Brake apparatus

The invention claimed is: 1. A brake apparatus comprising: a brake operation condition detecting section that detects an operation condition of a brake operation member actuated by a driver; a pump that produces a hydraulic pressure for wheel cylinders based on the brake operation condition detected by the operation condition detecting section; a master cylinder that includes a cylinder body that has an outlet port connected to the wheel cylinders and has a first fluid chamber to produce a hydraulic pressure upon braking operation by the driver, a piston that is slidably received in a cylindrical inner surface of the cylinder body and connected to the brake operation member, and a first piston seal that seals between the cylindrical inner surface of the cylinder body and a cylindrical outer surface of the piston to define the first fluid chamber; a reservoir tank that is integral with the master cylinder; an inlet fluid passage that connects an inlet portion of the pump to the reservoir tank; a pressure reducing fluid passage that connects the inlet fluid passage to the wheel cylinders; and a pressure reducing valve connected to the pressure reducing fluid passage and opened to depressurize brake fluid in one of the wheel cylinders thereby to return the brake fluid to the reservoir tank through the inlet fluid passage, wherein the inlet fluid passage is provided with a normally closed shutting valve that is connected to the at least one pressure reducing valve in series with respect to the wheel cylinders and the reservoir tank, a gate out valve provided to a first fluid passage that connects an outlet portion of the pump to the outlet port; a second fluid passage that is branched from an interposition between the outlet portion of the pump of the first fluid passage and the gate out valve and connected to the wheel cylinders; and a pressure increasing valve connected to the second fluid passage. 2. A brake apparatus as claimed in claim 1 , wherein the master cylinder is equipped with an auxiliary fluid chamber that is connected to the reservoir tank fluid-tightly isolated from the first fluid chamber, and the inlet fluid passage connects the reservoir tank to the inlet portion of the pump through the auxiliary fluid chamber. 3. A brake apparatus as claimed in claim 2 , further comprising a controller programmed to control the pump and various valves, and to carry out a pressure increasing control by controlling the gate out valve in a valve closing direction, the pressure increasing valve in a valve opening direction and the pressure reducing valve in a valve closing direction. 4. A brake apparatus as claimed in claim 2 , wherein a third fluid passage is provided for connecting an interposition between the pressure increasing valve of the second fluid passage and a portion where the second fluid passage is connected to the first fluid passage to the inlet fluid passage, and the third fluid passage is provided with a hydraulic pressure control valve. 5. A brake apparatus as claimed in claim 4 , wherein the hydraulic pressure control valve is a proportional valve. 6. A brake apparatus as claimed in claim 5 , further comprising a controller programmed to control the pump and various valves, and to control the proportional control valve and the shutting valve in a valve opening direction thereby to return the brake fluid from the wheel cylinders to the reservoir tank. 7. A brake apparatus as claimed in claim 2 , wherein the inlet fluid passage is constructed of a steel pipe. 8. A brake apparatus comprising: a brake piping that includes first and second brake piping systems having a plurality of wheel cylinders mounted to respective road wheels for producing a braking force, the second brake piping system being isolated from the first brake piping system; a brake operation condition detecting section that detects an operation condition of a brake operation member actuated by a driver; a pump provided to each of the piping systems and producing a hydraulic pressure for the wheel cylinders based on the operation condition detected by the brake operation condition detecting section; a cylinder body including a first fluid chamber that has a first outlet port connected to the first brake piping system and produces a hydraulic pressure upon braking operation by the driver and a second fluid chamber that has a second outlet port connected to the second brake piping system and produces a hydraulic pressure upon braking operation of the driver, the second fluid chamber being isolated from the first fluid chamber; a master cylinder including a plurality of pistons that are slidably received in a cylindrical inner surface of the cylinder body and connected to the brake operation member, a first piston seal that seals between the cylindrical inner surface of the cylinder body and a cylindrical outer surface of one of the pistons thereby to define the first fluid chamber and a second piston seal that seals between the cylindrical inner surface of the cylinder body and a cylindrical outer surface of another of the pistons thereby to define the second fluid chamber; a reservoir tank that is integral with the master cylinder; a first inlet fluid passage that connects an inlet portion of the pump of the first brake piping system to the reservoir tank; a second inlet fluid passage that connects an inlet portion of the pump of the second brake piping system to the reservoir tank; first and second pressure reducing fluid passages that connect the first and second inlet fluid passages to the wheel cylinders respectively; and a normally closed pressure reducing valve provided to each of the pressure reducing fluid passages, the normally closed pressure reducing valve being opened to depressurize brake fluid in one of the wheel cylinders thereby to return the brake fluid to the reservoir tank through the corresponding inlet fluid passage, wherein each of the inlet fluid passages is provided with a normally closed shutting valve that is connected to the at least one pressure reducing valve in series with respect to the wheel cylinders and the reservoir tank, a gate out valve provided to a first fluid passage that connects an outlet portion of each of the pumps to each of the outlet ports; and a second fluid passage that is branched from an interposition between the outlet portion of the pump of the first fluid passage and the gate out valve and connected to the wheel cylinders; and wherein a pressure increasing valve is connected to the second inlet fluid passage. 9. A brake apparatus as claimed in claim 8 , wherein the reservoir tank is provided with mutually isolated two chambers, one of the chambers is connected to the first inlet fluid passage and the other of the chambers is connected to the second inlet fluid passage. 10. A brake apparatus as claimed in claim 9 , further comprising a controller programmed to control the pumps and the various valves, and to carry out a hydraulic pressure control by controlling the pumps and the valves even when one of the piping systems fails to operate. 11. A brake apparatus as claimed in claim 8 , wherein the master cylinder is equipped with an auxiliary fluid chamber that is connected to the reservoir tank fluid-tightly isolated from the first fluid chamber, and the first inlet fluid passage connects the reservoir tank to the inlet portion of the pump of the first brake piping system through the auxiliary fluid chamber. 12. A brake apparatus as claimed in claim 11 , further comprising a controller programmed to control the pumps and various valves, and to carry out a hydraulic pressure control by controlling the gate out valve in a valve closing direct