Motor control device

What is claimed is: 1. A motor control device configured to drive a first motor that rotates a first rotation body and a second motor that rotates a second rotation body, the motor control device comprising: a power supply unit; inverters configured to convert an output from the power supply unit to an alternating current and supply the output to the first motor and the second motor; and a control unit configured to drive the second motor using rotor position sensorless control, the control unit being further configured to not start up the second motor during a predetermined operation in which a large current flowing through the first motor is being performed, and such that a startup abnormality of the second motor is avoided by not starting up the second motor when the predetermined operation in which the large current flows through the first motor is being performed, wherein the startup abnormality is caused by a noise due to the large current flowing. 2. A motor control device configured to drive a first motor that rotates a first rotation body and a second motor that rotates a second rotation body, the motor control device comprising: a power supply unit; inverters configured to convert an output from the power supply unit to an alternating current and supply the output to the first motor and the second motor; and a control unit configured to drive the second motor using rotor position sensorless control, the control unit including a determination unit configured to determine whether the second motor is in an abnormal state or not, and the control unit being further configured to cancel the determination of the determination unit even if the determination unit has determined that the inverter for the second motor is in an abnormal state when the second motor is in operation and the first motor performs a predetermined operation, and such that an unwanted abnormal shutdown of the second motor is prevented by canceling the determination that the inverter for the second motor is in an abnormal state and continuing operation of the second motor. 3. A motor control device configured to drive a first motor that rotates a first rotation body and a second motor that rotates a second rotation body, the motor control device comprising: a power supply unit; inverters configured to convert an output from the power supply unit to an alternating current and supply the output to the first motor and the second motor; a control unit configured to drive the second motor using rotor position sensorless control; and a collective control unit configured to collectively control two or more control units including the control unit, the control unit including a determination unit configured to determine whether the second motor is in an abnormal state or not, and the control unit being further configured to perform a retry action of an operation of the inverter without notifying the collective control unit of an abnormal state even if the determination unit has determined that the inverter for the second motor is in an abnormal state when the second motor is in operation and the first motor performs a predetermined operation, and such that an unwanted abnormal shutdown of the second motor is prevented by not determining as abnormal and by retrying detection of an inverter current and the operation of the inverter for the second motor. 4. The motor control device according to claim 3 , wherein the operation of the second motor is a startup operation. 5. The motor control device according to claim 1 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is a synchronous operation of the compressor in which a voltage is applied regardless of a rotor position and a phase of current is deviated. 6. The motor control device according to claim 2 , wherein the operation of the second motor is a startup operation. 7. The motor control device according to claim 6 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is a synchronous operation of the compressor. 8. The motor control device according to claim 2 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is a synchronous operation of the compressor in which a voltage is applied regardless of a rotor position, a large current flows through the first motor and a phase of current is deviated. 9. The motor control device according to claim 4 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is a synchronous operation of the compressor. 10. The motor control device according to claim 3 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is a synchronous operation of the compressor in which a voltage is applied regardless of a rotor position, a large current flows through the first motor, and a phase of current is deviated. 11. The motor control device according to claim 1 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is a torque control of the compressor in which a current fluctuation occurs synchronizing with torque fluctuation. 12. The motor control device according to claim 2 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is a torque control of the compressor in which a current fluctuation occurs synchronizing with torque fluctuation, and a large current flows through the first motor. 13. The motor control device according to claim 3 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is a torque control of the compressor in which a current fluctuation occurs synchronizing with torque fluctuation, and a large current flows through the first motor. 14. The motor control device according to claim 1 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is an overload operation of the compressor. 15. The motor control device according to claim 2 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is an overload operation of the compressor in which a large current flows through the first motor. 16. The motor control device according to claim 3 , wherein the first rotation body is a compressor, and in case the first motor is driven using rotor position sensorless control, the predetermined operation of the first motor is an overload operation of the compressor in which a large current flows through the first motor.