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    • 1. 发明申请
    • AIR CONDITIONER
    • 冷气机
    • US20120023984A1
    • 2012-02-02
    • US13148783
    • 2010-02-17
    • Tatsunori SakaiMasanori AokiHirokuni Shiba
    • Tatsunori SakaiMasanori AokiHirokuni Shiba
    • F25B49/02F25B49/00
    • F25B49/005F04B39/121F04B2201/0403F25B13/00F25B2313/006F25B2313/02741F25B2313/0315F25B2400/01F25B2500/27F25B2500/28F25B2700/2115
    • In a compressor shell built in an outdoor unit of an air conditioner, a compressor shell thermistor that detects a temperature of the shell is installed. Also, an outside air temperature thermistor that detects an outside air temperature is installed in an outdoor unit. The outside air temperature is compared with the compressor shell temperature, and if the shell temperature is higher than the outside air temperature, a compressor heating device is invalidated. If the shell temperature is lower than the outside air temperature, it is determined as a refrigerant collection condition, and the compressor heating device is operated. Also, if the shell temperature is higher than the outside air temperature by a certain temperature or more, the operation of the compressor heating device is stopped so that wasteful standby power is reduced, and energy of the apparatus is saved.
    • 在内置于空调的室外机的压缩机壳体中,安装有检测壳体的温度的压缩机壳体热敏电阻。 而且,外部空气温度的外部空气温度热敏电阻安装在室外机中。 将外部空气温度与压缩机壳体温度进行比较,如果壳体温度高于外部空气温度,则压缩机加热装置无效。 如果壳体温度低于外部空气温度,则将其确定为制冷剂收集条件,并且使压缩机加热装置工作。 此外,如果外壳温度高于一定温度以上的外部温度,则停止压缩机加热装置的运转,从而减少了浪费的待机功率,节省了设备的能量。
    • 2. 发明授权
    • Air conditioner
    • 冷气机
    • US09291379B2
    • 2016-03-22
    • US13148783
    • 2010-02-17
    • Tatsunori SakaiMasanori AokiHirokuni Shiba
    • Tatsunori SakaiMasanori AokiHirokuni Shiba
    • F25B49/00F04B39/12F25B13/00
    • F25B49/005F04B39/121F04B2201/0403F25B13/00F25B2313/006F25B2313/02741F25B2313/0315F25B2400/01F25B2500/27F25B2500/28F25B2700/2115
    • In a compressor shell built in an outdoor unit of an air conditioner, a compressor shell thermistor that detects a temperature of the shell is installed. Also, an outside air temperature thermistor that detects an outside air temperature is installed in an outdoor unit. The outside air temperature is compared with the compressor shell temperature, and if the shell temperature is higher than the outside air temperature, a compressor heating device is invalidated. If the shell temperature is lower than the outside air temperature, it is determined as a refrigerant collection condition, and the compressor heating device is operated. Also, if the shell temperature is higher than the outside air temperature by a certain temperature or more, the operation of the compressor heating device is stopped so that wasteful standby power is reduced, and energy of the apparatus is saved.
    • 在内置于空调的室外机的压缩机壳体中,安装有检测壳体的温度的压缩机壳体热敏电阻。 而且,外部空气温度的外部空气温度热敏电阻安装在室外机中。 将外部空气温度与压缩机壳体温度进行比较,如果壳体温度高于外部空气温度,则压缩机加热装置无效。 如果壳体温度低于外部空气温度,则将其确定为制冷剂收集条件,并且使压缩机加热装置工作。 此外,如果外壳温度高于一定温度以上的外部温度,则停止压缩机加热装置的运转,从而减少了浪费的待机功率,节省了设备的能量。
    • 3. 发明授权
    • Refrigerant filling apparatus of refrigerating and air conditioning apparatus and refrigerant filling method of refrigerating and air conditioning apparatus
    • 制冷空调装置的制冷剂填充装置及制冷空调装置的制冷剂填充方法
    • US08215119B2
    • 2012-07-10
    • US12183121
    • 2008-07-31
    • Tatsunori SakaiMasato YosomiyaHirokuni Shiba
    • Tatsunori SakaiMasato YosomiyaHirokuni Shiba
    • F25B45/00
    • F25B45/00F25B2313/02741F25B2345/001
    • The present invention is directed to a refrigerant filling apparatus of the refrigerating and air conditioning apparatus that can automatically finish filling of a refrigerant after filling to an appropriate amount, without a need to install an extra valve except for a valve provided at a refrigerant cylinder, in between the refrigerating and air conditioning apparatus and the refrigerant cylinder, which is necessary for filling the refrigerant. The refrigerant filling apparatus of the refrigerating and air conditioning apparatus, which includes: a refrigerant circuit having a compressor 1, a four-way valve 2, an indoor side heat exchanger 3, a pressure reducing solenoid valve 4, an outdoor side heat exchanger 3, and an accumulator 6; a refrigerant cylinder 10 connected to the refrigerant circuit; a control unit that controls filling of the refrigerant from the refrigerant cylinder 10 to the refrigerant circuit and decides refrigerant filling modes; and a display unit installed to the control unit and displays the refrigerant filling modes.
    • 本发明涉及一种制冷剂和空气调节装置的制冷剂填充装置,其能够在填充到适当量之后自动完成制冷剂的填充,而不需要安装除了设置在制冷剂气缸上的阀以外的额外阀, 在制冷剂和空调装置之间以及填充制冷剂所需的制冷剂气缸之间。 制冷空调装置的制冷剂填充装置包括:具有压缩机1,四通阀2,室内侧热交换器3,减压电磁阀4,室外侧热交换器3的制冷剂回路 和蓄电池6; 连接到制冷剂回路的制冷剂气缸10; 控制单元,其控制制冷剂从制冷剂气缸10向制冷剂回路的填充,并且决定制冷剂填充模式; 以及安装到控制单元并显示制冷剂填充模式的显示单元。
    • 4. 发明申请
    • REFRIGERANT FILLING APPARATUS OF REFRIGERATING AND AIR CONDITIONING APPARATUS AND REFRIGERANT FILLING METHOD OF REFRIGERATING AND AIR CONDITIONING APPARATUS
    • 制冷和空调装置的制冷装置和制冷装置的制冷方法
    • US20090114309A1
    • 2009-05-07
    • US12183121
    • 2008-07-31
    • Tatsunori SakaiMasato YosomiyaHirokuni Shiba
    • Tatsunori SakaiMasato YosomiyaHirokuni Shiba
    • B65B3/04F25B39/04G05D23/00
    • F25B45/00F25B2313/02741F25B2345/001
    • The present invention is directed to a refrigerant filling apparatus of the refrigerating and air conditioning apparatus that can automatically finish filling of a refrigerant after filling to an appropriate amount, without a need to install an extra valve except for a valve provided at a refrigerant cylinder, in between the refrigerating and air conditioning apparatus and the refrigerant cylinder, which is necessary for filling the refrigerant. The refrigerant filling apparatus of the refrigerating and air conditioning apparatus, which includes: a refrigerant circuit having a compressor 1, a four-way valve 2, an indoor side heat exchanger 3, a pressure reducing solenoid valve 4, an outdoor side heat exchanger 3, and an accumulator 6; a refrigerant cylinder 10 connected to the refrigerant circuit; a control unit that controls filling of the refrigerant from the refrigerant cylinder 10 to the refrigerant circuit and decides refrigerant filling modes; and a display unit installed to the control unit and displays the refrigerant filling modes.
    • 本发明涉及一种制冷空调装置的制冷剂填充装置,其能够在填充到适当量之后自动完成制冷剂的填充,而不需要安装除设置在制冷剂气缸上的阀外的额外的阀, 在制冷剂和空调装置之间以及填充制冷剂所需的制冷剂气缸之间。 制冷空调装置的制冷剂填充装置包括:具有压缩机1,四通阀2,室内侧热交换器3,减压电磁阀4,室外侧热交换器3的制冷剂回路 和蓄电池6; 连接到制冷剂回路的制冷剂气缸10; 控制单元,其控制制冷剂从制冷剂气缸10向制冷剂回路的填充,并且决定制冷剂填充模式; 以及安装到控制单元并显示制冷剂填充模式的显示单元。
    • 8. 发明授权
    • Air-conditioning apparatus
    • 空调机
    • US08720212B2
    • 2014-05-13
    • US13233503
    • 2011-09-15
    • Naoki WakutaYohei KatoShinya MatsushitaTakanori OmoriHirokuni Shiba
    • Naoki WakutaYohei KatoShinya MatsushitaTakanori OmoriHirokuni Shiba
    • F25B31/00
    • F25B49/005F25B13/00F25B49/02F25B2400/01F25B2500/26F25B2500/28F25D2500/04
    • When a compressor is in a stopped state and an outside air temperature change rate Tah exceeds zero, a first heating operation is started, and a heating capacity of a compressor heating portion is set in a range not more than a heating capacity upper limit Pmax based on the outside air temperature change rate Tah. A remaining refrigerant liquid amount Ms condensed in the compressor that had not been evaporated is acquired based on the outside air temperature change rate Tah and the heating capacity. If the outside air temperature change rate Tah is zero or below and the remaining refrigerant liquid amount Ms exceeds zero while the compressor is in a stopped state, a second heating operation is started, the compressor heating portion 10 is controlled based on the remaining refrigerant liquid amount Ms, and the refrigerant condensed in the compressor 1 is evaporated.
    • 当压缩机处于停止状态并且外部空气温度变化率Tah超过零时,开始第一加热操作,并且将压缩机加热部分的加热能力设定在不大于加热能力上限Pmax的范围内 对外界气温变化率Tah。 基于外部空气温度变化率Tah和加热能力,获得在压缩机中未蒸发的剩余制冷剂液体量Ms。 如果外部空气温度变化率Tah为零以下,并且在压缩机处于停止状态时残留的制冷剂液体量Ms超过零,则开始第二加热运转,根据剩余的制冷剂液体来控制压缩机加热部10 量Ms,并且在压缩机1中冷凝的制冷剂蒸发。