Vehicle drive device

The invention claimed is: 1. A vehicle drive device comprising: an electric motor part configured to generate a driving force to drive a vehicle; and a speed reducer part having an input gear shaft, an intermediate gear shaft, and an output gear shaft that are disposed in parallel to each other, and configured to decelerate a rotation of the electric motor part input to the input gear shaft in two or more stages and output the rotation, a gear provided on each of the input gear shaft, the intermediate gear shaft, and the output gear shaft is a helical gear, wherein of a plurality of meshing parts of the gears disposed in the speed reducer part, two gears include the meshing parts in which an amount of misalignment occurring between tooth surfaces of two gears meshing with each other differs during driving of the vehicle and during coasting of the vehicle, a first tooth surface that meshes with a mating tooth surface during the driving is subjected to tooth surface modification, and a second tooth surface that meshes with a mating tooth surface during the coasting is subjected to tooth surface modification having a different amount of modification from the tooth surface modification applied to the first tooth surface, both the first tooth surface and the second tooth surface are subjected to tooth profile crowning as the tooth surface modification, when a profile crowning amount of the tooth profile crowning to the tooth surface meshing with the mating tooth surface during the driving or during the coasting when a relatively larger amount of misalignment occurs is P 1 and a profile crowning amount of the tooth profile crowning to the tooth surface meshing with the mating tooth surface during the driving or during the coasting when a relatively smaller amount of misalignment occurs is P 2 , a magnitude relationship between P 1 and P 2 in a same radial position is P 1 >P 2 , both the first tooth surface and the second tooth surface are also subjected to tooth lead crowning as the tooth surface modification, and when a lead crowning amount of the tooth lead crowning to the tooth surface meshing with the mating tooth surface during the driving or during the coasting when a relatively larger amount of misalignment occurs is Q 1 and a lead crowning amount of the tooth lead crowning to the tooth surface meshing with the mating tooth surface during the driving or during the coasting when a relatively smaller amount of misalignment occurs is Q 2 , a magnitude relationship between Q 1 and Q 2 in a same axial position is Q 1 >Q 2 . 2. The vehicle drive device according to claim 1 , wherein the input gear shaft, the intermediate gear shaft, and the output gear shaft are each rotatably supported by rolling bearings disposed at two positions apart from each other in an axial direction, and at least one of the input gear shaft, the intermediate gear shaft, and the output gear shaft is rotatably supported by two rolling bearings having different load capacities. 3. The vehicle drive device according to claim 2 , wherein a twisting direction of teeth of a gear provided on the gear shaft rotatably supported by the two rolling bearings having different load capacities is set such that a thrust load acts on the rolling bearing having a relatively larger load capacity during the driving.