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    • 1. 发明申请
    • Supercritical pressure regulation of economized refrigeration system by use of an interstage accumulator
    • 经济型制冷系统的超临界压力调节采用级间蓄能器
    • US20040250568A1
    • 2004-12-16
    • US10459285
    • 2003-06-11
    • Tobias H. Sienel
    • F25B039/02F25B041/00
    • F25B9/008F25B1/10F25B43/006F25B2309/061F25B2400/13F25B2400/16F25B2600/17F25B2600/2501F25B2600/2509F25B2700/19
    • Refrigerant is circulated through an economized refrigeration system including a compressor, a gas cooler, a main expansion device, an economizer heat exchanger and an evaporator. After cooling, the refrigerant splits into an economizer flow path and a main flow path. Refrigerant in the economizer flow path is expanded to a low pressure and exchanges heat with the refrigerant in the main flow path in the economizer heat exchanger. The refrigerant in the main flow path is then expanded and heated in the evaporator and enters the compressor, completing the cycle. An accumulator positioned between the economizer heat exchanger and the compressor stores excess refrigerant in the system, regulating the amount of refrigerant in the system and the high pressure in the system. The amount of refrigerant in the accumulator is controlled by regulating the economizer expansion device. By adjusting the amount of refrigerant in the accumulator, the amount of refrigerant in the system, and therefore the high pressure of the system, can be regulated.
    • 制冷剂通过包括压缩机,气体冷却器,主膨胀装置,节能器热交换器和蒸发器的经济的制冷系统循环。 冷却后,制冷剂分解成节约者流路和主流路。 节能器流路中的制冷剂膨胀到低压并与节能热交换器中的主流路中的制冷剂进行热交换。 主流路中的制冷剂然后在蒸发器中膨胀和加热并进入压缩机,从而完成循环。 位于节能器热交换器和压缩机之间的蓄能器在系统中存储多余的制冷剂,调节系统中的制冷剂量和系统中的高压。 通过调节节能器膨胀装置来控制蓄能器中的制冷剂量。 通过调节蓄液器中的制冷剂量,可以调节系统中的制冷剂量,从而调节系统的高压。
    • 4. 发明申请
    • Multi-type air conditioner with plurality of distributor able to be shutoff
    • 具有多个分配器的多功能空调可以关闭
    • US20040139755A1
    • 2004-07-22
    • US10726567
    • 2003-12-04
    • LG Electronics Inc.
    • Jong Han ParkYoung Min ParkChang Seon LeeSung Oh ChoiSung Chun KimSeung Yong ChangSeok Ho YoonBaik Young Chung
    • F25B005/00F25B039/02
    • F25B5/02F25B13/00F25B41/04F25B2313/007F25B2313/0231F25B2313/0232F25B2313/02331F25B2313/02334
    • Multi-type air conditioner including an outdoor unit installed in an outdoor, including a compressor, a refrigerant flow controlling part connected to a discharge end of the compressor for guiding the refrigerant proper to operation conditions selectively, and an outdoor heat exchanger connected to the refrigerant flow controlling part, a plurality of indoor units each installed in a room and having an indoor heat exchanger and an electronic expansion valve having one end connected to one end of the indoor heat exchanger, a plurality of, at least two, distributors between the outdoor unit and the plurality of indoor units for improving installation freedom of the plurality of indoor units, selectively guiding refrigerant from the outdoor unit to the plurality of indoor units proper to operation conditions, and guiding the refrigerant passed through the indoor units to the outdoor unit again, and a device for shutting off introduction of the refrigerant into the distributors connected to inoperative indoor units.
    • 多室型空调机,其包括设置在户外的室外机,包括压缩机,连接到压缩机的排出端的制冷剂​​流量控制部分,用于选择性地引导适合于操作条件的制冷剂;以及与制冷剂相连的室外热交换器 流量控制部分,多个室内单元,每个室内单元安装在室内并具有室内热交换器和电子膨胀阀,其一端连接到室内热交换器的一端;多个至少两个分配器,位于室外 单元和多个室内单元,用于提高多个室内机的安装自由度,选择性地将制冷剂从室外机引导到适合于操作条件的多个室内机,并且将通过室内机的制冷剂再次引导到室外机 以及用于关闭将制冷剂引入连接的分配器t的装置 o室内机不工作。
    • 6. 发明申请
    • Multi-load thermal regulating system having electronic valve control
    • 具有电子阀门控制功能的多负载热调节系统
    • US20040079101A1
    • 2004-04-29
    • US10684480
    • 2003-10-15
    • Adbdlmonem H. BeitelmalCullen E. BashChandrakant D. Patel
    • F25B041/00F25B049/00F25D023/12B62D005/04F25B039/02
    • H01L23/34F25B5/04F25B49/022F25B2600/025F25B2700/2117G06F1/206H01L2924/0002H01L2924/00
    • System and method for reducing temperature variation among components in a multi-component system. In this respect, component temperatures are controlled to remain relatively constant (approximately within 5null C.) with respect to other components, while allowing for multiple fluctuating heat loads between components. A refrigeration system possessing a variable capacity (speed) compressor and an electronic valve is utilized to control the flow of refrigerant through the refrigeration system. The temperature of the components is reduced by metering the mass flow rate of the refrigerant cooling the components to compensate for the heat load applied to the refrigeration system. The temperature variation among the components is reduced by supplemental heaters independently providing heat to respective evaporators of any relatively inactive, and therefore relatively cooler, component with respect to other components, the supplemental heater may add heat to the respective evaporator, such that the temperature of the relatively inactive component is not reduced below the specified temperature range.
    • 用于降低多组分体系中组分之间的温度变化的系统和方法。 在这方面,组件温度被控制为相对于其他部件保持相对恒定(大约在5℃内),同时允许部件之间的多个波动的热负荷。 使用具有可变容量(速度)压缩机和电子阀的制冷系统来控制通过制冷系统的制冷剂的流动。 通过计量冷却组件的制冷剂的质量流量来补偿组件的温度,以补偿施加到制冷系统的热负荷。 通过补充加热器,通过补充加热器相对于其他部件独立地向相应的蒸发器提供任何相对不活泼且因此相对较冷的部件来降低部件之间的温度变化,补充加热器可以将热量加热到相应的蒸发器,使得温度 相对无活性的组分不会降低到低于规定的温度范围。
    • 10. 发明申请
    • Temperature control method for refrigerator
    • 冰箱温度控制方法
    • US20040025534A1
    • 2004-02-12
    • US10606281
    • 2003-06-24
    • SANKYO SEIKI MFG. CO., LTD.
    • Shigeru OzawaTetsuhiko Hara
    • F25B005/00F25B039/02
    • F25B41/04F16K31/043F16K31/535F25B5/02F25B2500/01F25B2600/2511
    • A temperature control method for a refrigerator includes providing a valve device, in which an inflow port where a refrigerant flows into, at least two outflow ports having a first outflow port and a second outflow port where the refrigerant flows out, and a valve element for performing opening/closing of the outflow ports are positioned in a sealed space. The method also includes providing a valve element drive device for driving the valve element. The method further includes controlling the valve element drive device, at the time a power source of the refrigerator is turned on, to reciprocate between a first mode as an OPEN-CLOSE mode and a second mode on a CLOSE-OPEN mode until a temperature in a first chamber where the refrigerant is supplied through the first outflow port, and a temperature in a second chamber where the refrigerant is supplied through the second outflow port, are lowered to reach to a prescribed temperature.
    • 一种冰箱的温度控制方法,其特征在于,具备:制冷剂流入的流入口的阀装置,具有第一流出口和制冷剂流出的第二流出口的至少两个流出口;以及阀元件, 执行打开/关闭流出口位于密封空间中。 该方法还包括提供用于驱动阀元件的阀元件驱动装置。 该方法还包括在冰箱的电源打开的时候控制阀元件驱动装置,以在第一模式作为OPEN-CLOSE模式和CLOSE-OPEN模式之间的第二模式之间往复运动,直到温度 通过第一流出口供给制冷剂的第一室和通过第二流出口供给制冷剂的第二室中的温度降低到规定温度。