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
41		JP7697290	1990-03-28	JP2676641B2	1997-11-17

42		JP6726091	1991-03-29	JP2671906B2	1997-11-05

43	SILVER HALIDE COMPOUND PHOTOSENSITIVE MATERIAL	JP28529694	1994-11-18	JPH08146554A	1996-06-07	TANAKA SHIGEO; NOJIMA TAKAHIKO
PURPOSE: To provide a halide silver compound photosensitive material in which there is no variation of omission of high light caused in the case of using a supporting body of low oxygen permeability such as polyester, and an image of high quality can be stably obtained. CONSTITUTION: This silver halide compound photosensitive material is featured that at least one silver halide compound emulsion layer of silver chloride content over 95mol% is provided on a supporting body, oxygen permeability of the supporting body is under 2.0ml.m<-2> .hr<-1> .atm<-1> , and at least one layer of the silver halide compound emulsion layer of silver chloride content over 95mol% contains silver halide compound emulsion including complex in which at least one sort of metallic elements of the fifth-the tenth on a periodic table is set as a central metal and at least one ligand on four times rotary shaft within six monodentate ligands is a different ligand from the others.
44	SILVER HALIDE PHOTOGRAPHIC SENSITIVE MATERIAL	JP24797194	1994-10-13	JPH08114883A	1996-05-07	TANAKA SHIGEO; NOJIMA TAKAHIKO
PURPOSE: To obtain such a photographic sensitive material that fog in a peripheral part which is produced when a silver halide emulsion containing high concn. of silver halide and a supporting body having low oxygen permeability such as polyester is used is not caused, no metal silver remains after the desilverizing process, and an image of high quality can be stably obtd., by incorporating a specified compd. into a silver halide emulsion layer. CONSTITUTION: In this photographic sensitive material, the oxygen permeability of the supporting body is <20ml.m<-2> .hr<-1> .atm<-1> and at least one of silver halide emulsion layers containing >=95mol% silver chloride content contains a compd. expressed by formula. In formula, Z1 , Z2 are nonmetal atoms necessary to form a five or six-member nitrogen-contg. heteroring, L1 is a methine group, R1 is -J-SO2 NH2 group, -J-CONHCOR11 , or the like, J is an alkylene group, R11 is an alkyl group, alkoxy group, or the like, R2 is same as R1 or unsubstd. alkyl group or alkyl group with substituents of sulfo group, carboxyl group or hydroxyl group, m1 , m2 are integers 0 or 1, and n1 is an odd integer.
45	STEREOSCOPIC VISION PICTURE SHEET	JP21339094	1994-09-07	JPH0876297A	1996-03-22	KOIKE KAZUMI
PURPOSE: To provide a stereoscopic vision picture sheet by a lenticular system whose strength and durability are easily and inexpensively enhanced. CONSTITUTION: This stereoscopic vision picture sheet 2 is constituted of a stereoscopic vision photographic sheet 1 obtained by applying a photosensitive emulsion 5 to a lenticular sheet 3, and a protective sheet 8. By providing a sticking area 7 whose width is >=1.5mm in the periphery of the back surface of the lenticular sheet 3 and sticking the white protective sheet 8 with which all the back surface of the photographic sheet 1 is covered with sticky part 9, all the back surf ace of the photographic sheet 1 is covered by the protective sheet 8 without directly adhering to the emulsion 5 applied to the back surface of the lenticular sheet 3. Thus, in the case of replacing and sticking the stereoscopic vision printed picture 2 already stuck, tensile force is not directly exerted on the emulsion 5, and the emulsion 5 is surely protected, then the strength and the durability of the printed picture 2 are drastically improved.
46	SILVER HALIDE COLOR STEREOPHOTOGRAPHIC SENSITIVE MATERIAL	JP16019594	1994-07-12	JPH07301894A	1995-11-14	NAKATSUGAWA HIROSHI; KOJIMA TAKAAKI
PURPOSE:To provide the silver halide color stereophotographic sensitive material having practically enough sharpness and rapid processing aptitude and superior storage stability. CONSTITUTION:(1) The color stereophotographic sensitive material having a lenticular face on at least one side of a transparent support and a colored layer farther than a white pigment layer from the support and/or adjacent to the white pigment layer; and (2) the color stereophotographic sensitive material having a lenticular face on at least one side of a transparent support and a colored layer containing a white pigment farther from the support than at least one silver halide emulsion layer.
47	AUTOMATIC PRINTING AND DEVELOPING DEVICE FOR STEREOSCOPIC PHOTOGRAPH AND ORDINARY PHOTOGRAPH	JP35950491	1991-12-27	JPH05181207A	1993-07-23	KAMATA SHIGEJI; MIYAWAKI HIROSHI; ITOJIMA MITSUHIKO; NAKAO HIROTO; NAKAMURA YOSHIFUMI; EINAGA KAZUO
PURPOSE:To enable the execution of photographic processing of both with one unit of mini-laboratory by forming a groove to evade the rear mark of an ordinary photograph on the roller of an exposing base and sliding the exposing base to escape the groove from photosensitive paper. CONSTITUTION:The exposing base is installed via a transporting belt 16 on a slide shaft 18 and is fixed by means of a slide screw 8 and a fixing block 19. The paper delivered from insertion rollers 13 is transported in a direction B and is delivered by the delivery roller 15. The exposing base 1 is movable in a direction A and the paper can be moved to an alternate long and short dash line position of Fig. and can be delivered as well. The paper can be sent in any rows in such a manner and, therefore, exposing is executed by changing the position of the exposing base. The paper is equally distributed to two rows by utilizing the movement of this exposing base and is passed in such a manner at the time of delivering the paper to the processor, by which the degradation in the processing capacity of the stereoscopic photograph is prevented. In addition, the exposing base is moved to pass the paper so as to evade the groove provided on the roller 15, by which the degradation in the quality is prevented.
48	HEAT DEVELOPABLE COLOR PHOTOSENSITIVE MATERIAL	JP28549791	1991-10-07	JPH05100393A	1993-04-23	OZAKI HIROYUKI
PURPOSE:To prevent uneven processing when a heat developable color photosensitive material to be developed and transferred in the presence of water is developed and transferred and to obtain a heat developable color photosensitive material having very excellent processing stability even when processing conditions vary. CONSTITUTION:A heat developable color photosensitive material which begins to reticulate at >=60 deg.C, a heat developable color photosensitive material with at least one layer contg. gelatin having >=240g jelly strength and a heat developable color photosensitive material contg. acid treated gelatin as >=60wt.% of a binder in the protective layer are used. When coating solns. for these photosensitive materials are applied and dried, wet-bulb temp. is set at <=22 deg.C until the drying points are attained.
49		JP565881	1981-01-17	JPS6329249B2	1988-06-13	ABE TAKAO; HOZAI SATORU; SHIMAZAKI HIROSHI

50		JP7455768	1968-10-11	JPS4927042B1	1974-07-15
1,211,464. Multilens and pinhole cameras. RLM RESEARCH CORP. Oct. 7, 1968 [Oct.11, 1967], No.47460/68. Heading G2A. A camera comprises a base member 10 for supporting a photographic plate 12, a frame member 40 movable towards and away from the plate and carrying a sheet 42 having an image forming array of light passageways, the sheet being capable of being brought into contact with the plate, and a device 86 carried on the frame for exposing index marks adjacent an edge of the plate. The sheet may be lenticular having a multiplicity of lenslets with spherically convex front surfaces, each of the lenslets is preferably provided with a diaphragm aperture (52) Fig.6 (not shown), the apertures being in a sheet (50) prepared using an image intially produced in the camera. Spacers (54) may also be provided to space the sheet from the photographic plate. The lenslets are arranged in either a hexagonal or square array. Instead of lenslets, a flat screen (120) Fig.12 (not shown) is used having a hexagonal array of apertures each acting as a pinhole camera, the screen being formed by two ruled glass sheets with the rulings angularly arranged at 60 degrees, the opaque lines being 0À100 inch wide whilst the transparent lines are 0À010 inch wide. The base member 40 contains a passage 68 and apertures 70 for applying suction to the space between the sheet and the photographic plate. Tubes 86 have a translucent screen 90 and a bulb 92 produces a registration mark in the form of a circle on the plate. The camera is supported on threaded members 24 to a metal plate 16 mounted on a wall 18. The frame 40 is pivotally mounted at 45 to the base member 10. The camera is disposed within a housing containing lamps (112) Fig. 1 (not shown) and a target (100) consisting of a white circle or hexagon mounted upon a black background, the target being movable towards and away from the camera on rails (108), (110).
51	Light sensitive photographic element	JP2003166868	2003-06-11	JP2004163883A	2004-06-10	SZAJEWSKI RICHARD P; IRVING LYN M
<P>PROBLEM TO BE SOLVED: To provide a photographic element having improved sensitivity and latitude in scene exposure range. <P>SOLUTION: Disclosed is a light sensitive photographic element comprising a support, a convergent micro-lens array, and an interposed light sensitive silver halide emulsion layer unit. Also provided is a camera combination and imaging method. Embodiments of the invention provide improved sensitivity and latitude in scene exposure range. <P>COPYRIGHT: (C)2004,JPO
52	Photosensitive photographic element having microlens on base	JP2003166639	2003-06-11	JP2004029797A	2004-01-29	IRVING LYN M; SZAJEWSKI RICHARD P
<P>PROBLEM TO BE SOLVED: To provide a photosensitive photographic element having the sensitivity and latitude improved within an exposure range of a scene. <P>SOLUTION: The photographic element has a red photosensitive silver halide emulsion layer unit, green photosensitive silver halide emulsion layer unit and blue photosensitive silver halide emulsion layer unit arranged on one side of a base and a convergent microlens array which is arranged on the side opposite thereto and has the size and position sufficient for concentrating the single perspective image light of the incident image on one area of the microlenses onto the smaller areas of the emulsion layer units. <P>COPYRIGHT: (C)2004,JPO
53	Method for manufacturing stereoscopic image print and stereoscopic image printer	JP2002080952	2002-03-22	JP2003280497A	2003-10-02	TERAMURA YUICHI
<P>PROBLEM TO BE SOLVED: To provide a manufacturing method for a stereoscopic image print and a stereoscopic image printer which can easily obtain the stereoscopic image print reproducing a full-color stereoscopic image of high picture quality without no feeling of physical disorder. <P>SOLUTION: On a silver salt film 10 a blue photosensitive layer 38, a green photosensitive layer 40, and a red photosensitive layer 42 (RGB layer) are laminated in this order from the base side. The RGB layer is exposed to laser light of specified wavelength whose intensity is modulated according to amplitude information by small areas 50 to have color filters of R, G, and B formed by varying light transmissivity after development and become a filter layer. A transparent ink layer 44 is formed by applying transparent ink differing in ink concentration by the small areas 50 on the filter layer by using a writing head 53. The refractive index varies with the ink concentration and optical path length varies according to the refractive index variation, so the transparent ink layer 44 becomes a phase modulation layer modulating the phase of transmitted light. <P>COPYRIGHT: (C)2004,JPO
54	DIRECT POSITIVE SILVER HALIDE PHOTOGRAPHIC SENSITIVE MATERIAL	JP2001348504	2001-11-14	JP2003149761A	2003-05-21	MIYATA JUNJI; YASUDA KENICHI; MORIMOTO YASUSHI; ODA KUNPEI; NISHIYAMA AKIRA
PROBLEM TO BE SOLVED: To provide a silver halide photographic sensitive material for direct positive printing for forming accurate black stripes with high resolution, high density and few yellow stains on the light emergent side of a film substrate in a lenticular lens sheet. SOLUTION: A lenticular lens sheet 1 is provided which comprises a film substrate 2, a plurality of incident lenses 3 on which light is incident on the incident side of the film substrate 2 and black stripes 4 disposed on the emergent side surface of the film substrate 2 except regions corresponding to the condensing regions of the lenses 3. The black stripes 4 are light absorbing silver images formed by exposing and developing the above silver halide photographic sensitive material for direct positive printing from the incident side of the film substrate 2. The silver halide photographic sensitive material has at least one silver halide photosensitive layer, wherein the size of silver halide grains is <=1 μm, the coating weight of silver is >=1.5 g/m<2> and a light absorbing layer is not present on the face opposite to the photosensitive layer.
55		JP25278194	1994-09-22	JP2902310B2	1999-06-07	IGARASHI TSUTOMU

56		JP35950591	1991-12-27	JP2715773B2	1998-02-18

57		JP35950391	1991-12-27	JP2715772B2	1998-02-18

58	METHOD AND APPARATUS FOR PHOTOGRAPHIC PRINTING TO PRINT DEPTH IMAGE ON LENTICULAR MATERIAL AS EWLL AS PHOTOGRAPHIC PRINTING MEDIUM CREATABLE BY THEM	JP9560896	1996-04-17	JPH08314035A	1996-11-29	SAAGEI BUI FUOOGERU; ROI WAI TEIRAA
PROBLEM TO BE SOLVED: To provide improved method and device to print a three-dimensional image. SOLUTION: Separate division lines are obtained from different see-through surfaces of the same scene to be printed. A transparent lenticular material 404 is stuck on a photosensitive material. The photosensitive material 405 is exposed by a light source 408 from the opposite side of the lenticular material 404 by the light from an irradiated image. A reference lattice 401 is positioned on the lenticular material 404. Then, a moire striped pattern is generated. The moire striped pattern is used to adjust the lenticular material 404 or a position of a negative before the photosensitive material 405 is exposed. After exposure, a reflecting material is installed on the photosensitive material side opposite to the side on which the lenticular material 404 is installed, and a three- dimensional print is made.
59	STEREOSCOPIC PRINT	JP25278194	1994-09-22	JPH0890896A	1996-04-09	IGARASHI TSUTOMU
PURPOSE: To provide a thin stereoscopic print, by directly printing a design for use as the foundation of a stereoscopic image, which is obtained by a photomechanical process technique based on an original of a stereoscopic photograph, onto the rear of a lenticular lens efficiently by a letterpress printing system, without once printing the design onto paper as a design sheet. CONSTITUTION: The colors of an original 1 of stereoscopic photograph, taken stereoscopically, are separated by a scanner 2. Then, a dot image plate 5 for each color, corresponding to a large number of screen lines, in which the average distribution of minute dots of the same size is varied randomly according to a density value, is made by an FM(frequency modulation) screening means. Letter-press plates 6 are formed from the dot image plates 5, and a design 7 for use as the foundation of a stereoscopic image is directly printed on the rear of a lenticular lens by the use of the letterpress plates 6.
60	METHOD FOR STEREOSCOPIC PHOTOGRAPH PROJECTION AND METHOD AND DEVICE FOR STEREOSCOPIC PHOTOGRAPH PRINTING	JP6726091	1991-03-29	JPH0566530A	1993-03-19	IGARASHI SHUNKICHI; TAGUCHI SEIICHI
PURPOSE:To provide the method and device for lenticular system stereoscopic photograph printing which can print >=2 original pictures at the same time (in the same process) and can easily obtain a stereoscopic photograph of high quality by devising a swinging system. CONSTITUTION:When the original images 131-133 from >=3 different view points are projected on an image element storage medium 20 as plural linear image elements through plural lenticular lenses 19, pieces of luminous flux from the respective original images 131-133 are made incident on one projection lens 14, whose transmitted luminous flux is separated by the original images by a mirror optical system 15 consisting of two mirrors 16 and 17; and this mirror optical system 15 adjusts the optical path length of each pieces of luminous flux to the image element storage medium 20, the respective pieces of luminous flux are made incident on the respective lenticular lenses 19 at a specific angle of printing and imaged as linear image elements on the image element storage medium 20, and the original images 131-133 from >=3 different view points are projected on the image element storage medium 20 at the same time.

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