Transport refrigeration apparatus

The invention claimed is: 1. A transport refrigeration apparatus including a refrigerant circuit in which a refrigeration cycle is performed, comprising: a fan configured to supply air to an air heat exchanger connected to the refrigerant circuit; a fan motor configured to drive the fan; a power supply sensor that detects a supply frequency and a supply voltage of a power supply configured to supply power to the fan motor; an abnormality determiner configured to compare a current value for current flowing through the fan motor with a preset current threshold to determine occurrence of a motor abnormality of the fan motor; and a threshold changer configured to change the current threshold of the abnormality determiner in accordance with the detected supply frequency and the detected supply voltage of the power supply configured to supply power to the fan motor, wherein the threshold changer stores a plurality of predetermined correlations between the detected supply voltage and the current threshold for respective supply frequencies, each of the plurality of correlations defining a different relationship between the current threshold and the supply voltage, and when the power supply sensor detects a new supply frequency, the threshold changer calculates based on one of the plurality of correlations corresponding to the new supply frequency, to determine the current threshold to coincide with the detected supply voltage. 2. The transport refrigeration apparatus of claim 1 , wherein if the current value of the fan motor is greater than a preset current threshold for lock abnormality, the abnormality determiner determines that the motor abnormality is a lock abnormality. 3. The transport refrigeration apparatus of claim 2 , wherein for each value for frequency of the power supply, the threshold changer increases the current threshold for lock abnormality when the supply voltage of the power supply increases, and decreases the current threshold for lock abnormality when the supply voltage of the power supply decreases. 4. The transport refrigeration apparatus of claim 1 , wherein if the current value of the fan motor is less than a preset current threshold for connection abnormality, the abnormality determiner determines that the motor abnormality is a connection abnormality. 5. The transport refrigeration apparatus of claim 4 , wherein for each value for frequency of the power supply, the threshold changer increases the current threshold for connection abnormality when the supply voltage of the power supply increases, and decreases the current threshold for connection abnormality when the supply voltage of the power supply decreases. 6. The transport refrigeration apparatus of claim 1 , further comprising: a compressor motor configured to drive a compressor connected to the refrigerant circuit; an electric circuit connected to the fan motor and the compressor motor; a first detector configured to detect a current value for current flowing from the power supply to the electric circuit; and a second detector configured to detect a current value for current flowing through the compressor motor, wherein the current value for current flowing through the fan motor is determined based on a value obtained by subtracting the current value of the second detector from the current value of the first detector. 7. The transport refrigeration apparatus of claim 2 , further comprising: a compressor motor configured to drive a compressor connected to the refrigerant circuit; an electric circuit connected to the fan motor and the compressor motor; a first detector configured to detect a current value for current flowing from the power supply to the electric circuit; and a second detector configured to detect a current value for current flowing through the compressor motor, wherein the current value for current flowing through the fan motor is determined based on a value obtained by subtracting the current value of the second detector from the current value of the first detector. 8. The transport refrigeration apparatus of claim 3 , further comprising: a compressor motor configured to drive a compressor connected to the refrigerant circuit; an electric circuit connected to the fan motor and the compressor motor; a first detector configured to detect a current value for current flowing from the power supply to the electric circuit; and a second detector configured to detect a current value for current flowing through the compressor motor, wherein the current value for current flowing through the fan motor is determined based on a value obtained by subtracting the current value of the second detector from the current value of the first detector. 9. The transport refrigeration apparatus of claim 4 , further comprising: a compressor motor configured to drive a compressor connected to the refrigerant circuit; an electric circuit connected to the fan motor and the compressor motor; a first detector configured to detect a current value for current flowing from the power supply to the electric circuit; and a second detector configured to detect a current value for current flowing through the compressor motor, wherein the current value for current flowing through the fan motor is determined based on a value obtained by subtracting the current value of the second detector from the current value of the first detector. 10. The transport refrigeration apparatus of claim 5 , further comprising: a compressor motor configured to drive a compressor connected to the refrigerant circuit; an electric circuit connected to the fan motor and the compressor motor; a first detector configured to detect a current value for current flowing from the power supply to the electric circuit; and a second detector configured to detect a current value for current flowing through the compressor motor, wherein the current value for current flowing through the fan motor is determined based on a value obtained by subtracting the current value of the second detector from the current value of the first detector.