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    • 1. 发明授权
    • Multi-chamber solar collector
    • US12111081B2
    • 2024-10-08
    • US17430610
    • 2020-02-13
    • Richard John Worthington
    • Richard John Worthington
    • F24S80/30F24S70/60G05D7/06
    • F24S80/30F24S70/60G05D7/0641
    • The present invention provides an apparatus for heating a fluid using solar energy. The apparatus comprises: a fluid source, a first chamber comprising a fluid inlet to allow one-way movement of a fluid from the fluid source to the first chamber, a second chamber comprising a fluid outlet to allow the controlled movement of a fluid internal the second chamber to a further chamber or external the apparatus, and a fluid connection between the first and second chambers to allow substantially one-way movement of a fluid from the first chamber to the second chamber. Each of the chambers is fluid tight and configured as a solar collector to heat a fluid therein. The apparatus as a whole operates such that under even incident solar radiation a fluid is heated in each of the chambers and upon thermal expansion of the fluid, the fluid is moved in a controlled manner substantially one-way from the first chamber to the second chamber, and from the second chamber to a further chamber or to the outside the apparatus. By the movement of fluid from the first chamber to the second chamber, the first chamber donates a portion of the heat energy held by the fluid therein to the second chamber, the second chamber becomes enriched in heat energy by the gain of fluid and the first chamber becomes deprived in energy by the loss of fluid such that the second chamber contains fluid that is hotter than the first chamber.
    • 7. 发明申请
    • SOLAR PANEL RACKING ARRAY
    • 太阳能电池架阵列
    • US20160329859A1
    • 2016-11-10
    • US15109010
    • 2015-01-05
    • POWERAK PTY LTD
    • George Jaroslav CapWilliam M. Fries
    • H02S20/23H02S30/10H02S20/30
    • H02S20/23F24S25/11F24S25/16F24S25/50F24S25/61F24S25/634F24S40/85F24S80/30F24S2025/6008H02S20/00H02S20/30H02S30/10Y02B10/12Y02B10/20Y02E10/47Y02E10/50
    • A commercial modular solar racking system, with the capability to be assembled in several configurations, which when assembled, creates a adaptable, size variable, solar panel supporting infrastructure, with a rapid assembly time. The said modular system can be adapted, to construct a perimeter wind lift-dampening fence around the deployed array. This modular rack array for supporting solar panels includes solar panel hold down clips; a longitudinal support rack which is securable to a roof and which has two longitudinal sides with solar panel support ledges on both sides and hold down clip receiving recesses located between each row of support ledges the arrangement enabling a single solar panel to be supported by two parallel support racks and additional panels to be supported by an additional support rack with the panel hold down clips being arranged to be secured to the support racks by clipping into the receiving recesses in said support racks and bearing down on the upper side of the solar panel edges so that two parallel edges of said solar panel are held between the hold down clips and the support ledges of said support racks. The invention also provides a residential modular racking system for pitched roofs, with the capability to incrementally adjust to suit any large PV panel size. The system is based on four, quarter size racks sliding into each other providing the variability. Each support module for supporting solar panels on pitched roofs has connection projections on two adjoining sides and on the two opposed adjoining sides are complementary connection recesses so that the modules are interconnectable.
    • 一种商用模块化太阳能支架系统,具有组合成几种配置的能力,当组装时,可以快速组装时间,创建一个适应性强,尺寸可变的太阳能电池板支撑基础设施。 所述模块化系统可以适用于围绕所部署的阵列构造周边的风电减震栅栏。 用于支撑太阳能电池板的模块化支架阵列包括太阳能电池板压紧夹; 纵向支撑架,其可固定到屋顶,并且具有两个纵向侧面,两侧具有太阳能电池板支撑壁架,并且夹持位于每排支撑架之间的夹子接收凹口能够使单个太阳能电池板由两个平行支撑 支撑架和附加面板由附加的支撑架支撑,其中面板按压夹被布置成通过夹在所述支撑架中的接收凹部中并且向下延伸到太阳能面板边缘的上侧而固定到支撑架上 使得所述太阳能电池板的两个平行边缘保持在所述压紧夹和所述支撑架的支撑壁架之间。 本发明还提供了一种用于倾斜屋顶的住宅模块化货架系统,其能够逐渐调整以适应任何大的PV面板尺寸。 该系统基于四个四分之一尺寸的机架彼此滑动提供变异性。 用于在倾斜屋顶上支撑太阳能电池板的每个支撑模块在两个相邻的侧面上具有连接突起,并且在两个相对的邻接侧上具有互补的连接凹部,使得模块是可互连的。
    • 9. 发明授权
    • Solar receiver panel and support structure
    • 太阳能接收器面板和支撑结构
    • US09341392B2
    • 2016-05-17
    • US13675153
    • 2012-11-13
    • ALSTOM Technology Ltd.
    • Ronald G. Payne
    • F24J2/42F24J2/46F24J2/07F24J2/24B21D53/02
    • F24S80/30B21D53/02F24S10/742F24S20/20Y02E10/41Y02E10/44Y10T29/49355
    • In a solar receiver arrangement 300 with a support structure 600, the support structure 600 includes a plurality of tie members 700 for tangentially coupling a plurality of tubes 510, for forming at least one receiver panel 500, in such a manner that the at least one tie member 700 is coupled in at least one crotch portion 520 between a pair of tubes 510. The support structure 600 further includes a plurality of panel support members 800 coupled to the receiver panel 500 selectively in at least one crotch portion 520 between a pair of tubes 510. Furthermore, at least one latching member 900 is configured to detachably attach the plurality of panel support members 800 for engaging the plurality of receiver panels 500.
    • 在具有支撑结构600的太阳能接收器装置300中,支撑结构600包括多个连接构件700,用于切向地联接多个管510,用于形成至少一个接收器面板500,使得至少一个 连接构件700联接在一对管510之间的至少一个裆部520中。支撑结构600还包括多个面板支撑构件800,其选择性地在至少一个裆部520中的一对 管510.此外,至少一个闩锁构件900构造成可拆卸地附接多个面板支撑构件800以接合多个接收面板500。