Electronic oil pump

What is claimed is: 1 . An electronic oil pump comprising: a lower case having one side where the suction passage and discharge passage of a fluid are formed and the other side where a gerotor seating part is formed; an upper case having one side open, having a cooling space formed therein, and having a lower case coupled to an open surface of the one side; a gerotor installed on the seating part, and including an internal rotor and an external rotor engaged with each other to be eccentrically rotated for its one side to communicate with the suction passage and the other side to communicate with the cooling space; an electric motor installed in the cooling space, and including a shaft for transmitting a rotational force to the gerotor; and a flexible seal sealing the other side of the gerotor, and opened by an internal pressure of the gerotor to supply the fluid pumped by the gerotor to the cooling space, wherein the cooling space communicates with the discharge passage for the fluid exchanging heat with the electric motor to be discharged through the discharge passage, wherein the lower case includes: a bottom plate having an upstream end of the suction passage and a downstream end of the discharge passage formed in its one surface; a body extending from the other surface of the bottom plate to the other side, and having a diameter smaller than a diameter of the bottom plate; and the seating part spaced apart from a circumference of the body inward in a radial direction and recessed from the other surface to its one side, and the suction passage and the discharge passage are formed in the body, a downstream end of the suction passage passes through the seating part to communicate with the gerotor, and an upstream end of the discharge passage passes through the circumference of the body to communicate with the cooling space, wherein the body includes: a discharge groove formed therein by a certain distance from the other end of the body to its one side and recessed inward from an outer surface of the body in the radial direction; and a discharge hole passing through the body in the radial direction for one end of the discharge groove and the upstream end of the discharge passage to communicate with each other, and the discharge passage communicates with the cooling space through the discharge groove and the discharge hole. 2 . The pump of claim 1 , wherein when defining a portion of the gerotor where a volume is increased during its rotation movement as a rotor suction part, and defining a portion of the gerotor where a volume is decreased as a rotor discharge part, the rotor suction part has one side communicating with the suction passage and the other side exposed to the cooling space and sealed using the flexible seal by the internal pressure, and the rotor discharge part has one side sealed by the lower case and the other side communicating with the cooling space by the flexible seal opened by the internal pressure. 3 . The pump of claim 1 , wherein the flexible seal is made of an elastic fiber-reinforced plastic material for the rotor discharge part to have an open area that varies based on a fluid viscosity. 4 . The pump of claim 1 , wherein the flexible seal is coupled to the other side of the gerotor and fixed to the shaft to be rotated in conjunction with the gerotor, seals the other side of the rotor suction part by the pressure when the gerotor has an increased volume, and opens the other side of the rotor discharge part by the pressure when the gerotor has a decreased volume. 5 . The pump of claim 1 , wherein the discharge groove has a tapered shape where its width formed in a circumferential direction of the body gets smaller toward its one side.