Patent Number: 
Section: claims

1. An expandable pipe plug assembly comprising:a main plug with a first end and a second end,a ratchet nut on the first end of the main plug,a pipe plug on the second end of the main plug, the pipe plug being connected to the ratchet nut via a plug bolt, the ratchet nut configurable to tighten hold of the plug bolt to draw the plug bolt and the pipe plug toward the main plug, andan expandable bushing assembly between the main plug and the pipe plug, the expandable bushing assembly having a longitudinal length with a first end facing the pipe plug and a second end facing the main plug, the expandable bushing assembly being configured to radially expand along the longitudinal length such that the first end and the second end are configured to expand as the pipe plug is drawn toward the main plug, the expandable bushing assembly not being permanently affixed to the main plug. 2. The pipe plug assembly of claim 1, wherein the expandable bushing assembly further comprises:a plurality of separate bushing sections, each bushing section having a longitudinal wall that forms a longitudinal wall section of the expandable bushing assembly,wherein the expandable bushing assembly is cylindrical and includes longitudinal gaps running along the longitudinal length of the expandable bushing assembly and in-between the bushing sections. 3. The pipe plug assembly of claim 2, wherein each bushing section further comprises:a flat bushing section base existing at approximately a normal angle from the longitudinal wall of the bushing section, each bushing section base forming a flat base section of the expandable bushing assembly, each bushing section base being configured to expand along with the bushing sections as the pipe plug is drawn toward the main plug. 4. The pipe plug assembly of claim 3, wherein the expandable bushing assembly further comprises:a circular retaining ring configured to hold the bushing sections together, the retaining ring including a gap that mates with a boss located on the base of one of the bushing sections, the boss being configured to ensure that the retaining ring does not rotate while the retaining ring holds the bushing sections together, anda retaining ring groove located between the longitudinal wall and the flat base section of each bushing section, the retaining ring groove being configured to hold the retaining ring in position near the base of the bushing assembly. 5. The pipe plug assembly of claim 3, wherein each bushing section further comprises:a longitudinal alignment boss protruding from an inner surface of the longitudinal wall of the bushing section. 6. The pipe plug assembly of claim 5, wherein the pipe plug further comprises:alignment channels longitudinally positioned along an outer surface of the pipe plug, each alignment channel configured to mate with one of the alignment bosses of the bushing sections,wherein the pipe plug is conical in shape with a tapered end facing the main plug, the conical shape of the pipe plug being configured to cause the longitudinal gaps in the bushing assembly to increase in size and the overall diameter of the bushing assembly to expand as the pipe plug is drawn toward the main plug via the ratchet nut. 7. The pipe plug assembly of claim 6, wherein the pipe plug further comprises:a square boss on the tapered end of the pipe plug and connected to the plug bolt, the square boss being configured to align and mate with a square pocket of the main plug. 8. The pipe plug assembly of claim 7, wherein the main plug further comprises:a center hole penetrating the center of the main plug, the center hole being configured to allow the plug bolt to penetrate the main plug and connect to the ratchet nut,a recessed center hole on the first end of the main plug to retain the ratchet nut, anda J-shaped keeper recess on the first end of the main plug located near the recessed center hole, the keeper recess being configured to retain a J-shaped anti-rotational keeper. 9. The pipe plug assembly of claim 8, wherein the J-shaped keeper has anti-rotational teeth, the anti-rotational teeth configured to contact teeth on the ratchet nut to ensure that the ratchet nut may only rotate in one direction. 10. The pipe plug assembly of claim 9, wherein the J-shaped keeper recess of the main plug further comprises:an opening located between the keeper recess and the recessed center hole of the main plug, the opening allowing the anti-rotational teeth of the keeper to contact the teeth of the ratchet nut, andat least three undercuts along the sides of the keeper recess, the undercuts configured to mate with at least three tabs or lips on the keeper to provide three points of contact to ensure that the keeper remains securely fastened in the keeper recess. 11. The pipe plug assembly of claim 8, further comprising:a spherical washer between the ratchet nut and an inner surface of the recessed center hole of the main plug, the spherical washer having a concave shaped face facing the ratchet nut and configured to mate with a convex shaped bottom surface of the ratchet nut, the mating surfaces of the washer and the ratchet nut allowing the ratchet nut and the plug bolt to pivot as the ratchet nut is tightened to draw the pipe plug toward the main plug. 12. The pipe plug assembly of claim 1, wherein the expandable bushing section includes one bushing section in a cylindrical shape with only one singular longitudinal gap running along the entire longitudinal length of the bushing section. 13. The pipe plug assembly of claim 1, wherein the main plug is cylindrical in shape and further comprises:threads on an outer circumferential surface of the main plug, andanti-rotational teeth on the outer surface of the main plug. 14. The pipe plug assembly of claim 1, further comprising:dice markings on an outer surface of the main plug and the ratchet nut 15. A Boiling Water Reactor (BWR) jet pump assembly comprising:a riser pipe,a circular collar surrounding the riser pipe, andan expandable pipe plug assembly penetrating a straight hole in the collar and the riser pipe, the pipe plug assembly including,a main plug with a first end and a second end,a ratchet nut on the first end of the main plug,a pipe plug on the second end of the main plug and connected to the ratchet nut via a plug bolt, the ratchet nut being configured to be tightened to draw the plug bolt and the pipe plug toward the main plug,an expandable bushing assembly between the main plug and the pipe plug, the expandable bushing assembly having a longitudinal length with a first end facing the pipe plug and a second end facing the main plug, the expandable bushing assembly being configured to radially expand along the longitudinal length as the pipe plug is drawn toward the main plug such that the first end and the second end are configured to expand to fill the hole in the collar and the riser pipe. 16. A method of affixing a circular collar to a riser pipe of a Boiling Water Reactor (BWR) jet pump assembly, the method comprising:fashioning the circular collar around an outer surface of the riser pipe,drilling a straight hole through the collar and the riser pipe,inserting an expandable pipe plug assembly into the hole, the pipe plug assembly including,an electrical discharge machining (EDM) plug with a first end and a second end,a ratchet nut on the first end of the EDM plug,a pipe plug on the second end of the EDM plug,an expandable bushing assembly between the EDM plug and the pipe plug,connecting the pipe plug to the ratchet nut via a plug bolt, the plug bolt penetrating the EDM plug and having threads that mate with threads provided on the ratchet nut,drawing the pipe plug toward the EDM plug by tightening the ratchet nut on the plug bolt, andexpanding the diameter of the bushing assembly as the pipe plug is drawn toward the EDM plug. 17. The method of claim 16, further comprising:forming the bushing assembly from a plurality of separate bushing sections, each bushing section forming a longitudinal wall section of the bushing assembly,holding the separate bushing sections together via a circular retaining ring, andsecuring the retaining ring in a fixed position on the bushing assembly via a retaining ring gap, the retaining ring gap fitting over a boss located on the bushing assembly. 18. The method of claim 16, further comprising:aligning the pipe plug with the bushing assembly by mating alignment channels on an outer surface of the pipe plug with longitudinal alignment bosses on an inner surface of the bushing assembly. 19. The method of claim 17, further comprising:forming the pipe plug to be conical in shape with a tapered end facing the EDM plug,the expanding of the diameter of the bushing occurring due to the conical outer surface of the pipe plug pressing against the inner surface of the bushing assembly, causing gaps between the separate bushing sections to expand, as the pipe plug is drawn toward the EDM plug. 20. The method of claim 19, further comprising:affixing a square boss onto the tapered end of the pipe plug, andaligning the square boss with a square pocket of the EDM plug, allowing the square boss to mate with the square pocket as the pipe plug is drawn toward the EDM plug. 21. The method of claim 16, further comprising:forming a recessed center hole on the first end of the EDM plug to retain the ratchet nut in the center hole,forming a J-shaped keeper recess on the first end of the EDM plug and located near the center hole,placing a J-shaped keeper with anti-rotational teeth in the J-shaped keeper recess,retaining the J-shaped keeper in the J-shaped keeper recess via three points of contact that are provided between the J-shaped keeper and the J-shaped keeper recess, andallowing the ant-rotational teeth of the J-shaped keeper to contact teeth on an outer surface of the ratchet nut to ensure that the ratchet nut may only rotate in one direction. 22. The method of claim 21, further comprising:providing a spherical washer between the ratchet nut and an inner surface of the recessed center hole of the EDM plug, a face of the spherical washer facing the ratchet nut having a concave shape,forming a bottom surface of the ratchet nut into a convex shape, andmating the concave face of the spherical washer with the convex bottom surface of the ratchet nut to allow the ratchet nut and the plug bolt to pivot as the ratchet not is tightened. 23. The method of claim 16, further comprising:forming the EDM plug into a cylindrical shape,providing threads on an outer circumferential surface of the EDM plug,machining threads into the hole in the collar, andscrewing the threads of the EDM plug into the threads of the collar to ensure the EDM plug is securely fastened to the collar. 24. An expandable pipe plug assembly comprising:a main plug with a first end and a second end,a ratchet nut on the first end of the main plug,a pipe plug on the second end of the main plug, the pipe plug being connected to the ratchet nut via a plug bolt, the ratchet nut configurable to tighten hold of the plug bolt to draw the plug bolt and the pipe plug toward the main plug, andan expandable bushing assembly being configured to float between the main plug and the pipe plug, the expandable bushing assembly having a longitudinal length with a first end facing the pipe plug and a second end facing the main plug, the expandable bushing assembly being configured to radially expand along the longitudinal length such that the first end and the second end are configured to expand as the pipe plug is drawn toward the main plug.