Claims
- 1. In a shell and tube heat exchanger comprising an outer shell assembly having at least one inlet and one outlet and including a joint to receive a tube sheet, a tube sheet in sealing engagement with the joint, the shell assembly defining a channel on one side of the tube sheet, the channel being associated with at least one conduit leading to the interior of the shell assembly for accommodating a flow of fluid passing through the channel, channel closure means for closing said channel, and means engaging said shell and said channel closure means for sealing said channel closure means to said shell, wherein the improvement comprises first adjustable means located inside said shell for applying an axial force to said tube sheet for sealing said tube sheet to said shell, said first adjustable means engaging said shell and located between said tube sheet and said channel closure means and adapted to adjustably seal said tube sheet to said shell prior to installation of said channel closure means whereby said seal may be tested prior to installation of said channel closure means, and second adjustable means separate from said means for sealing said channel closure means and separate from said first adjustable means for applying an axial force from a position outside of said channel closure means to said tube sheet for adjusting the sealing of said tube sheet to said shell after installation of said channel closure means.
- 2. In a shell and tube heat exchanger according to claim 1, wherein the means for sealing said channel closure means comprises an annular locking assembly threadably mounted in the interior of said shell assembly and a plurality of first bolts mounted in threaded bores therein being operable to apply an axial force for sealing said channel closure means to said shell and wherein said second adjustable means comprises a plurality of second bolts mounted in threaded bores in said annular locking assembly being operable to apply an axial force for sealing said tube sheet.
- 3. In a shell and a tube heat exchanger according to claim 2 and further including a partition assembly and wherein said second bolts apply said axial force to said partition assembly which transmits said force to the tube sheet.
- 4. In a shell and tube heat exchanger according to claim 3 wherein the partition assembly comprises a partition ring, a partition cover, and a plurality of partition plates, said partition ring also being responsive to the axial force produced by the first and second adjustable means for transmission of said force to the tube sheet thereby helping to seal said tube sheet to the joint.
- 5. In a shell and tube heat exchanger according to claim 1 wherein said first adjustable means comprises a ring divided into a plurality of block sections dimensioned to fit inside and engage an annular recess formed in part of the shell assembly which defines said channel and a plurality of third bolts mounted in bores in said ring and being operable to apply an axial force for sealing said tube sheet prior to installation of said channel closure means.
- 6. In a shell and tube heat exchanger according to claim 5 and further including a deformable ring means between said third bolts and said tube sheet for transmitting said axial force and adapted to preferentially deform at a controlled rate from excess force developed by differential thermal expansion.
- 7. In a shell and tube heat exchanger according to claim 2 wherein at least some of said second bolts mounted in the annular locking assembly have locally reduced surfaces so as to be responsive to excessive forces developed in said heat exchanger.
Parent Case Info
This is a continuation of application Ser. No. 684,959, filed on Dec. 12, 1984 now abandoned.
US Referenced Citations (8)
Foreign Referenced Citations (4)
Number |
Date |
Country |
571203 |
Feb 1959 |
CAX |
907899 |
Feb 1954 |
DEX |
1149368 |
May 1963 |
DEX |
663011 |
Dec 1951 |
GBX |
Continuations (1)
|
Number |
Date |
Country |
Parent |
684959 |
Dec 1984 |
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