会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 5. 发明申请
    • FLAT SURFACED TITLE WITH SOLAR ENERGY COLLECTION CAPABILITY
    • 具有太阳能收集能力的平面表面标题
    • WO01036882A1
    • 2001-05-25
    • PCT/US2000/030142
    • 2000-11-16
    • E04D1/16E04D1/20E04D1/34E04D3/40E04D12/00F24J2/04H01L31/048
    • E04D1/34E04D1/16E04D1/20E04D3/40E04D12/004E04D2001/3411E04D2001/3414E04D2001/3423E04D2001/3458E04D2001/3467E04D2001/3473E04D2001/3485E04D2001/3494F24S20/69H02S20/25Y02B10/20Y02E10/44
    • A surfacing tile for use as a part of a solar energy collection system comprising a tile member (10) which has opposing spaced planar faces (2, 4) that define front and back faces, respectively, at least one side (6, 8), a top and a bottom (12, 14), and is adapted to be supported on a support surface (16) so that an open airflow chamber (18) is created directly between the back face and said support surface, a substantial portion of said tile member being constructed of a material that transmits solar radiation, thus permitting the transmitted solar radiation to strike and heat air within said flow space (18) and said support surface (16) which collectively heats air in the flow space (18), and fasteners (22) fixing said tile member (10) to said support surface, said tile (10) and said support surface (16) cooperating to form at least a portion of a conduit for conveying heated air through said flow space (18).
    • 一种用作太阳能收集系统的一部分的表面瓦,包括具有分别限定前表面和后表面的相对隔开的平面(2,4)的瓦片构件(10),至少一侧(6,8) ,顶部和底部(12,14),并且适于被支撑在支撑表面(16)上,使得在背面和所述支撑表面之间直接形成开放的气流室(18),大部分 所述瓦片构件由透射太阳辐射的材料构成,从而允许透射的太阳辐射冲击并加热所述流动空间(18)和所述支撑表面(16)内的空气,这些空气共同地加热流动空间(18)中的空气, 和将所述瓦片(10)固定到所述支撑表面的紧固件(22),所述瓦(10)和所述支撑表面(16)协作以形成用于将加热的空气传送通过所述流动空间(18)的导管的至少一部分, 。
    • 8. 发明授权
    • ROOF INSTALLED WITH SOLAR BATTERIES
    • 安装有太阳能电池的屋顶
    • EP0646682B1
    • 2006-07-26
    • EP94904014.1
    • 1994-01-11
    • MISAWA HOMES CO. LTD
    • ISHIKAWA, OsamuOYA,Naoko
    • E04D3/40E04D13/18H01L31/042
    • H02S20/23E04D3/06E04D2001/3458E04D2001/3461E04D2001/3476E04D2001/3485F24S20/67F24S25/20H01L31/048Y02B10/12Y02B10/20Y02E10/47Y02E10/50
    • The efficiency of energy conversion is enhanced by taking a countermeasure against heat escape (radiation), the water sealability is enhanced between the solar battery modules, and the voltage required is obtained by one roof panel to make it possible to supply power efficiently. A roof Y installed with solar batteries is formed by supporting the solar battery modules (3) by core woods (6) and frames (11) on a base panel (2). The heat of the solar batteries is dissipated by the air flow through the ventilating layers (1A) formed between the modules (3) and the base panel (2). The modules (3) are fitted through sealing materials (12) and (14) into the C-shaped parts (13 and 15) of the frames in order to ensure the waterproofness. Also, a frame (32) is used around each module (3), and the extended piece (39) of each frame (32) on the eaves side is overlaid on each other to prevent rainwater from entering the spaces between them. In one roof panel (1), a specific number of solar cells (10) are arranged to produce a required voltage. Thus by adjusting the voltage, any excessive or short supply of power does not occur.
    • 通过采取防止散热(辐射)的措施来增强能量转换的效率,增强太阳能电池组件之间的水密封性,并且通过一个顶板获得所需的电压,从而可以有效地供电。 安装有太阳能电池的屋顶Y通过在基板(2)上由核心木材(6)和框架(11)支撑太阳能电池模块(3)而形成。 太阳能电池的热量通过形成在模块(3)和底板(2)之间的通风层(1A)的气流消散。 模块(3)通过密封材料(12)和(14)装配到框架的C形部分(13和15)中以确保防水性。 而且,在各模块(3)的周围使用框架(32),在屋檐侧的各框架(32)的延长片(39)彼此重叠以防止雨水进入它们之间的空间。 在一个顶板(1)中,布置特定数量的太阳能电池(10)以产生所需的电压。 因此,通过调整电压,不会发生任何过度或短时间供电。
    • 10. 发明公开
    • ROOF INSTALLED WITH SOLAR BATTERIES.
    • 麻省理工学院SONNENBATTERIEN AUSGESTATTETES DACH。
    • EP0646682A4
    • 1997-07-30
    • EP94904014
    • 1994-01-11
    • MISAWA HOMES CO
    • ISHIKAWA OSAMUOYA NAOKO
    • E04D3/06E04D13/18F24J2/04H01L31/048E04D3/40H01L31/042
    • H02S20/23E04D3/06E04D2001/3458E04D2001/3461E04D2001/3476E04D2001/3485F24J2/045F24J2/5211H01L31/048Y02B10/12Y02B10/20Y02E10/47Y02E10/50
    • The efficiency of energy conversion is enhanced by taking a countermeasure against heat escape (radiation), the water sealability is enhanced between the solar battery modules, and the voltage required is obtained by one roof panel to make it possible to supply power efficiently. A roof Y installed with solar batteries is formed by supporting the solar battery modules (3) by core woods (6) and frames (11) on a base panel (2). The heat of the solar batteries is dissipated by the air flow through the ventilating layers (1A) formed between the modules (3) and the base panel (2). The modules (3) are fitted through sealing materials (12) and (14) into the C-shaped parts (13 and 15) of the frames in order to ensure the waterproofness. Also, a frame (32) is used around each module (3), and the extended piece (39) of each frame (32) on the eaves side is overlaid on each other to prevent rainwater from entering the spaces between them. In one roof panel (1), a specific number of solar cells (10) are arranged to produce a required voltage. Thus by adjusting the voltage, any excessive or short supply of power does not occur.
    • 通过采取防止热量逸出(辐射)的对策,提高能量转换的效率,提高太阳能电池模块之间的水封性,并且通过一个屋顶板获得所需的电压,以便有效地提供电力。 用太阳能电池安装的屋顶Y通过在基板(2)上由芯木(6)和框架(11)支撑太阳能电池模块(3)而形成。 太阳能电池的热量通过形成在模块(3)和基板(2)之间的通风层(1A)的空气流消散。 模块(3)通过密封材料(12)和(14)装配到框架的C形部件(13和15)中,以确保防水性。 而且,围绕每个模块(3)使用框架(32),并且在屋檐侧的每个框架(32)的延伸件(39)彼此重叠以防止雨水进入它们之间的空间。 在一个屋顶板(1)中,布置特定数量的太阳能电池(10)以产生所需电压。 因此,通过调整电压,不会发生过多或短暂的电力供应。