Spindle structure, electric motor, and machine tool formed with through hole for passage of fluid

The invention claimed is: 1. A spindle structure of a machine tool, comprising: an electric motor including a stator and a motor rotor rotatably arranged radially inside of the stator, the motor rotor having a first through hole; a spindle device arranged adjacent to the electric motor in one direction of an axial direction of the electric motor, and including a spindle housing and a spindle rotor rotatably arranged radially inside of the spindle housing, the spindle rotor being coupled to the motor rotor so as to rotate integrally with the motor rotor, the spindle rotor including: a tool holding part provided at an end of the spindle rotor in the one direction of the axial direction; and a second through hole extending through the spindle rotor so as to open at the end of the spindle rotor in the one direction of the axial direction, the second through hole being in fluid communication with the first through hole; a first group of individual fluid flow members arranged separate from each other in the first through hole so as to align along the first through hole, and configured to rotate together with the motor rotor so as to make a fluid present in the first through hole flow toward the one direction of the axial direction when the motor rotor is rotated, each of the first group of fluid flow members including: a first ring member having: an outer circumferential surface which fixedly contacts a wall surface defining the first through hole; and an inner circumferential surface opposite the outer circumferential surface of the first ring member; and a plurality of first vanes extending radially inward from the inner circumferential surface of the first ring member; and a second group of individual fluid flow members arranged separate from each other in the second through hole so as to align along the second through hole, and configured to rotate together with the spindle rotor so as to make a fluid present in the second through hole flow toward the one direction of the axial direction when the spindle rotor is rotated, each of the second group of fluid flow members including: a second ring member having: an outer circumferential surface which fixedly contacts a wall surface defining the second through hole; and an inner circumferential surface opposite the outer circumferential surface of the second ring member; and a plurality of second vanes extending radially inward from the inner circumferential surface of the second ring member. 2. The spindle structure according to claim 1 , wherein each of the first group of fluid flow members further includes a first center shaft arranged radially inside of the first ring member, wherein one end of each first vane is fixed to the first center shaft, while the other end of each first vane is fixed to the first ring member, wherein each of the second group of fluid flow members further includes a second center shaft arranged radially inside of the second ring member, wherein one end of each second vane is fixed to the second center shaft, while the other end of each second vane is fixed to the second ring member.