One-way clutch drive shaft coupling in submersible well pump assembly

The invention claimed is: 1. An apparatus for pumping well fluid from a well, comprising: an electrical submersible pump assembly having a motor and a pump, the motor having a motor shaft that drives a pump shaft of the pump; the motor shaft having an upper end with external splines; the pump shaft having a lower end with external splines; a thrust bearing unit between the motor and the pump, the thrust bearing unit having a thrust bearing shaft that rotates a thrust runner in sliding engagement with a non-rotating thrust bearing base, the thrust bearing shaft having upper and lower ends, each having external splines; a pump shaft coupling that couples the upper end of the thrust bearing shaft with the lower end of the pump shaft; a motor shaft coupling that couples the lower end of the thrust bearing shaft with the upper end of the motor shaft; wherein the pump shaft coupling comprises: a coupling housing having a coupling housing socket extending into the coupling housing from a first end, the socket having a set of internal splines that mesh with the external splines on either the lower end of the pump shaft or the upper end of the thrust bearing shaft; a receptacle in a second end of the coupling housing, the receptacle having a receptacle interior wall; a hub carried in the receptacle for rotation relative to the coupling housing, the hub having a set of internal splines that mesh with the external splines on other of the lower end of the pump shaft or the upper end of the thrust bearing shaft; a one-way clutch located between the receptacle interior wall and the hub to transfer torque between the hub and the receptacle interior wall while the motor shaft is being driven in a forward direction, and to allow relative rotation between the receptacle interior wall and the hub while the pump shaft is rotating in a reverse direction and the motor is shut off, thereby preventing reverse rotation of the thrust bearing shaft; and wherein the pump shaft coupling is configured to transfer down thrust on the pump shaft to the thrust bearing shaft. 2. The apparatus according to claim 1 , wherein the one way clutch comprises: a plurality of pawls spaced around the hub, each having an inner end in engagement with the hub and an outer end in engagement with the receptacle interior wall, the pawls being configured to transfer forward direction torque between the hub and the receptacle interior wall when the motor shaft is rotating in the forward direction, and the pawls being configured to allow slippage between the hub and the receptacle interior wall while the motor shaft is not rotating in the forward direction. 3. The apparatus according to claim 1 , wherein the motor shaft coupling comprises: a motor coupling housing having a motor coupling housing socket extending into the motor coupling housing from a first end, the motor coupling housing socket having a set of internal splines that mesh with the external splines on either the upper end of the motor shaft or the lower end of the thrust bearing shaft; a motor coupling receptacle in a second end of the motor coupling housing, the motor coupling receptacle having a motor coupling receptacle interior wall; a motor coupling hub carried in the motor coupling receptacle for rotation relative to the motor coupling housing, the motor coupling hub having a set of internal splines that mesh with the external splines on other of the upper end of the motor shaft or the lower end of the thrust bearing shaft; and a motor coupling one-way clutch located between the motor coupling receptacle interior wall and the motor coupling hub to transfer torque between the motor coupling hub and the motor coupling receptacle interior wall while the motor shaft is being driven in a forward direction, and to allow relative rotation between the motor coupling receptacle interior wall and the motor coupling hub while the motor shaft is being driven by the motor in a reverse direction. 4. An apparatus for pumping well fluid from a well, comprising: an electrical submersible pump assembly having a motor and a pump, the motor having a motor shaft that drives a pump shaft of the pump; the motor shaft having an upper end with external splines; the pump shaft having a lower end with external splines; a thrust bearing unit between the motor and the pump, the thrust bearing unit having a thrust bearing shaft that rotates a thrust runner in sliding engagement with a non-rotating thrust bearing base, the thrust bearing shaft having upper and lower ends, each having external splines; a pump shaft coupling that couples the upper end of the thrust bearing shaft with the lower end of the pump shaft; a motor shaft coupling that couples the thrust bearing shaft with the motor shaft, the motor shaft coupling comprising: a motor coupling housing having a motor coupling housing socket extending into the motor coupling housing from a first end, the motor coupling housing socket having a set of internal splines that mesh with the external splines on either the upper end of the motor shaft or the lower end of the thrust bearing shaft; a motor coupling receptacle in a second end of the motor coupling housing, the motor coupling receptacle having a motor coupling receptacle interior wall; a motor coupling hub carried in the motor coupling receptacle for rotation relative to the motor coupling housing, the motor coupling hub having a set of internal splines that mesh with the external splines on other of the upper end of the motor shaft or the lower end of the thrust bearing shaft; and a motor coupling one-way clutch located between the motor coupling receptacle interior wall and the motor coupling hub to transfer torque between the motor coupling hub and the motor coupling receptacle interior wall while the motor shaft is being driven in a forward direction, and to allow relative rotation between the motor coupling receptacle interior wall and the motor coupling hub while the motor shaft is being driven by the motor in a reverse direction.