Column and leg locking assemblies for stationary platforms

What is claimed is: 1. A locking assembly comprising: a locking ring secured to a first cylindrical section, the first cylindrical section insertable into a second cylindrical section and having a bearing surface at a second edge; a first rotation stop secured to the second cylindrical section at a first end and slidable against the locking ring at a second end; a second rotation stop secured to the first rotation stop; and a locking nut having a first end in threaded engagement with the first end of the first rotation stop and having a second end secured to a locking wedge having a bearing surface, wherein the locking nut is slidable against the second rotation stop; wherein rotational movement of the locking nut in a first direction causes the bearing surface of the locking wedge to engage the bearing surface of the locking ring and rotational movement of the locking nut in a second direction causes the bearing surface of the locking wedge to disengage the bearing surface of the locking ring; and further wherein the second rotation stop has a first bearing surface and the locking nut has a second bearing surface, the first bearing surface of the second rotation stop and the second bearing surface of the locking nut being opposed to one another, and wherein rotational movement of the locking nut in the second direction is limited by engagement of the first bearing surface of the second rotation stop and the second bearing surface of the locking nut. 2. The locking assembly of claim 1 , wherein the locking ring has a first edge containing a second bearing surface and the first rotation stop has a bearing surface corresponding to the second bearing surface of the locking ring. 3. The locking assembly of claim 2 , wherein rotational movement of the locking nut in the first direction causes the second bearing surface of the locking ring to engage the bearing surface of the first rotation stop and rotational movement of the locking nut in the second direction causes the second bearing surface of the locking ring to disengage the bearing surface of the first rotation stop. 4. The locking assembly of claim 1 , wherein the locking ring, first rotation stop, locking nut and locking wedge are generally cylindrical and coaxial with each other and the first and second cylindrical sections. 5. The locking assembly of claim 1 , wherein the first rotation stop has a second bearing surface, the second bearing surface of the first rotation stop and the first bearing surfaces of the locking nut being opposed to one another, and wherein rotational movement of the locking nut in the first direction is limited by engagement of the second bearing surface of the first rotation stop and the first bearing surface of the locking nut. 6. The locking assembly of claim 1 , wherein the first end of the rotation stop and the first end of the locking nut are correspondingly threaded, and wherein the thread pitch is from 0.5 mm to 1.5 mm. 7. The locking assembly of claim 1 , further including a grip secured to the locking nut and the locking wedge. 8. A stationary platform comprising at least one telescoping leg comprising the locking assembly of claim 1 . 9. A locking assembly comprising: a locking ring secured to a first cylindrical section, the first cylindrical section insertable into a second cylindrical section and having a bearing surface at a second edge; a first rotation stop secured to the second cylindrical section at a first end and slidable against the locking ring at a second end; a locking nut having a first end in threaded engagement with the first end of the first rotation stop and having a second end secured to a locking wedge having a bearing surface; and a second rotation stop, wherein the locking nut is slidable against the second rotation stop; wherein rotational movement of the locking nut in a first direction causes the bearing surface of the locking wedge to engage the bearing surface of the locking ring and rotational movement of the locking nut in a second direction causes the bearing surface of the locking wedge to disengage the bearing surface of the locking ring; and wherein the second rotation stop has a first bearing surface and the locking nut has a second bearing surface, the first bearing surface of the second rotation stop and the second bearing surface of the locking nut being opposed to one another, and wherein rotational movement of the locking nut in the second direction is limited by engagement of the first bearing surface of the second rotation stop and the second bearing surface of the locking nut. 10. The locking assembly of claim 1 , wherein the bearing surface at the second edge of the locking ring is at a diagonal relative to the first cylindrical section. 11. The locking assembly of claim 10 , wherein the bearing surface of the locking wedge has an angle corresponding to the diagonal of the bearing surface at the second edge of the locking ring. 12. The locking assembly of claim 9 , wherein the locking ring has a first edge containing a second bearing surface and the first rotation stop has a bearing surface corresponding to the second bearing surface of the locking ring. 13. The locking assembly of claim 12 , wherein rotational movement of the locking nut in the first direction causes the second bearing surface of the locking ring to engage the bearing surface of the first rotation stop and rotational movement of the locking nut in the second direction causes the second bearing surface of the locking ring to disengage the bearing surface of the first rotation stop. 14. The locking assembly of claim 9 , wherein the locking ring, first rotation stop, locking nut and locking wedge are generally cylindrical and coaxial with each other and the first and second cylindrical sections. 15. The locking assembly of claim 9 , wherein the first rotation stop has a second bearing surface, the second bearing surface of the first rotation stop and the first bearing surfaces of the locking nut being opposed to one another, and wherein rotational movement of the locking nut in the first direction is limited by engagement of the second bearing surface of the first rotation stop and the first bearing surface of the locking nut. 16. The locking assembly of claim 9 , wherein the first end of the rotation stop and the first end of the locking nut are correspondingly threaded, and wherein the thread pitch is from 0.5 mm to 1.5 mm. 17. The locking assembly of claim 9 , further including a grip secured to the locking nut and the locking wedge. 18. A stationary platform comprising at least one telescoping leg comprising the locking assembly of claim 9 .