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
61	STEREOSCOPIC PICTURE PROJECTING METHOD AND STEREOSCOPIC PICTURE PRINTING DEVICE	JP18469791	1991-07-24	JPH0540329A	1993-02-19	IGARASHI SHUNKICHI; TAGUCHI SEIICHI
PURPOSE:To obtain the indication body for a resin-coated paper type photograph which is made excellent in the adhesive strength between a resin layer on the opposite side from a side where a photographic layer is provided and base paper and in curling property and can be produced fast. CONSTITUTION:Pieces of luminous flux from original images at >=3 different view points are made incident on an opposite projection lens 14 and transmitted luminous flux is separated by the original images through a mirror optical system 15 consisting of at least two mirrors 16 and 17; and this mirror optical system 15 adjusts the length of the optical path of each piece of luminous flux to an image element storage medium and can make adjustments to a main subject in a projection image of the original images. Further, the respective pieces of luminous flux are made incident on respective lenticular sheets 19 at a specific printing angle and imaged as linear image elements on the image element storage medium, thus projecting the original images from >=3 different view points on the image element storage medium.
62	STEREOSCOPIC PHOTOGRAPH COLOR IMAGE FORMING METHOD	JP16589790	1990-06-25	JPH0456849A	1992-02-24	SHIBA KEISUKE; ITO MITSURU
PURPOSE:To easily obtain a stereoscopic photograph color image having high quality at low cost by engaging and aligning a lenticular sheet with a color image forming layer by means of a specific resister mechanism. CONSTITUTION:A resister pin 6 or a resister mark is engaged and aligning with one of the up and bottom edge parts of the image exposing surface of a silver halide color sensitizing material having a color image forming layer 3 on a supporting body. The lenticular lens sheet 2 and color image forming layer 3 are engaged and aligned by the resister mechanism provided on the distance of the 1/4 - 3/4 of the length of a side in the same right and left (lateral) direction as that of the array of both eyes. Thus, a stereoscopic image having sharpness and stereoscopic effect can be easily and simply obtained.
63	STEREOSCOPIC SILVER HALIDE PHOTOGRAPHIC SENSITIVE MATERIAL AND METHOD FOR FORMING STEREOSCOPIC COLOR PRINT AND SUCH COLOR IMAGE	JP6443790	1990-03-16	JPH03265844A	1991-11-26	SHIBA KEISUKE; SUZUKI TSUNEO
PURPOSE:To obtain a stereoscopic photographic print high in image quality easily and rapidly by specifying the total amount of silver halide to be used for all the photosensitive layers. CONSTITUTION:A green-sensitive silver halide photosensitive layer (GL), a red- sensitive silver halide photosensitive layer (RL), and a blue-sensitive silver halide potosensitive layer (BL) are formed on the reverse side of a sheet L obtained by forming a substantially repeating structure of lenticules on the surface of a transparent substrate B. The total amount of silver halide to be used for all the photosensitive layer GL, RL, BL is set to <=0.78g/m<2> in terms of silver, thus permitting a stereoscopic photographic print high in quality to be obtained in a simple and easy manner in any time by anyone.
64	Silver halide photographic material	JP565881	1981-01-17	JPS57119344A	1982-07-24	ABE TAKAO; HOUZAI SATORU; SHIMAZAKI HIROSHI
PURPOSE:To obtain a titled photosensitive material which is sensitized and is soft graded in a photosensitive material provided with a lenticular layer by providing a silver halide emulsion layer with slight deviation from the focal plane constituted of the abovementioned layer (that is, near the same). CONSTITUTION:In a photosensitive material having a lenticular layer consisting of an assemblage of lenticular lenses which are arranged finely two-dimensionally in a large number, a silver halide emulsion layer (photosensitive layer) is set in the position of about 1.2-3 rates of concentration off from the position of the focal plane of the lenticular layer. It is preferable to set the number of repetitions of the above-mentioned lenticular lenses at about >=10 per mm..
65		JP17522879	1979-12-17	JPS5692183U	1981-07-22

66		JP1436472	1972-02-12	JPS5143377B1	1976-11-20

67		JP5276271	1971-07-15	JPS51494B1	1976-01-08

68	Light sensitive element	JP2003167859	2003-06-12	JP2004133386A	2004-04-30	CHARI KRISHNAN; SZAJEWSKI RICHARD P; IRVING LYN M
<P>PROBLEM TO BE SOLVED: To provide a light sensitive element having improved sensitivity and latitude in scene exposure range. <P>SOLUTION: The light sensitive element comprises a support, at least one light sensitive silver halide emulsion layer, and a micro-bead layer comprising micro-beads, wherein the quantity of binder in the micro-bead layer is such that the micro-beads are not fully enclosed by the binder, thereby enabling the micro-beads to function as microlenses, The invention also provides a camera combination and imaging method. Embodiments of the invention provide improved sensitivity and latitude in scene exposure range. <P>COPYRIGHT: (C)2004,JPO
69	METHOD FOR RECORDING PLURAL IMAGES	JP2000161149	2000-05-26	JP2001005152A	2001-01-12	EDWARDS JAMES L
PROBLEM TO BE SOLVED: To provide a method for improving the image quality of an all-in-one lenticular multilayer color photographic element. SOLUTION: A color photographic element including a transparent lenticular substrate, an antihalation layer coated on the non-lenticular side of the substrate and a cyan dye forming coupler-containing red-sensitive layer, a magenta dye forming coupler-containing green-sensitive layer and a yellow dye forming coupler-containing blue-sensitive layer mcoated on the antihalation layer is prepared. The element has a silver halide emulsion containing >90 mol% silver chloride and at least the red- and green-sensitive emulsions contain a reciprocity law improving iridium dopant for high illuminance exposure. Plural images are recorded by exposing the color photographic element from the non-lenticular side of the substrate.
70	SKEW CORRECTION IN PRINTING LENTICULAR MATERIAL	JP33344599	1999-11-24	JP2000194082A	2000-07-14	MARINO PHILIP FRANK; BARRY DAVID SILVERSTEIN
PROBLEM TO BE SOLVED: To efficiently produce a high-quality lenticular image product by detecting and measuring the relative fluctuation of lenticular skew to a laser beam for writing. SOLUTION: Lenticular material 14 is placed together with a lenticule turning downward on the upper surface of a platen 12 and the emulsion side 13 of the material 14 turns upward. The material 14 is constituted to overhang the platen 12 on both sides, and fixed position sensing detectors 44, 44a and 44b are placed under the overhang edge of the material 14, An alignment beam 38 passes through the material 14, is reflected by the lenticule of the material 14, and cast on the fixed detectors 44, 44a and 44b on either side of the platen 12, so that the position of the beam 38 relative to the lenticule of the material 14 is sensed.
71		JP25155491	1991-09-30	JP3016638B2	2000-03-06

72	METHOD AND DEVICE FOR MAKING PORTRAIT SYNTHESIZED WITH FOREGROUND PICTURE FOR STEREOSCOPIC VISION AND KEY HOLDER AND ALBUM FOR HOUSING THE PORTRAIT	JP21524197	1997-08-08	JPH1152501A	1999-02-26	URAGAMI TAKATSUGU; ENDA SHOICHI
PROBLEM TO BE SOLVED: To make a portrait for stereoscopic vision without changing the design of a device as much as possible. SOLUTION: This method is provided with a portrait making device equipped with a storage part storing the digital image data of a large number of foreground pictures designed for decoratively adding them to the portrait photographed by a video camera, a synthetic picture generating means for generating a synthetic picture combining the foreground picture image data read from the storage part with the video output of the video camera and a video printer for printing the synthetic picture on a prescribed sheets of paper 20. Then, a prism sheet 30 on which very small prisms are formed at given pitches are prepared to stereoscopically view a printed image, in such a manner that the prism sheet 30 is piled on the sheets of sheet 20. Further, the foreground pictures for the stereoscopic vision are designed to match with the prism sheet 30 and to make them digital images and the foreground picture image data are previously stored in the storage part. A key holder and an album in which the prism sheet is incorporated are prepared.
73		JP35950291	1991-12-27	JP2715771B2	1998-02-18

74		JP6443790	1990-03-16	JP2676640B2	1997-11-17

75	RADIATION-CURABLE ADHESIVE COMPOSITION AND LINEAR IMAGE	JP26715695	1995-10-16	JPH08209073A	1996-08-13	BIRII REI DOTSUTOSON

76	SILVER HALIDE STEREOSCOPIC COLOR PHOTOGRAPHIC MATERIAL	JP26972094	1994-11-02	JPH08137074A	1996-05-31	MURAI KAZUHIRO; NISHIJIMA TOYOKI
PURPOSE: To provide a silver halide stereoscopic color photographic material that provides a sufficient sense of sharpness and stereoscopy for practical use. CONSTITUTION: A silver halide stereoscopic color photographic material having a lenticular face on at least one side of a transparent support has an optical reflection density of 0.80 or more at 680nm; the ratio (B/A) of its optical reflection density (B) at 550nm to that (A) at 680nm is 0.3 to 0.7, and the ratio (C/A) of its optical reflection density (C) at 470nm to that (A) at 680nm is 0.2 to 0.6.
77	SILVER HALIDE STEREOSCOPIC PHOTOGRAPHIC SENSITIVE MATERIAL	JP14175094	1994-06-23	JPH086221A	1996-01-12	NISHIJIMA TOYOKI; TANAKA SHIGEO
PURPOSE:To obtain a highly stereoscopic image appreciable from the distance farther than the least distance of distinct vision by rendering the lenticle pitch of a transparent support larger than a specified value. CONSTITUTION:The silver halide stereoscopic photographic sensitive material has the repeating structure of the lenticles at least on one side of a transparent support and at least one silver halide emulsion layer on the other side, and the lenticle pitch on the transparent support is enlarged to >=300mum, and at least one of the emulsion layers contains a magenta coupler in an amount of >=0.30g/m<2>. The lenticles are a group of small convex lenses arranged 2- dimensionally or 3-dimensionally like fly eyes in the upper necessary limit of the pitch of >=300mum, preferably, >500mum in order to exhibit its effect more effectively, and especially, >700mum.
78	SILVER HALIDE STEREOPHOTOGRAPHIC SENSITIVE MATERIAL	JP10005994	1994-05-13	JPH07306513A	1995-11-21	NISHIJIMA TOYOKI; MURAI KAZUHIRO
PURPOSE:To provide the silver halide stereophotographic sensitive material good in sharpness and background whiteness and superior in stereoscopicity after storage of the photosensitive material. CONSTITUTION:The stereophotosensitive material has at least one lenticular face on at least one of a transparent support and a photographic constituent layers comprising at least one non-photosensitive hydrophilic colloidal layer and at least one silver halide emulsion layer on the other side of the support, and at least one of the photographic constituent layers and/or the support contains an oil-soluble dye and/or a colored dye substantially undercolorable by processing.
79	STEREOSCOPIC PHOTOGRAPH PROJECTING METHOD AND STEREOSCOPIC PHOTOGRAPH PRINTING DEVICE	JP12133391	1991-05-27	JPH0764252A	1995-03-10	IGARASHI SHUNKICHI; TAGUCHI SEIICHI
PURPOSE:To provide a lenticular system stereoscopic photograph projecting method and a stereoscopic photograph printing device capable of simultaneously (at the same process) printing three or more original images, and also easily obtaining a stereoscopic photograph of high quality. CONSTITUTION:At the time of respectively projecting three or more original images 13 from different viewpoints on an image element storing medium 18 as plural linear image elements through plural lenticular sheets 19, each luminous flux transmitted through respective original images 13 which are separately supported at a prescribed angle is separately made incident on plural projecting lenses 14 separated at prescribed intervals after shifting the optical axis of the lens to the center side of the whole optical system with reference to the optical axis of each original image 13, and the optical path length of each luminous flux transmitted through each projecting lens 14 to the image element storing medium 18 is adjusted by every original image by a mirror optical system 15 constituted of at least two mirrors 16 and 17, and also, each luminous flux is made incident on each lenticular lens at a prescribed printing angle, and the image is formed on the image element storing medium 18 as the linear image element, simultaneously, three, or more original images 13 from different viewpoints are simultaneously projected on the image element storing medium 18.
80	METHOD AND DEVICE FOR PRINTING 3D STEREOSCOPIC PHOTOGRAPH	JP19597492	1992-06-30	JPH06186642A	1994-07-08	MIYAWAKI HIROSHI; ITOJIMA MITSUHIKO; OKA TAKAYUKI; YAMAMOTO KAZUNOBU; MEIRAKU TOSHIROU
PURPOSE:To obtain the printing method of a 3D stereoscopic photograph having prefer able spatial parallax and to obtain the stereoscopic photograph having an excellent stereoscopic sensation by changing the width of an image band and the exposure pattern of a band pattern to be different according to the parallax of pictures at the respective photographing points. CONSTITUTION:A negative film 53 is photographed by a CCD camera 11 and projected on a monitor television 13 through an image processing part 12. Besides, a position on a television screen can be specified by moving a cursor on the television 13 by a track ball 14. Then, a coordinate value specified by the cursor is transmitted to a connected computer by the image processing part 12 and the spatial parallax is decided by calculating the deviation of the pictures of the respective frames of the film 53. When the change of the parallax is decided to be small by photographing the respective frames of the film 53 and calculating the variation of the coordinate of a reference point on the television screen specified by the cursor in such a way, the photographing angle of the film 53 or the band pattern which is printed is changed so as to obtain stereoscopic vision by the combination of the negative film having long distance between the points of view.

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