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    • 1. 发明申请
    • SOLAR CELL MODULE
    • 太阳能电池模块
    • US20110120529A1
    • 2011-05-26
    • US12674717
    • 2008-08-27
    • Moritaka Nakamura
    • Moritaka Nakamura
    • H01L31/048
    • H02S20/23F24S25/00F24S80/40H02S30/10Y02B10/12
    • A solar cell module (1a) is constituted such that a solar cell panel (9) is held using a main frame member (10) that holds one side of the solar cell panel (9) and a sub-frame member (20) that holds an adjoining side that adjoins this one side, the main frame member (10) is constituted from a solar cell panel main holding portion (11), a main wall portion (12), and a main bottom piece (16), the sub-frame member (20) is constituted from a solar cell panel sub-holding portion (21), a sub-wall portion (22), and a sub-bottom piece (26), the sub-bottom piece (26) of the sub-frame member (20) is positioned above the main bottom piece (16) of the main frame member (10), the lower surface near the side end of this sub-bottom piece (26) abuts against the upper surface near the side end of the main bottom piece (16), and a water barrier piece (28) bent upward is formed at the inner side edge of this sub-bottom piece (26).
    • 太阳能电池模块(1a)构成为使用保持太阳能电池面板(9)的一侧的主框架构件(10)和副框架构件(20)来保持太阳能电池面板(9),副框架构件 保持与该一侧相邻的相邻侧,主框架构件(10)由太阳能电池板主保持部(11),主壁部(12)和主底部件(16)构成,副框 框架构件(20)由太阳能电池板副保持部分(21),副壁部分(22)和副底部片(26)构成,子底部件(26) 副框架构件(20)位于主框架构件(10)的主底部件(16)的上方,靠近该副底部构件(26)的侧端的下表面靠近靠近侧面的上表面 主底部件16的端部和在该底部底部件26的内侧边缘处形成向上弯曲的防水件(28)。
    • 4. 发明授权
    • Solar cell module
    • 太阳能电池组件
    • US08572906B2
    • 2013-11-05
    • US12675201
    • 2008-09-02
    • Moritaka Nakamura
    • Moritaka Nakamura
    • E04D13/18H01L31/042
    • H02S30/10F24S25/20H02S20/00Y02B10/12Y02E10/47Y02E10/50
    • A solar cell module 1a is constituted from a main frame member 10a and a sub-frame member 20a that hold a solar cell panel 9. The main frame member 10a is constituted from a main outer wall 11, a main holding upper piece 12, a main holding lower piece 13, and a main bottom piece 16 and, also, the sub-frame member 20a is constituted from a sub-outer wall 21, a sub-holding upper piece 22, a sub-holding lower piece 23, a sub-base piece 24, a sub-inner wall 25, and a sub-bottom piece 26. Then, the main bottom piece 16 and the sub-bottom piece 26 are formed so as not to collide with each other, such that the projecting position heights of the pieces are different.
    • 太阳能电池模块1a由主框架构件10a和保持太阳能电池面板9的副框架构件20a构成。主框架构件10a由主外壁11,主保持用上部件12, 主保持件13和主底部件16以及子框架构件20a也由副外壁21,副保持用上部件22,副保持用底部件23,副保持用底部件 基部件24,副内壁25和副底部件26.然后,主底部件16和副底部件26形成为不会相互碰撞,使得突出位置 片段的高度是不同的。
    • 5. 发明授权
    • Solar cell module
    • 太阳能电池组件
    • US08404966B2
    • 2013-03-26
    • US12674717
    • 2008-08-27
    • Moritaka Nakamura
    • Moritaka Nakamura
    • H02N6/00H01L31/042E04D13/18E04H14/00
    • H02S20/23F24S25/00F24S80/40H02S30/10Y02B10/12
    • A solar cell module (1a) is constituted such that a solar cell panel (9) is held using a main frame member (10) that holds one side of the solar cell panel (9) and a sub-frame member (20) that holds an adjoining side that adjoins this one side, the main frame member (10) is constituted from a solar cell panel main holding portion (11), a main wall portion (12), and a main bottom piece (16), the sub-frame member (20) is constituted from a solar cell panel sub-holding portion (21), a sub-wall portion (22), and a sub-bottom piece (26), the sub-bottom piece (26) of the sub-frame member (20) is positioned above the main bottom piece (16) of the main frame member (10), the lower surface near the side end of this sub-bottom piece (26) abuts against the upper surface near the side end of the main bottom piece (16), and a water barrier piece (28) bent upward is formed at the inner side edge of this sub-bottom piece (26).
    • 太阳能电池模块(1a)构成为使用保持太阳能电池面板(9)的一侧的主框架构件(10)和副框架构件(20)来保持太阳能电池面板(9),副框架构件 保持与该一侧邻接的邻接侧,主框架构件(10)由太阳能电池板主保持部(11),主壁部(12)和主底部件(16)构成,副框 框架构件(20)由太阳能电池板副保持部(21),副壁部(22)和副底部件(26)构成,副底部件(26) 副框架构件(20)位于主框架构件(10)的主底部件(16)的上方,靠近该底部底座(26)的侧端的下表面靠近靠近侧面 主底部件16的端部和在该底部底部件26的内侧边缘处形成向上弯曲的防水件(28)。
    • 6. 发明申请
    • WIRING SHEET, WIRING SHEET-EQUIPPED SOLAR CELLS, AND SOLAR CELL MODULE
    • 接线板,配线太阳能电池和太阳能电池模块
    • US20120048335A1
    • 2012-03-01
    • US13265161
    • 2010-04-14
    • Moritaka Nakamura
    • Moritaka Nakamura
    • H01L31/05
    • H01L31/0516H01L31/022441H01L31/048H01L31/0682Y02E10/547
    • A wiring sheet in accordance with the present invention is a wiring sheet having wirings provided on an insulating base material for electrically connecting back surface electrode type solar cells each having first conductivity type electrodes and second conductivity type electrodes arranged on one surface of a semiconductor substrate, wherein a cell arrangement portion located at least one of both ends of cell arrangement portions aligned in a second direction on the insulating base material and a cell arrangement portion adjacent to that cell arrangement portion in a first direction are arranged such that a first conductivity type wiring in one cell arrangement portion and a second conductivity type wiring in the other cell arrangement portion are adjacent to each other in the first direction, and one of combinations of the wirings having different conductivity types is electrically connected between said one cell arrangement portion and said other cell arrangement portion.
    • 根据本发明的布线片是布线板,其布线板设置在绝缘基材上,用于电连接布置在半导体基板的一个表面上的第一导电类型电极和第二导电类型电极的背面电极型太阳能电池, 其特征在于,在所述绝缘性基材上的位于与所述电池单元配置部相邻的电池单元配置部的电池配置部的两端中的至少一方的电池配置部和第一方向的电池配置部配置,使得第一导电型配线 在一个单元布置部分和另一个单元布置部分中的第二导电类型布线在第一方向上彼此相邻,并且具有不同导电类型的布线的组合中的一个电连接在所述单电池布置部分和所述另一个单元布置部分之间 电池布置部分。
    • 7. 发明授权
    • Method for stripping a photo resist on an aluminum alloy
    • 在铝合金上剥离光刻胶的方法
    • US06184148B2
    • 2001-02-06
    • US08839371
    • 1997-04-18
    • Moritaka Nakamura
    • Moritaka Nakamura
    • H01L2100
    • H01L21/02071G03F7/427H01L21/311H01L21/31138
    • An interconnection pattern made of aluminum alloy, such as Al-Cu, on a semiconductor IC, is dry etched in an etching gas containing a chlorine component. Residual chlorine components on the substrate are difficult to remove, thus causing corrosion problems with respect to the patterned aluminum alloy layer. Accordingly, to prevent such corrosion, a photo resist stripping process is carried out at a location down stream of the etching process using a conventional stripping gas, such as CF4+O2, at room temperature. Next, and before the resist-stripped substrate is exposed to open air, the substrate is heated in a vacuum to a temperature above 100° C., to thus remove residual chlorine components. In an alternative method, the heating process is carried out concurrently with the resist stripping process.
    • 在半导体IC上由Al-Cu等铝合金构成的配线图案,在含有氯成分的蚀刻气体中被干法蚀刻。 残留的基底上的氯成分难以除去,因此导致相对于图案化的铝合金层的腐蚀问题。 因此,为了防止这种腐蚀,在室温下使用常规的汽提气体如CF4 + O2在蚀刻工艺下游的位置进行光刻胶剥离工艺。 接下来,在将抗蚀剂剥离的基板暴露于露天之前,将基板在真空中加热至高于100℃的温度,从而除去残留的氯组分。 在替代方法中,加热过程与抗蚀剂剥离工艺同时进行。