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    • 1. 发明授权
    • Material determining apparatus for steel product and material determining method for steel product
    • 钢铁产品材料测定装置及钢铁产品材料测定方法
    • US08498445B2
    • 2013-07-30
    • US13002531
    • 2009-07-06
    • Takeo NakataMasami IkedaKenji Fujiwara
    • Takeo NakataMasami IkedaKenji Fujiwara
    • G06K9/00G06K9/46G06K9/66
    • G01N19/06G01N21/70G01N33/20
    • An object of the invention is to provide a material determining apparatus for a steel product and a material determining method for a steel product which can stably and precisely determine a carbon content of the steel product. The invention provides a material determining apparatus for a steel product, which is provided with an imaging device for continuously imaging a spark generated during rubbing the steel product at a plurality of times, a detecting part for detecting spark regions and bursting spark regions from each of the imaged pictures imaged by the imaging device, a calculating part for calculating a total of the spark regions and a total of the bursting spark regions by summing up the numbers of the spark regions and the bursting spark regions detected by the detecting part with regard to each of all the imaged pictures, so as to calculate a rate of the total of the bursting spark regions with respect to the total of the spark regions, and a determining part for determining a carbon content of the steel product based on the rate, and a material determining method for the steel product.
    • 本发明的目的是提供一种可以稳定且精确地确定钢产品的碳含量的钢产品的材料测定装置和钢产品的材料测定方法。 本发明提供了一种用于钢产品的材料测定装置,其具有用于连续成像多次摩擦钢产品时产生的火花的成像装置,用于从火焰区域中检测火花区域和爆发火花区域的检测部件 由成像装置成像的成像图像,计算部分,用于通过对由检测部分检测到的火花区域和爆裂火花区域的数量进行相加来计算火花区域的总和和爆裂火花区域的总和 计算所有成像图像中的每一个,以便计算爆炸火花区域的总和相对于火花区域的总和的速率,以及用于基于速率确定钢产品的碳含量的确定部分,以及 钢材的材料测定方法。
    • 3. 发明申请
    • MATERIAL DETERMINING APPARATUS FOR STEEL PRODUCT AND MATERIAL DETERMINING METHOD FOR STEEL PRODUCT
    • 钢材产品材料测定装置及材料测定方法
    • US20110158471A1
    • 2011-06-30
    • US13002531
    • 2009-07-06
    • Takeo NakataMasami IkedaKenji Fujiwara
    • Takeo NakataMasami IkedaKenji Fujiwara
    • G06K9/00
    • G01N19/06G01N21/70G01N33/20
    • An object of the invention is to provide a material determining apparatus for a steel product and a material determining method for a steel product which can stably and precisely determine a carbon content of the steel product. The invention provides a material determining apparatus for a steel product, which is provided with an imaging device for continuously imaging a spark generated during rubbing the steel product at a plurality of times, a detecting part for detecting spark regions and bursting spark regions from each of the imaged pictures imaged by the imaging device, a calculating part for calculating a total of the spark regions and a total of the bursting spark regions by summing up the numbers of the spark regions and the bursting spark regions detected by the detecting part with regard to each of all the imaged pictures, so as to calculate a rate of the total of the bursting spark regions with respect to the total of the spark regions, and a determining part for determining a carbon content of the steel product based on the rate, and a material determining method for the steel product.
    • 本发明的目的是提供一种可以稳定且精确地确定钢产品的碳含量的钢产品的材料测定装置和钢产品的材料测定方法。 本发明提供了一种用于钢产品的材料测定装置,其具有用于连续成像多次摩擦钢产品时产生的火花的成像装置,用于从火焰区域中检测火花区域和爆发火花区域的检测部件 由成像装置成像的成像图像,计算部分,用于通过对由检测部分检测到的火花区域和爆裂火花区域的数量进行相加来计算火花区域的总和和爆裂火花区域的总和 计算所有成像图像中的每一个,以便计算爆炸火花区域的总和相对于火花区域的总和的速率,以及用于基于速率确定钢产品的碳含量的确定部分,以及 钢材的材料测定方法。
    • 4. 发明授权
    • Apparatus and method for determining kind of steel material
    • 用于确定钢材种类的装置和方法
    • US08761444B2
    • 2014-06-24
    • US13469447
    • 2012-05-11
    • Takeo NakataMasami IkedaKazuhiro UchidaMakoto SakamotoKenji Fujiwara
    • Takeo NakataMasami IkedaKazuhiro UchidaMakoto SakamotoKenji Fujiwara
    • G06K9/00
    • G01N19/06G01N33/20
    • An apparatus for determining a kind of a steel material includes an image pickup device 11 for imaging a spark, which is produced when the steel material 18 is ground, continuously a plurality of times; a detection device 12 for detecting an alloy spark zone, which corresponds to an alloy spark produced by the grinding of an alloying component contained in the steel material, from each of picked-up images 2 imaged by the image pickup device; a calculation device 13 for calculating the total number of alloy spark zones detected by the detection device; and a judgment device 14 for determining that the steel material consists of a low-alloy steel if the total number is not smaller than a first threshold value, and determining that the steel material consists of a carbon steel if the total number is smaller than the first threshold value.
    • 用于确定钢材种类的装置包括:连续多次连续地对钢材18进行研磨时产生的火花成像用的摄像装置11; 用于检测合成火花区域的检测装置,其对应于通过由图像拾取装置成像的每个拾取图像2对由包含在钢材中的合金成分进行研磨而产生的合金火花; 计算装置13,用于计算由检测装置检测的合金火花区域的总数; 以及判断装置14,用于如果总数不小于第一阈值,则确定钢材由低合金钢组成,并且如果钢材总数小于第一阈值,则确定钢材由碳钢组成 第一阈值。
    • 5. 发明申请
    • APPARATUS AND METHOD FOR DETERMINING KIND OF STEEL MATERIAL
    • 用于确定钢材料种类的装置和方法
    • US20120281876A1
    • 2012-11-08
    • US13469447
    • 2012-05-11
    • Takeo NAKATAMasami IkedaKazuhiro UchidaMakoto SakamotoKenji Fujiwara
    • Takeo NAKATAMasami IkedaKazuhiro UchidaMakoto SakamotoKenji Fujiwara
    • G06K9/62
    • G01N19/06G01N33/20
    • An apparatus for determining a kind of a steel material includes an image pickup device 11 for imaging a spark, which is produced when the steel material 18 is ground, continuously a plurality of times; a detection device 12 for detecting an alloy spark zone, which corresponds to an alloy spark produced by the grinding of an alloying component contained in the steel material, from each of picked-up images 2 imaged by the image pickup device; a calculation device 13 for calculating the total number of alloy spark zones detected by the detection device; and a judgment device 14 for determining that the steel material consists of a low-alloy steel if the total number is not smaller than a first threshold value, and determining that the steel material consists of a carbon steel if the total number is smaller than the first threshold value.
    • 用于确定钢材种类的装置包括:连续多次连续地对钢材18进行研磨时产生的火花成像用的摄像装置11; 用于检测合成火花区域的检测装置,其对应于通过由图像拾取装置成像的每个拾取图像2对由包含在钢材中的合金成分进行研磨而产生的合金火花; 计算装置13,用于计算由检测装置检测的合金火花区域的总数; 以及判断装置14,用于如果总数不小于第一阈值,则确定钢材由低合金钢组成,并且如果钢材总数小于第一阈值,则确定钢材由碳钢组成 第一阈值。
    • 6. 发明授权
    • Ultrasonic testing method and apparatus
    • 超声波检测方法及装置
    • US08393218B2
    • 2013-03-12
    • US13129859
    • 2009-11-18
    • Masaki YamanoMasami IkedaKenji FujiwaraHiroshi Kubota
    • Masaki YamanoMasami IkedaKenji FujiwaraHiroshi Kubota
    • G01N29/00
    • G01N29/043G01N29/262G01N2291/106G01N2291/2634
    • An ultrasonic testing apparatus 100 comprises an ultrasonic probe 1 including n (n≧2) number of transducers arranged along a predetermined direction, disposed so as to face a test object P, and a transmission/reception control device 2 for selecting m (n>m≧1) number of transducers from among the n number of transducers, transmitting ultrasonic waves from the selected m number of transducers toward the test object, receiving the ultrasonic waves therefrom, and switched m number of transducers to b selected successively. If an angle that the arrangement direction of the transducers makes with the surface of the test object which ultrasonic waves enter is θ, and the effective beam width of each selected m number of transducers with respect to a target flaw is W1, the transmission/reception control device switches m number of transducers to be selected successively by a switching pitch length P satisfying the formula: P≦W1·cos θ.
    • 超声波检查装置100包括:超声波探头1,其包括沿着预定方向排列的n(n≥2)个换能器的超声波探头1,被配置为面向被测试对象P;以及发送/接收控制装置2,用于选择m(n> 从n个换能器中的换能器的数量,从所选择的m个换能器向测试对象发送超声波,从其接收超声波,并将m个换能器切换为b个连续选择的传感器。 如果换能器的排列方向与超声波进入的被测物体的表面的角度为θ,则每个选择的m个换能器相对于目标缺陷的有效波束宽度为W1,则传输/ 接收控制装置将满足以下公式的切换节距长度P连续选择要连续选择的M个换能器:P< ll; W1·cos&
    • 7. 发明申请
    • ULTRASONIC TESTING METHOD AND APPARATUS
    • 超声波测试方法和设备
    • US20110283798A1
    • 2011-11-24
    • US13129859
    • 2009-11-18
    • Masaki YamanoMasami IkedaKenji FujiwaraHiroshi Kubota
    • Masaki YamanoMasami IkedaKenji FujiwaraHiroshi Kubota
    • G01N29/00
    • G01N29/043G01N29/262G01N2291/106G01N2291/2634
    • An ultrasonic testing apparatus 100 comprises an ultrasonic probe 1 including n (n≧2) number of transducers arranged along a predetermined direction, disposed so as to face a test object P, and a transmission/reception control device 2 for selecting m (n>m≧1) number of transducers from among the n number of transducers, transmitting ultrasonic waves from the selected m number of transducers toward the test object, receiving the ultrasonic waves therefrom, and switched m number of transducers to b selected successively. If an angle that the arrangement direction of the transducers makes with the surface of the test object which ultrasonic waves enter is θ, and the effective beam width of each selected m number of transducers with respect to a target flaw is W1, the transmission/reception control device switches m number of transducers to be selected successively by a switching pitch length P satisfying the formula: P≦W1·cosθ.
    • 超声波检查装置100包括:超声波探头1,其包括沿着预定方向排列的n(n≥2)个换能器的超声波探头1,被配置为面向被测试对象P;以及发送/接收控制装置2,用于选择m(n> 从n个换能器中的换能器的数量,从所选择的m个换能器向测试对象发送超声波,从其接收超声波,并将m个换能器切换为b个连续选择的传感器。 如果换能器的排列方向与超声波进入的被测物体的表面的角度为θ,则每个选择的m个换能器相对于目标缺陷的有效波束宽度为W1,则传输/ 接收控制装置将满足以下公式的切换节距长度P连续选择要连续选择的M个换能器:P< ll; W1·cos&
    • 9. 发明申请
    • ULTRASONIC TESTING METHOD AND EQUIPMENT THEREFOR
    • 超声波测试方法及其设备
    • US20110113885A1
    • 2011-05-19
    • US12934831
    • 2009-03-24
    • Yoshio UedaMasaki YamanoMasami Ikeda
    • Yoshio UedaMasaki YamanoMasami Ikeda
    • G01N29/00
    • G01N29/069G01N29/262G01N29/265G01N2291/106G01N2291/2632
    • An ultrasonic testing equipment includes a linear array ultrasonic probe in which a plurality of transducers are arranged in a direction orthogonal to the rolling direction of a test object and a signal processing unit. The signal processing unit executes following (1) to (6). (1) Generating an aperture synthetic image of testing signals of each section of the test object. (2) Generating a maximum value distribution of testing signals in the arrangement direction of transducers. (3) Calculating the width of a defect in each section based on the maximum value distribution. (4) Generating a maximum value distribution of the testing signals in the rolling direction based on the maximum value distribution of a plurality of sections of the test object. (5) Calculating the length of the defect based on the maximum value distribution of the testing signals in the rolling direction. (6) Calculating the area of the defect based on the calculated defect length and the calculated defect width of each section.
    • 超声波检测装置包括线性阵列超声波探头,其中多个换能器沿与测试对象的滚动方向正交的方向和信号处理单元布置。 信号处理单元执行以下(1)〜(6)。 (1)生成测试对象每个部分测试信号的孔径合成图像。 (2)在换能器排列方向上产生测试信号的最大值分布。 (3)基于最大值分布计算每个部分中的缺陷的宽度。 (4)基于测试对象的多个部分的最大值分布,生成轧制方向上的测试信号的最大值分布。 (5)基于测试信号在轧制方向上的最大值分布来计算缺陷的长度。 (6)基于计算出的缺陷长度和每个部分的计算缺陷宽度来计算缺陷的面积。