System and method for setting a completion tool

We claim: 1. A system for setting a completion tool within a wellbore comprising: a mandrel being placed in an interior of the wellbore and having a generally tubular shape, said mandrel being comprised of an indentation on an exterior and a pressure inlet through a side wall of said mandrel, wherein said indentation is comprised of sliding surfaces at both ends of said indentation, said sliding surfaces extending from a bottom of said indentation to said exterior; an inner sleeve of the completion tool, having a generally tubular shape and an interior surface facing said mandrel and an exterior surface facing outward, wherein said inner sleeve is comprised of an aperture through a side wall of said inner sleeve and a pressure conduit through said side wall of said inner sleeve; a piston of the completion tool, being mounted on said inner sleeve and facing said exterior surface of said inner sleeve, said piston being comprised of a locking surface at one end, said locking surface facing said exterior surface of said inner sleeve; an outer sleeve of the completion tool, having a generally tubular shape, an interior side wall facing said piston and an exterior sidewall facing outward, said interior side wall forming a gap between said outer sleeve and said inner sleeve, said piston being housed within said gap and being slideable longitudinally along said interior side wall of the outer sleeve and said exterior surface of said inner sleeve; and a dog means having a mandrel interface, piston interface on an end opposite said mandrel interface, a first face, and a second face on a side opposite said first face, said dog means being removeably engaged to said mandrel, said inner sleeve, and said piston, wherein, in a first position, said mandrel interface abuts against said indentation of said mandrel, said piston interface abutting said locking surface of said piston, said dog means being friction fit between said locking surface of said piston and said indentation of said mandrel, and wherein, in a second position, said outer sleeve and said inner sleeve and said one end of said piston form a chamber within said gap, said dog means being housed within said chamber, said mandrel interface being released and separate from said indentation, said piston interface being released and separate from said locking surface of said piston. 2. The system for setting a completion tool, according to claim 1 , wherein said indentation is selected from a group consisting of a concavity with slanted walls, and a concavity with contoured walls, said sliding surfaces being formed by said indentation. 3. The system for setting a completion tool, according to claim 1 , in said first position, said locking surface being aligned with said aperture of said inner sleeve and said indentation of said mandrel. 4. The system for setting a completion tool, according to claim 1 , wherein said pressure inlet is in fluid connection with said gap, said pressure conduit of said inner sleeve being aligned with said pressure inlet of said mandrel, said pressure conduit being connected to said gap so as to transition from said first position to said second position. 5. The system for setting a completion tool, according to claim 1 , wherein said dog means comprises a block member cooperative with said mandrel, said inner sleeve, and said piston, said mandrel interface having a contact surface for engagement to said indentation on said mandrel, said first face and said second face being generally orthogonal to said mandrel interface, and said piston interface having a shape for engagement to said locking surface on said piston, and wherein said aperture has a first abutment surface and a second abutment surface on a side opposite said first abutment surface. 6. The system for setting a completion tool, according to claim 5 , wherein, in said first position, a middle portion of said first face is adjacent to said first abutment surface and a middle portion of said second face being adjacent said second abutment surface. 7. The system for setting a completion tool, according to claim 5 , wherein, in said first position, a lower edge of said first face and a lower edge of said second face are adjacent sliding surfaces of said indentation. 8. The system for setting a completion tool, according to claim 5 , wherein said piston further comprises a notch on an end of the piston, said notch forming a recess connected to said chamber, said notch being comprised of said locking surface and a side shoulder, and wherein, in said first position, an upper edge of said second face is adjacent to said side shoulder of said notch. 9. The system for setting a completion tool, according to claim 1 , wherein said dog means comprises a collet member cooperative with the mandrel, said inner sleeve, and piston, said mandrel interface being comprised of a protrusion having a contact area for engagement to said indentation on said mandrel, and said piston interface having a shape for engagement to said locking surface on said piston, and wherein said aperture is comprised of a slot, said collet member extending through said slot of said inner sleeve so as to contact said piston. 10. The system for setting a completion tool, according to claim 9 , wherein, in said first position, said protrusion of the mandrel interface is friction fit in the indentation, a lower portion of said contact area being adjacent sliding surfaces of said indentation. 11. The system for setting a completion tool, according to claim 1 , wherein said dog means comprises a collet member cooperative with the mandrel, said inner sleeve, and piston, said mandrel interface being comprised of a protrusion having a contact area for engagement to said indentation on said mandrel, and said piston interface having a shape for engagement to said locking surface on said piston, and wherein said aperture is comprised of a slit having a closed end and an opened end, said collet member extending through said slit of said inner sleeve so as to contact said piston. 12. The system for setting a completion tool, according to claim 11 , wherein, in said first position, said protrusion of the mandrel interface is friction fit in the indentation, a lower portion of said contact area being adjacent sliding surfaces of said indentation. 13. The system for setting a completion tool, according to claim 11 , wherein said piston further comprises a notch on an end of the piston, said notch forming a recess connected to said chamber, said notch being comprised of said locking surface and a side shoulder, and wherein, in said first position, an upper edge of said second face is adjacent to said side shoulder of said notch. 14. The system for setting a completion tool, according to claim 13 , wherein, in said first position, said piston is at least partially housed within said gap between said opened end of said slit and tip of said inner sleeve and said outer sleeve. 15. A method for installing within a wellbore, the method comprising the steps of: assembling a completion tool according to claim 1 , the dog means in said first position for run in of the completion tool, said mandrel interface abutting said indentation of said mandrel, piston interface abutting said locking surface of said piston, said dog means being friction fit between said mandrel and said piston; positioning the completion tool in a desired location in the wellbore; sending a pressure pulse through said pressure inlet of said mandrel, through said pressure conduit in said inner sleeve, and into said gap between said inner sleeve and said outer sleeve; actuating said piston to m