JP4947193B2 - Information concealed sheet and manufacturing method thereof - Google Patents

Description

The present invention, the information on the sheet, and concealed by covering by laminating a metal foil, in use, the metallic foil peeling and removal, can be seen the information sheet and the information is concealed its process for the preparation of.

  Information on sheets and cards concealed by stacking scratch layers is handed to customers at stores, etc., and customers can remove scratch layers and confirm hits or misses. in use. In addition, when sending a sheet with a password or ID number (personal confirmation number) sent by mail or other means, it hides important information such as preventing others from being inadvertently seen, Since it is possible to easily remove the scratch layer and view information when necessary, it is also used in various applications.

  In the above prior art, the scratch layer is formed by a printing method using an ink composition in which high concealment powder such as aluminum powder is kneaded into a resin binder to increase concealment. For convenience, this type of scratch layer is referred to as a “kneaded type scratch layer”. However, in actuality, if information is recorded and only a kneading type scratch layer is provided, it may cause trouble. Therefore, it is necessary to stack layers other than the kneading type scratch layer. .

  For example, if information such as characters is printed on paper and a scratch sheet in which a kneading-type scratch layer is directly formed is rubbed and removed by rubbing the kneading-type scratch layer, the character or other information is printed. Since the portion may be scraped off together with the kneaded type scratch layer, for the purpose of eliminating this, a transparent resin layer is formed after printing information such as characters. Also, since the kneading type scratch layer is relatively brittle, if it peels off due to external force other than the removal operation, inadvertent contact, etc., the function of hiding information is impaired. A protective layer is laminated on the type of scratch layer.

Therefore, as an attempt to eliminate the drawbacks of the kneaded type scratch layer, it has been proposed to laminate a metal foil as a scratch layer, and when laminating a conventional kneaded type scratch layer, The disadvantage of having to laminate a transparent resin layer and a protective layer has been eliminated (for example, see Patent Document 1).
However, since the metal foil has a smooth surface, only one metal foil causes slight irregularities such as characters on the recording surface to rise through the metal foil. In this publication, at least two metal foils are used. Therefore, it is necessary to transfer the metal foil twice or to prepare a transfer sheet capable of transferring two metal foils.

JP 2000-25374 A

  In the present invention, instead of the kneading type scratch layer, when transferring the metal foil to make a scratch layer, it is possible to eliminate the disadvantage that characters on the recording surface emerge on the surface of the transferred metal foil. Let it be an issue.

  When the present inventor printed on a substrate subjected to processing such as lamination of various layers to form characters and tried to transfer using a transfer sheet capable of transferring a metal layer thereon, the applied layer Depending on the type of material, the unevenness of the characters was not raised on the metal layer, and as a result of repeated studies, a resin layer having specific thermal characteristics was formed on the bottom and the metal layer was transferred. As a result, it was found that the metal layer can be transferred without the unevenness of the characters appearing, and the present invention has been achieved.

In the first invention, a low softening point resin layer made of a synthetic resin and having a softening point of 50 to 80 ° C. is laminated on a base sheet, and the surface of the low softening point resin layer is made of a colored resin composition. A print pattern layer to be concealed with a softening point of resin of 120 to 150 ° C. is laminated so that the surface thereof is flush with the low softening point resin layer, and covers the print pattern layer to be concealed. It is related with the sheet | seat with which the information was concealed characterized by being laminated | stacked .
The second invention, the base sheet is related to the sheet information of claim 1 Symbol placement is concealed, characterized in that it consists of softening point 90 to 150 ° C. of the thermoplastic resin.
According to a third aspect of the present invention, the base sheet is made of a synthetic resin and is made of a low softening point resin layer having a softening point of 50 to 80 ° C. and a colored resin composition, and the softening point of the resin is 120 to 150 ° C. The printing pattern layer to be hidden is laminated so that the low softening point resin layer side becomes the base sheet side, and then the concealment is performed by laminating a metal thin film on the printing pattern layer to be concealed by heating and pressing. The present invention relates to a method for producing a sheet with information concealed, wherein a print pattern layer to be printed is embedded in the low softening point resin layer .
According to a fourth aspect of the present invention, in the second aspect , the base sheet is made of a thermoplastic resin having a softening point of 90 to 150 ° C. It is about.

According to the first and third aspects of the present invention, during the lamination of the metal thin films, the print pattern layer to be concealed with the softening point of the resin of the low softening point resin layer being 120 to 150 ° C. is heated and pressurized to By embedding in the low softening point resin layer having a softening point of 50 to 80 ° C., the printed pattern layer cannot be seen through the metal thin film laminated on the printed pattern layer. It is possible to provide a sheet in which information is concealed and a method for manufacturing the same, which can prevent the metal thin film from appearing as convex portions on the surface .
According to the invention 請 Motomeko 2 and 4, the softening point as a substrate sheet by using a material consisting of 90 to 150 ° C. for the thermoplastic resin, handling and processing can be easily, information is hidden A sheet and a manufacturing method thereof can be provided.

It is a figure which shows the basic structure of the sheet | seat with which the information was concealed. It is sectional drawing of the sheet | seat with which the base material sheet was multilayered and the information was concealed. It is a figure which shows the method of processing into the surface of a base material sheet. It is a figure which shows the method of processing into a multilayer base material sheet.

Figure 1 is a diagram showing a basic structure of the sheet information of this embodiment is concealed. As shown in the plan view of FIG. 1A, the sheet 1 in which the information is concealed has a low softening point resin layer 3 laminated on a part of the base sheet 2 such as paper or plastic. On the softening point resin layer 3, a print pattern layer 4 to be concealed, indicated by characters such as “abc” in the figure, is laminated, and on the low softening point resin layer 3 including the print pattern layer 4 to be concealed Further, the metal thin film 5 is laminated. In FIG. 1 (a), the left side of the metal thin film 5 is removed so that the lower print pattern layer 4 and the low softening point resin layer 3 to be concealed can be seen. It is laminated so as to cover at least the entire printed pattern layer 4 to be concealed.

  As shown in the cross-sectional view of FIG. 1B, the sheet 1 on which the information is concealed has the printed pattern layer 4 to be concealed and the printed pattern layer 4 to be concealed from the upper surface of the low softening point resin layer 3. Are laminated so that the upper surface thereof is flush with the same plane.

  As the base sheet 2, a thin film of paper, plastic, or metal (in the case of metal, a foil), a sheet, or a plate is used alone or in any combination. Things can be used. The selection is made in consideration of the required rigidity, flexibility, adhesion during processing, printability, and the like. When forming a convex character by embossing, one having embossing suitability is selected and used.

  As shown in FIG. 1, the sheet 1 with the information concealed may take the form of a plastic card, and from the viewpoint of suitability for processing, a vinyl chloride resin sheet may be used as the base sheet 2, but during incineration. It is also preferable to use a polyolefin-based resin that hardly causes a problem, a sheet such as an embossable amorphous polyethylene terephthalate resin, or a heat-resistant resin in which an amorphous polyethylene terephthalate resin and a polycarbonate resin are blended. When a plastic sheet is used, a concealed color such as white or a transparent one may be used in combination.

  In addition, as plastics, polyamide resin (nylon resin), cellulose diacetate resin, cellulose triacetate resin, polystyrene resin, polyethylene resin, polypropylene resin, polyester resin (polyethylene terephthalate resin, etc.), polyimide resin, polycarbonate resin, polyolefin resin, Alternatively, other resin sheets can be used. In addition to these, when heat resistance is required, a sheet made of a cured product of a thermosetting resin, for example, a sheet of melamine resin, diallyl phthalate resin, phenol resin, benzoguanamine resin, or the like can be used.

  The sheet 1 in which the information is concealed is mainly formed by variously changing the material or shape of the base sheet 2 or the low softening point resin layer 3 on the base sheet 2, and the printed pattern of information to be concealed It can be directed to various uses by performing recording by various means in an area other than the formation of the layer 4 and the metal thin film 5.

  The paper sheet 2 is suitable for general documents, certificates, stock certificates, securities, various cash vouchers, gift certificates, or transportation tickets. The plastic base material sheet 2 is suitable for applications such as credit cards, savings and saving cards, prepaid cards, identification cards, driver's licenses, and the like.

  In addition to the print pattern layer 4 to be concealed, the base sheet 2 may have a normal print pattern layer. Note that the printed pattern layer refers to a character, figure, symbol, photograph, or the like formed by printing regardless of whether it should be concealed, but may further include a simple colored layer. The information contained in these printed pattern layers is not limited to what can be grasped at first glance, but may be information that has a special meaning that cannot be recognized from mere appearance by encryption, etc. It may be signaled. In addition, the printed pattern layer may be not only a visible size but also a very small one, or a printed pattern layer that is not normally visible but can be read by an appropriate means for making it visible.

  In addition to forming a printed pattern layer on the base material sheet, a magnetic recording layer is formed for magnetic recording, information is recorded by embedding an IC module, a metal thin film is formed, and optical recording is performed by laser writing or the like. Perform embossing with embossed plates, color the convex parts to form embossed characters, stack sign panels to sign the owner, attach a photo, authentic seal (especially hologram seal) For example.

  The low softening point resin layer 3 is a layer for ensuring the concealment property of information in the sheet 1 where information is concealed. Since this low softening point resin layer 3 softens relatively easily by heating, it can be embedded inside the low softening point resin layer 3 by pressurizing the print pattern layer 4 to be concealed. The print pattern layer 4 to be concealed can be prevented from protruding from the low softening point resin layer 3.

  The softening point (meaning softening temperature) of the resin constituting the low softening point resin layer 3 is preferably sufficiently higher than room temperature in terms of use of the sheet 1 in which information is concealed, but the sheet in which information is concealed. 1 is preferably at a relatively low temperature without being damaged by heat, specifically, 120 ° C. or lower, more preferably 100 ° C. or lower. The softening point of the resin constituting the low softening point resin layer 3 is preferably as low as possible, but if it is too low, the environmental temperature when using the sheet 1 with the information concealed rises, or the heat source is inadvertently approached As a result, there is a possibility that a part of the sheet 1 in which the information is concealed, in particular, the portion with the low softening point resin layer 3 may be deformed or peeled off. Therefore, the resin constituting the low softening point resin layer 3 The softening point of is 30 ° C. or higher, more preferably 50 ° C. or higher.

  The resin constituting the low softening point resin layer 3 has a softening point in the above range and is selected in consideration of the adhesiveness with the base sheet 2, the printed pattern layer 4, and the metal thin film 5. In addition, the softening point can be adjusted by blending resins having different softening points or blending a plasticizer with a resin having a high softening point.

  By the way, although it is as having stated about the raw material which comprises the base material sheet 2, when the base material sheet 2 is comprised from the raw material which has a softening point, specifically, it mainly has a thermoplastic resin. When constituted, it is preferable to select a thermoplastic resin as a material constituting the base sheet 2 so that the softening point of the base sheet 2 is higher than the softening point of the low softening point resin layer 3. By doing in this way, it becomes possible to eliminate the thermal influence on the base sheet 2 and soften the low softening point resin layer 3.

  If the softening point of the base sheet 2 is lower than the softening point of the low softening point resin layer 3, the low softening point resin layer 3 is not deformed when the printing pattern layer 4 to be concealed is heated and pressed. Nevertheless, since the base material sheet 2 in the lower layer is compressed and deformed, the printed pattern layer 4 to be concealed is likely to remain protruding from the low softening point resin layer 3 as a result. Because.

  The position where the low softening point resin layer 3 is laminated is not limited to a part of the center of the base sheet 2 as shown, but may be laminated on the entire surface of the base sheet 2. Further, the low softening point resin layer 3 is not laminated only on the upper surface of the base sheet 2 as shown, but may be laminated only on the lower surface, or may be laminated on both the upper and lower surfaces. The low softening point resin layer 3 is formed in accordance with the size of the print pattern layer 4 to be concealed, and the print pattern layer 4 to be concealed is laminated on at least the low softening point resin layer 3. It is preferable that The low softening point resin layer 3 may be laminated on the base sheet as shown in FIG. 1B, or alternatively, the low softening point resin as shown in FIG. 1C. Part or all of the layer 3 may be embedded in the base sheet 2.

  The low softening point resin layer 3 is formed on the base sheet 2 by using a resin solution obtained by dissolving the resin constituting the low softening point resin layer 3 with a solvent by a known coating method or a known printing method. This can be done by stacking. Or formation of the low softening point resin layer 3 can also be performed by transferring on the base material sheet 2 using the transfer sheet which laminated | stacked such a layer so that peeling was possible. The low softening point resin layer 3 may be colored as desired, or a normal printing pattern layer other than the printing pattern layer 4 to be concealed may be laminated on the low softening point resin. May be. The thickness of the low softening point resin layer 3 is preferably at least the same as or greater than the thickness of the print pattern layer 4 to be concealed, preferably 0.5 μm or more, more preferably 1.0 μm or more.

  The printed pattern layer 4 to be concealed is laminated on the low softening point resin layer 3 and is covered and concealed by a metal thin film 5 described later. As mentioned in the description of the prior art, the information to be kept in the printed pattern layer 4 to be concealed includes the “Lottery” display, password, ID number (personal confirmation number), etc. Any type of information that should not be disclosed as information, information that could cause the party to suffer unexpected damage if disclosed, or information that should not be viewed by anyone other than those with a legitimate right It may be information.

  The printed pattern layer 4 to be concealed is usually visible if it is formed and not covered with the metal thin film 5, but it is formed by an invisible method and is irradiated by ultraviolet irradiation. It may be visible by emitting fluorescence. The printed pattern layer 4 to be concealed may be a character, a picture, a symbol, or a symbol, or a character, a picture, a picture, a barcode, or an OCR character. It is preferable that the thickness of the print pattern layer 4 to be concealed does not exceed the thickness of the low softening point resin layer 3.

  The formation of the print pattern layer 4 to be concealed is performed by a known printing method on the low softening point resin layer 3, and a transfer sheet on which the print pattern layer 4 to be concealed is peelably laminated is used. You may carry out by transferring on the low softening point resin layer 3. FIG. The print pattern layer 4 to be concealed may be output by various printers based on data stored in the memory of the computer. In the case where both the print pattern layer 4 to be concealed and the low softening point resin layer 3 are laminated by transfer, the transfer sheet is formed by adhering both layers to each other and detachably laminated as a whole. Is prepared and transferred onto the substrate sheet 2 using the transfer sheet, it is possible to transfer both the low softening point resin layer 3 and the print pattern layer 4 to be concealed by one transfer.

  The metal thin film 5 is for covering and concealing the printed pattern layer 4 to be concealed as a lower layer. At least, it suffices if it is laminated only on the printed pattern layer 4 to be concealed, but when the low softening point resin layer 3 is laminated on a part of the base sheet 2, in the sense of complete concealment, It is preferable to cover the entire area of the low softening point resin layer 3 and its periphery. This is because the position where information is recorded becomes harder to understand as the metal thin film 5 is larger. As a material constituting the metal thin film 5, aluminum is preferable from an economical point of view, but metals such as gold, silver, copper, zinc, tin, nickel, or chromium other than aluminum can be used.

  The metal thin film 5 made of these materials is required to conceal the lower layer, and when formed in a vapor phase such as vapor deposition, the thickness is preferably 30 nm or more, and the upper limit is not particularly limited from the viewpoint of concealment, 80 nm or less, more preferably 50 nm or less. When the metal thin film 5 is composed of a metal foil, it is possible to handle the metal foil alone, so that the metal thin film 5 can be used if the thickness is about 5 μm or more. There is no particular upper limit, but it is about 30 μm in consideration of economy.

  Since the metal thin film 5 does not have adhesiveness alone, when the metal thin film 5 is laminated with the lower layer, an adhesive layer is formed on either the lower surface of the metal thin film 5, the upper surface of the lower layer, or both. Is applied and laminated through the adhesive layer. If the lower layer of the metal thin film 5 has adhesiveness, the adhesive layer may be omitted. The lamination of the metal thin film 5 may be performed using a transfer sheet on which the metal thin film 5 is laminated so as to be peelable. When the metal thin film 5 is laminated, the metal thin film 5 can be laminated to the lower layer by heating and pressurizing. However, by controlling the heating temperature, the metal thin film 5 can be concealed below or below the metal thin film 5 at the same time. The power printed pattern layer 4 can be embedded in the low softening point resin layer 3.

  As described above, the sheet 1 with the information concealed has a basic structure in which the base sheet 2, the low softening point resin layer 3, the printed pattern layer 4, and the metal thin film 5 are sequentially laminated in contact with each other. In addition, although there is not much thought difference from this structure, due to the actual structure of the base sheet 2, there can be the following modified structure.

  FIGS. 2A and 2B show a basic structure and a deformed structure. 2A and 2B, the base material sheet 2 has a structure in which a total of four layers of the oversheet 2a, the core sheets 2b and 2b ′, and the oversheet 2a ′ are sequentially laminated from the top. is there. Three layers of the low softening point resin layer 3, the printed pattern layer 4, and the metal thin film 5 are laminated on the base sheet 2 having such a four-layer structure, and only the metal thin film 5 can be peeled after the lamination. There are two ways to do this.

  One is one in which a low softening point resin layer 3, a printed pattern layer 4, and a metal thin film 5 are laminated in this order on a base sheet 2 having a four-layer structure, as shown in FIG. With this structure, three layers of a low softening point resin layer 3, a printed pattern layer 4, and a metal thin film 5 are laminated to each other, and transfer is performed once by using a transfer sheet in which these three layers are detachably laminated. Can also be manufactured.

  The other is, as shown in FIG. 2B, two layers of a low softening point resin layer 3 and a printed pattern layer 4 are laminated between the core sheet 2b of the base sheet 2 and the oversheet 2a. On the oversheet 2a, the metal thin film 5 is laminated at a position above the low softening point resin layer 3 and the printed pattern layer 4. That is, the metal thin film 5 may be laminated via the transparent resin layer. In this structure, two layers of the printed pattern layer 4 and the low softening point resin layer 3 to be concealed are provided in this order on the lower surface of the oversheet 2a, or the low softening point resin layer 3 is provided on the upper surface of the core sheet 2b and The printed pattern layer 4 can be provided on the lower surface of the sheet 2a, or two layers of the low softening point resin layer 3 and the printed pattern layer 4 can be provided in this order on the upper surface of the core sheet.

  Here, the oversheet is a plastic transparent sheet, and in a general-purpose plastic card, the thickness is 100 μm, and the core sheet is a white sheet having a plastic concealment property. Similarly, in a general-purpose plastic card, The thickness is 280 μm.

  When manufacturing the sheet 1 in which the information is concealed with the structure shown in FIG. 2 (a), as shown in FIG. 3 (a), the over-sheet 2a (the lower layer is not shown) is softened. Let it be the laminated body just before completion which laminated | stacked the point resin layer 3, the printing pattern layer 4 which should be concealed, and the metal thin film 5 on each other. In this state, the print pattern layer 4 to be concealed is laminated on the low softening point resin layer 3 as a convex portion. The base sheet 2 can have a four-layer structure as shown in FIG. Thereafter, the metal thin film 5 on the laminate immediately before completion is heated and pressed to soften the lower softening point resin layer 3 as a lower layer, and the print pattern layer 4 to be concealed is placed in the low softening point resin layer 3. It embeds and it is set as the state laminated | stacked so that the upper surface of the printed pattern layer 4 which should be concealed may make the same plane as the upper surface of the said low softening point resin layer 3 (FIG.3 (b)).

  As described above, instead of heating and pressing the laminate immediately before completion, the uppermost metal thin film 5 is applied on the low softening point resin layer 3 to which the printed pattern layer 4 to be concealed is applied. At the same time, the lower softening point resin layer 3 is softened by heating and pressurizing, and the print pattern layer 4 to be concealed is embedded in the low softening point resin layer 3 so that the upper surface of the print pattern layer 4 to be concealed is low It is good also as a state laminated | stacked so that the upper surface of the softening point resin layer 3 might become the same plane.

  When manufacturing the sheet 1 in which the information is concealed with the structure shown in FIG. 2 (b), as shown in FIG. 4 (a), the core sheet 2b (the core sheet 2b ′ and subsequent parts are not shown). A low softening point resin layer 3 and a print pattern layer 4 to be concealed are laminated between the oversheet 2a and the core sheet 2b, and the low softening point resin layer 3 and the print pattern layer 4 to be concealed are laminated. A laminated body immediately before completion is obtained by superimposing the metal thin film 5 on the laminated upper oversheet 2a and temporarily adhering them. Even in this state, the printed pattern layer 4 to be concealed is laminated on the low softening point resin layer 3 as a convex portion between the core sheet 2b and the oversheet 2a. Thereafter, the metal thin film 5 on the laminate immediately before completion is heated and pressed to soften the lower softening point resin layer 3 as a lower layer, and the print pattern layer 4 to be concealed is placed in the low softening point resin layer 3. The upper surface of the printed pattern layer 4 to be embedded is buried so as to be flush with the upper surface of the low softening point resin layer 3 (FIG. 4B).

  As described above, instead of heating and pressing the temporary adhesive body immediately before completion, the upper metal thin film 5 is placed on the low softening point resin layer 3 to which the printed pattern layer 4 to be concealed is applied. By applying heat and pressure simultaneously with application, the lower low softening point resin layer 3 is softened, and the print pattern layer 4 to be concealed is embedded in the low softening point resin layer 3, and the upper surface of the print pattern layer 4 to be concealed May be laminated so as to be flush with the upper surface of the low softening point resin layer 3. Alternatively, before applying the uppermost metal thin film 5, the printed pattern layer 4 to be concealed is embedded in the low softening point resin layer 3 by sufficiently heating and pressing, and then the uppermost layer is made of metal. Good results can also be obtained by heating and pressing the thin film 5 simultaneously with application.

  First, when the base sheet 2 is mainly composed of a thermoplastic resin, the base sheet 2 is set so that the softening point of the base sheet 2 is higher than the softening point of the low softening point resin layer 3. However, it is preferable that the printed pattern layer 4 to be concealed has a higher softening point than the softening point of the low softening point resin layer 3. In this way, heating and pressurizing at a temperature intermediate between the softening points of both to soften the low softening point resin layer 3, and conceal the printed pattern layer 4 to be concealed in the low softening point resin layer 3. It is possible to prevent the printed pattern layer 4 to be deformed or melted.

  Moreover, the printing pattern layer 4 to be concealed, which is printed and cured using an ink composition using a curable resin as a binder resin, is printed using an ink composition using a thermoplastic resin as a binder resin. However, it does not have a softening point as in the case of being formed, but is highly durable when heated and pressed, and can be easily embedded in the low softening point resin layer 3 by heating and pressing, which is preferable. .

  The binder resin made of a general thermoplastic resin constituting the ink composition often has a softening point higher than the softening point of the low softening point resin layer 3 consciously set to a low softening point, When designing the ink composition, it is preferable to select a binder resin such that the softening point of the print pattern layer 4 to be concealed is 10 ° C. or higher than the softening point of the low softening point resin layer 3. Therefore, one softening can be prevented by heating and pressurizing at a temperature intermediate between the softening points of the two. The upper limit of the softening point of the ink composition is not particularly limited, but the upper limit of the softening point of the print pattern layer 4 to be concealed formed using a binder resin selected within the range of practical thermoplastic resin is about 150 ° C. It is. In addition, in the printed pattern layer 4 to be concealed formed using the ink composition, it is formed from the colored resin composition because there is a difference from the ink composition due to evaporation of the solvent component and the like. It shall be expressed and distinguished as follows. In addition, some of the print pattern layers 4 to be concealed that are formed and cured using a curable resin binder resin are not easily softened.

  Similar to the softening point of the print pattern layer 4 to be concealed, the softening point of the base sheet composed mainly of thermoplastic resin is preferably higher by 10 ° C. or more than the softening point of the low softening point resin layer 3, Practically, it is about 150 ° C. or lower.

(Example 1) A base sheet, a low softening point resin layer, and a printed pattern layer were laminated in this order as follows to prepare a printed sheet. As the base sheet, a single-sided corona discharge-treated biaxially stretched polyethylene terephthalate resin film having a thickness of 188 μm (softening point is 150 ° C.) is used, and a low softening point resin layer forming ink having the following composition is provided on the corona discharge-treated surface. Using the composition, a low softening point resin layer having a dry thickness of 1.0 μm and a softening point of 80 ° C. was formed almost at the center of the base sheet by a silk screen printing method. The softening point was the temperature at which the value of tan δ = E2 / E1 peaked from the elastic modulus E1 and viscosity E2 obtained by the following measurement. As a measuring device, longitudinal vibration type dynamic viscoelasticity measuring device, name: “Rheogel-E4000” (manufactured by UBM), (1) measuring method; dynamic viscoelasticity measurement (sinusoidal wave), (2) Measurement mode: Temperature dependence, (3) Chuck: Pulling jig, (4) Waveform: Sine wave, (5) Sample: Width 5 mm, Length 20 mm, (6) Measurement conditions; Frequency: 10 Hz, Temperature Range: 30 ° C. to 70 ° C., temperature increase rate: 3 ° C./min, strain: 10 μm (automatic control).
(Ink composition for forming a softening point resin layer)
-Vinyl chloride / vinyl acetate copolymer resin 30 parts-Cyclohexanone 25 parts-Toluene 20 parts All "parts" are based on mass, including the following.

  On the formed low softening point resin layer, letters were printed using an ultraviolet curable offset printing ink and cured by ultraviolet irradiation to form a printed pattern layer. The thickness of the coating film of the printed pattern layer was 1 μm, and the softening point of the coating film was 120 ° C.

  A transfer sheet for transferring the metal thin film onto the printed pattern layer was prepared. As a support sheet, a biaxially stretched polyethylene terephthalate resin film having a thickness of 16 μm is used, and a thickness when dried is 0.5 μm by a gravure reverse coating method using a releasable resin layer forming coating liquid having the following composition. A releasable resin layer is formed, an aluminum thin film having a thickness of 500 mm is formed on the releasable resin layer by vacuum deposition, and an adhesive layer forming coating liquid having the following composition is further formed on the aluminum thin film. An adhesive layer having a thickness of 1 μm when dried was formed by a gravure reverse coating method using an aluminum thin film transfer sheet.

(Releasable resin layer forming coating solution)
・ 5 parts of melamine acrylate resin ・ 1 part of cellulose acetate resin ・ 0.05 part of paratoluenesulfonic acid ・ 25 parts of methyl alcohol ・ 45 parts of ethyl alcohol (coating liquid for forming an adhesive layer)
・ Vinyl chloride / vinyl acetate copolymer resin 20 parts ・ Acrylic resin 10 parts ・ Ethyl acetate 20 parts ・ Toluene 50 parts

  On the printed sheet prepared as described above, the adhesive layer side of the aluminum thin film transfer sheet prepared as described above is overlaid on the low softening point resin layer on which the printed pattern layer is laminated, and heat is applied. Using a press, heat and pressurize for 1 second under the conditions of a hot platen temperature of 150 ° C. and a pressure of 50 kg / cm 2 to transfer the aluminum thin film onto the printed pattern layer, and the printed pattern layer is covered with the metal thin film. A printed sheet was obtained.

  (Example 2) As a film, a white polyethylene terephthalate resin film (softening point is 90 ° C., hereinafter referred to as white PET film) having a thickness of 280 μm and a transparent polyethylene terephthalate resin film (softening point is 90 ° C., hereinafter transparent PET film) Prepared two types. First, on a white PET film, a low softening point resin layer (softening point is 80 ° C.) and a printed pattern layer (softening point is 120 ° C.) by the same materials and means as those applied to the base sheet in Example 1. ) In order.

  On the side where the low softening point resin layer and the printed pattern layer of the white PET film are laminated, one transparent PET film, on the side where the low softening point resin layer and the printed pattern layer are not laminated, the white PET film and The transparent PET films were stacked one by one in order, and the entire stack was heated and pressurized for 10 seconds under the conditions of a hot plate temperature of 150 ° C. and a pressure of 50 kg / cm 2 using a hot press to heat each other. A laminate was made by fusing.

  On the transparent PET film on the side of the laminate produced as described above on the side where the printed pattern layer can be seen through the transparent PET film (when viewed from the opposite side, the printed pattern layer is not visible due to the concealment of the white PET film). In addition, on the upper side where there is a low softening point resin layer on which a printed pattern layer is laminated, the same aluminum thin film transfer sheet prepared in Example 1 is laminated so that the adhesive layer side is in contact, A laminate in which the aluminum thin film is transferred above the printed pattern layer by heating and pressurizing for 1 second under the conditions of a panel temperature of 150 ° C. and a pressure of 50 kg / cm 2, and the printed pattern layer is concealed with a metal thin film. Obtained.

  (Comparative Example 1) The same operation as in Example 1 was performed except that the formation of the low softening point resin layer was omitted.

  (Comparative example 2) It carried out similarly to Example 1 except having formed the low softening point resin layer after forming the printing pattern layer on the base material sheet.

  (Comparative Example 3) The same procedure as in Example 2 was performed except that the formation of the low softening point resin layer was omitted.

  (Comparative Example 4) The same operation as in Example 2 was conducted except that a printed pattern layer was formed on a white PET film and a low softening point resin layer was formed.

  (Comparative Examples 5 and 6) Each of the resin layers corresponding to the low softening point resin layers was printed using different types of UV curable offset printing inks and cured by UV irradiation, and the softening point was 90. C. (Comparative Example 5) and 100.degree. C. (Comparative Example 5) low softening point resin layers were formed.

About the obtained samples obtained in Examples 1 and 2 and Comparative Examples 1 to 6, whether the presence of the printed pattern layer is visible due to the unevenness on the surface of the metal thin film (concealment property) was determined visually Are shown in Table 1 together with the softening point (T1) of the printed pattern layer, the softening point (T2) of the low softening point resin layer, and the softening point (T3) of the base sheet. In any sample, the metal thin film could be removed without any problem.

Information such as the lottery is available to the manufacturing method of the hidden sheet and its.

1 Card with information concealed 2 Base sheet (2a; oversheet, 2b; core sheet)
3 Low softening point resin layer 4 Print pattern layer 5 Metal thin film

Claims (4)

  A low softening point resin layer made of synthetic resin and having a softening point of 50 to 80 ° C. is laminated on the base sheet, and the softening point of the resin made of a colored resin composition is 120 on the surface of the low softening point resin layer. The printed pattern layer to be concealed at ˜150 ° C. is laminated so that the surface thereof is flush with the low softening point resin layer, and the metal thin film is laminated to cover the printed pattern layer to be concealed. Characteristic sheet with hidden information. Sheet information according to claim 1 Symbol mounting the base sheet is characterized by comprising the softening point 90 to 150 ° C. for the thermoplastic resin is concealed.   On the base sheet, a low-softening point resin layer made of a synthetic resin and a softening point of the resin of 50 to 80 ° C. and a printed pattern layer made of a colored resin composition and having a softening point of the resin of 120 to 150 ° C. By laminating the low softening point resin layer side to be the base sheet side, and then laminating a metal thin film on the printed pattern layer to be concealed by heating and pressing, the concealed printed pattern layer is A method for producing a sheet with information concealed, which is embedded in a low softening point resin layer. The method for producing a sheet with information concealed according to claim 3 , wherein the base sheet is made of a thermoplastic resin having a softening point of 90 to 150C.

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