Vehicle regenerative speed control device

The invention claimed is: 1. A vehicle regenerative speed control device for a vehicle having a continuously variable transmission including a transmission input shaft, a mechanical brake system, and an electric motor that is connected to the transmission input shaft and that regenerates energy during deceleration, the vehicle regenerative speed control device comprising: a controller configured to execute a cooperative regenerative control with respect to a requested braking force, the cooperative braking control providing the requested braking force as a sum of a regenerative braking force generated by the electric motor and a mechanical braking force generated by the mechanical brake system, the controller being configured such that when the requested braking force increases during the cooperative regenerative control, the controller performs a regenerative speed control to downshift the continuously variable transmission to a lower gear and increase a rotational speed of the transmission input shaft, and during the cooperative braking control, the controller being configured to determine whether the vehicle is in a regenerative braking region in which the vehicle speed is larger than a brake switching start vehicle speed or a brake switching region in which the vehicle speed is smaller than or equal to a brake switching start vehicle speed and larger than or equal to a brake switching end vehicle speed that is smaller than the brake switching start vehicle speed, the controller being configured to execute the regenerative speed control such that a rotational speed change rate of the transmission input shaft is smaller when carrying out the regenerative speed control in the brake switching region than when carrying out the regenerative speed control in the regenerative braking region. 2. The vehicle regenerative speed control device according to claim 1 , wherein an oil pump is provided, which is connected to the transmission input shaft, the controller sets a rotational speed of the transmission input shaft at which the oil pump produces a necessary hydraulic pressure to the continuously variable transmission during deceleration as a lower-limit rotational speed, the controller sets a target rotational speed characteristic of the regenerative braking in which a target rotational speed of the transmission input shaft determined based on regenerative efficiency first rises and then decreases toward the lower-limit rotational speed with time, and the controller accomplishes making the rotational speed change rate of the transmission input rotational speed smaller in the brake switching region by imposing a limitation on a transmission input rotational speed command value used by the regenerative speed control to make the rotational speed of transmission input shaft follow the target rotational speed characteristic when a brake depression operation or an additional brake pedal depression operation is carried out in the brake switching region. 3. The vehicle regenerative speed control device according to claim 2 , wherein the controller limits the transmission input rotational speed command value such that the rotational speed change rate of the transmission input shaft is less than or equal to a shock-allowable change rate, the shock-allowable change rate being a rotational speed change rate at which an inertia shock due to fluctuation of a vehicle deceleration G accompanying a change in the rotational speed of the transmission input shaft is. 4. The vehicle regenerative speed control device according to claim 3 , wherein when carrying out the regenerative speed control in the brake switching region, the controller imposes limits a command rotational speed change rate to a value that is less than or equal to a change rate obtained by subtracting a target rotational speed change rate of the target rotational speed characteristic from the shock-allowable change rate.