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41. 发明授权

US3295512A Foldable solar concentrator 失效
标题翻译：可折叠太阳能集中器
公开(公告)号：US3295512A
公开(公告)日：1967-01-03
申请号：US27783363
申请日：1963-05-03
申请人： MCCUSKER THOMAS J
发明人： MCCUSKER THOMAS J
IPC分类号： F24J2/10 , F24J2/15 , F24J2/18 , F24J2/36
CPC分类号： F24J2/15 , F24J2/10 , F24J2/18 , F24J2/36 , Y02E10/40

42. 发明授权

US3229682A Device for directionally controlling electromagnetic radiation 失效
标题翻译：用于定向控制电磁辐射的装置
公开(公告)号：US3229682A
公开(公告)日：1966-01-18
申请号：US34977864
申请日：1964-03-05
申请人： MORRIS PERLMUTTER , HOWELL JOHN R
发明人： MORRIS PERLMUTTER , HOWELL JOHN R
IPC分类号： F24J2/10 , F24J2/15 , F24J2/40 , H01L31/00
CPC分类号： F24J2/407 , F24J2/10 , F24J2/15 , F24J2002/1023 , F24J2002/108 , H01L31/00 , Y02E10/40

43. 实用新型

CN205664577U 一种太阳能集热器失效
公开(公告)号：CN205664577U
公开(公告)日：2016-10-26
申请号：CN201620449687.1
申请日：2016-05-17
申请人：上海庆华蜂巢科技发展股份有限公司
发明人：周阳 , 周东
IPC分类号： F24J2/15 , F24J2/24
摘要：本实用新型公开了一种高温太阳能集热器，包括：罩体，罩体包括集光部和容纳部，集光部设置在容纳部的一端，集光部的外壁呈圆柱形结构，集光部的内壁为喇叭形结构，且喇叭形结构开口较小的一端朝向容纳部的内部，内壁与外壁之间存在空隙，集光部与容纳部相连通；内腔，内腔嵌设在容纳部中，内腔包括：锥形桶、固定装置、以及锥形管体；锥形管体通过固定装置固定在锥形桶中，包括盘管，盘管沿锥形桶的内壁盘旋，形成锥形体结构，且锥形管体的一端与喇叭形结构的开口相连通；锥形管体、锥形桶、以及喇叭形结构的轴心线重叠。本实用新型解决了现有的太阳能集热器容易受到环境的影响，导致集热效果不稳定的问题。

44. 实用新型

CN2694178Y 锥筒式太阳能集热器失效
公开(公告)号：CN2694178Y
公开(公告)日：2005-04-20
申请号：CN03280546.2
申请日：2003-09-12
申请人：闵含有
发明人：闵含有
IPC分类号： F24J2/15
CPC分类号： F24S23/75 , Y02E10/40
摘要：一种锥筒式太阳能集热器，其特征在于包括太阳光反射锥筒、太阳能集热容器和安装座，太阳光反射锥筒安装在安装座上，太阳能集热容器位于太阳光反射锥筒的锥轴心线上并安装在太阳光反射锥筒或安装座上。本实用新型具有以下特点：由于本实用新型的太阳光反射面相对较大，并且太阳光经其太阳光反射锥筒的反射后都照射到锥轴心线上的太阳能集热器上，因而具有较高的热效率，并且操作和使用都较方便，制造和使用成本相对都较低，因此本实用新型具有广泛的使用前景，可用于冶炼、取暖、洗浴、烘干、保温等领域，若将水加热变成蒸汽，还可用来消毒、发电等。

45. 发明公开

EP3221650A1 SOLAR CONCENTRATOR WITH SPACED PIVOTABLE CONNECTIONS 有权
标题翻译：具有间距活动连接的太阳能集中器
公开(公告)号：EP3221650A1
公开(公告)日：2017-09-27
申请号：EP15800897.9
申请日：2015-11-17
申请人： Oxford University Innovation Limited
发明人： BAILEY, Paul Brian , STONE, Charles Richard , JELLEY, Nicholas Alfred , DADD, Michael William
IPC分类号： F24J2/14 , F24J2/15 , F24J2/18 , F24J2/54
CPC分类号： F24S23/75 , F24S23/74 , F24S23/79 , F24S30/42 , F24S30/45 , F24S30/452 , Y02B10/20 , Y02E10/45 , Y02E10/47
摘要： A solar concentrator comprising a reflector assembly composed of first and second reflectors. Solar radiation incident on the first reflector from a target direction is focussed to a point focus via reflections from the first reflector onto the second reflector and subsequent reflections from the second reflector onto the point focus. First and second connectors support the reflector assembly and are configured to allow rotation of the reflector assembly about a first axis through pivoting. The first and second connectors are both located on the first axis and are spaced apart from each other along the first axis. The point of focus remains stationary relative to the rotation of the reflector assembly and is preferably located such that the first axis intersects the focus point.
摘要翻译：一种太阳能聚光器，包括由第一和第二反射器构成的反射器组件。从目标方向入射到第一反射器上的太阳辐射通过从第一反射器反射到第二反射器上的反射以及随后从第二反射器反射到点焦点上而被聚焦到点聚焦。第一连接器和第二连接器支撑反射器组件并且被配置为允许反射器组件围绕第一轴线枢转地旋转。第一连接器和第二连接器均位于第一轴线上并且沿着第一轴线彼此间隔开。焦点相对于反射器组件的旋转保持静止，并且优选地被定位成使得第一轴线与焦点相交。

46. 发明公开

EP1816412A1 METHOD FOR SOLAR ENERGY THERMAL CONVERSION 审中-公开
标题翻译： VERFAHREN ZUR UMWANDLUNG VON SONNENENERGIE在WÄRME
公开(公告)号：EP1816412A1
公开(公告)日：2007-08-08
申请号：EP04727189.5
申请日：2004-04-14
申请人： CLOSED JOINT-STOCK COMPANY "MGK" "INTERGELIOECOGALAXY"
发明人： CHABANOV, Alim Ivanovich , SYCHEV, Michail Parfenovich , EROCHOV, Nikolai Michailovich , SCHUKIN, Georgii Lukich , SIDORENKO, Jurii Petrovich , FILIPENKO, Evgenii Semenovich , BAZHENOV, Andrei Nikolaevich , CHABANOV, Vladislav Alimovich , SMARZH, Ivan Iljich , GORODOV, Michail Ivanovich , MATASOV, Rev Alexandrovich , MARCHENKO, Vladimir Romanovich , ZHIGAJLO, Viktor Nikiforovich , VORONKOV, Alexei Alexeevich , SEVASTJANOV, Vladimir Petrovich , CHABANOV, Dmitrii Alexeevich , CHEPASOV, Alexandr Alexandrovich , SOBOLEV, Valerian Markovich , SOLOVJEV, Alexandr Alexeevich
IPC分类号： F24J2/42 , F24J2/15 , F24J2/18
CPC分类号： F24S20/66 , F24S20/20 , F24S23/70 , F24S60/00 , F24S2023/88 , Y02B10/20 , Y02E10/41 , Y02E10/44
摘要： The invention concerns to sphere of helio-energy producing connected with transformation the energy of solar rays to thermal energy.
The offered way of thermo-transformation of a solar energy is based on increase of thermo-insulation characteristics and simultaneously transparency of a surface closed helio-absorbent chamber in which carry out concentration of flows of solar rays, their transformation to thermal energy at the temperature considerably exceeding in set variants a boiling point of water, and accumulation of thermal energy with the raised temperature potential, in particular, not less than 150 degrees of Celsius.
Realization of a way carries out by means of consecutive connection of concentrators of solar rays. One of them carries out by creation of system of the local concentrators which have been built-in in a thermo-insulating lightproof material, covering the helio-absorbent chamber. The built-in concentrators and conductors of solar rays represent, mainly, the hollow truncated pyramids extended at length which sides are covered by a ray-reflecting material, and the bases are closed by a transparent thermo-insulating material. Thus the big bases of these pyramids - optical paths are located on an external surface of helio-absorbent chamber and as transparent rectangulars are located by the parties, practically, closely to each other, and the smaller bases are placed above her helio-thermo-transforming surfaces and have the smaller area of cross-section, than the external bases.
The second concentrator of solar rays is external. Such concentrators have, roughly, the form of the truncated pyramids which sides also are executed with application of a ray-reflecting material, and they are fixed by the smaller bases - inlet apertures near to an irradiated external surface of helio-absorbent chamber while they are inverted by the big bases - outlet apertures towards to the solar rays acting from surrounding space. In addition to this, the third level of solar ray rating of helio-absorbent chamber is created due to creation in surrounding space, on various distances from last, a field external ray-reflecting surfaces from which the reflected solar rays go to entrance apertures of external concentrators of solar rays in pyramid forms, creating additional rating in it of ray energy.
Configurations of accommodation helio-absorbent (helio-thermo-transforming) and thermo-accumulating materials are resulted as applied for volumetric chambers. The last can be carried out as well flat, including the small thickness, placed in horizontal, vertical or inclined positions. In this case the helio-absorbent chamber incorporates heat-conducting thermo-insulated channels with separately stated thermo-accumulating constructions, and as heat-carriers gaseous or liquid environments are applied.
The offered way of thermo-transformation of a solar energy, allowing to carry out multicascade rating a solar energy in the helio-absorbent chamber and to create its rather high thermo-insulation solves a problem of priority creation high-economic and non-polluting helio-boilers, helio-thermo power plants and household, including mobile, helio-energy installations which technical and economic recoupment does not exceed 3 years.
摘要翻译：本发明涉及通过将太阳光能量转换成热能而连接的太阳能产生领域。提供的太阳能热转化方式是基于热绝缘特性的增加以及同时透明的表面封闭式吸水室，其中进行太阳射线的流动浓度，它们在温度下转化为热能大大超过设定的变化范围，水的沸点，以及具有升高的温度潜力的热能积累，特别是不低于150摄氏度。通过连续连接太阳射线聚光器实现一种方式。其中一个通过创建内置在绝热防光材料中的局部聚光器的系统来实现，覆盖吸水室。内置的聚光器和太阳光导体主要表示长方形的中空截顶棱镜，其侧面被射线反射材料覆盖，底座由透明的绝热材料封闭。因此，这些金字塔 - 光路的大基地位于吸气室的外表面上，并且由双方实际上彼此紧密地定位的透明矩形，并且较小的基座放置在其热 - 与外部基底相比，具有较小的横截面积。太阳射线的第二个聚光器是外部的。这种集中器大体上具有截面金字塔的形式，其侧面也可以通过施加射线反射材料来执行，并且它们被较小的基座固定 - 靠近吸收紫外线辐射的外表面的入口孔，而它们被大的基座 - 出口孔转向由周围空间作用的太阳光线。除此之外，由于在距离最后的不同距离处的周围空间中产生了外部射线反射表面，反射的太阳光从该外部射线反射表面到达入射孔金字塔形式的太阳射线外部聚光器在射线能量上产生额外的额定值。产生适用于吸收（Helio-热转化）和热累积材料的结构，适用于容积室。最后一个可以进行平坦，包括小的厚度，放置在水平，垂直或倾斜的位置。在这种情况下，吸气室包含具有单独描述的热积聚结构的导热热绝缘通道，并且作为热载体应用气态或液体环境。提供的太阳能热转化方式，允许在吸水室中进行多级评级太阳能，并创造相当高的绝热解决优先创造高经济和无污染的氦气的问题锅炉，热力发电厂和家庭用户，其中包括移动式，能源设施，技术经济补偿不超过3年。

47. 发明公开

EP0769121A4 IMPROVED SOLAR COLLECTORS 失效
标题翻译：改进的太阳能电池板
公开(公告)号：EP0769121A4
公开(公告)日：1998-07-08
申请号：EP95924813
申请日：1995-07-19
申请人： ANUTECH PTY LTD
发明人： KANEFF STEPHEN
IPC分类号： F24J2/00 , F24J2/18 , H01L31/054 , F24J2/10 , F24J2/12 , F24J2/13 , F24J2/14 , F24J2/15 , F24J2/16
CPC分类号： F24J2/542 , F24J2/18 , F24J2002/0084 , H01L31/0547 , Y02E10/47 , Y02E10/52
摘要： An energy concentration device, which comprises a main collector dish (MR), a supplementary means (SR) and a receiver (P). Radiant energy, such as solar energy is reflected from the main collector (MR) to a zone on the supplementary reflector (SR) which is then focused to the reveiver (P). This enables the receiver (P) to be provided at a fixed position, such as on the ground or at a distant location, enabling easy access and reduced costs in maintenance, etc. of a solar energy absorber, the elimination of flexible or rotary joints, etc. The main collector (MR) can be constructed of a plurality of flat or curved reflector panels, also reducing the costs of the collector (MR). A modified form is to eliminate the supplementary reflector (SR) and position the receiver (P) in its place.

48. 发明公开

EP2626650A2 SOLAR RECEIVER FOR SOLAR CONCENTRATION SYSTEMS COMPRISING LIGHT HOMOGENIZATION 审中-公开
标题翻译：溶解剂FENRONNENKONZENTRATIONSSYSTEME MIT LICHTHOMOGENISIERUNG
公开(公告)号：EP2626650A2
公开(公告)日：2013-08-14
申请号：EP10807591.2
申请日：2010-10-07
申请人： Renovalia Energy, S.A.
发明人： ORTEGA MARTINEZ, Juan Domingo
IPC分类号： F24J2/12 , G02B5/02 , H01L31/052 , G02B27/09 , F24J2/06 , F24J2/15
CPC分类号： H01L31/0521 , F24S23/12 , F24S23/71 , F24S23/75 , F24S40/55 , H01L31/0547 , Y02E10/42 , Y02E10/52
摘要： Receiver that homogenises light in a solar concentration system, in such a way that the concentrated light incidental upon a receiver has a homogeneous distribution, meaning that even in the event of the distribution of the light concentrated on the focal point of the parabola not having a homogeneous distribution, thanks to the disposition of a diffuser in front of the receiver said uniformity is achieved; additionally and with a view to achieving improved uniformity between the diffuser and the receiver a low-losses light guide is provided. Thanks to this system it is possible not to be so precise in the construction of the parabolas, furthermore achieving the receivers' maximum possible performance.
摘要翻译：在太阳能集中系统中使光均匀化的接收器，使得附着在接收器上的集中的光具有均匀的分布，这意味着即使在集中在抛物线的焦点上的光的分布不具有均匀分布，由于在接收器前面设置扩散器，所以实现了均匀性; 并且为了实现扩散器和接收器之间的均匀性提高，提供了低损耗光导。由于该系统，在抛物面的构造中可能不会如此精确，而且实现了接收器的最大可能性能。

49. 发明公开

EP2580617A2 LOW COST FOCUSSING SYSTEM GIVING HIGH CONCENTRATIONS 有权转让
标题翻译：低成本高聚焦focalizations
公开(公告)号：EP2580617A2
公开(公告)日：2013-04-17
申请号：EP11724706.4
申请日：2011-06-01
申请人： Isis Innovation Limited
发明人： BAILEY, Paul, Brian , DADD, Michael, William , STONE, Charles, Richard , JELLEY, Nicholas, Alfred
IPC分类号： G02B17/06 , F24J2/15
摘要： There is disclosed a focussing system for concentrating radiation onto a target surface, comprising: a first reflective element forming part of the surface of a cone axially aligned along a first alignment axis, the first reflective element being positioned such that when planar radiation is incident on the first reflective element in a direction parallel to the first alignment axis, the planar radiation is focussed towards a first focus lying along the first alignment axis, wherein said part of the surface of a cone is contained within a sector having an included angle of less than 180 degrees; and a second reflective element having a reflective surface that at all points is flat in a direction parallel to a single reference direction, the second reflective element being positioned between the first reflective element and the first focus such that, when planar radiation is incident on the first reflective element in a direction parallel to the first alignment axis, radiation reflected from the first reflective element onto the second reflective element is focussed towards a second focus. A multiple target focussing system comprising a plurality of focussing systems, solar powered systems using focussing systems, kits, telescopes, defocussing light sources, and methods for assembling focussing systems are also disclosed.

50. 发明申请

WO2018052752A1 METHOD FOR CONVEYING CONCENTRATED SOLAR POWER 审中-公开
标题翻译：输送集中太阳能的方法
公开(公告)号：WO2018052752A1
公开(公告)日：2018-03-22
申请号：PCT/US2017/050022
申请日：2017-09-05
申请人： RODLUVAN INC.
发明人： NORDIN, Kenneth , MATTSSON, Mats Olof Erik
IPC分类号： F24J2/06 , F24J2/08 , F24J2/15 , G02B6/26 , G02B6/35 , G02B6/36 , G02B19/00 , F21S11/00
摘要： The method is for conveying solar power from a sun. A solar concentrator (102) conveys and concentrates solar power as rays (107) into a cable (104). The solar concentrator (102) has a tapering device (200) disposed at a bottom thereof. The cable (104) has a first curved glass loop section (108a), a second curved glass loop section (108b) and a curved section (130). The curved glass section (130) is connected to a storage unit (132) wherein the light is converted into heat. The first loop section (108a) is rotated relative to the second loop section (108b) at a first gap (118) and the second section (108b) is rotated relative to the curved section (130) at a second gap (126) so that the concentrator (102) can follow the path of the sun during the day.
摘要翻译：
该方法用于从太阳输送太阳能。太阳能集中器（102）将太阳能作为射线（107）传送并集中到电缆（104）中。太阳能集中器（102）具有设置在其底部的锥形装置（200）。电缆（104）具有第一弯曲玻璃环部分（108a），第二弯曲玻璃环部分（108b）和弯曲部分（130）。弯曲的玻璃部分（130）连接到其中光被转换成热量的存储单元（132）。第一环部分（108a）在第一间隙（118）处相对于第二环部分（108b）旋转并且第二部分（108b）在第二间隙（126）处相对于弯曲部分（130）该集中器（102）可以在白天追踪太阳的路径。

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