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    • 2. 发明授权
    • Solar battery module manufacturing method
    • 太阳能电池模块制造方法
    • US08551803B2
    • 2013-10-08
    • US13026733
    • 2011-02-14
    • Takeshi YuukiMasaru AkiyamaKeizo Masada
    • Takeshi YuukiMasaru AkiyamaKeizo Masada
    • H01L31/18
    • B32B17/10036B32B17/10091H01L31/048Y02E10/50
    • Provided is a process of producing a solar battery module 1 including plural solar battery cells 4 sealed by a resin 5 between a transparent panel 2 of the light reception surface side and a back face panel 3, which is characterized by arranging plural solar battery cells 4 at a prescribed interval and mutually connecting them to each other by a conductor 8; arranging a first sealing resin sheet 12 substantially covering the entire surface of the transparent panel 2 of the light reception surface side between the transparent panel 2 of the light reception surface side and the solar battery cells 4; arranging a second sealing resin sheet 10 substantially covering the entire surface of the back face panel 3 between the back face panel 3 and the solar battery cells 4; arranging sealing resin sheet pieces 18, 19 which are thicker than the solar battery cells 4 at a space 9 between the solar battery cells 4 so as to be sandwiched by the first sealing resin sheet 12 and the second sealing resin sheet 10; discharging air between the transparent panel 2 of the light reception surface side and the back face panel 3; and heating the resin 5 for melting and then cooling down it for sealing. According to this, when the plural solar battery cells 4 are arranged and sealed by the resin 5, breakage of the solar battery cells 4 can be prevented from occurring.
    • 本发明提供一种太阳能电池模块1的制造方法,该太阳能电池模块1包括由光接收表面侧的透明面板2和后面板3之间的由树脂5密封的多个太阳能电池单元4,其特征在于,设置多个太阳能电池单元4 以规定的间隔并且通过导体8将它们彼此连接; 布置基本上覆盖在光接收表面侧的透明面板2和太阳能电池单元4之间的光接收表面侧的透明面板2的整个表面的第一密封树脂片12; 布置基本上覆盖背面板3和太阳能电池单元4之间的背面板3的整个表面的第二密封树脂片10; 在太阳能电池单元4之间的空间9处设置比太阳能电池单元4厚的密封树脂片18,19,以被第一密封树脂片12和第二密封树脂片10夹持; 在受光面侧的透明面板2和背面面板3之间排出空气; 并加热树脂5进行熔化,然后冷却以进行密封。 据此,当多个太阳能电池单元4被树脂5布置和密封时,可以防止发生太阳能电池单元4的破损。
    • 3. 发明申请
    • Solar battery module manufacturing method
    • 太阳能电池模块制造方法
    • US20050274410A1
    • 2005-12-15
    • US10531313
    • 2003-10-20
    • Takeshi YuukiMasaru AkiyamaKeizo Masada
    • Takeshi YuukiMasaru AkiyamaKeizo Masada
    • H01L31/00
    • B32B17/10036B32B17/10091H01L31/048Y02E10/50
    • Provided is a process of producing a solar battery module 1 including plural solar battery cells 4 sealed by a resin 5 between a transparent panel 2 of the light reception surface side and a back face panel 3, which is characterized by arranging plural solar battery cells 4 at a prescribed interval and mutually connecting them to each other by a conductor 8; arranging a first sealing resin sheet 12 substantially covering the entire surface of the transparent panel 2 of the light reception surface side between the transparent panel 2 of the light reception surface side and the solar battery cells 4; arranging a second sealing resin sheet 10 substantially covering the entire surface of the back face panel 3 between the back face panel 3 and the solar battery cells 4; arranging sealing resin sheet pieces 18, 19 which are thicker than the solar battery cells 4 at a space 9 between the solar battery cells 4 so as to be sandwiched by the first sealing resin sheet 12 and the second sealing resin sheet 10; discharging air between the transparent panel 2 of the light reception surface side and the back face panel 3; and heating the resin 5 for melting and then cooling down it for sealing. According to this, when the plural solar battery cells 4 are arranged and sealed by the resin 5, breakage of the solar battery cells 4 can be prevented from occurring.
    • 本发明提供一种太阳能电池模块1的制造方法,该太阳能电池模块1包括由光接收表面侧的透明面板2和后面板3之间的由树脂5密封的多个太阳能电池单元4,其特征在于,设置多个太阳能电池单元4 以规定的间隔并且通过导体8将它们彼此连接; 布置基本上覆盖在光接收表面侧的透明面板2和太阳能电池单元4之间的光接收表面侧的透明面板2的整个表面的第一密封树脂片12; 布置基本上覆盖背面板3和太阳能电池单元4之间的背面板3的整个表面的第二密封树脂片10; 在太阳能电池单元4之间的空间9处设置比太阳能电池单元4厚的密封树脂片18,19,以被第一密封树脂片12和第二密封树脂片10夹持; 在受光面侧的透明面板2和背面面板3之间排出空气; 并加热树脂5进行熔化,然后冷却以进行密封。 据此,当多个太阳能电池单元4被树脂5布置和密封时,可以防止发生太阳能电池单元4的破损。
    • 4. 发明申请
    • SOLAR BATTERY MODULE MANUFACTURING METHOD
    • 太阳能电池模块制造方法
    • US20110189807A1
    • 2011-08-04
    • US13026733
    • 2011-02-14
    • Takeshi YuukiMasaru AkiyamaKeizo Masada
    • Takeshi YuukiMasaru AkiyamaKeizo Masada
    • H01L31/0203
    • B32B17/10036B32B17/10091H01L31/048Y02E10/50
    • Provided is a process of producing a solar battery module 1 including plural solar battery cells 4 sealed by a resin 5 between a transparent panel 2 of the light reception surface side and a back face panel 3, which is characterized by arranging plural solar battery cells 4 at a prescribed interval and mutually connecting them to each other by a conductor 8; arranging a first sealing resin sheet 12 substantially covering the entire surface of the transparent panel 2 of the light reception surface side between the transparent panel 2 of the light reception surface side and the solar battery cells 4; arranging a second sealing resin sheet 10 substantially covering the entire surface of the back face panel 3 between the back face panel 3 and the solar battery cells 4; arranging sealing resin sheet pieces 18, 19 which are thicker than the solar battery cells 4 at a space 9 between the solar battery cells 4 so as to be sandwiched by the first sealing resin sheet 12 and the second sealing resin sheet 10; discharging air between the transparent panel 2 of the light reception surface side and the back face panel 3; and heating the resin 5 for melting and then cooling down it for sealing. According to this, when the plural solar battery cells 4 are arranged and sealed by the resin 5, breakage of the solar battery cells 4 can be prevented from occurring.
    • 本发明提供一种太阳能电池模块1的制造方法,该太阳能电池模块1包括由光接收表面侧的透明面板2和后面板3之间的由树脂5密封的多个太阳能电池单元4,其特征在于,设置多个太阳能电池单元4 以规定的间隔并且通过导体8将它们彼此连接; 布置基本上覆盖在光接收表面侧的透明面板2和太阳能电池单元4之间的光接收表面侧的透明面板2的整个表面的第一密封树脂片12; 布置基本上覆盖背面板3和太阳能电池单元4之间的背面板3的整个表面的第二密封树脂片10; 在太阳能电池单元4之间的空间9处设置比太阳能电池单元4厚的密封树脂片18,19,以被第一密封树脂片12和第二密封树脂片10夹持; 在受光面侧的透明面板2和背面面板3之间排出空气; 并加热树脂5进行熔化,然后冷却以进行密封。 据此,当多个太阳能电池单元4被树脂5布置和密封时,可以防止发生太阳能电池单元4的破损。
    • 5. 发明授权
    • Solar battery module manufacturing method
    • 太阳能电池模块制造方法
    • US07915518B2
    • 2011-03-29
    • US10531313
    • 2003-10-20
    • Takeshi YuukiMasaru AkiyamaKeizo Masada
    • Takeshi YuukiMasaru AkiyamaKeizo Masada
    • H02N6/00H01L25/00H01L31/042
    • B32B17/10036B32B17/10091H01L31/048Y02E10/50
    • A process of producing a solar battery module having plural solar battery cells sealed by a resin between a transparent panel of the light reception surface side and a back face panel, including arranging plural solar battery cells at a prescribed interval and mutually connecting them to each other by a conductor; arranging a first sealing resin sheet between the transparent panel and the solar battery cells; arranging a second sealing resin sheet between the back face panel and the solar battery cells; arranging sealing resin sheet pieces between the solar battery cells to sandwich them in-between the first and second sealing resin sheets; discharging air between the transparent panel and the back face panel; heating the resin for melting; and cooling the resin for sealing.
    • 一种制造太阳能电池模块的方法,该太阳能电池模块具有由光接收表面侧的透明面板和背面板之间的树脂密封的多个太阳能电池单元,包括以规定的间隔配置多个太阳能电池单元并将它们彼此相互连接 由指挥; 在透明面板和太阳能电池单元之间布置第一密封树脂片; 在后面板和太阳能电池单元之间布置第二密封树脂片; 在太阳能电池单元之间设置密封树脂片,将它们夹在第一和第二密封树脂片之间; 在透明面板和背面板之间排出空气; 加热树脂进行熔化; 并冷却用于密封的树脂。
    • 6. 发明授权
    • Linear guide apparatus
    • 直线导轨装置
    • US07465094B2
    • 2008-12-16
    • US11521454
    • 2006-09-15
    • Xu WeiMasaru Akiyama
    • Xu WeiMasaru Akiyama
    • F16C29/06
    • F16C29/065
    • A linear guide apparatus is provided with two (upper and lower) tracks of rolling element race tracks formed on a guide rail and of rolling element race tracks formed on a slider main body so as to oppose the rolling element race tracks on the respective sides, i.e., four tracks of race tracks in total. A recess is provided below the lower rolling element race track on the slider main body and the end cap fixed to an end face of the slider main body is provided with a projection that engages with the recess so as to determine a position of the end cap.
    • 线性引导装置设置有形成在导轨上的滚动元件座圈和形成在滑块主体上的滚动体座圈的两个(上下)轨迹,以便在相应侧面上与滚动体座圈相对, 即总共有四条赛道。 在滑块主体上的下滚动体轨道的下方设置有凹部,固定在滑块主体的端面上的端盖设置有与凹部卡合的突起,以便确定端盖的位置 。
    • 8. 发明授权
    • Linear guide bearing apparatus
    • 直线导轨轴承装置
    • US07229211B2
    • 2007-06-12
    • US11154697
    • 2005-06-17
    • Masaru AkiyamaToshiaki Yamaguchi
    • Masaru AkiyamaToshiaki Yamaguchi
    • F16C29/06
    • F16C29/065F16C29/0609F16C33/3706
    • A linear guide bearing apparatus 1 includes a guide rail 2 and a slider 4 riding over the guide rail 2 movably relative thereto, the slider 4 includes a slider main body 8 and end caps 10 respectively joined to both end faces in an axial direction of the slider main body 8, and the end cap 10 includes an end cap main body 44 formed with a middle guide face 54 and an outer peripheral guide face 56 of an inner side direction change path 50 as well as an inner peripheral guide face 62 and a middle guide face 64 of an outer side direction change path 60, a return guide 46 formed with an inner peripheral guide face 52 of the inner side direction change path 50, and a lid member 48 formed with an outer peripheral guide face 66 of the outer side direction change path 60.
    • 线性导向轴承装置1包括导轨2和滑动件4,滑块4相对于导轨2可移动地悬挂在导轨2上,滑块4包括滑块主体8和端盖10,端滑块主体8和端盖10分别接合在两个端面 滑块主体8,端盖10包括端盖主体44,其形成有内侧方向改变路径50的中间引导面54和外周引导面56以及内周引导面62和 外侧方向切换路径60的中间引导面64,形成有内侧方向改变路径50的内周引导面52的返回引导件46以及形成有外侧方向改变路径60的外周引导面66的盖部件48。 侧方向改变路径60。
    • 10. 发明授权
    • Linear guide device
    • 直线导轨装置
    • US07476031B2
    • 2009-01-13
    • US10581795
    • 2004-12-06
    • Wei XuMasaru Akiyama
    • Wei XuMasaru Akiyama
    • F16C29/06
    • F16C43/06F16C29/0607F16C29/0609F16C29/065F16C33/3706
    • A linear guide device has a guide rail 12, a slider body 15, an end cap 16, a large number of rolling bodies 18, and separators 22. The slider body 15 has a slider side rolling body raceway surface opposed to a rail side rolling body raceway surface 13 formed on the guide rail 12. The end cap 16 has a rolling body direction switching path 21 communicating with a rolling body load rolling path 19 formed between both rolling body raceway surfaces of the guide rail 12 and the slider body 15 and also communicating with a rolling body return path 20 formed in a penetrating manner in the slider body 15, along the longitudinal direction of the guide rail 12. In conjunction with relative linear movement of a slider 14 constituted of the slider body 15 and the end cap 16, the rolling bodies 18 roll in the rolling body load rolling path 19, the rolling body return path 20, and a rolling body direction switching path 21. The separators 22 are arranged between every two adjacent rolling bodies 18. The end cap 16 has a throughhole 25 for assembling the rolling bodies 18 and the separators 22 from the outside of the slider 14 into the rolling body return path 19 and also has a cap member 26 removably fitted in the through-hole 25. The cap member 26 forms part of the rolling body direction switching path 21.
    • 线性引导装置具有导轨12,滑块体15,端盖16,多个滚动体18和隔板22.滑块体15具有与轨道侧滚动相对的滑块侧滚动体滚道面 主体滚道表面13形成在导轨12上。端盖16具有滚动体方向切换路径21,该滚动体方向切换路径21与形成在导轨12的滚动体轨道表面和滑块体15之间的滚动体载荷滚动路径19连通, 还与沿着导轨12的纵向方向以滑动体15形成为一体的滚动体返回路径20连通。与由滑块体15和端盖构成的滑块14的相对线性运动 如图16所示,滚动体18在滚动体载荷滚动路径19,滚动体返回路径20和滚动体方向切换路径21中滚动。分隔件22布置在每两个相邻的滚动体18之间。 端盖16具有用于将滚动体18和分离器22从滑块14的外部组装到滚动体返回路径19中的通孔25,并且还具有可移除地装配在通孔25中的盖构件26。 构件26形成滚动体方向切换路径21的一部分。