公开(公告)号：US20160121847A1

公开(公告)日：2016-05-05

申请号：US14896005

申请日：2014-05-23

Applicant: DENSO CORPORATION

Inventor： Keita SAITOU ,  Yoshihiko SHIRAISHI ,  Yoshitaro YAZAKI ,  Yasuhiro TANAKA ,  Eijirou MIYAGAWA ,  Motoki SHIMIZU ,  Toshikazu HARADA ,  Atusi SAKAIDA ,  Toshihisa TANIGUCHI ,  Norio GOUKO

IPC: B60R22/48 ,  G01K17/00 ,  G01V9/00

CPC classification number: B60R22/48 ,  B60N2/002 ,  B60R21/01512 ,  B60R2022/4808 ,  G01K17/00 ,  G01K17/20 ,  G01K2205/00 ,  G01V9/005

Abstract: A heat flux sensor is installed in such a way that heat flux emanating from a biological object present at a predetermined position is detectable. It is determined whether or not a biological object is present at the predetermined position by comparing sensing results of the heat flux sensor with determination criteria. The determination criteria is preset according to heat flux that can be sensed when a biological object is present at the predetermined position. When the sensing results of the heat flux sensor satisfy the determination criteria, in other words, when the heat flux sensed by the heat flux sensor is the heat flux emanating from a biological object, it is determined that a biological object is present at the predetermined position. Consequently, it is possible to realize accurate detection of a biological object.

Abstract translation: 热通量传感器以这样的方式安装，即可以检测出存在于预定位置处的生物物质发出的热通量。 通过将热通量传感器的感测结果与确定标准进行比较来确定生物体是否存在于预定位置。 确定标准根据当生物体存在于预定位置时可以感测到的热通量来预设。 当热通量传感器的感测结果满足确定标准时，换句话说，当由热通量传感器感测的热通量是从生物体发出的热通量时，确定生物体存在于预定的 位置。 因此，可以实现生物体的精确检测。

公开(公告)号：US20140117131A1

公开(公告)日：2014-05-01

申请号：US14064808

申请日：2013-10-28

Applicant: DENSO CORPORATION

Inventor： Norio GOUKO ,  Atusi SAKAIDA ,  Tomikazu ISHIKAWA ,  Keiji OKAMOTO ,  Yoshihiko SHIRAISHI

IPC: B02C17/08

CPC classification number: B02C17/08

Abstract: A centrifugal ball mill has a cylindrical container in which an object to be crushed and a crushing ball are contained, a revolution mechanism that revolves the container about a revolution axis, and a rotation mechanism that rotates the container about a rotation axis. Furthermore, the centrifugal ball mill has an inclination mechanism that inclines an inner periphery face relative to the rotation axis such that a position where centrifugal force acting due to revolution about the revolution axis is maximum in the inner periphery face changes in an axial direction of the container as the container rotates about the rotation axis, and such that the crushing ball moves in a circumferential direction and the axial direction of the container to describe a trajectory of a three dimensional Lissajous curve.

Abstract translation: 离心式球磨机具有圆筒形容器，其中容纳要被粉碎的物体和破碎球，围绕旋转轴线旋转容器的旋转机构，以及使容器围绕旋转轴线旋转的旋转机构。 此外，离心式球磨机具有倾斜机构，该倾斜机构使内周面相对于旋转轴线倾斜，使得在内周面上由旋转轴线旋转而产生的离心力最大的位置在轴向方向上变化 作为容器的容器围绕旋转轴线旋转，并且使得破碎球沿圆周方向和容器的轴向移动以描述三维李萨诸图曲线的轨迹。

公开(公告)号：US20190252594A1

公开(公告)日：2019-08-15

申请号：US16304707

申请日：2017-05-25

Applicant: DENSO CORPORATION

Inventor： Norio GOUKO ,  Toshihisa TANIGUCHI ,  Atusi SAKAIDA ,  Keiji OKAMOTO ,  Yoshihiko SHIRAISHI ,  Masahiro ASANO

IPC: H01L35/32 ,  H01L35/34

CPC classification number: H01L35/32 ,  H01L35/34

Abstract: With a method of manufacturing a thermoelectric conversion device, first via holes of a first insulator are filled with a first conductive paste. Third via holes of a second insulator are filled with a second conductive paste. Next, parts of the first conductive paste protruding from the first via holes of the first insulator are inserted into fourth via holes of the second insulator. Parts of the second conductive paste protruding from the third via holes of the second insulator are inserted into second via holes. Next, a rear surface protection member having rear surface wiring patterns, the second insulator, the first insulator, and a front surface protection member having front surface wiring patterns are arranged in this order to form a stacked body. Next, the stacked body is heated while being pressed in the stacking direction.

公开(公告)号：US20180328796A1

公开(公告)日：2018-11-15

申请号：US15775729

申请日：2016-11-09

Applicant: DENSO CORPORATION

Inventor： Norio GOUKO ,  Atusi SAKAIDA ,  Toshihisa TANIGUCHI ,  Keiji OKAMOTO ,  Yoshihiko SHIRAISHI

IPC: G01K17/20 ,  G01M13/00

CPC classification number: G01K17/20 ,  G01K1/16 ,  G01K3/08 ,  G01M13/04

Abstract: A diagnosis apparatus diagnoses an assembly state of an assembled component having a sliding portion. The diagnosis apparatus includes a sensor unit that detects a heat flux flowing from the sliding portion toward an outside, and a control apparatus that determines whether an assembly state of the assembled component is correct or not based on a detection result detected by the sensor unit. A magnitude of a heat flux from the sliding portion is different between when the assembly state of the assembled component having the sliding portion is correct and when it is incorrect. Hence, according to the diagnosis apparatus, it is possible to diagnose whether an assembly state of the assembled component is correct or not.

公开(公告)号：US20180299339A1

公开(公告)日：2018-10-18

申请号：US15765781

申请日：2016-10-04

Applicant: DENSO CORPORATION

Inventor： Norio GOUKO ,  Toshihisa TANIGUCHI ,  Atusi SAKAIDA ,  Keiji OKAMOTO ,  Yoshihiko SHIRAISHI

IPC: G01L11/00

Abstract: Provided is a monitoring apparatus configured to monitor the pressure state of a fluid in a target apparatus having a chamber in which at least one of compression and expansion of the fluid is performed. The monitoring apparatus includes a heat flux sensor provided for the target apparatus and configured to measure a heat flux between inside and outside of the chamber. The monitoring apparatus includes a determining unit configured to determine the pressure state of the fluid based on a measurement result of the heat flux sensor.

公开(公告)号：US20180143087A1

公开(公告)日：2018-05-24

申请号：US15571895

申请日：2016-04-20

Applicant: DENSO CORPORATION

Inventor： Norio GOUKO ,  Atusi SAKAIDA ,  Keiji OKAMOTO ,  Yoshihiko SHIRAISHI

IPC: G01K17/20 ,  G01J5/12 ,  G01J5/02 ,  G01K19/00

CPC classification number: G01K17/20 ,  G01J5/0205 ,  G01J5/12 ,  G01K17/00 ,  G01K19/00 ,  G01N25/18

Abstract: According to a manufacturing method of a heat flux sensor, the heat flux sensor is sandwiched between a heater plate and a cooling unit. The heater plate is disposed on the first surface of the heat flux sensor, and the cooling unit is disposed on the second surface of the same. A heat radiation measurement plate is disposed on a surface of the heater plate opposite to the surface on which the heat flux sensor is disposed. According to this configuration, the temperature of the heater plate is controlled in an inspection process such that the heater plate is kept at an ambient temperature. This makes it possible to stabilize the temperature of the heater plate in a short time.

公开(公告)号：US20170144574A1

公开(公告)日：2017-05-25

申请号：US15300588

申请日：2015-06-01

Applicant: DENSO CORPORATION

Inventor： Yasuhiro TANAKA ,  Atusi SAKAIDA ,  Norio GOUKO

IPC: B60N2/56

CPC classification number: B60N2/5657 ,  B60H1/22 ,  B60N2/5692 ,  F24D13/02 ,  G01K17/00 ,  H05B1/0227 ,  H05B1/0238 ,  H05B1/0288 ,  H05B3/0014 ,  H05B3/023 ,  H05B3/16 ,  H05B3/26

Abstract: A temperature adjustment control device includes a heat diffusion layer, a heat flux sensor, and a temperature changing body provided in this order from a surface making contact with a human body. The heat flux sensor is disposed on the temperature changing body and outputs a sensor signal corresponding to a heat flux. The heat diffusion layer is disposed opposite to the temperature changing body through the heat flux sensor. The heat flux sensor outputs the sensor signal corresponding to the heat flux passing through the heat flux sensor in a direction in which the heat diffusion layer, the heat flux sensor, and the temperature changing body are arranged. A control portion controls a start and a stop of the power supply to the temperature changing body based on the sensor signal outputted from the heat flux sensor.

公开(公告)号：US20160273952A1

公开(公告)日：2016-09-22

申请号：US15032535

申请日：2014-10-29

Applicant: DENSO CORPORATION

Inventor： Toshikazu HARADA ,  Atusi SAKAIDA ,  Toshihisa TANIGUCHI ,  Norio GOUKO ,  Yoshitaro YAZAKI ,  Yoshihiko SHIRAISHI ,  Yasuhiro TANAKA ,  Keita SAITOU

IPC: G01F23/22

CPC classification number: G01F23/22

Abstract: A liquid level detector includes: a detecting element having one surface and the other surface opposite to the one surface, the one surface being opposed to a liquid, while being parallel to a height direction of liquid level; a Peltier element provided on the other surface side of the detecting element; and a control unit performing a detection processing for a liquid level of the liquid. The Peltier element forms a heat flow passing through the detecting element from the other surface to the one surface, toward the liquid or a gas. The control unit calculates a liquid level on the basis of an output value of an electrical signal outputted according to the heat flow passing through the detecting element, and a relationship between an output value of the detecting element and a liquid level.

Abstract translation: 液位检测器包括：检测元件，其具有一个表面，而另一个表面与所述一个表面相对，所述一个表面与液体相对，同时平行于液面的高度方向; 设置在所述检测元件的另一表面侧的珀耳帖元件; 以及对液体的液面进行检测处理的控制单元。 帕尔贴元件形成从另一表面到检测元件的一个表面朝向液体或气体的热流。 控制单元基于根据通过检测元件的热流输出的电信号的输出值，以及检测元件的输出值与液面之间的关系来计算液位。

公开(公告)号：US20160268493A1

公开(公告)日：2016-09-15

申请号：US15031559

申请日：2014-10-01

Applicant: DENSO CORPORATION

Inventor： Norio GOUKO ,  Atusi SAKAIDA ,  Toshihisa TANIGUCHI ,  Yoshihiko SHIRAISHI ,  Keiji OKAMOTO

IPC: H01L35/34 ,  H01L35/04

CPC classification number: H01L35/34 ,  H01L21/02491 ,  H01L21/02502 ,  H01L21/486 ,  H01L35/04 ,  H01L35/16 ,  H01L35/32

Abstract: An insulating substrate 10 to which intermediate portions 40c, 50c or conductive pastes 41, 51 constituting the intermediate portions are disposed, a front surface protective member 20 to which front surface patterns 21 are formed, and a back surface protective member 30 to which back surface patterns 31 are formed are prepared. A laminated body 90, to which first end portions 40a, 50a or conductive pastes 41, 51 constituting the first end portions 40a, 50a are disposed between the intermediate portions 40c, 50c or the conductive pastes 41, 51 constituting the intermediate portions 40c, 50c and the front surface patterns 21, and second end portions 40b, 50b or conductive pastes 41, 51 constituting the second end portions 40b, 50b are disposed between the intermediate portions 40c, 50c or the conductive pastes 41, 51 constituting the intermediate portions 40c, 50c and the back surface patterns 31, is constituted. Then, thermoelectric conversion elements 40, 50 are formed by integrating the laminated body 90.

Abstract translation: 设置有构成中间部的中间部40c，50c或导电糊41,41的绝缘基板10，形成有前面图案21的正面保护部件20和背面保护部件30， 形成图案31。 构成中间部40c，50c的中间部40c，50c或构成中间部40c，50c的导电膏41,41之间的构成第一端部40a，50a的第一端部40a，50a或导电膏体41,51的层叠体90c 并且构成第二端部40b，50b的前表面图案21和第二端部40b，50b或导电膏41,41设置在中间部分40c，50c或构成中间部分40c的导电膏体41,41之间， 50c和背面图案31构成。 然后，通过集成层压体90形成热电转换元件40,50。

公开(公告)号：US20160254697A1

公开(公告)日：2016-09-01

申请号：US15033032

申请日：2014-10-29

Applicant: DENSO CORPORATION

Inventor： Yasuhiro TANAKA ,  Atusi SAKAIDA ,  Toshihisa TANIGUCHI ,  Norio GOUKO ,  Yoshitaro YAZAKI ,  Yoshihiko SHIRAISHI ,  Toshikazu HARADA ,  Keita SAITOU

IPC: H02J7/02 ,  B60L11/18 ,  B60L5/00

CPC classification number: H02J7/027 ,  B60L3/04 ,  B60L5/005 ,  B60L11/182 ,  B60L11/1846 ,  B60L11/1848 ,  B60L2230/16 ,  B60L2240/36 ,  B60L2250/10 ,  B60L2270/147 ,  B60M1/04 ,  B60M7/00 ,  G01V3/10 ,  H02J5/005 ,  H02J7/025 ,  H02J50/10 ,  H02J50/40 ,  H02J50/60 ,  H02J50/70 ,  H02J50/80 ,  Y02T10/7005 ,  Y02T10/7088 ,  Y02T90/121 ,  Y02T90/122 ,  Y02T90/128 ,  Y02T90/14 ,  Y02T90/163 ,  Y02T90/169 ,  Y04S30/14

Abstract: A non-contact power supply control system includes: an electric transmission pad connected to a power source unit; a control unit controlling current supply to the electric transmission pad; a living body detecting means detecting a living body present around the electric transmission pad; a power receiving pad magnetically coupled to the electric transmission pad to excite power, when current is supplied from the power source unit to the electric transmission pad; and a power storage unit storing power excited by the power receiving pad. The living body detecting means are arranged on the road surface side, and the control unit, when determining that no living body is present around the electric transmission pad on the basis of a result from the living body detecting means, controls the power supply unit to supply power to the power storage unit.

Abstract translation: 非接触电源控制系统包括：连接到电源单元的电传输焊盘; 控制单元，控制对所述电传输垫的电流供应; 生物体检测装置，检测存在于所述电传输垫周围的生物体; 当电流从电源单元供应到电传输垫片时，电力接收垫与电传输垫片磁耦合以激发功率; 以及存储由所述受电垫激发的功率的蓄电单元。 生物体检测单元配置在路面侧，控制单元根据生物体检测单元的结果确定在电传输垫周围没有生物体存在时，将供电单元控制为 向蓄电单元供电。