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1. 发明公开

EP3392596A1 HEAT EXCHANGER CORE AND HEAT EXCHANGER HAVING SAME 有权
公开(公告)号：EP3392596A1
公开(公告)日：2018-10-24
申请号：EP16874771.5
申请日：2016-12-06
申请人： Sanhua (Hangzhou) Micro Channel Heat Exchanger Co., Ltd.
发明人： LIANG, Xin , GAO, Qiang
IPC分类号： F28F1/32 , F28F13/00
CPC分类号： F28F1/32 , F28F13/00
摘要： Disclosed are a heat exchanger core (1) and a heat exchanger having same. The heat exchanger core (1) comprises: a plurality of flat tubes (10), and a plurality of fins (20), wherein the plurality of fins (20) are respectively provided between the adjacent flat tubes (10). The fins (20) comprise a plurality of fin units (100) arranged along the lengthwise direction of the flat tubes (10), each fin unit (100) has a windward end part (110) and a leeward end part (120) opposite the windward end part (110) in the width direction of the flat tubes (10), and at least one of the windward end part (110) and the leeward end part (120) of each fin unit (100) extends beyond the flat tubes (10) in the width direction of the flat tubes (10), and at least one end part is provided with at least one of a protrusion (130) and a water drainage hole (140). The heat exchanger core and the heat exchanger having same have the advantages of a long frost period and a high energy efficiency ratio.

2. 发明授权

EP3190371B1 Heat exchanger for power-electrionic compenents 有权
公开(公告)号：EP3190371B1
公开(公告)日：2018-08-01
申请号：EP16150431.1
申请日：2016-01-07
申请人： ABB Schweiz AG
发明人： Torresin, Daniele , Agostini, Bruno , Agostini, Francesco , Gradinger, Thomas , Habert, Mathieu
IPC分类号： F28D15/02 , F28F13/00 , F28F1/02 , H05K7/20
CPC分类号： H05K7/20309 , F28D15/0233 , F28D15/0266 , F28D15/0275 , F28F1/022 , F28F13/00 , F28F2270/00 , F28F2275/02 , H05K7/20318 , H05K7/20327 , H05K7/20336 , H05K7/20936
摘要： It is proposed a two-phase heat exchanger device (100) for a power-electronic module arrangement having a semiconductor module. The two-phase heat exchanger device includes a base plate (110) configured for being in contact with a first semiconductor module (201) at a first side (123) of the base plate; and at least one tube element (120) for a first cooling medium (131) including a first portion (121) having at least one evaporator channel and a second portion (122) having at least one condenser channel. The base plate has a groove (111; 112) containing the tube element, wherein the groove is dimensioned for enabling thermal contact between the base plate and the first portion of the tube element and dimensioned to form a gap (113) between the base plate and the second portion of the tube element for thermal separation of the base plate and the second portion of the tube element.

3. 发明公开

EP2667141A3 Heat dissipation switch 有权
标题翻译：散热开关
公开(公告)号：EP2667141A3
公开(公告)日：2018-03-14
申请号：EP13168615.6
申请日：2013-05-21
申请人： The Boeing Company
发明人： Bolton, Douglas Aaron
IPC分类号： F28F13/00 , H05K7/20 , H01L23/36
CPC分类号： F28F13/00 , F28F2013/008 , H01L23/34 , H01L2924/0002 , H01L2924/00
摘要： The disclosure herein provides for heat dissipation switches and systems, as well as their use for dissipating excess heat from a heat source (102). Various aspects of a heat dissipation switch (106) may include a thermally isolating material (202) having a number of conductive element cavities (204). A number of thermally switched conductive elements (206) may nest within the conductive element cavities (204) either independently or as part of a thermally switched sheet. The material of the thermally switched conductive elements (206) may be configured to deform in response to a temperature change through a threshold temperature or temperature range in order to create or interrupt heat flow paths from the heat source (102) to a heat sink (104).
摘要翻译：本文的公开内容提供了散热开关和系统，以及它们用于散发来自热源（102）的过量热量的用途。散热开关（106）的各个方面可以包括具有多个导电元件腔（204）的隔热材料（202）。多个热切换导电元件（206）可以独立地或者作为热切换片材的一部分嵌套在导电元件腔体（204）内。热切换的导电元件（206）的材料可以被配置成响应于通过阈值温度或温度范围的温度变化而变形，以便形成或中断从热源（102）到散热器（102）的热流路径 104）。

4. 发明公开

EP3219671A1 AEROGEL AND MANUFACTURING METHOD THEREOF 审中-公开
标题翻译： AIRGEL及其制造方法
公开(公告)号：EP3219671A1
公开(公告)日：2017-09-20
申请号：EP15858787.3
申请日：2015-11-05
申请人： Panasonic Intellectual Property Management Co., Ltd.
发明人： SAKATANI, Shigeaki , OIKAWA, Kazuma
IPC分类号： C01B33/16
CPC分类号： C01B33/16 , C01B33/1585 , C01B33/159 , C01P2006/12 , C01P2006/14 , C01P2006/16 , F28F13/00
摘要： In a method for manufacturing an aerogel, an acid is added to a first aqueous high-molar-ratio silicate solution that includes silica particles having a mean particle diameter of from 1 nm to 10 nm and that is alkaline, to produce a gel. The gel is subjected to a dehydration condensation to obtain a hydrogel. The hydrogel is converted into a hydrophobized gel. Then, the hydrophobized gel is dried. According to the method, an aerogel having a pore volume of from 3.00 cc/g to 10 cc/g, a mean pore diameter of from 10 nm to 68 nm, and a specific surface area of from 200 m 2 /g to 475 m 2 /g can be prepared.
摘要翻译：在用于制造气凝胶的方法中，将酸加入包含平均粒径为1nm至10nm且碱性的二氧化硅颗粒的第一含水高摩尔比硅酸盐溶液中以产生凝胶。将凝胶进行脱水缩合以获得水凝胶。水凝胶转化为疏水凝胶。然后，疏水凝胶被干燥。根据该方法，使用孔体积为3.00cc / g至10cc / g，平均孔径为10nm至68nm，比表面积为200m 2 / g至475m 2 / g的气凝胶，克可以准备。

5. 发明公开

EP3168467A1 SELF-REGULATING THERMAL INSULATION AND RELATED METHODS 有权转让
标题翻译：拉斯维加斯维多利亚州
公开(公告)号：EP3168467A1
公开(公告)日：2017-05-17
申请号：EP16180232.7
申请日：2016-07-19
申请人： The Boeing Company
发明人： HULL, John Ralph , CHEN, Cameron K.
IPC分类号： F03G7/06 , F16L59/00
CPC分类号： F28F13/00 , B23P19/00 , F03G7/065 , F16L59/026 , F16L59/06 , F28F2013/008
摘要： Presently disclosed self-regulating thermal insulation (12) may include one or more thermal actuators (38) that may expand and contract in response to changes in temperature adjacent the thermal insulation, thereby automatically changing the thermal resistance of the thermal insulation. In this manner, a self-regulating thermal insulation may be configured to locally adjust in response to local changes in temperature of a part being insulated, for example, during curing or some other manufacturing process. Such self-regulating thermal insulation may be configured to respond to temperature changes without feedback control systems, power, or human intervention. One example of self-regulating thermal insulation may include a first plate (30), a second plate (32), a support structure (34) coupling the first plate and the second plate and defining an insulation thickness (48) therebetween, an internal partition (36) positioned between the first plate and the second plate, and at least one thermal actuator (38) positioned between the second plate and the internal partition.
摘要翻译：目前公开的自调节热绝缘（12）可以包括一个或多个热致动器（38），其可以响应于邻近隔热件的温度变化而膨胀和收缩，从而自动改变热绝缘体的热阻。以这种方式，自调节热绝缘可以被配置为响应于绝缘部件的温度局部调整，例如在固化或其它制造过程中。这种自调节热绝缘可以被配置为响应于没有反馈控制系统，功率或人为干预的温度变化。自调节热绝缘的一个示例可以包括第一板（30），第二板（32），联接第一板和第二板并在其间限定绝缘厚度（48）的支撑结构（34），内部定位在第一板和第二板之间的隔板（36）和位于第二板和内部隔板之间的至少一个热致动器（38）。

6. 发明公开

EP3098557A1 DYNAMIC HEAT CONDUCTION SYSTEM 有权
标题翻译：系统ZUR DYNAMISCHENWÄRMELEITUNG
公开(公告)号：EP3098557A1
公开(公告)日：2016-11-30
申请号：EP15169212.6
申请日：2015-05-26
申请人： Advantech Co., Ltd.
发明人： HSIEH, Chi-Hung
IPC分类号： F28F13/00 , F28D15/02 , H01L23/40 , H01L23/433 , H05K7/20
CPC分类号： F28F13/00 , F28D15/0275 , F28F2275/143 , H01L23/4006 , H01L23/4338 , H05K7/20336
摘要： This invention provides a dynamic heat conduction system comprising a base, a resilient unit, a heat conduction block, and at least one securing unit. The base accommodates the resilient unit and the heat conduction block and the at least one securing unit secures at least a portion of the base and the resilient unit within the base. The heat conduction block comprises a heat conduction surface for forming a contact with an electronic device and accomplishes preferably efficient heat conduction by conducting the heat produced by the electronic device through the heat conduction surface, the heat conduction block, and a side surface of the heat conduction block to the base. Still, this invention provides a dynamic heat conduction system comprising a heat conduction board for accommodating a plurality of heat conduction blocks and a plurality of bases for forming a preferable heat conduction path with a plurality of electronic devices having different shapes or sizes.
摘要翻译：本发明提供了一种动态热传导系统，其包括基座，弹性单元，导热块和至少一个固定单元。基座容纳弹性单元和热传导块，并且至少一个固定单元将基座和弹性单元的至少一部分固定在基座内。导热块包括用于与电子器件形成接触的热传导表面，并且通过传导由电子器件通过导热表面，导热块和热侧面产生的热来实现优选地有效的热传导传导阻滞到基部。而且，本发明提供一种动态热传导系统，其包括用于容纳多个导热块的导热板和用于形成具有不同形状或尺寸的多个电子装置的优选热传导路径的多个基座。

7. 发明公开

EP3071436A1 DISPOSITIF DE SUPPORT D'UN TUBE, NOTAMMENT D'UN TUBE D'UN ECHANGEUR DE CHALEUR DESTINE A VENIR EN CONTACT D'UNE BATTERIE DE VEHICULE AUTOMOBILE 有权
标题翻译：支撑装置用于管道特别是热交换器导管与机动车辆电池联系
公开(公告)号：EP3071436A1
公开(公告)日：2016-09-28
申请号：EP14793482.2
申请日：2014-10-23
申请人： Valeo Systemes Thermiques
发明人： LEGOT, Laurent , BIREAUD, Fabien
IPC分类号： B60K1/04 , B60H1/00 , B60R16/04 , F28D21/00 , F28F1/00 , B60L11/18 , B60K1/00
CPC分类号： B60L11/1874 , B60K1/04 , B60K2001/005 , B60L11/1879 , F28D1/06 , F28F1/02 , F28F1/022 , F28F9/0131 , F28F13/00 , F28F2270/00 , F28F2275/08 , H01M10/613 , H01M10/623 , H01M10/625 , H01M10/655 , H01M10/6554 , Y02T10/7005 , Y02T10/705
摘要： The invention relates to a support device (1) for a tube, in particular a tube of a heat exchanger designed to abut a vehicle battery for cooling thereof, the device (1) comprising a base (13) on which the tube is designed to be mounted, an element (15) for compressing the tube against the battery and one or more of the elements (17) for connecting the compression element (15) on the base (13), the connecting elements (17) being configured to engage with a face (19) of the compression element (15), opposite said base (13), while being in contact with the base (13) on either side of said compression element (15).
摘要翻译：本发明涉及一种支撑装置（1）用于管，特别设计的热交换器的管，以与车辆的电池接触，用于冷却它们，（1），包括基体（13）在其上管是设备设计成安装元件（15）上用于压缩所述管抵靠电池，以及一个或多个元件（17）用于压缩元件（15）连接到所述基部（13），所述连接元件（17）被配置成具有相反所述基座（13）的压缩元件（15）的一个面（19），而在与基座（13）上，所述压缩元件（15）的任一侧接触接合。

8. 发明公开

EP3069745A1 FLUID WARMING SYSTEM WITH BIASED LAYERS 审中-实审
标题翻译： FLÜSSIGKEITSWÄRMESYSTEMMIT VERSPANNTEN LAGEN
公开(公告)号：EP3069745A1
公开(公告)日：2016-09-21
申请号：EP15159290.4
申请日：2015-03-16
申请人： The Surgical Company International B.V.
发明人： Bronkhorst, Joris , Wijlens, Jeroen, Hermanus, Johannes
IPC分类号： A61M5/44
CPC分类号： A61M5/44 , A61F7/00 , A61F2007/126 , A61M2205/121 , A61M2205/127 , A61M2205/3368 , A61M2205/3653 , F24H1/142 , F24H9/02 , F24H9/2028 , F28F13/00 , F28F2013/008 , H05B3/20 , H05B3/58 , H05B2203/021
摘要： There is disclosed a heater unit (1600) for conductively heating a removable heat exchanger unit (1602) via a heat transfer surface of the heat exchanger unit, the heater unit comprising: a body portion (1610) for receiving the heat exchanger unit (1602); a flexible heating element (1604) which, in use, makes thermal contact with the heat transfer surface of the heat exchanger unit; a compressible portion (1606) disposed on the distal side of the flexible heating element (1604) relative to the heat exchanger unit (1602) when received; and a biasing arrangement (1608) operable, in use, to distribute a transverse compression force across the arrangement formed from the compressible portion (1606), the heating element (1604) and the heat exchanger unit (1602), whereby the compression force causes the heating element (1604) to be urged towards the heat transfer surface of the heat exchanger unit (1602) and the compressible portion, in conjunction with the compression force, causes the heating element (1604) to conform more closely to the shape of the heat transfer surface.
摘要翻译：公开了一种用于经由热交换器单元的传热表面导电地加热可移除热交换器单元（1602）的加热器单元（1600），该加热器单元包括：主体部分（1610），用于接收热交换器单元）; 柔性加热元件（1604），其在使用中与热交换器单元的传热表面热接触; 当接收时相对于热交换器单元（1602）设置在柔性加热元件（1604）的远侧上的可压缩部分（1606）以及偏压装置（1608），其在使用中可操作地跨越由可压缩部分（1606），加热元件（1604）和热交换器单元（1602）形成的布置分布横向压缩力，由此压缩力导致与热交换器单元（1602）和可压缩部分一起受压的加热元件（1604）与压缩力一起被迫使加热元件（1604）更接近于传热面。

9. 发明公开

EP3032207A1 METHOD FOR IMPROVING THERMAL EFFICIENCY OF HEATING DEVICE AND DEVICE FOR IMPROVING THERMAL EFFICIENCY OF HEATING DEVICE 审中-公开
标题翻译：法提高加热装置和设备的热对增加加热装置的热效应
公开(公告)号：EP3032207A1
公开(公告)日：2016-06-15
申请号：EP14833696.9
申请日：2014-05-26
申请人： Japan Ultra-high Temperature Materials Research Center
发明人： YAMAMURA, Takemi , NAKAGAWA, Narihito , HISAYUKI, Terumi , TODA, Motohide , IGUCHI, Hironaga , MATSUMURA, Yoshikazu , OKAMURA, Kiyohito
IPC分类号： F27D17/00
CPC分类号： F28F13/00 , B32B18/00 , C04B35/571 , C04B35/573 , C04B35/589 , C04B35/593 , C04B35/62847 , C04B35/62849 , C04B35/62852 , C04B35/62868 , C04B35/62871 , C04B35/62873 , C04B35/62892 , C04B35/62894 , C04B35/80 , C04B2235/522 , C04B2235/5228 , C04B2235/5244 , C04B2235/5248 , C04B2235/5445 , C04B2235/616 , C04B2235/785 , C04B2235/85 , C04B2235/94 , C04B2237/365 , C04B2237/368 , C04B2237/38 , C04B2237/385 , F27D1/042 , F27D17/002 , F27D17/004 , F28F2255/14 , F28F2270/00
摘要： A method for improving thermal efficiency of a heating device that reduces an amount of heat flowing out from a heating device 11 to the outside by installing a heat-resistant inorganic conjugated molded product 16 in and along a pathway 15 for heated gas generated from the heating device 11 without interrupting the flow of heated gas passing the pathway 15, heating the inorganic conjugated molded product 16 with the heated gas, and putting radiation heat from the heated inorganic conjugated molded product 16 back into the heating device 11, the inorganic conjugated molded product 16 being provided with an interior layer and an exterior layer, the exterior layer consisting of a coverture for inorganic materials that protects the interior layer from heated gas.

10. 发明公开

EP2805097A4 COMPRESSED GAS STORAGE UNIT 审中-公开
标题翻译：压力气体存储单元
公开(公告)号：EP2805097A4
公开(公告)日：2015-12-02
申请号：EP13738982
申请日：2013-01-18
申请人： LIGHTSAIL ENERGY INC
发明人： CLARK LAURIE , BERLIN JR EDWIN P , FONG DANIELLE A , CRANE STEPHEN E
IPC分类号： F17C1/00 , B29C49/02 , F17C1/06
CPC分类号： F17C1/06 , B29C49/00 , B29C49/06 , B29C2791/001 , B29L2031/7156 , B60K15/03006 , B60K2015/03032 , B60K2015/03414 , F01K25/00 , F01K27/00 , F02C6/16 , F17C2201/0104 , F17C2201/0109 , F17C2201/0119 , F17C2201/0123 , F17C2201/0128 , F17C2201/0142 , F17C2201/054 , F17C2201/056 , F17C2201/058 , F17C2203/0604 , F17C2203/0617 , F17C2203/0629 , F17C2203/066 , F17C2203/0663 , F17C2203/0665 , F17C2203/067 , F17C2203/0675 , F17C2209/2127 , F17C2209/2154 , F17C2221/031 , F17C2223/0123 , F17C2223/036 , F17C2227/0323 , F17C2227/0341 , F17C2227/0355 , F17C2227/0379 , F17C2227/0397 , F17C2260/017 , F28D1/06 , F28D15/00 , F28D15/02 , F28D20/00 , F28D2020/0026 , F28D2020/006 , F28D2020/0065 , F28D2020/0078 , F28F1/10 , F28F1/24 , F28F13/00 , F28F2215/06 , F28F2215/14 , F28F2280/02 , Y02E60/142
摘要： Embodiments of the present invention relate to compressed gas storage units, which in certain applications may be employed in conjunction with energy storage systems. Some embodiments may comprise one or more blow-molded polymer shells, formed for example from polyethylene terephthalate (PET) or ultra-high molecular weight polyethylene (UHMWPE). Embodiments of compressed gas storage units may be composite in nature, for example comprising carbon fiber filament(s) wound with a resin over a liner. A compressed gas storage unit may further include a heat exchanger element comprising a heat pipe or apparatus configured to introduce liquid directly into the storage unit for heat exchange with the compressed gas present therein.

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