Electrically powered suspension system

What is claimed is: 1. An electrically powered suspension system comprising: an actuator provided between a vehicle body and a wheel of a vehicle and configured to generate a load for damping vibration of the vehicle body; an information acquisition part configured to acquire information on a sprung state amount of the vehicle and information on a road surface state of a road on which the vehicle is traveling; a target load calculation part configured to calculate a first target load related to skyhook control based on the sprung state amount and to calculate a second target load related to preview control based on the road surface state of the road on which the vehicle is traveling; and a load control part configured to perform load control of the actuator using the calculation results of the target load calculation part, wherein the information acquisition part is further configured to acquire information on a stroke position of the actuator, wherein the electrically powered suspension system further comprises a determiner part configured to determine whether the stroke position has reached an irregular range out of a regular range, on the basis of the information on the stroke position, wherein the target load calculation part is further configured to, when the stroke position is determined by the determiner part as having reached the irregular range, calculate a third target load related to virtual spring force control based on the stroke position and to calculate a combined target load into which the first target load, the second target load, and the third target load have been combined, and wherein the load control part performs load control of the actuator using the combined target load. 2. The electrically powered suspension system according to claim 1 , wherein the information acquisition part is further configured to acquire information on a preview image ahead in an advancing direction of the vehicle, wherein the determiner part is further configured to determine a virtual road surface input level based on the information on the preview image, and wherein the load control part is further configured such that when the virtual road surface input level is determined by the determiner part as having exceeded a predetermined road surface input threshold value, the load control part performs load control of the actuator using the combined target load upon a critical timing at which the stroke position is estimated as having reached the irregular range. 3. The electrically powered suspension system according to claim 2 , wherein the load control part is further configured to, even when the virtual road surface input level is not determined by the determiner part as having exceeded the road surface input threshold value, perform load control of the actuator using the combined target load when the stroke position is determined as having reached the irregular range. 4. The electrically powered suspension system according to claim 2 , wherein the target load calculation part is further configured to, when the virtual road surface input level is determined by the determiner part as having exceeded the road surface input threshold value, use the third target load related to virtual spring force control based on the stroke position as the combined target load without combining the first target load and the second target load. 5. The electrically powered suspension system according to claim 4 , wherein the target load calculation part is further configured such that, even when the determiner part has once made a determination that the virtual road surface input level has exceeded the first road surface input threshold value and then canceled the determination, the target load calculation part continues to use the third target load related to virtual spring force control based on the stroke position as the combined target load without combining the first target load and the second target load for a predetermined time from a time point at which the determination is canceled. 6. The electrically powered suspension system according to claim 4 , wherein the load control part is further configured to, when the virtual road surface input level is determined by the determiner part as having exceeded the road surface input threshold value, advance the critical timing at which the stroke position is estimated as having reached the irregular range, in such a manner that the larger the virtual road surface input level, the earlier the critical timing is set advanced, and perform the load control of the actuator using the combined target load upon the advanced critical timing. 7. The electrically powered suspension system according to claim 2 , wherein the load control part is further configured to, when the virtual road surface input level is determined by the determiner part as having exceeded the road surface input threshold value, advance the critical timing at which the stroke position is estimated as having reached the irregular range, in such a manner that the larger the virtual road surface input level, the earlier the critical timing is set advanced, and perform the load control of the actuator using the combined target load upon the advanced critical timing.