DE102006035209A1 - Corrugated rib i.e. flat top fins, for heat exchanger, has bending edge formed in such manner that adjusted resilience is reduced during bending, and crests and troughs that are made soft so that crests and troughs are drawn back - Google Patents

Abstract

The rib has a bending edge (10) exhibiting inclined or easily bent wave flanks (1), which are arranged between two flat pipes in a heat exchanger network, where the wave flanks are equipped with sections (5). The bending edge is formed in such a manner that an adjusted resilience is reduced during bending. Wave crests (2) and/or wave troughs (3) are made soft, so that the crests and troughs are drawn back during formation of the heat exchanger network.

Description

The The invention relates to a corrugated fin with wave crests or troughs and with it following, a bending edge having vertical or slightly inclined wave flanks, each arranged between two flat tubes in a heat exchanger, wherein the wave flanks equipped with cut out of their planes are. Furthermore, a heat exchanger is described, which has the corrugated ribs.

A corrugated rib of this type is described in the older, not yet published patent application with the no. DE 10-2006 000 634.8 shown and described. The enclosed 9 shows this still internal state of the art.

Such Corrugated ribs are sometimes referred to as "flat top fins" because she in Unlike other corrugated ribs - about flat (flat) wave crests or troughs have. The mentioned other corrugated ribs have about semicircular Wave mountains and troughs, the wave flanks usually there also a slightly larger inclination exhibit.

Flat Top fins are often used because they have good heat conducting solder joints between the wave crests or troughs and an adjacent one Pipe wall to be considered more effective than the corrugated fins with rounded Wave mountains or troughs. Good heat-conducting Of course, connections have a significant impact on the heat exchange efficiency between a flowing in the pipes Medium and flowing through the corrugated medium, which preferably cooling air is.

As also in the mentioned older one Registration is shown, it is for an excellent heat exchange efficiency of the heat exchanger network of enormous importance that as possible the entire height the wave flanks with exposed out of the planes of the wave flanks Is designed for cuts provide correspondingly good turbulence, for example in the cooling air. Corrugated ribs become thin Made of metal sheets, for example made of aluminum sheets. Metal sheets are known to have the property of being used in training a bend a certain springback occurs, so that the above as flat-top-fin designated training is not really flat wave crests and wave troughs, but always still slightly rounded. Such gently rounded wave mountains and Cause wave troughs, that the distance from a pipe wall to the beginning of the cuts is slightly larger in the wave flanks when he should be. The same applies of course to the pipe wall of the adjacent Pipe or for their distance to the beginning of the cuts, since such corrugated fins usually between two flat tubes are arranged. Although these are distances, their degree clearly smaller than 1 mm, a larger distance has a performance-reducing effect out. This was at least through comparative measurements, which the Applicant performed has, having established measurement results between corrugated ribs the prior art and the proposed below corrugated fins faced were.

you could when soldering of the heat exchanger network try, with a certain exercise of force, the corrugated fins narrower to squeeze with the pipes, to level the slightly rounded wave crests / troughs. This is something however at the latest then no longer cheap, in the case of pipes and ribs in the thickness range of 0,03 mm to 0.15 mm or just slightly above or below, because the mentioned Force the pipes and / or ribs could deform. The The object of the invention is to use the power Length of To further increase cuts in the corrugation flanks and thus the heat exchange efficiency a heat exchanger continue to improve.

These The object is achieved by the Features in claim 1 solved. It is envisaged that the bending edges mentioned in the preamble of claim 1 so weakened are formed that the self-adjusting in the bending springback is reduced, or that lying between two bending edges Wave peaks / troughs are so soft that they when assembling the heat exchanger network are flat or become. This then results in the solution of Issue position, because the beginning of the cuts are even closer to the respective pipe wall comes to rest. There can hardly then still a harmful Set bypass.

It is possible, the reduction of springback or the desired one To achieve softness in that the bending edges by means of dilution lines dilute are formed.

It can be provided that the dilution lines either on the entire bending edge continuously or with interruptions in between are formed.

It is also or alternatively possible that in the bending edges lying incisions are provided.

It is beneficial if the incisions are not cut through Connections are interrupted.

Another training looks to the sub In order to reduce the springback, the wave crests and / or troughs lying between two bending edges are provided with further dilution lines.

The thinning lines should then preferably run in parallel.

If with the proposed measures the rebound as such is not reduced, so at least one results such softness of the wave crests / troughs that when assembling the heat exchanger network the same by means of a very small force, the pipes and the Ribs can not be deformed, pressed flat.

It can for different applications make sense, the proposed here Measures with to combine the aforementioned internal state of the art. There incisions were made perpendicular to the bending edges and the part between two incisions has been bent inwards, to constrict the channel between two corrugation flanks, and thereby also the heat exchange to improve. For example, in such embodiments in the inner bending edges and the dilution lines proposed here provide.

Of the heat exchangers should have corrugated ribs, at least the features of the claim 1 own. The sheet thickness of the corrugated fins is between 0.02 and 0.09 mm. The wall thickness of the flat tubes can be between 0.05 and 0.15 mm, also a little more.

The The invention will be apparent from the attached drawings in several embodiments described. From the following description, further features and their Benefits that are significant at a later stage of the audit can turn out.

The 1 shows a piece of a proposed corrugated fin.

The 2 shows an enlarged section of it.

The 3 shows an embodiment with dilution lines that have breaks.

The 4 shows an embodiment with cuts in the bending edges.

The 5 shows a further development of 4 ,

The 6 and 7 show a dilution line instead of the incisions.

The 8th shows an embodiment of the still internal prior art.

The 9 shows a part of a heat exchanger.

Every wave mountain 2 and every wave trough 3 has two bending edges 10 , in the places where the wave mountains 2 or the troughs 3 into the ripples 1 pass. The wave mountains 2 and the troughs 3 are essentially flat. The adjoining undulations 1 are in the illustrated embodiments according to the 1 . 2 and 8th slightly inclined. You can also stand vertically, like the 3 - 7 demonstrate. In the ripples 1 are cuts out of their planes 5 arranged as long as possible, so they go right up to the bending edges 10 approach. The bending edges 10 are designed so weakened that either the bending occurring in the springback is reduced, or that the wave crests / troughs 2 . 3 which are what they give in the composition of the heat exchanger network. This is in particular on the 2 made aware that a much enlarged representation in the area of a wave mountain 2 or a wave trough 3 shows. The 1 and 2 belong to an embodiment in which was provided dilution lines 15 (Bending notches) in the two bending edges 10 and also in the trough 2 or wave mountain 3 between the two bending edges 10 training (relief notches). As a result, the mentioned softness is created in the 2 should be shown with dH between two horizontal guides. Reference character dH indicates the area around which each wave crest 2 and every wave trough 3 when assembling flat tubes and corrugated fins is so to speak yielding and is substantially flat, can rest on the flat tube to allow perfect, even larger, solder joints between corrugated fins and pipes. So, in other words, in the assembled state is the wave crest / wave trough 2 . 3 according to the 2 approximately at the level of the lower auxiliary line. It is also clear from this representation that then the distance between the lying at the level of the lower auxiliary line pipe wall to the beginning of the cuts 5 is to be shortened, which is reflected in an improvement of the heat exchange. As a result, the height H of the corrugated fin is shortened, which in the 1 was drawn.

The dilution lines 15 in the bending edges 10 are designed as bending notches, which may differ from the other notches (relief notches). The bending notches and the relief notches can therefore be configured differently in, for example, depth and shape to the be described intended effects even better.

In the production of corrugated ribs on rolls of endless metal strip are known in the longitudinal direction of the metal strip, the cuts 5 which will be issued afterwards. In the transverse direction of the tape, the proposed dilution lines 15 also formed by means of the rollers. In embodiments which are briefly described below, instead of the dilution lines 15 cuts 20 provided, which should then also run in the transverse direction of the sheet metal strip.

The 3 shows, unlike the 1 and 2 that it is possible the dilution lines 15 to interrupt. They are spaced interruptions 16 available. Such designs ensure a little more stability.

In the 4 become the ones in the bending edges 10 lying dilution lines 15 through cuts 20 replaced. The cuts 20 , which need not be cutouts but only slots, are again by means of webs 21 interrupted. The incision length and the bridge length can be set individually, as a comparison of the 4 with the 5 shows. In the production of bending edges 10 then become the edges of the cuts 20 something exhibited, as the figures can also show.

The like is in the embodiments according to the 6 and 7 determine where in the bending edges 10 a continuous or an intermittent dilution line 15 (Biegekerbe) was provided. On the in the wave mountains / troughs 2 . 3 ongoing further dilution lines 15 (Relief scores) was here - unlike the 1 and 2 - omitted.

The 8th now shows an embodiment of the currently still internal state of the art. It is easy to imagine that you are here in the bending edges 10 for example, a dilution line 15 could provide. Otherwise, in this embodiment, over the bending edges 10 running pairs of incisions 30 intended. The game 40 , each between a pair of incisions 30 lying, has been transformed inward to the bypass in the area of wave peaks / troughs 2 . 3 to reduce.

Since the stability of the corrugated ribs decreases due to the proposed measures, in particular their inclination to buckling could increase, it is also proposed here to provide the corrugations of the corrugated fin with a slight inclination or inclined position to the tube longitudinal direction, which is shown in the illustration 9 should emerge. Normally, the corrugations run vertically (without inclination) to the tube longitudinal axis. The force that causes the buckling of the corrugated ribs also runs in the tube longitudinal direction. You can see it in the 9 one of the header boxes SK of the heat exchanger and a flat side of the heat exchanger tube, where the proposed corrugated fins are located. The corrugated rib is as a cut through the flanks 1 shown in which the exposed cuts 5 are located. The oblique course should the mentioned inclination of the corrugations or flanks 1 make clear to the pipe axis. In addition, "oblique" corrugated fins also have advantages in terms of heat exchange.

Between The corrugated fins and pipes is a metallic compound, such as z. B. a solder joint available. (not shown) For example, the coolant flows through the tubes a motor vehicle engine and through the corrugated fins flows cooling air, what about the eye-catching Block arrow was displayed.

Claims (11)

Corrugated rib with crests ( 2 ) and troughs ( 3 ) and adjoining, a bending edge ( 10 ) having vertical or slightly inclined wavy edges ( 1 ), which are each arranged between two flat tubes in a heat exchanger network, wherein the wave flanks ( 1 ) with sections exposed from their planes ( 5 ), characterized in that the bending edges ( 10 ) are designed so weakened that either the bending occurring in the springback is reduced, and / or that the wave crests / troughs ( 2 . 3 ) are so soft that they give way in the composition of the heat exchanger network. Corrugated rib according to claim 1, characterized in that the bending edges ( 10 ) with dilution lines ( 15 ) are formed. Corrugated rib according to claim 1, characterized in that in the bending edges ( 10 ) incisions ( 20 ) are provided. Corrugated rib according to claim 3, characterized in that the cuts ( 20 ) by uncut connections ( 21 ) are interrupted. Corrugated rib according to claim 2, characterized in that the dilution lines ( 15 ) either over the entire bending edge ( 10 ) continuously or intermittently ( 16 ) are formed therebetween. Corrugated rib according to one of the preceding An claims, characterized in that between two bending edges ( 10 ) wave crests and / or troughs ( 2 . 3 ) with dilution lines ( 15 ) are equipped. Corrugated rib according to claim 6, characterized in that the dilution lines ( 15 ) preferably run parallel. Corrugated rib according to one of the preceding claims, that perpendicular to the bending edges ( 10 ) lying pairs of incisions ( 30 ) which can be provided between a pair of incisions ( 30 ) lying lot ( 40 ) is folded inwards. Corrugated rib according to one of the preceding claims, characterized in that the corrugation flanks ( 1 ) may have an inclination to the longitudinal axis of the flat tubes. Heat exchanger, with a heat exchanger network from flat tubes and corrugated ribs, characterized in that the Corrugated ribs are formed according to one of the preceding claims. heat exchangers according to claim 10, characterized in that the corrugated fins a Sheet thickness between 0.02 and 0.09 mm and that the flat tubes a wall thickness of 0.05-0.20 mm own.