Vehicle brake system

What is claimed is: 1. A vehicle brake system comprising: a hydraulic brake device having a master cylinder for generating a base hydraulic pressure corresponding to a manipulation amount of a braking manipulation member, a pump for generating a controlled hydraulic pressure, and a hydraulic control unit configured to add a base hydraulic brake force corresponding to the base hydraulic pressure and a controlled hydraulic brake force corresponding to the controlled hydraulic pressure, the hydraulic control unit further configured to control the hydraulic brake device to apply the added brake forces to wheels; a regenerative brake device for applying a regenerative brake force to driving wheels which are included in the wheels, the regenerative brake device comprising a generator motor for driving the driving wheels and for generating the regenerative brake force applied to the driving wheels; wherein the wheels are four wheels including two front wheels and two rear wheels, the driving wheels being selected as the two front wheels or the two rear wheels; and a brake control device configured to cooperatively control the hydraulic brake device and the regenerative brake device; wherein the brake control device includes: a driver target brake force calculation section for calculating a driver target brake force for each wheel corresponding to the manipulation amount of the braking manipulation member; a compensation brake force setting section for enabling the brake control device to set compensation brake forces for the respective wheels independently of the driver target brake force; a selection compensation section for selecting a larger one of the driver target brake force and the compensation brake force for each wheel and for subtracting the base hydraulic brake force from the selected one brake force to set a compensated target brake force for each wheel; and a distribution control section configured to control the compensated target brake force for each wheel to be distributed to the controlled hydraulic brake force provided by the hydraulic brake device for each wheel and the regenerative brake force provided by the regenerative brake device for each driving wheel; wherein the distribution control section includes: a left right comparison section for comparing a right side sum made by adding the compensated target brake forces for the front and rear wheels on a right side with a left side sum made by adding the compensated target forces for the front and rear wheel on a left side, each of the compensated target brake forces being calculated by the selection compensation section; a left right equal-time distribution control section being operable when the right side sum and the left side sum are equal, for applying to the generator motor a demand regenerative brake force which is obtained by the addition of the compensated target brake forces for the four wheels, acquiring an executed regenerative brake force which was generated by the generator motor, and subtracting a value which is obtained by dividing the executed regenerative brake force by four, from each of the compensated target brake forces for the four wheels to set respective differences as the respective controlled hydraulic brake forces applied by the hydraulic brake device for each wheel; and a left right unequal-time distribution control section being operable when the right side sum and the left side sum differ, for applying to the generator motor a demand regenerative brake force which is obtained by doubling a smaller one of the right side sum and the left side sum, acquiring the executed regenerative brake force which was generated by the generator motor, and subtracting a value which is obtained by dividing the executed regenerative brake force by four, from each of the compensated target brake forces for the four wheels to set respective differences as the respective controlled hydraulic brake forces applied by the hydraulic brake device for each wheel. 2. A vehicle brake system comprising: a hydraulic brake device having a master cylinder for generating a base hydraulic pressure corresponding to a manipulation amount of a braking manipulation member, a pump for generating a controlled hydraulic pressure, and a hydraulic control unit configured to add a base hydraulic brake force corresponding to the base hydraulic pressure and a controlled hydraulic brake force corresponding to the controlled hydraulic pressure, the hydraulic control unit further configured to control the hydraulic brake device to apply the added brake forces to wheels; a regenerative brake device for applying a regenerative brake force to driving wheels which are included in the wheels, the regenerative brake device comprising a generator motor for driving the driving wheels and for generating the regenerative brake force applied to the driving wheels; wherein the wheels are four wheels including two front wheels and two rear wheels, the driving wheels being selected as the two front wheels or the two rear wheels; and a brake control device configured to cooperatively control the hydraulic brake device and the regenerative brake device; wherein the brake control device includes: a driver target brake force calculation section for calculating a driver target brake force for each wheel corresponding to the manipulation amount of the braking manipulation member; a compensation brake force setting section for enabling the brake control device to set compensation brake forces for the respective wheels independently of the driver target brake force; an addition compensation section for adding the compensation brake force for each wheel to the driver target brake force to obtain a sum and for subtracting the base hydraulic brake force from the sum to set a compensated target brake force for each wheel; a distribution control section configured to control the compensated target brake force for each wheel to be distributed to the controlled hydraulic brake force provided by the hydraulic brake device for each wheel and the regenerative brake force provided by the regenerative brake device for each driving wheel; wherein the distribution control section includes: a left right comparison section for comparing a right side sum made by adding the compensated target brake forces for the front and rear wheels on a right side with a left side sum made by adding the compensated target forces for the front and rear wheel on a left side, each of the compensated target brake forces being calculated by the addition compensation section; a left right equal-time distribution control section being operable when the right side sum and the left side sum are equal, for applying to the generator motor a demand regenerative brake force which is obtained by the addition of the compensated target brake forces for the four wheels, acquiring an executed regenerative brake force which was generated by the generator motor, and subtracting a value which is obtained by dividing the executed regenerative brake force by four, from each of the compensated target brake forces for the four wheels to set respective differences as the respective controlled hydraulic brake forces applied by the hydraulic brake device for each wheel; and a left right unequal-time distribution control section being operable when the right side sum and the left side sum differ, for applying to the generator motor a demand regenerative brake force which is obtained by doubling a smaller one of the right side sum and the left side sum, acquiring the executed regenerative brake force which was generated by the generator motor, and subtracting a value which is obtained by dividing the executed regenerative brake force by four, from each of the compensated target brake forces for the four wheels to set respective differences as the respective controlled hydraulic brake forces applied by t