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    • 1. 发明公开
    • SOLAR HEAT COLLECTING SYSTEM
    • SONNENWÄRMESAMMELSYSTEM
    • EP2559955A4
    • 2017-04-19
    • EP11768438
    • 2011-04-14
    • SUZHOU SAIPA SOLAR TECH CO LTD
    • YU QIYU ZHONGLIANG
    • F24J2/38F24J2/12F24J2/16F24J2/18F24J2/54
    • F24J2/12F24J2/16F24J2/18F24J2/54F24J2/5417F24J2002/1019Y02E10/42Y02E10/47
    • A solar heat collecting system includes a collecting mirror (1), a receiver (3), an electrical control unit for controlling the collecting mirror (1) to track the sun, a projection mirror disposed coaxially and integrally with the collecting mirror and the focus of which is coincident with that of the collecting mirror (1), a through hole (11) disposed at the collecting mirror (1) and the size of which is larger than that of the light spot of the projection mirror (2) and far smaller than the through hole of the collecting mirror (1), and a reflecting mirror (5) disposed at the side of the collecting mirror (1) opposite to the projection mirror (2). The reflecting mirror (5), the collecting mirror (1), and the projection mirror (2) form a mirror assembly, and the receiver (3) is fixedly disposed at the extending direction of the primary optical axis line of the reflecting mirror (5). A first motor, disposed at the primary optical axis line for driving the whole mirror assembly to rotate around the center of the reflecting mirror, is connected to the electrical control unit and runs under control thereof. The solar heat collecting system can effectively improve solar concentration ratio.
    • 一种太阳能集热系统,包括收集反射镜(1),接收器(3),用于控制收集反射镜(1)以跟踪太阳的电子控制单元,与收集反射镜同轴地并且与聚焦反射镜一体设置的投影镜 其与收集镜(1)的重合,设置在收集镜(1)处的通孔(11),其尺寸大于投影镜(2)的光斑的尺寸和远 小于收集镜(1)的通孔,以及设置在与投影镜(2)相对的收集镜(1)侧的反射镜(5)。 反射镜(5),收集镜(1)和投影镜(2)形成反射镜组件,并且接收器(3)固定地设置在反射镜的主光轴线的延伸方向( 5)。 设置在主光轴线处的驱动整个反射镜组件绕着反射镜的中心旋转的第一马达连接到电气控制单元并在其控制下运行。 太阳能集热系统可有效提高太阳能集中度。
    • 10. 发明公开
    • SOLAR THERMAL SYSTEM FOR A POWER GENERATION SYSTEM
    • THERMISCHE SOLARANLAGEFÜREIN ENERGIEERZEUGUNGSSYSTEM
    • EP3163214A1
    • 2017-05-03
    • EP16002279
    • 2016-10-25
    • VAN LEEUW JON OTEGUI
    • VAN LEEUW JON OTEGUI
    • F24J2/18F24J2/06F24J2/07F24J2/08F24J2/52F24J2/54
    • F24J2/08F03G6/064F03G6/065F22B1/006F24J2/067F24J2/07F24J2/18F24J2/54F24J2/542Y02E10/46Y02E10/47
    • The present invention comprises a solar thermal power generation system which comprises the use of mirrors (1.3, 1.10, 1.29) which are positioned one over the other in a tower-like structure (1.5, 2.1, 3.1) which all deflect the solar rays (1.12) to a concentrated point down a channel (1.25, 1.13, 2.7, 3.7) which projects down towards the ground, hence bringing the solar ray concentration system's surface area to a minimum. The main feature of this invention is that said novel solar thermal power generation system comprises outer flat collection mirrors (1.29) which are attached to the vertical members (1.4) which sustain the two Plano convex lenses (1.11, 1.26, 1.27) at each collection level, and which reflect the solar rays to the inner flat collection mirrors (1.3, 1.10), which then reflect said solar rays vertically downwards. The invention comprises a combination of lenses (1.11, 1.26, 1.27) and mirrors (1.3, 1.6, 1.8, 1.10, 1.29), which initially concentrate the light rays (1.12), which are initially reflected by collection mirrors (1.3, 1.10, 1.29), and which are then finally concentrated into a high intensity light beam, prior of being reflected such that said light rays are driven down a pipe (1.13, 1.25, 2.7, 3.7) embedded inside said mast structure (1.5, 2.1, 3.1) in order to evaporate flowing water (1.32, 2.9, 3.9) which flows beneath said vertically driven concentrated light rays, and therefore drive turbines (4.11), which in turn will drive generators and convert the energy of said solar rays into electricity. The light rays are intense enough in order to convert the flowing water (1.32, 2.9, 3.9) into steam instantaneously when flowing beneath said highly intense concentrated light rays.
    • 本发明包括一种太阳能热发电系统,该系统包括使用反射镜(1.3,1.10,1.29),这些反射镜相互重叠放置在一个塔形结构(1.5,2.1,3.1)内,这些塔形结构全部使太阳光线偏转 1.12)下降到向下投射到地面的通道(1.25,1.13,2.7,3.7)下的集中点,从而使太阳射线集中系统的表面积最小。 本发明的主要特征在于,所述新型太阳能热发电系统包括附接到垂直构件(1.4)的外部平坦集光镜(1.29),其在每个集合处维持两个平凸透镜(1.11,1.26,1.27) 并且将太阳光线反射到内部平坦集光镜(1.3,1.10),然后这些镜面垂直向下反射所述太阳光线。 本发明包括透镜(1.11,1.26,1.27)和反射镜(1.3,1.6,1.8,1.10,1.29)的组合,所述透镜最初聚集光线(1.12),所述光线最初由收集反射镜(1.3,1.10,1.2) 1.29),并且在反射之前最终将其聚集成高强度光束,使得所述光线沿嵌入所述桅杆结构(1.5,2.1,3.1)内的管道(1.13,1.25,2.7,3.7)向下驱动 )以便蒸发在所述垂直驱动的集中光线下面流动的流动水(1.32,2.9,3.9),并因此驱动涡轮机(4.11),这又会驱动发电机并将所述太阳能的能量转换成电力。 光线足够强烈,以便在所述高度集中的光线下面流动时将流动的水(1.32,2.9,3.9)瞬间转换成蒸汽。