公开(公告)号：US20120018206A1

公开(公告)日：2012-01-26

申请号：US13260149

申请日：2010-03-30

Applicant: Hidenori Suenaga ,  Yoshihiro Takeda ,  Miyuki Ujiie ,  Katsunori Nogami ,  Toshiyuki Murakami ,  Hitoshi Aita

Inventor： Hidenori Suenaga ,  Yoshihiro Takeda ,  Miyuki Ujiie ,  Katsunori Nogami ,  Toshiyuki Murakami ,  Hitoshi Aita

IPC: H05K1/18 ,  H01G9/04

CPC classification number: H01G9/15 ,  H01G9/012 ,  H01G9/04

Abstract: There is provided a capacitor that has excellent transient response characteristics, can be used as a distributed constant type noise filter, and can be used as a composite component having two functions of a capacitor and a distributed constant type noise filter through further reduction of an ESL of a solid electrolytic capacitor with a solid electrolytic capacitor of which capacitance is easily increased.There are prepared two capacitor element pieces 121 where both ends of an anode body of each of the capacitor element pieces form anode lead-out portions 122 and 122 and both surfaces of a middle portion of the anode body form cathode lead-out portions 123. The two capacitor element pieces 121 and 121 are stacked so that the cathode lead-out portions 123 and 123 overlap with each other and the anode lead-out portions 122 and 122 are substantially orthogonal to each other. Accordingly, a capacitor element 120 is formed. As a mounting board 141, there is prepared a mounting board 141 that includes conductors 144 and 145 and anode terminal portions 142 and a cathode terminal portion 143. The conductors 144 and 145 correspond to anode lead-out portions 122 and 122 and a cathode lead-out portion 123 of the capacitor element, and are formed on an element mounting surface of the mounting board. The anode terminal portions 142 and the cathode terminal portion 143 are formed on a mounting surface of the mounting board. The conductors 144 and 145 are connected to the anode terminal portions 142 and the cathode terminal portion 143. The capacitor element 120 is mounted on the mounting board 141, so that a solid electrolytic capacitor is formed.

Abstract translation: 提供了具有优异的瞬态响应特性的电容器，可以用作分布常数型噪声滤波器，并且可以通过进一步减少ESL而用作具有电容器和分布常数型噪声滤波器的两个功能的复合元件 的固体电解电容器，其具有电容容易增加的固体电解电容器。 准备两个电容器元件片121，其中每个电容器元件片的阳极体的两端形成阳极引出部分122和122，并且阳极体的中间部分的两个表面形成阴极引出部分123。 两个电容器元件片121和121被堆叠，使得阴极引出部分123和123彼此重叠，并且阳极引出部分122和122基本上彼此正交。 因此，形成电容器元件120。 作为安装板141，准备了包括导体144和145以及阳极端子部分142和阴极端子部分143的安装板141.导体144和145对应于阳极引出部分122和122以及阴极引线 并且形成在安装基板的元件安装面上。 阳极端子部分142和阴极端子部分143形成在安装板的安装表面上。 导体144和145连接到阳极端子部分142和阴极端子部分143.电容器元件120安装在安装板141上，从而形成固体电解电容器。

公开(公告)号：US09493817B2

公开(公告)日：2016-11-15

申请号：US11713749

申请日：2007-03-05

Applicant: Yoshihiro Takeda ,  Fumitaka Mafune ,  Tamotsu Kondou

Inventor： Yoshihiro Takeda ,  Fumitaka Mafune ,  Tamotsu Kondou

IPC: C12Q1/68 ,  G01N33/543

CPC classification number: C12Q1/6813 ,  C12Q1/68 ,  G01N33/54346 ,  Y10S977/773

Abstract: A method for decomposing a target nucleic acid polymer, comprising: bonding a probe nucleic acid polymer and a microparticle to form a probe nucleic acid polymer-bonded microparticle, adding a target nucleic acid polymer to the probe nucleic acid polymer contained within the probe nucleic acid polymer-bonded microparticle to form an addition microparticle, and energizing the microparticle contained within the addition microparticle into a high-energy state and then using energy transfer from this high-energy state microparticle to decompose the target nucleic acid polymer.

Abstract translation: 一种分解靶核酸聚合物的方法，包括：将探针核酸聚合物和微粒结合以形成探针核酸聚合物键合的微粒，将靶核酸聚合物加入探针核酸中所含的探针核酸聚合物 聚合物键合微粒以形成加成微粒，并使加成微粒中所含的微粒激发成高能态，然后使用从该高能态微粒的能量转移分解靶核酸聚合物。

公开(公告)号：US09326750B2

公开(公告)日：2016-05-03

申请号：US13843654

申请日：2013-03-15

Applicant: Yoshihiro Takeda ,  Daisuke Kaji

Inventor： Yoshihiro Takeda ,  Daisuke Kaji

IPC: A61B8/00 ,  A61B8/08

CPC classification number: A61B8/0841 ,  A61B8/4405 ,  A61B8/4444

Abstract: Disclosed is an ultrasound diagnostic imaging apparatus including an ultrasound probe which outputs a transmission ultrasound toward a subject and a received signal obtained by receiving a reflected ultrasound from the subject, a transmission unit, a receiving unit and a puncture needle position detection unit which obtains a puncture needle echo information indicating an angle and a position of the puncture needle from the plane-wave received signal, and an ultrasound image is displayed on the basis of the received signal, the transmission unit applies the driving signal to the ultrasound probe so that a plane-wave transmission ultrasound is output from the ultrasound probe, and the receiving unit receives a plane-wave received signal which is obtained in such a way that the plane-wave transmission ultrasound is transmitted from the ultrasound probe, reflected by a puncture needle to be the reflected ultrasound and received by the ultrasound probe.

Abstract translation: 本发明公开了一种超声波诊断摄像装置，其包括向对象输出发送超声波的超声波探头和从对象接收反射超声波而获得的接收信号，发送部，接收部以及穿刺针位置检测部， 穿刺针回波信息，其指示穿刺针的平面波接收信号的角度和位置，并且基于接收信号显示超声波图像，发送单元将驱动信号施加到超声波探头，使得 从超声波探头输出平面波传输超声波，接收单元接收平面波接收信号，该平面波接收信号以从超声波探头发射的平面波传输超声波被穿刺针反射的方式获得， 作为反射超声波并由超声波探头接收。

公开(公告)号：US08873715B2

公开(公告)日：2014-10-28

申请号：US13194355

申请日：2011-07-29

Applicant: Kiyoshi Ogata ,  Yoshihiro Takeda ,  Tetsuo Kani ,  Makoto Kanbe ,  Naohisa Osaka ,  Takahisa Sato

Inventor： Kiyoshi Ogata ,  Yoshihiro Takeda ,  Tetsuo Kani ,  Makoto Kanbe ,  Naohisa Osaka ,  Takahisa Sato

IPC: G21G4/08 ,  G21G4/04 ,  H01J35/06 ,  H01J35/16

CPC classification number: H01J35/16 ,  H01J35/065 ,  H01J2235/062 ,  H01J2235/16

Abstract: An industrial X-ray tube formed by accommodating a cathode and anode in a container having an evacuated interior, in which electrons emitted from the cathode are caused to strike the anode and X-rays are emitted from the anode. The cathode is formed from graphite. The graphite is a layered crystal obtained by layering a plurality of carbon hexagonal planes. The graphite is cut based on crystal axes of the carbon hexagonal planes. The resulting cut surface is caused to function as an electron-emitting surface. For example, directions of an a- and b-crystal axis may be set so as to be arbitrary between each of the layers of the carbon hexagonal planes, the graphite may be cut along a surface parallel to the c-axis, and the resulting cut surface may be caused to function as an electron-emitting surface. The graphite may also be cut along a surface orthogonal to the c-axis.

Abstract translation: 通过将阴极和阳极容纳在具有抽空的内部的容器中形成的工业X射线管，其中从阴极发射的电子被引向阳极，并且从阳极发射X射线。 阴极由石墨形成。 石墨是通过层叠多个碳六角形平面而获得的层状晶体。 基于碳六角形平面的晶轴切割石墨。 使得到的切割表面用作电子发射表面。 例如，可以将a晶体轴和b晶轴的方向设定为在碳六角形平面的各层之间是任意的，可以沿着与c轴平行的表面切割石墨，并且由此产生 可能导致切割表面起电子发射表面的作用。 也可以沿着与c轴正交的表面切割石墨。

公开(公告)号：US20100254512A1

公开(公告)日：2010-10-07

申请号：US12745833

申请日：2008-11-19

Applicant: Yoshihiro Takeda

Inventor： Yoshihiro Takeda

IPC: G01N23/04 ,  G09G5/00 ,  G06K9/00

CPC classification number: A61B6/00 ,  A61B6/0478 ,  A61B6/4233 ,  A61B6/466 ,  A61B6/469 ,  A61B6/484 ,  A61B6/488 ,  A61B6/503 ,  A61B6/504 ,  A61B6/507 ,  A61B6/541 ,  A61B6/588 ,  G06T7/0012 ,  G06T7/246 ,  G06T7/66 ,  G06T2207/10116 ,  G06T2207/30048

Abstract: A dynamic radiographing system enables determination of an evaluation value of the heart function of a subject by plain radiography. The dynamic radiographing system comprises a radiographing apparatus, an image processing apparatus, and a console for diagnosis. The radiographing apparatus dynamically radiographs the heart of a subject and creates radiographs in plural time phases (Step S1). The image processing apparatus calculates an evaluation value of the heart function by using the radiographs in plural time phases (Step S4). The console for diagnosis displays information on the calculated evaluation value on the display section (Step S5).

Abstract translation: 动态放射照相系统能够通过平片摄影确定被检体的心脏功能的评价值。 动态摄影系统包括放射照相设备，图像处理设备和用于诊断的控制台。 射线照相装置动态地对被检体的心脏进行成像，并且在多个时间段中生成X射线照片（步骤S1）。 图像处理装置通过使用多个时间相的X射线照片来计算心脏功能的评价值（步骤S4）。 用于诊断的控制台在显示部分显示关于计算出的评估值的信息（步骤S5）。

公开(公告)号：US06474214B2

公开(公告)日：2002-11-05

申请号：US09809194

申请日：2001-03-16

Applicant: Kiyoshi Takeuchi ,  Yoshihiro Takeda ,  Mitsunori Magaribuchi

Inventor： Kiyoshi Takeuchi ,  Yoshihiro Takeda ,  Mitsunori Magaribuchi

IPC: F01B3114

CPC classification number: F15B15/068 ,  F01B3/0079

Abstract: A three-position stop type swing actuator has a main piston freely moving in forward and backward directions in an axial direction within a casing, an output shaft placed at a coaxial position with the main piston in such a manner as to be fixed in an axial direction and freely rotate around an axis, a conversion and transmission mechanism converting a forward and backward motion of the main piston into a rotating and swinging motion of the output shaft, and a sub piston having a stroke smaller than that of the main piston a fluid pressure operating force larger than that of the main piston and arranged within the casing in such a manner as to freely move in the forward and backward directions and be capable of being brought into contact with the main piston so as to restrict a middle stop position of the main piston.

Abstract translation: 三位置止动式摆动致动器具有在壳体内沿轴向自由移动的主活塞，输出轴以与主活塞同轴的方式以轴向方式固定 方向并且绕轴线自由旋转，转换和传动机构将主活塞的向前和向后运动转换成输出轴的旋转和摆动运动，以及具有小于主活塞的行程的次活塞的副活塞 压力作用力大于主活塞的压力作用力，并且以能够沿前后方向自由移动的方式配置在壳体内，能够与主活塞接触，以限制主活塞的中间停止位置 主活塞。

公开(公告)号：US08699663B2

公开(公告)日：2014-04-15

申请号：US13233739

申请日：2011-09-15

Applicant: Kazuhiko Omote ,  Makoto Kambe ,  Yoshihiro Takeda

Inventor： Kazuhiko Omote ,  Makoto Kambe ,  Yoshihiro Takeda

IPC: G01N23/20

CPC classification number: G03B42/02 ,  A61B6/4035 ,  A61B6/484 ,  A61B6/588 ,  A61B6/589

Abstract: There is provided an X-ray image photographing method and an X-ray image photographing apparatus capable of photographing a high resolution phase contrast image and a high resolution absorption contrast image in a short time according to the purpose only by finely adjusting the distance between a specimen and a detector with respect to an X-ray source. The X-ray image photographing method enables photographing of a fine structure with a high space resolution while d/L is sufficiently smaller than 1, when L is a distance from an X-ray source 110 to a specimen 500 and d is a distance from the specimen 500 to a detector 130. Further, a distance between a peak position and a valley position of a phase contrast is not less than ⅓Δ and not more than 3Δ, when λ is an average wavelength of the X-ray and Δ is a resolution of the detector 130.

Abstract translation: 本发明提供了一种能够根据目的在短时间内拍摄高分辨率相位差图像和高分辨率吸收对比图像的X射线图像拍摄方法和X射线图像拍摄装置，仅通过精细地调整 样品和检测器相对于X射线源。 当L是从X射线源110到样本500的距离时，X射线图像拍摄方法能够以d / L足够小于1的方式拍摄具有高空间分辨率的精细结构，并且d是距离 样本500到检测器130.此外，相位对比度的峰值位置和谷谷位置之间的距离不小于1/3和Dgr; 并且不大于3＆Dgr;当λ是X射线和＆Dgr的平均波长时; 是检测器130的分辨率。

公开(公告)号：US08675817B2

公开(公告)日：2014-03-18

申请号：US13194430

申请日：2011-07-29

Applicant: Kiyoshi Ogata ,  Tetsuo Kani ,  Makoto Kanbe ,  Yoshihiro Takeda ,  Takahisa Sato

Inventor： Kiyoshi Ogata ,  Tetsuo Kani ,  Makoto Kanbe ,  Yoshihiro Takeda ,  Takahisa Sato

IPC: H05G1/10

CPC classification number: H01J35/16 ,  H01J35/045 ,  H01J2235/1216 ,  H01J2235/1291 ,  H01J2235/166 ,  H05G1/06 ,  H05G1/10

Abstract: An X-ray generator includes a booster circuit formed by sequentially connecting a plurality of boosting steps extending from a low-voltage terminal to a high-voltage terminal of its own.The booster circuit is arranged in a lateral region of the X-ray tube so as to make the low-voltage terminal of its own correspond to the anode of the X-ray tube and the high-voltage terminal of its own correspond to the cathode of the X-ray tube. A lead wire extending from the cathode to the outside of the X-ray tube is connected to the high-voltage terminal of the booster circuit. A molded member containing insulating resin is formed to shield at least a cathode side end part of the X-ray tube, the lead wire outwardly extending from the cathode side end part and a high-voltage terminal side end part of the booster circuit.

Abstract translation: X射线发生器包括通过将从低压端子延伸到多个升压步骤顺序地连接到本身的高压端子而形成的升压电路。 升压电路配置在X射线管的横向区域，以使其本身的低压端子对应于X射线管的阳极，并且其本身的高电压端子对应于阴极 的X射线管。 从X射线管的阴极延伸到外部的引线与升压电路的高压端子连接。 形成包含绝缘树脂的模制件，用于屏蔽X射线管的至少阴极侧端部，引线从升压电路的阴极侧端部和高压端子侧端部向外延伸。

公开(公告)号：US08315354B2

公开(公告)日：2012-11-20

申请号：US12745833

申请日：2008-11-19

Applicant: Yoshihiro Takeda

Inventor： Yoshihiro Takeda

IPC: G01N23/04 ,  G06K9/00

CPC classification number: A61B6/00 ,  A61B6/0478 ,  A61B6/4233 ,  A61B6/466 ,  A61B6/469 ,  A61B6/484 ,  A61B6/488 ,  A61B6/503 ,  A61B6/504 ,  A61B6/507 ,  A61B6/541 ,  A61B6/588 ,  G06T7/0012 ,  G06T7/246 ,  G06T7/66 ,  G06T2207/10116 ,  G06T2207/30048

Abstract: A dynamic radiographing system enables determination of an evaluation value of the heart function of a subject by plain radiography. The dynamic radiographing system comprises a radiographing apparatus, an image processing apparatus, and a console for diagnosis. The radiographing apparatus dynamically radiographs the heart of a subject and creates radiographs in plural time phases (Step S1). The image processing apparatus calculates an evaluation value of the heart function by using the radiographs in plural time phases (Step S4). The console for diagnosis displays information on the calculated evaluation value on the display section (Step S5).

Abstract translation: 动态放射照相系统能够通过平片摄影确定被检体的心脏功能的评价值。 动态摄影系统包括放射照相设备，图像处理设备和用于诊断的控制台。 射线照相装置动态地对被检体的心脏进行成像，并且在多个时间段中生成X射线照片（步骤S1）。 图像处理装置通过使用多个时间相的X射线照片来计算心脏功能的评价值（步骤S4）。 用于诊断的控制台在显示部分显示关于计算出的评估值的信息（步骤S5）。

公开(公告)号：US20120135439A1

公开(公告)日：2012-05-31

申请号：US13386207

申请日：2010-07-30

Applicant: Yoshihiro Takeda ,  Fumitaka Mafune ,  Tamotsu Kondow ,  Kazuko Kondow

Inventor： Yoshihiro Takeda ,  Fumitaka Mafune ,  Tamotsu Kondow ,  Kazuko Kondow

IPC: C12Q1/34 ,  C12N9/36

CPC classification number: C30B7/00 ,  C07K1/306 ,  C30B29/58

Abstract: A method for producing an accumulated product of a nano-substance that enables the accumulated product of the nano-substance to be produced at low cost, by a simple process that requires few conditions to be controlled and requires minimal energy, and with good reproducibility. Specifically, a method for producing an accumulated product of a nano-substance, the method including crystallizing a protein in a state where the protein and the nano-substance co-exist within a solvent, thereby accumulating the nano-substance within pores of the protein crystals to obtain the accumulated product of the nano-substance.

Abstract translation: 通过需要很少的条件控制并且需要最少的能量并且具有良好的再现性的简单的工艺，制造能够以低成本制造纳米物质的累积产物的纳米物质的积累产物的方法。 具体而言，涉及一种纳米物质的积存物的制造方法，其特征在于，使蛋白质和纳米物质在溶剂中共存的状态下使蛋白质结晶化，从而将纳米物质积聚在蛋白质的孔内 晶体获得纳米物质的积累产物。