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    • 4. 发明专利
    • Waterproof rubber, and connector waterproof structure
    • 防水橡胶和连接器防水结构
    • JP2013051071A
    • 2013-03-14
    • JP2011187403
    • 2011-08-30
    • Sumitomo Electric Ind Ltd住友電気工業株式会社Sumitomo Wiring Syst Ltd住友電装株式会社
    • SHIMADA SHIGEKIMANABE MASARUYOSHIOKA CHIKAHIRONAKAYAMA YASUAKI
    • H01R13/52
    • PROBLEM TO BE SOLVED: To provide a waterproof rubber capable of suppressing the deterioration of waterproof performance, and a connector waterproof structure.SOLUTION: In order to waterproof between an outer peripheral surface of an end portion of a cable 5 inserted in an insertion hole 6a of a connector housing 6 and an inner peripheral surface of the insertion hole 6a, a waterproof rubber 8 is externally fitted with the end portion of the cable 5. The waterproof rubber 8 is equipped with: a first seal portion 11 having an outer peripheral surface 11a sticking to the inner peripheral surface of the insertion hole 6a at an opening end portion of the insertion hole 6a; and a second seal portion 13 having an outer peripheral surface 13a sticking to the inner peripheral surface of the insertion hole 6a on the inner side in an axial direction of the insertion hole 6a than the first seal portion 11. Between the first seal portion 11 and the second seal portion 13, a shock absorbing portion 12 capable of absorbing the extension in an axial direction due to thermal expansion of the first seal portion 11 and the second seal portion 13 is formed.
    • 要解决的问题:提供一种能够抑制防水性能劣化的防水橡胶和连接器防水结构。 解决方案:为了在插入连接器壳体6的插入孔6a的电缆5的端部的外周表面和插入孔6a的内周表面之间防水,防水橡胶8在外部 防水橡胶8配备有:第一密封部11,其具有在插入孔6a的开口端部附着于插入孔6a的内周面的外周面11a ; 以及第二密封部分13,其具有在第一密封部分11的插入孔6a的轴向方向内侧的插入孔6a的内周面上附着的外周面13a。在第一密封部11和 第二密封部13形成有由于第一密封部11和第二密封部13的热膨胀而能够吸收沿轴向的延伸的冲击吸收部12。 版权所有(C)2013,JPO&INPIT
    • 5. 发明专利
    • Connector and seal member
    • 连接器和密封件
    • JP2014089806A
    • 2014-05-15
    • JP2012237616
    • 2012-10-29
    • Sumitomo Wiring Syst Ltd住友電装株式会社Sumitomo Electric Ind Ltd住友電気工業株式会社
    • NAKAYAMA YASUAKISHIMADA SHIGEKI
    • H01R13/52
    • PROBLEM TO BE SOLVED: To maintain predetermined sealability by avoiding breakage of a seal member.SOLUTION: A seal member 30 includes a plurality of circular cross-sectioned insertion holes 31 to which electrical wires 90 are inserted in close contact after the passage of terminal fittings 80. On an opening edge part on a rear face side of the seal member 30, a slope part 34 for introducing the terminal fitting 80 is formed so as to be expanded backward. The slope part 34 includes first contact parts 37 which are brought into contact with portions between square parts 85 of a square cross-sectioned main body part 81 of the terminal fitting 80, and second contact parts 41 which are brought into contact with the square parts of the main body part 81. The first contact parts 37 each of which has a shape protruding into the insertion hole 31 are arranged at equal intervals in a circumferential direction, and abut on the main body part 81 before the second contact parts 41 abut on the main body part in the case where the terminal fitting 80 is inserted to a cavity 13 of a housing 10.
    • 要解决的问题:通过避免密封构件的破裂来保持预定的密封性。解决方案:密封构件30包括多个圆形横截面的插入孔31,电线90在端子配件通过之后紧密地插入该孔中 在密封构件30的背面侧的开口边缘部分上,形成用于引入端子接头80的倾斜部分34,以便向后扩展。 倾斜部分34包括与端子配件80的正方形截面主体部分81的方形部分85之间的部分接触的第一接触部分37和与方形部分接触的第二接触部分41 主体部分81.各个具有突出到插入孔31中的形状的第一接触部分37在圆周方向上以相等的间隔布置,并且在第二接触部分41邻接之前抵靠在主体部分81上 在端子接头80插入壳体10的空腔13的情况下的主体部分。
    • 6. 发明专利
    • Method of manufacturing magnesium alloy sheet, and magnesium alloy sheet
    • 制造镁合金板和镁合金板的方法
    • JP2013233570A
    • 2013-11-21
    • JP2012107757
    • 2012-05-09
    • Sumitomo Electric Ind Ltd住友電気工業株式会社
    • MORI NOBUYUKIOISHI YUKIHIROINOUE RYUICHIITO MASAHIKOSHIMADA SHIGEKIMISHIMA HIDEHIKO
    • B21B3/00B21B1/32B21B39/00B21B39/08B21C47/00B21C47/26
    • PROBLEM TO BE SOLVED: To provide a method of manufacturing an Mg alloy sheet, capable of productively manufacturing an Mg alloy sheet with superior surface properties and formability.SOLUTION: A method of manufacturing an Mg alloy sheet is a method of manufacturing an Mg alloy sheet by reciprocating a material sheet made of Mg alloy and wound in a coil shape and applying rolling of plural passes to the material sheet. The method includes a feeding step of feeding a material sheet 1 wound in a coil shape, a rolling step of applying rolling to the fed-out material sheet by a rolling roll 3, and a winding step of winding the rolled material sheet 1 in a coil shape, and at least the rolling process is applied to the heated material sheet. After the winding process, the wound material sheet 1 is fed again to the rolling roll 3. At least one pass of the plural passes is carried out at high speed in which a running speed of the material sheet 1 is 40 m/min or more. The method includes a cooling step of cooling the material sheet 1 during the high speed running, and a temperature of the material sheet 1 throughout all the passes is lowered to 280°C or less by the cooling process.
    • 要解决的问题:提供一种能够有效地制造具有优异的表面性能和成形性的Mg合金板的Mg合金板的制造方法。解决方案:一种制造Mg合金板的方法是制造Mg合金板的方法 通过将由Mg合金制成的材料片往复运动并缠绕成线圈形状并将多次通过轧制到材料片上。 该方法包括:馈送卷绕成线圈状的材料片1的进给步骤,通过轧辊3对被送出的材料片进行轧制的轧制工序;以及卷绕工序,将轧制的材料片1卷绕在 线圈形状,并且至少将轧制过程应用于被加热的材料片材。 在卷绕过程之后,卷绕材料片材1再次供给到轧制辊3上。以高速度进行多次通过的至少一次通过,其中材料片材1的运行速度为40m / min以上 。 该方法包括在高速行驶期间冷却材料片1的冷却步骤,并且通过冷却过程将材料片1的整个通过温度降低到280℃以下。
    • 7. 发明专利
    • Cable arrangement prediction method, cable arrangement prediction apparatus, program and recording medium
    • 电缆布置预测方法,电缆布置预测装置,程序和记录介质
    • JP2012113428A
    • 2012-06-14
    • JP2010260392
    • 2010-11-22
    • Sumitomo Electric Ind Ltd住友電気工業株式会社
    • SHIMADA SHIGEKI
    • G06F17/50H01B13/00H01R13/58
    • PROBLEM TO BE SOLVED: To provide a cable arrangement prediction method with which a form can be determined from an arbitrary initial cable arrangement while considering dynamical characteristics in the case where cables are bundled by giving an arbitrary restraint wall.SOLUTION: An initial arrangement is determined on the basis of positions and radii of insulation cables connected to a connector, respectively, mapping conversion is performed on the determined initial arrangement into an arrangement of a form determined by a restraint member (S1), and a contact position where cables are brought into contact with each other is calculated on the basis of the mapping-converted arrangement (S3). A restraint arrangement in the case where cable bundles in the contact arrangement are bundled by the restraint member is calculated (S9 and S11), a force to act on each of cables in the restraint arrangement is calculated (S13, S15 and S17) and on the basis of the calculated acting forces, each acceleration acting on each cable is calculated (S19). Then, velocity and position vectors of each cable are calculated by an equation of motion with a center point of each cable as a mass point (S21) and on the basis of the respective calculated velocity and position vectors, restraint arrangement and respective acting forces, it is determined whether position variation of each cable is converged (S23).
    • 要解决的问题:提供一种电缆布置预测方法,其中可以从任意的初始电缆布置确定形式,同时考虑通过给出任意约束壁来捆绑电缆的情况下的动态特性。 解决方案:基于连接到连接器的绝缘电缆的位置和半径分别确定初始布置,将所确定的初始布置进行映射转换为由限制构件(S1)确定的形式的布置, 并且基于映射转换装置计算电缆彼此接触的接触位置(S3)。 计算在接触装置中的电缆束由限制构件捆扎的情况下的约束装置(S9和S11),计算作用于约束装置中的每根电缆的力(S13,S15和S17)并且打开 计算出计算出的作用力的基础,计算每个电缆的每个加速度(S19)。 然后,通过每个电缆的中心点作为质点的运动方程(S21),并且基于相应计算的速度和位置矢量,约束布置和相应的作用力来计算每根电缆的速度和位置矢量, 确定每个电缆的位置变化是否收敛(S23)。 版权所有(C)2012,JPO&INPIT
    • 9. 发明专利
    • Method and apparatus for measuring dielectric constant
    • 测量介质常数的方法和装置
    • JP2011064535A
    • 2011-03-31
    • JP2009214444
    • 2009-09-16
    • Kansai UnivSumitomo Electric Ind Ltd住友電気工業株式会社学校法人 関西大学
    • SHIMADA SHIGEKIYONEZU DAIGOHARA TAKEHISAKITAHARA TAKASHI
    • G01R27/26G01N22/00
    • PROBLEM TO BE SOLVED: To provide a method and an apparatus for measuring dielectric constants capable of accurately measuring a dielectric constant of a dielectric at wide frequencies.
      SOLUTION: A measurement sample 1 includes both of a dielectric sample 11 and a conductor plate 12 arranged in principal surfaces 13 and 14 of the dielectric sample 11. The measurement sample 1 has the function as a filter. The conductor plate 12 makes it possible to change a frequency at which a dielectric constant takes a minimum value. A spectrum analyzer 4 scans the frequency of planar waves irradiated from a transmitting antenna 2 to the measurement sample 1. A receiving antenna 3 and the spectrum analyzer 4 measure the field strength of planar waves transmitted through the measurement sample 1. A computer 5 uses parameters inputted to the computer 5 and measurement results of the spectrum analyzer 4 to compute a dielectric constant of the dielectric sample 11 by numerical computations according to an FDTD method.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种用于测量能够以宽频率精确测量电介质的介电常数的介电常数的方法和装置。 解决方案:测量样品1包括布置在电介质样品11的主表面13和14中的电介质样品11和导体板12。测量样品1具有过滤器的功能。 导体板12使得可以改变介电常数取最小值的频率。 频谱分析仪4将从发送天线2照射的平面波的频率扫描到测量样本1.接收天线3和频谱分析仪4测量通过测量样品1传输的平面波的场强。计算机5使用参数 输入到计算机5和频谱分析仪4的测量结果,以通过根据FDTD方法的数值计算来计算电介质样品11的介电常数。 版权所有(C)2011,JPO&INPIT
    • 10. 发明专利
    • Solid type cable manufacturing method
    • 固体电缆制造方法
    • JP2010073661A
    • 2010-04-02
    • JP2008243262
    • 2008-09-22
    • Sumitomo Electric Ind Ltd住友電気工業株式会社
    • HIROSE MASAYUKISHIMADA SHIGEKI
    • H01B13/00H01B9/06H01B13/30
    • PROBLEM TO BE SOLVED: To provide a solid type cable manufacturing method reducing a time to impregnate an insulating layer with an insulating oil. SOLUTION: The solid type cable manufacturing method includes a step of impregnating the insulating layer 3 with the insulating oil under pressure. The method includes the step of temporarily reducing the pressure on the insulating oil under pressure. A impregnation path in a compressed state under pressure is opened by reducing the pressure on the insulating oil which has been temporarily pressed. Thus, the oil flow resistance which has been increased can be decreased and the insulating layer 3 can be impregnated with the insulating oil in a time shorter than that taken when the insulating oil is not pressure-reduced. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种减少用绝缘油浸渍绝缘层的时间的固体电缆制造方法。 解决方案:固体电缆制造方法包括在绝缘油的压力下浸渍绝缘层3的步骤。 该方法包括在压力下暂时降低绝缘油的压力的步骤。 在压力下的压缩状态下的浸渍路径通过减压已被暂时压制的绝缘油上的压力来打开。 因此,可以降低增加的油流阻力,并且可以在比绝缘油不被减压的时间短的时间内用绝缘油浸渍绝缘层3。 版权所有(C)2010,JPO&INPIT