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    • 1. 发明授权
    • Solar energy collection panel assembly
    • 太阳能收集板组件
    • US5408990A
    • 1995-04-25
    • US240441
    • 1994-05-10
    • Jack V. EdlingJohn G. FreebergColin G. HarrisRichard L. Stover
    • Jack V. EdlingJohn G. FreebergColin G. HarrisRichard L. Stover
    • F24J2/08F24J2/16F24J2/24F24J2/46
    • F24J2/16F24J2/085F24J2/245F24J2/4645F24J2/5239F24J2002/5275Y02E10/43Y02E10/44Y02E10/47
    • A solar energy collection panel assembly particularly adapted for use in a sun tracking system, The assembly is made up of several elongated components that have uniform cross sections and are preferably formed by extrusion. Interlocking base members have upwardly directed channels which hold tubes partially surrounded by thermal insulation material. Lens support assemblies having a generally isosceles triangular cross section with the triangle bases secured to the base members with the triangle sides oriented to direct light entering between apexes toward the tubes. Grooves at each pair or apexes receive the edges of an elongated, uniform cross section, compound, concentrating, cylindrical lens to attach the lens to the assembly. The lenses focus incident light on the tubes. Right triangular edge lens support members provide square edges to the assembly. A structural strong and rigid housing is preferably used to receive, support and strengthen the assembly.
    • 一种特别适用于太阳跟踪系统的太阳能收集板组件。该组件由具有均匀横截面并且优选地通过挤压形成的多个细长部件组成。 联锁基座构件具有向上定向的通道,其保持部分被绝热材料包围的管。 具有大致等腰三角形横截面的透镜支撑组件,其三角形基座固定到基部构件,三角形侧面定向成将光引导到顶点之间朝向管。 每对或顶点处的凹槽都接收细长的均匀横截面,复合的,集中的圆柱形透镜的边缘,以将透镜附接到组件。 透镜将入射光聚焦在管上。 右三角边缘透镜支撑件为组件提供方形边。 优选地,结构坚固且刚性的壳体用于接收,支撑和加强组件。
    • 2. 发明授权
    • Thermally regulated photovoltaic roofing assembly
    • 热稳压光伏屋面组件
    • US5505788A
    • 1996-04-09
    • US267499
    • 1994-06-29
    • Thomas L. Dinwoodie
    • Thomas L. Dinwoodie
    • E04D13/18F24J2/34F24J2/52H01L31/042H01L31/048H01L31/052
    • H01L31/052F24J2/34F24J2/5205F24J2/5228F24J2/5235F24J2/5237F24J2/5239H02S20/23F24J2/4638F24J2002/4676F24J2002/5292Y02B10/12Y02B10/20Y02E10/47Y02E10/50Y10S136/291
    • A photovoltaic roofing assembly comprises a roofing membrane (102), a plurality of photovoltaic modules (104, 106, 108, 110) disposed as a layer on top of the roofing membrane (102), and a plurality of pre-formed spacers, pedestals or supports (112, 114, 116, 118, 120, 122) which are respectively disposed below the plurality of photovoltaic modules (104, 106, 108, 110) and integral therewith, or fixed thereto. Spacers (112, 114, 116, 118, 120, 122) are disposed on top of roofing membrane (102). Membrane (102) is supported on conventional roof framing, and attached thereto by conventional methods. In an alternative embodiment, the roofing assembly may have a tapered profile for orienting modules (204, 206, 208, 210) in a direction of increased sun exposure. Other embodiments include the use of phase change material for temperature regulation, and incorporating an insulation block into the assembly as a means of spacing and of building thermal control. Such construction results in a simple, readily assembled roofing assembly which regulates the temperature of the photovoltaic module and roofing membrane and avoids the need for rooting penetrations for hold-down to the building rooftop. Photovoltaic modules (104, 106, 108, 110) serve the purpose of electric generator, and in addition, the multiple purposes of ballast, UV block, and weather protector for the insulation block and roofing membrane below. A fluid convects within the passageways created by the spacers, transferring heat from the backside of the photovoltaic modules. Rainwater drains through the joints between the integral modules, onto and over the roofing membrane below.
    • 光伏屋顶组件包括屋顶膜(102),多个光伏模块(104,106,108,110),其设置为屋顶隔膜(102)的顶部上的层,以及多个预先形成的间隔件 或分别设置在多个光伏模块(104,106,108,110)下方并与之成一体或固定在其上的支撑件(112,114,116,118,120,122)。 隔板(112,114,116,118,120,122)设置在屋顶隔膜(102)的顶部。 膜(102)支撑在传统的屋顶框架上,并通过常规方法附接到其上。 在替代实施例中,屋顶组件可以具有用于在增加的阳光照射的方向上定向模块(204,206,208,210)的锥形轮廓。 其他实施例包括使用相变材料进行温度调节,并且将绝缘块作为间隔和建筑物热控制的手段并入组件中。 这样的结构形成了一个简单,容易组装的屋顶组件,其调节光伏模块和屋顶膜的温度,并且避免了用于压住建筑物屋顶的生根穿透的需要。 光伏模块(104,106,108,110)用于发电机的目的,此外,还有用于下面的绝缘块和屋顶膜的压载物,UV阻挡层和气候保护器的多个目的。 由间隔件产生的通道内的流体对流,从光伏模块的背面传递热量。 雨水通过整体模块之间的接缝排入下面的屋顶膜上。
    • 5. 发明授权
    • Lightweight, self-ballasting photovoltaic roofing assembly
    • 轻便,自镇流光伏屋顶组件
    • US5746839A
    • 1998-05-05
    • US629052
    • 1996-04-08
    • Thomas L. Dinwoodie
    • Thomas L. Dinwoodie
    • E04D13/00E04D13/18F24J2/52H01L31/042H01L31/048
    • F24J2/5239F24J2/5237H02S20/24F24J2/4638F24J2002/467F24J2002/4692F24J2002/5292Y02B10/12Y02B10/20Y02E10/47Y10S136/291
    • A photovoltaic roofing assembly comprises a roofing membrane (102), a plurality of photovoltaic modules (104, 106, 108) disposed as a layer on top of the roofing membrane (102), and a plurality of pre-formed spacers, pedestals or supports (112, 114, 116, 118, 120, 122) which are respectively disposed below the plurality of photovoltaic modules (104, 106, 108) and integral therewith, or fixed thereto. Spacers (112, 114, 116, 118, 120, 122) are disposed on top of roofing membrane (102). Membrane (102) is supported on conventional roof framing, and attached thereto by conventional methods. In an alternative embodiment, the roofing assembly may have insulation block (322) below the spacers (314, 314', 315, 315'). The geometry of the preformed spacers (112, 114, 116, 118, 120, 122, 314, 314', 315, 315') is such that wind tunnel testing has shown its maximum effectiveness in reducing net forces of wind uplift on the overall assembly. Such construction results in a simple, lightweight, self-ballasting, readily assembled roofing assembly which resists the forces of wind uplift using no roofing penetrations.
    • 光伏屋顶组件包括屋顶隔膜(102),多个光伏模块(104,106,108),其设置为屋顶隔膜(102)的顶部上的层,以及多个预先形成的间隔物,基座或支撑 (112,114,116,118,120,122),其分别设置在多个光伏模块(104,106,108)下方并与之成一体或固定在其上。 隔板(112,114,116,118,120,122)设置在屋顶隔膜(102)的顶部。 膜(102)支撑在传统的屋顶框架上,并通过常规方法附接到其上。 在替代实施例中,屋顶组件可以在间隔件(314,314',315,315')下方具有绝缘块(322)。 预制间隔件(112,114,116,118,120,122,314,314',315,315')的几何形状使得风洞测试已经显示出其在总体上降低风力提升的净力的最大效力 部件。 这种结构产生简单,重量轻,自流平,易于组装的屋顶组件,其抵抗使用无屋顶穿透的风隆起力。
    • 6. 发明授权
    • Solar collector apparatus
    • 太阳能集热装置
    • US5738085A
    • 1998-04-14
    • US762248
    • 1996-12-09
    • Leonhard Kirchmayer
    • Leonhard Kirchmayer
    • F24J2/46
    • F24J2/465F24J2/464F24J2/5211F24J2/5239F24J2/5262F24J2002/0053F24J2002/467F24J2002/5294Y02B10/20Y02E10/47
    • A solar energy collector consists of a plurality of collector elements (5, 6, 7, 8) which can be secured on a preferably inclined supporting surface (2), for example a roof, and which have each a base body (9) with one or several collector channels lying in a plane (12) that faces the sun and connectable to a heat transfer fluid network, as well as possibly one or several absorber channels lying in a plane (13) transversely oriented to the collector channel. At least in the area of two parallel sides among its four sides, the base body (9) of the collector element is provided with a coupling stud (15) that extends transversely to the plane (14) of the base body, and at it opposite side, the base body (9) is provided with a coupling groove (17) whose dimensions are adapted to those of the coupling stud (15) and which receives the coupling stud (15) of the directly adjacent base body (9). Studs and grooves help to solidly anchor the base bodies to each other and at the same time to seal them with respect to the supporting surface. In order to be able to arrange the collector element both on north-south oriented roofs and on east-west oriented roofs without having to fear leaks, at least on the side of the base body provided with the first coupling stud (15) that extends transversely to the plane (14) of the base body is arranged a second coupling stud (16) which extends in the same direction. A second coupling groove (18) associated with this second coupling stud and whose dimensions are adapted to those of the second coupling stud (16) is arranged at the opposite side of the base body (9).
    • 太阳能收集器由多个收集器元件(5,6,7,8)组成,该集电器元件可被固定在优选倾斜的支撑表面(2)上,例如屋顶,并且每个基体(9)具有 一个或多个收集器通道位于面向太阳并且可连接到传热流体网络的平面(12)中,以及可能的一个或多个位于横向定向到收集器通道的平面(13)中的吸收通道。 至少在其四个侧面中的两个平行侧的区域中,收集器元件的基体(9)设置有横向于基体的平面(14)延伸的联接柱(15),并在其上 基体(9)设置有尺寸适合于联接柱(15)的尺寸并且接收直接相邻基体(9)的联接柱(15)的联接槽(17)。 螺柱和凹槽有助于将基体彼此牢固地锚固并且同时相对于支撑表面密封它们。 为了能够在南北定向的屋顶和东西方向的屋顶上布置收集器元件,而不必担心泄漏,至少在设置有第一联接柱(15)的基体的一侧延伸 横向于基体的平面(14)布置有沿相同方向延伸的第二联接柱(16)。 与第二联接柱相关联的第二联接槽(18)的尺寸适合于第二联接柱(16)的尺寸,在基体(9)的相对侧。