown.
[0020]
In FIG. 4 (a), a square pyramid inverted-shaped recess 8a is formed in the center of the finely colored areas A, B, C and D arranged in a square shape, and therefore, in the recess, Although not all can be clearly shown in the figure, four triangular slopes are formed, and a part of the fine coloring area A and a part of the fine coloring area B occupy the same area on the front slope. . Similarly, a part of the fine coloring area B and a part of the fine coloring area D occupy the slope on the right side, and a part of the fine coloring area C and a part of the fine coloring area A are on the left side. A part of the fine coloring area D and a part of the fine coloring area C occupy the slope on the labor side.
[0021]
The display units shown in FIG. 4A and the next FIG. 4B differ in the visible color depending on the viewing direction. In order to explain this, the way of referring to the viewing direction is shown in FIG. 4C. Set as follows.
That is, the back side of the plane is N, the front side is S, the left side is W, the right side is E, and the center of the plane is viewed from above N, the direction N ′, and similarly S, W, The directions when viewed from above each of E and E are referred to as the S ′ direction, the W ′ direction, and the E ′ direction, and the direction between these, for example, the direction when viewed from above between S and E (SE ) 'Direction.
[0022]
When the concave portion 8a shown in FIG. 4A is viewed from the S ′ direction, the inclined surface appears to be a mixed color of A and B. Similarly, from the E ′ direction, the mixed color of C and A, and the N ′ direction. Shows a mixed color of D and C, and a mixed color of B and D can be seen from the W ′ direction.
[0023]
FIG. 4B shows a case in which the inverted pyramid-shaped concave portion 8a in FIG. 4A is replaced with a convex portion 8b having a quadrangular pyramid shape, and each inclined surface of the convex portion 8b has a quadrangular pyramid shape. The same effect as each inclined surface of the recessed part 8a of Fig.4 (a) which formed the reverse shaped recessed part 8a of this is brought about.
[0024]
FIG. 5 (a) is obtained by replacing the inverted pyramid-shaped recess 8a in FIG. 4 (a) with a conical inverted-shaped recess 9a.
In the concave portion 9a, the inclined surface is not a plane as in the concave portion 8a having the inverted shape of the quadrangular pyramid, but when viewed from the S ′ direction, the E ′ direction, the N ′ direction, and the W ′ direction, the reverse of the quadrangular pyramid. A color mixture similar to that of the mold-shaped recess 8a can be seen.
In addition, the A color is visible from the (SE) ′ direction, the B color is visible from the (SW) ′ direction, the C color is visible from the (NE) ′ direction, and the D color is visible from the (NW) ′ direction. Reflected light can be obtained from any angle, and the visible range of the latent image is wide.
[0025]
FIG. 5 (b) is obtained by replacing the conical concave portion 9a in FIG. 5 (a) with a convex portion 9b having a conical shape, and the slope of the convex portion 9b has an inverted conical shape. The same effect as that of the inclined surface of the concave portion 9a in FIG.
[0026]
In the example cited with reference to FIG. 4 and FIG. 5, an example in which the inclined surface is formed by forming a concave portion or a convex portion at the boundary of the finely colored area, but the concave portion and the convex portion have shapes other than those exemplified above. There can be a way of formation.
[0027]
As the shape of the convex part, the base part is a regular quadrangular or rectangular quadrangular pyramidal convex part, a hemispherical convex part, a triangular pyramidal convex part, an elliptical section of the cone, or the cone is removed from the center. Thus, there may be a shape in which the cut pieces in the height direction are combined. Moreover, as a shape of a recessed part, the thing of the reverse shape corresponding to the shape of these convex parts can be used.
It is difficult to express the number of inclined surfaces around the hemispherical convex portion or concave portion, but in reality, it has the same effect as the convex or concave portion of a quadrangular pyramid shape. Is considered to be composed of
The number of inclined surfaces constituting the convex portion or the concave portion is not particularly limited, but is usually two to four.
In addition, the two inclined surfaces with two radial inclined surfaces are not only the above-mentioned “the shape of the cones cut off in the height direction but off the center” and the two inclined surfaces. There is a gable roof-like convex part or its reverse shape.
[0028]
As for the colored layer 3, in any of the examples illustrated so far, the fine colored areas are illustrated assuming that they are arranged in a frame defined by vertical and horizontal grids. However, there may also be a striped colored layer in which fine colored areas of the same color are arranged for each column. Further, when the unit coloring area is divided into four equal parts, and A is the upper left of the rice field, B is the upper right, C is the lower left, and D is the lower right, A, B, and C are three different colors. It may be the same color as C, and such unit colored areas may be arranged in a grid pattern or shifted by ½ pitch for each column.
In addition, although the unit color mixing area and the minute coloring area of the colored layer 3 have been described as a quadrangle, a shape such as a circle other than the quadrangle may be used. However, it is preferable to form it as densely as possible.
As for the pitch of a unit color mixing area, about 50-500 micrometers is preferable. This is because if it is too small, it is difficult to distinguish it with the eyes, and formation becomes difficult. If it is too large, each finely colored area appears to be separated and mixed color and cannot be seen.
The depth of the concave portion or the height of the convex portion is preferably 20 μm or more in order to obtain the effect. The diameter of the concave portion or convex portion is about 25 to 250 μm because it is ½ of the pitch of the unit color mixing area.
[0029]
In the example already described, the quadrangular pyramid-shaped convex part, or the concave part of the inverse shape thereof, is such that each side of the quadrangle where the convex part or the concave part is in contact with the colored layer 3 is parallel to each line of the lattice of the fine colored area. Although illustrated as being formed, for example, each side of the quadrangle may be formed at an angle such as 45 ° with each line of the lattice.
Further, as described above, when A is placed in the upper left of the rice field, B is placed in the upper right, C is placed in the lower left, and D is placed in the lower right, the centers of the recesses or projections are the centers of A and B. Or a concave or convex portion may be formed so as to coincide with each finely colored area.
[0030]
More preferably, the arrangement of the finely colored areas of the colored layer 3, the positions where the recesses are formed, a plurality of displays using these, and the change in the color of the pattern by changing the angle will be described below.
[0031]
First, the colored layer 3 has unit color mixing areas 10 in which fine colored areas A, B, C, and D as shown in FIG. 6A are arranged in the same manner as in FIG. Suppose that it consists of a set of things. In this example, the unit color mixture area 10 is a square, the vertical and horizontal dimensions are a, and is divided into four equal parts.
[0032]
The concave portion formed in the colored layer 3 has the inverse shape of the quadrangular pyramid described with reference to FIG. 4A, and the bottom surface of the quadrangular pyramid has a dimension of approximately a / 2 in both the vertical and horizontal directions. Suppose you are. Here, the concave portions are formed so that each side of the regular tetragon on the bottom surface of the quadrangular pyramid is oriented parallel to the lattice of the colored layer 3.
As shown in FIG. 6B, (a), the position where the concave portion is formed is a position where the apex of the quadrangular pyramid 8 is in the center of the unit color mixture area (hereinafter, simply indicated by the apex position of the quadrangular pyramid). As shown in (b), the vertex of the quadrangular pyramid is shifted by a / 2 from the center of the unit color mixing area in the upward direction of the figure, and as shown in (c), the vertex of the square pyramid is the center of the unit color mixing area. From the center of the unit color mixing area from the center of the unit color mixture area, as shown in (2), a / 2 in the right direction toward the figure, and toward the figure. There are four possible positions, a position shifted by a / 2 in the right direction. As for the formation positions of these recesses, one is selected for one unit color mixture area.
In the above description, even if the upper direction is defined as the lower direction and the right direction is defined as the left direction, the same results are obtained.
[0033]
As described above, there are four recess formation positions (i) to (d) for one unit color mixture area, and for each formation position, as shown in FIG. There are four viewing directions, and each color can be seen.
For example, with respect to the formation position of (A), a mixed color of D and C is seen from the N ′ direction, a mixed color of A and B is seen from the S ′ direction, a mixed color of B and D is seen from the W ′ direction, and the E ′ direction. Shows a mixed color of C and A.
With respect to the formation position of (b), a mixed color of B and A is seen from the N ′ direction, a mixed color of C and D is seen from the S ′ direction, a mixed color of D and B is seen from the W ′ direction, and from the E ′ direction. A mixed color of A and C is visible.
With respect to the formation position of (c), a mixed color of C and D is seen from the N ′ direction, a mixed color of B and A is seen from the S ′ direction, a mixed color of A and C is seen from the W ′ direction, and from the E ′ direction. A mixed color of D and B is visible.
With respect to the formation position of (d), a mixed color of A and B is seen from the N ′ direction, a mixed color of D and C is seen from the S ′ direction, a mixed color of C and A is seen from the W ′ direction, and from the E ′ direction. A mixed color of B and D is visible.
[0034]
The above is summarized in the following “Table 1”.
[0035]
[Table 1]

[0036]
Here, suppose that A: yellow, B: blue, C: red, D: white, for example, the color mixture of A and B seen from the S ′ direction is yellowish green and seen from the S ′ direction. Since the mixed color of B and A in (D) is also yellowish green, it is as shown in Table 2.
[0037]
[Table 2]

[0038]
For example, if a pattern is formed by a set of recesses formed at the position (b) and a portion other than the pattern is formed by a set of recesses formed at the position (a), the N ′ direction will have a pink background. A yellow-green pattern is visible, and from the opposite S ′ direction, a pink pattern is visible in the yellow-green background. However, in this case, the pattern cannot be seen from the W ′ direction and the E ′ direction because there is no difference in color between the background and the pattern.
In addition, when the pattern is formed by a set of recesses formed at the position (c) and the portion other than the pattern is formed by a set of recesses formed at the position (a), the orange color is displayed on the light blue background from the W ′ direction. From the opposite E ′ direction, a light blue pattern is visible in an orange background. However, in this case, the pattern cannot be seen from the N ′ direction and the S ′ direction because there is no difference in color between the background and the pattern.
[0039]
When a pattern is formed with a set of recesses formed at the position (2) and a portion other than the pattern is formed with a set of recesses formed at the position (a), a yellowish green background appears in a pink background from the N ′ direction. From the opposite S ′ direction, a pink pattern can be seen in the yellow-green background. Further, in this case, an orange pattern is seen in the light blue background from the W ′ direction, and a light blue pattern is seen in the orange background from the opposite E ′ direction.
[0040]
As described above, the pattern composed of the set of recesses formed at the position (d) is viewed from the four directions of the N ′ direction, the S ′ direction, the W ′ direction, and the E ′ direction in relation to (a). Can do.
Using this, a certain pattern is formed by the concave portions at the positions (b) and (d), and the background is formed by the concave portions at the position (b). From the N ′ direction, a pink background is formed. A yellow-green pattern can be seen inside, and a pink pattern can be seen in the yellow-green background from the S ′ direction. Further, a pattern different from the above pattern is located at positions (c) and (d). In the W ′ direction, an orange pattern can be seen in the light blue background, and from the opposite E ′ direction, a light blue pattern can be seen in the orange background.
Accordingly, when (A) is used as the background, it is preferable to set the concave portion of the overlapping portion of two different patterns as the position (D).
[0041]
7 and 8 are diagrams showing the production of a display unit in which two patterns overlap with each other in the background.
[0042]
FIG. 7 shows a state where the center of the quadrangular pyramid 8 is aligned with the center of each unit color mixture area in the same colored layer 3 as shown on the right side of FIG. This is the position corresponding to (A) in FIG. For the time being, the center of each unit color mixture area is assumed to be a standard position.
[0043]
In the colored layer 3 shown in FIG. 6 (a), a position where a concave portion is to be formed in order to display the heart shape is shown in FIG. 6 (b) where the heart shape is surrounded by a line 11 and a black circle is added. From the above-mentioned standard position, it is shifted upward by a / 2 with respect to the dimension a of the quadrangular pyramid and moved to a position corresponding to (b) in FIG. The state after the movement is shown in FIG. This heart shape is defined as a first pattern.
[0044]
Here, an English letter “H” having the same size as the heart shape (provided that it has been rotated by 90 °) is the second pattern, surrounded by a line 13 in FIG. The position where the recess is to be formed is shifted to the right by a / 2 with respect to the dimension a of the quadrangular pyramid, and the state shown in FIG.
At this time, the position where the recessed portion shifted for the purpose of displaying the heart shape is finally the position of (d) in FIG. 6B, and the position of the recessed portion shifted for the first time this time is It will be in position (c). In addition, the position of the concave portion that has been shifted for the purpose of displaying the heart shape first, but not shifted this time, remains (B).
[0045]
FIG. 9 shows the recessed portions determined and formed by the above process.
Since (a) to (d) shown in FIG. 9 show colors as shown in “Table 2” depending on the viewing direction, for example, when viewing from the N ′ direction, (a) and ( C) is pink, (b) and (d) are yellow-green, and when viewed from the S 'direction, (b) and (c) are yellow-green, and (b) and (d) are pink However, as schematically shown in FIGS. 10A and 10B, a heart shape can be seen from both the N ′ direction and the S ′ direction.
Further, (a) to (d) in FIG. 9 are when viewed from the W ′ direction, when (A) and (B) are light blue, (C) and (D) are orange, and viewed from the E ′ direction. , (B) and (b) are orange, and (c) and (d) are light blue, as shown schematically in FIGS. 10 (c) and 10 (d). The shape of the letter H rotated 90 ° is also seen from the E ′ direction.
[0046]
More preferably, the arrangement of the finely colored areas of the colored layer 3, the formation positions of the recesses, and a plurality of displays using these, the change in the color of the pattern by changing the angle, but also in the above example, Various modifications can be made.
[0047]
In the above example, the finely colored areas constituting the unit mixed color area are all different colors including white, but A, B, C, and D may be red, red, red, and white in order, In this case, the latent image appears to be expressed in red or pink. In addition, the white fine coloring area may utilize the surface of a white base material.
Alternatively, A, B, C, and D may be sequentially yellow, blue, red, and red, and the latent image appears to be expressed in green, red, purple, or orange.
The colored layer is usually formed uniformly, but for design reasons, variations such as mixing half of the colored layer with different colors may be performed.
[0048]
When forming a latent image with concave portions or convex portions, it is not always necessary to provide a background. However, if a pattern is formed without a background, the outer shape of the pattern may be conspicuous. It is preferable that the outer shape of the portion where the concave portion or the convex portion including the background is formed is not particularly meaningful.
Since the color of the concave portion or the convex portion is the same in both the background portion and the pattern portion, it is difficult to determine which specific concave portion or convex portion is formed only when viewed from the front.
[0049]
The latent image display of the present invention is a sheet or plate of an arbitrary material such as paper, plastic, or metal foil, or a part or all of the surface of a composite substrate made of any combination thereof. Can be formed.
Basically, a mixed color layer consisting of finely colored areas is formed on a base material, and the base material is moved on the XY table together with the base material using a mold having a convex or concave tip. In the case of engraving or making a large amount of the same material, it can be formed by forming and pressing a template having a necessary number of convex portions or concave portions in a necessary area.
[0050]
The colored layer can be formed by a normal printing method such as offset using a normal ink. The colored layer needs to be precisely formed and has a small area. Therefore, the colored layer may be formed by a transfer method such as sublimation transfer.
In addition, a transparent protective layer can be formed on the colored layer to prevent wear.
[0051]
In addition, you may give decorations, such as arbitrary printing, to a base material according to a use. Further, printing may be performed on the colored layer for camouflaging a portion displaying a latent image.
[0052]
The latent image display body of the present invention has the structure as described above and cannot be confirmed from the front, but by viewing at an angle, the latent image exhibits a color different from the background, so that it can be seen, There is a feature that does not require special judgment equipment or equipment for confirmation.
In addition to the colored structure, the latent image display of the present invention has a concave portion or a convex portion formed in a specific shape at a specific position, so that an optical device such as a color copier or a color scanner is used. It is difficult to reproduce with unauthorized intentions only by means of tactics.
In addition, by forming part or all of the color of the finely colored area with something that has reflection or absorption outside the visible region, sensitivity can be improved not only in appearance but also in the infrared region or ultraviolet region. It is also possible to check using a sensor that has it.
[0053]
The latent image display of the present invention is applied to the following various uses that may be falsified or altered with improper intention, using the substrate constituting them as the substrate of the latent image display Or a latent image display can be applied to these substrates. Various applications include the following:
Bills, gift certificates, stock certificates, or securities.
Driver's license, passport, card-type certificate, for example, safety, hygiene qualification or grade indicating fire prevention, disinfection or fire prevention, etc.
Tickets, boarding tickets, air tickets, etc.
Admission tickets for various events, such as lottery tickets, lottery tickets, horse voting tickets, car tickets, etc.
Journals used for financial institution transaction details and various certification purposes (eg, statements that are emitted when a bank card is used for transactions), etc.
Price tags and tags for displaying types and labels.
Various packages, wrapping paper, paper containers, etc.
[0054]
First According to the invention, a fine coloring area is formed in each of the four unit color mixing areas, and a colored layer is formed, so that four concave or convex portions defined in each unit color mixing area can be formed. Since the latent image is formed by selecting the position and forming the concave portion or the convex portion, it is possible to provide a latent image display body capable of changing the color of the latent image and the viewing angle by selecting the position. Second According to the invention of First In addition to the effects of the invention, it is possible to provide a latent image display body having two latent images in which the visible color and the visible angle are changed for each pattern. Third According to the invention of First In addition to the effects of the invention, it is possible to provide a latent image display body in which each of the pattern and the background has a different color and a different viewing angle. 4th According to the invention of Second In addition to the effect of the invention, it is possible to provide a latent image display body in which two patterns having overlapping portions can be seen without being damaged by the overlapping portions when the angle is changed. 5th According to the invention of 4th In addition to the effects of the present invention, it has a background, and when looking at either of the two patterns, the background and the pattern look different colors depending on the angle, so the visibility of each pattern is not impaired. An image display can be provided.
[Brief description of the drawings]
FIG. 1 is a diagram of a latent image display body in which a colored layer is a mixed color of two colors.
FIG. 2 is a diagram of a latent image display body in which a colored layer is a mixed color of three colors.
FIG. 3 is a diagram of a latent image display body in which a colored layer is a mixed color of four colors.
FIG. 4 is a diagram showing a quadrangular pyramid-shaped convex portion or concave portion.
FIG. 5 is a diagram showing conical convex portions or concave portions.
FIG. 6 is a view showing a preferred colored layer and a position where a concave portion is formed.
FIG. 7 is a diagram illustrating formation of a first pattern of two patterns.
FIG. 8 is a diagram illustrating formation of a second pattern of two patterns.
FIG. 9 is a diagram showing the positions of concave portions or convex portions when two patterns are formed.
FIG. 10 is a diagram showing how two patterns are seen.
[Explanation of symbols]
1 Latent image display
2 Base material
3 colored layers
4 Inclined surface
5 Display section (5a; display unit)
8, 9 Concave or convex
10 unit color mixing area

Claims (5)

On the substrate, each of the unit color mixing area of a rectangle in the area is divided vertically and horizontally equal intervals, that those two or more fine fine colored region of colors are arranged side by side countless are arranged in a grid pattern The surface of the finely colored area of a kind smaller than the kind of the color of the finely colored area constituting at least the adjacent colored layer of the predetermined part of the colored layer is laminated. but by it is an inclined surface having the substrate and the slope, the adhesive forms a display unit area for displaying the color different from the color layer, said set of display units zone to form a display unit The colored layer is a quadrangular pyramid with a / 2 being the length of the vertical base and b / 2 being the length of the horizontal base with respect to the vertical length a and the horizontal length b of the unit color mixture area. Or a collection of concave portions having a reverse shape of the quadrangular pyramid. A center of the concave portion or the center of the convex portion is (1) a center position of the unit color mixture area, (2) a position moved a / 2 in the vertical direction from the center, (3) at least one of a position moved by b / 2 in the horizontal direction from the center, and (4) a position moved by a / 2 in the vertical direction from the center and b / 2 in the horizontal direction. A latent image display.   2. The latent image display body according to claim 1, wherein the latent image display body has two or more different display portions having the center of the concave portion or the convex portion at different positions selected from the above (1) to (4).   The display unit includes a background part and a pattern part, and the centers of the concave part or the convex part in the background part and the pattern part are at different positions selected from the above (1) to (4). The latent image display body according to claim 1, wherein:   The position of the concave portion or the convex portion of the non-overlapping portion of the two display portions having the overlapping portion is a / in the vertical direction with respect to the position of the concave portion or the convex portion in the overlapping portion. 3. The position according to claim 2, wherein the second display portion is a position moved by b / 2 in a lateral direction with respect to the position of the concave portion or the convex portion in the overlapping portion. Latent image display.   The display unit has a background portion, and the position of the concave portion or the convex portion of the background portion is a / 2 in the vertical direction with respect to the position of the concave portion or the convex portion in the overlapping portion, and 5. The latent image display body according to claim 4, wherein the latent image display body is at a position moved by b / 2 in the horizontal direction.

Images