Heat pump device, heat pump system, air conditioner, and freezer

The invention claimed is: 1. A heat pump device comprising: a compressor that compresses a refrigerant; a motor that drives the compressor; a wiring switching unit that switches a wiring structure of the motor; an inverter that applies a desired voltage to the motor; and an inverter control unit that generates a PWM signal for driving the inverter, that includes, as an operation mode, a heating operation mode in which a heating operation is performed on the compressor and a normal operation mode in which a refrigerant is compressed by performing a normal operation on the compressor, and that controls a switching operation of the wiring switching unit, wherein in accordance with a connection state with the wiring switching unit, the motor forms either of a first wiring structure and a second wiring structure with which an impedance is smaller than that in the first wiring structure, in response to switching to the heating operation mode, the inverter control unit controls the wiring switching unit such that the motor forms the second wiring structure, after the motor forms the second wiring structure, the inverter control unit switches between a high-frequency energization in which a high-frequency AC voltage is applied to the wiring of the motor and a DC energization in which a DC current is applied to the wiring of the motor in accordance with a necessary amount of heat, and the inverter control unit switches, after the motor forms the second wiring structure, between the high-frequency energization to supply a first heating amount in the heating operation and the DC energization to supply a second heating amount greater than the first heating amount in the heating operation. 2. A heat pump device comprising: a compressor that compresses a refrigerant; a motor that drives the compressor; a wiring switching unit that switches a wiring structure of the motor; an inverter that applies a desired voltage to the motor; and an inverter control unit that generates a PWM signal for driving the inverter, that includes, as an operation mode, a heating operation mode in which a heating operation is performed on the compressor and a normal operation mode in which a refrigerant is compressed by performing a normal operation on the compressor, and that controls a switching operation of the wiring switching unit, wherein in accordance with a connection state with the wiring switching unit, the motor forms either of a first wiring structure and a second wiring structure with which an impedance is smaller than that in the first wiring structure, in response to switching to the heating operation mode, when at least one of an output voltage and a modulation degree is equal to less than a specified value, the inverter control unit controls the wiring switching unit such that the motor forms the first wiring structure, and after the motor forms the second wiring structure, the inverter control unit switches between a high-frequency energization in which a high-frequency AC voltage is applied to the wiring of the motor and a DC energization in which a DC current is applied to the wiring of the motor in accordance with a necessary amount of heat, and the inverter control unit switches, after the motor forms the second wiring structure, between the high-frequency energization to supply a first heating amount in the heating operation and the DC energization to supply a second heating amount greater than the first heating amount in the heating operation. 3. The heat pump device according to claim 1 , wherein in the heating operation mode, the inverter control unit generates a PWM signal by comparing a voltage command value and a triangular carrier signal such that a high-frequency AC voltage having a frequency higher than an operation frequency in the normal operation mode is applied to two phases or three phases of the wiring of the motor, and controls the voltage command value such that voltage phases having phase differences of 0° and 180° with respect to a reference phase of a voltage to be applied to the motor are alternately switched, at a timing of a top and a bottom of a carrier signal. 4. The heat pump device according to claim 2 , wherein in the heating operation mode, the inverter control unit generates a PWM signal by comparing a voltage command value and a triangular carrier signal such that a high-frequency AC voltage having a frequency higher than an operation frequency in the normal operation mode is applied to two phases or three phases of the wiring of the motor, and controls the voltage command value such that voltage phases having phase differences of 0° and 180° with respect to a reference phase of a voltage to be applied to the motor are alternately switched, at a timing of a top and a bottom of a carrier signal. 5. A heat pump device comprising: a compressor that compresses a refrigerant; a motor that drives the compressor; a wiring switching unit that switches a wiring structure of the motor; an inverter that applies a desired voltage to the motor; and an inverter control unit that generates a PWM signal for driving the inverter and controls a switching operation of the wiring switching unit, wherein in accordance with a connection state with the wiring switching unit, the motor forms either of a first wiring structure and a second wiring structure with which an impedance is smaller than that in the first wiring structure, the motor is a three-phase motor, one end of a wiring of each phase and a middle point of a wiring of each phase are connected to the wiring switching unit, the wiring switching unit switches between the first wiring structure and the second wiring structure by switching a connection of the terminals, in response to switching to the heating operation mode, the inverter control unit controls the wiring switching unit such that the motor forms the second wiring structure, and after the motor forms the second wiring structure, the inverter control unit switches between a high-frequency energization in which a high-frequency AC voltage is applied to the wiring of the motor and a DC energization in which a DC current is applied to the wiring of the motor in accordance with a necessary amount of heat, and the inverter control unit switches, after the motor forms the second wiring structure, between the high-frequency energization to supply a first heating amount in the heating operation and the DC energization to supply a second heating amount greater than the first heating amount in the heating operation. 6. The heat pump device according to claim 1 , wherein the motor is a three-phase motor, both terminals of a wiring of each phase of the motor are connected to the wiring switching unit, and the wiring switching unit switches between a Y-connection that is the first wiring structure and a Δ-connection that is the second wiring structure by switching a connection of the terminals. 7. The heat pump device according to claim 2 , wherein the motor is a three-phase motor, both terminals of a wiring of each phase of the motor are connected to the wiring switching unit, and the wiring switching unit switches between a Y-connection that is the first wiring structure and a Δ-connection that is the second wiring structure by switching a connection of the terminals. 8. The heat pump device according to claim 1 , wherein a switching element and a diode that constitute the inverter is formed from a wide gap semiconductor, and the wide gap semiconductor is any of silicon carbide, a gallium nitride material, and diamond. 9. The heat pump device according to claim 2 , wherein a switching element and a diode that constitute the inverter is formed from a wide gap semiconductor, and the wide ga