Vehicle control apparatus

The invention claimed is: 1. A vehicle control apparatus including an engine and an electric motor, the apparatus comprising: a clutch that is disposed in a power transmission path configured to couple the engine and driving wheels; a first travel controller configured to execute a motor travel in which the driving wheels are driven by the electric motor in a state where the clutch is disengaged to decouple the engine from the driving wheels, and the engine is stopped; a second travel controller configured to execute a cranking travel in which the clutch is engaged while a fuel injection of the engine is stopped in a state in which the motor travel is executed, and the engine is rotated during traveling; and a motor controller configured to increase an output torque of the electric motor when a travel mode switches from the motor travel to the cranking travel, wherein the motor controller calculates a target torque of the electric motor on the basis of the output torque of the electric motor and a torque capacity of the clutch, and the second travel controller permits the cranking travel if the target torque falls below a predetermined value, and prohibits the cranking travel if the target torque exceeds the predetermined value. 2. The vehicle control apparatus according to claim 1 , further comprising a vacuum booster that is coupled to an intake pipe of the engine. 3. The vehicle control apparatus according to claim 2 , further comprising a compressor that is coupled to a crank shaft of the engine. 4. The vehicle control apparatus according to claim 1 , further comprising a compressor that is coupled to a crank shaft of the engine. 5. A vehicle control apparatus including an engine and an electric motor, the apparatus comprising: a clutch that is disposed in a power transmission path configured to couple the engine and driving wheels; a first travel controller configured to execute a motor travel in which the driving wheels are driven by the electric motor in a state where the clutch is disengaged to decouple the engine from the driving wheels, and the engine is stopped; a second travel controller configured to execute a cranking travel in which the clutch is engaged while a fuel injection of the engine is stopped in a state in which the motor travel is executed, and the engine is rotated during traveling; a motor controller configured to increase an output torque of the electric motor when a travel mode switches from the motor travel to the cranking travel; a transmission mechanism that is disposed between the power transmission path configured to couple the engine and the driving wheels; and a transmission controller configured to control the transmission mechanism to accelerate when the travel mode switches from the motor travel to the cranking travel. 6. The vehicle control apparatus according to claim 5 , further comprising a vacuum booster that is coupled to an intake pipe of the engine. 7. The vehicle control apparatus according to claim 6 , further comprising a compressor that is coupled to a crank shaft of the engine. 8. The vehicle control apparatus according to claim 5 , further comprising a compressor that is coupled to a crank shaft of the engine.