| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 261 | REPRESENTATION SYSTEM | US12665843 | 2008-06-25 | US20100177094A1 | 2010-07-15 | Wittich Kaule; Michael Rahm; Wolfgang Rauscher |
| The present invention relates to a depiction arrangement for security papers, value documents, electronic display devices or other data carriers, having a raster image arrangement for depicting a specified three-dimensional solid (30) that is given by a solid function f(x,y,z), having a motif image that is subdivided into a plurality of cells (24), in each of which are arranged imaged regions of the specified solid (30), a viewing grid (22) composed of a plurality of viewing elements for depicting the specified solid (30) when the motif image is viewed with the aid of the viewing grid (22), the motif image exhibiting, with its subdivision into a plurality of cells (24), an image function m(x,y) that is given by m ( x , y ) = f ( x K y K z K ( x , y , x m , y m ) ) · g ( x , y ) , where ( x K y K ) = ( x y ) + V ( x , y , x m , y m ) · ( ( ( ( x y ) + w d ( x , y ) ) mod W ) - w d ( x , y ) - w c ( x , y ) ) w d ( x , y ) = W · ( d 1 ( x , y ) d 2 ( x , y ) ) and w c ( x , y ) = W · ( c 1 ( x , y ) c 2 ( x , y ) ) . | ||||||
| 262 | Micro-optic security and image presentation system providing modulated appearance of an in-plane image | US11770592 | 2007-06-28 | US07738175B2 | 2010-06-15 | Richard A. Steenblik; Mark J. Hurt; Gregory R. Jordan |
| A synthetic micro-optic system and security device is disclosed including an in-plane image formed of an array or pattern of image icons and an array of focusing elements, the system producing at least two different synthetic images whereby one synthetic image operates to modulate or control the extent of the appearance of another synthetic image. In an exemplary form, the array of image icons forms an in-plane synthetic image, while the interaction of the array of focusing elements with the array of image icons forms a separate synthetically magnified image that serves to control the field of view of the in-plane image and, thus, serves to modulate or control the extent of appearance of the in-plane image. The appearance of the in-plane image, thus, visually appears and disappears, or turn on and off, depending upon the viewing angle of the system. | ||||||
| 263 | HOUSING WITH THREE-DIMENSION APPEARANCE | US11959301 | 2007-12-18 | US20090073568A1 | 2009-03-19 | WEI LI; ZHONG-CHENG WU; ZHANG-GENG HUANG; ZHANG-QI LI |
| A housing (10) with three-dimension appearance includes a transparent substrate (11), a micro lens array (12) formed on one surface of the transparent substrate, and a decorative layer (13) formed on another surface of the transparent substrate at an opposite side to the micro lens array. A method for making the housing is also provided. | ||||||
| 264 | SECURITY DOCUMENTS AND METHODS OF DETERRING COUNTERFEITING | US11877162 | 2007-10-23 | US20090021000A1 | 2009-01-22 | Larry G. McCartney; Jimmy Kendrick |
| Apparatus and methods are described for a security document that includes a first area of microprinting including a first pattern of microprint and one or more second areas of microprinting including a second pattern of microprint. In addition, the first area of microprinting and the one or more second areas of microprint are not substantially reproducible via a digital imaging device. | ||||||
| 265 | SECURITY DOCUMENTS AND METHODS OF DETERRING COUNTERFEITING | US11778942 | 2007-07-17 | US20090020999A1 | 2009-01-22 | Jimmy Kendrick |
| Apparatus and methods are described for a security document that includes an area of microprinting a pattern of microprint and a three-dimensional appearing image. The three-dimensional appearing image is formed within the area of microprinting by one or more deviations from the pattern of microprint. In addition, the area of microprinting and the three-dimensional appearing image are not reproducible via a digital imaging device. | ||||||
| 266 | Security Document | US11922166 | 2006-06-09 | US20080259456A1 | 2008-10-23 | Andreas Schilling; Wayne Ropert Tompkin; Rene Schaedler |
| Described is a security document with a transparent security element (12) which is arranged in a window or in a transparent region of the security document and has a structure layer, in which a first region (12f) of the structure layer has an asymmetrical diffractive relief structure, wherein the first region (12f) has an optical effect which is unexpectedly different in a front view and in a rear view of the security document. | ||||||
| 267 | Decorated Molded Article and Method for Producing the Same | US11791112 | 2005-11-18 | US20080191386A1 | 2008-08-14 | Yasuhide Fukada; Kumiko Yoshikawa; Nobuyasu Hirobe; Shigeru Hinoshita |
| Decorated molded article creating a three-dimensional appearance is provided. A decorated molded article 1 has a transparent layer 51 arranged on the front side thereof. A projection layer 11 is arranged partly on the front side of the transparent resin layer 51. A screen layer 31 is formed on the back side of the transparent layer 51. An image projected from the projection layer 11 is produced on the screen layer 31. When the decorated molded article 1 is observed from obliquely above, the projection layer 11 and an image 17 are visually recognized simultaneously. Therefore, the projection layer 11 is recognized as if it were three-dimensional. | ||||||
| 268 | Blank and method for forming a novelty product | US10653792 | 2003-09-03 | US07383978B2 | 2008-06-10 | Irving R. Michlin; Stephen A. Singer |
| A single blank is provided with four removable sections which are sub-divided by lines of weakening and fold lines. The blank is foldable along a longitudinal line and transverse line to form the four sections into a four layer product. Upon removable from the blank, the four layer product may be manipulated to expose different sub-sections and, thus, provide different pictorial representations depending upon the imaging of the sub-sections. The sub-sections are imaged in a coordinated manner to produce different scenes. | ||||||
| 269 | Optical films for creating unique optical effects | US10805850 | 2004-03-22 | US07298533B2 | 2007-11-20 | Joel M. Petersen; Christopher Chapman Rich |
| An optical layer comprises a sheet of material having a surface. The surface comprises a plurality of optical elements. The optical elements are comprised of microscopic patterns in the surface that cooperate to produce an image. Each of the elements has a focal length. At least some of the focal lengths are significantly different from other focal lengths, such that some portions of the surface appear to be closer to a viewer than other portions of the surface. | ||||||
| 270 | Reflective article and method of manufacturing same | US10376130 | 2003-02-28 | US07290803B2 | 2007-11-06 | Joel Scott Scarbrough; Daniel C. Faul; Louis LaSorsa |
| A reflective printed article includes a substrate having a top surface and a bottom surface with a graphic image printed thereon. A reflective or glossy ink layer is printed over the entire top surface of the substrate. A graphic image is printed over the reflective ink layer. The image may cover the entire portion of the reflective layer or only selected portions thereof. The graphic image includes hidden or latent images printed within the graphic image layers. An optional glossy layer of transparent ink may be printed over the graphic image. A textured pattern of lines is printed or applied in sections over the optional glossy layer or graphical image, with each line in the section printed at the same angle or orientation, with the lines of adjacent sections printed at different angles in order to reflect light in different directions to create the illusion of depth, three-dimensionality, hidden images and motion. | ||||||
| 271 | Stamp with a pattern exhibiting a three-dimensional visual effect and method for producing the same | US11328185 | 2006-01-10 | US20070157834A1 | 2007-07-12 | Kuo Hwang |
| A method for producing a stamp with a pattern includes deciding a design, the design including three sections separated by three imaginary lines that intersect with one another at a common imaginary point, the design being distributed in the three sections and exhibiting a three-dimensional visual effect; and processing an end of a stamp to form a pattern according to the design, with the pattern exhibiting a three-dimensional visual effect. The stamp includes a body with an end face. The end face includes a pattern having three sections separated by three imaginary lines that intersect with one another at a common imaginary point. The pattern exhibits a three-dimensional visual effect. | ||||||
| 272 | Three-dimensional graphical icon appearance in displays of electronic devices | US09717784 | 2000-11-21 | US07086010B1 | 2006-08-01 | Heli Heiskari |
| A strong three-dimensional icon is created for low-resolution displays such as used in portable communication devices by alternating light and dark stripes, with some stripes changing from light to dark and back to light to indicate a shadow, and other stripes from dark to light and back to dark to indicate a highlight. Altogether, the light and dark stripes with shadows and highlights provide the icon with a strong three-dimensional appearance. | ||||||
| 273 | Pattern card | US10796186 | 2004-03-10 | US06962742B2 | 2005-11-08 | Teng-Kuei Chen |
| A pattern card has a base material being composed of a paper sheet and a color texture layer printed on the paper sheet. A wax layer is formed on the base material. A protection printing ink is coated on the wax layer. A picture printing ink is partially coated on the protection printing ink according to a designed picture's profile and contour. The protection printing ink and the picture can be mixed with wax in the proportion of 10%. Whereby, it is easy to remove the protection and picture printing ink by a drawknife, and a pattern or picture with a three-dimensional effect appears. | ||||||
| 274 | Method for creating a three-dimensional engraving in a solid and a product created by said method | US10630055 | 2003-07-30 | US06950713B2 | 2005-09-27 | Jim Walthall |
| A method for creating a three-dimensional engraving within a solid. A three-dimensional illustration of the solid is scanned into a numerical controller associated with a machining center. The 3D illustration is projected in the solid according to individual depths of cut. The solid is machined according to its project depths. Shading is accomplished according to depth of cut and by immersing the solid into oxide bath and successively abrasively removing a darkened coating according to depth of cut. Powder coating with a thermoset plastic, baking and curing steps provide a transparent coating to the solid. | ||||||
| 275 | Method for producing quasi-three dimensional images | US09793454 | 2001-02-26 | US06916436B2 | 2005-07-12 | Michael Tarabula |
| A method to transform any portion of a two-dimensional visual image into a three-dimensional formed visual image device within the overall two-dimensional visual areas on a single image piece is provided. The resultant image has both two-dimensional and three-dimensional aspects in the same single image piece, or visual device. Furthermore, the present invention provides a method that offers fall control of the amount of visual distortion involved in the above processes. | ||||||
| 276 | Stationery item and ornamental device arrangement | US10742065 | 2003-12-20 | US20050135086A1 | 2005-06-23 | Hsin Meng |
| A stationery item and ornamental device arrangement includes a base material having a view hole, and a picture element disposed in the view hole of the base material and having a design capable of gathering light such that when aiming the picture element at a light source, the user can view a condensed projection of the design from the picture element from the side opposite to the light source. | ||||||
| 277 | Three-dimensional laminate | US11006365 | 2004-12-07 | US20050106358A1 | 2005-05-19 | John Eshbach; Ralph Wright; Craig DeSantis |
| Disclosed are both a decorative laminate and a method for making the decorative laminate. The decorative laminate includes a laminated layer having particulates trapped within a film. The trapped particulates impart the appearance of three-dimensional depth to the decorative laminate. Additionally, a second laminated film having a printed pattern can be laminated to the decorative laminate. The decorative laminate may be formed by laminating a freestanding decorative film composite comprising a particulate embedded film and a print component to a substrate. | ||||||
| 278 | Method and apparatus for lenticular printing | US10769442 | 2004-01-30 | US20040244901A1 | 2004-12-09 | Gabriele M. Trapani; Brian Ulricksen |
| An apparatus and method for forming a lenticular optical system is provided in which a composite image is viewable through a molded lens from a first angle and an object or image placed at a preselected distance beneath the composite image is viewable from a second angle. The apparatus of the present invention provides for registration of the lenticular lenses with the printed image when the lenses are formed. | ||||||
| 279 | Image processing method, image formation method, image processing apparatus, and image formation apparatus | US10385748 | 2003-03-12 | US06823779B2 | 2004-11-30 | Miho Machida |
| An image formation method and apparatus extract an attribute value from a non-embossed image data from which a non-embossed image is formed, generate an embossed image data from which an embossed image is formed using the extracted attribute value, and form an image based on the generated embossed image data and the non-embossed image data. | ||||||
| 280 | Reflective article and method of manufacturing same | US10376130 | 2003-02-28 | US20040140665A1 | 2004-07-22 | Joel Scott Scarbrough; Daniel C. Faul; Louis LaSorsa |
| A reflective printed article includes a substrate having a top surface and a bottom surface with a graphic image printed thereon. A reflective or glossy ink layer is printed over the entire top surface of the substrate. A graphic image is printed over the reflective ink layer. The image may cover the entire portion of the reflective layer or only selected portions thereof. The graphic image includes hidden or latent images printed within the graphic image layers. An optional glossy layer of transparent ink may be printed over the graphic image. A textured pattern of lines is printed or applied in sections over the optional glossy layer or graphical image, with each line in the section printed at the same angle or orientation, with the lines of adjacent sections printed at different angles in order to reflect light in different directions to create the illusion of depth, three-dimensionality, hidden images and motion. | ||||||
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