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1. 发明申请

US20050144926A1 Flattened helical tire cord 有权
标题翻译：扁平螺旋轮胎帘线
公开(公告)号：US20050144926A1
公开(公告)日：2005-07-07
申请号：US10509355
申请日：2003-04-07
申请人： Takanori Kobayashi , William Smith , Charles Smith Jr. , Noritaka Morioka
发明人： Takanori Kobayashi , William Smith , Charles Smith Jr. , Noritaka Morioka
IPC分类号： D07B1/06 , D02G3/36
CPC分类号： D07B1/0653 , D07B1/0613 , D07B1/062 , D07B1/0646 , D07B2201/2006 , D07B2201/2023 , D07B2201/2024 , D07B2201/2029 , D07B2201/2033 , D07B2201/2039 , D07B2201/206 , D07B2401/208 , D07B2501/2046 , D07B2801/12
摘要： A tire cord having core filaments (10) performed into a helical configuration while maintaining the core filaments (10) in a parallel, side-by-side relationship. The core filaments (10) are not twisted or stranded together. High tensile strength sheath filaments (11) are also performed into a flattened helical configuration so that the sheath filaments (11) can be wrapped around the side-by-side core filaments such that the sheath filaments (11) do not put such tension on the core filaments (10) as to cause the core filaments (10) to bunch. The core filaments (10) are maintained in a flat side-by-side configuration so that no voids are formed and rubber can penetrate into the tire cord. The core filaments (10) may number from three to six and the sheath filaments (11) from one to seven. The cross-section of the tire cord is flattened and confined within an oval-shaped outer bound (21), the oval outer bound (21) being characterized by a major axis and a minor axis. It is desirable that the minor axis be no greater than 60% of the major axis to create the appropriate difference in the bending modulus of the tire cord in the horizontal versus the vertical direction.
摘要翻译：一种具有芯丝（10）的轮胎帘线，其执行成螺旋状构造，同时保持芯丝（10）处于并排的并排关系。芯丝（10）不扭曲或绞合在一起。高抗拉强度的护套细丝（11）也被进行成扁平的螺旋结构，使得护套细丝（11）可以围绕并排芯丝卷绕，使得护套细丝（11）不会将这种张力放在芯丝（10）使芯丝（10）束缚。芯丝（10）保持平坦的并排构造，使得不形成空隙，并且橡胶可以渗透到轮胎帘线中。芯丝（10）的数量可以从三到六，鞘细丝（11）从一到七。轮胎帘线的横截面是扁平的并且被限制在椭圆形外边界（21）内，椭圆形外边界（21）的特征在于长轴和短轴。期望短轴不大于长轴的60％，以产生在水平方向与垂直方向上的轮胎帘线的弯曲模量的适当差异。

2. 发明授权

US07051506B2 Flattened helical tire cord 有权
标题翻译：扁平螺旋轮胎帘线
公开(公告)号：US07051506B2
公开(公告)日：2006-05-30
申请号：US10509355
申请日：2003-04-07
申请人： Takanori Kobayashi , William E. Smith , Charles E. Smith, Jr. , Noritaka Morioka
发明人： Takanori Kobayashi , William E. Smith , Charles E. Smith, Jr. , Noritaka Morioka
IPC分类号： D02G3/48
CPC分类号： D07B1/0653 , D07B1/0613 , D07B1/062 , D07B1/0646 , D07B2201/2006 , D07B2201/2023 , D07B2201/2024 , D07B2201/2029 , D07B2201/2033 , D07B2201/2039 , D07B2201/206 , D07B2401/208 , D07B2501/2046 , D07B2801/12
摘要： A tire cord having core filaments (10) performed into a helical configuration while maintaining the core filaments (10) in a parallel, side-by-side relationship. The core filaments (10) are not twisted or stranded together. High tensile strength sheath filaments (11) are also performed into a flattened helical configuration so that the sheath filaments (11) can be wrapped around the side-by-side core filaments such that the sheath filaments (11) do not put such tension on the core filaments (10) as to cause the core filaments (10) to bunch. The core filaments (10) are maintained in a flat side-by-side configuration so that no voids are formed and rubber can penetrate into the tire cord. The core filaments (10) may number from three to six and the sheath filaments (11) from one to seven. The cross-section of the tire cord is flattened and confined within an oval-shaped outer bound (21), the oval outer bound (21) being characterized by a major axis and a minor axis. It is desirable that the minor axis be no greater than 60% of the major axis to create the appropriate difference in the bending modulus of the tire cord in the horizontal versus the vertical direction.
摘要翻译：一种具有芯丝（10）的轮胎帘线，其执行成螺旋状构造，同时保持芯丝（10）处于并排的并排关系。芯丝（10）不扭曲或绞合在一起。高抗拉强度的护套细丝（11）也被进行成扁平的螺旋结构，使得护套细丝（11）可以围绕并排芯丝卷绕，使得护套细丝（11）不会将这种张力放在芯丝（10）使芯丝（10）束缚。芯丝（10）保持平坦的并排构造，使得不形成空隙，并且橡胶可以渗透到轮胎帘线中。芯丝（10）的数量可以从三到六，鞘细丝（11）从一到七。轮胎帘线的横截面是扁平的并且被限制在椭圆形外边界（21）内，椭圆形外边界（21）的特征在于长轴和短轴。期望短轴不大于长轴的60％，以产生在水平方向与垂直方向上的轮胎帘线的弯曲模量的适当差异。

3. 发明申请

US20090084489A1 METHOD OF MANUFACTURING PNEUMATIC TIRE 审中-公开
标题翻译：制造气动轮胎的方法
公开(公告)号：US20090084489A1
公开(公告)日：2009-04-02
申请号：US12282433
申请日：2007-03-19
申请人： Shinya Harikae , Noritaka Morioka
发明人： Shinya Harikae , Noritaka Morioka
IPC分类号： B29D30/08
CPC分类号： B29D30/3028 , B29D30/70 , B29D2030/3078 , D07B1/0606 , D07B1/0646 , D07B7/025
摘要： A method of manufacturing a pneumatic tire according to the present invention can improve productivity.A steel cord S is continuously shaped in a helical manner or in a manner of a two-dimensional wave with at least one of amplitude and pitch of shaping of the steel cord varying in a phased manner or in a continuous manner just before winding of the steel cord S around a belt-forming drum 4. Then, the shaped steel cord S′ is continuously wound around the rotating belt-forming drum 4 spirally in the circumferential direction of the drum in such a manner that the circumferential stiffness of a belt-reinforcing layer 16 varies in the widthwise direction of the tire.
摘要翻译：根据本发明的制造充气轮胎的方法可以提高生产率。钢帘线S以螺旋方式或以二维波形的方式连续地成形，其中钢帘线的成形的振幅和间距中的至少一个以相位方式或连续的方式变化，刚好在卷绕之前钢带S围绕带成形滚筒4。然后，成形的钢丝绳S'以滚筒的圆周方向螺旋地缠绕在旋转的带成形滚筒4上，增强层16在轮胎的宽度方向上变化。

4. 发明授权

US08649019B2 Shape determining device 有权
标题翻译：形状确定装置
公开(公告)号：US08649019B2
公开(公告)日：2014-02-11
申请号：US13138294
申请日：2010-01-28
申请人： Masato Kannaka , Eiji Takahashi , Masakazu Kajita , Hideki Matsuoka , Hidetoshi Tsunaki , Noritaka Morioka , Kazuhiko Tahara , Takuya Atsumi
发明人： Masato Kannaka , Eiji Takahashi , Masakazu Kajita , Hideki Matsuoka , Hidetoshi Tsunaki , Noritaka Morioka , Kazuhiko Tahara , Takuya Atsumi
IPC分类号： G01B9/02
CPC分类号： G01B11/0608 , G01B11/2441
摘要： A shape determining device includes first and second homodyne interferometers respectively provided for front and back surfaces of an object to be measured and a thickness distribution calculator that calculates a thickness distribution of the object based on intensities of first and second interference light beams respectively detected by the first and second homodyne interferometers for the front and back surfaces of the object at a plurality of measurement sites. The thickness distribution calculator calculates, for each interference light beam for which the intensity is detected by the first and second homodyne interferometers, a phase difference between the polarization components of a corresponding reference light beam and a corresponding object light beam in a corresponding non-interference light beam based on the intensity of the interference light beam, and calculates the thickness distribution based on a distribution of the calculated phase differences.
摘要翻译：形状确定装置包括分别设置在待测物体的前表面和后表面上的第一和第二零差干涉仪;以及厚度分布计算器，其基于由所述第一和第二干涉光束分别检测的第一和第二干涉光束的强度来计算物体的厚度分布用于在多个测量位置处的物体的前表面和后表面的第一和第二零差干涉仪。厚度分布计算器对于由第一和第二零差干涉仪检测到的强度的每个干涉光束计算相应的参考光束的偏振分量与相应的对象光束之间的相对差异基于干涉光束的强度的光束，并且基于计算出的相位差的分布来计算厚度分布。

5. 发明授权

US07251922B2 Tire reinforcing steel cord and tire 有权
标题翻译：轮胎加强钢丝绳和轮胎
公开(公告)号：US07251922B2
公开(公告)日：2007-08-07
申请号：US10333498
申请日：2002-03-28
申请人： Noritaka Morioka , Sinya Harikae
发明人： Noritaka Morioka , Sinya Harikae
IPC分类号： D02G3/48
CPC分类号： D07B1/062 , B60C9/0007 , B60C9/0057 , B60C9/2006 , B60C9/22 , D07B2201/2008 , D07B2201/2021 , D07B2201/2022 , D07B2201/2024 , D07B2201/2039 , D07B2401/2005 , D07B2401/201 , D07B2501/2046
摘要： A zero degree tire reinforcing steel cord is formed by twisting together four to seven individual wires having a wire diameter of 0.20 to 0.45 mm, wherein the steel cord has a substantially spiral or a substantially planar wavy deformation, has an elongation of 1.2% to 2.0% under a tensile load of 50 N and becomes substantially linear with its wavy deformation disappearing under a tensile load of 50 to 250 N. The steel cord stretches to a moderate extent so as to track expansion of the tire in the radial direction during the vulcanization process and thereafter restrains expansion of the tire in the radial direction during continued high speed rotation of the tire.
摘要翻译：通过将线直径为0.20至0.45mm的四至七根单独的线扭合在一起形成零度轮胎加强钢丝绳，其中钢丝绳具有基本上螺旋状或基本上平面的波浪形变，其伸长率为1.2％至2.0 在50N的拉伸载荷下，其波浪形变形消失，基本上呈线性，并且在拉伸载荷为50〜250N时消失。钢帘线在中等程度上拉伸，以便在硫化期间跟踪径向方向的轮胎的膨胀然后在轮胎的持续高速旋转期间抑制轮胎在径向上的膨胀。

6. 发明授权

US5790252A Method of and apparatus for determining residual damage to wafer edges 失效
标题翻译：确定晶片边缘残余损伤的方法和装置
公开(公告)号：US5790252A
公开(公告)日：1998-08-04
申请号：US720065
申请日：1996-09-27
申请人： Hisashi Masumura , Hideo Kudo , Shingo Sumie , Hidetoshi Tsunaki , Yuji Hirao , Noritaka Morioka
发明人： Hisashi Masumura , Hideo Kudo , Shingo Sumie , Hidetoshi Tsunaki , Yuji Hirao , Noritaka Morioka
IPC分类号： H01L21/66 , G01B9/02
CPC分类号： H01L22/12
摘要： The invention seeks to permit evaluation of edge portion of like inclined surfaces of wafer with high accuracy without the conventional destruction process based on the selective etching process but with the contact-free, non-destructive and high accuracy optical acoustical process. To this end, the invention features determination of residual damages as crystal damages caused to wafer edge in an optical acoustical process, which comprises the steps of causing a measurement probe to face each of three exciting laser beam irradiation points on upper and lower inclined surfaces and at an accurate end of an edge portion of a semiconductor wafer, and determining a thermal response induced by the exciting laser beam by a laser interference process.
摘要翻译：本发明试图允许以高精度评估晶片的倾斜表面的边缘部分，而不需要基于选择性蚀刻工艺的常规的破坏过程，而是利用无接触的非破坏性和高精度的光学声学过程。为此，本发明的特征在于确定作为在光学声学过程中对晶片边缘引起的晶体损伤的残余损伤，其包括以下步骤：使测量探针面对上和下倾斜表面上的三个激发激光束照射点中的每一个，在半导体晶片的边缘部分的精确端处，并且通过激光干涉处理确定由激发激光束引起的热响应。

7. 发明申请

US20120002213A1 SHAPE DETERMINING DEVICE 有权
标题翻译：形状确定装置
公开(公告)号：US20120002213A1
公开(公告)日：2012-01-05
申请号：US13138294
申请日：2010-01-28
申请人： Masato Kannaka , Eiji Takahashi , Masakazu Kajita , Hideki Matsuoka , Hidetoshi Tsunaki , Noritaka Morioka , Kazuhiko Tahara , Takuya Atsumi
发明人： Masato Kannaka , Eiji Takahashi , Masakazu Kajita , Hideki Matsuoka , Hidetoshi Tsunaki , Noritaka Morioka , Kazuhiko Tahara , Takuya Atsumi
IPC分类号： G01B11/06 , G01B9/02
CPC分类号： G01B11/0608 , G01B11/2441
摘要： An object of the present invention is to measure thickness distribution with precision by using a simple device configuration without being affected by vibrations of a to-be-measured object. In the present invention, for each of the front and the back surfaces of a to-be-measured object 1, each of light beams obtained by branching into two an emitted light beam from a laser light source 2 is further branched into two. Then, the light beams are reflected in reference surfaces and measurement points 1a and 1b mutually in a front and back relation, so that non-interference light beams Pax and Pbx each of which contains the reference light beam and the object light beam as mutually orthogonal polarization components are acquired. Then, each light beam is branched into a plurality. Onto one or more of the branched light beams, phase shift is performed in which a change is imparted to the phase difference between the orthogonal polarization components by using wavelength plates a261, a263, and a264 and the like. Then, in the branched light beams after the phase shift, common polarization components are extracted with adopting as a reference the polarization directions of the reference light beam and the object light beam so that interference light beams Qa1 to Qa4 and Qb1 to Qb4 are acquired. From their intensities, the phase difference between the polarization components of the reference light beam and the object light beam in the non-interference light beam is calculated. Then, thickness distribution in a to-be-measured object 1 is calculated from the distribution of the phase difference.
摘要翻译：本发明的目的是通过使用简单的装置结构来精确地测量厚度分布，而不受被测物体的振动的影响。在本发明中，对于被测量物体1的前表面和背面的每一个，通过将从激光光源2分离为两个发射光束而获得的每个光束进一步分为两个。然后，光束在参考面和测量点1a和1b中以前后相互反映，使得不干涉光束Pax和Pbx各自包含参考光束和物体光束相互正交获得偏振分量。然后，将各光束分支成多个。在一个或多个分支光束中，执行相移，其中通过使用波长板a261，a263和a264等对正交偏振分量之间的相位差赋予变化。然后，在相移后的分支光束中，以参考基准光束和物体光束的偏振方向为参考，提取公共偏振分量，从而获得干涉光束Qa1至Qa4和Qb1至Qb4。根据其强度，计算参考光束的偏振分量与非干涉光束中的物体光束之间的相位差。然后，根据相位差的分布计算被测量物体1的厚度分布。

8. 发明授权

US08001758B2 Rubber-product-reinforcing steel cord and method for manufacturing the same 有权
标题翻译：橡胶制品增强钢丝绳及其制造方法
公开(公告)号：US08001758B2
公开(公告)日：2011-08-23
申请号：US12726563
申请日：2010-03-18
申请人： Noritaka Morioka
发明人： Noritaka Morioka
IPC分类号： D02G3/02 , D02G3/22
CPC分类号： D07B1/0646 , D07B2201/2007 , D07B2501/2046 , D07B2501/2076
摘要： A single-layered rubber-product-reinforcing steel cord with good rubber penetration properties, excellent fatigue resistance, and small low-load stretch is obtained. All of wires 11 are provided with curls having a substantially elliptical cross-section and a pitch smaller than that of curls for intertwining, formed by providing the wires with spiral curls and then pressing the wires. These wires are intertwined into each other to form a single-layered twist structure, and, thus, a cord is obtained in which a hollow portion at the center of the cord is in communication with an outside via a gap 12 between the wires 11, and at least any one pair of adjacent wires 11 are substantially in contact with each other at any point in the longitudinal direction of the cord.
摘要翻译：获得具有良好的橡胶渗透性，优异的耐疲劳性和小的低负荷拉伸的单层橡胶制品增强钢丝帘线。所有的电线11都具有卷曲，该卷曲具有基本上椭圆形的横截面，并且具有小于卷曲的间距，用于缠绕，通过将电线设置成螺旋卷曲然后按压电线而形成。这些线彼此缠结以形成单层扭结结构，因此，获得了一根绳索，其中帘线中心处的中空部分经由导线11之间的间隙12与外部连通，并且至少任何一对相邻的线11在帘线的纵向方向上的任何点处基本上彼此接触。

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