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    • 1. 发明授权
    • Heat pump system
    • 热泵系统
    • US09360226B2
    • 2016-06-07
    • US13518629
    • 2009-12-28
    • Masahiro Honda
    • Masahiro Honda
    • F24F3/06F25B7/00F25B13/00F25B30/00F25B29/00F25B25/00
    • F24F3/06F24F2203/021F25B7/00F25B13/00F25B25/005F25B29/003F25B2313/02743F25B2400/06F25B2600/02F25B2600/13Y02B30/745
    • A heat pump system includes a heat-source-side refrigerant circuit and a controller. The heat-source-side refrigerant circuit has a plurality of usage units having usage-side heat exchangers. The plurality of usage units are connected to a heat source unit having a plurality of heat-source-side heat exchangers and a heat-source-side compressor configured to compress a heat-source-side refrigerant. The controller causes the plurality of heat-source-side heat exchangers to function as evaporators and radiators of heat-source-side refrigerant to perform an air-cooling operation and an air-warming operation using an aqueous medium. The heat pump system operates so that the heat-source-side condensing temperature is below 40° C. in the case that an outside air temperature is 25° C. or lower and the cooling and heating operations coexist.
    • 热泵系统包括热源侧制冷剂回路和控制器。 热源侧制冷剂回路具有使用侧热交换器的多个使用单元。 多个使用单元连接到具有多个热源侧热交换器的热源单元和构造成压缩热源侧制冷剂的热源侧压缩机。 控制器使得多个热源侧热交换器用作热源侧制冷剂的蒸发器和散热器,以使用水性介质进行制冷运转和制热运转。 在外部空气温度为25℃以下并且冷却和加热操作共存的情况下,热泵系统工作,使得热源侧冷凝温度低于40℃。
    • 3. 发明授权
    • Heat pump system
    • 热泵系统
    • US08769974B2
    • 2014-07-08
    • US13202608
    • 2010-02-23
    • Masahiro Honda
    • Masahiro Honda
    • F25B7/00F25B13/00F25B41/04
    • F24D3/18F24D3/08F24D2200/12F24H6/00F25B7/00F25B13/00F25B2313/003F25B2313/007F25B2313/0231F25B2313/02741F25B2313/0294F25B2600/13Y02B30/745
    • A heat pump system includes a heat source unit, a first usage unit, and a second usage unit. The heat source unit has a heat-source-side compressor, a heat-source-side heat exchanger, a heat-source-side blower and a heat-source-side switching mechanism. The first usage unit has at least a radiation amount adjusting element and a first usage-side flow rate adjustment valve. The second usage unit has at least a second usage-side flow rate adjustment valve. In a case in which the second usage unit performs an air-cooling operation and the first usage unit performs an aqueous medium heating operation, the amount of radiation adjusted by the radiation amount adjusting element or operating capacity of the heat-source-side blower is controlled in accordance with a state of the first usage-side flow rate adjustment valve and the second usage-side flow rate adjustment valve.
    • 热泵系统包括热源单元,第一使用单元和第二使用单元。 热源单元具有热源侧压缩机,热源侧热交换器,热源侧风扇和热源侧开关机构。 第一使用单元至少具有辐射量调节元件和第一使用侧流量调节阀。 第二使用单元具有至少第二使用侧流量调节阀。 在第二使用单元进行制冷运转并且第一使用单元进行水介质加热运转的情况下,由辐射量调节元件调节的放射线量或者热源侧鼓风机的运转容量为 根据第一使用侧流量调节阀和第二使用侧流量调节阀的状态进行控制。
    • 4. 发明申请
    • GAS LASER OSCILLATOR HAVING FUNCTION FOR JUDGING DISCHAGE INITIATION
    • 气体激光振荡器具有判断功能
    • US20110243168A1
    • 2011-10-06
    • US13038548
    • 2011-03-02
    • Hajime IkemotoMasahiro Honda
    • Hajime IkemotoMasahiro Honda
    • H01S3/10
    • H01S3/0971H01S3/036H01S3/073H01S3/134
    • A gas laser oscillator capable of initiating discharge, without applying excess voltage to a discharge tube, and correctly and rapidly judging the initiation of discharge. The oscillator has a laser power commanding part adapted to generate a laser power command including a pulse superimposed on a forefront of each step, a voltage applying part adapted to apply a voltage to a discharge tube based on the laser power command, a discharge tube voltage detecting part adapted to detect the discharge tube voltage, a discharge tube voltage monitoring part adapted to monitor the discharge tube voltage, and a discharge initiation judging part adapted to judge that the discharge is initiated when the difference, between a change rate of the monitored voltage and a change rate of the discharge tube voltage predetermined based on data obtained while the discharge is normally carried out, is smaller than a predetermined threshold.
    • 能够在不向放电管施加过电压的情况下开始放电的气体激光振荡器,能够正确,快速地判断放电的开始。 所述振荡器具有激光功率指令部,其适于产生包括叠加在每一步最前面的脉冲的激光功率指令,适用于基于所述激光功率指令向放电管施加电压的电压施加部,放电管电压 用于检测放电管电压的检测部分,适于监测放电管电压的放电管电压监测部分,以及适于在所监视电压的变化率之间的差异判断放电开始的放电开始判定部分 并且基于在正常进行放电时获得的数据预先确定的放电管电压的变化率小于预定阈值。
    • 6. 发明授权
    • Air conditioner
    • 冷气机
    • US07395674B2
    • 2008-07-08
    • US10578674
    • 2005-06-30
    • Masahiro Honda
    • Masahiro Honda
    • F25B27/00
    • F25B49/027F25B13/00F25B31/004F25B2313/021F25B2313/0231F25B2313/02742F25B2400/13
    • An air conditioner has a heat source refrigerant circuit, utilization refrigerant circuits, a pressurizing circuit, and a cooler. The heat source refrigerant circuit is configured by an interconnection of a compression mechanism, a heat source heat exchanger, and a heat source expansion valve that reduces a pressure of refrigerant condensed in the heat source heat exchanger. The pressurizing circuit is disposed in the heat source refrigerant circuit and causes high-pressure gas refrigerant compressed in the compression mechanism to merge with a refrigerant having a pressure that is reduced in the heat source expansion valve. The refrigerant is sent to the utilization refrigerant circuits. The cooler cools the refrigerant having the pressure that is reduced in the heat source expansion valve.
    • 空调器具有热源制冷剂回路,利用制冷剂回路,加压回路和冷却器。 热源制冷剂回路由压缩机构,热源热交换器和热源膨胀阀的互连构成,该热源膨胀阀降低在热源热交换器中冷凝的制冷剂的压力。 加压回路设置在热源制冷剂回路中,使得在压缩机构中被压缩的高压气体制冷剂与在热源膨胀阀中具有减压的制冷剂合流。 制冷剂被送到利用制冷剂回路。 冷却器冷却具有在热源膨胀阀中减小的压力的制冷剂。