Collet coupling for electric submersible pump shafts

The invention claimed is: 1. An apparatus, comprising: a coupling for joining two rotatable shafts in an electric submersible pump (ESP) string; a hollow tubular member of the coupling for receiving an end of each of the two rotatable shafts; at least one collet for fixing the coupling to at least one of the two rotatable shafts, wherein the at least one collet comprises a three-piece member, wherein a first collet member includes the hollow tubular member threaded at each end for adjustably receiving a second collet member on one end and a third collet member on the other end; expandable fingers on at least one end of the second collet member and on at least one end of the third collet member for applying a radial force to an outside diameter of at least one of the two rotatable shafts wherein the second collet member and the third collet member are each adjustable with respect to the first collet member via the threaded ends of the first collet member; ribs on the fingers for latching into at least one groove on at least one of the two rotatable shafts; and shoulders on the at least one groove for transmitting and receiving axial load forces between the two rotatable shafts through the ribs, expandable fingers, and the at least one collet. 2. The apparatus of claim 1 , further comprising a slidable retainer for securing the expandable fingers around one of the rotatable shafts to secure the ribs in the at least one groove. 3. The apparatus of claim 2 , further comprising a biasing member to maintain the retainer over the expandable fingers; and wherein as the retainer is moved against a biasing force of the biasing member, the expandable fingers expand and release the ribs from the at least one groove to disconnect the at least one collet from the rotatable shaft. 4. The apparatus of claim 2 , further comprising a leverage tool for sliding the slidable retainer for disconnecting at least one rotatable shaft from the at least one collet. 5. The apparatus of claim 1 , wherein the at least one collet includes a set of the fingers on each end of each collet as an integrated single piece. 6. The apparatus of claim 1 , wherein the second collet member and the third collet member have short splines to engage slots on the two rotatable shafts to prevent the second collet member and the third collet member from unthreading from the first collet member. 7. The apparatus of claim 1 , further comprising an insert attachable to one of the ends of one of the two rotatable shafts to provide the at least one groove. 8. The apparatus of claim 7 , further comprising shims locatable on an axial end of the insert of the at least one collet to locate the insert and the at least one groove with respect to an end of one of the rotatable shafts. 9. The apparatus of claim 7 , wherein the hollow tubular member slides on at least one of the two rotatable shafts over the insert to act as the slidable retainer for securing the fingers of the at least one collet. 10. The apparatus of claim 9 , further comprising a notch located on an inside diameter surface of the hollow tubular member to allow a release of the fingers and the ribs as the hollow tubular member slides on the at least one rotatable shaft. 11. The apparatus of claim 1 , further comprising at least one flange shim, to adjust a distance between electric submersible pump (ESP) units including respective shafts of each ESP unit. 12. A method, comprising: attaching one end of a coupling to a first rotatable shaft of a lower ESP unit in a well; adjusting an axial reach of a threaded collet of the coupling for attachment to a second rotatable shaft of an upper ESP unit being lowered onto the lower ESP unit; expanding collet fingers of the threaded collet by inserting the second rotatable shaft in the threaded collet; engaging ribs of the expanding collet fingers in a groove of the second rotatable shaft to couple the first rotatable shaft and the second rotatable shaft and to transmit and receive axial loads between the first rotatable shaft and the second rotatable shaft through the threaded collet, the fingers, and the ribs; securing the fingers and the ribs in the groove of the second rotatable shaft via a sliding retainer, held in place by a biasing member; and disconnecting the second rotatable shaft from the threaded collet by sliding the retaining member against the biasing member to expand the fingers and release the ribs from the groove. 13. The method of claim 12 , further comprising placing at least a flange shim between the lower ESP unit and the upper ESP unit to establish a fixed distance between the first rotatable shaft and the second rotatable shaft. 14. A method, comprising: measuring an axial deviation distance between a shaft landmark and a flange face of a first electric submersible pump (ESP) unit; translating the axial deviation distance to a partial adjustment value for modifying a length of an adjustable collet coupling for joining a first shaft of the first ESP unit to a second shaft of a second ESP unit; and marking the partial adjustment value on a housing of the first ESP unit for future installation of the adjustable collet coupling. 15. The method of claim 14 , further comprising adding a first partial adjustment value from the housing of the first ESP unit to a second partial adjustment value from a housing of a second ESP unit to calculate a gap setting for modifying the length of the adjustable collet coupling; adjusting the length of the adjustable collet coupling according to the calculated gap value; and coupling the first shaft and the second shaft together using the adjusted collet coupling. 16. An apparatus, comprising: a coupling for joining two rotatable shafts in an electric submersible pump (ESP) string; a hollow tubular member of the coupling for receiving an end of each of the two rotatable shafts; at least one collet for fixing the coupling to at least one of the two rotatable shafts, wherein the at least one collet comprises a two-piece member; expandable fingers on at least one end of the at least one collet for applying a radial force to the outside diameter of at least one of the two rotatable shafts; ribs on the fingers for latching into at least one groove on at least one of the two rotatable shafts; and shoulders on the at least one groove for transmitting and receiving axial load forces between the two rotatable shafts through the ribs, expandable fingers, and the at least one collet, wherein a first collet member includes the hollow tubular member and fingers for gripping a first shaft integrated on one end of the hollow tubular member as a single piece, and the second collet member includes an adjustable threaded collet member including fingers for gripping a second shaft, the second collet member being adjustable with respect to the first collet member via a threaded section between the first and second collet members. 17. The apparatus of claim 16 , further comprising a slidable retainer for securing the expandable fingers around one of the rotatable shafts to secure the ribs in the at least one groove. 18. The apparatus of claim 17 , further comprising a biasing member to maintain the retainer over the expandable fingers; and wherein as the retainer is moved against a biasing force of the biasing member, the expandable fingers expand and release the ribs from the at least one groove to disconnect the at least one collet from the rotatable shaft. 19. The apparatus of claim 17 , further comprising a leverage tool for sliding