DE102006006670A1 - Heat exchanger tube comprises first thin sheet of material partially forming broad and narrow sides of tube body and partially enclosing an interior space, and second sheet of material partially forming fin brazed to tube body - Google Patents

Abstract

A heat exchanger tube (10) comprises first sheet of material, less than 0.15 mm thick, partially forming broad (22) and narrow sides of tube body and partially enclosing an interior space, and including a fold extending inwardly from the broad side into interior space to partially define 2 flow paths on opposite sides of the fold; and second sheet of material partially forming a fin brazed to the tube body with brazing material. The first sheet of material comprises layers having aluminum alloy, aluminum alloy with accumulations of intermetallic compound including silicon, and metal material. The heat exchanger tube comprises first sheet of material (12), less than 0.15 mm thick, partially forming broad and narrow (18) sides of a tube body and partially enclosing an interior space, and including a fold extending inwardly from the broad side into the interior space to partially define 2 flow paths on opposite sides of the fold; and second sheet of material (14) partially forming a fin brazed to the tube body with brazing material. The first sheet of material comprises first layer having aluminum alloy, second layer having aluminum alloy with accumulations of intermetallic compound including silicon, and third layer having metal material that is anodic with respect to the second layer and that is more resistant to the diffusion of silicon than the second layer. The second layer is between the first and third layers, and the third layer is between the second layer and brazing material. An independent claim is included for a method of forming the heat exchanger tube.

Description

The The invention relates to a flat tube for heat exchangers, with two narrow sides and two broad sides, for example, for Kühlflüssigkeitskühler or intercooler in Motor vehicles, which consists of at least three parts, wherein two parts for forming the wall of the flat tube with longitudinal seams on one Gradation in the broad side of the wall are connected and where the third part represents an inner insert in the flat tube and in it is attached,

The flat tube described above is from the DE 21 13 581 C3 or US Pat. No. 4,805,693. Such flat tubes have the advantage that they are in and of themselves production-friendly. Furthermore, the broad sides - a part of the wall of the known flat tube - are substantially flat, so that the connection with ribs, which are usually located between the tubes in a heat exchanger, has a good thermal conductivity quality. A disadvantage of the known flat tube, however, can be seen in the fact that the narrow sides do not have the required stability, especially when the wall thickness of the flat tube or the thickness of the sheet metal strip from which the parts are made, falls below a certain level. Furthermore, there are problems with compliance with tight manufacturing tolerances.

The zweigiederige object of the invention is 1.) in the provision an inexpensive to produce Flat tube with improved stability and 2.) only in the Providing a cost-effective Flat tube, which is improved in manufacturability.

The first object is achieved by the features in claim 1 solved. The second object is achieved by the features of the claim 2 solved.

It it is provided that the inner insert at least one, preferably However, both narrow sides reinforced. These are the two longitudinal edges of the Interior use deformed so that they rest against the inside of the narrow sides. The longitudinal edges of the Indoor use, for example, have a loop - or more generally, Such a shape that fits the shape of the narrow sides, so that the same a reinforcement Experienced.

A independent second solution provides that the two parts forming the wall are preferably identical are formed and arranged so that the one longitudinal seam in one broadside and the other longitudinal seam in the other broadside of the flat tube is arranged. In each case a longitudinal edge of both parts is free inside the flat tube. This causes the two Parts in their width dimension larger tolerances may have even without the implementation a Bandbeschneideschnittes the production of dimensionally stable flat tube enable. These flat tubes also have an inner insert. Preferably but not necessarily reinforced the interior use with his Longitudinal edges both Narrow sides of this flat tube from the inside.

The Thickness of at least one narrow side corresponds at least to the sum the thickness of the three parts. You can by appropriate design / convolution the longitudinal edges of the Indoor use also be significantly larger.

The Thickness of the parts of the flat tubes is 0.25 mm or less. The three parts can have the same thickness.

In contrast, the the wall forming parts have a thickness of less than 0.25 mm, for example 0.12 mm, and the thickness of the third part may be less be 0.10 mm.

The Thickness of the three parts can be in the range of 0.05 mm - 0.15 mm lie around a cost-effective heat exchanger with good heat transfer properties provide.

Of the Internal insert is with running in the transverse direction of the flat tube corrugations formed in the longitudinal direction of the flat tube running channels form. Such straight corrugations are extremely inexpensive and easy to realize.

The Corrugations are in one embodiment designed so that a wave edge perpendicular to the broad sides is and the following wave edge has a slope.

Of the Interior use is preferably in one piece, but could also be multi-part which is why of one "at least" three parts existing flat tube is spoken. Thus, so could four or more Parts of the flat tube may be present.

It can at a according to claim 1 trained flat tube are provided that both longitudinal seams in a and the same broadside are arranged.

Both Longitudinal seams range to about the narrow sides. The beginning of the longitudinal seams, namely the gradation lies However, in the broadsides, the distance of the gradation to the narrow side can be determined appropriately.

The small diameter of the flat tube is in the range of about 0.7 mm, for example 1.5 mm, if such flat tubes are installed in a coolant cooler. For intercoolers, the small diameter may also be greater than 1.0 cm. The large diameter can be freely determined over a wide range by using a correspondingly broad starting material.

The Flat tube is, as mentioned, made from at least three strips or parts of a sheet metal strip, passing through a production line to run. The complete three-piece flat tube comes from the production line out. Because all three parts are relatively minor or easily manufacturable Forming, it is expected that the flat tube with high Tape speed and thus can be produced very inexpensively. Besides, they are Investments in such production lines comparatively low, also because the parts are only slightly deformed and themselves the number and arrangement of roller rollers, by means of which the forming should be done, cost-effective let shape.

The Invention will now be referred to in various embodiments with reference on the attached Drawings briefly described. The description of the embodiments can show other key features and benefits.

The 1 shows in three individual representations a first inventive flat tube in cross section.

The 2 shows a second inventive flat tube in a situation in the course of production.

The 3 shows a flat tube with a known arrangement of parts a and b but with a part c (inner insert) whose longitudinal edges reinforce the narrow sides.

The 4 shows a preferred embodiment with a differently designed third part c. The 5 shows the in the 4 used indoor use and the 6 shows a section A from the 4 ,

The 7 shows another preferred flat tube with another indoor use and the 8th shows a section B from the 7 in the area of a narrow side. The 9 and 10 show a flat tube with a different interior use.

The in all figures, except the 3 , Illustrated embodiments represent with respect to the arrangement and connection of the two parts a and b, which form the wall of the flat tube, the preferred embodiments of the at least three-piece flat tube. There is the one connecting seam 3 in one broadside 2 of the flat tube and the other connection seam 3 is in the other broadside 2 arranged. Both seams 3 in the broadsides are relatively close to the narrow sides 1 arranged the flat tube and extend over it narrow sides 1 time. In any case, should the seams 3 closer to the narrow side 1 be arranged as the center of the flat tube or begin. This embodiment compensates tolerances that are present in the starting material in that each one of the longitudinal edges of the parts a and b has no stop on the other part. In the 1 and 4 were the mentioned longitudinal edges with the reference numerals 40a respectively. 40b marked. In contrast, in the embodiment according to 3 provided, both seams 3 in one and the same broadside 2 to be ordered or started, in the 3 in the lower broadside 2 , As can be understood, this has the lower part a at both longitudinal edges 4 the possibility of tolerance compensation, but the upper part b has no way to compensate for tolerances, because the two longitudinal edges 4 should each be at a gradation 10 of the other part a. Should the longitudinal edges 4 namely, there would be a disadvantage, which is that the connection of the flat tube, for example in an opening of a tube plate (not shown) would be impaired.

At least some of the parts a, b, c have a suitable solder coating, because It is intended to connect the parts a, b, c of the flat tube by means of soldering. (not shown) The parts a, b, c of the flat tube are made in the embodiment Made of aluminum sheet, which is provided as an endless strip material becomes. (not shown)

In the 1 and 3 such as 7 and 8th own the narrow sides 1 a threefold wall thickness. The wall thickness can be achieved by a corresponding number of folds of the longitudinal edges 9 of the third part c or of the interior insert are adapted to the needs of the individual case. As a result, so can the desired stability of the narrow sides 1 be achieved.

In the 1 became two possible formations of the curls 6 of part c (inside insert) indicated. All undulations 6 or wave flanks 6 can to the broadsides 2 be arranged inclined, as shown in the left area of the flat tube. Approximately in the middle of the flat tube, the second possible training was suggested, which is that always one wave flank 6 approximately perpendicular to the broadsides 2 stands and the subsequent wave edge is inclined. Because the curls 6 inside with the broadsides 2 are connected, the flat tube channels 7 on and the flat tube Therefore, despite the small wall thickness has a good internal pressure stability. The hydraulic diameter of the channels 7 can by appropriate training of the corrugations 6 be determined. It is relatively small, considering that the small diameter d ( 4 ) of the flat tubes can be about 0.8 mm and the number of corrugations 6 is relatively large.

It is the use of relatively small plate thicknesses provided, which are in the range of 0.03-0.15 mm or maximum to 0.25 mm. It will preferably be provided to use a smaller sheet thickness for the part e than for the parts a and b. Despite these low sheet thicknesses, both sides have narrow sides 1 the flat tube on a relatively good stability.

By changing the distance of the connecting seams 3 or gradation 10 from the narrow sides 1 can also be compensated or avoided an abrupt jump in thickness, which is often criticized for thermal reasons. Cracks in the pipes often occur (in the prior art) often near the narrow sides 1 on. For example, in the flat tube from the 1 or 3 is the distance e of gradation 10 from the narrow side 1 significantly larger than the flat ear in the 9 respectively. 10 ,

The Indian 7 - 10 intended for use indoor use e differs from in the 1 or 3 existing interior inserts c in that all wave flanks 6 approximately perpendicular to the two broadsides 2 stand. The parts a and b correspond to the embodiment of the 1 , The wave flanks are connected by flat sections, the inside with the broad sides 2 are soldered. Such types of slats or inner inserts c are often referred to as flat-top - lamella. In the wave flanks and in the flat sections in addition so-called wing lets 60 cut out or formed to increase the turbulence in the charge air. The wing lets 60 have been distributed at intervals over the entire length of the flat tube. The wing lets 60 can have quite different appropriate forms, although in the 10 only trapezoidal shapes are shown. The longitudinal edges 9 of the inner insert c according to the 7 and 8th have a gradation and an adjoining half round, which are the narrow sides 1 strengthened. The inner insert c according to the 9 and 10 ends already before the narrow sides 1 , The designs according to the 7 - 10 are therefore intended in particular for use for intercoolers.

The 4 . 5 and 6 relate to an embodiment in which - as already mentioned above - at least with respect to the arrangement of parts a and b, the preferred embodiment has been selected, which will be described in more detail below. The parts a and b are identical in their training but with "wrong" longitudinal edges 4 arranged to each other. That is, the one longitudinal edge 4 Parts a and b are graded 10 provided, to the one in the later narrow side 1 running smaller bow 11 connects and the other longitudinal edge is only one with the other later narrow side 1 forming larger bow 12 , (without gradation 10 ), which is suitable to the later flat tube the smaller arc 11 of the other part a and b respectively. In the 4 a part a or b was not drawn in the final state, in which the big bow 12 not finished yet. The term "bow" is not intended to mean that it can be anything but a semicircle, rather, the term "bow" means a suitable geometry to accomplish the purpose. From the 4 can be on the right narrow side 1 the already completed training will be taken. The Indian 4 even erect drawn longitudinal edge is folded, so afterwards both narrow sides 1 are finished. The one seam 3 comes in one broadside 2 to lie and the other seam 3 is in the other broadside 2 , however, close to the narrow sides 1 lie or immediately attach. As in the embodiment according to the 1 or 2 , each has a longitudinal edge 40a . 40b the parts a and b no stop and thus, as mentioned above, the possibility to compensate for tolerances in the sheet metal strip, whereby the edge trimming of the tape could become obsolete. Noteworthy is the design of the part c, the inner insert, not only because of its extremely thin sheet thickness of about 0.05 mm but also because of the design of the longitudinal edges 9 this part c. The design of the longitudinal edges 9 is from the 4 and 5 not clearly visible why in the 6 a zig-fold enlarged detail A is present. It can be seen that the longitudinal edges 9 have been folded several times. For example, if one wanted to provide a flat tube with a small dimension d of about 1.00 mm and a wall thickness of 0.15 mm for a cooling liquid cooler, the number would be close to the longitudinal edges 9 of the part c formed folds 15 at 10 lie, as its thickness is about 0.05 mm. The length dimension L of the folds 15 also needs to be only about 1.0 mm. As will be apparent to those skilled in the art, such flat tubes, despite their small wall thickness, have such stability in the narrow sides 1 that they should be able to cope even with extreme conditions of use.

In the 2 an inner insert c was selected whose longitudinal edges 9 though the narrow sides 1 from the inside, but not significantly reinforcing them. From this representation, the above-mentioned arrangement of the parts a and b to each other with "wrong" longitudinal edges 4 in the course of the assembly clearly recognizable and also the insertion of the part c is clear from it. In all embodiments at least a double wall thickness is in the narrow sides 1 before, since the longitudinal seams 3 over the narrow sides 1 extend. The execution according to the 2 offers itself, for example, where due to corrosion or other reasons, the parts a and b must be slightly thicker, for example, about 0.20 mm.

The 3 now makes it clear that the reinforcement of the narrow sides 1 the flat tube also has advantages where the parts a and b are arranged as in the prior art. Since there are problems in terms of tolerances may have disadvantages in the range of gradations 10 be accepted or otherwise eliminated.

The proposed flat tubes are of course not only for Kühlflüssigkeitkühler and Intercooler, for .... As well other applications, eg. B. for oil cooler, in particular in the automotive sector but also outside this area suitable.

Claims (17)

Flat tube for heat exchangers, with two narrow sides ( 1 ) and two broadsides ( 2 ), for example, for cooling liquid cooler or intercooler in motor vehicles, which consists of at least three parts (a, b, c), wherein two parts (a, b) for forming the wall of the flat tube with longitudinal seams ( 3 ) at a gradation ( 10 ) in the broadside ( 2 ) are connected to the wall and wherein the third part (c) is an inner insert in the flat tube and is fixed therein, characterized in that the inner insert (c) at least one of the narrow sides ( 1 ) strengthened. Flat tube for heat exchangers, with two narrow sides ( 1 ) and two broadsides ( 2 ), for example, for cooling liquid cooler or intercooler in motor vehicles, which consists of at least three parts (a, b, c), wherein two parts (a, b) for forming the wall of the flat tube with longitudinal seams ( 3 ) at a gradation ( 10 ) in the broadside ( 2 ) and the third part (c) is an inner insert in the flat tube and is fixed therein, characterized in that the wall forming two parts (a, b) are arranged so that the one longitudinal seam ( 3 ) in one broadside ( 2 ) and the other longitudinal seam ( 3 ) in the other broadside ( 2 ) of the flat tube is arranged, wherein one of the longitudinal edges ( 4 ) of the parts (a, b) at about the gradation ( 10 ) of the other part (a, b) and the other of the longitudinal edges ( 4 ) of the parts (a, b) runs freely inside the flat tube. Flat tube according to claims 1 or 2, characterized in that preferably both longitudinal edges ( 9 ) of the inner insert (c) are deformed so that they are inside on the narrow sides ( 1 ) and both narrow sides ( 1 ). Flat tube according to claim 1 or 2 or 3, characterized in that the thickness of each narrow side ( 1 ) equals at least the sum of the thickness of the three parts (a, b, c). Flat tube according to one of the preceding claims 1, characterized in that the thickness of the parts (a, b, c) of the flat tube 0.25 mm or less. Flat tube according to one of the preceding claims, characterized characterized in that the three parts (a, b, c) have the same thickness exhibit. Flat tube according to one of claims 1-5, characterized in that the parts forming the wall (a, b) have a thickness between approximately 0, 10 mm-0.25 mm and the thickness of the third Part (c) between about 0.03-0, 10 mm. Flat tube according to one of the preceding claims 1-4, characterized characterized in that the thickness dimension of each of the three parts (a, b, c) in the range of 0.03 mm-0.15 mm is located. Flat tube according to one of the preceding claims, characterized in that the longitudinal edges ( 9 ) of the inner insert (c) are folded one or more times. Flat tube according to one of the preceding claims, characterized in that the inner insert (c) with running in the transverse direction of the flat tube corrugations ( 6 ) is formed, the running in the longitudinal direction of the flat tube channels ( 7 ) form. Flat tube according to claim 10, characterized in that the corrugations ( 6 ) are preferably formed so that always a wave edge ( 6 ) approximately perpendicular to the broad sides ( 2 ) and the following wave edge ( 6 ) an inclination to the broadsides ( 2 ) having. Flat tube according to claim 10, characterized in that all wave flanks ( 6 ) approximately perpendicular to the broad sides ( 2 ), and that wing lets ( 60 ) can be arranged in the inner insert (c). Flat tube according to claim 1, characterized gekenn draws that both longitudinal seams ( 3 ) in one and the same broadside ( 2 ) are arranged. Flat tube according to one of the preceding claims, characterized in that the gradation ( 10 ) in the broadsides ( 2 ) closer to one of the narrow sides ( 1 ) is arranged as the center of the flat tube. Flat tube according to claim 2, characterized in that the parts (a, and b) are identical and the free longitudinal edges ( 40a . 40b ) in the interior of the flat tube in the region of the broad sides ( 2 ) lie. Flat tube according to claim 1, characterized that the parts (a and b) are identical or different are. Flat tube according to one of the preceding claims, characterized characterized in that the small dimension (d) of the flat tubes is approximately can be between 0.70 and 15 mm.