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    • 1. 发明授权
    • Heat treat hot gas system
    • 热处理热气系统
    • US06735967B1
    • 2004-05-18
    • US10278418
    • 2002-10-23
    • Kevin BischelKenneth MoshierMartin SingletaryRobert K. NewtonPeter McNamee
    • Kevin BischelKenneth MoshierMartin SingletaryRobert K. NewtonPeter McNamee
    • F25B4100
    • F25B5/02A23G9/08A23G9/163A23G9/222A23G9/225A23G9/228F25B40/00F25B41/04F25B41/043F25B47/022F25B2600/0272F25B2600/2501F25B2600/2513
    • A hot gas heat treat system is employed to cool mix in a hopper and a freezing cylinder and to heat the mix for pasteurization. A hopper liquid line solenoid valve at the inlet of the hopper and a cylinder liquid line solenoid valve at the inlet of the freezing cylinder each control the flow of refrigerant to the expansion valves which further control the flow of refrigerant that flows around the hopper and the freezing cylinder, respectively. A hopper hot gas solenoid valve at the inlet of the hopper and a cylinder hot gas solenoid valve at the inlet of the freezing cylinder control the flow of refrigerant from the compressor that flows around the hopper and the freezing cylinder. The system further includes a hot gas bypass valve that is opened when only the hopper is being cooled to provide additional load to the compressor. An EPR valve is positioned proximate to the hopper discharge to vary the temperature of the refrigerant exchanging heat with the hopper. A CPR valve is employed to control the inlet pressure of the compressor by reducing the amount of hot refrigerant flowing into the compressor suction. The system further includes a TREV valve to allow for liquid refrigerant injection to the compressor suction to control excessive compressor discharge during the cool cycle.
    • 采用热气体热处理系统来冷却料斗和冷冻缸中的混合物,并加热混合物进行巴氏消毒。 在料斗入口处的料斗液体线电磁阀和冷冻缸入口处的气缸液体线电磁阀分别控制制冷剂流向膨胀阀的流量,该膨胀阀进一步控制在料斗周围流动的制冷剂的流动, 冷冻缸。 在料斗入口处的料斗热气体电磁阀和冷冻缸入口处的气缸热气体电磁阀控制来自围绕料斗和冷冻缸流动的压缩机的制冷剂流。 该系统还包括一个热气旁路阀,当只有料斗被冷却以向压缩机提供额外的负载时才打开。 EPR阀定位成靠近料斗排出口,以改变与料斗交换热量的制冷剂的温度。 CPR阀通过减少流入压缩机吸入口的热制冷剂的量来控制压缩机的入口压力。 该系统还包括一个TREV阀,以允许液体致冷剂喷射到压缩机吸力,以在冷却循环期间控制过多的压缩机排放。
    • 3. 发明授权
    • Discontinuous cryogenic mixed gas refrigeration system and method
    • 不连续低温混合气体制冷系统及方法
    • US06644067B2
    • 2003-11-11
    • US10010010
    • 2001-11-09
    • James Stenhouse
    • James Stenhouse
    • F25B4100
    • B01D46/543B01D5/0054B01D46/003B01D46/4263F25B9/006F25B2400/075F25B2500/26
    • A closed circuit refrigeration system of successive coalescent/depth filters provides the almost total removal of liquid refrigerants from a refrigeration gas stream. The liquid refrigerant so extracted is then be returned to the suction side through a metering device such as a capillary line to provide intermediate cooling of the oncoming discharge gas. The auto cascade system utilizes short path plate heat exchangers. The properties of coalescent/depth filters place a physical barrier between the differing temperature/pressure regimes on the discharge side of the system. The provision of a start valve in a line connecting the gas discharge path and the return path close to the cryo-coil enables the use of hermetic compressors and eliminates the requirement for supplementary pressure vessels within auto-cascade cryogenic refrigeration systems.
    • 连续的聚结/深度过滤器的闭路冷冻系统几乎完全从制冷气流中去除液体致冷剂。 然后将如此抽出的液体制冷剂通过诸如毛细管线的计量装置返回到吸入侧,以提供迎面而来的放电气体的中间冷却。 自动级联系统采用短路板式换热器。 聚结/深度过滤器的性质在系统排放侧的不同温度/压力状态之间形成物理屏障。 在连接气体排放路径和靠近冷冻线圈的返回路径的管路中设置起动阀使得能够使用密封式压缩机并且消除了对自动级联低温制冷系统内的辅助压力容器的要求。
    • 4. 发明授权
    • Air conditioning system and tubing apparatus to prevent heat gain due to engine compartment heat
    • 空调系统和管道装置,以防止发动机室热量引起的热量增加
    • US06615610B1
    • 2003-09-09
    • US10183247
    • 2002-06-26
    • Edward Douglas PettittJohn Paul TeleszJing Zheng
    • Edward Douglas PettittJohn Paul TeleszJing Zheng
    • F25B4100
    • F25B40/00B60H1/00342B60H1/00571F25B43/003F25B2341/0683F25B2400/16F25B2500/18
    • A concentric tubing apparatus prevents heat gain in an air conditioning system. The heat gain results from heat generated in an engine compartment of a vehicle. To accomplish this, the tubing apparatus includes a first and second refrigerant tubes. The first refrigerant tube is in fluid communication with a receiver and an evaporator of the air conditioning system to accommodate the flow of the refrigerant from the receiver to the evaporator, and the second refrigerant tube is in fluid communication with the receiver and the evaporator to accommodate the flow of the refrigerant from the evaporator to the receiver. The second refrigerant tube is disposed concentrically about the first refrigerant tube such that the second refrigerant tube insulates the refrigerant flowing in the first refrigerant tube from the heat generated in the engine compartment. Thus, heat gain in the refrigerant flowing in the first refrigerant tube to the evaporator is prevented.
    • 同心管装置防止空气调节系统中的热量增加。 热量增益是由车辆发动机舱内产生的热量产生的。 为了实现这一点,管道装置包括第一和第二制冷剂管。 第一制冷剂管与空调系统的接收器和蒸发器流体连通,以适应制冷剂从接收器到蒸发器的流动,并且第二制冷剂管与接收器和蒸发器流体连通以容纳 制冷剂从蒸发器流到接收器。 第二制冷剂管围绕第一制冷剂管同心地设置,使得第二制冷剂管将在第一制冷剂管中流动的制冷剂与在发动机室中产生的热量隔离。 因此,防止在第一制冷剂管中流向蒸发器的制冷剂的热增益。