JP4967298B2 - Sticker with verification function, authenticity determination medium, thread body and authenticity determination paper - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sticker adapted to disable the confirmation of the inherent color change information in an ordinary state but to make the verification of the inherent information possible only by observation through a prescribed verification tool and having a verification function adequately usable as a device particularly for prevention of forgery; to provide an authenticity judgment medium pasted with the sticker having the verification function; to provide a thread body having the verification function; and also to provide an authenticity judgment paper sheet internally incorporated with the thread body having the verification function. <P>SOLUTION: The sticker having the verification function is formed by disposing a metal reflection layer on at least a part of the region on the back side of a birefringent transparent layer and laminating a pasting layer for pasting on a desired medium thereon. <P>COPYRIGHT: (C)2007,JPO&amp;INPIT

Description

  According to the present invention, a sticker having a verification function and a sticker having the verification function are attached so that the color change information internalized by observing through a predetermined verification tool can be verified. The present invention relates to a false determination medium, a thread body having a verification function, and a true / false determination sheet in which a thread body having a verification function is inserted.

  Conventionally, for authentication media such as cards and passports, securities such as gift certificates and stock certificates, etc., devices or information that are difficult to counterfeit are attached or printed on some of them, and the presence or contents of them are visually observed. Or the authenticity determination was performed by confirming using a verifier.

  In recent years, the distribution of counterfeit products has become a problem, and in order to prevent such distribution, the application of technology equivalent to the anti-counterfeiting technology used in securities and the like is increasing for genuine products.

Anti-counterfeiting technology can be recognized as technology related to anti-counterfeiting by ordinary users , and so-called overt technology that allows each user to make a judgment of authenticity, and only specific users can recognize it as technology related to anti-counterfeiting. The so-called covert technique is such that only a specific user can make a true / false judgment.

  Typical examples of the overt technique include a diffractive structure forming body such as a hologram, and a multilayer interference film such as Optically Variable Ink (abbreviated as OVI). Further, representative examples of the covert technique include fluorescent printing and line latent images. Both of these occupy important positions and are usually often adopted as anti-counterfeiting technology by combining them.

Further, with the recent increase in demand for liquid crystal displays, various advanced polarization technologies have been developed, and these polarization technologies are beginning to be applied in various forms as anti-counterfeit devices as covert technologies. For example, when a polarizing element is used, a physical image is given to a latent image medium using the birefringence of a nematic liquid crystal or a plastic film having birefringence, and the birefringence is partially lost. (For example, refer to Patent Document 1).
JP-A-8-43804 JP-A-9-68926 JP-A-9-68927 JP 2000-221898 A

  However, in these conventional methods, the orientation direction of the liquid crystal is partially changed in order to pattern the latent image (for example, see Patent Documents 2 and 3), or the film thickness of the stretched film is partially changed by embossing. (For example, refer to Patent Document 4), and it is necessary to destroy the birefringence by physical stimulation, and it is difficult to mass-produce a stable medium.

  The present invention has been made in view of the above situation, and the inherent color change information cannot be confirmed in a normal state, but the inherent information can be verified only by observing through a predetermined verification tool. The sticker having the verification function, the authenticity determination medium formed by sticking the sticker having the verification function, and the thread having the verification function, which can be suitably used as a device for preventing counterfeiting in particular The object of the present invention is to provide a true / false determination sheet in which a thread body having a body and a verification function is inserted.

In order to solve the above-described problems, the first invention of the present invention has at least one birefringent transparent layer and a metal reflective layer in at least a part of the back side thereof. It is a sticker having a verification function, characterized in that a sticking layer is provided and a sticking layer for sticking on a desired medium is laminated thereon.

Moreover, 2nd invention of this invention is a sticker which has a verification function of 1st invention of this invention, The metal reflective layer is provided in the one part area | region of the surface side of the said birefringent transparent layer. It is characterized by that.

Furthermore, a third invention of the present invention is the sticker having the verification function of the first or second invention of the present invention, and has a plurality of birefringent transparent layers, and these birefringent transparent layers The layers are laminated to form a birefringent transparent laminate.

Furthermore, a fourth invention of the present invention is the sticker having the verification function of any one of the first to third inventions of the present invention , wherein one of the interlayer portions of the birefringent transparent layer of the birefringent transparent laminate is provided. A metal reflective layer is provided in the region of the part.

Furthermore, a fifth invention of the present invention is characterized in that in the sticker having the verification function of any one of the first to fourth inventions of the present invention, the birefringent transparent layer is made of a stretched resin film.

Furthermore, the sixth invention of the present invention is the sticker having the verification function of any one of the first to fifth inventions , wherein the birefringent transparent layer is made of a uniaxially stretched resin film. .

Furthermore, a seventh invention of the present invention is the sticker having the verification function of any one of the first to sixth inventions , wherein the birefringent transparent layer is made of a cellophane film.

Furthermore, the eighth invention of the present invention is characterized in that in the sticker having the verification function of any one of the first to sixth inventions of the present invention, the birefringent transparent layer is made of a polycarbonate film.

Furthermore, the ninth invention of the present invention is a true / false determination medium characterized in that a sticker having a verification function of any one of the first to eighth inventions of the present invention is attached to a part thereof. .

Furthermore, the tenth invention of the present invention has at least one thread-like birefringent transparent layer, and a metal reflective layer is provided in at least a part of the back side thereof. A thread body having a verification function characterized by

Furthermore, an eleventh aspect of the present invention is the thread body having the verification function of the tenth aspect of the present invention , wherein a metal reflective layer is provided in a partial region on the surface side of the birefringent transparent layer. It is characterized by.

Furthermore, the twelfth aspect of the present invention is the thread body having the verification function of the tenth or eleventh aspect of the present invention, wherein a metal reflective layer forming portion is provided on the back side of the thread-like birefringent transparent layer. The adhesive layer is laminated | stacked on the whole region containing.

Furthermore, a thirteenth aspect of the present invention is a thread body having a verification function according to any one of the tenth to twelfth aspects of the present invention , comprising a plurality of birefringent transparent layers, The refractive transparent layer is laminated to form a birefringent transparent laminated body.

Furthermore, the fourteenth invention of the present invention is the thread body having the verification function of any one of the tenth to thirteenth inventions , wherein the birefringent transparent layer of the birefringent transparent laminate has an interlayer portion. A metal reflective layer is provided in a part of the region.

Furthermore, the fifteenth aspect of the present invention is the thread body having the verification function according to any one of the tenth to fourteenth aspects of the present invention , wherein the birefringent transparent layer is made of a stretched resin film. .

Furthermore, the sixteenth invention of the present invention is characterized in that in the thread body having the verification function of any of the tenth to fifteenth inventions of the present invention, the birefringent transparent layer is made of a uniaxially stretched resin film. To do.

Furthermore, the seventeenth invention of the present invention is characterized in that, in the thread body having the verification function of any of the tenth to sixteenth inventions of the present invention, the birefringent transparent layer is made of a cellophane film.

Furthermore, an eighteenth aspect of the present invention is characterized in that in the thread body having the verification function of any one of the tenth to sixteenth aspects of the present invention, the birefringent transparent layer is made of a polycarbonate film.

Furthermore, in the nineteenth invention of the present invention, the thread body having the verification function of any one of the tenth to eighteenth inventions is rubbed into the paper base so that a part of the surface is exposed. This is a true / false determination sheet.

  According to the present invention, the presence information in the sticker, the authenticity determination medium, the thread body, and the authenticity determination sheet, which cannot be confirmed in a normal state only by observing with a predetermined verification tool superimposed, changes in hue. Along with this, it becomes possible to verify clearly and easily. Further, the change in hue and the appearance of a hidden image may be caused by changing the thickness of the birefringent transparent layer constituting the part of the present invention or the constituent material thereof, By changing the combination with the metal reflection layer, the formation pattern, or the like, it can be changed into various types.

  Embodiments of the present invention will be described below. FIG. 1 is an explanatory diagram showing a schematic cross-sectional configuration of a sticker having a verification function of the present invention and a principle of verifying color change information inherent in the sticker having the verification function. FIG. 2 is an explanatory diagram showing a schematic sectional configuration of a sticker having another verification function of the present invention and a verification principle of color change information inherent in the sticker having this verification function. And FIG. 3 is verifying the outline structure and the color change information of the authenticity judgment medium which sticks a sticker which has a verification function as shown in FIG. 2 in part using a predetermined verification tool. It is explanatory drawing which shows the verification principle at the time.

  The sticker having a verification function shown in FIG. 1 has a birefringent transparent layer (101), and a metal reflective layer (102) is provided on the entire back side thereof, and further on the desired layer. A sticking layer (109) for sticking on the medium is laminated. Further, the sticker having the verification function shown in FIG. 2 is a birefringent transparent laminated body in which two layers of a birefringent transparent layer (201) and a birefringent transparent layer (204) are laminated. A metal reflective layer (202) is provided on the entire back side of the birefringent transparent laminate, and an adhesive layer (212) for adhering onto a desired medium is further laminated thereon. A metal reflective layer (203) is provided in a part of the interlayer between the refractive transparent layer (201) and the birefringent transparent layer (204), and a metal reflective layer (205) is provided in a part of the outermost layer. It has been.

  In FIG. 3, a sticker having the same structure as the sticker shown in FIG. 2, that is, a birefringent transparent layer (301) and a birefringent transparent layer (304) are laminated to form a birefringent transparent laminate. A metal reflective layer (302) and an adhesive layer (303) are sequentially laminated on the entire back surface of the birefringent transparent laminate, and a birefringent transparent layer (301). And a birefringent transparent layer (304) between which a metal reflective layer (303) is provided and a metal reflective layer (305) is provided in a part of the outermost layer, a sticker having a verification function, An authenticity determination medium stuck to a part of a sheet-like substrate is shown.

  On the other hand, FIGS. 4 and 5 are schematic views of a thread body (402) having a verification function according to the present invention and an authenticity determination sheet in which the thread body (402) is inserted into a paper substrate (401). Each configuration is shown.

The thread body having the verification function of the present invention has a thread-like birefringent transparent layer and at least a metal reflective layer formed on the back side thereof. The thread body (402) shown has two birefringent transparent layers (502) and birefringent transparent layers (503), and these birefringent transparent layers (502) and birefringent transparent layers ( 503) are laminated to form a birefringent transparent laminate, and an adhesive layer (505) is further laminated over the entire area of the metal reflective layer (504).

  Further, as shown in FIGS. 4 and 5, the authenticity determination sheet of the present invention has a thread body (402) having a verification function configured as described above, with a part of its surface exposed at a plurality of locations. In this way, it is inserted into the paper base 401.

  The birefringent transparent layer (101, 201, 204, 301, 304, 502, 503) constituting a part of the verification medium having each verification function is a thin film layer made of a transparent material exhibiting birefringence. And, for example, it can be constituted by a plastic film produced by stretching. The plastic film produced by the stretching process exhibits birefringence because the molecules constituting it are aligned in the stretching direction.

The birefringence, when the refractive index is incident light into different materials by the optical axis direction, the extraordinary ray e (refractive index: n _e) and the ordinary ray o (refractive index: n _o) phenomenon that occurs a phase difference between the It is.

  This difference in refractive index between extraordinary rays and ordinary rays is called birefringence Δn. The birefringence Δn varies depending on the wavelength λ of light passing through the birefringent material. This is called birefringence wavelength dispersion and is expressed by the following equation.

_{Δn (λ) = n e -n} o

The phase difference value δ is proportional to the optical path length d passing through the birefringent material and is expressed by the following equation.

δ (λ) = Δn (λ) d

When the birefringent optical axis is parallel, the phase difference value δ is integrated even if the layers are divided into a plurality of layers, and in the case of a right angle direction, the phase difference value δ works in a direction that cancels out.

Here, with respect to the birefringent optical axis of the sheet in which the metal reflection layer is formed on the back side of the birefringent transparent layer having a retardation value δ, the angle of the optical axis of the polarizing plate is shifted by α and the light is superimposed. The reflectance is

R (λ, δ, α) = 1−sin ² (2απ / 180) · sin ² (2πδ (λ) / λ)

It is represented by

  That is, this shows that when α = 45 °, the amount of light reflected and returned is the lowest, and a hue change appears without the presence of a verification tool. It also shows that the reflectance changes depending on the wavelength, which means that the hue changes depending on δ and λ.

  For example, as shown in FIG. 1, each of the red component (104), green component (105), and blue component (106) of the light emitted from the light source (107) has a verification tool (linear polarizing plate) (103). It passes through the birefringent transparent layer (101) and is reflected by the metal reflecting layer (102), and returns to the birefringent transparent layer (101) again. At this time, since the polarization state varies depending on the wavelength, it is divided into a green component (105) that can pass through the verification tool (linear polarizing plate) (103), a red component (104) that cannot pass through, and a blue component (106). As a result, only the light of the green component (105) reaches the observer (108). In short, when the observer (108) observes the sticker having the verification function through the verification tool, the observer (108) can recognize it with a green hue.

  As described above, as the birefringent transparent layer, a plastic film produced by stretching can be used. This stretching process is a predetermined temperature in the range from the glass transition point to the melting point of the plastic. A processing method for producing a plastic film by stretching at a temperature, such as uniaxial stretching and biaxial stretching. In general, plastic is stretched to have birefringence, and at the same time, it becomes a uniform and tough film and is easy to handle. Plastics that form uniaxially or biaxially stretched plastic films include cellophane, polycarbonate (PC), polyethylene (PE), polypropylene (PP), polyvinyl alcohol (PVA), polyethylene naphthalate (PEN), and polyethylene terephthalate (PET). ) Nylon and the like.

  Since biaxially stretched plastic films differ in the degree of stretching in the width direction, it is difficult to ensure uniform birefringence over the entire width, and it is difficult to use all of these as constituent materials for the birefringent transparent layer. If uniform birefringence is required in the width direction of the film, it is desirable to form the birefringent transparent layer with a uniaxially stretched plastic film.

Further, the birefringence of the uniaxially stretched plastic film is Δn = 0.001 to 0.05, more preferably Δn = 0.0, taking into consideration the processing suitability and physical strength when forming the metal reflective layer described later. It may be in the range of 003 to 0.02. When the birefringence index Δn is larger than this value, the film thickness required to obtain a necessary retardation value becomes thin, which impairs processing suitability and causes slight distortion caused during processing. Since the possibility that the value deviates from the design value increases, it is not preferable. On the other hand, if it is small, the thickness of the film required for obtaining the retardation value is increased, which makes it difficult to process. Although it depends on the degree of stretching, this condition is satisfied when cellophane has a birefringence Δn of about 0.008, and polycarbonate has a birefringence Δn of about 0.003.

  A metal reflective layer (102) and an adhesive layer (109) are provided on the back side of the birefringent transparent layer (101) having such a configuration, and a sticker having a verification function having a laminated configuration is produced and verified. When the tool (103) (linearly polarizing plate) is overlapped and observed, the observer can recognize with a predetermined hue. The recognized hue can be changed variously according to the layer thickness of the birefringent transparent layer, and verification of the target sticker, for example, authenticity determination can be performed with the change in hue.

  Incidentally, a polarizing plate (verification tool) is attached to the birefringence optical axis of a sticker having a verification function formed by forming a metal reflection layer on the entire back side of a cellophane film (birefringent transparent layer) having birefringence. Table 1 shows the relationship between the thickness of the cellophane film, the optical path length, and the hue when the optical axis angles are shifted by 45 °.

Further, by providing a patterned metal reflective layer in a predetermined region on the surface side of the sticker having a verification function of such a configuration, a patterned metal reflective layer formed on the surface side and a metal formed on the back side The latent image can be contained by a combination of the reflective layer and the birefringent transparent layer disposed therebetween.

That is, it is difficult to distinguish between the metal reflective layer formed on the front side and the metal reflective layer formed on the back side because the birefringent transparent layer is transparent simply by visual observation. However, when both are observed through a linear polarizing plate as a verification tool, the area of the metal reflective layer formed on the front side always appears white, but the hue of the area of the metal reflective layer formed on the back side changes. Therefore, since a contrast is created between the two, it is possible to visualize a latent image that has been difficult to visually recognize when visually observed. Further, it is also possible to apply the determination to the authenticity by using the result of confirming whether or not the latent image can be visualized in this way.

  Further, when the birefringent transparent layer is formed of a film having a λ / 4 retardation (in the case of cellophane, the thickness is about 21 μm), and a circularly polarizing plate is used as a verification tool, there is no anisotropy. Since the verification is based on circularly polarized light, the metal reflective layer on the front side is black and the metal reflective layer on the back side is white and can be recognized by the observer without matching the optical axis during verification.

  In addition, the birefringent transparent layer is laminated in multiple layers, and a metallic reflective layer is provided on each of the back side, the interlayer, and the front side of the birefringent transparent layer, thereby changing the hue at a plurality of locations and a predetermined hue pattern. Appearance is possible.

For example, as shown in FIG. 2, a birefringent transparent layer made of a cellophane film having a thickness of 21 μm is formed on the other surface of the metal reflective layer (202) provided with the adhesive layer 212 on one surface. 201), a metal reflective layer (203) between layers, a birefringent transparent layer (204) made of a cellophane film having a thickness of 35 μm, and a metal reflective layer (205) on the surface side are laminated in this order. In the sticker having the verification function as described above, when the linearly polarizing plate (206) as the verification tool is overlaid, the back side metal reflective layer (207, 208, 209) of the light (207, 208, 209) emitted from the light source (210) The light (207) reflected in 202) exhibits a red color in the same manner as when it passes through a portion of the cellophane film having a total thickness of 56 μm. In addition, the light (208) reflected by the metal reflective layer (203) between the layers passes through the portion of the cellophane film having a thickness of 35 μm, so that it is blue, and the light reflected by the reflective layer on the surface side (205) ( 209) is white because it does not pass through the birefringent transparent layer, and exhibits a predetermined hue pattern derived from various hue changes and the shape of the metal reflective layer provided in some areas. It is possible to go out.

  In addition, in order to adjust the hue presented when verifying the color change information, it is possible to use a verification tool in which a birefringent transparent layer is laminated on a linear polarizing plate. FIG. 3 shows the configuration of such a verification tool and the verification principle when verifying color change information of a medium that requires verification of authenticity such as securities and lotteries by using the verification tool. .

  The verification tool shown here is formed by, for example, laminating a birefringent transparent layer (306) made of a cellophane film having a thickness of 39 μm on a linear polarizing plate (307). When observed on a medium for authenticity determination stuck on a predetermined member (509), the back side metal reflection of the light (308, 309, 310) emitted from the light source (311) is observed. The light (308) reflected by the layer (302) exhibits a blue color as in the case of passing through a cellophane film having a thickness of 70 μm. In addition, the light (309) reflected by the metal reflective layer (303) between the layers is red in the same manner as when passing through a cellophane film having a thickness of 56 μm, and is reflected by the reflective layer on the surface side (305) ( 310) exhibits a green color because it passes through a cellophane film having a thickness of 39 μm.

  Examples of the metal that can be used for each of the metal reflective layers described above include aluminum, tin, chromium, nickel, copper, gold, inconel, stainless steel, and duralumin.

  The metal reflective layer made of these metals is directly formed on a plastic film that becomes a birefringent transparent layer by vapor deposition or sputtering, or by transfer using a transfer foil having a metal reflective layer, and further metallic. What is necessary is just to form by the printing by ink, or the lamination of the film which has metal foil or a metal layer. In the case of forming a patterned metal reflective layer such as the metal reflective layer (203, 205, 303, 305) described above, the metal reflective layer is formed on the entire surface of the substrate, and then the patterning is performed. Processing may be performed, or patterned metal reflection may be transferred or laminated.

  Examples of a method for patterning these metal reflective layers include water-washed celite processing, etching processing, and laser processing.

  Washed sealight processing is done by printing a negative pattern on the base material in advance with water-washing ink, and then forming a metal reflection layer over the entire surface, and then washing the water-washing ink with water and simultaneously using the metal reflection layer. This is a method of forming a positive metal reflection pattern (metal reflection layer) by removing a part of the film.

  In the etching process, a metal reflective layer is first formed, a positive pattern made of a masking agent is formed thereon by printing, and then the unmasked portion is removed by using a corrosive liquid, thereby forming a patterned metal reflective layer. A method of forming a layer.

Laser processing is a method of forming a patterned metal reflection layer by forming a metal reflection layer on a substrate and then removing the metal reflection layer by applying a specific portion of intense laser light. As a laser to be used, a high output Nd: YAG, CO ₂ gas laser is generally used.

  On the other hand, stickers (109, 212, 313, and 505) that constitute a part of a sticker and a thread body to be described later are provided for sticking on other media or firmly fixing in other media. Is a layer. This adhesive layer is a thin film formed of a pressure-sensitive adhesive, an adhesive, or the like, and is generally used as long as it does not alter or affect the birefringent transparent layer or the metal reflective layer. What is necessary is just to form with an agent, an adhesive agent, etc. For example, examples of the adhesive include butyl rubber, natural rubber, silicon, polyisobutyl, and acrylic. Among these, aggregating components such as alkyl methacrylates, vinyl esters, acrylonitrile, styrene, vinyl monomers, modifying components represented by unsaturated carboxylic acids, hydroxyl group-containing monomers, acrylonitrile, polymerization initiators, plasticizers, etc. You may add additives, such as an agent, a hardening | curing agent, a hardening accelerator, and antioxidant, as needed.

  Next, a thread body having the verification function of the present invention will be described. As described above, this thread body has a thread-like birefringent transparent layer, and is provided with a metal reflective layer in at least a part of the back side thereof. If necessary, the thread body according to such a configuration is provided with an adhesive layer (505) as shown in FIG. It is also possible to increase the adhesive strength of.

  Such a threaded body is made into a threaded shape using a cutting machine or the like after a sheet-like laminated body is formed by laminating a birefringent transparent layer, a metal reflective layer, and an adhesive layer in a predetermined configuration. Obtained by cutting.

  On the other hand, the authenticity determination sheet according to the present invention is formed by inserting the thread body having the above-described configuration into a paper base so that a part of the surface is exposed.

  There are various ways to squeeze the thread into the paper substrate. As one of the methods, there is a method in which a thread body is inserted and bonded between two already formed paper base materials and bonded together so that the thread body is exposed at a predetermined portion. In addition, a wet paper having a portion in which the thread body can be exposed in advance is produced by a combination of a circular net, a short net, or a circular net and a long net, and then the threads are combined in the process of combining the wet papers. There is also a method in which the body is inserted between the wet papers in register and integrated.

  The paper base material used for the authenticity judgment paper of the present invention is a plant fiber obtained from conifers, hardwoods, rice, esparto, bagasse, hemp, flax, kenaf, cannabis, etc., polyethylene terephthalate, polypropylene, polyacrylate, polyvinyl chloride It is produced using synthetic fibers made of

  In the case of making paper using plant fibers as raw materials, for example, the fibers are beaten in a water-diluted raw material having a raw material concentration of 0.1 to 5%, preferably about 0.3 to 0.6%. It is made by pouring a water-diluted raw material onto a suddle, a mesh-like wire body, etc., and then evaporating water by squeezing and heating. At this time, strength between fibers is obtained by hydrogen bonding between hydroxyl groups of cellulose as a raw material.

  In addition, clay, talc, calcium carbonate, titanium dioxide, etc. are added as fillers in order to impart printing suitability during papermaking, and rosin, alkyl ketene dimer, stearic anhydride, alkenyl succinic anhydride, Wax or the like may be added. Further, modified starch, polyvinyl alcohol, polyacrylamide, urea, formaldehyde, melamine, formaldehyde, polyethyleneimine and the like may be added as a paper strength enhancer.

  When making a thread body during paper making, use a wire net or a mold made by cutting out a thin plate (metal or other) as a perforated net. After making contact so that the metallic luster side is located, it may be rubbed so that the thread body is hidden.

  FIG. 4 shows the configuration of the flat state of the authenticity determination sheet according to the present invention produced as described above. FIG. 5 is a diagram showing the configuration of the cross-sectional state, where A is the cross-sectional state of the portion where the thread body (402) is exposed on the surface, and B is the thread body (402) inserted into the paper base material. The cross-sectional state of the part which has been shown is shown, respectively.

  Conventionally, a foil having a reflective thin film layer or an OVD foil has a structure in which it is affixed on a paper such as a cash voucher. It was difficult to distinguish from the real thing when pasting the material that had been peeled off or even making a very similar foil. However, in the authenticity determination sheet of the present invention, a thread body having a verification function is inserted in the paper base material, and a polarizing plate or a verification tool partially including the polarizing plate is overlapped from the surface side. By observing the image, it becomes possible to verify the inherent color change information with a change in hue or the appearance of a pattern, and it is possible to easily and surely determine true / false.

  Examples of the present invention will be described below.

  Cellophane films having birefringence with thicknesses of 35 μm, 39 μm, and 56 μm were prepared, respectively, and a metal reflective layer made of aluminum with a thickness of 50 nm was formed on the entire back side of each cellophane film using a vacuum deposition method. Further, a thin film made of an adhesive having the following composition was formed thereon by gravure printing, and then dried at 110 ° C. to form an adhesive layer having a thickness of 2.0 μm. A sticker having the verification function according to 1 was obtained.

And when the linear polarizing plate which is a verification tool was overlapped and observed on those color change information inherent sheets, each exhibited blue, green, and red, and the color change information inherent in each sticker could be verified.
<Composition of adhesive>
Acrylic adhesive ... 30 parts Methyl ethyl ketone ... 50 parts Toluene ... 50 parts

  A silver foil pattern was stamped on a part of the surface side of the cellophane film having a thickness of 21 μm by hot stamping. Further, a metal reflective layer made of aluminum having a thickness of 50 nm is formed on the entire rear surface side by vacuum deposition, and further, a thickness of 2.0 μm is formed thereon by the same method as in Example 1. An adhesive layer was formed, and a sticker having a verification function according to Example 2 of the present invention was obtained.

  The obtained sticker was observed in silver by normal visual observation. However, when the circular polarizing plate as a verification tool was overlapped and observed, the silver foil pattern part was black and the other part was white (silver). A black pattern corresponding to the shape of the silver foil pattern appeared, and the underlying color change information could be verified.

After coating the surface of the following film 1 with an adhesive made of vinyl chloride with a gravure coater so that the film thickness becomes 1 μm, on the metal reflective layer of the film 1, the following film 2 has a pattern portion on top. Thus, a sticker having a verification function according to the present invention according to Example 3 was prepared by aligning with a dry laminate while aligning.

The obtained sticker was observed in silver by normal visual observation, but when the verification tool having the following configuration was observed, the pattern printed with the metallic ink on the film 2 showed green, and the film 1 was coated with the metallic ink. The printed pattern was red, the other parts were blue, a blue pattern appeared, and the underlying color change information could be verified.
<Film 1>
A film in which a pattern is printed with metallic ink on the surface side of a cellophane film having a thickness of 24 μm, and a metal reflective layer made of aluminum having a thickness of 50 nm is provided on the back side by a vacuum deposition method.
<Film 2>
A film produced by printing a pattern with metallic ink on the surface side of a cellophane film having a thickness of 17 μm.
<Verification tool>
A dedicated verification tool made by laminating a cellophane film with a thickness of 39 μm on a linear polarizing plate.

  A metal reflective layer made of aluminum having a thickness of 50 nm was formed on the back surface of the cellophane film having a birefringence of 35 μm and 39 μm by vacuum deposition. Subsequently, an acrylic adhesive (manufactured by Toyo Morton Co., Ltd .: ADCOTE-S35) was applied on the metal reflective layer and dried to form an adhesive layer having a thickness of 4 μm. Thereafter, the obtained laminated sheet was slit with a width of 1.5 mm using a micro slitter to obtain a slit body. The obtained slit body was wound around a bobbin.

Next, the water-diluted raw material beaten and mixed with the softwood pulp is supplied to a hand milling apparatus, and the thread body obtained in the above process is made with a wire, and the authenticity determination sheet of the present invention according to Example 4 (105 g) / M ² ). When the verification tool having the above-described configuration is superimposed on the obtained authenticity determination sheet and observed, the one having a cellophane film with a thickness of 35 μm is recognized as a blue part of the exposed thread body, In the case of the cellophane film having a thickness of 39 μm, the exposed part of the thread body was recognized as green, and the color change information inherent in each part could be verified.

It is explanatory drawing which shows the general | schematic cross-sectional structure of the sticker which has a verification function of this invention, and the verification principle of the color change information inherent in this sticker. It is explanatory drawing which shows the general | schematic cross-sectional structure of the sticker which has the other verification function of this invention, and the verification principle of the color change information inherent in this sticker. It is explanatory drawing which shows the verification principle when verifying the color change information of the authenticity determination medium in which the sticker of a structure as shown in FIG. 2 is partially affixed using a predetermined verification tool. It is a configuration explanatory view showing a planar state of the authenticity determination sheet of the present invention. FIG. 5 is a configuration explanatory diagram of a cross-sectional portion taken along lines aa ′ and bb ′ of the authenticity determination sheet illustrated in FIG.

101 birefringent transparent layer 102 metal reflective layer 103 on the back side verifier (linear polarizing plate)
104 105 106 Light 107 Light source 108 Observer 109 Adhesive layer 201 Birefringent transparent layer 202 Metal reflective layer 203 on the back side Metal reflective layer 204 between layers Birefringent transparent layer 205 Metal reflective layer 206 on the surface side Verifier Polarizer)
207 208 209 Light 210 Light source 211 Observer 212 Adhesive layer 301 Birefringent transparent layer 302 Metal reflective layer 303 on the back side Metal reflective layer 304 between layers Birefringent metal layer 305 Metal reflective layer 306 on the surface side Birefringent transparent Layer 307 Linearly polarizing plate 308 309 310 Light 311 Light source 312 Observer 313 Adhering layer 401 Paper base material 402 Thread body 502 Birefringent transparent layer 503 Birefringent transparent layer 504 Metal reflecting layer 505 Adhering layer

Claims (19)

It has at least one birefringent transparent layer, and a metal reflective layer is provided in at least a part of the back side of the transparent reflective layer. It is a sticker having a verification function in which a layer is laminated,
A sticker having a verification function, wherein a metal reflective layer is provided in a partial region on the surface side of the birefringent transparent layer. The verification function according to claim 1, comprising a plurality of birefringent transparent layers, and these birefringent transparent layers are laminated to form a birefringent transparent laminate. With sticker. The sticker having a verification function according to claim 2, wherein a metal reflective layer is provided in a partial region of an interlayer portion of the birefringent transparent layer of the birefringent transparent laminate. 4. The sticker having a verification function according to claim 3, wherein a metal reflection layer is provided in a partial region of an interlayer portion of the birefringent transparent layer of the birefringent transparent laminate.   While having a birefringent transparent laminated body, a metal reflective layer is provided in at least a part of the back side thereof, and an adhesive layer for adhering on a desired medium is further provided thereon. A sticker having a verification function that is laminated,
  The birefringent transparent laminate is a structure in which a plurality of birefringent transparent layers are laminated,
  A sticker having a verification function, wherein a metal reflective layer is provided in a partial region of an interlayer portion of a plurality of birefringent transparent layers in the birefringent transparent laminate.   The sticker having a verification function according to claim 1, wherein the birefringent transparent layer is made of a uniaxially stretched resin film.   The sticker having a verification function according to claim 1, wherein the birefringent transparent layer is made of a cellophane film.   The sticker having a verification function according to claim 1, wherein the birefringent transparent layer is made of a polycarbonate film.   A authenticity determination medium, wherein a sticker having the verification function according to any one of claims 1 to 8 is attached to a part thereof. A thread body having a verification function, wherein the thread body has at least one layer of a thread-like birefringent transparent layer, and a metal reflective layer is provided in at least a part of the back side thereof. There,
A thread body having a verification function, wherein a metal reflective layer is provided in a partial region on the surface side of the thread-like birefringent transparent layer. 11. The thread body having a verification function according to claim 10, wherein an adhesive layer is laminated on the entire back surface of the thread-like birefringent transparent layer including a portion where the metal reflective layer is formed. The thread-like birefringent transparent layer has a plurality of thread-like birefringent transparent layers, and the plurality of birefringent transparent layers are laminated to form a thread-like birefringent transparent laminate. The thread body having a verification function according to claim 10 or 11 , wherein the thread body has a verification function. Of the thread-like birefringent transparent laminate in a part of the region of the interlayer portion of the plurality of threads like birefringent transparent layer, to claim 12, wherein a metal reflective layer is provided A thread body having the described verification function.   A thread body having a verification function, characterized in that it has a thread-like birefringent transparent laminate, and a metal reflective layer is provided in at least a part of the back side thereof,
  The thread-like birefringent transparent laminate has a plurality of thread-like birefringent transparent layers,
  In the thread-like birefringent transparent laminated body, a metal reflecting layer is provided in a partial region of an interlayer portion of the plurality of thread-like birefringent transparent layers, and has a verification function. Thread body. The thread body having a verification function according to any one of claims 10 to 14, wherein the thread-like birefringent transparent layer is made of a stretched resin film. The sticker having a verification function according to claim 10, wherein the thread-like birefringent transparent layer is made of a uniaxially stretched resin film. The thread body having a verification function according to any one of claims 10 to 16, wherein the thread-like birefringent transparent layer is made of a cellophane film. The thread body having a verification function according to any one of claims 10 to 16, wherein the thread-like birefringent transparent layer is made of a polycarbonate film. A true / false determination sheet, wherein the thread body having a verification function according to any one of claims 10 to 18 is inserted into a paper base so that a part of the surface thereof is exposed.