Heat pump device, and air conditioner, heat pump water heater, refrigerator, and freezing machine that includes heat pump device

The invention claimed is: 1. A heat pump device comprising: a compressor compressing a refrigerant; a motor driving the compressor; an inverter applying an alternating-current voltage to the motor and including three switching elements on each of a positive voltage side and a negative voltage side; and an inverter control unit generating a control signal for controlling the inverter, wherein the inverter control unit outputs to the inverter a first switching pattern in which all of three switching elements on the positive voltage side or the negative voltage side of the inverter are changed to an ON state and all of three switching elements on a reverse voltage side are changed to an OFF state, then outputs to the inverter a second switching pattern in which two switching elements to which an electric current flows in a same direction when controlled by using the first switching pattern are changed from an ON state to an OFF state and the three switching elements on a reverse voltage side are maintained in an OFF state, and then outputs to the inverter a third switching pattern in which two switching elements on a reverse voltage side of the two switching elements that are changed from an ON state to an OFF state by using the second switching pattern are changed to an ON state. 2. The heat pump device according to claim 1 , wherein the inverter control unit includes a voltage-command selecting unit selecting a phase angle for generating three voltage command values Vu*, Vv*, and Vw* by alternately switching between preset two values in synchronization with a reference signal, and the inverter control unit generates six drive signals corresponding to respective switching elements of the inverter by comparing the three voltage command values selected by the voltage-command selecting unit with the reference signal. 3. The heat pump device according to claim 2 , wherein the reference signal is a signal with which a top and a bottom in changes over time are able to be specified, and the voltage-command selecting unit switches the three voltage command values Vu*, Vv*, and Vw* at both timings of the top and the bottom of the reference signal. 4. The heat pump device according to claim 2 , wherein the reference signal is a signal with which a top and a bottom in changes of a value with respect to time are able to be specified, and the voltage-command selecting unit switches the three voltage command values Vu*, Vv*, and Vw* at a timing of either a top or a bottom of the reference signal. 5. The heat pump device according to claim 1 , wherein the inverter control unit operates either in a compression operation mode in which the compressor is caused to compress a refrigerant or in a heating operation mode in which the compressor is heated, when the inverter is operated in the compression operation mode, the inverter is caused to generate an alternating-current voltage having a frequency at which the motor rotates, and when the inverter is operated in the heating operation mode, the inverter is caused to generate an alternating-current voltage having a frequency at which the motor does not rotate and which is higher than the frequency of the alternating-current voltage to be generated in a case of the compression operation mode. 6. The heat pump device according to claim 1 , wherein at least one of switching elements included in the inverter or a diode included in the inverter is made from a wide bandgap semiconductor. 7. The heat pump device according to claim 6 , wherein the wide bandgap semiconductor is silicon carbide, a gallium nitride material, or diamond. 8. An air conditioner comprising the heat pump device according to claim 1 . 9. A heat pump water heater comprising the heat pump device according to claim 1 . 10. A refrigerator comprising the heat pump device according to claim 1 . 11. A freezing machine comprising the heat pump device according to claim 1 .