会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明申请
    • SYSTEM FOR HEATING AND ILLUMINATING SPACES IN A BUILDING
    • 用于加热和照亮建筑物内空间的系统
    • WO2017095349A1
    • 2017-06-08
    • PCT/TR2016/050462
    • 2016-11-28
    • BAZOGLU, Sungu
    • BAZOGLU, Sungu
    • F24J2/16F24J2/54
    • F21S11/005F21S11/007F21V7/05F24S20/61F24S23/77F24S23/79F24S23/80F24S30/45F24S40/20F24S2023/83F24S2023/876Y02B10/20Y02E10/47
    • The present invention relates to a system developed for heating and illuminating indoor spaces via indirectly reflecting the sun beams through the doors and windows on all facades of the building, and which is used for heating domestic water by reflecting said beams to the floor. In the system, as the sun beam, which is vertically reflected via the "reflectors", which are stationary or which follow the sun on a single or two axes, and which are arranged at the upper level of the windows, on the roof or on the eaves of the facades of the building which do not receive sunlight; descends towards the ground, said beam is reflected into the indoor spaces through the windows on all facades, whether they receive sunlight or not, via the configurable, translucent and reflective "storey reflectors" (sr) arranged in front of the windows on all storeys.
    • 本发明涉及一种系统,该系统通过在建筑物的所有立面上通过间接反射穿过门窗的太阳光束来加热和照亮室内空间,并且用于通过反射来加热生活用水 说到地板的光束。 在该系统中,作为通过“反射器”垂直反射的太阳光束,该太阳光束是静止的或者沿着单个或两个轴线跟随太阳并且被布置在窗户的上层,在屋顶上 或在建筑物外墙的屋檐上不接受阳光; 所述光束通过所有外墙上的窗户反射到室内空间中,无论它们是否接收到阳光,通过可配置的,半透明的和反射的“层状反射器” (sr)安排在所有楼层的窗户前。
    • 4. 发明申请
    • STAMPED SOLAR COLLECTOR CONCENTRATOR SYSTEM
    • 冲压太阳能集热器系统
    • WO2017027863A1
    • 2017-02-16
    • PCT/US2016/046933
    • 2016-08-12
    • NANOPRECISION PRODUCTS, INC.
    • DANNENBERG, Rand
    • F24J2/10F24J2/12F24J2/18
    • G02B19/0023B21D22/02F24S23/71F24S23/79F24S23/82G02B19/0042H02S40/22Y02E10/42
    • A solar collector concentrator (2) having a generally hollow, tubular structure that is precision stamped to form a highly reflective inside surface conforming to a geometry that facilitates concentrating incident light/radiation to the output end. The concentrator may be a separate component separately formed by stamping a malleable stock material. The concentrator may be coupled to the base of a reflector (14)in the collector. The concentrator (12) and the reflector (14) may be integrally formed together by stamping a malleable stock material. The relative positions of the integrally defined concentrator (12) and the reflector (14) are therefore passively aligned with high accuracy achieved from precision stamping. A secondary reflector (15) may be formed by stamping.
    • 一种太阳能集热器(2),其具有大致中空的管状结构,其被精密冲压以形成高度反射的内表面,该内表面符合有助于将入射光/辐射集中到输出端的几何形状。 集中器可以是通过冲压可延展的原料分开形成的单独的部件。 集中器可以耦合到收集器中的反射器(14)的基部。 集中器(12)和反射器(14)可以通过冲压可延展的原料一体地形成在一起。 因此,一体定义的集中器(12)和反射器(14)的相对位置因此被精确地对准,并且精度高达精度。 次级反射器(15)可以通过冲压形成。
    • 9. 发明申请
    • A FIXING ELEMENT FOR A HIGH-CONCENTRATION PHOTOVOLTAIC MODULE
    • 高浓度光伏模块的固定元件
    • WO2015083077A1
    • 2015-06-11
    • PCT/IB2014/066519
    • 2014-12-02
    • GPIII S.R.L.
    • PASSERINI, Gianluca
    • H01L31/052F24J2/18
    • H01L31/052F24S23/79F24S25/00H01L31/0547Y02E10/47
    • The fixing element (1) of the invention is provided for a photovoltaic module (500) which comprises: a superiorly-open box body (2); a slab (3) of transparent material for closing the box body (2), enabling solar rays (F) to penetrate internally of the box body (2); a receiving body (4) comprising a photovoltaic cell (40), able to convert the solar energy into electrical energy; an optical system (5, 6) positioned in the box body (2), which receives the solar rays (F) that penetrate through the transparent slab (3) and directs them towards the photovoltaic cell (40); an optical conveyor (7) for conveying the solar rays (F) towards the photovoltaic cell (40) of the receiving body (4); a base (8) for supporting the receiving group (4) and the optical conveyor (7). The fixing element (1) comprises: a plate (9), made of an electrically insulating element, preferably heat-conductive, which internally forms a through-seating (90) shaped so as to complementarity receive the receiving group (4); abutting means (10) provided on at least a portion of the edge (91) of the through- seating (90), able to retain the receiving group (4) on the support base (8); first means (11) enabling centring and fixing of the plate (9) with respect to the support base (8); second means (12) positioned and conformed such as to at least partly realise the ends (71) of corresponding support means (70) of the optical conveyor (7), so as to enable reciprocal coupling between the plate (9) and the optical conveyor (7).
    • 本发明的固定元件(1)设置用于光伏模块(500),其包括:上开箱体(2); 用于关闭箱体(2)的透明材料板(3),使得太阳光线(F)能够穿透箱体(2)的内部; 包括能够将太阳能转换成电能的光伏电池(40)的接收体(4); 位于所述盒体(2)中的光学系统(5,6),其接收透过所述透明板(3)的太阳光线(F)并将其引向所述光伏电池(40); 用于将太阳光线(F)传送到接收体(4)的光伏电池(40)的光学传送器(7); 用于支撑接收组(4)和光学传送器(7)的基座(8)。 固定元件(1)包括:板(9),由电绝缘元件制成,优选地是导热的,其内部形成通孔(90),以便互补地接收接收组(4); 邻接装置(10),设置在通孔(90)的边缘(91)的至少一部分上,能够将接收组(4)保持在支撑基座(8)上; 第一装置(11)能够使板(9)相对于支撑基座(8)定心和固定; 第二装置(12)定位和顺应,以便至少部分地实现光学传送器(7)的对应的支撑装置(70)的端部(71),以便能够在板(9)和光学传送器 输送机(7)。
    • 10. 发明申请
    • CAPTURING REFLECTED SOLAR EMR ENERGY
    • 捕获反射的太阳能EMR能量
    • WO2015038815A2
    • 2015-03-19
    • PCT/US2014/055249
    • 2014-09-11
    • SEGAL, Edward
    • SEGAL, Edward
    • H01L31/0547F24S23/30F24S23/77F24S23/79Y02E10/40Y02E10/52
    • Surfaces (250, 265) containing conversion elements may be positioned and shaped to concentrate or manipulate convergence of sunlight, for example, to produce a steady reflected beam within a wide range of concentration levels and to direct reflected beams for multiple reflections from other solar power conversion mediums (295). The surfaces (250, 265) and mediums (295) can be positioned to avoid blocking reflected or other light so that unconverted energy may be directed to other surfaces and has several chances to be absorbed or converted. All of the devices (250, 265, 295) may fit within the total converting surface area, e.g., within a surface area of a concentrator (230). The method of solar power conversion may employ active and passive methods simultaneously and/or sequentially.
    • 包含转换元件的表面(250,265)可以被定位和成形以集中或操纵太阳光的会聚,例如,以在宽范围的浓度水平内产生稳定的反射光束,并且将反射光束引导到来自其他太阳能发电的多次反射 转化介质(295)。 可以将表面(250,265)和介质(295)定位成避免阻挡反射或其他光,使得未转换的能量可以被引导到其它表面并且具有几种被吸收或转换的机会。 所有装置(250,265,295)可以适合于总转换表面积,例如在集中器(230)的表面区域内。 太阳能转换的方法可以同时和/或顺序地使用主动和被动的方法。