Patent Number: 051046113
Section: claims

1. In a heat exchanger having a vessel containing a tubesheet which separates a primary side cavity and a secondary side cavity, tubes mounted in the tubesheet in fluid communication with the primary side cavity and extending through the tubesheet and into the secondary side cavity to provide a heat exchanging relationship between fluid in the tubes and fluid in the secondary side cavity, said secondary side cavity including a flow divider plate an having edges attached to the wall of the vessel and extending toward the tubesheet perpendicularly therewith, and a handhole through the vessel adjacent the divider plate perpendicular edges for maintenance and cleaning in the secondary side cavity and a closure plate for the handhole when the heat exchanger is in operation, the improvement comprising: said divider plate having a notch in said edge,  said handhole being in alignment with said notch,  a flow blocker extending from said handhole into said notch dimensioned such that it substantially fills said handhole and said notch and thereby with the flow divider plate prevents substantial flow from one side of the flow divider plate to the other when the heat exchanger is in operation and such that it can be removed from said vessel through said handhole to permit access to both sides of said divider plate for maintenance and cleaning.  an inner cylindrical member with a recessed end portion,  a hollow outer cylindrical member of greater diameter than thickness X into which said inner member is telescopically assembled,  a spring biasing said inner member and said outer member in opposite directions,  a longitudinal member limiting the longitudinal telescoping extension of the two members,  an end portion of said longitudinal member being located in said recessed end portion of said inner cylindrical member,  said recessed end portion of said inner cylinder being of an overall transverse dimension not substantially greater than X. 2. The improved heat exchanger of claim 1 in which the handhole is adjacent the tubesheet in the secondary side cavity and the divider plate intersects the tubesheet. 3. The improved heat exchanger of claim 1 in which the handhole and the flow blocker are substantially cylindrical and the opposed notch edges adjacent the vessel are spaced by the diameter of the cylindrical flow blocker. 4. The improved heat exchanger of claim 3 in which the opposed notch edges adjacent the vessel are arcuate and concentric with the cylindrical flow blocker and the handhole. 5. The improved heat exchanger of claim 1 in which the flow blocker is attached to the closure plate for the handhole. 6. The improved heat exchanger of claim 1 in which the flow blocker is longitudinally compressible to maintain it in position between the notch and the closure plate. 7. The improved heat exchanger of claim 6 in which the flow blocker comprises two substantially cylindrical members, an inner member and an outer member telescopically assembled and biased in opposite directions by spring means. 8. The improved heat exchanger of claim 7 in which the flow blocker has a longitudinal member limiting the longitudinal telescopic extension of the two members. 9. The improved heat exchanger of claim 1 in which the flow blocker is attached to the closure plate for the handhole. 10. The improved heat exchanger of claim 1 in which the divider plate is part of an economizer of a nuclear steam generator. 11. A flow blocker for closing a passage in a nuclear steam generator having a handhole and a secondary side divider plate of a thickness X comprising in combination: 12. The flow blocker of claim 11 which includes means attaching the outer cylindrical member to a closure plate for a handhole of the nuclear steam generator.