Oil return passage structure for oil pump

What is claimed is: 1. An oil pump, comprising: a pump body; a pump cover; an outer rotor; and an inner rotor, the pump body comprising a rotor chamber having an inner circumferential support wall on an inner circumferential side, a first inlet port and a first outlet port formed in the rotor chamber, an inlet passage communicating with the first inlet port, an outlet passage communicating with the first outlet port, a relief valve allowing oil to flow from the outlet passage to the inlet passage by relieving pressure, a relief chamber formed on a discharge side of the relief valve, and a first oil return passage formed from the relief chamber to the inlet passage; the pump cover including a second inlet port and a second outlet port, and a second oil return passage facing and communicating with the first oil return passage; the outer rotor being supported by the inner circumferential support wall of the rotor chamber; and the inner rotor being arranged on an inner circumferential side of the outer rotor, wherein the first oil return passage is formed in the inner circumferential support wall as a groove-like recess that opens along an outer circumferential surface of the outer rotor, and a support protrusion is formed near a portion where the second oil return passage is formed in the pump cover to support a front surface, in a radial direction, of the outer rotor. 2. The oil pump according to claim 1 , wherein each of the first oil return passage and the second oil return passage is formed at and around a symmetric point of a maximum partition part located between a trailing end of the inlet port and a leading end of the outlet port relative to a center point of the rotor chamber. 3. The oil pump according to claim 1 , wherein the first oil return passage is formed at an upper end portion in a depth direction of the inner circumferential support wall and opened in a surface portion of the rotor chamber. 4. The oil pump according to claim 3 , wherein the first oil return passage is formed to a depth from a surface of the rotor chamber less than half a thickness in an axial direction of the outer rotor. 5. The oil pump according to claim 1 , wherein the support protrusion is sandwiched between the second inlet port on a radially inner side and the second oil return passage on a radially outer side, and formed as an independent protrusion. 6. The oil pump according to claim 1 , wherein the first oil return passage is formed by a gap formed in an upper portion of the inner circumferential support wall and by a deep groove formed on a radially outer side of the inner circumferential support wall in close proximity thereto, so as to communicate the relief chamber with the inlet passage, the deep groove communicating with the gap. 7. An oil pump, comprising: a pump body; a pump cover; an outer rotor; and an inner rotor, the pump body comprising a rotor chamber having an inner circumferential support wall on an inner side, a first inlet port and a first outlet port formed in the rotor chamber, an inlet passage communicating with the first inlet port, an outlet passage communicating with the first outlet port, a relief valve allowing oil to flow from the outlet passage to the inlet passage by relieving pressure, a relief chamber formed on a discharge side of the relief valve, and a first oil return passage formed from the relief chamber to the inlet passage; the pump cover including a second inlet port and a second outlet port, and a second oil return passage facing and communicating with the first oil return passage; the outer rotor being supported by the inner circumferential support wall of the rotor chamber; and the inner rotor being arranged on an inner circumferential side of the outer rotor, wherein the first oil return passage is formed as a gap extending to a same depth in an axial direction as a depth of the rotor chamber between a body wall portion, located between the relief chamber and the inlet passage, and an outer circumferential surface of the outer rotor, and a support protrusion is formed near a portion where the second oil return passage is formed in the pump cover to support a front surface, in a radial direction, of the outer rotor. 8. The oil pump according to claim 7 , wherein the support protrusion is sandwiched between the second inlet port on a radially inner side and the second oil return passage on a radially outer side, and formed as an independent protrusion.