Rotating electric machine

What is claimed is: 1. A rotating electric machine comprising: a coolant flow path structure and a negative pressure structure, wherein the coolant flow path structure, which cools a rotor configured of a rotor core and end plates provided at both axial ends of the rotor core, is configured of a first coolant flow path forming a radial coolant flow path of the rotor and a second coolant flow path communicating with the first coolant flow path and forming an axial coolant flow path of the rotor, and wherein the negative pressure structure, which brings an exit of the coolant flow path structure into a negative pressure as a result of a rotation of the rotor, is provided at the exit of the second coolant flow path, and wherein a coolant reservoir opening to the air is provided at the entrance of the first coolant flow path, and a coolant flows from the coolant reservoir to the first coolant flow path. 2. The rotating electric machine according to claim 1 , wherein as the negative pressure structure which brings the exit into a negative pressure, the exit of the coolant flow path structure protrudes from the wall surface of the end plate. 3. The rotating electric machine according to claim 1 , further comprising: a fan which rotates integrally with the rotor and generates a radial air flow around the axial exit. 4. The rotating electric machine according to claim 1 , wherein the second coolant flow path axially passes the surface of each magnet buried in the rotor core. 5. The rotating electric machine according to claim 1 , wherein a coolant reservoir opening to the air is provided at the entrance of the first coolant flow path, and a coolant flows from the coolant reservoir to the first coolant flow path. 6. A rotating electric machine comprising: a coolant flow path structure and a negative pressure structure, wherein the coolant flow path structure, which cools a rotor configured of a rotor core and end plates provided at both axial ends of the rotor core, is configured of a first coolant flow path forming a radial coolant flow path of the rotor and a plurality of second coolant flow paths communicating with the first coolant flow path and forming axial coolant flow paths of the rotor, wherein branches to the plurality of second coolant flow paths are configured by superimposing an end plate, by which an axial flow path and radial flow path are formed, and a flat plate in which through holes are selectively provided, and wherein the negative pressure structure, which brings an exist of the coolant flow path structure into a negative pressure as a result of a rotation of the rotor, is provided at the exit of the second coolant flow path.