Heat pump device, air conditioner, and refrigerating machine

The invention claimed is: 1. A heat pump device comprising: a compressor including a compression mechanism configured to compress a refrigerant and a motor configured to drive the compression mechanism; heat exchangers; an inverter configured to apply a desired voltage to the motor; and an inverter control unit configured to generate Pulse Width Modulation (PWM) signals for driving the inverter, wherein the inverter control unit includes: a heating determining unit configured to determine whether heating of the compressor is necessary and notify a determination result; and a Pulse Width Modulation (PWM)-signal generating unit configured to shift to, upon receiving the notification indicating that the heating is necessary, a heating operation mode for heating the compressor and, in the heating operation mode, generate the PWM signal to provide, based on a heating time carrier signal having two or more predetermined frequencies, a period in which a reflux current flows, and the heating time carrier signal is generated to form a combined cycle in which the predetermined frequencies are arranged in a predetermined order by cyclically switching each of the predetermined frequencies at each one cycle and repeat the switching in the combined period for each combined period, and a combined frequency, which is a frequency corresponding to the combined cycle, is set to a frequency equal to or lower than 20 hertz. 2. The heat pump device according to claim 1 , wherein in the heating operation mode, when switching elements configuring the inverter are divided into an upper side switching element group and a lower side switching element group, the PWM signal generating unit reduces a first period, which is a period in which all the switching elements of the upper side switching element group are turned on, from an immediately preceding first period by a predetermined time or reduces a second period, which is a period in which all the switching elements in the lower side switching element group are turned on, from an immediately preceding second period by the predetermined time, and increases, by a half of the predetermined time, each of periods of other switching states before and after the period reduced by the predetermined time. 3. The heat pump device according to claim 1 , wherein at least one of the upper side switching element group and the lower side switching element group configuring the inverter is formed by wide band gap semiconductors. 4. The heat pump device according to claim 1 , wherein diodes configuring the inverter are formed by wide band gap semiconductors. 5. An air conditioner comprising the heat pump device according to claim 1 . 6. A refrigerating machine comprising the heat pump device according to claim 1 . 7. A heat pump device comprising: a compressor including a compression mechanism configured to compress a refrigerant and a motor configured to drive the compression mechanism; heat exchangers; an inverter configured to apply a desired voltage to the motor; and an inverter control unit configured to generate Pulse Width Modulation (PWM) signals for driving the inverter, wherein the inverter control unit includes: a heating determining unit configured to determine whether heating of the compressor is necessary and notify a determination result; and a Pulse Width Modulation (PWM)-signal generating unit configured to shift to, upon receiving the notification indicating that the heating is necessary, a heating operation mode for heating the compressor and, in the heating operation mode, generate the PWM signals to provide, based on a heating time carrier signal having two or more predetermined frequencies, a period in which a reflux current flows, and the heating time carrier signal is generated by switching the predetermined frequencies in random order. 8. The heat pump device according to claim 7 , wherein in the heating operation mode, when switching elements configuring the inverter are divided into an upper side switching element group and a lower side switching element group, the PWM signal generating unit reduces a first period, which is a period in which all the switching elements of the upper side switching element group are turned on, from an immediately preceding first period by a predetermined time or reduces a second period, which is a period in which all the switching elements in the lower side switching element group are turned on, from an immediately preceding second period by the predetermined time, and increases, by a half of the predetermined time, each of periods of other switching states before and after the period reduced by the predetermined time. 9. The heat pump device according to claim 7 , wherein at least one of the upper side switching element group and the lower side switching element group configuring the inverter is formed by wide band gap semiconductors. 10. The heat pump device according to claim 7 , wherein diodes configuring the inverter are formed by wide band gap semiconductors. 11. An air conditioner comprising the heat pump device according to claim 7 . 12. A refrigerating machine comprising the heat pump device according to claim 7 . 13. A heat pump device comprising: a compressor including a compression mechanism configured to compress a refrigerant and a motor configured to drive the compression mechanism; heat exchangers; an inverter configured to apply a desired voltage to the motor; and an inverter control unit configured to generate Pulse Width Modulation (PWM) signals for driving the inverter, wherein the inverter control unit includes: a heating determining unit configured to determine whether heating of the compressor is necessary and notify a determination result; and a Pulse Width Modulation (PWM)-signal generating unit configured to shift to, upon receiving the notification indicating that the heating is necessary, a heating operation mode for heating the compressor and, in the heating operation mode, generate the PWM signals to provide, based on a heating time carrier signal having two or more predetermined frequencies, a period in which a reflux current flows, and in the heating operation mode, when switching elements configuring the inverter are divided into an upper side switching element group and a lower side switching element group, the heat pump device reduces a first period, which is a period in which all the switching elements of the upper side switching element group are turned on, from an immediately preceding first period by a predetermined time or reduces a second period, which is a period in which all the switching elements in the lower side switching element group are turned on, from an immediately preceding second period by the predetermined time and increases, by a half of the predetermined time, each of periods of other switching states before and after the period reduced by the predetermined time. 14. The heat pump device according to claim 13 , wherein, in the period increased by the predetermined time, the heat pump device increases, by a predetermined value, a voltage value of a high-frequency alternating-current voltage, for generation of which the PWM signals are used. 15. The heat pump device according to claim 13 , wherein at least one of the upper side switching element group and the lower side switching element group configuring the inverter is formed by wide band gap semiconductors. 16. The heat pump device according to claim 13 , wherein diodes configuring the inverter are formed by wide band gap semiconductors. 17. An air conditioner comprising the heat