公开(公告)号：US09329240B2

公开(公告)日：2016-05-03

申请号：US13978240

申请日：2011-12-01

申请人： Atsushi Baba ,  Shuichi Adachi

发明人： Atsushi Baba ,  Shuichi Adachi

IPC分类号： G01R31/36 ,  B60L11/18 ,  H02J7/04 ,  H01M10/48

CPC分类号： G01R31/361 ,  B60L11/1861 ,  G01R31/3624 ,  G01R31/3651 ,  H01M10/48 ,  H02J7/044 ,  Y02T10/7005 ,  Y02T10/7044 ,  Y02T10/705

摘要： A battery SoC estimation device includes a discharge-and charge current detection means 1, a terminal-voltage detection means 2, a current-integration SoC estimation means 3, an open-circuit-voltage SoC estimation means 4, an error estimation means 6, and an SoC calculating means 7. The estimation means 3 estimates a current-integration-method SoC (SoCi), calculating variance of current-integration-method SoC based on information on detection accuracy of the detection means 1. The estimation means 4 estimates an open-circuit-voltage-method SoC (SoCv) corresponding to an open circuit voltage value estimated based on a discharge-and-charge current value and a terminal voltage value, using a battery equivalent circuit model. The estimation means 6 estimates an estimate error ni of the current-integration-method SoC based on a difference between the SoCv and the SoCi, variance of the SoCi, and variance of the SoCv. The calculating means 7 calculates SoC of a battery based on the SoCi and the ni.

摘要翻译： 电池SoC估计装置包括放电和充电电流检测装置1，端子电压检测装置2，电流积分SoC估计装置3，开路电压SoC估计装置4，误差估计装置6， 和SoC计算装置7.估计装置3基于检测装置1的检测精度的信息来估计电流积分法SoC（SoCi），计算电流积分法SoC的方差。估计装置4估计 使用电池等效电路模型对应于基于放电和充电电流值和端子电压值估计的开路电压值的开路电压法SoC（SoCv）。 估计装置6基于SoCv和SoCi之间的差，SoCi的方差和SoCv的方差来估计当前积分方法SoC的估计误差ni。 计算装置7基于SoCi和ni计算电池的SoC。

公开(公告)号：US09046469B2

公开(公告)日：2015-06-02

申请号：US13222523

申请日：2011-08-31

申请人： Naoyuki Kono ,  Atsushi Baba ,  Yoshinori Musha

发明人： Naoyuki Kono ,  Atsushi Baba ,  Yoshinori Musha

IPC分类号： G01N29/07 ,  G01B17/02

CPC分类号： G01N29/07 ,  G01B17/02 ,  G01N2291/0234 ,  G01N2291/02854 ,  G01N2291/102

摘要： An ultrasonic testing method is provided to measure a thickness of an object in a simple and highly accurate manner when crystal grains that form a metal solidification structure of a directionally-solidified material cast or the like have a statistical variation.An ultrasonic probe 102 causes a longitudinal ultrasonic wave to be incident on a test object 101 in a direction perpendicular to a surface 101A of the test object 101. As a velocity of the longitudinal ultrasonic wave, the average of velocities of longitudinal ultrasonic waves propagating in directions of crystal orientations , , and is used. The thickness of the test object 101 is measured on the basis of the velocity of the ultrasonic wave and a time period for the propagation of the ultrasonic wave.

摘要翻译： 当形成定向凝固材料铸件的金属凝固组织等的晶粒具有统计学变化时，提供超声波测试方法以简单且高精度的方式测量物体的厚度。 超声波探头102使纵向超声波以与测试对象101的表面101A垂直的方向入射到测试对象101.作为纵向超声波的速度，纵向超声波的传播速度的平均值 使用晶体取向<100>，<110>和<210>的方向。 基于超声波的速度和超声波的传播时间来测定被测物101的厚度。

公开(公告)号：US20150127280A1

公开(公告)日：2015-05-07

申请号：US14400160

申请日：2013-04-01

申请人： Atsushi Baba ,  Shuichi Adachi

发明人： Atsushi Baba ,  Shuichi Adachi

IPC分类号： G01R31/36

CPC分类号： G01R31/382 ,  G01R31/3648 ,  G01R31/367 ,  G01R31/3842 ,  H01M10/48 ,  H01M2220/20

摘要： A battery's state of charge estimation apparatus will be provided.The battery's state of charge estimation apparatus includes: a charge and discharge current detection unit; a terminal voltage detection unit; an open circuit voltage method state of charge estimation unit for estimating an open circuit voltage of the battery and an open circuit voltage method state of charge; a current integration method state of charge estimation unit for obtaining a current integration method state of charge as a state variable; and an error correction value calculation unit for calculating an error correction value for correcting the current integration method state of charge. The current integration method state of charge estimation unit corrects the current integration method state of charge by using the error correction value.

摘要翻译： 将提供电池的充电状态估计装置。 电池的充电状态估计装置包括：充放电电流检测部; 端子电压检测单元; 用于估计电池的开路电压的开路电压法状态电荷估算单元和开路电压法的充电状态; 电流积分方法状态电荷估计单元，用于获得当前积分方法状态电荷作为状态变量; 以及误差校正值计算单元，用于计算用于校正当前积分方法的充电状态的误差校正值。 电流积分方法状态电荷估计单元通过使用误差校正值校正当前积分方法的充电状态。

公开(公告)号：US08995602B2

公开(公告)日：2015-03-31

申请号：US13460984

申请日：2012-05-01

申请人： Atsushi Baba ,  Yoshinori Musha ,  Masahiro Hiratsuka ,  Minoru Ootaka ,  Masahiro Koike

发明人： Atsushi Baba ,  Yoshinori Musha ,  Masahiro Hiratsuka ,  Minoru Ootaka ,  Masahiro Koike

IPC分类号： G21C15/25 ,  G21C17/017 ,  G01S7/521 ,  G01S7/539 ,  G01S15/88

CPC分类号： G01S7/521 ,  G01S7/539 ,  G01S15/88 ,  G21C15/25 ,  G21C17/017 ,  Y02E30/40

摘要： A jet pump beam (hereinafter, referred to as a beam) is fitted into a pair of projecting portions installed to a transition piece, and after the beam is arched, a beam bolt engaged with the beam is tightened. An end of the beam bolt comes in contact with a top surface of an insert member fitted into an elbow disposed between the pair of projecting portions. An ultrasonic sensor head is fixed to the beam bolt, and ultrasonic waves are sent to the beam bolt from the ultrasonic sensor in the ultrasonic sensor head. An ultrasonic measuring apparatus obtains echo intensity of each of reflected waves generated at the end of the beam bolt and a bottom surface of the insert member, and based on the echo intensities, an echo intensity ratio R is calculated. The installed state of the beam is checked using the echo intensity ratio R.

摘要翻译： 将喷射泵梁（以下称为梁）装配到安装在过渡件上的一对突出部分中，并且在梁被拱形之后，与梁接合的梁螺栓被拧紧。 梁螺栓的端部与安装在设置在一对突出部之间的弯头中的插入件的顶面接触。 超声波传感器头固定在梁螺栓上，超声波从超声波传感器头中的超声波传感器发送到梁螺栓。 超声波测量装置获得在梁螺栓的端部和插入构件的底面处产生的每个反射波的回波强度，并且基于回波强度，计算回波强度比R. 使用回波强度比R检查光束的安装状态

公开(公告)号：US08210043B2

公开(公告)日：2012-07-03

申请号：US12754264

申请日：2010-04-05

申请人： Hirohisa Mizota ,  Naoyuki Kono ,  Atsushi Baba

发明人： Hirohisa Mizota ,  Naoyuki Kono ,  Atsushi Baba

IPC分类号： G01N29/04

CPC分类号： G01N29/262 ,  G01N2291/0289 ,  G01N2291/106 ,  G10K11/345

摘要： An ultrasonic measurement method and an ultrasonic measurement apparatus are capable of performing an inspection for a short time with a high SN ratio and a small variation (that depends on an inspection direction) in sensitivity in a process for detecting a defect in all directions at 360 degrees using a matrix array sensor without performing mechanical scanning in all directions, while reducing noise that is caused by a bottom surface echo. An element selecting circuit selects a group of a plurality of ultrasonic transducer elements for transmission from among ultrasonic transducer elements that constitute a two-dimensional array sensor so that the ultrasonic transducer elements for selected for transmission are arranged in line symmetry with respect to a first line symmetric axis to set the group selected for transmission.

摘要翻译： 超声波测量方法和超声波测量装置能够在360度全方位检测缺陷的处理中以高SN比和小的变化（取决于检查方向）进行短时间的检查 使用矩阵阵列传感器，而不会在所有方向上执行机械扫描，同时减少由底面回波引起的噪声。 元件选择电路从构成二维阵列传感器的超声换能器元件中选择一组用于透射的超声波换能器元件，使得用于选择用于透射的超声波换能器元件相对于第一线线排列成对称 对称轴设置选择的组进行传输。

公开(公告)号：US20110166807A1

公开(公告)日：2011-07-07

申请号：US12975414

申请日：2010-12-22

申请人： So KITAZAWA ,  Naoyuki KONO ,  Atsushi BABA

发明人： So KITAZAWA ,  Naoyuki KONO ,  Atsushi BABA

IPC分类号： G06F19/00

CPC分类号： G01N29/0663 ,  G01N29/262 ,  G01N29/4409 ,  G01N2291/105

摘要： An ultrasonic inspection method and an ultrasonic inspection device allow three-dimensional inspection data and three-dimensional shape data to be appropriately positioned on a display screen and allow a defect echo and a shape echo to be quickly identified even when information on the relative positions of a probe and an object to be inspected is not provided. The ultrasonic inspection data that is generated from the waveforms of ultrasonic waves received by an ultrasonic probe is compared with a plurality of ultrasonic propagation data pieces calculated by a ray tracing method on the basis of the three-dimensional shape data on an object to be inspected. The position of the three-dimensional inspection data or the three-dimensional shape data is moved relative to the other data position on the basis of the comparison results, thereby displaying the three-dimensional inspection data and the three-dimensional shape data while overlapping each other.

摘要翻译： 超声波检查方法和超声波检查装置允许三维检查数据和三维形状数据适当地定位在显示屏幕上，并且即使当关于相对位置的信息的信息也可以快速识别缺陷回波和形状回波 不提供探针和被检查物体。 将由超声波探头接收的超声波的波形产生的超声波检查数据与通过光线追踪方法计算出的多个超声波传播数据进行比较，并根据对被检体的三维形状数据 。 基于比较结果，三维检查数据或三维形状数据的位置相对于其他数据位置移动，从而显示三维检查数据和三维形状数据，同时重叠每个 其他。

公开(公告)号：US20100251821A1

公开(公告)日：2010-10-07

申请号：US12754264

申请日：2010-04-05

申请人： Hirohisa MIZOTA ,  Naoyuki Kono ,  Atsushi Baba

发明人： Hirohisa MIZOTA ,  Naoyuki Kono ,  Atsushi Baba

IPC分类号： G01N29/04

CPC分类号： G01N29/262 ,  G01N2291/0289 ,  G01N2291/106 ,  G10K11/345

摘要： An ultrasonic measurement method and an ultrasonic measurement apparatus are capable of performing an inspection for a short time with a high SN ratio and a small variation (that depends on an inspection direction) in sensitivity in a process for detecting a defect in all directions at 360 degrees using a matrix array sensor without performing mechanical scanning in all directions, while reducing noise that is caused by a bottom surface echo. An element selecting circuit selects a group of a plurality of ultrasonic transducer elements for transmission from among ultrasonic transducer elements that constitute a two-dimensional array sensor so that the ultrasonic transducer elements for selected for transmission are arranged in line symmetry with respect to a first line symmetric axis to set the group selected for transmission. The element selecting circuit selects a group of a plurality of ultrasonic transducer elements for reception so that the ultrasonic transducer elements selected for reception are arranged in line symmetry with respect to a second line symmetric axis that is perpendicular to the first line symmetric axis to set the group selected for reception. A transmitting element selector selects, as transmitting elements, the ultrasonic transducer elements set by the element selecting circuit. A receiving element selector selects, as receiving elements, the ultrasonic transducer elements set by the element selecting circuit.

摘要翻译： 超声波测量方法和超声波测量装置能够在360度全方位检测缺陷的处理中以高SN比和小的变化（取决于检查方向）进行短时间的检查 使用矩阵阵列传感器，而不会在所有方向上执行机械扫描，同时减少由底面回波引起的噪声。 元件选择电路从构成二维阵列传感器的超声换能器元件中选择一组用于透射的超声波换能器元件，使得用于选择用于透射的超声波换能器元件相对于第一线线排列成对称 对称轴设置选择的组进行传输。 元件选择电路选择一组用于接收的超声波换能器元件，使得选择接收的超声波换能器元件相对于垂直于第一线对称轴线的第二线对称轴线对称布置， 选择接收组。 发送元件选择器选择由元件选择电路设置的超声换能器元件作为发送元件。 接收元件选择器选择由元件选择电路设置的超声换能器元件作为接收元件。

公开(公告)号：US07454973B2

公开(公告)日：2008-11-25

申请号：US11393832

申请日：2006-03-31

申请人： Atsushi Baba ,  Naoyuki Kono ,  Yoshinori Musha

发明人： Atsushi Baba ,  Naoyuki Kono ,  Yoshinori Musha

IPC分类号： G01N29/00 ,  A61B8/00

CPC分类号： G01N29/0609 ,  G01N29/043 ,  G01N29/069 ,  G01N29/262 ,  G01N29/449 ,  G01N2291/044 ,  G01N2291/106

摘要： In the ultrasonic inspection method and equipment, a high-resolution and high-S/N-ratio inspection image can be speedily acquired with ease-of-operability. Inspection of the inside of the inspection target is performed by changing incident angle of the ultrasonic wave oscillated from the array-probe ultrasonic sensor. Then, while performing the inspection, the array-probe ultrasonic sensor is sequentially displaced from the position to the position via the position by using the displacement member. This displacement allows acquisition of inspection images on each position basis. Finally, the inspection images thus acquired are visualized as a processed image by adding or averaging the inspection images by shifting the images by displacement quantity of the array-probe ultrasonic sensor.

摘要翻译： 在超声波检查方法和设备中，可以方便地获取高分辨率和高S / N比检查图像。 通过改变从阵列探针超声波传感器振荡的超声波的入射角来进行检查对象的内部的检查。 然后，在进行检查的同时，通过使用位移构件，阵列探头超声波传感器通过该位置从位置顺序地移位到位置。 该位移允许在每个位置基础上获取检查图像。 最后，通过利用阵列探针超声波传感器的位移量移动图像来对检查图像进行加法或平均化，将这样获取的检查图像可视化为处理图像。

公开(公告)号：US20070181112A1

公开(公告)日：2007-08-09

申请号：US11703141

申请日：2007-02-07

申请人： Yasunari Kimura ,  Tsuneo Endoh ,  Makoto Uda ,  Atsushi Baba

发明人： Yasunari Kimura ,  Tsuneo Endoh ,  Makoto Uda ,  Atsushi Baba

IPC分类号： F01L1/28 ,  F02B75/22 ,  F01L1/34

CPC分类号： F01L1/30 ,  F01L1/14 ,  F01L1/18 ,  F01L1/28 ,  F01L1/34 ,  F01L13/00 ,  F01L2003/256

摘要： A valve-operating mechanism for an internal combustion engine having intake and exhaust valves and valve control members for controlling the intake and exhaust valves. The intake and exhaust valves are configured as dual valves having an outer valve and an inner valve. The valve control members, at least during scavenging, simultaneously close the outer valves of the intake and exhaust valves, producing a non-overlapping state, and simultaneously open the inner valves of the intake and exhaust valves, producing an overlapping state.

摘要翻译： 具有进气门和排气门的内燃机的阀门操作机构和用于控制进气门和排气门的阀控制构件。 进气门和排气门被配置为具有外阀和内阀的双阀。 阀控制构件至少在扫气期间同时关闭进气门和排气门的外阀，产生非重叠状态，同时打开进气门和排气门的内阀，产生重叠状态。

公开(公告)号：US06990805B2

公开(公告)日：2006-01-31

申请号：US10149582

申请日：2000-12-08

申请人： Naoki Ohta ,  Tsuneo Endoh ,  Atsushi Baba ,  Tsutomu Takahashi ,  Masashi Shinohara

发明人： Naoki Ohta ,  Tsuneo Endoh ,  Atsushi Baba ,  Tsutomu Takahashi ,  Masashi Shinohara

IPC分类号： F01N3/02

CPC分类号： F01N5/02 ,  F01N13/10 ,  F02G5/02 ,  F22B1/1807 ,  Y02E20/363 ,  Y02T10/16 ,  Y02T10/166 ,  Y10T137/6579

摘要： A waste heat recovering device for an internal combustion engine includes: an internal combustion engine; and an evaporator into which an exhaust gas of the internal combustion engine is introduced as a high temperature fluid. An exhaust gas inlet of the evaporator is placed adjacent to an exhaust valve of the internal combustion engine. Thus, there can be provided a waste heat recovering device having a high waste heat recovery rate.