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    • 2. 发明申请
      WO2011157799A1 SOLAR COLLECTOR ASSEMBLY WITH AT LEAST ONE CLINCHING CONNECTION, METHOD FOR MANUFACTURING THE SOLAR COLLECTOR ASSEMBLY BY A CLINCHING MECHANISM AND USE OF THE SOLAR COLLECTOR ASSEMBLY 审中-公开
    • SOLAR COLLECTOR ASSEMBLY WITH AT LEAST ONE CLINCHING CONNECTION, METHOD FOR MANUFACTURING THE SOLAR COLLECTOR ASSEMBLY BY A CLINCHING MECHANISM AND USE OF THE SOLAR COLLECTOR ASSEMBLY
    • 具有至少一个切割连接的太阳能收集器组件,用于通过切割机构制造太阳能收集器组件的方法和太阳能收集器组件的使用
    • WO2011157799A1
    • 2011-12-22
    • PCT/EP2011/060046
    • 2011-06-16
    • SIEMENS AKTIENGESELLSCHAFTSIEMENS CONCENTRATED SOLAR POWER LTD.GIL, OriKLAPWALD, ShmulikSHARON, Yigal
    • GIL, OriKLAPWALD, ShmulikSHARON, Yigal
    • F24J2/14F24J2/52F24J2/54
    • F24S30/425F24S23/74F24S25/13Y02B10/20Y02E10/45Y02E10/47
    • A solar collector assembly with at least one arrangement of at least one parabolic reflector and at least one reflector holder for holding the parabolic reflector and with at least one support structure for supporting the arrangement and for driving the solar collector assembly. Thereby the parabolic reflector and the reflector holder, building blocks of the support structure among themselves and/or the support structure and the arrangement are linked together by at least one clinching connection. Additionally a method for manufacturing the solar collector assembly with following steps is provided: a) Providing the support structure and the arrangement of at least one parabolic reflector and of at least one reflector holder and/or providing building blocks of the support structure and/or providing the support structure and the arrangement and b) linking the parabolic reflector and the reflector holder and/or linking the building blocks of the support structure and/or linking the support structure and the arrangement together, wherein at least one of the linking comprises a clinching mechanism. Parts of the solar collector assembly are connected by a clinching mechanism. Finally a use of the solar collector assembly in a power plant for converting solar energy into electrical energy is provided.
    • 一种具有至少一个抛物面反射器和至少一个反射器支架的至少一个布置的太阳能收集器组件,用于保持抛物面反射器和至少一个用于支撑该布置并用于驱动太阳能收集器组件的支撑结构。 因此,抛物面反射器和反射器支架,它们之间的支撑结构的构件和/或支撑结构和布置通过至少一个铆接连接件连接在一起。 另外,提供了用于制造具有以下步骤的太阳能收集器组件的方法:a)提供至少一个抛物面反射器和至少一个反射器支架的支撑结构和布置,和/或提供支撑结构的构造块和/或 提供所述支撑结构和所述布置,以及b)将所述抛物面反射器和所述反射器支架连接和/或连接所述支撑结构的构件和/或将所述支撑结构与所述装置连接在一起,其中,所述连接中的至少一个包括 夹紧机制。 太阳能集热器组件的部分通过夹紧机构连接。 最后,提供了用于将太阳能转换成电能的发电厂中的太阳能收集器组件的使用。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 5. 发明申请
      WO2017118506A1 HEAT RECEIVER TUBE WITH METALLIC SEALING, METHOD FOR MANUFACTURING THE HEAT RECEIVER TUBE, SOLAR COLLECTOR WITH THE HEAT RECEIVER TUBE AND METHOD FOR PRODUCING ELECTRICITY BY USING THE SOLAR COLLECTOR 审中-公开
    • HEAT RECEIVER TUBE WITH METALLIC SEALING, METHOD FOR MANUFACTURING THE HEAT RECEIVER TUBE, SOLAR COLLECTOR WITH THE HEAT RECEIVER TUBE AND METHOD FOR PRODUCING ELECTRICITY BY USING THE SOLAR COLLECTOR
    • 具有金属密封的热接收管,制造热接收管的方法,具有热接收管的太阳集热器以及使用太阳集热器产生电力的方法
    • WO2017118506A1
    • 2017-07-13
    • PCT/EP2016/079996
    • 2016-12-07
    • SIEMENS CONCENTRATED SOLAR POWER LTD.SIEMENS AKTIENGESELLSCHAFT
    • KLAPWALD, Shmulik
    • F24J2/05
    • F24S10/45F24S2025/6013Y02E10/44
    • A heat receiver tube (1) for absorbing solar energy and for transferring absorbed solar energy to a heat transfer fluid (111) which can be located inside of at least one core tube (11) of the heat receiver tube (1) is provided. The core tube (11) comprises a core tube surface (112) with at least one solar energy absorptive coating (1121) for absorbing solar radiation (2). The core tube (11) is enveloped by at least one enveloping tube (10). The enveloping tube (10) comprises at least one enveloping tube wall (101) which is at least partly transparent for the solar radiation (2). The enveloping tube wall (101) comprises at least one inner enveloping tube surface (102). The core tube (11) and the enveloping tube (10) are coaxially arranged to each other such that an inner heat receiver tube space (3) is formed which is bordered by the core tube surface (112) and the inner enveloping tube surface (102). The inner heat receiver tube space (3) comprises an inert gas (5). The heat receiver tube (1) comprises at least one dimension adapting device (6) with a flexible adapting device wall (60) for compensation of a thermally induced change of at least one dimension of the heat receiver tube (1). The enveloping tube (10) and the dimension adapting device (6) are joined together by at least one heat receiver tube skirt (103) with at least one heat receiver tube skirt wall (1031). The heat receiver tube skirt wall (1031) comprises at least one inlet port (4) for pouring in of at least one inert gas (Xe or Kr) into the inner heat receiver tube space (3). The inlet port (4) is sealed by an inlet port sealing (40) for inhibiting a leakage of the inert gas out of the inner heat receiver tube space (3). The inlet port sealing (40) comprises at least one metal.
    • (1),用于吸收太阳能并将吸收的太阳能转移到传热流体(111),传热流体(111)可位于至少一个热管(11)的内部 接收器管(1)被提供。 芯管(11)包括具有用于吸收太阳辐射(2)的至少一个太阳能吸收涂层(1121)的芯管表面(112)。 芯管(11)由至少一个包络管(10)包围。 包络管(10)包括至少一个对于太阳辐射(2)至少部分透明的包络管壁(101)。 包络管壁(101)包括至少一个内包络管表面(102)。 芯管(11)和包络管(10)彼此同轴地布置,从而形成内部热接收管空间(3),其由芯管表面(112)和内包络管表面(112) 102)。 内部热接收器管空间(3)包括惰性气体(5)。 受热器管(1)包括至少一个尺寸适配装置(6),该装置具有柔性适配装置壁(60),用于补偿热接收管(1)的至少一个尺寸的热致变化。 包络管(10)和尺寸调节装置(6)通过至少一个受热器管裙(103)与至少一个受热器管裙壁(1031)连接在一起。 受热器管裙壁(1031)包括用于将至少一种惰性气体(Xe或Kr)倒入内部热接收器管空间(3)中的至少一个入口端口(4)。 入口端口(4)由用于抑制惰性气体从内部热接收器管空间(3)泄漏的入口密封件(40)密封。 入口密封(40)包括至少一种金属。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
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