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    • 1. 发明授权
    • Refrigerant quantity determining system of air conditioner
    • 空调制冷剂量决定系统
    • US08215121B2
    • 2012-07-10
    • US11887935
    • 2006-04-06
    • Manabu YoshimiTakahiro YamaguchiTadafumi NishimuraShinichi Kasahara
    • Manabu YoshimiTakahiro YamaguchiTadafumi NishimuraShinichi Kasahara
    • F25B45/00G01K13/00G05D23/00
    • F25B49/005F24F11/83F25B13/00F25B2313/02741F25B2500/222F25B2600/07F25B2600/21F25B2700/04
    • In a multi-type air conditioner, the adequacy of the refrigerant quantity charged in the air conditioner can be accurately determined, even when the refrigerant quantity charged on site is inconsistent, or even when a reference value of the operation state quantity, which is used for determining the adequacy of the refrigerant quantity, fluctuates depending on the pipe length of the refrigerant communication pipe, combination of utilization units, and the difference in the installation height among each unit. In an air conditioner (1) including a refrigerant circuit (10) configured by the interconnection of a heat source unit (2) and utilization units (4, 5) via refrigerant communication pipes (6, 7), a refrigerant quantity determining system determines the adequacy of the refrigerant quantity and includes a state quantity storing means and a refrigerant quantity determining means. The state quantity storing means stores the operation state quantity of constituent equipment or the refrigerant flowing in the refrigerant circuit (10) in which refrigerant is charged up to an initial refrigerant quantity by on-site refrigerant charging. The refrigerant quantity determining means compares the operation state quantity during test operation as a reference value with a current value of the operation state quantity, and thereby determines the adequacy of the refrigerant quantity.
    • 在多式空调机中,即使在现场充电的制冷剂量不一致的情况下,即使使用了使用的运转状态量的基准值,也能够准确地确定在空调机中充填的制冷剂量的充分性 为了确定制冷剂量的充足性,根据制冷剂连通配管的管长,利用单元的组合以及各单元之间的安装高度的差异而波动。 在包括通过热源单元(2)与利用单元(4,5)的互连构成的制冷剂回路(10)的制冷剂回路(1)中,制冷剂量决定系统 制冷剂量足够,并且包括状态量存储装置和制冷剂量确定装置。 状态量存储装置将通过现场制冷剂充注将制冷剂充入的制冷剂回路(10)中流动的制冷剂的运转状态量存储到初始制冷剂量。 制冷剂量确定装置将测试操作期间的操作状态量作为参考值与操作状态量的当前值进行比较,从而确定制冷剂量的适当性。
    • 2. 发明授权
    • Air conditioner
    • 冷气机
    • US07946121B2
    • 2011-05-24
    • US12096693
    • 2006-12-12
    • Takahiro YamaguchiTadafumi NishimuraManabu YoshimiShinichi Kasahara
    • Takahiro YamaguchiTadafumi NishimuraManabu YoshimiShinichi Kasahara
    • F25B45/00F25B49/00
    • F25B13/00F25B45/00F25B49/005F25B2313/023F25B2313/02741F25B2400/13F25B2500/19F25B2600/13F25B2600/21F25B2700/04Y02B30/745
    • An air conditioner includes a refrigerant circuit, a refrigerant quantity calculating section, and a refrigerant quantity judging section. The refrigerant circuit is configured by the interconnection of a compressor, an outdoor heat exchanger, and an indoor heat exchanger. The refrigerant quantity calculating section uses a relational expression between the refrigerant quantity in each portion of the refrigerant circuit when the refrigerant circuit is divided into a plurality of portions and an operation state quantity of constituent equipment or refrigerant flowing in the refrigerant circuit in order to calculate the refrigerant quantity in each portion from the operation state quantity of constituent equipment or refrigerant flowing in the refrigerant circuit. The refrigerant quantity judging section uses the refrigerant quantity in each portion calculated by the refrigerant quantity calculating section in order to judge the adequacy of the refrigerant quantity in the refrigerant circuit.
    • 空调机包括制冷剂回路,制冷剂量计算部和制冷剂量判定部。 制冷剂回路由压缩机,室外热交换器和室内热交换器的互连构成。 制冷剂量计算部使用将制冷剂回路分成多个部分的制冷剂回路的各部分的制冷剂量与在制冷剂回路中流动的构成设备或制冷剂的运转状态量之间的关系式来计算 从制冷剂回路中流动的构成设备或制冷剂的运转状态量的各部分的制冷剂量。 制冷剂量判定部使用由制冷剂量计算部计算出的各部分的制冷剂量,以判断制冷剂回路中的制冷剂量的合适性。
    • 3. 发明申请
    • Refrigerant Quantity Determining System of Air Conditioner
    • 空调制冷剂数量确定系统
    • US20090025406A1
    • 2009-01-29
    • US11887935
    • 2006-04-06
    • Manabu YoshimiTakahiro YamaguchiTadafumi NishimuraShinichi Kasahara
    • Manabu YoshimiTakahiro YamaguchiTadafumi NishimuraShinichi Kasahara
    • F25B49/00
    • F25B49/005F24F11/83F25B13/00F25B2313/02741F25B2500/222F25B2600/07F25B2600/21F25B2700/04
    • In a multi-type air conditioner, the adequacy of the refrigerant quantity charged in the air conditioner can be accurately determined, even when the refrigerant quantity charged on site is inconsistent, or even when a reference value of the operation state quantity, which is used for determining the adequacy of the refrigerant quantity, fluctuates depending on the pipe length of the refrigerant communication pipe, combination of utilization units, and the difference in the installation height among each unit. In an air conditioner (1) including a refrigerant circuit (10) configured by the interconnection of a heat source unit (2) and utilization units (4, 5) via refrigerant communication pipes (6, 7), a refrigerant quantity determining system determines the adequacy of the refrigerant quantity and includes a state quantity storing means and a refrigerant quantity determining means. The state quantity storing means stores the operation state quantity of constituent equipment or the refrigerant flowing in the refrigerant circuit (10) in which refrigerant is charged up to an initial refrigerant quantity by on-site refrigerant charging. The refrigerant quantity determining means compares the operation state quantity during test operation as a reference value with a current value of the operation state quantity, and thereby determines the adequacy of the refrigerant quantity.
    • 在多式空调机中,即使在现场充电的制冷剂量不一致的情况下,即使使用了使用的运转状态量的基准值,也能够准确地确定在空调机中充填的制冷剂量的充分性 为了确定制冷剂量的充足性,根据制冷剂连通配管的管长,利用单元的组合以及各单元之间的安装高度的差异而波动。 在包括通过热源单元(2)与利用单元(4,5)的互连构成的制冷剂回路(10)的制冷剂回路(1)中,制冷剂量确定系统确定 制冷剂量足够,并且包括状态量存储装置和制冷剂量确定装置。 状态量存储装置将通过现场制冷剂充注将制冷剂充入的制冷剂回路(10)中流动的制冷剂的运转状态量存储到初始制冷剂量。 制冷剂量确定装置将测试操作期间的操作状态量作为参考值与操作状态量的当前值进行比较,从而确定制冷剂量的适当性。
    • 6. 发明授权
    • Air conditioning apparatus and refrigerant quantity determination method
    • 空调设备和制冷剂量确定方法
    • US09459032B2
    • 2016-10-04
    • US12918911
    • 2009-02-26
    • Tadafumi NishimuraTakahiro Yamaguchi
    • Tadafumi NishimuraTakahiro Yamaguchi
    • F25B45/00F25B1/00F25B49/00F25B13/00
    • F25B49/005F25B13/00F25B2313/02741F25B2400/13F25B2500/19F25B2500/222F25B2600/2501F25B2600/2509F25B2700/04F25B2700/2115F25B2700/21152
    • An air conditioning apparatus and a refrigerant quantity determination method are provided, whereby a refrigerant quantity can be determined in a simple and accurate manner without compromising the reliability of a compressor. A refrigerant circuit (10) has a compressor (21), an outdoor heat exchanger (23) that functions as a condenser, an indoor expansion valve (41, 51), an indoor heat exchanger (42, 52) that functions as an evaporator, an indoor unit interconnection pipe (4b, 5b), a liquid refrigerant connection pipe (6), a gas refrigerant connection pipe (7), and an outdoor unit interconnection pipe (8). A controller (9) performs liquefaction control for liquefying refrigerant and placing the refrigerant in a portion extending from the indoor expansion valve (41, 51) to the outdoor heat exchanger (23). The controller (9) directly or indirectly regulates the flow rate of refrigerant flowing through a liquid bypass circuit (70) from a liquid reserving portion (Q) toward the gas refrigerant connection pipe (7). A liquid level detection sensor (39) detects at least one of either a volume of liquid refrigerant in the portion where liquid refrigerant accumulates and a physical quantity equivalent to the volume.
    • 提供一种空调装置和制冷剂量确定方法,由此可以简单而准确地确定制冷剂量,而不会影响压缩机的可靠性。 制冷剂回路(10)具有作为冷凝器的压缩机(21),室外热交换器(23),室内膨胀阀(41,51),作为蒸发器起作用的室内热交换器(42,52) 室内单元互连管(4b,5b),液体制冷剂连接管(6),气体制冷剂连接管(7)和室外单元互连配管(8)。 控制器(9)进行用于液化制冷剂的液化控制,并且将制冷剂置于从室内膨胀阀(41,51)延伸到室外热交换器(23)的部分。 控制器(9)直接或间接地调节从储液部分(Q)流向液体旁路回路(70)的制冷剂流向气体制冷剂连接管(7)的流量。 液面检测传感器(39)检测液体制冷剂积聚的部分中的液体制冷剂的体积和与体积相当的物理量中的至少一个。
    • 7. 发明授权
    • Air conditioning apparatus
    • 空调设备
    • US08919139B2
    • 2014-12-30
    • US12919045
    • 2009-02-25
    • Takurou YamadaMasato KotakeTakahiro YamaguchiTadafumi Nishimura
    • Takurou YamadaMasato KotakeTakahiro YamaguchiTadafumi Nishimura
    • G01K13/00F25B49/00F25B13/00
    • F25B49/005F25B13/00F25B2700/04
    • An air conditioning apparatus includes a refrigerant circuit, an operation controlling device and a liquid refrigerant accumulation determining device. The refrigerant circuit has an accumulator. The operation controlling device performs normal operation control where each device of the heat source unit and the utilization unit are controlled in accordance with operating load of the utilization unit, and refrigerant quantity determination operation control where properness of quantity of the refrigerant in the refrigerant circuit is determined while performing the cooling operation. The liquid refrigerant accumulation determining device determines whether or not liquid refrigerant is accumulating in the accumulator. When it has been determined that liquid refrigerant is accumulating in the accumulator, liquid refrigerant accumulation control is performed to eliminate liquid refrigerant accumulation in the accumulator.
    • 空调装置包括制冷剂回路,运转控制装置和液体制冷剂积存判定装置。 制冷剂回路具有蓄能器。 操作控制装置执行正常操作控制,其中根据利用单元的操作负荷来控制热源单元和利用单元的每个装置,以及制冷剂量确定操作控制,其中制冷剂回路中的制冷剂的适当度为 在执行冷却操作时确定。 液体制冷剂积存确定装置确定液体制冷剂是否积聚在蓄能器中。 当已经确定液体制冷剂积聚在蓄液器中时,进行液体制冷剂积聚控制以消除储液器中的液体制冷剂积聚。
    • 8. 发明申请
    • Hot water supply system
    • 热水供应系统
    • US20090211282A1
    • 2009-08-27
    • US11630617
    • 2005-07-01
    • Tadafumi NishimuraTakahiro Yamaguchi
    • Tadafumi NishimuraTakahiro Yamaguchi
    • F25B27/00F25B7/00
    • F25B30/06F24D17/02F24F5/0096F24F2221/183F25B7/00F25B13/00F25B2309/061F25B2313/003
    • A hot water supply system (10) is provided which includes a first refrigerant circuit (20), an intermediate temperature water circuit (40), a second refrigerant circuit (60), and a high temperature water circuit (80). The first refrigerant circuit (20) constitutes a heat pump which uses the outdoor air as a heat source, and heats heat transfer water in the intermediate temperature water circuit (40). In the intermediate temperature water circuit (40), the heat transfer water is circulated between a radiator (45) for floor heating and a first heat exchanger (30) and between a second heat exchanger (50) and the first heat exchanger (30). The second refrigerant circuit (60) constitutes a heat pump which uses the heat transfer water in the intermediate temperature water circuit (40) as a heat source, and heats water for hot water supply in the high temperature water circuit (80).
    • 提供一种热水供应系统(10),其包括第一制冷剂回路(20),中温水回路(40),第二制冷剂回路(60)和高温水回路(80)。 第一制冷剂回路(20)构成使用室外空气作为热源的热泵,并加热中间温度水回路(40)中的传热水。 在中间温度水回路(40)中,传热水在用于地板加热的散热器(45)和第一热交换器(30)之间以及在第二热交换器(50)和第一热交换器(30)之间循环, 。 第二制冷剂回路(60)构成使用中温水回路(40)中的传热水作为热源的热泵,并在高温水回路(80)中加热水供热水供给。
    • 10. 发明授权
    • Hot water supply system
    • 热水供应系统
    • US07640763B2
    • 2010-01-05
    • US11630617
    • 2005-07-01
    • Tadafumi NishimuraTakahiro Yamaguchi
    • Tadafumi NishimuraTakahiro Yamaguchi
    • F25B27/00
    • F25B30/06F24D17/02F24F5/0096F24F2221/183F25B7/00F25B13/00F25B2309/061F25B2313/003
    • A hot water supply system (10) is provided which includes a first refrigerant circuit (20), an intermediate temperature water circuit (40), a second refrigerant circuit (60), and a high temperature water circuit (80). The first refrigerant circuit (20) constitutes a heat pump which uses the outdoor air as a heat source, and heats heat transfer water in the intermediate temperature water circuit (40). In the intermediate temperature water circuit (40), the heat transfer water is circulated between a radiator (45) for floor heating and a first heat exchanger (30) and between a second heat exchanger (50) and the first heat exchanger (30). The second refrigerant circuit (60) constitutes a heat pump which uses the heat transfer water in the intermediate temperature water circuit (40) as a heat source, and heats water for hot water supply in the high temperature water circuit (80).
    • 提供一种热水供应系统(10),其包括第一制冷剂回路(20),中温水回路(40),第二制冷剂回路(60)和高温水回路(80)。 第一制冷剂回路(20)构成使用室外空气作为热源的热泵,并加热中间温度水回路(40)中的传热水。 在中间温度水回路(40)中,传热水在用于地板加热的散热器(45)和第一热交换器(30)之间以及在第二热交换器(50)和第一热交换器(30)之间循环, 。 第二制冷剂回路(60)构成使用中温水回路(40)中的传热水作为热源的热泵,并在高温水回路(80)中加热水供热水供给。