Locking push-pull fastener assembly

What is claimed is: 1. A locking push-pull fastener assembly for facilitating the locking of a precision adjustment fastener mechanism, the locking push-pull fastener comprising: a fastener; a sleeve having an aperture extending along a axis of the sleeve, wherein the fastener is positioned within the aperture, the sleeve comprising: a first portion and a second portion, the first portion moveable relative to the second portion along the axis, the first portion comprising an outer surface having one or more threads operable to interface with one or more inner threads of a platform, and the second portion comprising an outer surface having one or more threads operable to interface with one more inner threads of the platform; and an axial displacement portion separating the first and second portions, the axial displacement portion transmitting a torque along the axis between the first and second portions, and facilitating movement of the first and second portions relative to one another to bind the one or more threads of the outer surfaces of the first and second portions with the one or more inner threads of the platform to axially lock the sleeve to the platform upon the sleeve being subject to an axially compressive force by the fastener. 2. The locking push-pull fastener of claim 1 , wherein the axial displacement portion comprises a plurality of cuts in the sleeve extending from the aperture to an outer surface of the axial displacement portion. 3. The locking push-pull fastener of claim 2 , wherein the axial displacement portion further comprises a relief formed in an outer surface of the axial displacement portion. 4. The locking push-pull fastener of claim 3 , wherein at least one cut of the plurality of cuts is offset along the axis from at least one other cut of the plurality of cuts. 5. The locking push-pull fastener of claim 2 , wherein at least one cut of the plurality of cuts is in a plane normal to the axis. 6. The locking push-pull fastener of claim 2 , wherein at least one of the cuts extends in an axial direction. 7. The locking push-pull fastener of claim 1 , further comprising at least one recess at an end of the sleeve for receiving an adjustment tool. 8. The locking push-pull fastener of claim 1 , wherein the axial displacement portion comprises a first plurality of recesses in the first portion and a second plurality of recesses in the second portion and a plurality of pins sized and shaped to be received in the first plurality of recesses and the second plurality of recesses. 9. A precision adjustment fastener mechanism comprising: a base having a first aperture for receiving a clamping fastener; a platform comprising a second aperture having one or more inner threads; a locking push-pull fastener assembly disposed within the second aperture, the locking push-pull fastener assembly comprising: a clamping fastener having a portion positioned in the first aperture; a sleeve having a third aperture extending along a axis of the sleeve, wherein the clamping fastener is positioned within the third aperture, the sleeve comprising: a first portion and a second portion, the first portion moveable relative to the second portion along the axis, the first portion comprising one or more outer threads operable to interface with the one more inner threads of the platform, and the second portion comprising one or more outer threads operable to interface with the one more inner threads of the platform; and an axial displacement portion separating the first and second portions, the axial displacement portion transmitting a torque along the axis between the first and second portions, and facilitating movement of the first and second portions relative to one another to bind the one or more threads of the outer surfaces of the first and second portions with the one or more inner threads of the platform to axially lock the sleeve to the platform upon the sleeve being subject to an axially compressive force by the clamping fastener. 10. The precision adjustment fastener mechanism of claim 9 , wherein the axial displacement portion further comprises a relief formed in an outer surface of the axial displacement portion. 11. The precision adjustment fastener mechanism of claim 9 , wherein the axial displacement portion comprises a plurality of cuts in the sleeve extending from the aperture to an outer surface of the axial displacement portion. 12. The precision adjustment fastener mechanism of claim 11 , wherein at least one cut of the plurality of cuts is offset along the axis from at least one other radial cut of the plurality of cuts. 13. The precision adjustment fastener mechanism of claim 11 , wherein at least one of the cuts extends in an axial direction. 14. The precision adjustment fastener mechanism of claim 11 , wherein the clamping fastener comprises a head having a diameter greater than a diameter of the third aperture and a threaded end and the first aperture comprises an inner thread complementary to the threaded end. 15. The precision adjustment fastener mechanism of claim 14 , further comprises a lower spherical washer disposed between the base and the locking push-pull fastener and an upper spherical washer disposed between the head and the locking push-pull fastener. 16. The precision adjustment fastener mechanism of claim 15 , further comprising a flat washer and a spring washer, wherein the flat washer is located between the head and the spring washer and the spring washer is located between the flat washer and the upper spherical washer. 17. The precision adjustment fastener mechanism of claim 14 , wherein the clamping fastener further comprises a port extending from the head to the one or more inner threads of the platform. 18. A method for securing a platform, comprising: turning a locking push-pull fastener assembly within a threaded aperture of a platform to position the platform relative to a base, wherein the locking push-pull fastener comprises a sleeve having a first threaded portion and a second threaded portion separated by an axial displacement portion having a lower axial stiffness than the first threaded portion and the second threaded portion; and applying an axial force to the locking push-pull fastener to compress a region of the locking push-pull fastener to move a first thread portion axially towards a second thread portion to bind an outer thread of the threaded locking push-pull fastener to an inner thread of the platform to axially lock the sleeve relative to the platform. 19. The method of claim 18 , wherein a threaded fastener extends through the locking push-pull fastener into a threaded aperture of the base and wherein applying an axial force comprises tightening the threaded fastener.