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    • 1. 发明专利
    • Square insulated electric wire
    • 方形绝缘电线
    • JP2012204257A
    • 2012-10-22
    • JP2011069596
    • 2011-03-28
    • Hitachi Cable Ltd日立電線株式会社
    • SUMI YOSUKECHIWATA NAOFUMI
    • H01B7/02H01F5/06
    • PROBLEM TO BE SOLVED: To provide a square insulated electric wire capable of providing a good PDIV while reducing an actual applied amount of covering material for an insulating cover layer.SOLUTION: A square insulated electric wire 10 contains a square conductor 13 whose cross section is square, and an insulating cover layer 16 which covers the outer periphery of the square conductor 13 using an insulating body. The insulating cover layer 16 includes a flat part 15 and a corner part 14 which connects the flat parts 15 and 15 together. A layer thickness d at the thinnest portion of the corner part 14 is formed thinner than a layer thickness tof the flat part 15. In a cross section view under such condition as the square insulated electric wires 10 are arrayed side by side so that the flat parts 15 and 15 are matched together, a gap length g is 10 μm or less which is a distance between the insulating cover layers 16 at an intersection a where a straight line Lrunning a plane formed at the matching, crosses at 45° with a tangent line Lcontacting to at least a partial surface of the corner part 14.
    • 要解决的问题:提供能够提供良好的PDIV同时减少用于绝缘覆盖层的覆盖材料的实际施加量的方形绝缘电线。 解决方案:方形绝缘电线10包含截面为正方形的方形导体13和绝缘覆盖层16,其使用绝缘体覆盖正方形导体13的外周。 绝缘覆盖层16包括平坦部分15和将平坦部分15和15连接在一起的角部14。 在角部14的最薄部分处的层厚度d形成得比平坦部分15的层厚度t f 薄。在横截面视图中, 方形绝缘电线10并排排列,使得平坦部分15和15匹配在一起,间隙长度g为10μm或更小,这是绝缘覆盖层16在交叉点处的距离,其中直线L 运行在匹配处形成的平面的 1 与45°的切线相交,至少部分表面与切线L 2 的角落第14部分。版权所有(C)2013,JPO&INPIT
    • 2. 发明专利
    • Theft monitoring device for solar cell module and theft monitoring system using the same
    • 太阳能电池模块的电子监控装置及其使用的监视系统
    • JP2012164122A
    • 2012-08-30
    • JP2011023838
    • 2011-02-07
    • Hitachi Cable Ltd日立電線株式会社
    • KOMANO HARUYASUKOTANI KAZUOCHIWATA NAOFUMIOKAMOTO ASUKA
    • G08B13/14H01L31/042
    • Y02E10/50
    • PROBLEM TO BE SOLVED: To provide a theft monitoring device for a solar cell module that is capable of specifying a range and position where the solar cell modules are stolen even if multiple solar cell modules are stolen.SOLUTION: A theft monitoring device comprises: a loop circuit 2 that is electrically blocked at a connection part 5 corresponding to a stolen solar cell module M; a theft determination section 10 for determining that the solar cell module M is stolen when transmitting a first pulse signal from one end of the loop circuit 2 and receiving a first reflected signal; and a theft position determination section 15 for determining a position where the solar cell module M is stolen. The theft position determination section 15 comprises: a first theft position determination section 11 for determining a theft position closest to the one end of the loop circuit 2, based on time from transmitting the first pulse signal to receiving the first reflected signal; and a second theft position determination section 12 for determining the theft position closest to the other end of the loop circuit 2, based on time from transmitting a second pulse signal from the other end of the loop circuit 2 and receiving a second reflected signal.
    • 要解决的问题:提供一种能够指定太阳能电池模块被盗的范围和位置的太阳能电池模块的盗窃监控装置,即使多个太阳能电池模块被盗。 防盗监控装置包括:在对应于被盗太阳能电池模块M的连接部分5处被电阻塞的环路电路2; 防盗确定部分10,用于在从环路电路2的一端发送第一脉冲信号并接收第一反射信号时,确定太阳能电池模块M被盗; 以及用于确定太阳能电池模块M被盗的位置的盗窃位置确定部分15。 盗窃位置确定部15包括:第一盗窃位置确定部11,用于基于从发送第一脉冲信号到接收第一反射信号的时间确定最靠近环路电路2的一端的盗窃位置; 以及第二盗窃位置确定部分12,用于基于从发送来自环路电路2的另一端的第二脉冲信号和接收第二反射信号的时间确定最接近环路电路2的另一端的盗窃位置。 版权所有(C)2012,JPO&INPIT
    • 3. 发明专利
    • Theft monitoring device for solar cell module and theft monitoring system using the same
    • 太阳能电池模块的电子监控装置及其使用的监视系统
    • JP2012160052A
    • 2012-08-23
    • JP2011019711
    • 2011-02-01
    • Hitachi Cable Ltd日立電線株式会社
    • KOTANI KAZUOCHIWATA NAOFUMIOKAMOTO ASUKAKOMANO HARUYASU
    • G08B13/14H01L31/042
    • Y02E10/50
    • PROBLEM TO BE SOLVED: To provide a theft monitoring device for solar cell module which, even when a plurality of solar cell modules are stolen, is capable of specifying the plurality of solar cell modules that are stolen.SOLUTION: A theft monitoring device for solar cell module is provided with: a theft monitoring device body 3; signal lines 4 which connect the theft monitoring device body 3 with a plurality of solar cell modules to be monitored and are formed in such a manner that they have respectively different wire lengths to the solar cell modules M; and response devices 5c which are provided in connection parts 5 between the signal lines 4 and the solar cell modules M and return a response signal to the signal lines 4 when they receive a monitoring signal via the signal lines 4. The theft monitoring device body 3 is provided with a theft detection part 10 which transmits a monitoring signal from one end of the signal lines 4, sequentially receives response signals returned from the response devices 5c, and detects that a solar cell module M corresponding to a response device 5c from which a response signal is not returned is stolen.
    • 要解决的问题:提供一种太阳能电池模块的盗窃监控装置,其即使在多个太阳能电池模块被盗时也能够指定被盗的多个太阳能电池模块。 解决方案:一种用于太阳能电池模块的盗窃监控装置设有:盗窃监控装置主体3; 信号线4,其将盗窃监视装置主体3与要监视的多个太阳能电池模块连接,并且形成为使得它们具有与太阳能电池模块M分别不同的导线长度; 以及响应装置5c,其设置在信号线4和太阳能电池模块M之间的连接部分5中,并且当它们经由信号线4接收到监视信号时,将响应信号返回给信号线4.盗窃监视装置主体3 设置有从信号线4的一端发送监视信号的盗窃检测部分10,顺序地接收从响应装置5c返回的响应信号,并且检测到对应于响应装置5c的太阳能电池模块M, 回复信号未返回被盗。 版权所有(C)2012,JPO&INPIT
    • 4. 发明专利
    • Mold resin molding
    • 模具树脂模具
    • JP2010274603A
    • 2010-12-09
    • JP2009131241
    • 2009-05-29
    • Hitachi Cable Ltd日立電線株式会社
    • YAMAZAKI TAKANORIABE JUNICHICHIWATA NAOFUMISUMI YOSUKE
    • B29C45/14
    • PROBLEM TO BE SOLVED: To provide a mold resin molding which can narrow the separation interval of plate metallic conductors, can secure the uniformity of the separation interval of the plate metallic conductors, can prevent the occurrence of peeling in the adhesion interface between the plate metallic conductor and a resin for molds, and has an advantageous structure. SOLUTION: A plurality of the plate metallic conductors 2 and 3 are laminated at a constant separation interval of 500 μm or below. By molding, the circumference of each plate metallic conductor is coated with an insulating adhesive resin composition having a melt viscosity of 50 Pa s or below, and the separation interval is filled with the resin composition 4, so that the plate metallic conductors 2 and 3 are separated electrically from each other, and the whole is laminated/unified to obtain the mold resin molding. In the mold resin molding, the respective opposed surface sides of the plurality of the plate metallic conductors 2 and 3 are made dull surfaces or rounded surfaces. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了提供能够缩小板金属导体的分隔间隔的模制树脂模制品,可以确保板金属导体的分离间隔的均匀性,可以防止在金属导体之间的粘附界面上的剥离的发生 板状金属导体和模具用树脂,具有有利的结构。 解决方案:多个板金属导体2和3以500μm或更小的恒定间隔层压。 通过成型,每个板状金属导体的周长涂覆有熔融粘度为50Pa·s或更低的绝缘粘合剂树脂组合物,并且用树脂组合物4填充分离间隔,使得金属导体2和3 彼此电隔离,整体层压/统一以获得模制树脂模塑。 在模制树脂模塑中,多个板金属导体2和3的相对的相对表面侧成为钝的表面或圆形表面。 版权所有(C)2011,JPO&INPIT
    • 5. 发明专利
    • Manufacturing method of magnetic powder-coated wire
    • 磁粉涂布线的制造方法
    • JP2006073350A
    • 2006-03-16
    • JP2004255322
    • 2004-09-02
    • Hitachi Cable Ltd日立電線株式会社
    • KOMURO MATAHIROSATSUU YUUICHIWATABE NORIYUKIOKUYAMA TAKESHICHIWATA NAOFUMIYAMAZAKI TAKANORI
    • H01B13/00H01B7/00H01B7/02
    • PROBLEM TO BE SOLVED: To allow an EMI-prevention wire to be manufactured without using a magnetic tube to overcome an issue in using the magnetic tube.
      SOLUTION: A conductive wire 13 covered with an insulating layer is coated with a composite material 12 comprising magnetic powder and a resin by means of application or the like, and thereafter passed through a ring of a ring-shaped magnet 11 composed of a plurality of divided magnets 1. The ring-shaped magnet is structured by cyclically changing the magnetizing directions 2 of the divided magnets adjacent to each other. Desirably, a magnetic field is turned by serially arranging the plurality of ring-shaped magnets so that the circumferential angles are made different from one another. By this method, the magnetic powder is oriented when the conductive wire is passed through the rings of the ring-shaped magnets and circumferential magnetic permeability is enhanced. As a result, noise of the conductive wire is reduced and EMI countermeasures are applied.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了在不使用磁管的情况下制造防EMI丝以克服使用磁管的问题。 解决方案:用绝缘层覆盖的导线13用包含磁性粉末和树脂的复合材料12涂覆在其上,然后通过环形磁体11的环,该环形磁体11由 多个分割磁体1.环状磁体通过周期性地改变彼此相邻的分割磁体的磁化方向2而构成。 理想地,通过串联地布置多个环形磁体使得周向角度彼此不同而使磁场转动。 通过该方法,当导线穿过环状磁体的环时,磁性粉末取向,并且提高了圆周磁导率。 结果导电线的噪声降低,并且应用EMI对策。 版权所有(C)2006,JPO&NCIPI
    • 6. 发明专利
    • Connection structure
    • 连接结构
    • JP2013235703A
    • 2013-11-21
    • JP2012107003
    • 2012-05-08
    • Hitachi Cable Ltd日立電線株式会社
    • KOTANI KAZUOCHIWATA NAOFUMINAKATANI KATSUTOSHIKOMANO HARUYASU
    • H01R9/03H01R13/6473
    • PROBLEM TO BE SOLVED: To provide a connection structure which allows for reduction of impedance mismatch.SOLUTION: The connection structure includes a first terminal 2 at least having a first ground terminal 3 and a first power supply terminal 4, and a second terminal 5 at least having a second ground terminal 6 and a second power supply terminal 7, and electrically connects the first ground terminal 3 and the second ground terminal 6, the first power supply terminal 4 and the second power supply terminal 7 respectively. A ground side connection 12 for connecting the first ground terminal 3 and the second ground terminal 6, and a power supply side connection 13 for connecting the first power supply terminal 4 and the second power supply terminal 7 are disposed to face each other with a capacitance adjustment member 14 for adjusting the capacitance between both connections 12, 13 interposed therebetween.
    • 要解决的问题:提供允许减小阻抗失配的连接结构。解决方案:连接结构包括至少具有第一接地端子3和第一电源端子4的第一端子2和第二端子5, 至少具有第二接地端子6和第二电源端子7,并且分别电连接第一接地端子3和第二接地端子6,第一电源端子4和第二电源端子7。 用于连接第一接地端子3和第二接地端子6的接地侧连接部12以及用于连接第一电源端子4和第二电源端子7的电源侧连接部13被配置成以电容 调节构件14,用于调节两个连接件12,13之间的电容。
    • 10. 发明专利
    • Distribution cable for solar cell module and large scale solar power generation system and solar power generation apparatus that use the distribution cable
    • 用于太阳能电池模块和大型太阳能发电系统的分配电缆和使用分配电缆的太阳能发电装置
    • JP2012199393A
    • 2012-10-18
    • JP2011062615
    • 2011-03-22
    • Hitachi Cable Ltd日立電線株式会社
    • OKAMOTO ASUKAKOTANI KAZUOCHIWATA NAOFUMIKOMANO HARUYASU
    • H01L31/042
    • Y02E10/50
    • PROBLEM TO BE SOLVED: To provide a distribution cable for a solar cell module which suppresses an excessive current that keeps flowing through the distribution cable even when the distribution cable connecting the solar cell module with a power collection box causes a ground fault.SOLUTION: A distribution cable for a solar cell module 13, which is formed by a pair of wiring 12p, 12n connecting with a solar cell module 11, includes: a detector 16 connecting with the pair of wiring 12p, 12n and detecting a ground fault of a current flowing through the pair of wiring 12p, 12n; and a breaker 17 connecting with one of the pair of wiring 12p, 12n and interrupting the current flowing from the solar cell module 11 to the one wiring when the detector 16 detects the ground fault. At least the breaker 17 is provided at an end part of the pair of wiring 12p, 12n on the solar cell module 11 side.
    • 要解决的问题:即使当将太阳能电池模块与电力收集箱连接的分配电缆引起接地故障时,也可以提供一种太阳能电池模块的分配电缆,其能够抑制流过配电电缆的过电流。 解决方案:由与太阳能电池模块11连接的一对布线12p,12n形成的太阳能电池模块13的配线,包括:与该对配线12p,12n连接的检测器16, 流过该对布线12p,12n的电流的接地故障; 以及与该一对配线12p,12n中的一个连接的断路器17,并且当检测器16检测到接地故障时,中断从太阳能电池模块11流向一个配线的电流。 至少在太阳能电池模块11侧的一对布线12p,12n的端部设置断路器17。 版权所有(C)2013,JPO&INPIT