This invention relates generally to heat exchangers used in furnaces and the like and in particular to a tubular heat exchanger having an interior structure to enhance the turbulence of combustion products flowing through the heat exchanger tubes.
Heat exchangers used in furnaces and other heating apparatus are typically comprised of plural metal tubes, each of which may be bent in a serpentine fashion to form multiple passes for the flue gas flowing in each tube. The inlet of each tube is in communication with a burner assembly in which a combustible fuel-air mixture is burned. The outlet of each tube is in communication, either directly or indirectly through a secondary heat exchanger, with a flue vent or the like, whereby flue gas is exhausted from the heating apparatus. The flue gas flowing in the heat exchanger tubes transfers heat to air passing over the outside of the tubes, whereby air supplied to an indoor space is heated.
It is known in the art that heat transfer efficiency may be enhanced by slowing the flow of the gaseous products of combustion in the tubes and by increasing the turbulence thereof. One approach to accomplishing both of these results is to insert one or more baffles in the tubes to break up the laminar flow of the hot gas. Another approach is to flatten the tubes at certain locations to restrict and alter the flow of the gas. Yet another approach, as described in published U.S. patent application 2002/0005275, is to extrude opposing pairs of dimples into the tube, so that the dimples of each pair are in alignment and form a pair of adjacent converging, diverging nozzles inside the tube.
In accordance with the present invention, a tubular heat exchanger has at least one tube adapted to receive products of combustion in a furnace or other heating apparatus. The heat exchanger has at least one tube with an interior passageway and a wall surrounding the passageway. At least one pair of dimples projects from the wall into the passageway. The dimples are in generally facing relationship, but are offset from each other along a longitudinal axis of the tube.
In accordance with one embodiment of the invention, the tube has a generally circular cross-section and at least one of the dimples projects into the passageway beyond a centerline of the tube; so that at least one dimple projects inwardly by more than one-half of the diameter of the tube. In accordance with another embodiment of the invention, the dimples of each pair are offset from each other along the longitudinal axis of the tube by no more than one-half of the length of each dimple along the longitudinal axis. In accordance with yet another embodiment of the invention, both of the dimples of at least one pair of dimples project inwardly beyond the centerline of the tube. Each of the dimples is extruded into the passageway by deforming the tube wall and preferably defines a convex surface in the passageway.
The best mode for carrying out the invention will now be described with reference to the accompanying drawings. Like parts are marked in the specification and drawings with the same respective reference numbers. In some instances, proportions may have been exaggerated in order to depict certain features of the invention.
Referring now to
Referring also to
When unit 10 is operated in a heating mode, burners 32 burn a combustible fuel-air mixture and the combustion products are drawn through tubes 30 by induced draft blower 36. Supply air blower 26 draws the air to be heated from a return duct (not shown) into unit 10 through filter 20 to remove dirt and other debris therefrom and blows the air across heat exchanger tubes 30, whereby heat is transferred through the tube walls from the flue products inside tubes 30 to the air flowing across the outside of heat exchanger 24. Blower 26 blows the heated air from unit 10 into a supply duct (not shown), which communicates with an indoor space to be heated. Evaporator coil 22, condenser fans 28 and the condenser coil are inoperative in the heating mode.
When unit 10 is operated in a cooling mode, heat exchanger 24, burners 32 and induced draft blower 36 are inoperative. A vapor compression refrigerant is circulated by one or more of the compressors 23 between evaporator coil 22 and the condenser coil in the conventional manner. The refrigerant is vaporized in evaporator coil 22, which transfers heat from air drawn through coil 22 by supply air blower 26 to the refrigerant, thereby cooling the air. The cooled air is then blown through heating section 14 into the supply duct, which conducts the heated air to the indoor space.
Referring now to
Each tube 30 has plural cooperating pairs of dimples 44 formed in the “downstream” leg 30d thereof, at predetermined intervals (e.g., 4.25 inches) along leg 30d. The “upstream” leg 30c of the tube 30, which corresponds to the first pass of the flue gas through tube 30 between inlet end 30a and return bend portion 30e, has a relatively smooth wall. As can be best seen in
Each dimple 44 defines a generally convex protrusion into an interior passageway 48. Dimples 44 preferably extend inwardly beyond a central longitudinal axis of passageway 48, so that the dimples 44 of each cooperating pair may be in at least partial contact, as best seen in
Dimples 44 preferably are punched into the wall of downstream leg 30c of each tube 30 on the sides thereof so that there are no constrictions in the bottoms of tubes 30 to interfere with drainage of condensate therefrom. Specifically, each dimple 44 is preferably formed by deforming the tube wall inwardly by means of a spherical punching tool (not shown). The result of the punching process is a generally elliptical, concave indentation in the tube wall on the outside of the corresponding tube 30, as can be best seen in
The best mode for carrying out the invention has now been described in detail. Since changes in and additions to the above-described best mode can be made without departing from the nature, spirit and scope of the invention, the invention is not to be limited to the above-described best mode, but only by the appended claims and their equivalents.