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公开(公告)号:US20110011123A1
公开(公告)日:2011-01-20
申请号:US12920595
申请日:2009-03-05
申请人: Hideki Matsuura , Masaru Tanaka , Hideki Hara , Kouji Shibaike , Youichi Ohnuma
发明人: Hideki Matsuura , Masaru Tanaka , Hideki Hara , Kouji Shibaike , Youichi Ohnuma
CPC分类号: C09K5/045 , C09K2205/126 , C10M171/008 , C10M2207/2835 , C10M2209/043 , C10M2209/1033 , C10N2220/302 , C10N2230/02 , C10N2230/41 , C10N2230/43 , C10N2240/30 , F04B39/023 , F04C18/0215 , F04C23/008 , F04C2210/10 , F04C2210/1022 , F04C2210/26 , F04C2210/263 , F05C2225/00 , F05C2225/02 , F05C2225/04 , F05C2225/06 , F25B9/002
摘要: In a refrigeration apparatus including a refrigerant circuit in which refrigerant represented by Molecular Formula 1: C3HmFn (note that “m” and “n” are integers equal to or greater than 1 and equal to or less than 5, and a relationship represented by an expression m+n=6 is satisfied) and having a single double bond in a molecular structure, or refrigerant mixture containing the refrigerant is used, predetermined functional resin components arranged so as to contact refrigerant of the refrigerant circuit are made of any of polytetrafluoroethylene, polyphenylene sulfide, phenolic resin, polyamide resin, chloroprene rubber, silicone rubber, hydrogenated nitrile rubber, fluorine-containing rubber, and hydrin rubber.
摘要翻译: 在包含分子式1:C3HmFn所示的制冷剂(注意“m”和“n”为1以上且为5以下的整数的制冷剂回路的制冷装置中, 表达式m + n = 6),并且在分子结构中具有单个双键,或者使用包含制冷剂的制冷剂混合物,布置成接触制冷剂回路的制冷剂的预定功能性树脂组分由聚四氟乙烯, 聚苯硫醚,酚醛树脂,聚酰胺树脂,氯丁二烯橡胶,硅橡胶,氢化丁腈橡胶,含氟橡胶和hydrin橡胶。
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公开(公告)号:US09140370B2
公开(公告)日:2015-09-22
申请号:US13048316
申请日:2011-03-15
IPC分类号: B01D15/00 , F16K11/074 , F16K11/00 , F16K11/02 , F16K31/04 , F16K11/085
CPC分类号: F16K11/074 , F16K11/00 , F16K11/02 , F16K11/0856 , F16K31/04 , F16K31/041
摘要: A rotary type channel switching valve for use in a heat pump system is provided. The channel switching valve provides a plurality of channel switching means required when switching connection of a plurality of devices to parallel/series connection, e.g., in a system including the plurality of devices including inlet/outlet ports for a fluid. The channel-switching valve can play a role of a plurality of channel switching means which are required when connecting a plurality of heat exchangers in parallel when a refrigerant is passed in a normal direction, and when connecting a plurality of heat exchangers in series when the refrigerant is passed in a reverse direction, for example, in a heat pump including the plurality of heat exchangers, and thereby, can realize simplification of a configuration of the heat pump, reduction in an occupied space, cost and energy consumption, or the like.
摘要翻译: 提供一种用于热泵系统的旋转式通道切换阀。 通道切换阀提供了当多个装置连接到并联/串联连接时所需的多个通道切换装置,例如在包括多个装置的系统中,包括用于流体的入口/出口。 通道切换阀可以起到多个通道切换装置的作用,当在正常方向上通过制冷剂时,并联多个热交换器时需要多个通道切换装置,并且当多个热交换器串联连接时, 制冷剂例如在包括多个热交换器的热泵中沿相反方向通过,从而可以实现热泵的构造的简化,占用空间的减少,成本和能量消耗等 。
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公开(公告)号:US20110226001A1
公开(公告)日:2011-09-22
申请号:US13048316
申请日:2011-03-15
IPC分类号: F25B30/00
CPC分类号: F16K11/074 , F16K11/00 , F16K11/02 , F16K11/0856 , F16K31/04 , F16K31/041
摘要: A rotary type channel switching valve for use in a heat pump system is provided. The channel switching valve provides a plurality of channel switching means required when switching connection of a plurality of devices to parallel/series connection, e.g., in a system including the plurality of devices including inlet/outlet ports for a fluid. The channel-switching valve can play a role of a plurality of channel switching means which are required when connecting a plurality of heat exchangers in parallel when a refrigerant is passed in a normal direction, and when connecting a plurality of heat exchangers in series when the refrigerant is passed in a reverse direction, for example, in a heat pump including the plurality of heat exchangers, and thereby, can realize simplification of a configuration of the heat pump, reduction in an occupied space, cost and energy consumption, or the like.
摘要翻译: 提供一种用于热泵系统的旋转式通道切换阀。 通道切换阀提供了当多个装置连接到并联/串联连接时所需的多个通道切换装置,例如在包括多个装置的系统中,包括用于流体的入口/出口。 通道切换阀可以起到多个通道切换装置的作用,当在正常方向上通过制冷剂时,并联多个热交换器时需要多个通道切换装置,并且当多个热交换器串联连接时, 制冷剂例如在包括多个热交换器的热泵中沿相反方向通过,从而可以实现热泵的构造的简化,占用空间的减少,成本和能量消耗等 。
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