Piston pump and valve plate of piston pump

The invention claimed is: 1. A piston pump configured to suction and discharge a working fluid, comprising: a plurality of pistons; a cylinder block including a plurality of cylinders configured to accommodate the pistons, the cylinder block being configured to be rotated; a shaft configured to pass through the cylinder block, the shaft being combined with the cylinder block; a swash plate configured to reciprocate the pistons in such a manner that capacity chambers of the cylinders are expanded and contracted in accordance with rotation of the cylinder block; a casing configured to accommodate the cylinder block and support the shaft; and a valve plate placed between the cylinder block and the casing, wherein the cylinder block has communication holes configured to be opened on the cylinders, the casing has a suction passage through which the working fluid is guided to the capacity chambers through the communication holes, and a discharge passage to which the working fluid discharged from the capacity chambers through the communication holes is guided, the valve plate has a suction port configured to allow communication between the communication holes and the suction passage, and a discharge port configured to allow communication between the communication holes and the discharge passage, and the suction port is a cutout part corresponding to a gap in a substantially circular outermost edge of the valve plate. 2. The piston pump according to claim 1 , wherein an inner circumferential surface defining a radially inner side of the suction port is provided on the radially inner side of an inner end of a trajectory on which the communication holes go in accordance with the rotation of the cylinder block. 3. A piston pump configured to suction and discharge a working fluid, comprising: a plurality of pistons; a cylinder block including a plurality of cylinders configured to accommodate the pistons, the cylinder block being configured to be rotated; a shaft configured to pass through the cylinder block, the shaft being combined with the cylinder block; a swash plate configured to reciprocate the pistons in such a manner that capacity chambers of the cylinders are expanded and contracted in accordance with rotation of the cylinder block; a casing configured to accommodate the cylinder block and support the shaft; and a valve plate placed between the cylinder block and the casing, wherein the cylinder block has communication holes configured to be opened on the cylinders, the casing has a suction passage through which the working fluid is guided to the capacity chambers through the communication holes, and a discharge passage to which the working fluid discharged from the capacity chambers through the communication holes is guided, the valve plate has a suction port configured to allow communication between the communication holes and the suction passage, and a discharge port configured to allow communication between the communication holes and the discharge passage, the suction port is a through hole having an inner circumferential surface defining a radially inner side of the suction port, and an outer circumferential surface provided on the radially outer side of the inner circumferential surface, the outer circumferential surface is provided on the radially outer side of an outer end of a trajectory on which the communication holes go in accordance with the rotation of the cylinder block, and a width of the suction port between the inner circumferential surface and the outer circumferential surface in a radial direction, with respect to an axis of the shaft, is greater than a width of the communication holes in the radial direction. 4. The piston pump according to claim 3 , wherein the inner circumferential surface of the suction port is provided on the radially inner side of an inner end of the trajectory on which the communication holes go in accordance with the rotation of the cylinder block. 5. The piston pump according to claim 1 , further comprising: a circulation passage through which the working fluid is circulated in the casing and the working fluid is returned to the suction passage, wherein the circulation passage has a return passage configured to communicate with the suction port. 6. A valve plate provided in a piston pump, the valve plate being placed between a cylinder block in which a cylinder configured to accommodate a piston is formed, the cylinder block being configured to be rotated together with a shaft, and a casing in which a suction passage through which a working fluid is guided into the cylinder and a discharge passage to which the working fluid discharged from the cylinder is guided are formed, the casing being configured to accommodate the cylinder block, the valve plate comprising: a suction port connected to the suction passage; and a discharge port connected to the discharge passage, wherein the suction port is a cutout part corresponding to a gap in a substantially circular outermost edge of the valve plate. 7. A valve plate provided in a piston pump, the valve plate being placed between a cylinder block in which a cylinder configured to accommodate a piston is formed and a communication hole configured to be opened on the cylinder is formed, the cylinder block configured to be rotated together with a shaft, and a casing in which a suction passage through which a working fluid is guided into the cylinder and a discharge passage to which the working fluid discharged from the cylinder is guided are formed, the casing being configured to accommodate the cylinder block, the valve plate comprising: a suction port configured to allow communication between the suction passage and the communication hole, the suction port having an inner circumferential surface and an outer circumferential surface; and a discharge port configured to allow communication between the discharge passage and the communication hole, wherein the outer circumferential surface of the suction port is provided on the radially outer side of an outer end of a trajectory on which the communication hole goes in accordance with rotation of the cylinder block, and a width of the suction port between the inner circumferential surface and the outer circumferential surface in a radial direction, with respect to an axis of the shaft, is greater than a width of the communication holes in the radial direction.