公开(公告)号：US08826739B2

公开(公告)日：2014-09-09

申请号：US13356908

申请日：2012-01-24

Applicant: Seiichi Matsumoto ,  Hiroyuki Kawaki ,  Shinya Kuroki ,  Kazuhiro Uchida ,  Kiyokazu Ito

Inventor： Seiichi Matsumoto ,  Hiroyuki Kawaki ,  Shinya Kuroki ,  Kazuhiro Uchida ,  Kiyokazu Ito

IPC: G01N29/024 ,  G01B17/02

CPC classification number: G01B17/025 ,  G01B2210/44

Abstract: In an ultrasonic measuring method for measuring the thickness of a coating material applied by coating to one surface or both surfaces of a substrate made of a metal so as to provide a coated product, a pair of first ultrasonic sensor and second ultrasonic sensor are provided such that the first ultrasonic sensor is placed on one side of the coated product, as viewed in its thickness direction, via an air layer, while the second ultrasonic sensor is placed on the other side of the coated product, via an air layer, and the thickness of the coating material is measured by transmitting ultrasonic waves between the first and the second ultrasonic sensors. A flat-type transmitting sensor that permits propagation of unfocused ultrasonic waves is used as the first ultrasonic sensor, and a flat-type receiving sensor that permits propagation of unfocused ultrasonic waves is used as the second ultrasonic sensor.

Abstract translation: 在用于测量通过涂覆在由金属制成的基底的一个表面或两个表面上涂覆的涂层材料的厚度以提供涂覆产品的超声波测量方法中，提供一对第一超声波传感器和第二超声波传感器， 通过空气层将第一超声波传感器放置在涂覆产品的沿其厚度方向观察的一侧上，而第二超声波传感器经由空气层放置在涂覆产品的另一侧上，并且 通过在第一和第二超声波传感器之间传输超声波来测量涂层材料的厚度。 作为第一超声波传感器，使用允许未聚焦的超声波的传播的平面型发送传感器，作为允许未聚焦的超声波的传播的平面型接收传感器被用作第二超声波传感器。

公开(公告)号：US20120247211A1

公开(公告)日：2012-10-04

申请号：US13431022

申请日：2012-03-27

Applicant: Seiichi MATSUMOTO ,  Hiroyuki KAWAKI ,  Shinya KUROKI ,  Kazuhiro UCHIDA

Inventor： Seiichi MATSUMOTO ,  Hiroyuki KAWAKI ,  Shinya KUROKI ,  Kazuhiro UCHIDA

IPC: G01N29/00

CPC classification number: G01N29/30 ,  G01B17/025 ,  G01N29/024 ,  G01N29/028 ,  G01N2291/0237 ,  G01N2291/02854

Abstract: An ultrasonic measuring method and an ultrasonic measuring system use or include at least one actual-measurement ultrasonic sensor set each consisting of a first ultrasonic sensor and a second ultrasonic sensor, for measuring the basis weight of an electrode paste, and a calibration ultrasonic sensor set consisting of a pair of first calibration ultrasonic sensor and second calibration ultrasonic sensor. The calibration ultrasonic sensor set performs calibration during measurement of the thickness of the electrode paste, and the actual-measurement ultrasonic sensor set calculates the basis weight of the electrode paste, using a measurement condition value obtained by the calibration ultrasonic sensor set.

Abstract translation: 超声波测量方法和超声波测量系统使用或包括至少一个由第一超声波传感器和第二超声波传感器组成的实际测量超声波传感器组，用于测量电极浆料的基重，以及校准超声波传感器组 由一对第一校准超声波传感器和第二校准超声波传感器组成。 校准超声波传感器组在测量电极糊的厚度期间执行校准，并且实际测量超声波传感器组使用由校准超声波传感器组获得的测量条件值来计算电极糊的基重。

公开(公告)号：US20120186348A1

公开(公告)日：2012-07-26

申请号：US13356908

申请日：2012-01-24

Applicant: Seiichi MATSUMOTO ,  Hiroyuki Kawaki ,  Shinya Kuroki ,  Kazuhiro Uchida ,  Kiyokazu Ito

Inventor： Seiichi MATSUMOTO ,  Hiroyuki Kawaki ,  Shinya Kuroki ,  Kazuhiro Uchida ,  Kiyokazu Ito

IPC: G01N29/024

CPC classification number: G01B17/025 ,  G01B2210/44

Abstract: In an ultrasonic measuring method for measuring the thickness of a coating material applied by coating to one surface or both surfaces of a substrate made of a metal so as to provide a coated product, a pair of first ultrasonic sensor and second ultrasonic sensor are provided such that the first ultrasonic sensor is placed on one side of the coated product, as viewed in its thickness direction, via an air layer, while the second ultrasonic sensor is placed on the other side of the coated product, via an air layer, and the thickness of the coating material is measured by transmitting ultrasonic waves between the first and the second ultrasonic sensors. A flat-type transmitting sensor that permits propagation of unfocused ultrasonic waves is used as the first ultrasonic sensor, and a flat-type receiving sensor that permits propagation of unfocused ultrasonic waves is used as the second ultrasonic sensor.

Abstract translation: 在用于测量通过涂覆在由金属制成的基底的一个表面或两个表面上涂覆的涂层材料的厚度以提供涂覆产品的超声波测量方法中，提供一对第一超声波传感器和第二超声波传感器， 通过空气层将第一超声波传感器放置在涂覆产品的沿其厚度方向观察的一侧上，而第二超声波传感器经由空气层放置在涂覆产品的另一侧上，并且 通过在第一和第二超声波传感器之间传输超声波来测量涂层材料的厚度。 作为第一超声波传感器，使用允许未聚焦的超声波的传播的平面型发送传感器，作为允许未聚焦的超声波的传播的平面型接收传感器被用作第二超声波传感器。

公开(公告)号：US09385398B2

公开(公告)日：2016-07-05

申请号：US14343173

申请日：2011-09-08

Applicant: Hisataka Fujimaki ,  Shinya Kamada ,  Shinya Kuroki ,  Hideto Mori ,  Hisanao Kojima

Inventor： Hisataka Fujimaki ,  Shinya Kamada ,  Shinya Kuroki ,  Hideto Mori ,  Hisanao Kojima

IPC: H01M4/58 ,  H01M10/0525 ,  H01M4/505 ,  H01M4/525 ,  H01M10/058 ,  H01M10/44 ,  H01M10/052

CPC classification number: H01M10/0525 ,  H01M4/505 ,  H01M4/525 ,  H01M10/052 ,  H01M10/058 ,  H01M10/44 ,  H01M10/446 ,  H01M2220/20 ,  Y02E60/122 ,  Y02P70/54 ,  Y02T10/7011 ,  Y10T29/49108

Abstract: Provided is a method for manufacturing a lithium secondary battery which is capable of preventing a local deposition of a metallic foreign substance at a negative electrode regardless of the type of a positive electrode and in which a short-circuit is less likely to occur. The present manufacturing method comprises: a step of assembling a cell that includes a positive electrode, a negative electrode, and a nonaqueous electrolyte; a micro charging step of performing a micro charge on the assembled cell before performing an initial conditioning charge until a positive electrode potential with respect to a metal lithium (Li) reference electrode exceeds an Me dissolution potential set in advance at which a mixing-anticipated metal species (Me) starts to dissolve; and an Me dissolution potential holding step of holding the positive electrode potential of the cell at or above the Me dissolution potential for a prescribed period of time after the micro charge.

Abstract translation: 提供一种锂二次电池的制造方法，其能够防止金属异物在负极上的局部沉积，而与正极的类型无关，并且短路不太可能发生。 本制造方法包括：组装包括正极，负极和非水电解质的电池的步骤; 在进行初始调节电荷之前对组装的电池进行微电荷的微电荷步骤，直到相对于金属锂（Li）参考电极的正电极电位超过预先设定的Me溶解电位，其中混合预期金属 物种（Me）开始溶解; 以及在微电荷之后将电解槽的正极电位保持在Me溶解电位以上的规定时间的Me溶解电位保持步骤。

公开(公告)号：US5520513A

公开(公告)日：1996-05-28

申请号：US258377

申请日：1994-06-10

Applicant: Shinya Kuroki ,  Shigeru Akaike

Inventor： Shinya Kuroki ,  Shigeru Akaike

IPC: F01P5/06 ,  F04D29/54 ,  F04D19/00

CPC classification number: F04D29/547 ,  F01P5/06

Abstract: A fan shroud 4 is positioned upstream of a heat exchanger 5. An intake portion 9 of the fan shroud 4 has the shape that the axial length a thereof is smaller than a radial length b thereof, so that the intake portion expands quickly and the air flowing inwardly toward the fan blade is well guided by the intake portion.

Abstract translation: 风扇罩4位于热交换器5的上游。风扇罩4的入口部分9具有其轴向长度a小于其径向长度b的形状，使得进气部分迅速膨胀，空气 向内流向风扇叶片由进气部分引导。

公开(公告)号：US20150064566A1

公开(公告)日：2015-03-05

申请号：US14343173

申请日：2011-09-08

Applicant: Hisataka Fujimaki ,  Shinya Kamada ,  Shinya Kuroki ,  Hideto Mori ,  Hisanao Kojima

Inventor： Hisataka Fujimaki ,  Shinya Kamada ,  Shinya Kuroki ,  Hideto Mori ,  Hisanao Kojima

IPC: H01M10/0525 ,  H01M10/44 ,  H01M10/058

CPC classification number: H01M10/0525 ,  H01M4/505 ,  H01M4/525 ,  H01M10/052 ,  H01M10/058 ,  H01M10/44 ,  H01M10/446 ,  H01M2220/20 ,  Y02E60/122 ,  Y02P70/54 ,  Y02T10/7011 ,  Y10T29/49108

Abstract: Provided is a method for manufacturing a lithium secondary battery which is capable of preventing a local deposition of a metallic foreign substance at a negative electrode regardless of the type of a positive electrode and in which a short-circuit is less likely to occur. The present manufacturing method comprises: a step of assembling a cell that includes a positive electrode, a negative electrode, and a nonaqueous electrolyte; a micro charging step of performing a micro charge on the assembled cell before performing an initial conditioning charge until a positive electrode potential with respect to a metal lithium (Li) reference electrode exceeds an Me dissolution potential set in advance at which a mixing-anticipated metal species (Me) starts to dissolve; and an Me dissolution potential holding step of holding the positive electrode potential of the cell at or above the Me dissolution potential for a prescribed period of time after the micro charge.

Abstract translation: 提供一种锂二次电池的制造方法，其能够防止金属异物在负极上的局部沉积，而与正极的类型无关，并且短路不太可能发生。 本制造方法包括：组装包括正极，负极和非水电解质的电池的步骤; 在进行初始调节电荷之前对组装的电池进行微电荷的微电荷步骤，直到相对于金属锂（Li）参比电极的正极电位超过预先设定的Me溶解电位，其中混合预期金属 物种（Me）开始溶解; 以及在微电荷之后将电解槽的正极电位保持在Me溶解电位以上的规定时间的Me溶解电位保持步骤。

公开(公告)号：US08813570B2

公开(公告)日：2014-08-26

申请号：US13431022

申请日：2012-03-27

Applicant: Seiichi Matsumoto ,  Hiroyuki Kawaki ,  Shinya Kuroki ,  Kazuhiro Uchida

Inventor： Seiichi Matsumoto ,  Hiroyuki Kawaki ,  Shinya Kuroki ,  Kazuhiro Uchida

IPC: G01N29/30

CPC classification number: G01N29/30 ,  G01B17/025 ,  G01N29/024 ,  G01N29/028 ,  G01N2291/0237 ,  G01N2291/02854

Abstract: An ultrasonic measuring method and an ultrasonic measuring system use or include at least one actual-measurement ultrasonic sensor set each consisting of a first ultrasonic sensor and a second ultrasonic sensor, for measuring the basis weight of an electrode paste, and a calibration ultrasonic sensor set consisting of a pair of first calibration ultrasonic sensor and second calibration ultrasonic sensor. The calibration ultrasonic sensor set performs calibration during measurement of the thickness of the electrode paste, and the actual-measurement ultrasonic sensor set calculates the basis weight of the electrode paste, using a measurement condition value obtained by the calibration ultrasonic sensor set.

Abstract translation: 超声波测量方法和超声波测量系统使用或包括至少一个由第一超声波传感器和第二超声波传感器组成的实际测量超声波传感器组，用于测量电极浆料的基重，以及校准超声波传感器组 由一对第一校准超声波传感器和第二校准超声波传感器组成。 校准超声波传感器组在测量电极糊的厚度期间执行校准，并且实际测量超声波传感器组使用由校准超声波传感器组获得的测量条件值来计算电极糊的基重。