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    • 1. 发明专利
    • Color liquid crystal display device assembly and light converting device
    • 彩色液晶显示器件组件和光转换器件
    • JP2010156899A
    • 2010-07-15
    • JP2009000023
    • 2009-01-05
    • Sony Corpソニー株式会社
    • KAKINUMA KOICHIRONAGAI HIROYUKISATO NORIFUMIKOBAYASHI IZUMI
    • G02F1/1335G02F1/13357
    • PROBLEM TO BE SOLVED: To provide a color liquid crystal display device assembly which is high in efficiency in effective use of light flux from a light source and hardly causes parallax and optical crosstalk. SOLUTION: In the color liquid crystal display device assembly having a color liquid crystal display device, which consists of a front panel, a rear panel and a liquid crystal material, and a plane-like light source device 60, a light source emits first primary color light. In addition, a second primary color light-emitting area 152 which is excited by the first primary color light, which passes through a second subpixel, to emit second primary color light; a third primary color light-emitting area 153 which is excited by the first primary color light, which passes through a third subpixel, to emit third primary color light; a diffusion area 151 which diffuses the first primary color light which passes through a first subpixel; and a plano-convex lens are arranged on the liquid crystal material side on the front panel. The second primary color light-emitting area 152 and the third primary color light-emitting area 153 are arranged in a concave part provided on the flat surface of the plano-convex lens. COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题:提供一种有效利用来自光源的光束的效率高的彩色液晶显示装置组件,并且几乎不产生视差和光学串扰。 解决方案:在具有由前面板,后面板和液晶材料构成的彩色液晶显示装置和平面状光源装置60的彩色液晶显示装置组件中,光源 发出第一原色光。 此外,通过第一原色光激发的第二原色发光区域152,其穿过第二子像素,以发射第二原色光; 第三基色发光区域153,其通过第三原色光被第三基色光激励,以发射第三原色光; 扩散区域151,其扩散通过第一子像素的第一原色光; 在前面板的液晶材料侧配置有平凸透镜。 第二原色发光区域152和第三原色发光区域153布置在设置在平凸透镜的平坦表面上的凹部中。 版权所有(C)2010,JPO&INPIT
    • 2. 发明专利
    • Color liquid crystal display assembly and optical conversion device
    • 彩色液晶显示组件和光转换装置
    • JP2010151880A
    • 2010-07-08
    • JP2008327025
    • 2008-12-24
    • Sony Corpソニー株式会社
    • NAGAI HIROYUKIKAKINUMA KOICHIROSATO NORIFUMIKOBAYASHI IZUMI
    • G02F1/13357G02F1/1335G09F9/00G09F9/30
    • PROBLEM TO BE SOLVED: To provide a color liquid crystal display assembly having improved accuracy of forming a phosphor layer and improved alignment accuracy between a phosphor layer and sub-pixels, and preventing parallax and optical crosstalk. SOLUTION: The color liquid crystal display assembly includes: a color liquid crystal display comprising a front panel, a rear panel, and a liquid crystal material; and a surface light source device 60. The light source emits first primary color light. On the liquid crystal material side of the front panel, a light-condensing members 156 and 157 are provided, which include light emitting regions 152 and 153 excited by the first primary color light passing through a second sub-pixel and a third sub-pixel to emit second primary color light and third primary color light, and a diffusing region 151 diffusing the first primary color light passing through a first sub-pixel. The light-condensing members comprise plano-convex lenses and have the light emitting regions 152 and 153 arranged in concave portions formed in flat surfaces of the plano-convex lenses. COPYRIGHT: (C)2010,JPO&INPIT
    • 解决问题:提供一种彩色液晶显示组件,其具有提高的形成荧光体层的精度和改善荧光体层和子像素之间的对准精度,并防止视差和光学串扰。 彩色液晶显示组件包括:彩色液晶显示器,包括前面板,后面板和液晶材料; 和光源装置60.光源发射第一原色光。 在前面板的液晶材料侧,设置聚光构件156和157,该聚光构件156和157包括由通过第二子像素的第一原色光和第三子像素激发的发光区域152和153 发射第二原色光和第三原色光,以及扩散区域151,扩散通过第一子像素的第一原色光。 聚光构件包括平凸透镜,并且具有布置在平凸透镜的平坦表面中的凹部中的发光区域152和153。 (C)2010,JPO&INPIT
    • 3. 发明专利
    • Glass member and method for manufacturing the same
    • 玻璃构件及其制造方法
    • JP2009256158A
    • 2009-11-05
    • JP2008110413
    • 2008-04-21
    • Sony Corpソニー株式会社
    • SHIMADA TETSUOTAKAHASHI TAKESHIKOBAYASHI IZUMI
    • C03B19/02C03C8/02G11B5/127G11B5/235
    • PROBLEM TO BE SOLVED: To provide a glass member containing bismuth oxide which is high in light transmissivity, and to provide a method for manufacturing the glass member. SOLUTION: After charging a glass raw material 11 containing bismuth oxide (Bi 2 O 3 ) into a crucible 12, the crucible 12 is disposed in a melting furnace 13, and then the glass raw material 11 is melted into a melt 14. Then, the melt 14 is heated until viscosity at which the melt 14 can be agitated sufficiently is obtained, and then the melt 14 is agitated while keeping the temperature of the melt 14. Subsequently, the crucible 12 is taken out of the melting furnace 13, and the melt 14 is cooled in the crucible 12 until the viscosity of the melt 14 becomes within a range of 1 to 10 4 Pa s. Finally, when the viscosity of the melt 14 becomes within a range of 1 to 10 4 Pa s, the melt 14 is subjected to quick cooling molding. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种含有透光性高的氧化铋的玻璃构件,并提供一种玻璃构件的制造方法。 解决方案:将含有氧化铋(Bi O 3 )的玻璃原料11装入坩埚12后,将坩埚12放置在熔化炉13 ,然后将玻璃原料11熔化成熔体14.然后,加热熔融物14直到可以充分搅拌熔体14的粘度,然后在保持熔体温度的同时搅拌熔体14 随后,将坩埚12从熔炉13中取出,并将熔体14在坩埚12中冷却,直到熔体14的粘度变为1〜10℃ s。 最后,当熔体14的粘度在1〜10℃/秒的范围内时,对熔体14进行快速冷却成型。 版权所有(C)2010,JPO&INPIT
    • 4. 发明专利
    • Photoelectric conversion device and manufacturing method of the same
    • 光电转换装置及其制造方法
    • JP2012199175A
    • 2012-10-18
    • JP2011063673
    • 2011-03-23
    • Sony Corpソニー株式会社
    • HANYU KAZUTAKATADA YOSHIYUKISUGAWARA KAZUHIKOKOBAYASHI IZUMIMATSUNAGA TORU
    • H01M14/00
    • PROBLEM TO BE SOLVED: To provide a manufacturing method of a photoelectric conversion device which obtains a semiconductor layer having excellent characteristics and prevents the increase of the manufacturing cost, which simplifies the manufacturing processes and makes problems in long term reliability less likely to be caused.SOLUTION: A photoelectric conversion device is formed of a photoelectric conversion layer 41 including: at least (A) a first base material 21 in which a first electrode 22 formed of a transparent conductive layer is formed; (B) a second base material 31 having a second electrode 32; and (C) a semiconductor layer 42 provided between the first base material 21 and the second base material 31 and contacting with the first electrode 22. In a manufacturing method of the photoelectric conversion device, a semiconductor layer precursor layer formed of a ceramic green sheet is sintered to obtain the semiconductor layer 42. Then, the semiconductor layer 42 is crimped to the first electrode 22 by using a heat press device.
    • 解决的问题:提供一种光电转换装置的制造方法,其获得具有优异特性并防止制造成本增加的半导体层,这简化了制造工艺并使长期可靠性的问题不太可能 被引起 解决方案:光电转换装置由光电转换层41形成,该光电转换层41至少包括:(A)形成由透明导电层形成的第一电极22的第一基材21; (B)具有第二电极32的第二基材31; 以及(C)设置在第一基材21和第二基材31之间并与第一电极22接触的半导体层42.在光电转换元件的制造方法中,由陶瓷生片形成的半导体层前体层 被烧结以获得半导体层42.然后,使用热压装置将半导体层42卷曲到第一电极22。 版权所有(C)2013,JPO&INPIT
    • 5. 发明专利
    • Color liquid crystal display device assembly, optical conversion device, luminescent particle layered structure, and forming method of luminescent particle layered structure
    • 彩色液晶显示装置组件,光转换装置,发光颗粒层状结构和成形颗粒层状结构的形成方法
    • JP2010134270A
    • 2010-06-17
    • JP2008311247
    • 2008-12-05
    • Sony Corpソニー株式会社
    • KOBAYASHI IZUMINAGAI HIROYUKIKAWAMATA MASAAKI
    • G02F1/13357G02F1/1335
    • PROBLEM TO BE SOLVED: To provide a color liquid crystal display device assembly including a luminescent particle layer having a desired size. SOLUTION: In a color liquid crystal display device assembly including a color liquid crystal display device and a plate light source device 60, a light source emits a first primary color light. In a first face side of a first substrate 10 of a front panel of the color liquid crystal display device, second and third primary color emitting regions 152 and 153 including second and third primary color luminescent particle layers 152A and 153A for emitting second and third primary light, excited by the first primary color light which passes through second and third sub-pixels, and a diffusion region 151 for diffusing the first primary color light which passes through the first sub-pixel, are provided. An under layer 150 is provided under the second and third primary color luminescent particle layers 152A and 153A. The second and third primary color luminescent particle layers 152A and 153A include binders, and the under layer 150 is composed of the same material with the material for composing the binder. COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题:提供一种包括具有期望尺寸的发光粒子层的彩色液晶显示装置组件。 解决方案:在包括彩色液晶显示装置和平板光源装置60的彩色液晶显示装置组件中,光源发射第一原色光。 在彩色液晶显示装置的前面板的第一基板10的第一面侧,包括第二和第三基色发光粒子层152A和153A的第二和第三基色发射区域152和153,用于发射第二和第三原色 提供通过第二和第三子像素的第一原色光激发的光,以及用于扩散通过第一子像素的第一原色光的扩散区151。 底层150设置在第二和第三原色发光颗粒层152A和153A的下方。 第二和第三原色发光颗粒层152A和153A包括粘合剂,底层150由与组合粘合剂的材料相同的材料构成。 版权所有(C)2010,JPO&INPIT
    • 6. 发明专利
    • Lead-free glass composition and magnetic head
    • 无铅玻璃组合物和磁头
    • JP2008050236A
    • 2008-03-06
    • JP2006230798
    • 2006-08-28
    • Sony Corpソニー株式会社
    • KOBAYASHI IZUMISHIMADA TETSUOSATO HEIKICHIWAKAMATSU HIRONOBU
    • C03C8/04G11B5/127
    • PROBLEM TO BE SOLVED: To provide a highly reliable low melting point lead-free glass composition, and a magnetic head using this lead-free glass composition.
      SOLUTION: The lead-free glass composition comprises, in mass% based on oxide, 56-68 Bi
      2 O
      3 , 4-9 B
      2 O
      3 , 4-6 ZnO, >13 to ≤21 SiO
      2 , 1-7 Na
      2 O, 0-2 Sb
      2 O
      3 , 2-7 Fe
      2 O
      3 and 0-1 ZrO
      2 . The lead-free glass composition preferably comprises, in mass% based on oxide, 60-68 Bi
      2 O
      3 , 4-8 B
      2 O
      3 , 5-6 ZnO, >13 to ≤17 SiO
      2 , 1-5 Na
      2 O, 1-2 Sb
      2 O
      3 , 2-7 Fe
      2 O
      3 and 0-1 ZrO
      2 . The magnetic head is constituted by using these lead-free glass compositions.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供高可靠性的低熔点无铅玻璃组合物和使用该无铅玻璃组合物的磁头。 解决方案:无铅玻璃组合物以质量%为基准,以氧化物计含有56-68 Bi 2 SB 3 O 3,SBB 2, 4-6 ZnO,> 13至≤21SiO 2 ,1-7 Na 2 SBO,0- 2 Sb 2 3 ,2-7 Fe 2 3 和0-1 ZrO 2 。 无铅玻璃组合物优选以质量%为基准,以氧化物计,60-68 Bi 2 SB 3 O 3,SBB 4, O 3 SB 3,5〜6 ZnO,13〜≤17SiO 2 SB 1,Sb 2 O 2,Sb 2 Sb 2 O 3 ,2-7 Fe 2 3 和0-1 ZrO 2 SB / 。 使用这些无铅玻璃组合物构成磁头。 版权所有(C)2008,JPO&INPIT
    • 7. 发明专利
    • Magnetic head and magnetic recording/reproducing device
    • 磁头和磁记录/再现装置
    • JP2005182851A
    • 2005-07-07
    • JP2003417555
    • 2003-12-16
    • Sony Corpソニー株式会社
    • HAYATA YUTAKATAKAHASHI YOSHIMIKOBAYASHI IZUMITAKEKUMA HIROSHI
    • G11B5/39
    • PROBLEM TO BE SOLVED: To provide a magnetic head capable of preventing the occurrence of static electricity destruction of an MR head when an article charged with static electricity is brought into contact with/close to a magnetic reproduction MR head.
      SOLUTION: A protective substrate 13b is made of conductive ferrite whose surface resistivity is 10
      2 to 10
      6 Ω/sq. The protective substrate 13b and a head substrate 13a are electrically connected to a base metal 16 with conductive paste 19, thereby setting them at a ground potential via the base metal 16 and a rotary drum 11. Thus, when an article charged by static electricity is brought into contact with/close to a reproduction magnetic head 13 to generate static electricity discharge, the peak value of a discharge current flowing to an MR element 13c is suppressed, and the static electricity destruction of the MR element 13c is prevented. Accordingly, by forming only the protective substrate 13b of the conductive ferrite of the above conditions, manufacturing costs are suppressed.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种磁头,其能够防止当带静电的物品与磁性再现MR磁头接触/接近时,MR磁头的静电破坏的发生。 解决方案:保护衬底13b由表面电阻率为10 2 至10 6 Ω/ sq的导电铁氧体制成。 保护基板13b和头基板13a通过导电膏19电连接到基体金属16上,从而通过母金属16和旋转鼓11将它们设置在接地电位。因此,当静电充电的物品 与再现磁头13接触/接近以产生静电放电,抑制流向MR元件13c的放电电流的峰值,并且防止了MR元件13c的静电破坏。 因此,通过仅形成上述条件的导电性铁氧体的保护基板13b,可以抑制制造成本。 版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • Photoelectric conversion device and manufacturing method thereof
    • 光电转换装置及其制造方法
    • JP2012204046A
    • 2012-10-22
    • JP2011065588
    • 2011-03-24
    • Sony Corpソニー株式会社
    • FUKUSHIMA KAZUAKITAKAGI HIROTAKAHANYU KAZUTAKAMUROYAMA MASAKAZUMATSUNAGA TORUSUGAWARA KAZUHIKOKOBAYASHI IZUMIKUMAGAI KIYOSHIHOSOYA MAMORU
    • H01M14/00H01L31/04H01M4/74
    • Y02E10/542Y02P70/521
    • PROBLEM TO BE SOLVED: To provide a photoelectric conversion device capable of increasing the area of a semiconductor layer which contributes to the photoelectric conversion (power generation) in the photoelectric conversion device.SOLUTION: A photoelectric conversion device comprises: (A) a first substrate 21 and a second substrate 22; and (B) a semiconductor layer 31, a first collector 51 having a first face 51a opposed to the first substrate and a second face 51b opposed to the second substrate, an electrolyte layer 41, a catalyst layer 32 and a second collector 61 which are sequentially arranged from the first substrate side between the first substrate 21 and the second substrate 22. The first substrate 21 and the second substrate 22 are sealed together at their outer edges. The first collector 51 is made of a conductive material with a number of through-holes formed thereon. Part in the thickness direction of the semiconductor layer formed on the first face 51a of the first collector 51 enters the through-holes formed on the first collector 51.
    • 解决的问题:提供能够增加有助于光电转换装置中的光电转换(发电)的半导体层的面积的光电转换装置。 光电转换装置包括:(A)第一基板21和第二基板22; 和(B)半导体层31,具有与第一基板相对的第一面51a和与第二基板相对的第二面51b的第一集电体51,电解质层41,催化剂层32和第二集电体61, 从第一基板侧依次布置在第一基板21和第二基板22之间。第一基板21和第二基板22在其外边缘处被密封在一起。 第一集电体51由其上形成有多个通孔的导电材料制成。 形成在第一集电体51的第一面51a上的半导体层的厚度方向的部分进入形成在第一集电体51上的通孔。(C)2013,JPO&INPIT
    • 9. 发明专利
    • Luminescent color conversion member and method of manufacturing the same, and light-emitting element
    • 发光颜色转换构件及其制造方法和发光元件
    • JP2011091068A
    • 2011-05-06
    • JP2009240980
    • 2009-10-20
    • Sony Corpソニー株式会社
    • SHIMADA TETSUOKOBAYASHI IZUMITAMURA TAKASHIIGARASHI TAKAHIROKUSUKI TSUNEO
    • H01L33/50C09K11/08C09K11/56C09K11/62C09K11/80
    • H01L2224/45144H01L2224/48091H01L2224/73265Y02B20/181H01L2924/00014H01L2924/00
    • PROBLEM TO BE SOLVED: To provide a reliable and long-life luminescent color conversion member that has a small amount of deterioration in a phosphor and satisfactory emission characteristics, even if using the phosphor easily deteriorating in contact with water, in a process, or the like for sealing into glass, such as a sulfide phosphor, and prevents color tone from changing by long-term use even if using a high power blue light-emitting diode as an excitation light source, to provide a method of manufacturing the luminescent color conversion member, and to provide a light-emitting element including the luminescent color conversion member. SOLUTION: The luminescent color conversion member 3, where an inorganic phosphor particle 1 is sealed into sintered glass 2, is manufactured as follows. More specifically, first, the inorganic phosphor particle that is excited by light from a light emitting source and emits fluorescence of a different wavelength is uniformly mixed with glass powder, and mixed powder 4 without containing any resin binders is prepared. Then, a molding die 20 is filled with the mixed powder 4, and then air inside the mixed powder 4 is exhausted. After that, the mixed power 4 is sintered while being pressurized in a pressure-reduced atmosphere by a hot press sintering method, or the like. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了提供一种可靠且寿命长的发光颜色转换部件,其具有少量的荧光体劣化和令人满意的发光特性,即使在容易劣化与水接触的情况下使用荧光体, 等用于密封成玻璃,例如硫化物荧光体,并且即使使用高功率蓝色发光二极管作为激发光源,也可防止长期使用的色调,从而提供制造方法 发光颜色转换构件,并且提供包括发光颜色转换构件的发光元件。 解决方案:将无机荧光体颗粒1密封在烧结玻璃2中的发光颜色转换部件3如下制造。 更具体地,首先,将来自发光源的光激发并发射不同波长的荧光的无机荧光体颗粒与玻璃粉末均匀混合,并且制备不含任何树脂粘合剂的混合粉末4。 然后,用混合粉末4填充成型模具20,然后排出混合粉末4内的空气。 之后,混合动力4在通过热压烧结法等在减压气氛中加压的同时进行烧结。 版权所有(C)2011,JPO&INPIT
    • 10. 发明专利
    • Luminescent color conversion member
    • 发光颜色转换会员
    • JP2010157577A
    • 2010-07-15
    • JP2008334282
    • 2008-12-26
    • Sony Corpソニー株式会社
    • SHIMADA TETSUOKOBAYASHI IZUMITAMURA TAKASHIIGARASHI TAKAHIROKUSUKI TSUNEO
    • H01L33/50C09K11/00C09K11/56C09K11/62
    • Y02B20/181
    • PROBLEM TO BE SOLVED: To provide a luminescent color conversion member which has a wide color gamut and excellent luminescence characteristics, and provides a light source for white illumination having high reliability and long life. SOLUTION: The luminescent color conversion member substantially contains neither a lead compound nor a fluorine compound, and is formed by dispersing an inorganic phosphor which receives blue light and converts it into green light and an inorganic phosphor which receives the blue light and converts it into red light in glass containing SiO 2 as a principal component, the luminescent color conversion member converts the blue light emitted from a blue light source into white light. COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题:提供具有宽色域和优异的发光特性的发光颜色转换部件,并提供具有高可靠性和长寿命的白光照明光源。 解决方案:发光颜色转换构件基本上既不含铅化合物也不含氟化合物,并且通过将接收蓝光并将其转化为绿光的无机荧光体和接收蓝光并转换的无机磷光体 发光颜色转换部件将从蓝色光源发出的蓝色光转换为白色光,将其作为主要成分的含有SiO 2 的玻璃中的红色光。 版权所有(C)2010,JPO&INPIT