Self-arming perforating system and method

What is claimed is: 1. A perforating gun comprising: an outer carrier; a charge tube assembly that having a loading tube containing a plurality of shaped charges and a detonating cord coupled to said shaped charges; a loading tube end fitting coupled to a first end of the loading tube containing a detonator housed in a hinged detonator holder configured to move the detonator between a ballistically unarmed position to a ballistically armed position, wherein the initial state of the perforating gun prior to connecting a second perforating gun, the movable detonator holder of the first perforating gun is positioned inside the carrier such that the detonator is not directly positioned end to end nor side by side with the detonating cord in the loading tube. 2. The perforating gun from claim 1 wherein the ballistically unarmed detonator is the detonator not directly positioned end to end nor side by side with the detonating cord in the loading tube. 3. The perforating gun from claim 1 wherein ballistically armed detonator the detonator directly positioned end to end or side by side with the detonating cord in the loading tube. 4. The perforating gun from claim 1 where the detonator holder is a hinged door with a wedge shaped outer profile configured to shut as the outer profile makes contact with an inner surface of the carrier as the charge tube assembly moves further into the carrier. 5. The perforating gun from claim 1 , wherein the charge tube assembly is moved as a result of the perforating gun being coupled to a second perforating gun. 6. The perforating gun from claim 1 wherein the detonator holder is a hinged door with a curved shaped outer profile configured to shut as the outer profile makes contact with the inner surface of the carrier. 7. The perforating gun from claim 1 wherein the detonator holder is a sliding door configured to slide as the outer profile makes contact with the inner surface of the carrier. 8. The perforating gun from claim 1 , wherein the second perforating gun is screwed onto the first perforating gun, the entire charge tube assembly moves, closing the detonator holder further into the carrier such that the detonating holder closes in on the detonating cord until the detonator is adjacent to the detonating cord to connect the detonator to detonating cord ballistic train. 9. The perforating gun from claim 1 , wherein the second perforating gun is screwed onto the first perforating gun, the detonator holder moves in relation to the loading tube inside the carrier such that the detonating holder closes in on the detonating cord until the detonator is adjacent to the detonating cord to connect the detonator to detonating cord ballistic train. 10. The perforating gun from claim 1 , wherein the second perforating gun is screwed onto the first perforating gun, the detonator holder slides a further distance than does the entire charge tube assembly and positions the detonator adjacent to the detonating cord to connect the detonator to detonating cord ballistic train. 11. A method for perforating a wellbore comprising: coupling a loading tube, a plurality of shaped charges, and a detonating cord into a first perforating gun assembly; inserting a detonator into a movable detonator holder in a loading tube end fitting; inserting the loading tube end fitting into a first perforating gun; and moving the detonator between a ballistically unarmed position to a ballistically armed position, wherein the initial state of the first perforating gun assembly prior to connecting the second perforating gun, the movable detonator holder of the first perforating gun is positioned inside the carrier such that the detonator is not directly positioned end to end nor side by side with the detonating cord in the loading tube. 12. The method for perforating a wellbore from claim 11 wherein the ballistically unarmed detonator is the detonator not directly positioned end to end nor side by side with the detonating cord in the loading tube. 13. The method for perforating a wellbore from claim 11 wherein ballistically armed detonator is the detonator directly positioned end to end or side by side with the detonating cord in the loading tube. 14. The method for perforating a wellbore from claim 11 , further comprising moving the charge tube assembly by coupling a second perforating gun into the first perforating gun. 15. The method for perforating a wellbore from claim 11 further comprising sliding the detonator holder as the outer profile makes contact with the inner surface of the carrier. 16. The method for perforating a wellbore from 11 , wherein the second perforating gun is screwed onto the first perforating gun, the entire charge tube assembly moves, closing the detonator holder further into the carrier such that the detonating holder closes in on the detonating cord until the detonator is adjacent to the detonating cord to connect the detonator to detonating cord ballistic train. 17. The method for perforating a wellbore from claim 11 , wherein the second perforating gun is screwed onto the first perforating gun, the detonator holder moves in relation to the loading tube inside the carrier such that the detonating holder closes in on the detonating cord until the detonator is adjacent to the detonating cord to connect the detonator to detonating cord ballistic train. 18. The method for perforating a wellbore from claim 11 , wherein the second perforating gun is screwed onto the first perforating gun, the detonator holder slides a further distance than does the entire charge tube assembly and positions the detonator adjacent to the detonating cord to connect the detonator to detonating cord ballistic train.