DE102008006474A1 - All-metal heat exchanger, has inlet opening with region that is partitioned into cylinder orifice cross-sections, and guiding element feeding partial flows flowing through cylinder orifice cross-sections to groups of flat tubes - Google Patents

Abstract

The heat exchanger has a collecting tank comprising an inlet opening (10). Cooling fins are arranged between flat tubes, which are fluidically connected with the tank. A guiding element is arranged at a wall of the tank such that a medium i.e. coolant, flow entered over the inlet opening is segmented into partial flows (a-d). A region of the inlet opening is partitioned into cylinder orifice cross-sections (10a-10d). The guiding element feeds partial flows flowing through the cylinder orifice cross-sections to groups (20a-20d) of flat tubes.

Description

The The invention relates to a heat exchanger having an inlet opening comprising collecting tank, wherein the heat exchanger flat tubes and has cooling fins arranged between the flat tubes, wherein the flat tubes fluidly with the collecting box are connected, and wherein on a wall of the collecting box guide elements are arranged, which enters the entering through the inlet opening Split media stream into partial streams.

From the DE 203 07 881 U1 a heat exchanger is known which has the features listed in the introduction. The guide elements serve to reduce the pressure loss in the medium thus conducted. There, attached to the tube bottom first guide elements have been tailored to each individual flat tube end. These are, for example, inserts. However, there are in the local 1 , with the position 30 , Also arranged on the collecting box second guide elements have been shown, which, in a way, divide the entering into the collection box media stream into sub-streams. The partial flows are, however, reunited following these guide elements, ie in the direction of the tubesheet. The second vanes interact with the first vanes, but at the junctions between the first and second vanes, turbulence will occur which is not particularly conducive to reducing the pressure loss.

The The object of the invention is also to reduce the pressure loss. The solution according to the invention is with achieved a heat exchanger, which has all the features of claim 1.

Because According to the invention, the region of the inflow opening is divided into Einströmöffnungsquerschnitte, and because the guide element through the Einströmöffnungsquerschnitte flowing sub-streams assigned to them groups supplied by flat tubes, can be expected to further reduce the pressure loss or at least be suspected. Be turbulences of the medium from the inlet to the flat tubes clearer as suppressed in the prior art. The feature according to which the area of the inflow opening in Einströmöffnungsquerschnitte is divided, is to be understood that the division of the partial flows either directly in the inlet or can also be done after the same. Compared with that The prior art described at the beginning, for each single flat tube end provides guiding elements, seems the structural engineering Effort for the heat exchanger with the proposed Training groups of Flachroh ren, the ends not with guide elements have to be trained to have been lowered. On the two types of guiding elements described above are omitted here, which also makes an effort-reducing noticeable.

The Number and size of the groups and the corresponding ones Einströmöffnungsquerschnitte can constructively be determined appropriately. It will also thought to be removed from the inflow opening lying flat tubes supply the medium targeted, the means, the flow on all flat tubes or on all flat tube groups as evenly as possible to distribute, which is known to improve the heat exchange which, however, also causes the material stresses induced by high temperature differences could be positively influenced.

There the guide elements are attached to the collecting box, that is, they connect the two longitudinal walls of the collecting tank with each other, they reinforce the same against internal pressure. Further features of the invention are described in the dependent claims 2-13, which are considered as called at this point should be. The outlet opening of the collecting tank or the other header of the heat exchanger can in identical Way formed with vanes and with groups of flat tubes be like the collecting box with the inlet opening. The mentioned other features and others may important features and their advantages will be apparent from the following Description of embodiments with reference to the attached Drawings.

The 1 shows in a first embodiment, a heat exchanger part with a collecting box and a guide element therein.

The 2 shows an exploded view of a part according to 1 ,

The 3 . 4 and 5 show a modified embodiment

The 6a . 6b show a modified guide element.

The 7 and 8th show different divisions of cross sections and groups.

In the embodiments shown are heat exchangers, their collection boxes 1 made of metal, for example made of aluminum sheet, so that there is a whole-metal heat exchanger. Such all-metal heat exchangers are usually soldered in the course of their manufacture in a CAB soldering oven. On Ganz metal heat exchanger, the proposal according to the invention, however, is not limited. Rather, it also includes such frequently encountered Heat exchangers, their collection boxes 1 including the floor slabs 3 made of plastic, in which case the guide element 30 also made of plastic. However, the floor panels - if any - can also be made of metal. The rest of the heat exchanger - so the flat tubes 2 and the cooling fins - is expediently always made of metal.

In the accompanying drawings, with respect to the heat exchangers, only one side thereof, that is, a collecting box 1 and a portion of the subsequent cooling network shown. At the other end of the cooling system or the flat tubes, not shown 2 can be an identical collection box 1 with an outlet opening.

However, the collection box, not shown, may also be a deflection box, in which case the flowing in the pipes means in some tubes of the cooling system flows through a way to the deflection box and in the other tubes a return path to the collection box. In this case, the collection box shown would be 1 divided into an inlet part and an outlet part, wherein the outlet opening would be located at the outlet part. Such heat exchanger designs are well known and offer the use of the proposed advantages. They were therefore also not shown in the drawing.

Back to the embodiments shown. The flat tubes 2 and cooling fins (not shown) are merged in a known manner to a cooling network. In the embodiments, only a series of flat tubes 2 available. In the depth direction of the cooling network and a plurality of flat tube rows could be arranged one behind the other. At the opposite flat tube ends are tube holder 3 provided, which are then attached to the flat tube ends. The flat tube ends extend laterally slightly over the two longitudinal edges of the tube holder 3 out. (Got over 25 . 5 ) The pipe holders 3 put the bottom plate at the same time 3 of the collecting tank 1 dar. The collection box 1 points to its two longitudinal walls 12 arranged projections 15 on. The distances of the projections 15 correspond to the distances of the flat tubes 2 in the cooling network, so every projection 15 can be inserted into a corresponding flat tube end. Like the characters, in particular 5 , to show this, are the longitudinal walls 12 from the outside to the longitudinal edges of the tube holder 3 set, with the projections 15 in the range of the mentioned supernatants 25 can be inserted into the flat tube ends.

The collection box 1 has an inlet opening 10 on, for example, through the compressed air to be cooled, such as charge air, or even, for example, a cooling liquid, and flow on the flat tubes 2 in which it is cooled by means of flowing through the ribs cooling air. As a coolant, a liquid medium could also be used.

In the embodiments according to the 1 - 6 became the entrance opening 10 by means of the guide element 30 in four approximately equal inflow opening cross sections 10a . 10b . 10c , and 10d divided up. This is the guiding element 30 arranged in the form of a cross whose center is approximately at the center of the inflow opening 10 flees. The aforementioned cross was formed in the embodiment, characterized in that the two sheet metal parts 30.1 and 30.2 of the guiding element 30 a slot extending to about half its width 31 have to in the manner of a plug-in construction in the slots 31 be plugged together or inserted into each other. This will keep the sheet metal parts 30.1 . 30.2 each other, and they also hold their position in the collection box 1 to be connected in the course of the mentioned soldering process. In the embodiment according to the 1 and 2 the positional position is further supported by the fact that the one sheet metal part 30.1 of the guiding element 30 into the entrance opening 10 extends into it. The second sheet metal part 30.2 however, begins only after the entrance opening 10 , This then leads, so to speak, directly into the inlet 10 initially two partial flows arise and immediately following the inlet opening 10 arise from the two sub-streams four streams. In the same is a nozzle 40 for connection of a coupling, not shown. The stub 40 also has a slot 41 in connection with the first sheet metal part 30.1 is to secure a position for the neck 40 to ensure. ( 2 )

Because of the mentioned soldering, the edges of the guide element 30 for example, by a fold 33 so widened that can be expected with good soldering results, which does not depend on dense but durable connection, because the guiding elements 30 then can the resistance of the collecting tank 1 improve against internal pressure. The guiding element 30 is further designed so that from each inlet opening cross-section 10a . 10b . 10c and 10d a possible obstacle-poor or trouble-free flow path for each sub-stream a, b, c, d to one group 20a . 20b . 20c . 20d of flat tubes 2 is trained. ( 1 or 3 ) The boundaries of the groups 20 be through the Leitele ment 30 established. Every group 20 consists of several adjacent flat tubes 2 , All groups 20 this embodiment have about the same size or at least about the same number of flat tubes. In the embodiment shown are about 8-10 flat tubes 2 per group 20 available.

The number of groups 20a . 20b . 20c . 20d (four) of flat tubes 2 accordingly agrees with the number of partial flows a, b, c, d (four). In the 1 and 3 became the collecting box 1 drawn partially broken and the individual partial flows a, b, c, d were in the 3 indicated by arrows with different lines. The affiliation of the partial flows to the groups 20 it is also recognizable. The individual groups 20 were indicated by curly brackets. The ends of the flat tubes 2 in the groups 20 do not protrude as much as possible into the collection box 1 but preferably end at about the level of the soil 3 of the collecting tank 1 , which also serves to reduce the pressure loss.

In the embodiment according to the 1 and 2 becomes the guiding element 30 as an item in the collection box 1 used. In contrast, in the embodiment according to the 3 - 5 the one part 30.2 of the guiding element 30 as part of the bottom plate 2 educated. The reference number 32 denotes webs as a connection between the bottom plate 3 and the Leitelementteil 30.2 , The guiding element 30 and thus also the division of the partial flows a, b, c, d begins in this embodiment immediately after the inlet opening 10 ,

In the 6a and 6b This version is shown in a slightly modified form in two perspective views. It is a stamped and formed sheet metal part. In the jetties 32 can be positioning aids in the form of additional slots 33 . 34 are located.

The Einströmöffnungsquerschnitte 10 and the groups assigned to them 20 can, in contrast to the previously described embodiments, also have different sizes. Also the number of groups 20 and the opening cross-sections can be adapted to the requirements of the individual case constructively. This is on the 7 made aware where only three opening cross sections 10a . 10b . 10c There are three groups 20 cooperate. The cross section 10c can be larger than the other cross sections 10a respectively. 10b ,

Finally, the shows 8th an embodiment with six opening cross-sections 10a - 10f and groups 20 , The person skilled in the art will come up with further variants, not shown, based on the proposed basic idea. Intersecting components of the guide 30 are not always necessary for the division of the cross sections, even if the embodiments shown provide such.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - DE 20307881 U1 [0002]

Claims (13)

Heat exchanger with an inlet ( 10 ) collecting box ( 1 ), wherein the heat exchanger flat tubes ( 2 ) and between the flat tubes ( 2 ) arranged cooling ribs, wherein the flat tubes ( 2 ) fluidically with the collecting box ( 1 ) and where on a wall ( 12 ) of the collecting tank ( 1 ) a guiding element ( 30 ) which is arranged through the inlet opening ( 10 ) dividing media stream into partial streams (a, b, c), characterized in that the region of the inflow opening ( 10 ) in Einströmöffnungsquerschnitte ( 10a . 10b . 10c ), and that the guiding element ( 30 ) through the Einströmöffnungsquerschnitte ( 10a . 10b . 10c ) flowing substreams (a, b, c) the same associated groups ( 20a . 20b . 20c ) of flat tubes ( 2 ) feeds. Heat exchanger according to claim 1, characterized in that each group consists of several adjacent flat tubes ( 2 ) consists. Heat exchanger according to claim 1 or 2, characterized in that the number of groups ( 20a . 20b . 20c ) of flat tubes ( 2 ) preferably coincides with the number of substreams, Heat exchanger according to claim 1, characterized in that that all Einströmöffnungsquerschnitte about the same size. Heat exchanger according to claim 1, characterized in that that the Einströmöffnungsquerschnitte different Have sizes. Heat exchanger according to one of the preceding claims, characterized in that the guide element ( 30 ) continuously from about the inlet opening ( 10 ) up to the limits of the groups of flat tubes ( 2 ) is trained. Heat exchanger according to one of the preceding claims, characterized in that through the guide element ( 30 ) both the inlet opening cross-sections are fixed and the partial flows to the groups ( 20a . 20b . 20c ) are conductive. Heat exchanger according to one of the preceding claims, characterized in that the guide element ( 30 ) two opposite longitudinal walls ( 12 ) of the collecting tank ( 1 ) and thus the collection box ( 1 ) stabilized to internal pressure. Heat exchanger according to one of the preceding claims, characterized in that the guide element ( 30 ) is brought from about the inflow opening to the limits of the groups of flat tubes, so that the partial streams are substantially separated from each other fed to the individual groups. Heat exchanger according to one of the preceding claims, characterized in that the ends of the flat tubes in the groups as far as possible not substantially in the collecting box ( 1 protrude but preferably at about the level of the soil ( 3 ) of the collecting tank ( 1 ) end up. Heat exchanger according to one of the preceding claims, characterized in that the guide element ( 30 ) either with the bottom plate ( 3 ) or is not connected to it. Heat exchanger according to one of the preceding claims, characterized in that the guide element ( 30 ), for example, from individual, zusammensteckbaren, deformed sheets ( 30.1 . 30.2 ) consists. Heat exchanger according to one of the preceding claims, characterized in that the guide element ( 30 ) are integrally formed with the bottom plate.