Corrugated fin heat exchanger and method of manufacture
First Claim
1. A method of manufacturing a heat exchanger, comprising:
- providing a corrugated metal sheet comprising a first side having a plurality of first troughs alternating with a plurality of first peaks, and a second side having a plurality of second troughs alternating with a plurality of second peaks, each said trough being formed by a pair of walls, each said wall separating said first side from said second side and extending from a first peak to a second peak, said troughs and said peaks extending in parallel and defining a longitudinal direction, providing a first fixture comprising a first base and a plurality of parallel first ribs fixed to said base, each said first rib having an edge remote from said base and at least one notch extending downward from said edge, said notches being aligned to form at least one forming channel extending transversely of said first ribs, placing said corrugated metal sheet on said first fixture so that said first ribs are received in said second troughs, forming said first peaks downward into said notches to form depressions which are mutually aligned to form at least one tube-receiving channel extending transversely to said longitudinal direction, each depression comprising a contact surface formed in said first side and extending laterally over each adjacent said first trough, and fixing a tube section in each said tube-receiving channel.
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Accused Products
Abstract
A heat exchanger includes a corrugated metal sheet comprising a first side having a plurality of first troughs alternating with a plurality of first peaks, and a second side having a plurality of second troughs alternating with a plurality of second peaks, each trough being formed by a pair of walls, each wall separating the first side from the second side and extending from a first peak to a second peak, the troughs and peaks extending in parallel and defining a longitudinal direction. Each first peak is formed with at least one depression, the depressions in respective peaks being aligned to form at least one tube-receiving channel extending transversely to the longitudinal direction. Each depression has a contact surface formed in the first side and extending laterally over each adjacent first trough. A tube section is received in each tube-receiving channel in substantially conforming contact with the contact surfaces. The heat exchanger is manufactured using first and second fixtures having first and second sets of parallel ribs which are received in respective second and first troughs of the corrugated sheet. The first peaks are formed downward using a mandrel received through windows interrupting the second ribs, the depressions being formed in corresponding notches in the first ribs.
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Citations
6 Claims
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1. A method of manufacturing a heat exchanger, comprising:
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providing a corrugated metal sheet comprising a first side having a plurality of first troughs alternating with a plurality of first peaks, and a second side having a plurality of second troughs alternating with a plurality of second peaks, each said trough being formed by a pair of walls, each said wall separating said first side from said second side and extending from a first peak to a second peak, said troughs and said peaks extending in parallel and defining a longitudinal direction, providing a first fixture comprising a first base and a plurality of parallel first ribs fixed to said base, each said first rib having an edge remote from said base and at least one notch extending downward from said edge, said notches being aligned to form at least one forming channel extending transversely of said first ribs, placing said corrugated metal sheet on said first fixture so that said first ribs are received in said second troughs, forming said first peaks downward into said notches to form depressions which are mutually aligned to form at least one tube-receiving channel extending transversely to said longitudinal direction, each depression comprising a contact surface formed in said first side and extending laterally over each adjacent said first trough, and fixing a tube section in each said tube-receiving channel. - View Dependent Claims (2, 3, 4, 5, 6)
providing a second fixture comprising a second base and a plurality of parallel second ribs fixed to said second base, said second ribs and said second base being interrupted to form at least one window extending through said second fixture, and placing said second fixture onto said first fixture after placing said corrugated metal sheet on said first fixture and before forming said first peaks downward into said notches to form said depressions, said second ribs being received in said first troughs, said at least one window being aligned with said at least one forming channel, whereby, said first peaks can be formed downward and laterally to form said depressions by using at least one mandrel received through said at least one window in said second fixture. -
5. A method as in claim 4 wherein said second fixture further comprises a pair of sidewalls fixed to said second base in parallel with said second ribs, each said sidewall having at least one notch which is aligned with said at least one window so that at least one mandrel extending beyond said sidewalls can be used to form said first peaks downward to form said at least one tube-receiving channel.
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6. A method as in claim 1 wherein said peaks are formed downward using a mandrel.
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Specification