Self-bleeding setting tool and method

What is claimed is: 1. A setting tool for setting an auxiliary tool in a well, the setting tool comprising: a housing having a floating piston that separates a pressure chamber from a hydraulic chamber; and a plug that is removably located in a through passage of the floating piston, wherein the through passage fluidly connects the pressure chamber to the hydraulic chamber, and wherein the plug prevents a fluid to move from the pressure chamber to the hydraulic chamber or from the hydraulic chamber to the pressure chamber when attached to the floating piston. 2. The setting tool of claim 1 , further comprising: a block that closes an end of the housing, the block having a through conduit and a venting port that connects the conduit to an exterior of the housing. 3. The setting tool of claim 2 , further comprising: a breaking disc formed inside the venting port. 4. The setting tool of claim 2 , further comprising: an insert placed inside the conduit of the block. 5. The setting tool of claim 4 , further comprising: a brace rod movably located inside the insert. 6. The setting tool of claim 5 , wherein the brace rod has an upstream arm and a downstream arm, the upstream arm extends into the hydraulic chamber and has an external diameter that is equal to or smaller than a diameter of the plug, and the downstream arm extends into the conduit of the block. 7. The setting tool of claim 5 , wherein the brace rod has a longitudinal groove. 8. The setting tool of claim 7 , wherein the groove is not in fluid communication with the venting port when the plug is attached to the floating piston. 9. The setting tool of claim 7 , wherein the groove is in fluid communication with the venting port after the floating piston has pushed the brace rod towards the insert. 10. The setting tool of claim 7 , wherein the plug shears off from the floating piston due to the brace rod. 11. The setting tool of claim 10 , wherein a pressurized gas from the pressure chamber bleeds off through the venting port after the plug was removed from the floating piston. 12. The setting tool of claim 7 , further comprising: a cutting element attached to the insert for slicing an o-ring attached to the brace rod for opening the groove. 13. A method for bleeding off a pressurized gas from a setting tool while the setting tool is located in a well, the method comprising: lowering the setting tool into the well; actuating the setting tool with the pressurized gas; moving a floating piston inside a housing of the setting tool, wherein the floating piston separates a pressure chamber from an hydraulic chamber, the pressure chamber housing the pressurized gas; removing a plug that is removably located in a through passage of the floating piston; and bleeding off the pressurized gas from the setting tool to an inside of the well. 14. The method of claim 13 , wherein the through passage fluidly connects the pressure chamber to the hydraulic chamber, and wherein the plug prevents a fluid to move from the pressure chamber to the hydraulic chamber or from the hydraulic chamber to the pressure chamber when attached to the floating piston. 15. The method of claim 13 , wherein the step of removing comprises: displacing a brace rod, which is movably located inside an insert, so that a longitudinal groove formed along the brace rod fluidly communicates with a venting port formed in a block that closes the housing. 16. The method of claim 15 , wherein the groove is not in fluid communication with the venting port when the plug is attached to the floating piston. 17. The method of claim 15 , wherein the groove is in fluid communication with the venting port after the floating piston has pushed the brace rod towards the insert. 18. The method of claim 15 , wherein the brace rod has an upstream arm and a downstream arm, the upstream arm extends into the hydraulic chamber and matches a diameter of the plug, and the downstream arm extends into a conduit of a block. 19. The method of claim 15 , further comprising: shearing off the plug from the floating piston with the brace rod. 20. The method of claim 13 , wherein the step of bleeding off comprises: releasing into the well the pressurized gas from the pressure chamber, through a venting port, after the plug is removed from the floating piston. 21. A downhole tool for setting an auxiliary tool, the downhole tool comprising: a floating piston having a through passage; a plug that blocks the through passage and the plug is removably attached to the floating piston; and a brace rod having an upstream arm having an external diameter equal to or smaller than an external diameter of a portion of the plug that contacts the upstream arm. 22. The tool of claim 21 , further comprising: a housing having a pressure chamber that is separated by the floating piston from a hydraulic chamber. 23. The tool of claim 22 , wherein the through passage fluidly connects the pressure chamber to the hydraulic chamber. 24. The tool of claim 23 , wherein the plug prevents a fluid to move from the pressure chamber to the hydraulic chamber or from the hydraulic chamber to the pressure chamber when the plug is attached to the floating piston. 25. The tool of claim 22 , further comprising: a block that closes an end of the housing, the block having a through conduit and a venting port. 26. The tool of claim 25 , further comprising: an insert placed inside the conduit of the block. 27. The tool of claim 26 , wherein the brace rod has a longitudinal groove. 28. The tool of claim 27 , wherein the groove is not in fluid communication with the venting port when the plug is attached to the floating piston. 29. The tool of claim 27 , wherein the groove is in fluid communication with the venting port after the floating piston has pushed the brace rod towards the insert. 30. The tool of claim 27 , further comprising: a cutting element attached to the insert for slicing an o-ring attached to the brace rod for opening the groove. 31. The tool of claim 21 , wherein the plug shears off from the floating piston due to the brace rod.