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    • 81. 发明公开
    • AIR CONDITIONING DEVICE
    • 空调装置
    • EP2410256A1
    • 2012-01-25
    • EP10753270.7
    • 2010-03-15
    • Daikin Industries, Ltd.
    • KINOSHITA, HidehikoYAMADA, Tsuyoshi
    • F24F11/02F25B1/00F25B13/00
    • F24F11/0009F24F11/30F24F2110/10F24F2110/12F25B13/00F25B47/022F25B2313/02741F25B2400/01F25B2500/02F25B2700/2104F25B2700/2106
    • An object of the present invention is to provide an air conditioner that can prevent wasteful heating of a refrigerant when the heating load or the load demanded by defrosting operation is large and that can quickly make a space to be air conditioned comfortable. The air conditioner ( 1 ) of the present invention comprises a heat generating member ( 11f ) , an electromagnetic induction heating unit ( 6 ), an air conditioning target space temperature detecting unit ( T42 ), an outdoor air temperature detecting unit ( T24 ), and a control unit ( 11 ). The heat generating member thermally contacts a refrigerant piping ( 10f ) and/or the refrigerant that flows through the refrigerant piping. The electromagnetic induction heating unit comprises a magnetic field generating part (68 ). The magnetic field generating part generates a magnetic field in order to heat the heat generating member by induction heating. The control unit, when the refrigeration cycle is performing heating operation or defrosting operation, inhibits the generation of the magnetic field by the magnetic field generating part in the case wherein the temperature of the space to be air conditioned and the outside air temperature do not satisfy a first prescribed condition or the case wherein temperature the difference between a target set temperature and the temperature of the space to be air conditioned does not satisfy a second prescribed condition.
    • 本发明的目的在于提供一种空气调节机,其能够在除霜运转所需的制热负荷或负荷大的情况下防止制冷剂的浪费性的发热,并且能够迅速地使空调舒适。 本发明的空调装置1包括发热部件11f,电磁感应加热部6,空调对象空间温度检测部T42,室外空气温度检测部T24, 和控制单元(11)。 发热部件与制冷剂配管(10f)和/或流过制冷剂配管的制冷剂热接触。 电磁感应加热单元包括磁场产生部分(68)。 磁场产生部分产生磁场以便通过感应加热来加热发热元件。 当制冷循环正在执行制热操作或除霜操作时,控制单元在待调节空间的温度和外部空气温度不满足的情况下阻止磁场产生部件产生磁场 第一规定条件或目标设定温度与待调节空间的温度之间的温度差不满足第二规定条件的情况。
    • 87. 发明公开
    • REFRIGERATION DEVICE
    • 制冷设备
    • EP2306127A1
    • 2011-04-06
    • EP09733732.3
    • 2009-04-20
    • Daikin Industries, Ltd.
    • FUJIMOTO, ShujiYOSHIMI, Atsushi
    • F25B47/02F25B1/00F25B1/10F25B13/00
    • F25B9/008F25B1/10F25B13/00F25B47/025F25B2309/061F25B2313/0272F25B2313/02741F25B2313/0315F25B2400/04F25B2400/072F25B2400/13F25B2400/23F25B2700/2106
    • An air-conditioning apparatus (1) uses carbon dioxide as a refrigerant, and has a two-stage compression-type compression mechanism (2), a heat source-side heat exchanger (4), an expansion mechanism (5), a usage-side heat exchanger (6), a switching mechanism (3), an intermediate heat exchanger (7) which functions as a cooler of refrigerant discharged from a first-stage compression element and drawn into a second-stage compression element, and an intermediate heat exchanger bypass tube (9). In the air-conditioning apparatus (1), the intermediate heat exchanger (7) is disposed above the heat source-side heat exchanger (4), and when a reverse cycle defrosting operation is performed for defrosting the heat source-side heat exchanger (4) by switching the switching mechanism (3) to a cooling operation state, the intermediate heat exchanger bypass tube (9) is used to ensure that refrigerant does not flow to the intermediate heat exchanger (7).
    • 空调装置(1)使用二氧化碳作为制冷剂,具有二级压缩式的压缩机构(2),热源侧热交换器(4),膨胀机构(5),用途 (6),切换机构(3),作为从前级侧压缩部件排出的制冷剂的冷却器而发挥功能的中间热交换器(7)被吸入后级侧压缩部件,中间热交换器 换热器旁路管(9)。 在空气调节装置(1)中,中间热交换器(7)配置在热源侧热交换器(4)的上方,在为了对热源侧热交换器(4)进行除霜而进行逆循环除霜运转时 4)通过将切换机构(3)切换到制冷运转状态,中间热交换器旁通管(9)用于确保制冷剂不流向中间热交换器(7)。
    • 88. 发明授权
    • REFRIGERATOR
    • 冰箱
    • EP1637818B1
    • 2011-03-02
    • EP04735979.9
    • 2004-06-03
    • DAIKIN INDUSTRIES, LTD.
    • HAYASHI, Koji, Yodogawa Works Of Daikin Ind.LtdKINOKAMI, Kenji, Yodogawa Works Of Daikin Ind.LtdMOMONO,Toshiyuki, Yodogawa Works Of Daikin Ind.Ltd
    • F25B13/00F25B29/00F25B1/00
    • F25B29/003F24D19/1072F24D2200/24F25B6/02F25B41/04F25B2500/19F25B2700/2106F25B2700/21161
    • A freezer apparatus has a discharge three-way valve (8) for connecting the discharge side of a compressor (1) to at least either a warm water heat exchanger (3) or an air heat exchanger (6) and has a suction three-way valve (9) for connecting the suction side of the compressor (1) to at least either the air heat exchanger (6) or a cold water heat exchanger (4). In an operation primarily for cooling, a controller (19) regulates the opening of the discharge three-way valve (8) such that a refrigerant with a flow rate higher than a minimum flow rate (Qs) determined based on an outside air temperature flows to the air heat exchanger (6). Because the refrigerant with a minimum flow rate at which refrigerant stagnation does not occur can be fed to the air heat exchanger (6) in accordance with a condensing pressure in the air heat exchanger (6), a flow rate range of the refrigerant fed to the warm water heat exchanger (3) can be made wider. As a result, temperature of warm water can be highly precisely controlled by the warm water heat exchanger (3).
    • 冷冻装置具有用于将压缩机(1)的排出侧与温水热交换器(3)或空气热交换器(6)中的至少一方连接的排出用三通阀(8) (9),用于将压缩机(1)的吸入侧连接到空气热交换器(6)或冷水热交换器(4)中的至少一个。 在主要用于冷却的操作中,控制器(19)调节排出三通阀(8)的开度,使得流量大于基于外部空气温度确定的最小流量(Qs)的制冷剂流动 到空气热交换器(6)。 因为可以根据空气热交换器(6)中的冷凝压力将没有发生制冷剂停滞的最小流量的制冷剂输送到空气热交换器(6),所以输入到 可以使温水热交换器3变宽。 其结果是,温水热交换器(3)能够高精度地控制温水的温度。