Not applicable.
Not applicable.
Not applicable.
The present invention is directed toward heat exchangers, and particularly toward heat exchangers having flat tubes and a housing.
Heat exchangers are, of course, well known in the art and have been used in a wide variety of applications.
One type of heat exchanger, described in European Patent Appl. No. EP 04 019 339.3 (corresponding to U.S. Ser. No. 11/201,783, filed Aug. 11, 2005), is illustrated in
According to the present invention, a heat exchanger is provided, including a stack of flat tubes for gas and a housing for the stack of flat tubes, with the housing enclosing only part of the periphery of the flat tube stack. The tubes have wide and narrow sides and are spaced to form channels therebetween for flow of a coolant, and means are provided for maintaining the flat tubes in a spaced condition along the periphery not enclosed by the housing, where those means additionally close the channels along the tube stack periphery not enclosed by the housing.
In one form of the invention, the housing is spaced on all sides relative to the periphery of the tube stack to define a channel between the inside of the housing and the stack.
In another form of the invention, the housing is U-shaped with arms extending in the direction of the wide sides of the flat tubes, and the housing arms are joined to the wide sides of the outermost flat tubes.
In still another form of the invention, a cross-sectional widening extends in the longitudinal direction of the flat tubes, wherein the housing is U-shaped with arms connected to the wide sides of the flat tubes. In a further form, the cross-sectional widening is provided in at least one of the wide sides of the flat tubes and extends in a strip over the entire length of flat tubes. In another form, the housing arms have an offset connection edge connected to the cross-sectional widening and, in a further form, the housing connection edge has beads receiving the corresponding section of connection edges of the tubes. In still another further form, the flat tubes are stacked with their cross-sectional widening abutting each other and, in further forms, the tubes are formed of plates and the channels are formed by deformation of the plates, or the tubes are formed of one piece with a welded longitudinal seam in one of the two narrow sides and the cross-sectional widening is made from a sheet strip during flat tube production.
In yet another form of the invention, receiving beads are on two sides of the connection edge of the collecting tanks.
In still another form of the invention, internal inserts are in the flat tubes and, in a further form, the internal insert is a corrugated sheet in which corrugations form discrete flow passages for the gas.
In yet another form of the invention, an inlet collecting tank and an outlet collecting tank are provided for the gas. In a further form, a bypass within the flat tubes is defined by the internal inserts and a partition in at least one of the inlet and outlet collecting tanks and, in a still further form, at least the flow passage of the internal insert adjacent to the bypass is essentially not traversed by gas so that heat transfer to the bypass is suppressed.
Heat exchangers incorporating the present invention are shown in the Figures.
In the depicted practical examples, only three or four flat tubes 10 are stacked one on the other and each is provided with a collecting tank 14, 16 (see
In the practical examples according to
In both wide sides 20 of each flat tube 10 (see, e.g.,
It should be appreciated that the height of the channel 26 between the flat tubes 10 can naturally be determined by the height of the gradation 24 (cross-sectional widening). It should also be understood, however, that while arranging an additional part between the flat tubes 10 may be used to form the channels instead of the cross-sectional widening 24 is feasible, but in the most preferred form of this invention the cross-sectional widening is used for this function. Further, the connection edge 28 of the housing 30 (illustrated by a dash-dot line in
In the illustrated embodiments, the housing arms 34, 36 advantageously extend in the direction of the wide sides 20 of the flat tubes 10 and are connected to the wide sides 20 of the outer flat tubes 10 of the stack. It should be understood, however, that it would be within the scope of the invention for the arms to extend in the direction of the narrow sides 18 of the flat tubes 10, with the connection then being made on the narrow side 18 of a flat tube 10.
The flat tubes 10 shown in
The housing 30 encloses only part of the periphery of the stack of flat tubes (at least more than about 50% to about 90% of the total periphery). The housing 30 in the heat exchanger of
As clearly shown in
The collecting tanks 14, 16 and the housing 30 have receiving beads 60 in their connection edges, the geometry of which is such that each receiving bead 60 can enclose the corresponding section of the connection edge 56 so that a tight metal connection, especially a soldered connection, is possible there. After the heat exchanger, as described, has been assembled, it is introduced to a soldering furnace in order to make all the connections in one operation. Such connections of the collecting tanks have already been described in the European patent application EP 1 376 043 A2 of the same applicant (although, in contrast to the present case, no housing is present there). The full disclosure of EP 1 376 043 A2 is hereby fully incorporated by reference.
The described basic designs, either with one-piece or two-piece flat tubes 10, permit modifications, the advantages of which lie in the area of heat exchange efficiency. This is obtained owing to the fact that meandering coolant flow paths through the channels 26 of the heat exchanger can be simply created.
As an alternative, or in addition, it is also possible to form beads 78 in the housing 30, which serves the same purpose as shown, for example, in
Corrugated internal inserts 80 with preferably discrete flow passages 84 for exhaust are illustrated in the flat tubes 10 of all practical examples. The internal inserts 80 extend in the longitudinal direction of flat tubes 10 roughly over their entire length. A usually smaller part of the total cross-section of flat tubes 10 in cross-section may advantageously remain to create an exhaust bypass 86 and, if provided, may advantageously be located in the region of cross-sectional widening 24 of the flat tubes 10. This is advantageous since the bypass 86, in which no cooling of the exhaust is desired, can be very simply isolated, ensuring that the flow passage 84 of the internal insert 80 lying on bypass 86 is not traversed by exhaust. This bypass may be accomplished by a partition in the collecting tank (not shown), having a foot that closes off the passage such as is known to those skilled in the art. One suitable such structure is disclosed in European Patent Appl. No. EP 04 019 339.3 (corresponding to U.S. Ser. No. 11/201,783, filed Aug. 11, 2005), the disclosures of which are hereby fully incorporated by reference.
It should also be understood that the present invention could also be used with heat exchangers in which such inserts and/or bypasses are not present in the tubes. For example, during use of utility vehicles no exhaust bypass has yet been provided, because utility vehicles are ordinarily operated with only limited interruptions (i.e., long-term operation). A bypass 86 makes sense if operation is connected with continuous operation, which is often the case, for example, in passenger cars.
Another feature which may be used in some applications incorporating the present invention is illustrated in
The depicted and described practical examples show heat exchangers with only one stack of flat tubes 10 consisting of three or four flat tubes 10. As already explained above, the number of flat tubes 10 per stack is adapted according to the purpose. Moreover, heat exchangers incorporating the present invention may also include several stacks of flat tubes 10.
Still other aspects, objects, and advantages of the present invention can be obtained from a study of the specification, the drawings, and the appended claims. It should be understood, however, that the present invention could be used in alternate forms where less than all of the objects and advantages of the present invention and preferred embodiment as described above would be obtained.
Number | Date | Country | Kind |
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04026647 | Nov 2004 | EP | regional |
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