Dissolvable subterranean tool locking mechanism

We claim: 1. An automatically operating lock for a subterranean tool, comprising: a mandrel an actuated member on said mandrel selectively movable by an actuating member on said mandrel to define a set position for the tool; a lock further comprising at least one dog or ring extending through at least one opening in said actuating member to selectively retain said actuating member to a groove in said mandrel by virtue of a covering sleeve supported by said mandrel to define a run in position for the tool, said at least one dog or ring in direct mechanical contact with said actuating member and exposed to subterranean conditions during delivery to a desired subterranean location, said at least one dog or ring automatically releasing said actuating member to move relative to said mandrel in response to adjacent subterranean conditions. 2. The lock of claim 1 , wherein: said lock is initially in contact with said mandrel. 3. The lock of claim 2 , wherein: said lock is made at least in part of a controlled electrolytic material (CEM). 4. The lock of claim 1 , wherein: said at least one dog or ring comprises one piece or a plurality of segments. 5. The lock of claim 4 , wherein: said at least one dog or ring is structurally weakened at least in part from exposure to conditions at a surrounding subterranean location to the point that said at least one dog or ring exit from said groove. 6. The lock of claim 5 , wherein: said at least one dog or ring at least in part dissolve from exposure to conditions at a surrounding subterranean location. 7. The lock of claim 5 , wherein: said at least one dog or ring at least in part react with subterranean fluids to structurally weaken to the point of not being able to retain said actuating member to said mandrel. 8. The lock of claim 7 , wherein: said at least one dog or ring is are made at least in part of a controlled electrolytic material (CEM). 9. The lock of claim 8 , wherein: said actuating component is driven to move by hydrostatic pressure at the subterranean location. 10. The lock of claim 9 , wherein: said actuating component comprises at least one piston released to move against a lower pressure chamber define at least in part by said piston when said lock releases said actuating component from said mandrel. 11. The lock of claim 8 , wherein: said actuating component is driven to move by stored potential energy on said mandrel. 12. The lock of claim 7 , wherein: said lock is made at least in part of a controlled electrolytic material (CEM). 13. The lock of claim 5 , wherein: said at least one dog or ring at least in part melt from exposure to subterranean fluids to structurally weaken to the point of not being able to retain said actuating member to said mandrel. 14. The lock of claim 5 , wherein: said actuated component comprises at least one slip or at least one seal whose radial movement by sliding with respect to a cone is locked against reversal of said movement. 15. The lock of claim 14 , wherein: said mandrel comprises a tubular defined by a wall that has no wall openings. 16. The lock of claim 4 , wherein: said at least one dog or ring is made at least in part of a controlled electrolytic material (CEM). 17. The lock of claim 4 , wherein: said lock is made at least in part of a shape memory alloy whose shape change releases said actuating member from said mandrel. 18. The lock of claim 1 , wherein: said lock is made at least in part of a controlled electrolytic material (CEM). 19. The lock of claim 1 , wherein: said lock is made at least in part of a shape memory alloy whose shape change releases said actuating member from said mandrel.