The invention relates to a heat exchanger, in particular a charge air cooler for motor vehicles, according to the preamble of patent claim 1—known from DE-A 198 57 435.
In known heat exchangers, the tubes through which a heat transfer medium flows open out into a tube plate which is conventionally connected to a collecting tank. The tube/plate connection is often of such a design that the tube plate has apertures which are formed as inwardly directed passages and into which the tubes are inserted and project beyond the passages in the inward direction. The tubes, often flat tubes, are soldered to the passages and/or to the plate. This tube/plate connection geometry is unfavorable in terms of flow for the inflow of the heat transfer medium from the collecting tank into the tube ends, in particular in charge air coolers, where the charge air has a relatively high flow speed. There is therefore the problem of a relatively high pressure drop in the inlet region of the tube ends. DE-A 198 57 435 has therefore proposed a so-called deflecting plate which is placed on the tube plate and covers the regions between the passages or tube ends. The deflecting plate has rounded-off profiles, so that the flow, that is to say the flow of charge air, is deflected and the pressure losses are reduced. Said deflecting plate is preferably produced from plastic, placed on the metallic tube plate, and held on the metallic tube plate by mechanical means. On account of the relatively high charge air temperature and the high flow speeds, this solution is not without its problems.
Another problem in heat exchangers of said type, in particular in charge air coolers having flat tubes, is that the corner regions and narrow sides of the flat tubes are subjected to particularly high loadings which result from the internal pressure within the collecting tank and the design of the tube plate. Said stress peaks in the region of the tube/plate connections can lead to cracks in the tube, that is to say to leakages from the heat exchanger. The applicant has therefore proposed, for coolant radiators, to reinforce the tube ends of flat tubes by means of clamping elements which can be inserted and can be soldered to the flat tube ends. Said clamping elements have four lateral limbs which are inserted into, and are soldered to, two adjacent flat tubes. Only two tubes, that is to say those which are subjected to the highest loading, in general the outermost tubes of the heat exchanger, are therefore reinforced by means of said clamping element. In addition, the throughflow cross-section of the coolant tube in question is considerably reduced, so that there is an increased pressure drop there.
It is an object of the present invention, for a heat exchanger of the type mentioned in the introduction, both to keep the pressure drop in the inlet region of the tubes low and also to reinforce the tube/plate connection in its critical regions.
Said object is achieved by means of the features of patent claim 1. According to the invention, a single integrated component is provided which both favorably influences the flow in the inlet region of the tubes and also reinforces the tube ends. Said component therefore fulfils two functions and can be assembled in a simple manner, that is to say in one working operation.
Advantageous embodiments of the invention emerge from the subclaims. According to a first embodiment of the invention, the integrated component is produced from a metallic material, in particular an aluminum material or an aluminum alloy, the reinforcing means being soldered to the flat tube ends. This results in a cohesive stiffening or reinforcement of the tube/plate connection, and the danger of crack formation is considerably reduced.
In a further advantageous embodiment of the invention, the integrated component with deflection and reinforcing means is produced from one sheet metal blank, that is to say advantageously by punching, stamping and edge bending. This brings about the advantage of low production costs without the two functions of flow deflection and tube reinforcement being adversely affected.
According to one advantageous embodiment of the invention, the integrated component has fingers or “prongs” in the manner of a rake which are inserted into the flat tubes in the region of their narrow sides. The fingers or prongs are connected to one another, that is to say from tube to tube, by means of longitudinal webs, which in turn are physically connected to one another by means of transverse webs, said transverse webs covering the regions between the narrow sides of the flat tubes and therefore acting as deflecting elements for the flow. Two adjacent transverse webs therefore in each case form a type of inlet funnel for one flat tube end. This results in a low pressure drop.
In a further advantageous embodiment of the invention, the integrated component extends over the entire tube plate, so that the inflow losses for each tube are reduced in equal measure, giving a relatively low pressure drop for the entire heat exchanger. At the same time, the tubes are reinforced by inserting the integrated fingers or “prongs”. The component can however also be designed in such a way that fingers are only provided for the critical tube/plate connections, for example the outermost tubes. This would avoid unnecessary reinforcement of non-vulnerable tubes, and would therefore save weight.
One exemplary embodiment of the invention is described in more detail in the following and is illustrated in the drawing, in which:
As already mentioned, the length of the integrated component, that is to say the number of transverse webs and fingers, is variable—it complies with the number of tube ends to be reinforced. The tube ends which are subjected to the highest loading are generally situated in the outer or outermost regions of the tube plate, so that an integrated component with, for example, three to five transverse webs would be sufficient. It is however likewise possible—if this is necessary on account of the loading of the tube plate—to cover the entire tube plate with one integrated component, so that one transverse web, which is favorable in terms of flow, is arranged in each case between two adjacent tube ends. If the tube plate is covered completely, the fingers in the central region of the integrated component can be removed, that is to say cut off during production, so that the central tubes which are subjected to less intense loading are not reinforced. The integrated component according to the invention can thus be of variable design and can be matched to the respective loadings of the charge air cooler or heat exchanger.
1 Integrated component
2 Transverse web
2
a Edge-bent face
2
b 180-degree edge-bent portion
2
c Edge-bent longitudinal side
3 Longitudinal web
4 Finger
4
a Finger tip
4
b Lateral limb
5 Charge air cooler
6 Flat tube
6
a Narrow side
6
b Tube end
7 Corrugated fin
8 Tube plate
9 Passage
10 Turbulence insert
11 Edge strip
12 Longitudinal slot
13 Channel
14 Charge air tank
15 Transverse bead
Number | Date | Country | Kind |
---|---|---|---|
103 54 382.1 | Nov 2003 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP04/12720 | 11/10/2004 | WO | 5/19/2006 |