Battery coil engaging members for downhole tools

What is claimed: 1. A power supply comprising a battery cell adapted for supplying power to a downhole tool, the power supply comprising: a battery cell internals securing sleeve, the battery cell internals comprising a spiral-wound group of electrodes comprising at least one alternation of negative electrode, separator, and positive electrode, the battery cell internals securing sleeve comprising: a sleeve comprising a sleeve inner face; and at least one sleeve protuberance on the sleeve inner face configured to engage the battery cell internals; at least one cap disposed adjacent to an open end of the sleeve and sealed by a seal thereto comprising: an outer periphery and a cap inner face facing the battery cell internals; a current outlet terminal; and at least one cap protuberance protruding from the inner face, configured to engage the battery cell internals; and an electrolyte disposed within the battery cell wherein the length of the sleeve is shorter than that of the battery cell internals when the battery cell internals are in a relaxed position. 2. The power supply of claim 1 wherein the seal is a hermetic seal. 3. The power supply of claim 1 wherein the seal is achieved by one of plastic welding and e-beam welding. 4. The power supply of claim 1 further comprising a gasket disposed between the sleeve and the outer periphery of the at least one cap. 5. The power supply of claim 1 wherein the at least one cap and the sleeve comprise a keying feature to retain the at least one cap in fixed relation to the sleeve. 6. The power supply of claim 5 wherein the keying feature comprises at least one tab on the sleeve and at least one corresponding notch on the outer periphery of the cap. 7. The power supply of claim 1 wherein at least one of the at least one cap protuberance and the at least one sleeve protuberance comprises a barb, a prong, or a raised rib. 8. The power supply of claim 7 wherein the raised rib comprises a sharp inner edge or a rounded inner edge. 9. The power supply of claim 7 wherein at least one of the sleeve inner face, the cap inner face, the at least one cap protuberance, and the at least one sleeve protuberance is protected with an anticorrosive coating. 10. The power supply of claim 1 further comprising at least one feed-through aperture in the cap. 11. The power supply of claim 1 wherein at least one of the cap and the sleeve is injection molded. 12. The power supply of claim 1 wherein at least one of the at least one cap protuberance and the at least one sleeve protuberance comprises an electrical insulator. 13. The power supply of claim 1 wherein at least one of the at least one cap protuberance and the at least one sleeve protuberance is chemically inert. 14. The power supply of claim 1 wherein the cap further comprises an electrical connection means to provide an electrical link between the cap and the battery cell internals. 15. The power supply of claim 1 further comprising a wrapper enclosing the battery cell internals. 16. The power supply of claim 1 wherein the cap is locked to the sleeve. 17. The power supply of claim 16 wherein the sleeve comprises at least one tab and the cap comprises at least one corresponding recess that locks the cap and the sleeve in fixed relation. 18. A method of manufacturing a cylindrical battery cell comprising the steps of: providing a battery cell internals securing sleeve comprising: a sleeve comprising a sleeve inner face; and at least one sleeve protuberance on the sleeve inner face configured to engage battery cell internals; providing the battery cell internals comprising a spiral-wound group of electrodes comprising at least one alternation of negative electrode, separator, and positive electrode, and inserting the battery cell internals into the sleeve; providing at least one cap comprising: an outer periphery and a cap inner face facing the battery cell internals; a current outlet terminal; and at least one cap protuberance protruding from the inner face and configured to engage the battery cell internals; sealing the at least one cap adjacent to an open end of the sleeve; and filling the cell with an electrolyte, wherein the sleeve comprises two open ends and further comprising the step of sealing one of the at least one cap adjacent each open end. 19. The method of claim 18 further comprising the step of positioning a gasket between the sleeve and the at least one cap. 20. The method of claim 18 further comprising engaging a keying feature to retain the at least one cap in fixed relation to the sleeve. 21. A power supply comprising a battery cell adapted for supplying power to a downhole tool, the power supply comprising: a battery cell internals securing sleeve, the battery cell internals comprising a spiral-wound group of electrodes comprising at least one alternation of negative electrode, separator, and positive electrode, the battery cell internals securing sleeve comprising: a sleeve comprising a sleeve inner face; and at least one sleeve protuberance on the sleeve inner face configured to engage the battery cell internals; at least one cap disposed adjacent to an open end of the sleeve and sealed by a seal thereto comprising: an outer periphery and a cap inner face facing the battery cell internals; a current outlet terminal; and at least one cap protuberance protruding from the inner face, configured to engage the battery cell internals; and an electrolyte disposed within the battery cell, wherein an inner diameter of the sleeve is smaller than an outer diameter of the battery cell internals when the battery cell internals are in a relaxed position. 22. The power supply of claim 21 wherein the seal is a hermetic seal. 23. The power supply of claim 21 wherein the seal is achieved by one of plastic welding and e-beam welding. 24. The power supply of claim 21 further comprising a gasket disposed between the sleeve and the outer periphery of the at least one cap. 25. The power supply of claim 21 wherein the at least one cap and the sleeve comprise a keying feature to retain the at least one cap in fixed relation to the sleeve. 26. The power supply of claim 25 wherein the keying feature comprises at least one tab on the sleeve and at least one corresponding notch on the outer periphery of the cap. 27. The power supply of claim 21 wherein at least one of the at least one cap protuberance and the at least one sleeve protuberance comprises a barb, a prong, or a raised rib. 28. The power supply of claim 27 wherein the raised rib comprises a sharp inner edge or a rounded inner edge. 29. The power supply of claim 27 wherein at least one of the sleeve inner face, the cap inner face, the at least one cap protuberance, and the at least one sleeve protuberance is protected with an anticorrosive coating. 30. The power supply of claim 21 further comprising at least one feed-through aperture in the cap. 31. The power supply of claim 21 wherein at least one of the cap and the sleeve is injection molded. 32. The power supply of claim 21 wherein at least one of the at least one cap protuberance and the at least one sleeve protuberance comprises an electrical insulator. 33. The power supply of claim 21