Patent Number: 
Section: claims

1. A device for use in securing a remnant of a tube through a wall of a pressure vessel comprising:an anti-ejection device for attachment to the remnant on an interior side of the pressure vessel, wherein the anti-ejection device defines a lumen passing axially therethrough, wherein the remnant defines a lumen passing axially therethrough, and wherein the lumen of the anti-ejection device is configured for axial alignment with the lumen in the remnant;an end cap for attachment to the remnant on an exterior side of the pressure vessel for sealing an open end of the remnant; anda connector for passage through the lumen of the anti-ejection device and the lumen of the remnant, wherein the end cap defines an inner threaded channel axially aligned with the lumen of the anti-ejection device and the lumen of the remnant, wherein the connector comprises an elongate member having a threaded end for connection to the end cap. 2. The device recited in claim 1 wherein the anti-ejection device further comprises an anti-rotation member for constraining the remnant and the anti-ejection device against relative rotation therebetween. 3. The device recited in claim 2 wherein the anti-ejection device comprises an upper end and a lower end and the anti-rotation member comprises a first mating surface; and,the remnant has an upper end in the interior of the pressure vessel and a second mating surface formed in the upper end for complementary mating relationship with the first mating surface. 4. The device recited in claim 3 wherein the first mating surface comprises a projection extending from the lower end of the anti-ejection device; and,the second mating surface comprises a notch formed in the upper end of the remnant for complementary mating relationship with the projection. 5. The device recited in claim 3 wherein the first mating surface comprises a notch formed in the lower end of the anti-ejection device; and,the second mating surface comprises a projection extending from the upper end of the remnant for complementary mating relationship with the notch. 6. The device recited in claim 3 further comprising a third mating surface on the lower end of the anti-ejection device for complementary mating relationship with a fourth mating surface on the upper end of the remnant. 7. The device recited in claim 1 wherein the remnant is welded to the interior side of the pressure vessel to define a weld area. 8. The device recited in claim 1 wherein the elongate member is a bolt having an upper head portion, a mid-shank portion and a lower threaded end portion, the head portion being greater in cross-sectional dimension than the cross-sectional dimension of the shank portion. 9. The device recited in claim 8 wherein the lumen of the anti-ejection device defines an upper recessed section and a lower lumen section, the upper recessed section being greater in cross-sectional dimension that the cross-sectional dimension of the lower lumen section, the upper recessed section defining a rim surface for seating the head portion of the bolt. 10. The device recited in claim 8 wherein the lumen of the anti-ejection device is uniform in cross-section and the anti-ejection device defines an upper section defining a rim surface for seating the head portion of the bolt. 11. The device recited in claim 1 wherein the end cap comprises:a bottom end having an upper rim and defining an annular cavity therein; and,a top end extending upwardly from the annular cavity past the upper rim, and being configured for insertion into the lumen of the remnant, the top end defining a threaded cavity therein for engagement, in use, with the threaded end of the connector. 12. The device recited in claim 11 wherein, in use, the upper rim of the end cap is welded to the bottom end of the remnant. 13. The device recited in claim 1 further comprising a locking cup for securing the connector to the anti-ejection device. 14. The device recited in claim 13 wherein the anti-ejection device defines an upper rim and the locking cup is welded to the upper rim. 15. The device recited in claim 1 wherein the anti-ejection device is removable. 16. The device recited in claim 1 further comprising a ventilation hole formed in the anti-ejection device. 17. The device recited in claim 1 further comprising an anti-ejection stop member for preventing the anti-ejection device and remnant from being ejected from the pressure vessel in the event of a rupture thereof. 18. A device for use in securing a remnant of a tube through a wall of a pressure vessel comprising:an anti-ejection device for attachment to the remnant on an interior side of the pressure vessel;an end cap for attachment to the remnant on an exterior side of the pressure vessel for sealing an open end of the remnant;further comprising a connector for connecting the anti-election device, the remnant, and the end cap;wherein:the anti-election device defines a lumen passing axially therethrough;the remnant defines a lumen passing axially therethrough, the lumen of the anti-ejection device configured for axial alignment with the lumen in the remnant when, in use, the anti-ejection device is attached to the remnant;the end cap defines an inner threaded channel axially aligned in use with the lumens of the anti-election device and the remnant; and,the connector comprises an elongate member for passage through the lumen of the anti-ejection device and the lumen of the remnant, and a threaded end for threaded connection to the channel of the end cap;wherein the lumen of the anti-ejection device defines an upper recessed section and a lower lumen section, the upper recessed section being greater in cross-sectional dimension than the cross-sectional dimension of the lower lumen section, the upper recessed section defining a rim surface; andthe device further comprises a locking cup seated on the rim surface of the upper recessed section for securing the connector to the anti-ejection device.