序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
1 | 热泵装置、空调机和制冷机 | CN201280072410.6 | 2012-04-16 | CN104220820B | 2016-03-30 | 神谷庄太; 畠山和德; 汤浅健太; 松下真也; 楠部真作; 牧野勉 |
本发明的热泵装置包括:压缩机(1),其包括压缩制冷剂的压缩机构(7)、以及驱动压缩机构(7)的电动机(8);逆变器(9),其施加驱动电动机(8)的电压;转换器(10),其对逆变器(9)施加电压;逆变器控制部(12),其生成驱动逆变器(9)的驱动信号;以及转换器控制部(17),其生成驱动转换器(10)的驱动信号,其中,逆变器控制部(12)具有:使压缩机(1)进行加热运转的加热运转模式、以及使压缩机(1)进行通常运转来压缩制冷剂的通常运转模式,转换器控制部(17)在逆变器控制部(12)的加热运转模式时,基于针对电动机(8)的电压指令值设定对逆变器(9)施加的电压。 | ||||||
2 | 热泵装置、空调机和制冷机 | CN201280072410.6 | 2012-04-16 | CN104220820A | 2014-12-17 | 神谷庄太; 畠山和德; 汤浅健太; 松下真也; 楠部真作; 牧野勉 |
本发明的热泵装置包括:压缩机(1),其包括压缩制冷剂的压缩机构(7)、以及驱动压缩机构(1)的电动机(8);逆变器(9),其施加驱动电动机(8)的电压;转换器(10),其对逆变器(9)施加电压;逆变器控制部(12),其生成驱动逆变器(9)的驱动信号;以及转换器控制部(17),其生成驱动转换器(10)的驱动信号,其中,逆变器控制部(12)具有:使压缩机(1)进行加热运转的加热运转模式、以及使压缩机(1)进行通常运转来压缩制冷剂的通常运转模式,转换器控制部(17)在逆变器控制部(12)的加热运转模式时,基于针对电动机(8)的电压指令值设定对逆变器(9)施加的电压。 | ||||||
3 | HEAT PUMP DEVICE, AIR CONDITIONER, AND FREEZER | US14388266 | 2012-04-16 | US20150089972A1 | 2015-04-02 | Shota Kamiya; Kazunori Hatakeyama; Kenta Yuasa; Shinya Matsushita; Shinsaku Kusube; Tsutomu Makino |
A heat pump device includes a compressor including a compression mechanism that compresses a refrigerant and a motor that drives the compression mechanism, an inverter that applies a voltage for driving the motor, a converter that applies a voltage to the inverter, an inverter control unit that generates a driving signal for driving the inverter, and a converter control unit that generates a driving signal for driving the converter, wherein the inverter control unit includes a heating operation mode in which a heating operation of the compressor is performed and a normal operation mode in which a refrigerant is compressed by performing a normal operation of the compressor and the converter control unit sets, in the heating operation mode of the inverter control unit, a voltage applied to the inverter on the basis of a voltage command value for the motor. | ||||||
4 | Heat pump device, air conditioner, and freezer that efficiently heats refrigerant on standby | US14388266 | 2012-04-16 | US09739515B2 | 2017-08-22 | Shota Kamiya; Kazunori Hatakeyama; Kenta Yuasa; Shinya Matsushita; Shinsaku Kusube; Tsutomu Makino |
A heat pump device includes a compressor including a compression mechanism that compresses a refrigerant and a motor that drives the compression mechanism, an inverter that applies a voltage for driving the motor, a converter that applies a voltage to the inverter, an inverter control unit that generates a driving signal for driving the inverter, and a converter control unit that generates a driving signal for driving the converter. The inverter control unit includes a heating-operation-mode control unit that controls a driving-signal generating unit such that the driving-signal generating unit outputs, as inverter driving signals, PWM signals for heating the compressor without rotationally driving the motor by feeding a high-frequency current that the motor cannot follow in a heating operation mode. | ||||||
5 | ヒートポンプ装置、空気調和機および冷凍機 | JP2014510988 | 2012-04-16 | JP5901747B2 | 2016-04-13 | 神谷 庄太; 畠山 和徳; 湯淺 健太; 松下 真也; 楠部 真作; 牧野 勉 |
6 | ヒートポンプ装置、空気調和機および冷凍機 | JP2014510988 | 2012-04-16 | JPWO2013157074A1 | 2015-12-21 | 庄太 神谷; 和徳 畠山; 健太 湯淺; 真也 松下; 真作 楠部; 牧野 勉; 勉 牧野 |
冷媒と圧縮する圧縮機構7と圧縮機構1を駆動するモータ8とを有する圧縮機1と、モータ8を駆動する電圧を印加するインバータ9と、インバータ9に電圧を印加するコンバータ10と、インバータ9を駆動する駆動信号を生成するインバータ制御部12と、コンバータ10を駆動する駆動信号を生成するコンバータ制御部17と、を備え、インバータ制御部12は、圧縮機1を加熱運転する加熱運転モードと、圧縮機1を通常運転して冷媒を圧縮する通常運転モードを有し、コンバータ制御部17は、インバータ制御部12の加熱運転モードにおいて、モータ8に対する電圧指令値に基づいてインバータ9へ印加する電圧を設定する、ことを特徴とする。 | ||||||
7 | HEAT PUMP DEVICE, AIR CONDITIONER, AND COOLING MACHINE | EP12874570.0 | 2012-04-16 | EP2851631A1 | 2015-03-25 | KAMIYA, Shota; HATAKEYAMA, Kazunori; YUASA, Kenta; MATSUSHITA, Shinya; KUSUBE, Shinsaku; MAKINO, Tsutomu |
A heat pump device includes a compressor 1 including a compression mechanism 7 that compresses a refrigerant and a motor 8 that drives the compression mechanism 1, an inverter 9 that applies a voltage for driving the motor 8, a converter 10 that applies a voltage to the inverter 9, an inverter control unit 12 that generates a driving signal for driving the inverter 9, and a converter control unit 17 that generates a driving signal for driving the converter 10, wherein the inverter control unit 12 includes a heating operation mode in which a heating operation of the compressor 1 is performed and a normal operation mode in which a refrigerant is compressed by performing a normal operation of the compressor 1 and the converter control unit 17 sets, in the heating operation mode of the inverter control unit 12, a voltage applied to the inverter 9 on the basis of a voltage command value for the motor 8. |
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8 | HEAT PUMP DEVICE, AIR CONDITIONER, AND COOLING MACHINE | EP12874570 | 2012-04-16 | EP2851631A4 | 2016-02-24 | KAMIYA SHOTA; HATAKEYAMA KAZUNORI; YUASA KENTA; MATSUSHITA SHINYA; KUSUBE SHINSAKU; MAKINO TSUTOMU |
A heat pump device includes a compressor 1 including a compression mechanism 7 that compresses a refrigerant and a motor 8 that drives the compression mechanism 1, an inverter 9 that applies a voltage for driving the motor 8, a converter 10 that applies a voltage to the inverter 9, an inverter control unit 12 that generates a driving signal for driving the inverter 9, and a converter control unit 17 that generates a driving signal for driving the converter 10, wherein the inverter control unit 12 includes a heating operation mode in which a heating operation of the compressor 1 is performed and a normal operation mode in which a refrigerant is compressed by performing a normal operation of the compressor 1 and the converter control unit 17 sets, in the heating operation mode of the inverter control unit 12, a voltage applied to the inverter 9 on the basis of a voltage command value for the motor 8. |