Thrust runner vibration dampening spring in electrical submersible pump

The invention claimed is: 1. A submersible pump assembly (ESP), comprising: a well fluid pump; a motor; a seal section between the motor and the well fluid pump, the seal section comprising: a housing having a longitudinal axis; a shaft extending though the housing on the axis, the shaft being driven by the motor for driving the well fluid pump; a down thrust transfer member mounted in the housing for non-rotation relative to the housing; a thrust runner having a runner bore through which the shaft extends, the thrust runner having an outer diameter spaced radially inward from an inner surface of the housing by an annular clearance, the thrust runner being secured to the shaft to prevent axial movement of the thrust runner relative to the shaft, the thrust runner being in rotational, sliding engagement with an upper side of the thrust bearing base; a thrust runner wave spring that rotates in unison with the shaft and the thrust runner, the thrust runner wave spring being annular, metal and having an inner diameter surface in contact with the shaft and an outer diameter surface in contact with the runner bore; the thrust runner wave spring having a transverse width between the inner diameter surface and the outer diameter surface that is elastically deflectable, exerting an inward bias force against the shaft and an outward bias force against the runner bore to reduce radial vibration movement of the thrust runner; an annular thrust runner recess on the shaft, the thrust runner recess having an upper shoulder facing a lower shoulder and a recess cylindrical surface between the upper and lower shoulders; and wherein the thrust runner wave spring is located in the thrust runner recess with an inner diameter surface of the thrust runner wave spring in contact with the recess cylindrical surface; an axially extending shaft slot formed on the shaft that extends through the upper shoulder and the lower shoulder but not the recess cylindrical surface; an axially extending runner bore slot formed in the runner bore; a key that fits within both of the slots to cause rotation of the thrust runner in unison with the shaft, the key extending through the shoulders of the recess, the key having an inward facing surface that is at a radial distance from the axis not less than a radial distance from the axis to the recess cylindrical surface; and wherein the thrust runner wave spring has two ends spaced apart from each other by a gap through which the key extends. 2. The ESP according to claim 1 , further comprising: the annular thrust runner recess on the shaft and the upper shoulder facing the lower shoulder; and wherein the thrust runner wave spring is located in the thrust runner recess and has an axial dimension less than a distance from the lower shoulder to the upper shoulder. 3. A submersible pump assembly (ESP), comprising: a well fluid pump; a motor; a seal section between the motor and the well fluid pump, the seal section comprising: a housing having a longitudinal axis; a shaft extending though the housing on the axis, the shaft being driven by the motor for driving the well fluid pump; a non-rotating down thrust transfer member having a base bore through which the shaft extends; a thrust runner having a runner bore through which the shaft extends, the thrust runner having an outer diameter spaced radially inward from an inner surface of the housing by an annular clearance, the thrust runner being axially secured to the shaft to prevent axial movement of the thrust runner relative to the shaft, the thrust runner being in rotational, sliding engagement with an upper side of the thrust bearing base; a key engaging a runner bore slot in the runner bore and a shaft slot on the shaft for causing the thrust runner to rotate with the shaft; at least one thrust runner wave spring, the thrust runner wave spring being annular, metal and having an inner diameter surface in contact with the shaft and an diameter surface in contact with the runner bore, the thrust runner wave spring having a split through which the key extends, causing the thrust runner wave spring to rotate in unison with the shaft, the thrust runner wave spring having a radial width between the inner diameter surface and the outer diameter surface of the thrust runner wave spring that is elastically deflected between the shaft and the thrust runner bore, exerting an inward bias force against the shaft and an outward bias force against the thrust runner to reduce radial vibration movement of the thrust runner; an annular thrust runner recess on the shaft, defining an upper shoulder facing a lower shoulder and a recess cylindrical surface between the upper and lower shoulders; and wherein the thrust runner wave spring is located in the thrust runner recess, with the inner diameter surface of the thrust runner wave spring in contact with the recess cylindrical surface; the shaft slot extends through the upper shoulder and the lower shoulder but not on the recess cylindrical surface; and the key extends through the shoulders of the recess and has an inner side that is at least as far from the axis than the recess cylindrical surface. 4. The ESP according to claim 3 , further comprising: the annular thrust runner recess on the shaft, defining the upper shoulder facing the lower shoulder; and wherein the thrust runner wave spring is located in the thrust runner recess and has an axial dimension less than a distance from the lower shoulder to the upper shoulder. 5. The ESP according to claim 3 , wherein: the at least one thrust runner wave spring comprises two of the thrust runner wave springs, each having an inner diameter surface in contact with the shaft and an outer diameter surface in contact with the runner bore. 6. The ESP according to claim 3 , further comprising: a threaded connector secured to one end of the housing for connecting one end of the seal section into the ESP, the connector having a connector bore through which the shaft extends; a bearing bushing non-rotatably and rigidly mounted in the connector bore; a sleeve mounted to the shaft for rotation therewith, the sleeve having an outer diameter in sliding engagement with the bearing bushing; and an annular, metal, bearing wave spring having an inner diameter surface in contact with the shaft and an outer diameter surface in contact with the sleeve, the bearing wave spring being rotatable in unison with the shaft and the sleeve, the bearing wave spring having a radial width between the inner diameter surface and the outer diameter surface of the bearing wave spring that is elastically deflected between the shaft and the sleeve, exerting an inward bias force against the shaft and an outward bias force against the sleeve to reduce radial vibration movement of the shaft. 7. The ESP according to claim 6 , further comprising: an annular bearing recess on the shaft; and wherein the bearing wave spring is located in the bearing recess. 8. The ESP according to claim 3 , further comprising: a screw pump having a screw pump bore through which the shaft extends, the screw pump being mounted to the shaft for rotation therewith in the base bore to pump motor lubricant through a base bore annulus between the shaft and the base bore; and an annular, metal, screw pump wave spring having an inner diameter surface in contact with the shaft and an diameter surface in contact with the screw pump bore, the screw pump wave spring being rotatable in unison with the shaft and the screw pump, the screw pump wave spring having a radial width between the inner diameter surface and the outer diameter surface of the screw pump wave spring that is elastically deflected between the shaft and the base bore, exerting an inwa