Tandem sub for self-orienting perforating system

What is claimed is: 1. A tandem sub, used to connect one or more perforating gun assemblies, comprising: a first rotational mechanism disposed within a first sleeve located at a first end, wherein the first rotational mechanism is adapted to engage with a first charge tube in a first perforating gun and allow the first charge tube to rotate freely; a second rotational mechanism disposed within a second sleeve located at a second end, wherein the second rotational mechanism is adapted to engage with a second charge tube in a second perforating gun and allow the second charge tube to rotate freely; and an outer tandem housing, wherein the outer housing is adapted to engage a first outer gun housing of the first perforating gun and engage a second outer gun housing of the second perforating gun; and a feed through bulkhead installed within a through passage, wherein the feed through bulkhead provides an electric contact between the first perforating gun and the second perforating gun while further providing a pressure seal between the first perforating gun and the second perforating gun. 2. The tandem sub of claim 1 further comprising a first retainer coupled to the first rotation mechanism, wherein the first retainer retains and protects the first rotational mechanism. 3. The tandem sub of claim 1 further comprising a second retainer coupled to the second rotation mechanism, wherein the second retainer retains and protects the first rotational mechanisms. 4. The tandem sub of claim 1 wherein the first rotation mechanism is a needle bearing. 5. The tandem sub of claim 1 wherein the second rotation mechanism is a needle bearing. 6. The tandem sub of claim 1 further comprising a first retainer coupled to the first rotation mechanism, wherein the first retainer retains and protects the first rotational mechanism. 7. The tandem sub of claim 1 further comprising a second retainer coupled to the second rotation mechanism, wherein the second retainer retains and protects the first rotational mechanisms. 8. A perforating gun system comprising: a first perforating gun with a first charge tube; a second perforating gun with a second charge tube; a first tandem sub, used to connect one or more perforating gun assemblies, further comprising: a first rotational mechanism disposed within a first sleeve located at a first end, wherein the first rotational mechanism is coupled with the first charge tube in the first perforating gun; a second rotational mechanism disposed within a second sleeve located at a second end, wherein the second rotational mechanism is coupled with the second charge tube in the second perforating gun; and a feed through bulkhead installed within a through passage in the first tandem sub, wherein the feed through bulkhead provides an electric contact between the first perforating gun and the second perforating gun while further providing a pressure seal between the first perforating gun and the second perforating gun. 9. The perforating gun system of claim 8 , further comprising a top end fitting coupling a first end of the first charge tube to the first rotational mechanism, wherein the top end fitting is made of non-conductive material. 10. The perforating gun system of claim 9 , further comprising an electrical contact protruding outward from the top end fitting into the feed through bulkhead. 11. The perforating gun system of claim 10 , further comprising a wired connection connecting the top end fitting electrical contact to the input wire of a controller switch contained within the top end fitting. 12. The perforating gun system of claim of claim 11 , further comprising a through wire running the length of the first charge tube connecting an output wire of the controller switch to the electrical contact on a bottom end fitting. 13. The perforating gun system of claim of claim 9 , further comprising a bottom end fitting on a second end of the charge tube. 14. The perforating gun system of claim of claim 13 , wherein the bottom end fitting is composed of non-conductive material with an electrical contact protruding outward from the center of the bottom end fitting body. 15. The perforating gun system of claim 9 , wherein the top end fitting of the first charge tube assembly is supported by the first rotational mechanisms in the first tandem sub. 16. The perforating gun system of claim 8 , further comprising the first tandem sub having an outer tandem housing, wherein the outer housing is adapted to engage a first outer gun housing of the first perforating gun and engage a second outer gun housing of the second perforating gun. 17. The perforating gun system of claim 8 , wherein the first charge tube is weighted and freely rotates within the first perforating gun. 18. The perforating gun system of claim 8 , wherein the second charge tube is weighted and freely rotates within the second perforating gun. 19. The perforating gun system of claim 8 further comprising a first retainer coupled to the first rotation mechanism, wherein the first retainer retains and protects the first rotational mechanism. 20. The Perforating gun system of claim 8 further comprising a second retainer coupled to the second rotation mechanism, wherein the second retainer retains and protects the first rotational mechanisms.