Oil pump with straightening member branching the suction passage

The invention claimed is: 1. An oil pump comprising: a shaft member configured to rotate by drive of a drive source; an inner rotor having external teeth and configured to rotate integrally with the shaft member; an outer rotor having internal teeth meshing with the external teeth, configured to rotate as the inner rotor rotates, and forming a rotor chamber into which oil is sucked from a suction passage and from which the oil is discharged toward a discharge passage, between the inner rotor and the outer rotor; a body member having a recess-shaped housing chamber in which the inner rotor and the outer rotor are housed so as to be rotatable about an axis; and a cover member having at least a part of the suction passage and attached so as to close the housing chamber, wherein the rotor chamber has a first suction port and a second suction port through each of which the oil to be sucked from the suction passage into the rotor chamber passes, and the oil pump comprises a straightening member branching the suction passage from a main path to the first suction port and the second suction port, and configured to straighten the oil guided from the main path to the first suction port and the oil guided from the main path to the second suction port, wherein the straightening member is formed and disposed such that an axial end face of the straightening member is opposed to an axial end face of the outer rotor in an axial direction without interruption from one end to another end thereof in a direction different from a thickness direction of the straightening member. 2. The oil pump according to claim 1 , wherein the straightening member is formed and disposed such that a first flow velocity of the oil guided from the main path to the first suction port and a second flow velocity of the oil guided from the main path to the second suction port are equal to each other. 3. The oil pump according to claim 1 , wherein the first suction port and the second suction port are provided at both ends in an axial direction of the rotor chamber so as to be opposed to each other in the axial direction, the cover member has a first branch path provided on a downstream side of the main path, communicating with an exit of the main path, and configured to guide the oil to the first suction port, and a second branch path provided on the downstream side of the main path, communicating with the exit of the main path, and configured to guide the oil to the second suction port, and the body member has a suction path communicating with the second branch path and configured to guide the oil to the second suction port. 4. The oil pump according to claim 3 , wherein the straightening member demarcates the first branch path and the second branch path such that cross-sectional areas thereof are equal to each other. 5. The oil pump according to claim 1 , wherein the straightening member is formed so as to be curved along an outer shape of the outer rotor. 6. The oil pump according to claim 1 , wherein the straightening member is formed and disposed such that a gap of 2 mm or less is formed between the axial end face of the straightening member and the axial end face of the outer rotor. 7. The oil pump according to claim 1 , wherein the straightening member is integrally provided to the cover member.