公开(公告)号：US20160039265A1

公开(公告)日：2016-02-11

申请号：US14778637

申请日：2014-01-23

Applicant: DENSO CORPORATION

Inventor： Koji OTA ,  Takuya KATAOKA ,  Manabu MAEDA ,  Asami OKAMOTO ,  Yasuhiro SAGOU ,  Keita SAITOU ,  Yoshihiko SHIRAISHI ,  Toshihisa TANIGUCHI

IPC: B60H1/00 ,  B60H1/22

CPC classification number: B60H1/00742 ,  B60H1/00878 ,  B60H1/2215 ,  B60H1/2218 ,  F24C7/04 ,  F24H3/002 ,  F24H2250/02 ,  H05B3/12 ,  H05B3/267 ,  H05B2203/012 ,  H05B2203/032

Abstract: A heater apparatus includes a main body, a detecting unit, and a control part. The main body has a power supply part to which electric power is supplied and a heating portion connected to the power supply part to generate heat by electric power supplied from the power supply part. The detecting unit detects an object around the main body. The control part controls supply amount of the electric power to the power supply part. The control part controls the supply amount of electric power to the power supply part to be reduced compared with a normal state when the detecting unit detects that the object is within a predetermined range of the main body.

Abstract translation: 加热器装置包括主体，检测单元和控制部。 主体具有供电部分，供电部分和连接到电源部分的加热部分通过从电源部分提供的电力产生热量。 检测单元检测主体周围的物体。 控制部控制供电部的电力供给量。 当检测单元检测到物体在主体的预定范围内时，控制部分控制与正常状态相比降低的供电部分的电力供应量。

公开(公告)号：US20170012196A1

公开(公告)日：2017-01-12

申请号：US15272713

申请日：2016-09-22

Applicant: DENSO CORPORATION

Inventor： Eijirou MIYAGAWA ,  Keita SAITOU ,  Yoshihiko SHIRAISHI ,  Yoshitaro YAZAKI ,  Toshihisa TANIGUCHI ,  Atusi SAKAIDA

IPC: H01L35/32 ,  H01L35/34

CPC classification number: H01L35/32 ,  H01L35/08 ,  H01L35/34

Abstract: An insulating substrate is prepared. In this substrate, plural via holes penetrating in a thickness direction are filled with a conductive paste. This paste is produced by adding an organic solvent to a powder of an alloy, and by processing the power of the alloy to a paste. The substrate is then pressed from a front surface and a back surface of the substrate, while being heated. The conductive paste is solid-phase sintered and interlayer connecting members are formed. A front surface protective member is disposed on a front surface of the substrate and a back surface protective member is disposed on a back surface of the substrate and a laminate is formed. The laminate is integrated by a lower pressure being applied while heating at a lower temperature, compared to the temperature and pressure in the process of forming the interlayer connecting members.

Abstract translation: 制备绝缘基板。 在该基板中，在导电性糊料中填充有沿厚度方向贯通的多个通孔。 通过向合金粉末中加入有机溶剂，并通过将合金的功率加工成糊料来制造该糊料。 然后在被加热的同时从衬底的前表面和后表面压制衬底。 导电膏是固相烧结的，层间连接件形成。 前表面保护部件设置在基板的前表面上，背面保护部件设置在基板的背面，形成有层叠体。 与在形成层间连接构件的过程中的温度和压力相比，在较低温度下加热时施加较低压力的层压体。

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：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。

公开(公告)号：US20160129817A1

公开(公告)日：2016-05-12

申请号：US14896014

申请日：2014-05-16

Applicant: DENSO CORPORATION

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

IPC: B60N2/56 ,  A47C7/74

CPC classification number: B60N2/5678 ,  A47C7/748 ,  B60H1/00742 ,  B60H1/2227 ,  B60N2/5642 ,  B60N2/5685 ,  G01K17/20

Abstract: A comfortable temperature control apparatus for a vehicle includes a temperature-change element that changes a temperature by being energized; a heat flux sensor outputting a sensor signal corresponding to a heat flux; a heat diffusion layer disposed on the heat flux sensor; and a control unit that energizes the temperature-change element so as to adjust its temperature. In a seat provided in the vehicle cabin, a cover surface side contacting a passenger, the heat diffusion layer, the heat flux sensor and the temperature-change element are arranged in this order. The heat flux sensor outputs the sensor signal to the control unit, the sensor signal corresponding to the heat flux between the cover surface and the temperature-change element. The control unit adjusts an energization of the temperature-change element, based on the sensor signal, such that the heat flux between the cover surface and the temperature-change element is a predetermined value.

Abstract translation: 一种舒适的用于车辆的温度控制装置包括通过通电来改变温度的温度变化元件; 输出对应于热通量的传感器信号的热通量传感器; 设置在热通量传感器上的热扩散层; 以及控制单元，其使温度变化元件通电以调节其温度。 在车厢中设置的座椅中，依次配置与乘客接触的盖面侧，热扩散层，热通量传感器和温度变化元件。 热通量传感器将传感器信号输出到控制单元，传感器信号对应于盖表面和温度变化元件之间的热通量。 控制单元基于传感器信号调节温度变化元件的通电，使得盖表面和温度变化元件之间的热通量为预定值。

公开(公告)号：US20160125671A1

公开(公告)日：2016-05-05

申请号：US14895860

申请日：2014-05-01

Applicant: DENSO CORPORATION

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

IPC: G07C5/08 ,  G01K1/08 ,  G01K17/08

CPC classification number: G07C5/08 ,  B60R16/023 ,  G01K1/08 ,  G01K17/00 ,  G01K17/08

Abstract: There is provided a heat flux sensor with first and second interlayer connection members composed of different metals from each other of which metal atoms maintain a predetermined crystal structure embedded in first and second via holes of a thermoplastic resin made insulating substrate, the first and the second interlayer connection members are connected in series alternately, and a control unit that performs abnormality determination of a heating element disposed in a vehicle. The heat flux sensor is provided to the heating element and outputs a sensor signal corresponding to heat flux between the heating element and an outside air, and the control unit determines based on the sensor signal that there is abnormality in the heating element when the heat flux between the heating element and the outside air is out of a predetermined range.

Abstract translation: 提供了一种热通量传感器，其具有第一和第二层间连接构件，第一和第二层间连接构件由彼此不同的金属组成，其中金属原子保持预定的晶体结构嵌入在热塑性树脂制成的绝缘基板的第一和第二通孔中，第一和第二 层间连接构件交替地串联，并且控制单元执行设置在车辆中的加热元件的异常确定。 将热通量传感器提供给加热元件，并输出对应于加热元件和外部空气之间的热通量的传感器信号，并且控制单元基于传感器信号确定当加热元件中的热通量 在加热元件和外部空气之间的距离超出预定范围。

公开(公告)号：US20160109286A1

公开(公告)日：2016-04-21

申请号：US14895396

申请日：2014-05-14

Applicant: DENSO CORPORATION

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

IPC: G01H17/00 ,  G01K17/00

CPC classification number: G01H17/00 ,  G01H1/00 ,  G01K17/00 ,  H01L35/08 ,  H01L35/32 ,  H01L35/34

Abstract: A vibration detector has a structure including a heat generation member which generates heat when subjected to at least one of deformation and friction by external vibration and a detection element for detecting a heat flux from the heat generation member, and configured to detect data regarding vibration based on a detection result of the detection element. The detection element has a structure in which an insulation base material made of thermoplastic resin is formed with first and second via holes penetrating therethrough in a thickness direction, first and second inter-layer connection members formed of different metals are embedded in the first and second via holes, and the first and second inter-layer connection members are connected in series alternately, the metals forming the first and second inter-layer connection members being sintered alloys sintered in a state in which metal atoms maintain a crystal structure thereof.

Abstract translation: 振动检测器具有如下结构，该结构包括当受到外部振动的变形和摩擦中的至少一种而产生热量的发热件时，以及用于检测来自发热件的热通量的检测元件， 根据检测元件的检测结果。 检测元件具有这样的结构，其中由热塑性树脂制成的绝缘基底材料形成有沿着厚度方向穿过其中的第一和第二通孔，由不同金属形成的第一和第二层间连接构件嵌入在第一和第二 通孔，并且第一和第二层间连接构件交替地串联，形成第一和第二层间连接构件的金属是在金属原子维持其晶体结构的状态下烧结的烧结合金。

公开(公告)号：US20150372215A1

公开(公告)日：2015-12-24

申请号：US14763147

申请日：2014-01-23

Applicant: DENSO CORPORATION

Inventor： Eijirou MIYAGAWA ,  Keita SAITOU ,  Yoshihiko SHIRAISHI ,  Yoshitaro YAZAKI ,  Toshihisa TANIGUCHI ,  Atusi SAKAIDA

IPC: H01L35/32 ,  H01L35/34

CPC classification number: H01L35/32 ,  H01L35/08 ,  H01L35/34

Abstract: An insulating substrate is prepared. In this substrate, plural via holes penetrating in a thickness direction are filled with a conductive paste. This paste is produced by adding an organic solvent to a powder of an, and by processing the power of the alloy to a paste. The substrate is then pressed from a front surface and a back surface of the substrate, while being heated. The conductive paste is solid-phase sintered and interlayer connecting members are formed. A front surface protective member is disposed on a front surface of the substrate and a back surface protective member is disposed on a back surface of the substrate, and a laminate is formed. The laminate is integrated by a lower pressure being applied while heating at a lower temperature, compared to the temperature and pressure in the process of forming the interlayer connecting members.

Abstract translation: 制备绝缘基板。 在该基板中，在导电性糊料中填充有沿厚度方向贯通的多个通孔。 通过将有机溶剂加入到粉末中并通过将合金的功率加工成糊料来生产该糊料。 然后在被加热的同时从衬底的前表面和后表面压制衬底。 导电膏是固相烧结的，层间连接件形成。 前表面保护部件设置在基板的前表面上，背面保护部件设置在基板的背面，形成有层压体。 与在形成层间连接构件的过程中的温度和压力相比，在较低温度下加热时施加较低压力的层压体。

公开(公告)号：US20180313725A1

公开(公告)日：2018-11-01

申请号：US15765065

申请日：2016-09-16

Applicant: DENSO CORPORATION

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

IPC: G01M99/00

CPC classification number: G01M13/00 ,  G01M5/0033 ,  G01M5/0041 ,  G05B23/02

Abstract: An abnormality diagnostic apparatus includes: a heat flux sensor that detects heat flux generated by a measurement target continuously from the start of operation of the measurement target or at predetermined time intervals; and a control device that determines whether there is an abnormality based on the result of the detection by the heat flux sensor. In the event of an abnormality in a facility, heat flux generated from the facility by at least one of current, voltage, sound, vibration, and friction changes. Therefore, the use of the heat flux sensor makes it possible to determine the presence or absence of an abnormality in the measurement target without using a plurality of kinds of sensors to measure current, voltage, sound, vibration, and friction.

公开(公告)号：US20180231420A1

公开(公告)日：2018-08-16

申请号：US15749794

申请日：2016-07-05

Applicant: DENSO CORPORATION

Inventor： Keita SAITOU ,  Atusi SAKAIDA ,  Toshikazu HARADA ,  Hirohito MATSUI ,  Yukikatsu OZAKI

IPC: G01J5/12 ,  G01J5/08 ,  G01J5/04 ,  H01L35/32

CPC classification number: G01J5/12 ,  G01J1/02 ,  G01J5/02 ,  G01J5/046 ,  G01J5/0809 ,  G01J2005/123 ,  H01L35/32 ,  H01L35/34

Abstract: In a radiant heat sensor, first and second thermoelectric members are alternately arrayed one by one in a direction along a first surface of a plate-shaped member so as to be separated from each other, and each of the first and second thermoelectric members configure a portion of the first surface. First conductor patterns extend the first surface, disposed on the first surface so as to span a single first thermoelectric member and a single second thermoelectric member that are adjacent to each other, and configure hot contact portions between the first and second thermoelectric members. Second conductor patterns extend along the first surface, disposed on the first surface so as to span a single first thermoelectric member and a single second thermoelectric member that are adjacent to each other, and configure cold contact portions between the first and second thermoelectric members.