Brake apparatus and method for detecting air in pipelines of the brake apparatus

The invention claimed is: 1. A brake apparatus comprising: a fluid-pressure generating device configured to supply brake fluid through pipelines to a plurality of wheel cylinders of a vehicle; a fluid-pressure supply device configured to select any of the plurality of wheel cylinders to be supplied with brake fluid, the fluid-pressure supply device being located at an intermediate location along the pipelines; a controller configured to output a control signal to the fluid-pressure generating device and configured to control a volume of brake fluid supplied from the fluid-pressure generating device; a fluid-pressure detection unit configured to detect a pressure of brake fluid when the brake fluid is supplied by the fluid-pressure generating device toward the wheel cylinders; and an air detection unit configured to detect any air in the pipelines on the basis of a relation between the volume of brake fluid when the controller controls the fluid-pressure generating device to generate a predetermined volume of brake fluid, and a fluid pressure detected by the fluid-pressure detection unit, wherein the air detection unit is configured to detect individually, for each of the wheel cylinders on a left side of the vehicle and the wheel cylinders on a right side of the vehicle, any air in the pipelines corresponding respectively to the plurality of wheel cylinders, on the basis of a difference between the relation between the volume of brake fluid and the fluid pressure that corresponds to the wheel cylinder of the plurality of wheel cylinders on a front side of the vehicle, and the relation between the volume of brake fluid and the fluid pressure that corresponds to the wheel cylinder of the plurality of wheel cylinders on a rear side of the vehicle. 2. A brake apparatus according to claim 1 , wherein: the fluid-pressure generating device comprises a master cylinder configured to supply brake fluid and a booster configured to displace a piston of the master cylinder; and the controller is configured to control the booster. 3. A brake apparatus according to claim 1 , wherein the controller is configured to control the fluid-pressure supply device. 4. A brake apparatus according to claim 1 , wherein the air detection unit is included in an inspection device provided outside of the vehicle, and the air detection unit detects the air in the pipelines when the controller and the inspection device are connected to each other. 5. A brake apparatus according to claim 1 , wherein the fluid-pressure detection unit is configured to detect a pressure of brake fluid between the fluid-pressure generating device and the fluid-pressure supply device and is connected to the controller. 6. A brake apparatus comprising: a master cylinder configured to generate a pressure of brake fluid by displacing a piston and supplying the pressure of brake fluid to at least two wheel cylinders; a booster configured to actuate the piston of the master cylinder; a controller configured to control the booster on the basis of operation of a brake pedal, the controller being configured to control a volume of brake fluid supplied from the master cylinder by controlling a stroke of the piston; a valve mechanism disposed to establish and cut off communication through pipelines between the master cylinder and each of the wheel cylinders, the establishment and cutting off of communication being controlled on the basis of a signal from the controller; and a fluid-pressure detection unit configured to detect a pressure of brake fluid when the brake fluid is transmitted from the master cylinder to each of the wheel cylinders and output a detection signal to the controller; wherein the controller is configured to connect each of wheel cylinders on a left side of a vehicle and wheel cylinders on a right side of the vehicle in turn to the master cylinder by controlling establishment and cutting off of communication through the valve mechanism, determine a characteristic of a piston stroke of the master cylinder and a fluid pressure detected by the fluid-pressure detection unit by controlling the booster for each of the left side and the right side, and thereby detect any air in each pipeline on the basis of the characteristic of each wheel cylinder, and the controller is further configured to detect, for each of the wheel cylinders on the left side of the vehicle and the wheel cylinders on the right side of the vehicle, any air in the pipelines corresponding respectively to the two wheel cylinders, on the basis of a difference between the relation between the volume of brake fluid and the pressure of brake fluid which corresponds to the wheel cylinder of the at least two wheel cylinders on a front side of the vehicle, and the relation between the volume of brake fluid and the pressure of brake fluid which corresponds to the wheel cylinder of the at least two wheel cylinders on a rear side of the vehicle. 7. A device for detecting air in pipelines of a brake apparatus comprising: a fluid-pressure generating device configured to supply brake fluid via the pipelines to a plurality of wheel cylinders; a fluid-pressure supply device configured to select any of the plurality of wheel cylinders to be supplied with brake fluid, the fluid-pressure supply device being located at an intermediate location along the pipelines; and a controller configured to control the fluid-pressure generating device, the controller being configured to control a volume of brake fluid supplied from the fluid-pressure generating device, wherein the device for detecting air is configured to: supply a predetermined volume of brake fluid from the fluid-pressure generating device through a pipeline to a wheel cylinder; detect a pressure of brake fluid when the brake fluid is supplied by the fluid-pressure generating device toward the wheel cylinder; connect each of the wheel cylinders on a left side of a vehicle and wheel cylinders on a right side of the vehicle in turn to the master cylinder by controlling the fluid-pressure supply device; and detect, for each of the wheel cylinders on a left side of a vehicle and the wheel cylinders on a right side of the vehicle, any air in the pipelines corresponding respectively to the two wheel cylinders, on the basis of a difference between the relation between the volume of brake fluid and the pressure of brake fluid which corresponds to the wheel cylinder of the at least two wheel cylinders on a front side of the vehicle, and the relation between the volume of brake fluid and the pressure of brake fluid which corresponds to the wheel cylinder of the at least two wheel cylinders on a rear side of the vehicle.