DE19757034A1 - Heat exchanger - Google Patents

Abstract

The heat exchanger has bottom plates (3) for two opposite collecting channels, and flat tubes (4) perpendicular to the bottom plates, fixed to them and linking the collecting channels via holes in them. In the case of at least one channel, the flat tubes communicate with it via an opening (13) with an end (11) defined by a boundary (14). Facing regions of the boundaries of adjacent openings are against each other in the plane containing the opening ends.

Description

The invention relates to a heat exchanger, in particular a charge air cooler, with the features of the preamble of claim 1.

To achieve an increase in performance of an internal combustion engine, the air to be supplied to the combustion, for example with a turbocharger be compressed before entering the combustion chambers of the internal combustion engine is fed. The compression of the air, however, brings a he substantial warming of the same with itself, for an optimal course of the Combustion process is disadvantageous; for example, a premature ignition or increased nitrogen oxide emissions. To avoid the adverse consequences of overheating supplied by combustion Avoiding air is designed as a charge air cooler for a turbocharger ter heat exchanger of the type mentioned, with which the compressed air before it burns to a permissible temperature can be cooled.

In a heat exchanger of the type mentioned, the hot air is in initiated a first collecting duct of the heat exchanger, where they are distributed and flows into flat tubes that open into the collecting channel. As In the present case, "flat tubes" are tubes that refer to one have a rectangular cross section in which the ratio of the long Pages to the short pages is relatively large. The flat tubes are next to each other  other, and with the beings containing the long sides of their cross section arranged parallel to each other and form a flow path through which cooling air is passed. In the flow path are between The flat tubes are arranged between the cooling fins, which provide effective heat exchange between the flat tubes and the cooling air flow ken. So-called turbulators are usually installed in the flat tubes orders, which force a turbulent flow in the flat tubes, what an effective heat exchange between the air to be cooled and the flat tubes is advantageous. After crossing the cooling air The flat tubes flow into a second collecting duct, which connects the cooled, compressed charge air of the combustion in Motor feeds.

The flow through such an air / air heat exchanger is one considerable pressure loss, a large part of this Druckver fun for the flow through the flat provided with the turbulators pipes is necessary in order to achieve the most efficient heat exchange possible hold. The pressure drop across the charge air cooler, which is used to achieve a ge desired increase in performance of the internal combustion engine by a he high charge air pressure is just tolerable, correlates with that in the charge air cooler achievable cooling of the charge air. That means: the bigger the permissible pressure drop available for the charge air cooler is, the greater the cooling that can be achieved with an intercooler charge air. An improvement in charge air cooling will help achieved for example by longer flat tubes, which in turn corresponds to one appropriate increase in flow resistance and thus the above Intercooler pressure loss takes place.

The present invention addresses the problem of one Heat exchanger of the type mentioned in the flow through the To reduce heat exchanger occurring pressure loss.

According to the invention, this problem is solved by a heat exchanger with the Features of claim 1 solved.  

The invention is based on the general idea of flow loss in the transition area between the flat tubes and the header tubes to reduce in which these transition areas with regard to favorable currents rerouting conditions are designed. One in this area of the heat exchanger reduced pressure loss can, for example, in loading range of flat tubes can be used for improved cooling. The the solution proposed for this purpose creates one in the respective collecting channel Transitional area between the collecting duct and the flat tubes, the a substantially flat, facing the interior of the collecting channel Surface without interference contours, in which the mouths or Mouth areas of the flat tubes are integrated. At the same time, the improved flow conditions the flow rate in each sparse manifold reduces what an additional decrease in pressure results in losses.

In a preferred embodiment of the heat rope according to the invention The mouths can be cut through one from the inside of the Sam facing the channel, chamfer the respective recess in the base plate Send collar be formed, with the respective flat tube in the collar is insertable or attachable to the collar. With the help of this suggestion is the area in which the flat tubes on the bottom plate of the collector box nals can be attached, arranged outside the collecting channel and can consequently in the flow through the interior of the collecting duct no interference contour for form the flow.

According to an advantageous embodiment of the invention The heat exchanger can surround the ends of the mouth openings Form the base plate of the collecting duct. This measure means that none additional components must be arranged in the heat exchanger, so that the desired, advantageous flow conditions without allow additional overhead to be achieved.

Particularly advantageous flow conditions with low pressure drops arise when the collar extends towards the collecting duct enlarging opening cross-section. For example, the  Muzzle area from the mouth opening end to the corresponding one Flat tube end funnel in a section in the longitudinal direction of the collecting duct shaped or bell-shaped, with a continuous, rounded The transition without edges is particularly preferred.

To simplify the assembly of the heat exchanger, everyone can Provide the collar with a chamfer at its end facing the flat tube be, which facilitates the attachment of the flat tube to the respective collar.

According to another embodiment of the invention Heat exchangers can the mouths of the flat tubes in the collecting duct each through a through the recess in the base plate be formed end portion of the flat tube, which is expanded such that at least the areas of adjacent widenings facing each other adjoin each other and there the border of the mouth opening end form. This proposal enables the use of conventional sam Melkanäle with usual base plate, with only longer flat tubes ver be turned through the recesses of the base plate into the interior of the collecting duct protruding from the base plate. Due to the subsequent expansion of the inside of the Sam Melkanals protruding ends of the flat tubes can be parallel to the Bo denplatte extending surface are formed, at least in the loading range of contiguous expansion essentially no sturgeon has contours.

Further features and advantages result from the dependent claims, the Drawings and from the following description of a preferred Embodiment with reference to the drawings.

It shows, respectively matic,

Fig. 1 shows a longitudinal section through a heat exchanger according to the invention,

Fig. 2 is a detail view in longitudinal section of the transition area between the pipes and a collection channel the flat in an inventive heat exchanger,

Fig. 3 is a detailed view as in Fig. 2, but in an embodiment with a particularly advantageously designed transition area, and

Fig. 4 is a detailed view in longitudinal section of the transition area between the collecting duct and flat tubes in egg ner another embodiment of the heat exchanger according to the invention.

According to Fig. 1, a heat exchanger 1 according to the invention on two opposite collecting channels 2. Each of the collecting channels 2 is provided on one side with an essentially flat base plate 3 . The collecting channels 2 are arranged on the heat exchanger 1 so that their bottom plates 3 face each other and run parallel to each other ver. Between the collecting channels 2 or between their base plates 3 , perpendicular to the base plates 3 , adjacent, parallel flat tubes 4 are arranged, the ends of which penetrate the base plates 3 in recesses 5 provided for this purpose and thereby connect the collecting channels 2 to one another in a communicating manner. Between adjacent flat tubes 4 , cooling fins 6 are attached, which are embodied in a zigzag shape in the exemplary embodiment. The flat tubes 4 are z. B. attached by soldering to the collecting channels 2 or the bottom plates 3 .

When the heat exchanger 1 as an air / air heat exchanger is formed, enters air to be cooled by, for example, corresponding to FIG. 1 in obe ren collecting channel 2 provided inlet opening 7 in an interior 8 of the upper collecting duct 2 a. The hot air is distributed in the interior 8 and enters the flat tubes 4 , flows through them, the cooling taking place, and at the other ends in turn enters an interior 8 of the other, lower collecting duct 2 . The lower collecting duct 2 contains an outlet opening 9 through which the air, which has meanwhile been cooled, corresponds to the consumer, for. B. the combustion chambers of the engine.

The cooling of the air in the area of the flat tubes 4 takes place in the usual way. The flat tubes 4 with the cooling ribs 6 arranged therebetween are exposed to a cooling air flow. The heat energy contained in the air flowing through the flat tubes 4 is transferred to the flat tubes 4 and from these to the cooling fins 6 and finally to the cooling air flow. In order to improve the heat exchange between the air to be cooled and the flat tubes 4 , so-called "turbulators" are arranged in the flat tubes to achieve a turbulent flow that is advantageous for a heat exchange. Such a turbulent flow, however, results in a relatively high pressure drop. Since, in particular in a heat exchanger 1 used as charge air cooler, the pressure in the air discharged through the outlet opening 9 should have the highest possible value in order to be able to achieve a desired increase in performance on the engine, only a certain pressure drop is permissible when flowing through the heat exchanger 1 . As a result, for example, the length of the flat tubes 4 and thus the cooling which can be achieved in the heat exchanger 1 is limited to the air flowing through them.

Further flow losses and consequently pressure losses occur in the transition areas between the collecting channels 2 and the flat tubes 4 , but the losses when flowing into the flat tubes 4 are considerably greater than the losses when leaving the flat tubes 4 . The flow losses in the transition areas mentioned - so-called running losses - arise essentially in connection with the deflection taking place there, the flow essentially running in the longitudinal direction of the collecting channels 2 into the transverse flat tubes 4 .

In the view corresponding to FIG. 2, only a small area of the bottom plate 3 is shown, only two flat tubes 4 with cooling fins 6 arranged therebetween being reproduced.

To the flow losses in these redirecting and transition regions between the collecting channel 2 and the flat tubes 4 to be reduced 2 to the interior space 8 of the collecting channel 2 facing surface of the bottom plate 3 is shown in FIG. Configured such that it has almost no interference contours. In order to produce a transition area between the interior 8 of the collecting duct 2 and the flat tubes 4 which is as "gentle" as possible, the recesses 5 of the base plate 3 in the form of protuberances are provided on the outside facing away from the interior 8 with the recesses 5 enclosing collar 10 . In this collar 10 , the flat tubes 4 are inserted, the flat tubes 4 do not protrude into the interior 8 , but each before, still in the collar 10 or in the savings 5 end.

In order to facilitate the introduction of the flat tubes 4 into the collars 10 or into the recesses 5 , the collars are provided with a corresponding chamfer 12 at their free end facing the respective flat tube 4 .

The corresponding to FIG. 2 formed transition regions between the flat tubes 4 and the collecting duct 2 form respective mouth regions or openings 13, the cavity 8 facing the Mündungsöff voltage end 11 is in each case bordered by a skirt 14. In this case, the borders 14 of adjacent mouths 13 adjoin one another in the plane in which the mouth ends 11 are also located, in order to form a surface facing the interior space 8 which has no interference contours.

In addition, the collar 10 or the recess 5 bordered therefrom is provided in the region adjacent to the end of the flat tube 4 inserted therein with a cross section which widens in the direction of the interior 8 .

This cross-sectional widening can, according to a preferred embodiment shown in FIG. 3, be significantly more pronounced than in the example shown in FIG. 2 and preferably be designed such that the wall region running in the longitudinal direction of the flat tube 4 is continuous, without an edge, in particular bell-shaped. or funnel-shaped, with a gentle rounding into the transverse bottom plate 3 . A particularly low-resistance deflection of the flow can thereby be achieved.

In the exemplary embodiments corresponding to FIGS. 2 and 3, the adjoining surrounds 14 form the base plate 3 of the Sam melkanals 2 , whereby these variants are particularly easy to implement.

In another embodiment, corresponding to FIG. 4, the flat tubes 4 are lead through the recesses 5 of the bottom plate 3 into the collecting channel is 2, project into the interior of 8 to them. Subsequently, the free ends of the flat tubes 4 are funnel-like or bell-shaped until they touch at least one facing areas where they, for. B. can be attached to each other by soldering. Also in this embodiment, the interior 8 facing Mün opening ends 11 are each surrounded by a surround 14 . These borders 14 are formed by the widened free end of the flat tubes 4 . Due to the proposed embodiment, in which the mounts 14 in turn adjoin one another in the plane holding the mouth opening ends 11 , a surface facing the interior 8 of the collecting duct 2 is also formed, which has no interference contours at least in these areas.

Claims (10)

1. heat exchanger, in particular intercooler, with two mutually oppositely arranged collecting channels, each having a Bo denplatte, the bottom plates run parallel to each other and are arranged facing each other, and with side by side, parallel to each other and perpendicular to the bottom plates on ordered flat tubes, which are attached to the base plates and connect the Sam melkanäle communicating through recesses provided in the base plates, characterized in that at least in one of the collecting channels ( 2 ) the flat tubes ( 4 ) with this collecting channel ( 2 ) each via an opening ( 13 ) com munieren, each having an interior ( 8 ) of the collecting channel ( 2 ) facing, defined by a bezel ( 14 ) mouth opening end ( 11 ), with at least mutually facing areas of bezels ( 14 ) of adjacent mouths ( 13 ) in one Bring the plane containing the mouth opening ends ( 11 ) together Zen. 2. Heat exchanger according to claim 1, characterized in that the orifices ( 13 ) have an opening cross-section which increases in the direction of the interior ( 8 ) of the collecting duct ( 2 ). 3. Heat exchanger according to claim 2, characterized in that a mouth region having the enlarging opening cross section is rounded and continuously, in particular funnel-shaped or bell-shaped, passes into the mouth opening end ( 11 ). 4. Heat exchanger according to one of the preceding claims, characterized in that the surrounds ( 14 ) of the mouth opening ends ( 11 ) form the Bo denplatte ( 3 ) of the collecting channel ( 2 ). 5. Heat exchanger according to one of the preceding claims, characterized in that the mouths ( 13 ) each one from the inside ( 8 ) of the Sam melkanals ( 2 ) directed away, the respective recess ( 5 ) of the Bo denplatte ( 3 ) bordering collar ( 10 ) contains, the respective flat tube ( 4 ) can be inserted into the collar ( 10 ) or onto the collar ( 10 ). 6. Heat exchanger according to claim 5, characterized in that a in the collar ( 10 ) inserted flat tube ( 4 ) extends up to the border ( 14 ) of the mouth opening end ( 11 ). 7. Heat exchanger according to claim 5 or 6, characterized in that the collar ( 10 ) at its end facing the flat tube ( 4 ) is provided with a chamfer ( 12 ). 8. Heat exchanger according to one of claims 5 to 7, characterized in that each flat tube ( 4 ) is attached to the collar ( 10 ) by soldering. 9. Heat exchanger according to one of claims 1 to 3, characterized in that the mouths ( 13 ) are each formed by a through the recess ( 5 ) in the bottom plate ( 3 ) end portion of the flat tube res ( 4 ), which is expanded, in such a way that at least the mutually facing regions of adjacent widenings adjoin one another and there form the border ( 14 ) of the mouth opening end ( 11 ). 10. Heat exchanger according to claim 9, characterized in that the adjoining widenings ( 14 ) are connected to one another, in particular by soldering.