Magnetic coupling for motor drive shaft of electrical submersible pump

The invention claimed is: 1. An electrical submersible pump assembly, comprising: a rotary pump having a rotatably driven pump shaft; a motor having a motor shaft that is rotated by the motor and extends along an axis of the pump assembly; a plurality of motor shaft disks mounted to the motor shaft for rotation therewith and spaced axially apart from each other, each disk having first and second disk end walls joined by a disk cylindrical wall; a plurality of motor shaft magnets mounted in the first and second disk end walls of each of the disks; a pump shaft rotor mounted to the pump shaft for rotation therewith, the rotor having a plurality of annular bands located between adjacent ones of the disks, each of the annular bands having first and second band end walls joined by a band cylindrical wall; a plurality of magnets on the first and second band end walls of each of the bands that magnetically interact with the magnets on the second and first disk end walls, respectively, of each of the disks, to impart rotation of the motor shaft to the rotor; wherein the rotor has a plurality of annular recesses, each of the recesses receiving one of the disks, each of the annular recesses having a recess cylindrical wall joining adjacent ones of the bands; and magnets on the disk cylindrical walls and on the recess cylindrical walls that interact magnetically with each other to facilitate imparting rotation of the motor shaft to the pump shaft. 2. The assembly according to claim 1 , wherein: the first and second disk end walls and the first and second band end walls are flat and perpendicular to the axis. 3. The assembly according to claim 1 , further comprising: a magnetic coupling housing having a housing cylindrical wall extending around and concentric with the rotor, the housing having a motor end adapter on one end of the housing cylindrical wall coupled to the motor and a pump end adapter on an another end of the housing cylindrical wall coupled to the pump; the motor shaft extending through an opening in the motor end adapter; the pump shaft extending through an opening in the pump end adapter; and a thrust bearing at the opening in the motor end adapter and in engagement with the motor shaft. 4. The assembly according to claim 1 , further comprising: a magnetic coupling housing having a housing cylindrical wall extending around and concentric with the rotor, the housing having a motor end adapter on one end of the housing cylindrical wall and a pump end adapter on an another end of the housing cylindrical wall; the motor shaft extending through an opening in the motor end adapter; the pump shaft extending through an opening in the pump end adapter; and a thrust bearing located between the motor end adapter and the pump end adapter and in engagement with the motor shaft. 5. The assembly according to claim 1 , further comprising: axial gaps between the disk end walls and adjacent ones of the first and second band end walls; outer cylindrical gaps between the disk cylindrical walls and adjacent ones of the band cylindrical walls; inner cylindrical gaps exist between the band cylindrical wall of each of the bands and the motor shaft; and a non rotating shell of non ferrous material located in the axial gaps and the inner and outer cylindrical gaps and separating the magnets on the disk first and second end walls from the magnets on the rotor second and first end walls, respectively, the shell having a sealed interior in fluid communication with lubricant in the motor. 6. The assembly according to claim 1 , wherein the recess cylindrical walls have inner diameters greater than inner diameters of the band cylindrical walls. 7. The assembly according to claim 1 , wherein the disks and the bands have rectangular cross-sections when viewed in an axial section plane. 8. The assembly according to claim 1 , further comprising: a magnetic coupling housing having a housing cylindrical wall surrounding and concentric with the rotor, the housing having a motor end adapter on one end of the housing cylindrical wall coupled to the motor and a pump end adapter on an another end of the housing cylindrical wall coupled to the pump; the motor shaft extending through an opening in the motor end adapter; the pump shaft extending through an opening in the pump end adapter; a shell of non ferrous material having a motor end flange non rotatably mounted to the motor end adapter; the shell having a plurality of inward facing recesses, each of the shell recesses receiving one of the disks, the shell having a plurality of outward facing recesses, each receiving one of the bands; and the shell being sealed and having an interior in fluid communication with lubricant in the motor. 9. An electrical submersible pump assembly, comprising: a rotary pump having a rotatably driven pump shaft; a motor having a motor shaft that is rotated by the motor and extends along an axis of the pump assembly; a plurality of motor shaft disks mounted to the motor shaft for rotation therewith and spaced axially apart from each other, each disk having upward and downward facing disk surfaces joined by an outward facing disk cylindrical surface; a plurality of motor shaft magnets mounted in each of the disk cylindrical surfaces and in the upward and downward facing disk surfaces; a pump shaft rotor mounted to the pump shaft for rotation therewith, the rotor having a plurality of annular bands axially separated from each other by recesses, each of the bands having upward and downward facing band surfaces joined by an inward facing band cylindrical surface, each of the recesses having an inward facing recess cylindrical surface; a plurality of rotor magnets mounted in each of the recess cylindrical surfaces and in the upward and downward facing band surfaces; each of the disks extending into one of the recesses, juxtaposing the disk cylindrical surface of each of the disks with one of the recess cylindrical surfaces, juxtaposing the disk upward facing surface with one of the downward facing band surfaces and juxtaposing the disk downward facing surface with one of the upward facing band surfaces; a plurality of magnets on the cylindrical surfaces of each of the recesses for interacting with the magnets on the disk cylindrical surfaces; and a plurality of magnets on the upward and downward facing band surfaces for interacting with the magnets on the downward and upward facing disk surfaces. 10. The assembly according to claim 9 , wherein the upward and downward facing disk surfaces and the upward and downward facing band surfaces are flat and perpendicular to the axis. 11. The assembly according to claim 9 , wherein the magnets on the upward and downward facing disk surfaces are located a same radial distance from the axis as the magnets on the upward and downward facing band surface. 12. The assembly according to claim 9 , further comprising: an axial gap between each of the upward facing disk surfaces and the downward facing band surface of an adjacent one of the bands; an axial gap between each of the downward facing disk surfaces and the upward facing band surface of an adjacent one of the bands; an outer cylindrical gap between each of the disk cylindrical surfaces and an adjacent one of the recess cylindrical surfaces; and an inner cylindrical gap between each of the band cylindrical surfaces and the motor shaft. 13. The assembly according to claim 12 , further comprising: a non rotating shell of non ferrous material located in the axial gaps and the inner and outer cylindrical gaps, the shell having a sealed interior in fluid communication with lubric