专利检索_.使用透镜状屏的附加处理及相应的材料上述材料的制备或处理专利检索_.使用透镜状屏的附加处理及相应的材料上述材料的制备或处理专利检索查询

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
21	Multilayer color photographic element having an integral lenticular support	EP00201717.6	2000-05-15	EP1055966A1	2000-11-29	Edwards, James L., c/o Eastman Kodak Company
The invention relates to a method of recording multiple images by providing an integral, lenticular, multilayer, color photographic element comprising a red light sensitive layer comprising a cyan dye forming coupler, a green light sensitive layer comprising a magenta dye forming coupler, a blue light sensitive layer comprising a yellow dye forming coupler, and an antihalation layer, and wherein said element contains silver halide emulsions comprising greater than 90 percent silver chloride and at least the red and green light sensitive emulsions contain a high intensity exposure, reciprocity improving iridium dopant, and exposing said element from the non-lenticular side of the support.
22	3-dimensional image display method, 3-dimensional image display material, and forgery-proof layered product, forgery-proof card and forgery-proof printed matter using the same	JP2003406952	2003-12-05	JP2005165175A	2005-06-23	HAKII TAKESHI; SATO KOICHI; YANAKA KAZUHISA
<P>PROBLEM TO BE SOLVED: To provide a 3-dimensional image display method by which a 3-dimensional image excellent in luminance and 3-dimensional effect can be easily and inexpensively created, a 3-dimensional image display material, and a forgery-proof layered product, a forgery-proof card and a forgery-proof printed matter using the same. <P>SOLUTION: The 3-dimensional image display method is configured by a combination of a pinhole array comprising a group of pinholes different in lengths of major side length and minor side length with an image for 3-dimensional display created from data image-processed for 3-dimensional display. <P>COPYRIGHT: (C)2005,JPO&NCIPI
23		JP19597492	1992-06-30	JP2689825B2	1997-12-10

24		JP18469791	1991-07-24	JP2669734B2	1997-10-29

25	SILVER HALIDE COLOR PHOTOGRAPHIC MATERIAL FOR PSEUDO THREE-DIMENSIONAL IMAGE, AND IMAGE FORMING METHOD USING IT	JP7023895	1995-03-28	JPH08262657A	1996-10-11	IWAGAKI MASARU; AKAMATSU HIDEO
PURPOSE: To provide a highly precise transmission type silver halide color photographic material for pseudo three-dimensional image excellent in three- dimensional feeling and having quick processing aptitude, and an image forming method using it. CONSTITUTION: A transmission type silver halide color photographic material for pseudo three-dimensional image having a silver halide grain density less than 5.0×10<12> pieces/m<2> , an average silver chloride content, preferably, of 50 mole % or more, and preferably having a lenticular sheet is used.
26	SILVER HALIDE STEREOSCOPIC COLOR PHOTOGRAPHIC SENSITIVE MATERIAL	JP5609094	1994-03-25	JPH07261341A	1995-10-13	KOJIMA TAKAAKI; NAKATSUGAWA HIROSHI
PURPOSE:To obtain a silver halide stereoscopic color photographic sensitive material having satisfactory sharpness in preservation practical use, provided with rapid processability and excellent in stability. CONSTITUTION:In this silver halide stereoscopic color photographic sensitive material with a lenticular face on at least one side of the transparent substrate, hollow polymer particles are contained in a layer farthest from the substrate and/or a layer adjacent to the farthest layer. It is preferable that the layer contg. the hollow polymer particles further contains a white pigment, especially a coloring pigment made of titanium dioxide.
27	DEPTH PICTURE PRINTING SYSTEM	JP20409593	1993-08-18	JPH06209400A	1994-07-26	ROORANDO AARU SHINDORAA
PURPOSE: To provide a system for printing a depth image which generates a three-dimensional solid image on a lenticular member by a simple method. CONSTITUTION: In a lenticular print system, the lenticular member is arranged for a depth image. First, the image is acquired, and an output image signal 12a is generated from it. The output image signal 12a is electrically interpolated to form the overall image. The lenticular member which has a prescribed number of lenticules and is coated with a receiver material 20 is offered, and the electronically interpolated entire image is directly printed on the rear of the lenticular member.
28	TRANSMISSION TYPE SCREEN	JP27983492	1992-10-19	JPH06130588A	1994-05-13	SEKIYA YOSHIO
PURPOSE:To provide a transmission type screen capable of enhancing contrast without reducing gain. CONSTITUTION:This transmission type screen has one-side lenticular lenses 5 with lens faces arranged on the light source side, a diffusion plate 1 stuck to the observation side of the lenses 5 and black stripes 2 arranged at the stuck part. The thickness of the lenses 5 is nearly equal to the focal length of the lenses 5.
29	AUTOMATIC PRINTING AND DEVELOPING DEVICE FOR STEREOSCOPIC PHOTOGRAPH AND ORDINARY PHOTOGRAPH	JP35950591	1991-12-27	JPH05181208A	1993-07-23	KAMATA SHIGEJI; MIYAWAKI HIROSHI; ITOJIMA MITSUHIKO; NAKAO HIROTO; NAKAMURA YOSHIFUMI; EINAGA KAZUO
PURPOSE:To enable the execution of processing of both of an ordinary photograph and a stereoscopic photograph with one unit of mini-laboratory by selecting a movable exposing base, lenses and emulsion surfaces and executing development processing and drying and finishing. CONSTITUTION:A 3D lens 23 and a camera 25 for monitoring negatives are installed on a 3D lens plate 20 which is placed on linear rails 22. A feed screw 28 and the 3D lens plate 20 are fixed by a fixing block 26. A 2D lens 13 is installed onto a 2D lens plate 10 and is used by being fixed in a home position. The 3D lens plate 20 is retreated to an alternate long and short dash line position in Fig. via the feed screw 28 by rotation of a motor 24 at the time of using the 2D lens 13. Printing is executed by moving the 3D lens plate 20 so as to obtain a desired photographing angle at the time of using the 3D lens 23. The differences in the development time are dealt with by switching the transporting routes of the developing section in such a manner so that the adequate development processing is executed regardless of the differences in the processing time.
30	PRODUCTION OF SHEET-SHAPED RESIN MOLDING	JP25155491	1991-09-30	JPH0588312A	1993-04-09	KUSHI KENJI; JUFUKU KAZUHIKO; IZEKI TAKAYUKI; FUJIWARA TADAYUKI
PURPOSE:To provide the process for production which can produce a resin molding having high accuracy with high productivity relating to the process for production of the sheet-shaped resin molding having rugged shapes on the surface. CONSTITUTION:After an active energy ray curing type resin compsn. 2 is applied on a sheet-shaped transparent base material to be transported, a roll 3 which has the inverted shape of the rugged shape on the surface and rotates at the same rotating speed as the transporting speed of the transparent base material is pressed to the active energy ray curing type resin compsn. 2 applied on the base material and is irradiated in this state with active energy ray through the transparent base material 1 on the side opposite from the coated surface, by which the resin layer is cured.
31	LENS SHEET FOR STEREOSCOPIC PHOTOGRAPH	JP25143191	1991-09-30	JPH0588311A	1993-04-09	KUSHI KENJI; IZEKI TAKAYUKI; FUJIWARA TADAYUKI; JUFUKU KAZUHIKO
PURPOSE:To provide the lens sheet which can be produced with the surface shape and thickness of high accuracy and can be produced with high productivity and to provide the lens sheet which allows the easy image formation for the purpose of a stereoscopic photograph with high accuracy. CONSTITUTION:A photosensitive emulsion layer 6 is provided on the front surface on the side opposite from a lens layer 2 of the front surfaces of a transparent base material 1 of the lens sheet for the stereoscopic photograph having the transparent base material 1 and the lens layer 2 formed on the front surface of the transparent base material 1. The lens layer 2 is formed of an active energy ray curing type resin compsn. and is cured by being irradiated with active energy rays.
32	METHOD FOR STEREOSCOPIC PROJECTION AND DEVICE PRINTING STEREOSCOPIC PICTURE	JP8803791	1991-04-19	JPH04338946A	1992-11-26	IGARASHI SHUNKICHI; TAGUCHI SEIICHI
PURPOSE:To offer a lenticular type stereoscopic printing device which prints >=3 original pictures by performing a process at least twice and easily obtains a stereoscopic of high quality by improving a conventional swing system. CONSTITUTION:For the projection of the original images obtained at >=3 different view points on an image element storage medium as plural linear image elements, the original images 131, 132, etc., from the >=3 different points are projected as several groups by employing masking, the projection light is converged on a lenticular lens 19 through a mirror optical system 15 consisting of two mirrors 161 and 171, etc., and imaged on the image element storage medium as the linear image elements; and the original images can be projected or printed by performing the process up to twice and the mirror system is simplified.
33	SUBSTRATE FOR STEREOSCOPIC COLOR PHOTOGRAPH HAVING SURFACE ANTIREFLECTION LAYER, SILVER HALIDE PHOTOSENSITIVE MATERIAL AND STEREOSCOPIC COLOR PHOTOGRAPH PRINT	JP21487590	1990-08-14	JPH0497345A	1992-03-30	SHIBA KEISUKE; TAGUCHI SEIICHI; ITO MITSURU
PURPOSE:To obtain a natural stereoscopic feel, excellent color gradation of images and sharpness without allowing the surface of a lenticule to be sensed by specifying the transmittance of a base to >=70% and providing an interference film as a surface antireflection layer on the surface of the lenticule. CONSTITUTION:The transmittance of the surface is >=70% and the interference film is provided as the surface antireflection layer on the surface of the lenticule. The transmittance of the substrate with the lenticule is >=70%, more preferably >=80% in this case. The surface antireflection layer lowers the surface reflectivity of the lenticule without substantially spoiling the lens function. Since a transparent thermoplastic resin or the like is used for the lenticule, the interference film of light is preferably formable without applying physical deformation in a limited low temp. region, for example, <=120 deg.C, more preferably <=60 deg.C. The substrate is preferably a flexible base, such as transparent plastic film.
34		JP50362181	1981-11-19	JPS57501931A	1982-10-28

35	STENCIL PRODUCED BY PHOTOGRAPHY	JP8778578	1978-07-20	JPS54115904A	1979-09-08	KENESU JIEEMUSU RIIDO; ARAN RENOTSUKUSU RIITOGOO

36	Portrait creating apparatus to put a three-dimensional decoration on the portrait, key chains, album	JP21524197	1997-08-08	JP3787422B2	2006-06-21	彰一圓田; 貴次浦上

37	Three-dimensional image printer	JP2002189100	2002-06-28	JP2004029618A	2004-01-29	TERAMURA YUICHI; FUJII TAKESHI; OKAZAKI YOJI; ISHIKAWA HIROMI; NAGANO KAZUHIKO
<P>PROBLEM TO BE SOLVED: To obtain a three-dimensional image printer which permits writing of microspots and can manufacture a three-dimensional image print of high image quality. <P>SOLUTION: The surface of a silver salt film 10 is provided with a transparent photosensitive layer 54 to be exposed by UV light and the writing of image data by the UV light is made possible by using a UV exposure head 22UV using the UV light as a light source. Since the UV light is shorter in wavelength as compared with other visible light, the UV light makes the writing of fine pixels possible. The silver salt film 10 is modulated in the amplitude of the transmitted light (B, G and R) by each of respective colors and is controlled in the phase of the transmitted light (UV) by the transparent photosensitive layer and therefore if the light is made incident on the three-dimensional image print, the phase, amplitude and wavelength of the transmitted light are controlled by every small region and the recorded three-dimensional image (hologram) is reconstructed and the recording of the holography improved in image quality and visual field angle is made possible by subjecting the transparent photosensitive layer 54 to writing of the fine pixels. <P>COPYRIGHT: (C)2004,JPO
38	Stereoscopic image print, manufacturing method for the stereoscopic image print, stereoscopic image printer, and stereoscopic image recording film	JP2002080951	2002-03-22	JP2003280500A	2003-10-02	TERAMURA YUICHI
<P>PROBLEM TO BE SOLVED: To provide a stereoscopic image print, etc., in which a full-color stereoscopic image of high picture quality having no feeling of physical disorder can easily be obtained. <P>SOLUTION: On a silver salt film 10, a blue photosensitive layer 38, a green photosensitive layer 40, a red photosensitive layer 42 (RGB layer), and an ultraviolet-ray photosensitive layer 44 are laminated in this order from the base side. The RGB layer when exposed to laser light of specified wavelength whose intensity is modulated according to amplitude information varies in light transmissivity after development by small areas 50 and has color filters of the colors R, G, and B formed to become a filter layer. The ultraviolet-ray photosensitive layer 44 is exposed to ultraviolet laser light whose intensity is modulated according to phase information so that optical path length variation by exposure and development of the RGB layer and ultraviolet-ray photosensitive layer 44 and developed to vary in the optical path length by the small areas 50, thereby becoming a phase modulation layer. <P>COPYRIGHT: (C)2004,JPO
39	ELECTRONIC PROCESSING METHOD FOR EXPOSED PHOTOGRAPHIC MATERIAL	JP2001063594	2001-03-07	JP2001337427A	2001-12-07	KELLOGG LILLIAN M
PROBLEM TO BE SOLVED: To provide an improved method for detecting and measuring a latent image in a silver halide photographic material. SOLUTION: The method for electronically processing the latent image from a photographic element is provided with a stage of using pulsed radiation and a radio-frequency photoconductive device with a sample capacitor including a gap, and arranging the photographic element in an electromagnetic field adjacent to the sample capacitor, a stage of arranging a forwarding mechanism of promoting the photographic element through the capacitor, a stage of scanning the photographic element with the pulsed focused radiation through the gap in the sample capacitor, a stage of directly measuring the photoelectric response of the photographic element and recording a signal generated as the results from the radio-frequency photoconductive device, and a stage of forwarding the photographic element and repeating the exposure stage and the measuring stage in order to two-dimensionally read the latent image on the photographic element at the ambient temperature or the temperature equal to or below the ambient temperature.
40		JP35950491	1991-12-27	JP2888000B2	1999-05-10	KAMATA SHIGEJI; MYAWAKI HIROSHI; ITOJIMA MITSUHIKO; NAKAO HIROTO; NAKAMURA YOSHIFUMI; EINAGA KAZUO

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