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1. 发明授权

US5806585A Heat exchanger, refrigeration system, air conditioner, and method and apparatus for fabricating heat exchanger 失效
标题翻译：热交换器，制冷系统，空气调节器以及用于制造热交换器的方法和装置
公开(公告)号：US5806585A
公开(公告)日：1998-09-15
申请号：US561173
申请日：1995-11-20
申请人： Takayuki Yoshida , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Atsushi Motizuki , Yuji Sueto , Kaoru Ikejima
发明人： Takayuki Yoshida , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Atsushi Motizuki , Yuji Sueto , Kaoru Ikejima
IPC分类号： B23K1/00 , F25B39/00 , F28D1/047 , F28D1/053 , F28F1/12 , F28F9/18 , F28F27/02 , F28F1/22
CPC分类号： F28F27/02 , B23K1/0012 , F25B39/00 , F28D1/047 , F28D1/05316 , F28F1/122 , F28F9/0278 , F28F9/18 , B23K2201/14 , F28D2001/0273 , F28F2250/06 , Y10S165/498
摘要： A plurality of heat transfer tubes are disposed at certain intervals, in-tube operating fluid (such as coolant) passes therethrough, and a plurality of small-gage wires are used as a heating fin. One small-gage wire is wound at a pair of heat transfer tubes 1a and 1c in a spiral manner, and another small-gage wire is wound at a pair of heat transfer tubes 1b and 1c in the spiral manner, and still another small-gage wire is wound at a pair of heat transfer tubes 1b and 1d in the spiral manner. Thereby, while higher heat transfer coefficient can be achieved, and a heating surface area is ensured, clogging can be avoided even when moisture in air condenses on a surface of a heat exchanger. As a result, it is possible to realize a high-performance and compact heat exchanger used for air conditioning.
摘要翻译：多个传热管以一定的间隔设置，管内工作流体（例如冷却剂）通过其中，并且使用多个小规格的导线作为加热翅片。一根小规格的线以螺旋状的方式缠绕在一对传热管1a，1c上，另一根小规格的线以螺旋方式缠绕在一对传热管1b，1c上，计量线以螺旋方式缠绕在一对传热管1b和1d上。由此，虽然可以实现更高的传热系数，并且确保加热表面积，但是即使在空气中的水分在热交换器的表面上冷凝，也可以避免堵塞。结果，可以实现用于空调的高性能和紧凑的热交换器。

2. 发明授权

US06192976B1 Heat exchanger, refrigeration system, air conditioner, and method and apparatus for fabricating heat exchanger 失效
标题翻译：热交换器，制冷系统，空气调节器以及用于制造热交换器的方法和装置
公开(公告)号：US06192976B1
公开(公告)日：2001-02-27
申请号：US09123719
申请日：1998-07-28
申请人： Takayuki Yoshida , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Atsushi Motizuki , Yuji Sueto , Kaoru Ikejima
发明人： Takayuki Yoshida , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Atsushi Motizuki , Yuji Sueto , Kaoru Ikejima
IPC分类号： F28F132
CPC分类号： F28F27/02 , B23K1/0012 , B23K2101/14 , F25B39/00 , F28D1/047 , F28D1/05316 , F28D2001/0273 , F28F1/122 , F28F9/0278 , F28F9/18 , F28F2250/06 , Y10S165/498
摘要： A plurality of heat transfer tubes are disposed at certain intervals, in-tube operating fluid (such as coolant) passes therethrough, and a plurality of small-gage wires are used as a heating fin. One small-gage wire is wound at a pair of heat transfer tubes 1a and 1c in a spiral manner, and another small-gage wire is wound at a pair of heat transfer tubes 1b and 1c in the spiral manner, and still another small-gage wire is wound at a pair of heat transfer tubes 1b and 1d in the spiral manner. Thereby, while higher heat transfer coefficient can be achieved, and a heating surface area is ensured, clogging can be avoided even when moisture in air condenses on a surface of a heat exchanger. As a result, it is possible to realize a high-performance and compact heat exchanger used for air conditioning.
摘要翻译：多个传热管以一定的间隔设置，管内工作流体（例如冷却剂）通过其中，并且使用多个小规格的导线作为加热翅片。一根小规格的线以螺旋状的方式缠绕在一对传热管1a，1c上，另一根小规格的线以螺旋方式缠绕在一对传热管1b，1c上，计量线以螺旋方式缠绕在一对传热管1b和1d上。由此，虽然可以实现更高的传热系数，并且确保加热表面积，但是即使在空气中的水分在热交换器的表面上冷凝，也可以避免堵塞。结果，可以实现用于空调的高性能和紧凑的热交换器。

3. 发明授权

US5964284A Heat exchanger for air conditioner and method of fabricating the heat exchanger 失效
标题翻译：用于空调的热交换器和制造热交换器的方法
公开(公告)号：US5964284A
公开(公告)日：1999-10-12
申请号：US21343
申请日：1998-02-10
申请人： Kaoru Ikejima , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Takayuki Yoshida
发明人： Kaoru Ikejima , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Takayuki Yoshida
IPC分类号： B23K1/00 , F28F1/12 , F28F1/32
CPC分类号： B23K1/0012 , F28F1/122 , B23K2201/14 , Y10S165/50 , Y10S165/518 , Y10S165/906 , Y10T29/4938 , Y10T29/49393
摘要： A heat exchanger for an air conditioner comprises a plurality of heat-transfer tubes arranged in parallel to each other at predetermined intervals, and heat-transfer fins formed by helically winding a plurality of fine wires around the plurality of heat-transfer tubes. Preferably, the heat-transfer tubes are divided into groups of two adjacent heat-transfer tubes (1a, 1b), (1b, 1c), (1c, 1d), . . . , and at least one fine wire fin is wound helically around the two adjacent heat-transfer tubes of each group so that the fine wire fin does not cross other portions of the fine wire fin as viewed along a direction perpendicular to a plane including the axes of the plurality of heat-transfer tubes. When fabricating the heat exchanger, at least either the outer circumferences of the heat-transfer tubes or the outer circumferences of the fine wires are coated with a metal film formed by plating, and then the heat-transfer tubes and the fine wires are interlaced to form a heat exchanging structure. Then, the heat exchanging structure is heated to the melting point of the metal film so that the metal film is melted and the heat-transfer tubes and the fine wires are bonded together by the molten metal film.
摘要翻译：空调机用热交换器包括以规定间隔彼此平行配置的多个热传输管，以及通过在多个传热管周围螺旋地卷绕多根细线而形成的传热翅片。优选地，传热管被分成两组相邻的传热管（1a，1b），（1b，1c），（1c，1d）。。。并且至少一个细金属丝翅片围绕每组的两个相邻的传热管螺旋地缠绕，使得当沿着垂直于包括轴线的平面的方向观察时，细线翅片不会与细线翅片的其它部分交叉的多个传热管。在制造热交换器时，传热管的外周或细线的外周中的至少一方涂覆有通过电镀形成的金属膜，然后将传热管和细线交织成形成热交换结构。然后，将热交换结构加热到金属膜的熔点，使得金属膜熔化，并且传热管和细线通过熔融金属膜接合在一起。

4. 发明授权

US5822854A Method of fabricating a heat exchanger for an air conditioner 失效
标题翻译：制造空气调节换热器的方法
公开(公告)号：US5822854A
公开(公告)日：1998-10-20
申请号：US659763
申请日：1996-06-06
申请人： Kaoru Ikejima , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Takayuki Yoshida
发明人： Kaoru Ikejima , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Takayuki Yoshida
IPC分类号： B23K1/00 , F28F1/12 , B23P15/26
CPC分类号： B23K1/0012 , F28F1/122 , B23K2201/14 , Y10S165/50 , Y10S165/518 , Y10S165/906 , Y10T29/4938 , Y10T29/49393
摘要： A heat exchanger for an air conditioner includes a plurality of heat-transfer tubes arranged in parallel to each other at predetermined intervals, and heat-transfer fins formed by helically winding a plurality of fine wires around the plurality of heat-transfer tubes. Preferably, the heat-transfer tubes are divided into groups of two adjacent heat-transfer tubes (1a, 1b), (1b, 1c), (1c, 1d), . . . , and at least one fine wire fin is wound helically around the two adjacent heat-transfer tubes of each group so that the fine wire fin does not cross other portions of the fine wire fin as viewed along a direction perpendicular to a plane including the axes of the plurality of heat-transfer tubes. When fabricating the heat exchanger, at least either the outer circumferences of the heat-transfer tubes or the outer circumferences of the fine wires are coated with a metal film formed by plating, and then the heat-transfer tubes and the fine wires are interlaced to form a heat exchanging structure. Then, the heat exchanging structure is heated to the melting point of the metal film so that the metal film is melted and the heat-transfer tubes and the fine wires are bonded together by the molten metal film.
摘要翻译：空调机用热交换器包括以规定间隔彼此平行配置的多个热传输管，以及通过在多个传热管周围螺旋地卷绕多条细线而形成的传热翅片。优选地，传热管分成两个相邻的传热管（1a，1b），（1b，1c），（1c，1d）。。。并且至少一个细金属丝翅片围绕每组的两个相邻的传热管螺旋地缠绕，使得当沿着垂直于包括轴线的平面的方向观察时，细线翅片不会与细线翅片的其它部分交叉的多个传热管。在制造热交换器时，传热管的外周或细线的外周中的至少一方涂覆有通过电镀形成的金属膜，然后将传热管和细线交织成形成热交换结构。然后，将热交换结构加热到金属膜的熔点，使得金属膜熔化，并且传热管和细线通过熔融金属膜接合在一起。

5. 发明授权

US5769157A Heat exchanger and method of fabricating the heat exchanger 失效
标题翻译：热交换器和热交换器的制造方法
公开(公告)号：US5769157A
公开(公告)日：1998-06-23
申请号：US417159
申请日：1995-04-04
申请人： Kaoru Ikejima , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Takayuki Yoshida
发明人： Kaoru Ikejima , Takashi Gotoh , Tsuneo Yumikura , Michimasa Takeshita , Takayuki Yoshida
IPC分类号： B23K1/00 , F28F1/12 , F28F1/32 , F28F1/36
CPC分类号： B23K1/0012 , F28F1/122 , B23K2201/14 , Y10S165/50 , Y10S165/518 , Y10S165/906 , Y10T29/4938 , Y10T29/49393
摘要： A heat exchanger for an air conditioner comprises a plurality of heat-transfer tubes arranged in parallel to each other at predetermined intervals, and heat-transfer fins formed by helically winding a plurality of fine wires around the plurality of heat-transfer tubes. Preferably, the heat-transfer tubes are divided into groups of two adjacent heat-transfer tubes (1a, 1b), (1b, 1c), (1c, 1d), . . . , and at least one fine wire fin is wound helically around the two adjacent heat-transfer tubes of each group so that the fine wire fin does not cross other portions of the fine wire fin as viewed along a direction perpendicular to a plane including the axes of the plurality of heat-transfer tubes. When fabricating the heat exchanger, at least either the outer circumferences of the heat-transfer tubes or the outer circumferences of the fine wires are coated with a metal film formed by plating, and then the heat-transfer tubes and the fine wires are interlaced to form a heat exchanging structure. Then, the heat exchanging structure is heated to the melting point of the metal film so that the metal film is melted and the heat-transfer tubes and the fine wires are bonded together by the molten metal film.
摘要翻译：空调机用热交换器包括以规定间隔彼此平行配置的多个热传输管，以及通过在多个传热管周围螺旋地卷绕多根细线而形成的传热翅片。优选地，传热管被分成两组相邻的传热管（1a，1b），（1b，1c），（1c，1d）。。。并且至少一个细金属丝翅片围绕每组的两个相邻的传热管螺旋地缠绕，使得当沿着垂直于包括轴线的平面的方向观察时，细线翅片不会与细线翅片的其它部分交叉的多个传热管。在制造热交换器时，传热管的外周或细线的外周中的至少一方涂覆有通过电镀形成的金属膜，然后将传热管和细线交织成形成热交换结构。然后，将热交换结构加热到金属膜的熔点，使得金属膜熔化，并且传热管和细线通过熔融金属膜接合在一起。

6. 发明授权

US08073662B2 Design support method, design support system, and design support program for heat convection field 有权
标题翻译：设计支持方法，设计支持系统和热对流场设计支持程序
公开(公告)号：US08073662B2
公开(公告)日：2011-12-06
申请号：US12295894
申请日：2006-04-13
申请人： Kazunari Momose , Kaoru Ikejima
发明人： Kazunari Momose , Kaoru Ikejima
IPC分类号： G06G7/56 , G06G7/57 , G06G7/48 , G06F7/60 , G06F7/64
CPC分类号： G06F17/50 , G06F17/5018 , G06F2217/16 , G06F2217/80
摘要： A highly convenient design support method and design support system for a heat convection field or a mass diffusion field which significantly reduce the number of times of numerical simulation required to examine the designing parameters for achieving the design purpose. The design support method includes a forward analysis step of analyzing the heat convection field or the mass diffusion field by solving an equation of the heat convection field or the mass diffusion field based on an initially set value of a designing parameter, an inverse analysis step of analyzing a sensitivity defined by a change ratio of the design purpose to a designing parameter change by solving an adjoint equation corresponding to the design purpose based on the set design purpose, and a sensitivity display step of displaying information on the sensitivity analyzed by inverse analysis step as a graphic image on the display device.
摘要翻译：用于热对流场或质量扩散场的高度方便的设计支持方法和设计支持系统，显着减少了为了实现设计目的而检查设计参数所需的数值模拟次数。设计支持方法包括：基于设计参数的初始设定值，通过求解热对流场或质量扩散场的方程来分析热对流场或质量扩散场的正向分析步骤，反分析步骤通过基于设定的设计目的求解与设计目的相对应的伴随方程来分析由设计目的的变化比率定义的灵敏度与设计参数变化的灵敏度显示步骤;以及灵敏度显示步骤，显示关于通过反分析步骤分析的灵敏度的信息作为显示设备上的图形图像。

7. 发明申请

US20090276193A1 DESIGN SUPPORT METHOD, DESIGN SUPPORT SYSTEM, AND DESIGN SUPPORT PROGRAM FOR HEAT CONVECTION FIELD 有权
标题翻译：设计支持方法，设计支持系统和热对流场设计支持方案
公开(公告)号：US20090276193A1
公开(公告)日：2009-11-05
申请号：US12295894
申请日：2006-04-13
申请人： Kazunari Momose , Kaoru Ikejima
发明人： Kazunari Momose , Kaoru Ikejima
IPC分类号： G06F17/50
CPC分类号： G06F17/50 , G06F17/5018 , G06F2217/16 , G06F2217/80
摘要： A highly convenient design support method and design support system for a heat convection field or a mass diffusion field which significantly reduce the number of times of numerical simulation required to examine the designing parameters for achieving the design purpose. The design support method includes a forward analysis step of analyzing the heat convection field or the mass diffusion field by solving an equation of the heat convection field or the mass diffusion field based on an initially set value of a designing parameter, an inverse analysis step of analyzing a sensitivity defined by a change ratio of the design purpose to a designing parameter change by solving an adjoint equation corresponding to the design purpose based on the set design purpose, and a sensitivity display step of displaying information on the sensitivity analyzed by inverse analysis step as a graphic image on the display device.
摘要翻译：用于热对流场或质量扩散场的高度方便的设计支持方法和设计支持系统，显着减少了为了实现设计目的而检查设计参数所需的数值模拟次数。设计支持方法包括：基于设计参数的初始设定值，通过求解热对流场或质量扩散场的方程来分析热对流场或质量扩散场的正向分析步骤，反分析步骤通过基于设定的设计目的求解与设计目的相对应的伴随方程来分析由设计目的的变化比率定义的灵敏度与设计参数变化的灵敏度显示步骤;以及灵敏度显示步骤，显示关于通过反分析步骤分析的灵敏度的信息作为显示设备上的图形图像。

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