Active vibration damping device and active vibration damping method

What is claimed is: 1. An active vibration damping device, comprising: an actuator disposed between a drive source and a vehicle body; and a computer configured to suppress transmission of vibrations from the drive source to the vehicle body by causing the actuator to actively generate vibrations; wherein the computer comprises: an internal temperature estimating unit configured to calculate an internal temperature of the actuator; a command value calculating unit configured to calculate an operation command value for the actuator from rotation information of the drive source; a command value correction unit configured to correct the operation command value in accordance with the internal temperature; a drive control unit configured to apply a drive voltage to the actuator using a voltage duty ratio based on the corrected operation command value; and a point number calculating unit configured to obtain an integer value point number which is set so as to become larger as a period of rotation of the drive source becomes longer; and wherein the internal temperature estimating unit comprises: an output average duty ratio calculating unit configured to calculate an output average duty ratio, which is an average of target values or actually measured values of the voltage duty ratios that are used for realizing the operation command value, when the period of rotation of the drive source is a predetermined period; a reference average duty ratio calculating unit configured to calculate, on basis of the operation command value and the point number, a reference average duty ratio, which is an average of the voltage duty ratios that realize the operation command value when the internal temperature is a reference temperature and the period of rotation of the drive source is the predetermined period; an average duty ratio rate-of-change calculating unit configured to calculate, from the operation command value and the point number, an average duty ratio rate of change, which indicates a relationship between an amount of change of the internal temperature and an amount of change of an average duty ratio which is an average of the voltage duty ratios, when the period of rotation of the drive source is the predetermined period; and an internal temperature calculating unit configured to calculate as the internal temperature a value obtained by adding the reference temperature to a product of the average duty ratio rate of change and a deviation between the output average duty ratio and the reference average duty ratio. 2. The active vibration damping device according to claim 1 , wherein the computer further comprises: a reference average duty ratio map in which there are stored in association with each other the reference average duty ratio and a combination of the operation command value and the point number; and an average duty ratio rate-of-change map in which there are stored in association with each other the average duty ratio rate of change and the combination of the operation command value and the point number; wherein the reference average duty ratio map and the average duty ratio rate-of-change map each define different relationships for a case in which the point number is an odd number and a case in which the point number is an even number. 3. The active vibration damping device according to claim 1 , wherein the reference average duty ratio calculating unit and the average duty ratio rate-of-change calculating unit calculate the reference average duty ratio and the average duty ratio rate of change, which differ between a case in which the point number is an even number and a case in which the point number is an odd number. 4. An active vibration damping method using an active vibration damping device, comprising: an actuator disposed between a drive source and a vehicle body; and a computer configured to suppress transmission of vibrations from the drive source to the vehicle body by causing the actuator to actively generate vibrations; wherein the computer executes: an internal temperature estimating step of estimating an internal temperature of the actuator; a command value calculating step of calculating an operation command value for the actuator from rotation information of the drive source; a command value correction step of correcting the operation command value in accordance with the internal temperature; a drive control step of applying a drive voltage to the actuator using a voltage duty ratio based on the corrected operation command value; and a point number calculating step of obtaining an integer value point number which is set so as to become larger as a period of rotation of the drive source becomes longer; and wherein the internal temperature estimating step includes: an output average duty ratio calculating step of calculating an output average duty ratio, which is an average of target values or actually measured values of the voltage duty ratios that are used for realizing the operation command value in the drive control step, when the period of rotation of the drive source is a predetermined period; a reference average duty ratio calculating step of calculating, on basis of the operation command value and the point number, a reference average duty ratio, which is an average of the voltage duty ratios that realize the operation command value when the internal temperature is a reference temperature and the period of rotation of the drive source is the predetermined period; and an internal temperature calculating step of calculating the internal temperature on basis of a deviation between the output average duty ratio and the reference average duty ratio.