Shaped charge load tube with integrated detonation cord retention mechanism

What is claimed is: 1. A loading tube configured to receive one or more shaped charges to form a perforating gun, the loading tube comprising: a tubular body extending along a longitudinal axis; a cord passage formed into the tubular body; a retention cutoff formed into the tubular body and configured to receive a detonator cord; and a holding element extending into the retention cutoff and being integrally made with a wall of the tubular body, wherein the holding element is configured to hold the detonator cord into the retention cutoff, wherein the cord passage is configured to receive the detonator cord from a bore of the tubular body and to direct the detonator cord outside the bore of the tubular body. 2. The loading tube of claim 1 , wherein there are no other elements that hold the detonator cord attached to the tubular body. 3. The loading tube of claim 1 , further comprising: a first shaped charge passage configured to receive a mouth of a corresponding shaped charge; and a second shaped charge passage, configured to receive a tail of the corresponding shaped charge, wherein the second shaped charge passage has a diameter smaller than the first shaped charge passage. 4. The loading tube of claim 3 , further comprising: another retention cutoff formed into the tubular body and configured to receive the detonator cord; and another holding element extending into the another retention cutoff and being integrally made with the wall of the tubular body, wherein the another holding element is configured to hold the detonator cord into the another retention cutoff. 5. The loading tube of claim 4 , wherein the retention cutoff, the second shaped charge passage, and the another retention cutoff are distributed along a helix on an outside of the loading tube. 6. The loading tube of claim 5 , wherein the second shaped charge passage is sandwiched between the retention cutoff and the another retention cutoff along the helix. 7. The loading tube of claim 5 , wherein there are plural second shaped charge passages between the retention cutoff and the another retention cutoff along the helix. 8. The loading tube of claim 5 , wherein there are no second shaped charge passages between the retention cutoff and the another retention cutoff along the helix. 9. The loading tube of claim 1 , further comprising: an additional holding element extending into the retention cutoff. 10. The loading tube of claim 1 , wherein a shape of the retention cutoff is irregular. 11. The loading tube of claim 1 , wherein the holding element has a slot configured to receive a tool. 12. The loading tube of claim 1 , wherein the holding element is bent so that a tip of the holding element either enters inside the bore of the tubular body or protrudes outside from an external surface of the tubular body. 13. A perforating gun for perforating a casing in a well, the perforating gun comprising: a casing extending along a longitudinal axis; a loading tube configured to fit inside a bore of the casing; plural shaped charges attached to the loading tube; and a detonation cord extending outside the loading tube and ballistically connecting the plural shaped charges, wherein the loading tube comprises a retention cutoff formed into a tubular body of the loading tube; a holding element extending into the retention cutoff and being integrally made with a wall of the tubular body, wherein the holding element is configured to hold the detonator cord into the retention cutoff; a cord passage formed into the wall of the loading tube, wherein the cord passage is configured to receive the detonator cord from a bore of the tubular body and to direct the detonator cord outside the bore of the tubular body. 14. The perforating gun of claim 13 , wherein there are no other elements that hold the detonator cord attached to the tubular body. 15. The perforating gun of claim 13 , wherein the loading tube further comprises: a first shaped charge passage configured to receive a mouth of a corresponding shaped charge of the plural shaped charges; and a second shaped charge passage, configured to receive a tail of the corresponding shaped charge, wherein the second shaped charge passage has a diameter smaller than the first shaped charge passage. 16. The perforating gun of claim 15 , further comprising: another retention cutoff formed into the tubular body and configured to receive the detonator cord; and another holding element extending into the another retention cutoff and being integrally made with the wall of the tubular body, wherein the another holding element is configured to hold the detonator cord into the another retention cutoff. 17. The perforating gun of claim 16 , wherein the retention cutoff, the second shaped charge passage, and the another retention cutoff are distributed along a helix on an outside of the loading tube. 18. A method for attaching a detonation cord to a loading tube of a perforating gun, the method comprising: adding plural shaped charges to a loading tube of a perforating gun; inserting one end of a detonator cord, from inside a bore of the loading tube, through a cord passage formed in a wall of the loading tube to arrive outside the loading tube; attaching the detonator cord to a tail of a shaped charge of the plural shaped charges; placing a portion of the detonation cord inside a retention cutoff formed into the wall of the loading tube, under a holding element that extends into the retention cutoff and is integrally made with the wall of the loading tube; and attaching the detonator cord to another shaped charge of the plural shaped charges.