Threaded connection for tandem motors of electrical submersible pump

The invention claimed is: 1. An electrical submersible pump assembly, comprising: a plurality of modules including a pump, at least one motor, and a pressure equalizer coupled to the motor for reducing a pressure differential between lubricant in the motor and hydrostatic pressure of well fluid; a drive shaft subassembly extending from the at least one motor into the pump along a longitudinal axis of the pump assembly; a threaded connection between first and seconds ones of the modules, comprising: a first adapter mounted to the first one of the modules and having threads; a second adapter mounted to the second one of the modules, the second adapter having a tubular body, a neck of smaller diameter than the body extending from the body, an external shoulder at a base of the neck, a rim on the neck, and an external groove between the external shoulder and the rim; a collar rotatably carried and axially movable on the neck, the collar being in threaded engagement with the threads of the first adapter, the collar having an internal groove axially spaced and separated from a portion of the collar having threads; and a shoulder ring carried partly in the external groove and partly in the internal groove to retain the collar on the neck, the shoulder ring being split and biased into one of the internal or external grooves. 2. The pump assembly according to claim 1 , wherein: one of the internal or external grooves has a shallower depth portion and an adjoining deeper depth portion; the shoulder ring is biased into an other of the internal or external grooves; the collar has a disengaged position wherein the deeper depth portion is aligned with the other of the internal or external grooves and the shallower depth portion is misaligned with said other of the grooves, and an engaged position wherein the shallower depth portion is aligned with said other of the grooves and the deeper depth portion is misaligned with said other of the grooves; and wherein the shoulder ring is located partly in the deeper depth portion and said other of the grooves while the collar is in the disengaged position, and slides axially into the shallower depth portion while the collar moves axially to the engaged position. 3. The pump assembly according to claim 1 , wherein: the external groove has a shallower depth portion and an adjoining deeper depth portion; the shoulder ring is biased into the internal groove; the collar has a disengaged position wherein the internal groove is aligned with the deeper depth portion and the internal groove is misaligned with the shallower depth portion, and an engaged position wherein the internal groove is aligned with the shallower depth portion and misaligned with the deeper depth portion; and wherein the shoulder ring axially slides from the deeper depth portion to the shallower depth portion as the collar moves from the disengaged position to the engaged position. 4. The pump assembly according to claim 1 , wherein: the shoulder ring is biased radially outward relative to the axis; a release hole extends radially from an exterior of the collar into the internal groove; the shoulder ring is contractible in response to a tool inserted into the release hole and pressed radially inward against the shoulder ring; and when in a fully contracted position, an outer diameter of the ring is located radially inward from the internal groove to enable the collar to be axially removed from the neck. 5. The pump assembly according to claim 1 , wherein: the external groove has a shallower depth portion and an adjoining deeper depth portion; the shoulder ring is biased into the internal groove; the collar has a disengaged position wherein the internal groove is aligned with the deeper depth portion and the internal groove is misaligned with the shallower depth portion, and an engaged position wherein the internal groove is aligned with the shallower depth portion and misaligned with the deeper depth portion; the shoulder ring axially slides from the deeper depth portion to the shallower depth portion as the collar moves from the disengaged position to the engaged position; a release hole extends radially from an exterior of the collar into the internal groove; the shoulder ring is contractible while the collar is in the disengaged position in response to a tool inserted into the release hole and pressed radially inward against the shoulder ring; and when in a fully contracted position, an outer diameter of the ring is located radially inward from the internal groove to enable the collar to be axially removed from the neck. 6. The pump assembly according to claim 1 , wherein: the drive shaft subassembly comprises a lower shaft in a lower one of the modules and an upper shaft in an adjacent and upper one of the modules, the lower and the upper ones of the modules being filled with a lubricant; and wherein the threaded connection further comprises: a coupling sleeve having internal splines that engage a lower end of the upper shaft and an upper end of the lower shaft, the coupling sleeve being axially movable between a lower position prior to connecting the lower and upper ones of the modules, and an upper position when the lower and upper ones of the modules are connected; a bore in the upper one of the modules in which the coupling sleeve is located; and a gasket in a lower end of the bore that is sealingly engaged by the coupling sleeve while the coupling sleeve is in the lower position to block leakage of lubricant from the upper one of the modules prior to connecting the upper and lower ones of the modules, the coupling sleeve being spaced above the gasket while in the upper position to communicate lubricant from the upper one of the modules past the gasket into the lower one of the modules. 7. The pump assembly according to claim 1 , wherein: said at least one motor comprises upper and lower tandem motors, each containing a lubricant; the threaded connection is between the upper and lower tandem motors; the drive shaft subassembly comprises a lower shaft in the lower tandem motor and an upper shaft in the upper tandem motor; and the threaded connection further comprises: a coupling sleeve having internal splines that engage the lower end of the upper shaft and the upper end of the lower shaft, the coupling sleeve being axially movable between a lower position prior to connecting the lower tandem motor with the upper tandem motor, and an upper position when the upper and lower tandem motors are connected; a bore in the upper tandem motor in which the coupling sleeve is located; and a gasket in a lower end of the bore that is sealingly engaged by the coupling sleeve while the coupling sleeve is in the lower position to block leakage of lubricant from the upper tandem motor, the coupling sleeve being spaced above the gasket while in the upper position to communicate lubricant from the upper tandem motor to the lower tandem motor. 8. The pump assembly according to claim 1 , wherein: said at least one motor comprises upper and lower tandem motors, each of the upper and lower tandem motors having a plurality of motor wires terminating in electrical connectors at the lower end of the upper tandem motor and the upper end of the lower tandem motor, the threaded connection being between the upper and lower tandem motors; wherein the pump assembly further comprises: a thrust bearing support member in the lower tandem motor and having a central counterbore; a thrust bearing located in the counterbore of the thrust bearing support member; a plurality of motor wire holes extending axially through the thrust bearing support member and spaced radially outward from the counterbore, the motor wires of the lower tandem motor ext