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    • 51. 发明授权
    • Solar cell module, production method and installation method therefor and photovoltaic power generation system
    • 太阳能电池组件及其生产方法及安装方法及光伏发电系统
    • US06291761B1
    • 2001-09-18
    • US09471159
    • 1999-12-23
    • Takeshi TakadaAkiharu TakabayashiMasahiro MoriAyako KomoriMasaaki Matsushita
    • Takeshi TakadaAkiharu TakabayashiMasahiro MoriAyako KomoriMasaaki Matsushita
    • H01L31042
    • H01L31/0392H01L31/03529H01L31/03926H02S20/25Y02B10/12Y02E10/50
    • A solar cell module comprises a front surface member disposed on a front surface side of a photovoltaic element having at least a semiconductor photoactive layer on a flexible substrate, a back surface member disposed on a back surface side of the photovoltaic element, and a sealing material interposed therebetween. The flexible substrate of the photovoltaic element has a plurality of substantially parallel surface grooves on a surface thereof at the semiconductor photoactive layer side of the flexible substrate. At least one portion of the solar cell module is processed to deform in such a direction that strain generated in a substantially parallel direction to the surface grooves is applied to the photovoltaic element. In this way, a solar cell module can be subjected to deformation-processing that prevents, to the extent possible, cracks in the semiconductor photoactive layer of the photovoltaic elements; in other words, deformation-processing can be achieved without influencing electrical characteristics. A method of producing such a solar cell module is also disclosed.
    • 太阳能电池模块包括设置在柔性基板上至少具有半导体光敏层的光电元件的正面侧的前表面部件,设置在光电元件的背面侧的背面部件和密封材料 插入其间。 光敏元件的柔性基板在柔性基板的半导体光敏层侧的表面上具有多个基本平行的表面槽。 太阳能电池模块的至少一部分被加工成使得沿着与表面凹槽基本上平行的方向产生的应变施加到光伏元件的方向变形。 以这种方式,可以对太阳能电池模块进行变形处理,从而尽可能防止光电元件的半导体光敏层中的裂纹; 换句话说,可以实现变形处理而不影响电特性。 还公开了一种制造这种太阳能电池模块的方法。
    • 54. 发明授权
    • Solar-cell module and process for its production, building material and
method for its laying, and electricity generation system
    • 太阳能电池组件及其生产工艺,建筑材料及其铺设方法及发电系统
    • US6075202A
    • 2000-06-13
    • US66857
    • 1998-04-28
    • Masahiro MoriAkiharu TakabayashiToshihiko MimuraTakeshi TakadaAyako Komori
    • Masahiro MoriAkiharu TakabayashiToshihiko MimuraTakeshi TakadaAyako Komori
    • H01L31/048H01L25/00
    • H01L31/048H02S20/23F24J2002/4676Y02B10/12Y02E10/50Y02P80/25
    • A solar-cell module is provided which comprises a photovoltaic device sealed on a reinforcing sheet with a filler material, wherein the reinforcing sheet has unevenness formed by plastic deformation, on its surface at least on the side of the photovoltaic device and at least partly on the surface, and a space defined by the unevenness and the photovoltaic device is filled with the filler material. The solar-cell module is produced by a process comprising the steps of superposing at least a thermoplastic-resin sheet member and a photovoltaic device on a reinforcing sheet having unevenness on its surface, and heating the thermoplastic-resin sheet member, the photovoltaic device and the reinforcing sheet while removing air from a space between the reinforcing sheet and the thermoplastic-resin sheet member and a space between the thermoplastic resin sheet member and the photovoltaic device, to bring them into close contact to fix to each other.A solar-cell module can thereby be provided which has no trapped air portions that may be formed between the filler material and the reinforcing sheet when the photovoltaic device is sealed with the filler material and fixed onto the reinforcing sheet to produce the solar-cell module.
    • 提供一种太阳能电池模块,其包括密封在具有填充材料的增强片材上的光伏器件,其中所述增强片材在至少在所述光伏器件的一侧的表面上至少部分地在所述光电器件的表面上至少部分地 表面和由凹凸形成的空间和光伏器件填充有填充材料。 该太阳能电池模块通过以下工序来制造,所述方法包括以下步骤:将至少一层热塑性树脂片材和光伏器件叠加在其表面上具有凹凸的增强片上,并加热该热塑性树脂片材,光伏器件和 在从增强片和热塑性树脂片构件之间的空间中除去空气以及热塑性树脂片构件和光伏器件之间的空间的同时使加强片紧密接触以固定。 由此可以提供一种太阳能电池组件,当光伏器件用填充材料密封并固定在增强板上以产生太阳能电池组件时,可以形成在填充材料和增强片之间形成的被截留的空气部分 。
    • 60. 发明申请
    • IMAGE FORMING APPARATUS AND IMAGE FORMING METHOD
    • 图像形成装置和图像形成方法
    • US20070231733A1
    • 2007-10-04
    • US11695750
    • 2007-04-03
    • Takeshi TakadaTakaaki Ikegami
    • Takeshi TakadaTakaaki Ikegami
    • G03G15/08
    • G03G9/0806G03G5/14708G03G2215/00957G03G2215/209
    • An image forming apparatus at least containing an electrophotographic photoconductor, a latent electrostatic image forming unit, a developing unit, a transferring unit, and a fixing unit, wherein a glass transition temperature of an outermost layer of the electrophotographic photoconductor is 100° C. or more, wherein the toner is obtained by dissolving and/or dispersing the toner material containing at least an active hydrogen group-containing compound and a polymer reactive with the active hydrogen group-containing compound in an organic solvent to form a solution and/or a dispersion, emulsifying and/or dispersing the solution and/or the dispersion in an aqueous medium containing resin fine particles, allowing the active hydrogen group-containing compound and the polymer reactive with the active hydrogen group-containing compound to react in the aqueous medium, and removing the organic solvent, wherein a glass transition temperature of the resin fine particles is 65° C. to 85° C.
    • 至少包含电子照相感光体,静电潜像形成单元,显影单元,转印单元和定影单元的图像形成装置,其中电子照相感光体的最外层的玻璃化转变温度为100℃, 其中调色剂通过将含有至少含活性氢基团的化合物的调色剂材料和与含活性氢基团的化合物反应的聚合物溶解和/或分散在有机溶剂中而形成溶液和/或 将溶液和/或分散体分散,分散在含有树脂微粒的水性介质中,使含活性氢基团的化合物和与含活性氢基团的化合物反应的聚合物在水性介质中反应, 并除去有机溶剂,其中树脂微粒的玻璃化转变温度为65℃至85℃。