Oil pump

The invention claimed is: 1. An oil pump comprising: an inner rotor configured to rotate integrally with a drive shaft around a rotation axis; an outer rotor disposed within a pump chamber formed in a housing and having an internal toothed portion provided on an inner periphery of the outer rotor and meshed with an external toothed portion provided on an outer periphery of the inner rotor; a space provided adjacent to the pump chamber in a direction of the rotation axis and formed into a ring shape surrounding the rotation axis, when viewed in the direction of the rotation axis; a connection passage for connecting the pump chamber and the space; and a cylindrical discharge passage formed to extend parallel to the rotation axis in the housing and having one end connected to the space in the direction of the rotation axis and another end serving as a discharge port that opens at a position within the oil pump and being spaced apart from both the pump chamber and the space in the direction of the rotation axis, wherein the discharge passage is provided in the housing such that a portion of the discharge passage is located to open inside of an outer periphery of the space when viewed in the direction of the rotation axis, and wherein the one end of the discharge passage is provided at a position extending to a middle of the space when viewed in a radial direction of the rotation axis, such that the discharge passage and the space are in direct communication with each other. 2. The oil pump as recited in claim 1 , wherein: an opening area of a communication port between the discharge passage and the space is set greater than or equal to an opening area of the discharge port of the discharge passage. 3. The oil pump as recited in claim 2 , wherein: a volume of the space and an opening area of the communication port are respectively set, in a table that utilizes the volume of the space and the opening area of the communication port as parameters, to a given volume and a given opening area included in a specified region between a target pulsation characteristic curve representing a target pulsation characteristic for prescribing a permissible pulsation upper limit of a pulsation that varies depending on the volume of the space and the opening area of the communication port, a target fuel economy characteristic line representing a target fuel economy characteristic for prescribing a permissible fuel consumption lower limit of fuel consumption that varies depending on the opening area of the communication port, and a target hydraulic responsiveness characteristic line representing a target hydraulic responsiveness characteristic for prescribing a permissible hydraulic responsiveness lower limit of a hydraulic responsiveness of the oil pump that varies depending on the volume of the space. 4. The oil pump as recited in claim 3 , wherein: the target pulsation characteristic is set to an upper limit of oil flow oscillations of the oil pump, the upper limit being calculated based on a prescribed noise level of noise to be suppressed in a vehicle equipped with the oil pump, and the target pulsation characteristic is represented by an equivalent curve that utilizes the volume of the space and the opening area of the communication port as parameters. 5. The oil pump as recited in claim 3 , wherein: the target fuel economy characteristic is an upper limit of a burden share of the oil pump that affects a load torque of a vehicle equipped with the oil pump.