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    • 5. 发明公开
    • SOLAR CELL MODULE ANCHORING DEVICE, ANCHORING METHOD, AND ANCHORING STRUCTURE
    • VERANKERUNGSVORRICHTUNG,VERANKERUNGSVERFAHREN UND VERANKERUNGSSTRUKTURFÜREIN SOLARZELLENMODUL
    • EP3023559A4
    • 2017-04-19
    • EP14826553
    • 2014-04-18
    • SOLAR FRONTIER KK
    • KANBARA TATSUJIITOU DAISUKE
    • E04D13/18F24J2/46F24J2/52H02S20/23
    • H02S30/10F24J2/4614F24J2/5207F24J2/5211F24J2/526F24J2002/0046F24J2002/5281H02S20/23Y02B10/12Y02E10/47
    • A fastening device which adjusts the position of a frame to match the size of a solar cell module and shortens the installation time has been desired. A fastening device 100 which fastens and supports a solar cell module 20 includes a base part 111, a first module support part 113 which has a first support surface 113a able to support a light-receiving surface of the solar cell module and which is provided at the base part, a second module support part 114 which has a second support surface 114a able to support a non-light receiving surface of the solar cell module and which is provided at the base part, wherein the second support surface has a surface area larger than the first support surface and is arranged so that the second support surface is away from the first support surface at a constant interval T2 , and a guide member 212 which can hold the base part in a manner able to be moved in a substantially parallel direction to the first and second support surfaces.
    • 期望调整框架的位置以匹配太阳能电池模块的尺寸并缩短安装时间的紧固装置。 紧固和支撑太阳能电池模块20的固定装置100包括基部111,第一模块支撑部分113,第一模块支撑部分113具有能够支撑太阳能电池组件的光接收表面的第一支撑表面113a, 基部,第二模块支撑部分114,其具有能够支撑太阳能电池模块的非光接收表面并且设置在基部的第二支撑表面114a,其中第二支撑表面具有较大的表面积 并且被布置成使得第二支撑表面以恒定间隔T2离开第一支撑表面;以及引导构件212,其可以以能够基本上平行的方向移动的方式保持基部 到第一和第二支撑表面。
    • 7. 发明公开
    • THIN FILM SOLAR CELL MANUFACTURING METHOD
    • DÜNNSCHICHTSOLARZELLENHERSTELLUNGSVERFAHREN
    • EP2894674A4
    • 2015-09-23
    • EP13835807
    • 2013-08-29
    • SOLAR FRONTIER KK
    • KONDOU MASASHITANAKA MANABU
    • H01L31/04H01L31/0463H01L31/0465
    • H01L31/18H01L31/022441H01L31/022466H01L31/04H01L31/0463H01L31/0465H01L31/068H01L31/1884Y02E10/50Y02P70/521
    • A method of manufacturing a thin-film solar cell includes a first electrode forming step of forming a first electrode on a substrate; a first partition groove forming step of forming a first partition groove for dividing the first electrode and exposing a surface of the substrate in the first partition groove; a semiconductor layer forming step of forming a semiconductor layer on the first electrode and in the first partition groove; a second partition groove forming step of forming a second partition groove for dividing the semiconductor layer and exposing a surface of the first electrode in the second partition groove; a second electrode forming step of forming a second electrode on the semiconductor layer and in the second partition groove; and a third partition groove forming step of forming a third partition groove for dividing the second electrode and the semiconductor layer and exposing the surface of the first electrode in the third partition groove. At least one of the first partition groove forming step, the second partition groove forming step, and the third partition groove forming step includes an opening forming step of forming an opening in a partition groove forming layer where a partition groove is to be formed, by removing beforehand a part of the partition groove forming layer corresponding to a starting point from which the partition groove is formed, and thereby exposing a surface of a lower layer below the partition groove forming layer in the opening, and a partition groove forming step of bringing a needle into contact with the surface of the lower layer exposed in the opening and forming the partition groove by moving the needle in a predetermined direction.
    • 制造薄膜太阳能电池的方法包括在基板上形成第一电极的第一电极形成步骤; 第一分隔槽形成步骤,形成用于分割所述第一电极并暴露所述第一分隔槽中的所述基板的表面的第一分隔槽; 在第一电极和第一分隔槽中形成半导体层的半导体层形成步骤; 第二分隔槽形成步骤,形成用于分割半导体层并暴露第二分隔槽中的第一电极的表面的第二分隔槽; 第二电极形成步骤,在所述半导体层和所述第二分隔槽中形成第二电极; 以及第三分隔槽形成步骤,形成用于分割所述第二电极和所述半导体层并暴露所述第三分隔槽中的所述第一电极的表面的第三分隔槽。 第一分隔槽形成工序,第二分隔槽形成工序和第三分隔槽形成工序中的至少一个包括开口形成步骤,在形成有分隔槽的分隔槽形成层中形成开口的开口形成工序, 预先分离与形成有分隔槽的起始点对应的分隔槽形成层的一部分,从而将开口部中的分隔槽形成层的下层的表面露出,并且将分隔槽形成工序, 针与暴露在开口中的下层的表面接触,并通过沿预定方向移动针来形成分隔槽。
    • 10. 发明公开
    • APPARATUS AND METHOD FOR FIXING SOLAR CELL MODULE
    • VORRICHTUNG UND VERFAHREN ZUR BEFESTIGUNG EINES SOLARZELLENMODULS
    • EP3023558A4
    • 2017-01-04
    • EP14826280
    • 2014-06-16
    • SOLAR FRONTIER KK
    • ITOU DAISUKEKANBARA TATSUJI
    • E04D13/18F24J2/52H02S20/23
    • H02S30/10F24J2/5207F24J2/5211F24J2/526F24J2002/0046F24J2002/5281F24J2002/5288H02S20/23Y02B10/12Y02E10/47
    • A fastening device which reduces the work by screwing and shortens the installation time has been desired. A fastening device 100 which fastens and supports a plurality of solar cell modules 20 includes a base part 111, a first module support part 113 which has a first support surface 113a and which is provided at the base part to be able to elastically displace, a second module support part 114 which has a second support surface 114a and which is provided at the base part, wherein the second support surface is arranged so that the second support surface is away from the first support surface of the first module support part when not elastically displaced at a constant first interval T2, a third module support part 123 which has a third support surface 123a and which is provided at the base part to be able to elastically displace, and a fourth module support part 124 which has a fourth support surface 124a, which fourth module support part is arranged a constant second interval T3 which is smaller than the first interval T2.
    • 期望通过旋拧减少工作并缩短安装时间的紧固装置。 紧固并支撑多个太阳能电池模块20的固定装置100包括基部111,第一模块支撑部113,其具有第一支撑表面113a并且设置在基部以能够弹性位移, 第二模块支撑部分114,其具有第二支撑表面114a并且设置在基部,其中第二支撑表面被布置成使得当不弹性时第二支撑表面远离第一模块支撑部分的第一支撑表面 以恒定的第一间隔T2移位的第三模块支撑部分123,第三模块支撑部分123具有第三支撑表面123a并且设置在基部以能够弹性位移;第四模块支撑部分124,其具有第四支撑表面124a ,该第四模块支撑部件布置有比第一间隔T2小的恒定的第二间隔T3。