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    • 4. 发明专利
    • Photovoltaic power generator
    • 光伏发电机
    • JP2011091074A
    • 2011-05-06
    • JP2009241062
    • 2009-10-20
    • Fuji Pureamu Kkフジプレアム株式会社
    • MATSUMOTO JITSUZO
    • H01L31/042
    • F24J2/40Y02E10/40Y02E10/52
    • PROBLEM TO BE SOLVED: To provide a photovoltaic power generator capable of reflecting light, leaking on an outer peripheral side of a solar cell panel, to the solar cell panel. SOLUTION: The photovoltaic power generator 10 includes a solar cell panel 12 having a plurality of solar cell modules 11 arrayed longitudinally and laterally. The solar cell panel 12 is provided so as to be displaced, and a reflecting plate 50 and an upper portion-reflecting plate 51, which reflect sunlight to the solar cell modules 11, are provided on the outer peripheral side of the solar cell modules 11. The upper portion-reflecting plate 51 is set to a tilt angle such that an upper portion is inside a lower portion, and can widely keep the incident angle of light which is reflected by the upper portion-reflecting plate 51 to be incident on the solar cell modules 11. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供能够将太阳能电池面板的外周侧的光反射到太阳能电池面板的太阳光发电装置。 解决方案:光伏发电机10包括具有纵向和横向排列的多个太阳能电池模块11的太阳能电池板12。 太阳能电池板12被设置为位移,并且在太阳能电池模块11的外周侧设置反射板50和将太阳光反射到太阳能电池模块11的上部反射板51 上部反射板51被设定为倾斜角度,使得上部位于下部内侧,并且可以广泛地将由上部反射板51反射的光的入射角保持为入射到 太阳能电池模块11.版权所有(C)2011,JPO&INPIT
    • 7. 发明专利
    • Tool for attaching pyranometer to pedestal for solar cell array
    • 将测光仪连接到太阳能电池阵列的工具
    • JP2009021414A
    • 2009-01-29
    • JP2007183151
    • 2007-07-12
    • Burest Kogyo Kenkyusho Co Ltd株式会社ブレスト工業研究所
    • KUDO JUNICHI
    • H01L31/042
    • F24J2/52F24J2/40Y02E10/47
    • PROBLEM TO BE SOLVED: To provide a tool for attaching an pyranometer to a pedestal for solar cell, capable of easily changing position even after the pedestal is assembled while preventing the attaching work of the pedestal from being influenced by the design of the pedestal or assembling work, and being attached to a pedestal having dimension changeable depending on an assembling site. SOLUTION: A pyranometer attaching tool used to attaching a pyranometer Q for a pedestal for a solar cell array is mounted. A main material attaching channel 10 mounted so as to overlap on an end of an L-shaped steel-like main material 1 for supporting a module P for the solar cell is formed of a channel material having a long hole 11. A pyoranometer attaching metal fixture having an insertion arm 21 to be inserted into the longitudinal end portion of the main material attaching channel 10 and a fixing plate 22 for placing/fixing the pyranometer Q is mounted. A vibration prevention metal fixture 30 to be attached on the opening 12 along the longitudinal side surface of the main material attaching channel 10 is mounted and the main material attaching channel 10 is fixed on the main material 1. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了提供一种用于将太阳能电池的基座安装在太阳能电池的基座上的工具,即使在基座组装之后也能够容易地改变位置,同时防止基座的附接作用受到设计的影响 基座或组装工作,并且附接到具有根据组装位置的尺寸可变的基座。

      解决方案:安装用于附接用于太阳能电池阵列的基座的太阳辐射计Q的太阳辐射计附接工具。 主要材料安装通道10安装成在用于支撑太阳能电池组件P的L形钢状主体材料1的一端重叠,由具有长孔11的通道材料形成。热电偶附着金属 安装具有插入主材料安装通道10的纵向端部的插入臂21和用于放置/固定该测角仪的固定板22的固定装置。 安装在主体材料安装通道10的纵向侧表面上的安装在开口12上的防振金属夹具30,主材料安装通道10固定在主材料1上。(C) 2009年,JPO&INPIT

    • 8. 发明专利
    • Light collecting device
    • 光收集装置
    • JP2006171661A
    • 2006-06-29
    • JP2004382481
    • 2004-12-10
    • Kazutake Mutou和健 武藤
    • MUTOU KAZUTAKE
    • G02B5/08F21S11/00H01L31/042
    • F24J2/38F24J2/40F24J2/54Y02E10/50
    • PROBLEM TO BE SOLVED: To solve the problem that the momentarily varying angle of the sun can not be followed up and improvement in irradiation with the sunshine is not sufficient since the angle of a mirror is fixed for a conventional method of reflecting and collecting the sunshine by using a curve mirror type mirror. SOLUTION: The present invention provides an ideal light collecting device that can collect more light by changing the angle of itself following up variation in direction of the sun, is inexpensive, and requires no external power source. COPYRIGHT: (C)2006,JPO&NCIPI
    • 解决的问题:为了解决太阳的瞬间变化的角度不能跟踪的问题,并且由于反射镜的角度对于常规反射方法是固定的,所以日照照射的改善是不充分的,并且 通过使用曲面镜式镜子收集阳光。 解决方案:本发明提供了一种理想的光收集装置,其可以通过改变其自身的角度跟随太阳方向的变化而收集更多的光,是便宜的,并且不需要外部电源。 版权所有(C)2006,JPO&NCIPI
    • 9. 发明专利
    • Latent heat transferring device
    • 专利传热装置
    • JPS58213153A
    • 1983-12-12
    • JP9540482
    • 1982-06-03
    • Matsushita Electric Ind Co Ltd
    • NAKAMURA HIROSHI
    • F24J2/42F24J2/40
    • F24J2/40Y02E10/40
    • PURPOSE:To control a heat-trasmitting medium into an optimum condition speedily and accurately and contrive to enhance heat-exchanging efficiency and to prevent overloading of a compressor, by a method wherein an auxiliary valve provided in a bypass of an expansion valve provided on the inlet side of a heat collector is controlled by a heat collector condition detector. CONSTITUTION:The heat collector 1, the expansion valve 5, the compressor 3, the hot water supplying side of a heat exhanger 4 and an accumulator 2 are connected in series with each other, while a pump 6, the hot water supplying side of the heat exchanger 4 and a hot water storing tank 7 are connected in series with each other, and a circuit for the latent heat transferring device is constituted of the heat-transmitting medium side 10 and the hot water supplying side 9. A device 13 for detecting insolation quantity, wind velocity, wind direction, humidity or the pressure inside a pipe at an outlet of the heat collector 1 or the like is provided in proximity to the heat collector 1, and a detection signal is used to control the auxiliary valve 15 provided in the bypath 14 of the expansion valve 5. Accordingly, the auxiliary valve 15 is correctingly controlled mainly by controlling the opening of the expansion valve 5 by an outlet temperature detector 8, and the heat-trasmitting medium is controlled into the optimum condition speedily and accurately.
    • 目的:为了快速,准确地控制导热介质达到最佳状态,并通过一种方法来提高热交换效率并防止压缩机过载,其中设置在设置在压缩机上的膨胀阀的旁路中的辅助阀 集热器状态检测器控制集热器的入口侧。 构成:集热器1,膨胀阀5,压缩机3,热交换器4的热水供给侧和蓄压器2彼此串联连接,而泵6,热水供给侧 热交换器4和热水储存箱7彼此串联连接,潜热传输装置的回路由传热介质侧10和热水供给侧9构成。 集热器1等的出口处的管内的日照量,风速,风向,湿度或压力设置在集热器1附近,并且使用检测信号来控制提供的辅助阀15 在膨胀阀5的通路14中。因此,辅助阀15主要通过由出口温度检测器8控制膨胀阀5的打开来进行纠正控制,并且导热介质为 快速准确地控制到最佳状态。
    • 10. 发明专利
    • Solar heat collecting device
    • 太阳能热收集装置
    • JPS58198646A
    • 1983-11-18
    • JP8040182
    • 1982-05-12
    • Matsushita Electric Ind Co Ltd
    • INOUE TADASHI
    • F24J2/42F24J2/40
    • F24J2/40Y02E10/40
    • PURPOSE:To simplify a pump control system by a method wherein stopping and starting of a circulating pump is controlled by a flow amout detector provided in a part of a flow path for the heat collector. CONSTITUTION:A heat exchanger 8 in the hot chamber 2 of the solar heat collector 1 and the heat exchanger 7 in the heat accumulating tank 4 of the collector 1 are connected by a sending pipe 9 and a returning pipe 10 while the flow amount detector 12 is provided in a part of the flow path 3a of a heat collecting unit 3. When sun beams are projected against the heat collector 1, water temperature in the heat collecting unit 3 is risen and a natural circulation of high-temperature water, being sent to the hot chamber 2, and the low-temperature water in the hot chamber 2, which is being sent to the heat collecting unit 3, is generated. When the flow amount of this circulation has arrived at a value higher than a set value, the detector 12 operates the circulating pump 11. According to this method, a heat medium in the heat exchangers 7, 8 and pipes 9, 10 is circulated forcibly by the pump 11, the heat medium is heated and it heats the water in the heat accumulating tank 4 in the heat exchanger 7. On the other hand, when the amount of sunshine is reduced, the natural circulation is stopped and the detector 12 stops the operation of the pump 11.
    • 目的:通过一种方法简化泵控制系统,其中循环泵的停止和启动由设置在用于集热器的流动路径的一部分中的流动出口检测器控制。 构成:在太阳能集热器1的热室2内的热交换器8和集电体1的蓄热槽4的热交换器7通过送水管9和返回管10连接,而流量检测器12 设置在集热单元3的流路3a的一部分中。当太阳光束相对于集热器1突出时,集热单元3中的水温升高,高温水的自然循环被发送 到热室2,并且产生被送到集热单元3的热室2中的低温水。 当该循环的流量达到高于设定值的值时,检测器12操作循环泵11.根据该方法,热交换器7,8和管道9,10中的热介质被强制循环 通过泵11,热介质被加热,并且加热热交换器7中的蓄热槽4中的水。另一方面,当日照量减少时,自然循环停止并且检测器12停止 泵的操作11。