JP2016210286A - Graphic film for license plate and manufacturing method therefor, and license plate with graphic film - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a graphic film for license plate with which, reading of a registered number on the license plate by an automatic license plate reader (ALPR) is not impaired by a printed image, and also provide a manufacturing method for the graphic film for license plate, and a license plate with such a graphic film.SOLUTION: A graphic film for license plate according to an embodiment in the present disclosure comprises: a substrate; printed images disposed on the substrate; and registered number identification regions inside which a registered number is disposed. The black ink dot rate of the printed image inside the registered number identification region is 70% or less.SELECTED DRAWING: Figure 1

Description

  The present disclosure relates to a graphic film for a license plate having a printed image, a manufacturing method thereof, and a license plate having the printed image, which includes such a graphic film.

  Conventionally, an ALPR (Automated License Plate Reader) system installed on or in the vicinity of a road is used in order to read a license plate (also referred to as a license plate, the same applies hereinafter in this disclosure) of a passing vehicle. Widely used. ALPR systems typically detect and recognize vehicles by camera systems. Examples of use of the ALPR system are enforcement of road traffic laws, investigation of vehicles related to crime, and facility access control. In the ALPR system, since an infrared camera is typically used for reading the license plate, the license plate is irradiated with infrared rays.

  In the United States, a reflective license plate having a printed image such as a pattern is widespread. In Japan, on the other hand, non-reflective or reflective license plates with symbols are used as motorized bicycle license plates. According to a press release in February 2014, the Ministry of Land, Infrastructure, Transport and Tourism is expected to introduce a license plate with a pattern as a special license plate for the 2020 Tokyo Olympics for general vehicles such as automobiles in 2015. According to a press release in January 2015, the Ministry of Land, Infrastructure, Transport and Tourism announced a license plate with a design for automobiles that featured local specialties or sightseeing spots in 2016, or so-called “local characters”. Is scheduled to be issued.

  Patent Document 1 (Japanese Patent Publication No. 2012-512428) discloses an “optically active article, comprising an infrared reflective material positioned adjacent to an optically active base material, wherein the infrared reflective material includes the optically active group. An optically active article is described that forms a pattern that can be read by an infrared sensor when the material is illuminated by an infrared source.

  Patent Document 2 (Japanese Patent Publication No. 2013-508749) describes a “retroreflective sheet including a cube corner element, a reflector layer adjacent to the cube corner element, and an infrared opaque material”. ing.

Special table 2012-512428 gazette Special table 2013-508749 gazette

  However, in a license plate having a print image such as a design, the print image that overlaps the registration number affects the reading of the ALPR, and the registration number may not be recognized correctly.

  The present disclosure provides a license plate graphic film and a manufacturing method thereof, and a license plate including such a graphic film, in which reading of a license plate registration number by an automatic license plate reader (ALPR) is not hindered by a printed image. To do.

  According to an embodiment of the present disclosure, there is provided a license plate graphic film having a base material and a printed image disposed thereon, wherein the graphic film has a registration number identification area in which a registration number is disposed. And a graphic film having a halftone dot area ratio of black ink of a printed image in the registration number identification area of 70% or less.

  According to another embodiment of the present disclosure, providing a substrate, providing image data corresponding to a print image, and for each pixel corresponding to a registration number identification region in the image data, the registration number identification Adjusting the CMYK components so that the halftone dot area ratio of the black ink in the region is 70% or less, generating print image data, and printing the print image on the substrate based on the print image data A method for producing the graphic film is provided, including printing.

  According to yet another embodiment of the present disclosure, a printed image comprising a base plate, the graphic film mounted on the base plate, and a registration number disposed within a registration number identification area of the graphic film. A license plate is provided.

  According to the present disclosure, a design having a print image without hindering reading of the registration number of the license plate by ALPR because the halftone dot area ratio of the black ink of the print image in the registration number identification region is 70% or less. A license plate with excellent characteristics can be provided.

  The above description should not be construed as disclosing all embodiments of the present invention and all advantages related to the present invention.

It is a schematic top view of the graphic film for license plates of one embodiment of the present disclosure. It is a schematic sectional drawing of the graphic film of FIG. It is a schematic sectional drawing of the graphic film for license plates of another embodiment of this indication. FIG. 3 is a schematic cross-sectional view of a license plate according to an embodiment of the present disclosure. The transmission spectrum of each ink of the genuine ink for JV5 solvent inkjet printer manufactured by Mimaki Engineering Co., Ltd. is shown. The transmission spectrum of each ink of ColorPainter H2-104S solvent ink jet printer manufactured by Seiko I Infotech Co., Ltd. is shown. The transmission spectrum of each ink of genuine ink for UJV500-160UV inkjet printer manufactured by Mimaki Engineering Co., Ltd. is shown. The transmission spectrum of each ink of genuine ink for 3M (registered trademark) Scotch Master (trademark) Edge II system (thermal transfer printer) is shown.

  Hereinafter, the present invention will be described in more detail with reference to the drawings for the purpose of illustrating representative embodiments of the present invention, but the present invention is not limited to these embodiments. With respect to the reference numbers in the drawings, elements with similar numbers in different drawings indicate similar or corresponding elements.

  Definitions of terms in the present disclosure are as follows.

  “Film” includes articles called “sheets”.

  “Transparent” means that the average transmittance of light of a specific wavelength or wavelength range of interest is about 60% or more, preferably about 80% or more, more preferably about 90% or more.

  “Retroreflective” means a phenomenon or material property in which light from a light source incident on a material is reflected and reflected in the direction of the light source, and “non-retroreflective” has retroreflective properties. Means no material properties.

  A graphic film for a license plate according to an embodiment of the present disclosure includes a registration number identification area having a base material and a printed image arranged thereon and having a registration number arranged therein.

  FIG. 1 is a schematic top view and FIG. 2 is a schematic cross-sectional view of a license plate graphic film according to an embodiment of the present disclosure. The graphic film 10 has three printed images 14 arranged on a substrate 12. In FIG. 1, a rectangular registration number identification area 24 surrounded by a dotted line and a registration number 26 whose outline is outlined by a dotted line are indicated by a dotted line. The registration number identification area 24 is generally not provided with a frame line or coloring that can be visually confirmed. The registration number 26 has not yet been assigned to the graphic film 10 and is generally assigned when the license plate is manufactured. The left rhombus print image 14 is entirely included in the first registration number identification area 24 from the left side and overlaps a part of the registration number “1”. A part of the right oval print image 14 is included in the first and second registration number identification areas from the right and overlaps part of the registration numbers “3” and “4”. Is outside the registration number identification area. The regular triangular print image 14 located at the top is not included in any registration number identification area. In this disclosure, the object of discussing the dot area ratio of the black ink includes a print image (for example, the diamond-shaped print image 14 in FIG. 1) and a portion of the print image (for example, the ellipse in FIG. 1). Part of the printed image 14).

  The registration number is a set of characters displayed on the license plate for vehicle identification purposes. The set of characters constituting the registration number varies depending on the jurisdiction of the license plate. For example, in Japan, the registration number is a combination of a place name, a classification number, a hiragana and a 4-digit number.

  The registration number identification area is an area necessary for identifying the registration number by ALPR. The size of the registration number identification area is determined by the ALPR vehicle and license plate detection system, imaging conditions and resolution of the infrared camera, license plate recognition algorithm, OCR software, and the like. The height and shape can vary.

  In one embodiment, the registration number identification area is a registration number arrangement area defined in accordance with laws and regulations in the jurisdiction of the license plate. In some other embodiments, the registration number identification area is outward from the outer edge of the registration number placement area, eg, about 0.1 mm or more, about 0.5 mm or more, or about 1 mm or more, about 5 mm or less, about 3 mm. Or defined as a region surrounded by a contour line located at a distance of about 2 mm or less. For example, in Japan, the license plate registration number placement area is specified in the first form of the Road Transport Vehicle Law Enforcement Regulations, and the place name and hiragana are four-digit numbers in a square area of 40 mm in length and 40 mm in width. Is arranged in a rectangular area of 80 mm long × 40 mm wide or 120 mm long × 60 mm wide, one character at a time. In the above-described manner, a part of the outline of the number is in contact with the outer edge of the registration number arrangement area, so that the registration number identification area is, for example, about 0.1 mm or more, or about. It can be defined as a region surrounded by a contour line located at a distance of 5 mm or more, about 3 mm or less, or about 2 mm or less. If the registration number arrangement area is sufficiently large with respect to the character, the registration number identification area is moved from the outer edge of the registration number arrangement area to the inside on the condition that the entire character is included in the registration number identification area, for example, It can also be defined as a region surrounded by a contour line located at a distance of about 0.1 mm or more, about 0.5 mm or more, or about 1 mm or more, about 5 mm or less, about 3 mm or less, or about 2 mm or less. Thus, by defining the registration number identification area based on the registration number arrangement area, one type of graphic film can be applied to license plates having different registration numbers in the jurisdiction of the same license plate.

  In some other embodiments, the registration number identification area is outward from the contour of the registration number letter, eg, about 0.1 mm or more, about 0.5 mm or more, or about 1 mm or more, about 5 mm or less, about 3 mm or less. Or an area surrounded by a contour line located at a distance of about 2 mm or less. In these embodiments, generally, a graphic film and a license plate are manufactured in a series of processes, and a license plate having excellent color reproducibility can be provided by using black ink in as wide a range as possible.

  In still another embodiment, the registration number identification area is defined as a registration number arrangement area as described above for a certain character, or is defined by a contour line based on the registration number arrangement area. On the other hand, another character may be defined as a region surrounded by a contour line located outside the contour of the character as described above.

  As the substrate of the graphic film, for example, various conventionally known polymer sheets having physical properties suitable for license plate use can be used. Examples of the polymer include polyurethane, acrylic resin, polyester, polyolefin, vinyl chloride resin, vinyl chloride-vinyl acetate resin, polycarbonate, polyimide, polyamide, and polyester-amide. The substrate may be a laminate of a plurality of materials.

  In some embodiments, the substrate comprises a vinyl chloride resin, a vinyl chloride-vinyl acetate resin, an acrylic resin, or a combination thereof. These polymers are excellent in image receptivity, and can form high-quality printed images on a substrate.

  In some embodiments, the base material is a material that does not easily crack or lift when the license plate is manufactured, that is, sufficient flexibility and stretchability to follow the deformed shape of the embossed part or the debossed part. It is preferable to have. Preferred polymers from this viewpoint include vinyl chloride resin, vinyl chloride-vinyl acetate resin, polyurethane, acrylic resin, polyolefin and the like.

  The base material may contain white pigments such as titanium oxide and zinc oxide, and may have a coating containing these white pigments. By using a substrate containing a white pigment or a substrate having a coating containing a white pigment, the base color of the base plate can be concealed to provide a clearer printed image.

  In some embodiments, the substrate is non-retroreflective. Non-retroreflective substrates are advantageous from the standpoint of good identification of registration numbers by ALPR tuned for reading a paint license plate.

  Examples of the non-retroreflective substrate include a sheet formed using one or a plurality of the above polymers, a sheet containing a combination of one or a plurality of the above polymers and a fluororesin, and the like.

  In some embodiments, the substrate is retroreflective. The retroreflective substrate is advantageous in that the license plate has good visibility at night or under low light or at a distance. As the retroreflective substrate, various conventionally known retroreflective sheets can be used. For example, a retroreflective element such as a light transmissive bead or a cube corner, and a sheet having a reflective layer as necessary are exemplified. As the retroreflective sheet, for example, Japanese Patent No. 2642199, Japanese Patent No. 2788030, Japanese Patent No. 2960478, Japanese Patent No. 3038218, Japanese Patent No. 3594969, Special Table 2000-506623 and Special Table 2000- A sheet such as that described in Japanese Patent No. 508434 can be used.

Regarding the retroreflectivity of the substrate, the retroreflection coefficient (based on JIS Z 9117) at an observation angle of 0.2 degrees and an incident angle of 5 degrees is at least about 1 cd / lx / m ² . In certain preferred embodiments, the retroreflective sheet has a retroreflective coefficient of about 45 cd / lx / m ² or greater, or about 50 cd / lx / m ² or greater. For example, it is desirable that white specified in ISO 7591: 1982 is about 45 cd / lx / m ² or more, and yellow is about 30 cd / lx / m ² or more. If it is encapsulated lens-type type 1-B-b of JIS Z 9117, about 35cd / lx / ^{m 2} or more for white, about 25cd / lx / ^{m 2} or more for yellow, for red about 10 cd / lx / m ² or more, for the yellow red about 13cd / lx / ^{m 2} or more, about 5cd / lx / ^{m 2} or more for the green, it is desirable for the blue is about 3cd / lx / ^{m 2} or more.

  Depending on whether the license plate is non-retroreflective or retroreflective, it is usually necessary to change ALPR reading settings or graphic film design. However, the graphic film of the present disclosure can impart good discrimination to the ALPR system to the license plate regardless of whether a non-retroreflective substrate or a retroreflective substrate is used.

  The thickness of the base material is preferably about 15 μm or more, about 30 μm or more, or about 45 μm or more from the viewpoint of durability of the license plate. When the embossed portion or the debossed portion is formed on the license plate, the deformed shape is changed. From the viewpoint of followability, it is preferably about 300 μm or less, about 250 μm or less, or about 220 μm or less.

  The breaking strength of the substrate is preferably about 5 N / 25 mm or more, about 10 N / 25 mm or more, or about 20 N / 25 mm or more from the viewpoint of good durability, and preferably about 200 N / 25 or more from the viewpoint of manufacturability. 25 mm or less, about 175 N / 25 mm or less, or about 150 N / 25 mm or less. In the present disclosure, the breaking strength is a value measured according to JIS Z 0237.

  The elongation of the base material is preferably about 30% or more, or about 35% or more from the viewpoint of preventing the occurrence of cracks during embossing or debossing and preventing lifting from the base plate, and has good mechanical strength. From the viewpoint, it is preferably about 400% or less, or about 350% or less. In the present disclosure, the elongation is a value measured according to ASTM test method D882-80a.

  Various commercially available products can be used as the substrate. For example, a graphic film suitable for forming a printed image can be advantageously used as the substrate. Examples of commercially available graphic films include 3M (registered trademark) control tack (registered trademark) graphic film IJ180-10 (3M company), 3M (registered trademark) Scotchcal (registered trademark) graphic film IJ5331, and RG5333R (3M company). Is mentioned.

  As an example of a commercially available retroreflective film, for example, 3M (registered trademark) reflective sheet BR190500, 3M (registered trademark) Preferential Reflective Plate Sheeting 4750 and 4770, 3M (registered trademark) High Definition License PlateSeat 6M3 Etc.

  The printed image on the graphic film gives the license plate decorativeness, design, identification, and the like. For example, the print image can be provided with a design, a pattern, or the like on a background portion other than the registration number of the license plate. A printed image is formed by printing a colorant such as ink or toner on a substrate using a printing technique such as gravure printing, screen printing, offset printing, electrostatic printing, ink jet printing, or thermal transfer printing. Can do. Use inkjet printing or thermal transfer printing because printing images can be easily printed on a substrate even in small lot units based on printing image data corresponding to various images, and full-color printing images with outdoor weather resistance can be obtained. Is advantageous. Examples of printers used for inkjet printing include solvent inkjet printers and UV inkjet printers. Examples of printers used for thermal transfer printing include hot melt thermal transfer printers and sublimation thermal transfer printers.

  Printing inks such as inkjet printing and thermal transfer printing are generally provided as a four-color ink set of cyan (C) ink, magenta (M) ink, yellow (Y) ink, and black (K) ink, enabling full color printing. To do. In order to improve the reproducibility of highlights, a 6-color ink set obtained by adding light cyan ink and light magenta ink to these 4 colors, or a 7-color ink set obtained by further adding gray ink or dark yellow ink may be used. is there. These inks are known in the art and generally contain a pigment or dye of a corresponding color, a binder or a vehicle, and further contain water, an organic solvent, a dispersant, a curing agent, etc. as necessary.

  Examples of the inkjet printing ink include, for example, genuine ink for JM5 solvent inkjet printer manufactured by Mimaki Engineering Co., Ltd., genuine ink for ColorPainter H2-104S solvent inkjet printer manufactured by Seiko I Infotech Co., Ltd., UJV500-160UV inkjet printer manufactured by Mimaki Engineering Co., Ltd. Pure ink can be used. As the thermal transfer printing ink, for example, an ink set for 3M (registered trademark) Scotch Master (trademark) Edge II system (thermal transfer printer) can be used.

  Chromatic inks such as cyan ink, magenta ink, and yellow ink generally do not have significant absorption in the infrared region. For this reason, pixels printed using these chromatic inks do not cause a shadow when the registration number is read by ALPR. On the other hand, since carbon blacks such as furnace black, channel black, thermal black, and acetylene black, which are commonly used as pigments for black ink, have absorption in the infrared region, pixels printed using black ink are When the registration number is read by ALPR, it becomes a shadow, and depending on the position and density of such print pixels, the identification of the registration number may be hindered.

In the graphic film of the present disclosure, the dot area ratio of the black ink of the printed image in the registration number identification area is about 70% or less. By setting the black dot halftone area ratio of the print image in the registration number identification area to about 70% or less, the registration number can be accurately recognized by ALPR even if the registration number and the print image overlap. The black dot halftone dot area ratio is defined as the area ratio of the black ink halftone dots (dots) included in an arbitrary area of a certain area on the license plate, for example, an arbitrary circular area of 10 mm square or area 10 mm ^2. be able to. The dot area ratio of black ink in a printed image printed on graphic film is an image obtained by enlarging (for example, 100 times) an area having a certain area (for example, 10 mm square) or a part thereof (for example, 2 mm square) with an optical microscope. Using image processing software such as Adobe Photoshop, the ratio of the number of pixels of the black ink to the number of pixels of the entire image is calculated, and can be determined by repeating the above operation on another region or part.

  In one embodiment, the dot area ratio of the black ink of the print image in the registration number identification area is 0%, that is, the print image in the registration number identification area does not contain black ink. In this embodiment, a license plate that is particularly excellent in distinguishability by ALPR, for example, a license plate that enables accurate recognition of a registration number even for a vehicle located at a long distance or a vehicle moving at a high speed, is provided. Can do.

  In some embodiments, the dot area percentage of the black ink of the printed image within the registration number identification area is about 50% or less, about 30% or less, about 20% or less, or about 10% or less. The smaller the dot area ratio of black ink, the higher the recognition rate of the registration number by the infrared camera. On the other hand, in some other embodiments, the dot area ratio of the black ink of the printed image in the registration number identification area is about 1% or more, about 5% or more, about 10% or more, about 15% or more, or About 20% or more. The larger the dot area ratio of the black ink, the more the color reproducibility can be improved. Therefore, in an embodiment in which the printed image in the registration number identification area contains black ink with a dot area ratio within the above range, a license plate having excellent color reproducibility while maintaining ALPR discrimination is provided. can do.

  The dot area ratio of the black ink of the printed image outside the registration number identification area may be greater than about 70%, about 80% or more, about 90% or more, or 100%. In some other embodiments, the dot area ratio of the black ink of the printed image outside the registration number identification area is about 70% or less, about 50% or less, about 30%, as in the registration number identification area. Hereinafter, it is about 20% or less, or about 10% or less. In yet another embodiment, the black dot area ratio of the printed image outside the registration number identification area is about 1% or more, about 5% or more, about 10 as in the registration number identification area. % Or more, about 15% or more, or about 20% or more.

  For a print image in which the halftone dot area ratio of the black ink in the registration number identification area is about 70% or less, or within the above range, for example, image data corresponding to the print image is prepared, and the registration number in the image data For each pixel corresponding to the identification area, each component of cyan, magenta, yellow, and black, that is, CMYK so that the dot area ratio of the black ink in the registration number identification area is about 70% or less or within the above range. It can be formed by adjusting the components to generate print image data and printing the print image on the substrate based on the generated print image data. As the black component in the image data is decreased, it is usually necessary to increase at least one of the three components of cyan, magenta, and yellow and substitute the black component by mixing these three components. In this case, the black component may increase for some pixels in the registration number identification area. Adjustment of the CMYK component including adjustment of the dot area ratio of black ink and generation of print image data by the adjustment can be performed using image processing software such as Adobe Illustrator, for example. In another embodiment, the CMYK component may be adjusted for all the pixels in the image data.

  In one embodiment, the CMYK components are adjusted so that the black components of all the pixels corresponding to the registration number identification area in the image data are 0%. In some other embodiments, the black component of all pixels corresponding to the registration number identification region in the image data is about 70% or less, about 50% or less, about 30% or less, about 20% or less, or about 10 The CMYK component is adjusted so as to be less than or equal to%. In still another embodiment, the black component of all pixels corresponding to the registration number identification region in the image data is about 1% or more, about 5% or more, about 10% or more, about 15% or more, or about The CMYK component is adjusted to be 20% or more. In this way, by adjusting the CMYK components so that the black components of all the pixels are within the predetermined range, the halftone dot area ratio of the black ink in the registration number identification region can be within the predetermined range. The CMYK component adjustment may be performed on all pixels in the image data.

  The thickness of the printed image may vary and is generally about 1 μm or more, or about 2 μm or more, about 8 μm or less, or about 5 μm or less when solvent-based ink is used. When UV-based ink is used, it can be about 1 μm or more, or about 5 μm or more, about 50 μm or less, or about 30 μm or less.

  The graphic film may further have a surface protective layer covering the printed image and the substrate. Various resin films can be used as the surface protective layer. Examples of the resin suitably used for the surface protective layer include vinyl chloride resin, vinyl chloride-vinyl acetate resin, polyurethane, acrylic resin, polyolefin, and combinations thereof. The surface protective layer is preferably transparent to visible light and infrared light so as not to affect the visibility of the printed image and the ALPR discrimination.

  The thickness of the surface protective layer can vary and can generally be about 40 μm or more, about 50 μm or more, or about 60 μm or more, about 200 μm or less, about 150 μm or less, or about 100 μm or less.

  You may arrange | position a joining layer between a printed image and a base material, and a surface protective layer as needed. The bonding layer can be formed from a conventionally known adhesive and is appropriately selected according to the material of the objects to be bonded. As the adhesive, for example, an adhesive based on acrylic resin, epoxy resin, polyester, or the like can be used. The bonding layer is preferably transparent to visible light and infrared light so as not to affect the visibility of the printed image and the ALPR discrimination.

  The thickness of the bonding layer can vary and can generally be about 10 μm or more, or about 20 μm or more, about 200 μm or less, or about 100 μm or less.

  3 is a schematic cross-sectional view of a license plate graphic film according to another embodiment of the present disclosure. The graphic film 10 includes a surface protective layer 16 that covers the printed image 14 and the substrate 12, and the printed image 14 and the substrate. 12 and a bonding layer 18 disposed between the surface protective layer 16.

  The graphic film may have an adhesive layer for adhering to the base plate of the license plate. Examples of the adhesive that can be suitably used for the adhesive layer include a cross-linked and plasticized acrylic pressure-sensitive adhesive or a hot-melt pressure-sensitive adhesive. Use other pressure-sensitive adhesives based on natural rubber, synthetic rubber, silicone or other polymers and optionally containing additives such as tackifiers, antioxidants, UV absorbers, plasticizers, etc. You can also. In the present disclosure, “pressure-sensitive adhesive” refers to an adhesive that adheres to various surfaces with light pressure and does not exhibit a phase change (from liquid to solid). The adhesive may be thermally crosslinked by a crosslinking agent or crosslinked by radiation (for example, electron beam or ultraviolet ray).

  The thickness of the adhesive layer can vary and can generally be about 30 μm or more, about 40 μm or more, or about 50 μm or more, about 150 μm or less, about 90 μm or less, or about 60 μm or less.

  The graphic film may further include a liner that protects the adhesive layer. Examples of the liner include paper; plastic materials such as polyethylene, polypropylene, polyester, and cellulose acetate; and papers coated with such plastic materials. These liners may have a surface subjected to a release treatment with silicone or the like. The thickness of the liner is generally about 5 μm or more, about 15 μm or more, or about 25 μm or more, about 300 μm or less, about 200 μm or less, or about 150 μm or less.

  A license plate having a printed image according to an embodiment of the present disclosure includes a base plate, the graphic film mounted on the base plate, and a registration number disposed inside a registration number identification area of the graphic film.

  In general, a metal plate or a resin plate can be used as the base plate of the license plate. Examples of the metal plate include an aluminum plate, a stainless steel plate, and an iron plate. Examples of the resin plate include a polycarbonate plate, a polyester plate, and a vinyl chloride plate. If necessary, these plate materials may be formed into a shape such as a frame.

  The graphic film can be attached to the base plate by bonding the base plate and the graphic film through an adhesive layer of the graphic film or by applying an adhesive between the graphic film and the base plate.

  The laminate formed by attaching the graphic film to the base plate may be cut out by blank pressing to a desired size using, for example, a blank press die.

  The registration number is printed on the license plate by forming an colored composition by applying an ink composition containing, for example, a pigment and a binder resin, inside the registration number identification area of the graphic film using inkjet printing, roll coating, or the like. Can be arranged. The colored layer may be formed by applying an ink composition to an embossed part or a debossed part formed in accordance with the contour of the registration number. The embossed portion or the debossed portion can be generally formed by attaching a graphic film to a base plate to form a laminated body, and then sandwiching the laminated body between male and female dies and pressing with a press. At this time, a frame portion may be formed on the edge portion of the license plate. The frame portion can impart strength to the license plate to prevent deformation of the license plate. The depth of the embossed portion, the debossed portion, or the frame portion is generally about 1 mm or more and about 2 mm or less, respectively, but is not limited to this range. In one embodiment, the registration number is located on the embossed portion of the license plate.

  The thickness of the colored layer displaying the registration number may vary and can generally be about 5 μm or more, about 6 μm or more, or about 8 μm or more, about 30 μm or less, about 25 μm or less, or about 20 μm or less.

  The license plate may further have a clear coat for protecting the colored layer displaying the registration number. The clear coat can be formed by applying or spraying various conventionally known clear coat agents onto the license plate and drying or curing as necessary.

  4 includes a graphic film 10 attached to a base plate 22 through an adhesive layer 19 and having a registration number 26 on the embossed portion. And a clear coat 28 is applied thereon.

  The license plate including the license plate graphic film of the present disclosure can be used as a license plate having a printed image conforming to ALPR.

  In the following examples, specific embodiments of the present disclosure are illustrated, but the present invention is not limited thereto. All parts and percentages are by weight unless otherwise specified.

<Example 1>
On Adobe Illustrator, the registration number “Shinagawa 500 Ho 42-49” is drawn with a black (K) dot area ratio of 100%, and a rectangle 45 mm wide x 50 mm high is placed so that it overlaps Hiragana “ho”. ". The drawn rectangle has a dot area ratio of 100% for cyan (C), a dot area ratio of 100% for magenta (M), a dot area ratio of 100% for yellow (Y), and a dot area ratio for black (K). Painting was performed at a setting of 0%, and print image data in the eps format was generated. The print image data was printed on the 3M (registered trademark) control tack (registered trademark) graphic film IJ180-10 according to the designated color of the print image data using a JV5 solvent inkjet printer manufactured by Mimaki Engineering Co., Ltd. and genuine ink. The printed graphic film was pasted on an aluminum plate having a width of 330 mm and a height of 165 mm, and an excess graphic film portion was cut to produce the license plate of Example 1.

<Example 2>
The license plate of Example 2 was produced in the same manner as in Example 1 except that the rectangle of Example 1 was painted with a black (K) dot area ratio of 50%.

<Example 3>
The license plate of Example 3 was produced in the same manner as in Example 1 except that the rectangle of Example 1 was painted with a black (K) dot area ratio of 70%.

<Comparative Example 1>
A license plate of Comparative Example 1 was produced in the same manner as in Example 1 except that the rectangle of Example 1 was painted with a black (K) dot area ratio of 80%.

<Comparative example 2>
A license plate of Comparative Example 2 was produced in the same manner as in Example 1 except that the rectangle of Example 1 was painted with a black (K) dot area ratio of 90%.

  About Examples 1-3 and Comparative Examples 1 and 2, the reading test of the registration number was performed using ALPR (ATEC Co., Ltd. portable license plate automatic observation apparatus OC-i SYSTEM). The registration number was read up to 20 times, and if it could be read correctly even once during that time, reading was possible. The results of the reading test are shown in Table 1.

  In the same manner as in Example 1, 3M (registered trademark) Scotchcal (registered trademark) graphic film RG5333R was applied to cyan (C) with a dot area ratio of 100%, magenta (M) with a dot area ratio of 100%, yellow ( Y) each having a halftone dot area ratio of 100% or black (K) having a halftone dot area ratio of 100% was printed, and the transmission spectrum of each ink was measured using a SolidSpec-3700 spectrophotometer manufactured by Shimadzu Corporation. It was measured. The results are shown in FIG.

<Example 4>
The same method as in Example 1 except that 3M® High Definition License Sheet Series 6700 (retroreflective sheet) was used instead of 3M® ControlTac® graphic film IJ180-10 of Example 1 A license plate of Example 4 was prepared.

<Example 5>
The license plate of Example 5 was produced in the same manner as in Example 4 except that the rectangle of Example 4 was painted with a black (K) dot area ratio of 50%.

<Example 6>
The license plate of Example 6 was produced in the same manner as in Example 4 except that the rectangle of Example 4 was painted with a black (K) dot area ratio of 70%.

<Comparative Example 3>
A license plate of Comparative Example 3 was produced in the same manner as in Example 4 except that the rectangle of Example 4 was painted with a black (K) dot area ratio of 80%.

  For Examples 4 to 6 and Comparative Example 3, the registration number reading test by ALPR was performed in the same manner as in Example 1. The results of the reading test are shown in Table 2.

<Example 7>
On Adobe Illustrator, the registration number “Shinagawa 500 Ho 42-49” is drawn with a black (K) dot area ratio of 100%, and a rectangle 45 mm wide x 50 mm high is placed so that it overlaps Hiragana “ho”. ". The drawn rectangle has a dot area ratio of 100% for cyan (C), a dot area ratio of 100% for magenta (M), a dot area ratio of 100% for yellow (Y), and a dot area ratio for black (K). Painting was performed at a setting of 0%, and print image data in the eps format was generated. Designation of print image data on 3M (registered trademark) control tack (registered trademark) graphic film IJ180-10 using Color Painter H2-104S solvent inkjet printer manufactured by Seiko I Infotech Co., Ltd. and genuine ink Printed according to color. The printed graphic film was pasted on an aluminum plate having a width of 330 mm and a height of 165 mm, and an excess graphic film portion was cut to prepare the license plate of Example 7. About Example 7, when the reading test of the registration number by ALPR was done like Example 1, reading was possible.

  In the same manner as in Example 7, 3M (registered trademark) Scotchcal (registered trademark) graphic film RG5333R was applied to cyan (C) dot area ratio 100%, magenta (M) dot area ratio 100%, yellow ( Y) each having a halftone dot area ratio of 100% or black (K) having a halftone dot area ratio of 100% was printed, and the transmission spectrum of each ink was measured using a SolidSpec-3700 spectrophotometer manufactured by Shimadzu Corporation. It was measured. The results are shown in FIG.

<Example 8>
On Adobe Illustrator, the registration number “Shinagawa 500 Ho 42-49” is drawn with a black dot area ratio of 100%, and a square 35 mm wide and 35 mm high so that it overlaps Hiragana “ho”. ". The drawn squares have a dot area ratio of 100% for cyan (C), a dot area ratio of 100% for magenta (M), a dot area ratio of 100% for yellow (Y), and a dot area ratio for black (K). Painting was performed at a setting of 0%, and print image data in the eps format was generated. The print image data was printed on the 3M (registered trademark) control tack (registered trademark) graphic film IJ180-10 according to the designated color of the print image data using a UJV500-160UV inkjet printer manufactured by Mimaki Engineering Co., Ltd. and genuine ink. The printed graphic film was pasted on an aluminum plate having a width of 330 mm and a height of 165 mm, and an excess graphic film portion was cut to prepare the license plate of Example 8. About Example 8, when the reading test of the registration number by ALPR was done like Example 1, reading was possible.

  In the same manner as in Example 8, 3M (registered trademark) Scotchcal (registered trademark) graphic film RG5333R was applied to cyan (C) dot area ratio 100%, magenta (M) dot area ratio 100%, yellow ( Y) each having a halftone dot area ratio of 100% or black (K) having a halftone dot area ratio of 100% was printed, and the transmission spectrum of each ink was measured using a SolidSpec-3700 spectrophotometer manufactured by Shimadzu Corporation. It was measured. The results are shown in FIG.

<Example 9>
Using a 3M (registered trademark) Scotch Master (trademark) Edge II system (thermal transfer printer), a dot area ratio of 100% for cyan (C), a dot area ratio of 100% for magenta (M), and a yellow (Y) With a setting of a dot area ratio of 100% and a dot area ratio of black (K) of 0%, a rectangle having a width of 45 mm and a height of 50 mm is added to the 3M (registered trademark) Scotch Master (trademark) edge material 225-10. Then, the registration number “Shinagawa 500 Ho 20-20” with a black (K) dot area ratio of 100% was printed on the printer so that the rectangle overlapped with “H”. The printed graphic film was pasted on an aluminum plate having a width of 330 mm and a height of 165 mm, and an excess graphic film portion was cut to prepare the license plate of Example 9. About Example 9, when the reading test of the registration number by ALPR was done like Example 1, reading was possible.

  In the same manner as in Example 9, Gerber High Performance Series 220 Clear 220-114 Clear Enamel Receptive (available from Gerber Scientific), 100% cyan (C) dot area, magenta (M) dot area 100%, yellow (Y) halftone dot area ratio 100%, or black (K) halftone dot area ratio 100%, respectively, printed using a Shimadzu Corporation SolidSpec-3700 spectrophotometer, The transmission spectrum of each ink was measured. The results are shown in FIG.

<Comparative example 4>
As commercially available image data, the material collection material dictionary Vol. 103 France Italy Spain EF044. JPG was converted from RGB color to CMYK color by Adobe Photoshop to prepare print image data of a background image in jpg format. Using the Adobe Photoshop information panel, it was confirmed that the black (K) halftone dot area ratio of the background image of the portion overlapping the registration number was 80% or more. Eps format print image data with background images arranged on Adobe Illustrator is transferred to 3M (registered trademark) control tack (registered trademark) graphic film IJ180-10 using Mimaki Engineering Co., Ltd. JV5 solvent inkjet printer and genuine ink. Printed according to the specified color of the print image data. The printed graphic film was attached to an aluminum plate having a width of 330 mm and a height of 165 mm. On the Adobe Illustrator, Eps format print image data in which the registration number “Shinagawa 500 HO 42-49” is drawn with the halftone dot area ratio of black (K) as 100%, JV5 solvent inkjet printer manufactured by MIMAKI ENGINEERING CO., LTD. Using ink, printing was performed on 3M (registered trademark) Scotchcal (registered trademark) graphic film RG5333R according to the designated color of the print image data. The printed graphic film was pasted on the above laminated aluminum plate, and the excess graphic film portion was cut to produce a license plate of Comparative Example 4. As for Comparative Example 4, as in Example 1, when a reading test of the registration number by ALPR was performed, reading was not possible.

<Example 10>
As commercially available image data, the material collection material dictionary Vol. 103 France Italy Spain EF044. JPG was converted from RGB color to CMYK color by Adobe Photoshop without generating a black plate, and print image data of a background image was prepared in jpg format. Using the information panel of Adobe Photoshop, it was confirmed that the black (K) halftone dot area ratio of the background image of the portion overlapping the registration number was 0%. Eps format print image data with background images arranged on Adobe Illustrator is transferred to 3M (registered trademark) control tack (registered trademark) graphic film IJ180-10 using Mimaki Engineering Co., Ltd. JV5 solvent inkjet printer and genuine ink. Printed according to the specified color of the print image data. The printed graphic film was attached to an aluminum plate having a width of 330 mm and a height of 165 mm. On Adobe Illustrator, a black (K) dot area ratio 100% registration number “Shinagawa 500 Ho 42-49” and a black (K) dot area ratio 100% width 40 mm × height 40 mm square “ Print image data in eps format placed in the free space to the right of "500" on 3M (registered trademark) Scotchcal (registered trademark) graphic film RG5333R using Mimaki Engineering Co., Ltd. JV5 solvent inkjet printer and genuine ink Printed according to the specified color of the image data. The printed graphic film was pasted on the above laminated aluminum plate, and the excess graphic film portion was cut to produce the license plate of Example 10. About Example 10, similarly to Example 1, when the reading test of the registration number by ALPR was conducted, it was possible to read with almost no background image.

<Comparative Example 5>
The same as Comparative Example 4 except that 3M (Registered Trademark) High Definition License Sheet Series 6700 (Retroreflective Sheet) was used instead of 3M (Registered Trademark) Control Tuck (Registered Trademark) Graphic Film IJ180-10 of Comparative Example 4 The license plate of Comparative Example 5 was produced by the method. As in Comparative Example 5, the registration number reading test by ALPR was performed in the same manner as in Example 1, and reading was not possible.

<Example 11>
The same method as in Example 10 except that 3M® High Definition License Plated Series 6700 (retroreflective sheet) was used instead of 3M® ControlTac® graphic film IJ180-10 of Example 10. A license plate of Example 11 was prepared. About Example 11, similarly to Example 1, when the reading test of the registration number by ALPR was conducted, it was possible to read with almost no background image.

  It will be apparent to those skilled in the art that various modifications can be made to the embodiments and examples described above without departing from the basic principles of the invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention.

DESCRIPTION OF SYMBOLS 10 Graphic film 12 Base material 14 Print image 16 Surface protective layer 18 Bonding layer 19 Adhesive layer 20 License plate 22 Base plate 24 Registration number identification area 26 Registration number 28 Clear coat

Claims (9)

A license plate graphic film having a substrate and a printed image disposed thereon,
The graphic film has a registration number identification area in which a registration number is arranged,
A graphic film in which a dot area ratio of black ink of a printed image in the registration number identification area is 70% or less.   The graphic film according to claim 1, wherein the printed image in the registration number identification area does not include black ink.   2. The graphic film according to claim 1, wherein a halftone dot area ratio of black ink of a printed image in the registration number identification region is 5% or more and 50% or less.   The graphic film according to claim 1, wherein the substrate is non-retroreflective.   The graphic film according to claim 1, wherein the base material is retroreflective. Providing a substrate,
Providing image data corresponding to the printed image;
For each pixel corresponding to the registration number identification area in the image data, print image data is generated by adjusting the CMYK component so that the dot area ratio of black ink in the registration number identification area is 70% or less. 6. The method for producing a graphic film according to claim 1, further comprising: printing the print image on the base material based on the print image data.   The method according to claim 6, wherein the printing is performed by inkjet printing or thermal transfer printing. A base plate;
The graphic film according to any one of claims 1 to 5, which is mounted on the base plate;
A license plate having a print image, comprising a registration number disposed within a registration number identification area of the graphic film.   The license plate according to claim 8, further comprising an embossed portion, wherein the registration number is disposed on the embossed portion.

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