会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 8. 发明授权
    • Gas-liquid separator for a heat pump type air conditioning system using
a gas-injection cycle
    • 用于使用气体注入循环的热泵式空调系统的气液分离器
    • US5692394A
    • 1997-12-02
    • US706329
    • 1996-08-30
    • Yukikatsu OzakiMasaru Tsunokawa
    • Yukikatsu OzakiMasaru Tsunokawa
    • F25B1/00F25B1/10F25B13/00F25B41/04F25B43/00F25B39/04
    • F25B41/04F25B1/10F25B13/00F25B2400/13F25B2400/23
    • A gas-liquid separator for a heat pump type air conditioning system using a gas-injection cycle, which system can switch its mode of operation between heating and cooling modes, includes a reservoir for receiving refrigerant in a gas-liquid two-phase flow, an exit port which opens at a upper portion of the reservoir and allows a refrigerant gas to flow out of the reservoir, first and second ports which are provided at a upper part within the reservoir above the level of a refrigerant liquid and allows the refrigerant to flow into and out of the reservoir. A first refrigerant path for allowing the first port to fluidly communicate with the refrigerant liquid in the reservoir, a second refrigerant path for allowing the first port to fluidly communicate with the refrigerant gas above the level of the refrigerant liquid in the reservoir, a third refrigerant path for allowing the second port to fluidly communicate with the refrigerant liquid in the reservoir, and a fourth refrigerant path for allowing the second port to fluidly communicate with the refrigerant gas above the level of the refrigerant liquid in the reservoir are provided within the reservoir. The second and third refrigerant path open when a refrigerant enters the reservoir through the first port, and the first and fourth refrigerant path open when a refrigerant enters the reservoir through the second port.
    • 一种用于使用气体注入循环的热泵式空调系统的气液分离器,该系统可以在加热和冷却模式之间切换其运行模式,包括用于在气液两相流中接收制冷剂的储存器, 出口,其在储存器的上部开口并允许制冷剂气体从储存器流出;第一和第二端口,其设置在储存器的上部,高于制冷剂液体的高度,并允许制冷剂 流入和流出水库。 第一制冷剂路径,用于允许第一端口与贮存器中的制冷剂液体流体连通;第二制冷剂路径,用于允许第一端口与制冷剂气体在贮存器中的制冷剂液体的液面之上流体连通;第三制冷剂路径, 用于允许第二端口与储存器中的制冷剂液体流体连通的路径,以及用于允许第二端口与位于储存器中的制冷剂液体高度之上的制冷剂气体流体连通的第四制冷剂路径。 当制冷剂通过第一端口进入储存器时,第二和第三制冷剂通道打开,并且当制冷剂通过第二端口进入储存器时,第一和第四制冷剂通道打开。
    • 10. 发明授权
    • Oil content measuring device and refrigeration system using the same
    • 含油量测量装置和制冷系统采用相同的方法
    • US06776029B2
    • 2004-08-17
    • US10271678
    • 2002-10-15
    • Tadashi HottaYukikatsu OzakiToshio Hirata
    • Tadashi HottaYukikatsu OzakiToshio Hirata
    • G01N3330
    • F25B31/002F25B2309/061F25B2500/19F25B2700/03G01N33/30
    • An oil content measuring device measures the oil content of a refrigerant in a supercritical or a vapor phase state. A refrigeration system uses the oil content measuring device. The oil content measuring device has an electrostatic capacity measuring device for measuring an electrostatic capacity of the refrigerant containing a refrigerating machine oil, a density measuring device for measuring a density of at least one of the refrigerant and the refrigerating machine oil, a computing device for performing a computation on correlation characteristics between the electrostatic capacity and an oil content which indicates the ratio of the amount of the refrigerating machine oil to the amount of the refrigerant containing the refrigerating machine oil, using the density measured by the density measuring device. An oil content determining device determines an oil content at the measuring time from an electrostatic capacity using the correlation characteristics obtained by the computing device.
    • 含油量测量装置测量超临界或汽相状态的制冷剂的油含量。 制冷系统使用含油量测量装置。 含油量测量装置具有用于测量含有冷冻机油的制冷剂的静电容量的静电电容测量装置,用于测量至少一个制冷剂和冷冻机油的密度的浓度测量装置,用于 利用密度测定装置测定的密度,对表示冷冻机油的量与含有冷冻机油的制冷剂的比例的静电电容与含油量之间的相关特性进行计算。 油含量确定装置使用由计算装置获得的相关特性,从静电容量确定测量时刻的油含量。