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    • 4. 发明授权
    • Expansion valve, heat pump type refrigeration cycle apparatus, and air handling unit
    • 膨胀阀,热泵式制冷循环装置和空气处理单元
    • US08157183B2
    • 2012-04-17
    • US12402134
    • 2009-03-11
    • Takahito HayashiHideki SekiguchiYutaka Kaneko
    • Takahito HayashiHideki SekiguchiYutaka Kaneko
    • F25B41/04F25B41/06
    • F25B41/062F25B13/00F25B2341/0652Y02B30/72
    • A first expansion valve is provided in an outdoor unit, and a second expansion valve is provided in an indoor unit. A pipe line connects a first joint pipe of the first expansion valve and a second joint pipe of the second expansion valve. When a refrigerant flows in from the second joint pipe and flows out from the first joint pipe, the first and second expansion valves are in a full open state due to pressure of the refrigerant. When the refrigerant flows in from the first joint pipe and flows out from the second joint pipe, the first and second expansion valves are in semi-closed state (flow rate controlling state). In a cooling mode, the second expansion valve expands the refrigerant just before an indoor heat exchanger, and in a heating mode, the first expansion valve expands the refrigerant just before an outdoor heat exchanger. In both heating and cooling mode, a large amount of refrigerant flows through the pipe line to reduce pressure loss.
    • 第一膨胀阀设置在室外机中,第二膨胀阀设置在室内机。 管路连接第一膨胀阀的第一接头管和第二膨胀阀的第二接头管。 当制冷剂从第二关节管流入并从第一关节管流出时,第一和第二膨胀阀由于制冷剂的压力而处于全开状态。 当制冷剂从第一关节管流入并从第二关节管流出时,第一和第二膨胀阀处于半闭合状态(流量控制状态)。 在冷却模式中,第二膨胀阀刚好在室内热交换器之前膨胀制冷剂,并且在加热模式下,第一膨胀阀在室外热交换器之前膨胀制冷剂。 在加热和冷却两种模式下,大量制冷剂流过管道,以减少压力损失。
    • 5. 发明申请
    • EXPANSION VALVE, HEAT PUMP TYPE REFRIGERATION CYCLE APPARATUS, AND AIR HANDLING UNIT
    • 膨胀阀,热泵式制冷循环装置和空气处理装置
    • US20090293520A1
    • 2009-12-03
    • US12402134
    • 2009-03-11
    • Takahito HayashiHideki SekiguchiYutaka Kaneko
    • Takahito HayashiHideki SekiguchiYutaka Kaneko
    • F25B41/04F25B13/00
    • F25B41/062F25B13/00F25B2341/0652Y02B30/72
    • A first expansion valve is provided in an outdoor unit, and a second expansion valve is provided in an indoor unit. A pipe line connects a first joint pipe of the first expansion valve and a second joint pipe of the second expansion valve. When a refrigerant flows in from the second joint pipe and flows out from the first joint pipe, the first and second expansion valves are in a full open state due to pressure of the refrigerant. When the refrigerant flows in from the first joint pipe and flows out from the second joint pipe, the first and second expansion valves are in semi-closed state (flow rate controlling state). In a cooling mode, the second expansion valve expands the refrigerant just before an indoor heat exchanger, and in a heating mode, the first expansion valve expands the refrigerant just before an outdoor heat exchanger. In both heating and cooling mode, a large amount of refrigerant flows through the pipe line to reduce pressure loss.
    • 第一膨胀阀设置在室外机中,第二膨胀阀设置在室内机。 管路连接第一膨胀阀的第一接头管和第二膨胀阀的第二接头管。 当制冷剂从第二关节管流入并从第一关节管流出时,第一和第二膨胀阀由于制冷剂的压力而处于全开状态。 当制冷剂从第一关节管流入并从第二关节管流出时,第一和第二膨胀阀处于半闭合状态(流量控制状态)。 在冷却模式中,第二膨胀阀刚好在室内热交换器之前膨胀制冷剂,并且在加热模式下,第一膨胀阀在室外热交换器之前膨胀制冷剂。 在加热和冷却两种模式下,大量制冷剂流过管道,以减少压力损失。
    • 9. 发明授权
    • Speed ratio control system of continuously variable transmission
    • 无级变速器变速比控制系统
    • US06430491B1
    • 2002-08-06
    • US09622023
    • 2000-08-11
    • Kazutaka AdachiYutaka KanekoHiroyuki Ashizawa
    • Kazutaka AdachiYutaka KanekoHiroyuki Ashizawa
    • F16H6102
    • F16H61/66254F16H61/66259Y10T477/6242
    • A control unit of a continuously variable transmission computes a speed ratio command value based on a final target ratio, a time constant representing a predetermined dynamic characteristic and a time constant representing an estimated dynamic characteristic of the transmission so that a real speed ratio approaches the final target ratio according to a running state under the predetermined dynamic characteristic. A transient target ratio is computed based on the final target ratio and time constant representing the predetermined dynamic characteristic, a correction amount of the speed ratio command value is computed based on the difference between the transient target ratio and real speed ratio, and the transmission is controlled based on the speed ratio command value after correction by this correction amount. In this way, the difference between the transient target ratio and real speed ratio is reduced and a desired speed ratio response is obtained even when the operation of a speed ratio mechanism is limited and the real speed ratio has shifted from the transient target ratio.
    • 无级变速器的控制单元基于最终目标比率计算速比指令值,表示预定动态特性的时间常数和表示变速器的估计动态特性的时间常数,使得实际速比接近最终 目标比例根据预定动态特性下的运行状态。 基于表示预定动态特性的最终目标比和时间常数来计算瞬时目标比,基于瞬时目标比和实际速比之间的差来计算速比指令值的校正量,并且传输是 基于通过该校正量校正后的速比指令值进行控制。 以这种方式,即使当速比机构的操作受限并且实际速比已经从瞬时目标比率偏移时,瞬态目标比和实际速比之间的差减小并且获得期望的速比响应。
    • 10. 发明授权
    • Dual-stream filling valve
    • 双流灌装阀
    • US5992455A
    • 1999-11-30
    • US165461
    • 1998-10-02
    • Adam KollerSven-Arne AnderssonBengt AnderssonYutaka Kaneko
    • Adam KollerSven-Arne AnderssonBengt AnderssonYutaka Kaneko
    • B65B3/32B65B37/06B65B39/00B67C3/04B67C3/20B67C3/28F16K11/22F16K21/00B67D5/54B67D5/00
    • B65B37/06B65B3/326B65B39/00B65B39/004B67C3/04B67C3/208B65B2039/009Y10T137/87684Y10T137/87692
    • A dual-stream filling system is used in a packaging machine to introduce at least two flowable materials into a plastic bottle. The dual-stream filling system defines a material flow path therethrough. The system includes a primary filling tube having an inlet end and a discharge end and defining a primary filling tube internal flow region. A secondary filling tube has an inlet end and an outlet end and defines a secondary filling tube internal flow region. The secondary filling tube is positioned at least in part within the primary filling tube internal flow region, penetrating the primary filling tube through the first opening. The dual-stream fill system includes a valve plug that includes a portion that is movable relative to the secondary filling tube between an opened state wherein flow communication is established between the internal flow regions of the primary and secondary filling tubes and a closed state wherein flow communication is terminated between the internal flow regions of the primary and secondary filling tubes. An actuator is provided for moving the valve plug portion between the opened and closed positions. The actuator is disposed fully external of the secondary filling tube flow region.
    • 在包装机中使用双流灌装系统将至少两种可流动材料引入塑料瓶中。 双流填充系统限定了通过其中的材料流动路径。 该系统包括具有入口端和排出端并限定主填充管内部流动区域的主填充管。 辅助填充管具有入口端和出口端,并且限定了第二填充管内部流动区域。 第二填充管至少部分地位于主填充管内部流动区域内,穿过第一开口穿过主填充管。 双流填充系统包括阀塞,该阀塞包括可在第二填充管的内部流动区域之间建立流动连通的打开状态之间相对于辅助填充管可移动的部分,以及关闭状态,其中流动 在第一和第二填充管的内部流动区域之间终止连通。 提供致动器用于在打开位置和关闭位置之间移动阀塞部分。 致动器设置在第二填充管流动区域的完全外部。