EP2989406A1

EP2989406A1 - Heat exchanger

Info

Publication number: EP2989406A1
Application number: EP14718064.0A
Authority: EP
Inventors: Stefan Hirsch; Florin Moldovan
Original assignee: Mahle International GmbH
Current assignee: Mahle International GmbH
Priority date: 2013-04-23
Filing date: 2014-04-16
Publication date: 2016-03-02
Also published as: US20160097598A1; DE102013207375A8; WO2014173746A1; DE102013207375A1; CN105143807A

Abstract

The invention relates to a heat exchanger (1) having a cover plate (3), having a first manifold tube (4), having a second manifold tube (4) and having at least one tube (2), wherein the tube (2) is received at the ends in a respective opening (18) of the first manifold tube (4) and of the second manifold tube (4), wherein the cover plate (3) is in contact with the manifold tubes (4) and in thermal contact with the tube (2), wherein a fixing means is provided by which the cover plate (3) can be fixed to at least one manifold tube (4) and/or to at least one tube (2).

Description

Wärmeübertrjiger

description

Technical area

The invention relates to a heat exchanger with a cover plate, a first manifold, a second manifold and at least one tube, wherein the tube is accommodated end in each case in an opening of the first manifold and the second manifold, wherein the cover plate in contact with the headers and in thermal Contact with the pipe stands.

State of the art

Heat exchangers are used today for cooling various components. In particular, the cooling of battery components has become increasingly important in recent years. Batteries generate heat during charging and discharging, which either has to heat the batteries or has to be dissipated via suitable means. In particular, the last favored lithium-ion batteries have a strong temperature dependence. Among other things, this temperature dependence leads to a faster aging of the individual battery cells as a result of high temperatures. In addition, severe heating adversely affects the performance of the batteries. It is therefore to provide suitable means for temperature control of batteries in order to operate the batteries always in an optimal temperature interval can.

In order to allow the greatest possible temperature transition between a cooling medium and the batteries, it is advantageous to provide as large as possible a connection of the heat exchanger to the batteries to be tempered. For this purpose, solutions are known in which the individual flat tubes are provided with a cover plate. The cover plate serves as a surface for connecting the batteries. A disadvantage of the solutions in the prior art is in particular that the attachment of the cover plate to the heat exchanger has not been solved optimally. Particularly in view of the mountability of the heat exchanger with cover plate and the simplicity of the connection, the solutions in the prior art are not optimal.

Presentation of the invention, object, solution, advantages

It is the object of the present invention to provide a heat exchanger which has an optimized compared to the solutions of the prior art connection of a cover plate.

The object of the heat exchanger is achieved by a heat exchanger with the features of claim 1. An embodiment of the invention relates to a heat exchanger having a cover plate, a first manifold, a second manifold and at least one tube, wherein the tube is accommodated end in each case in an opening of the first manifold and the second manifold, wherein the cover plate in contact with the manifolds and is in thermal contact with the tube, wherein a means for fixing is provided, via which the cover plate on at least one collecting tube and / or at least one tube is fixable. A cover plate here describes a substantially planar just pronounced

Plate which is in thermal contact with a singular or plurality of tubes and / or the headers and forms a bonding surface for battery elements. The core task of the cover plate is to provide the largest possible heat transfer func- tions.

In particular, means are meant by a means for fixing which prevent a relative movement of the cover plate in a direction which runs perpendicular to the main extension of the tube. This is intended in particular to prevent falling off of the cover plate during the assembly and transport process. This is especially true at a time when the individual parts are not yet permanently cohesively, for example by a soldering process, connected to each other.

Moreover, it can be advantageous if the means for fixing is formed by holding elements which are arranged on the cover plate and / or at least one collecting tube and serve to fix the cover plate to at least one collecting tube and / or at least one tube, wherein the Holding elements are formed by at least one projection and / or at least one recess.

A projection and / or a recess on a manifold and / or the cover plate, a positioning of the cover plate can be achieved relative to the headers. In addition, a relative movement of the cover plate relative to the collecting pipes and the pipes can be avoided via the retaining elements. The projection and the recess are advantageously designed such that they can correspond with each other and interlock.

The holding elements can be arranged on only one of the manifolds or equally on both headers. In an alternative embodiment of the invention, it can be provided that at least one opening of the collecting tubes has an edge region and the edge region has at least one insertion slope on a surface facing the center of the opening. An insertion bevel on a surface facing the center of the opening is advantageous in order to be able to more easily insert the cover plate into the opening. With a surface facing the center, in particular the inner walls of the opening are meant. Also, the insertion of a tube in the opening is facilitated by such an insertion bevel.

In a particularly favorable embodiment of the invention, it is also provided that the projection and / or the recess are arranged on the collecting tube at an edge region of an opening of the collecting tube, wherein the projection has the insertion bevel.

The projection and / or the recess is advantageously arranged on the edge region of the opening so as to achieve better guidance of the cover plate. The projection can engage in a recess of the cover plate and / or partially overlap the cover plate. The projection and / or the recess are advantageously arranged at the longer portions of the edge regions of the opening, in particular when using flat tubes.

In order to accommodate both a cover plate on the top of the tubes and on the underside of the tubes, projections and / or recesses are advantageously arranged in each case at the opposite upper and lower edge region of the opening.

The projection is advantageously oriented such that it merges flush in the upper or lower outer surface of the manifold, which are aligned parallel to the broad side of the flat tubes when using flat tubes. It is also preferable if an at least partially encircling passage is formed at the opening of the collecting tube through the projection and / or the recess, the passage being directed away from the interior of the respective collecting tube. In particular, by the projection, an at least partially circumferential passage is generated. In this passage both a pipe and the cover plate can be inserted. The passage increases in particular the stability of the heat exchanger. In addition, due to the passage a better cohesive connection between the respective tube, the headers and the cover plate can be generated, since the contact surface can be increased overall.

Furthermore, it may be particularly advantageous if the cover plate has a chamfer on at least one edge region, whereby the material thickness of the cover plate increases from the edge.

The chamfer is particularly advantageous for inserting the cover plate in the opening of the collection tube or in the passage. The bevel is oriented in such a way that the edge region of the cover plate has a sweep. The chamfer can extend over the entire edge region. Alternatively, the chamfer can extend over only one or more subareas. In the inserted state, the chamfer advantageously comes to lie on the insertion bevel.

It may also be expedient if a clamping between the tube and the collecting tube can be produced, whereby a cover plate arranged on the tube and adjacent to the collecting tube can be fixed.

A clamping between the respective manifold and the tube can lead to an advantageous fixation of the cover plate. This can be achieved in particular by inserting the cover plate with an end region which has a chamfer into the clamping between the tube and the collecting tube becomes. Alternatively, a clamping between the tube, the cover plate and the manifold can be generated.

The clamping can be achieved, for example, by the cover plate is placed on the tubes, which are, for example, in a mounting device, and then the manifolds are pushed laterally onto the tube ends. The cover plate is thereby at least partially introduced into the openings of the headers or the passages. The clamping arises mainly due to the excess of the tubes and the cover plate in comparison to the opening or the passage.

Furthermore, it is advantageous if the edge region of the cover plate with the chamfer is at least partially insertable into a region between the passage and the tube and / or can be inserted into the opening of the collecting tube. In this way, a clamp can be created which effectively fixes the cover plate to the tubes and the headers.

A preferred embodiment is characterized in that the cover plate has a chamfer on two substantially opposite edge regions.

A bevel on two mutually opposite edge regions of the cover plate is particularly advantageous in order to be able to introduce the cover plate in a simple manner in both headers.

Furthermore, it is advantageous if the insertion bevel is oriented in such a way that the clear opening width of the opening towards the interior of the collecting tube is reduced.

Such an orientation of the insertion bevels facilitates, in particular, the insertion of the cover plate into the opening. As the insertion depth increases, the orientation of the insertion bevel and the chamfer of the cover plate allow which also produces an increasing pressure between the tube, manifold and Abdeckpiatie, whereby the cover plate is better fixed.

In addition, it is expedient if a flush transition is formed between the cover plate and at least one outer surface of a manifold, wherein the outer surface and the cover plate form a common planar surface.

An outer surface of the manifold here describes in particular an outer surface which is substantially parallel to the plane in which the central axes of the tubes extend.

In the event that the manifold of a strip material is produced by bending into a U-shaped structure, two substantially opposite legs, which are connected to each other via a narrow pipe side. Each of the legs has an outer surface which runs parallel to the plane of the tubes. Particularly advantageous is a flush transition of this outer surface in the surface of the cover plate.

Through a flush transition overall, an enlarged flat surface can be generated, which can be used to connect battery elements. A step-free transition is particularly advantageous in order to use the entire surface can.

It is also preferable if a plurality of tubes is provided, wherein the tubes are formed by flat tubes, each having two opposite broad sides and two opposite narrow sides, wherein the central axes of the flat tubes and the respective broad sides in each case in one plane are arranged lying, wherein the cover plate rests on the plane formed by the broad sides.

Flat tubes are particularly advantageous in terms of heat transfer, since in particular the broad sides form a larger heat transfer surface. An arrangement The flat tubes in one plane mean that a cover plate can be placed on the flat tubes and in thermal contact with all Fiach tubes. This is advantageous in order to achieve the greatest possible heat transfer. Furthermore, it is advantageous if the means for fixing is formed by at least one tab, which can be bent out of the plane of the cover plate and at least partially bendable around a tube.

A flap which can be bent out of the cover plate is particularly advantageous, since a connection between the cover plate and one or more tubes can be produced in a simple manner. It can be provided only one tab per cover plate or more tabs, whereby the connection is improved overall. In addition, it is expedient if two cover plates are provided, wherein in each case a cover plate bears against a plane formed by the broad sides of the plane.

Two cover plates are particularly advantageous when the heat exchanger on both sides to be cooled to elements to be cooled, such as battery elements to be attached.

Advantageous developments of the present invention are described in the subclaims and the following description of the figures.

Brief description of the drawings

In the following the invention will be explained in detail by means of embodiments with reference to the drawings. In the drawings show: 1 is a perspective view of a heat exchanger in an exploded view,

3 shows in the left part a perspective view of a heat exchanger and in the right part a detail view of the transition from the collecting tube to the cover plate of the heat exchanger, FIG.

4 is a plan view of the joint between the manifold and the cover plate,

Fig. 5 shows a sectional view through the joint between the collecting tube and the cover plate, FIG. 6 shows a perspective view of the collecting tube with a view of the narrow side of the tube, which has the openings,

7 shows a perspective view of the edge region of a cover plate, and FIG. 8 shows in the left part a perspective view of a heat exchanger with an alternative design of the fixing means for fixing the cover plate to the tubes and in the right part a detailed view of the fixing means.

Preferred embodiment of the invention

FIG. 1 shows a perspective view of a heat exchanger 1. The heat exchanger 1 consists essentially of a plurality of tubes 2, which are received laterally in headers 4. The collecting pipes 4 have fluid connections 5 and 6, respectively, via which a fluid can be introduced into or out of the heat exchanger 1. The tubes 2 shown in Fig. 1 are formed by flat tubes, which have two opposite broad sides and two opposite narrow sides. In Fig. 1, the flat tubes 2 are positioned such that the central axes of the tubes and the two opposite broad sides are each arranged in a plane.

The manifolds 4 have with the flat tubes 2 corresponding openings into which the flat tubes can be inserted. The collecting tubes 4 are formed by a U-shaped bent material strip, which is closed on the side facing away from the flat tubes 2 by a closure means 15, which may be formed for example by a forming wire.

On the flat tube 2, a cover plate 3 is placed. It is in thermal contact with the flat tubes 2 and the collecting tubes 4. It forms a heat transfer surface and serves for connecting components to be cooled, such as batteries or their power electronics.

FIG. 2 shows a perspective view of the cover plate 3 in the left-hand area. A positioning recess 7 is shown on the longitudinal side of the cover plate 3.

The middle illustration of FIG. 2 shows an arrangement of the cover plate 3 with flat tubes 2 placed thereon. The flat tubes 2 and the cover plate 3 are inserted in a mounting device, wherein the mounting device is not shown. The cover plate 3 is positioned in the mounting device such that the positioning recess 7 engages around a bolt provided in the mounting device. As a result, the cover plate 3 is securely positioned within the mounting device.

The right part of FIG. 2 shows a heat exchanger 1, as already shown in FIG. 1. In the right part of FIG. 2, the heat exchanger 1 is shown in the final assembled state. For this purpose, the manifolds 4 are laterally pushed onto the flat tubes 2 and the cover plate 3. 3 shows a view of the heat exchanger 1 with a view of the cover plate 3. Also visible are the lateral manifolds 4 with the fluid connections 5 and 6, respectively. The cover plate 3 likewise has the positioning recess 7. In the right part of Fig. 3 is a detail view of the transition from one of the collection tube 4 to the cover plate 3 is shown.

In the detail view it can be seen that the manifold 4 is formed by a U-shaped bent strip of material. Due to the U-shaped bend, the material forms a mature leg 1 1 and an upper leg 10 from st ripe. The two legs 10 and 1 1 are connected to each other via a narrow pipe side 13. Inside the collecting tube 4, the forming wire 15 is indicated. The shaping wire 1 5 is fixed within the collecting tube 4 via a tab 16, which is bent out of the upper leg 10. The elements shown, such as pipes, cover plate, manifolds, forming wire are permanently connected in a step connected to the assembly with a substance-consistent method, such as soldering.

The upper leg 10 of the collecting tube 4 furthermore has passages 19, which are formed from two projections 12 which are separated by a recess 14. The passages 19 are directed outwards and are arranged at the edge region of the openings 4 of the collecting pipes 4, not shown in FIG. For the exact structure of the manifold 4, reference is made to the following FIGS. 5 and 6, respectively. 4 shows a plan view of the transition between the manifold 4 and the cover plate 3 of the heat exchanger. 1 As already indicated in FIG. 3, the shaped wire 15 is fixed in the interior of the collecting tube 4 by the lug 16 which has been bent out of the leg 10. The passages 1 9, which are formed by the projections 1 2, are on the narrow side tube 13, which connects the upper leg 10 with the lower leg 1 1 out. The cover plate 3 engages in the recess 14, which is arranged between the projections 12, with its own projection. The passages 19 and the projections 1 2 thereby partially cover the cover plate 3.

FIG. 5 shows a section along the section indicated in FIG. 4, which is characterized by the capital letters H-H.

In section through the manifold 4, in particular the upper leg 10 and the lower leg 1 1 can be seen, also the form wire 15, which closes the manifold to the side facing away from the flat tubes 2 side.

The cover plate 3 has at one of its edge regions a chamfer 20, whereby a sweep of the cover 3 is formed. The material thickness of the cover plate 3 thereby increases from the edge region ago. The projections 12 each have above and below the flat tube 2 an insertion bevel 21 on the inwardly directed surface. Through the insertion bevel 21, the clear width of the opening to the center of the manifold 4 decreases.

In the example shown in Fig. 5, the chamfer 20 and the insertion bevel 21 come to rest in the mounted state. The result is a clamping between the upper leg 10 of the cover plate 3, the flat tube 2 and the lower leg 1 1 of the manifold 4. In this way, the cover plate 3 is fixed in the not yet soldered state at the manifold 4.

In an alternative embodiment, a second cover plate may be provided, which is connected via a connection analogous to the first cover plate below the tubes to the heat exchanger.

The cover plate 3 is prevented by the clamping, which is shown in Fig. 5, substantially prevented from falling off the heat exchanger 1 in a direction which is perpendicular to the main extension direction of the flat tubes 2. In order to move the cover plate 3 in a direction transverse to the main track 3 and 4 projections and recesses are provided, which engage in such a way that a relative movement is avoided transversely to the main extension direction of the flat tubes 2. A relative movement of the cover plate in the direction of the main extension direction of the flat tubes is prevented by the impact between the upper leg 10 of the collecting tube 4 and the cover plate 3.

Thus, the cover plate 3 is secured against accidental falling out of the heat exchanger 1, in particular in a state in which no cohesive connection between the individual elements has yet been produced. This facilitates in particular the assembly and simplifies the transport process and the entire manufacturing process of the heat exchanger. 1

6 shows a perspective view of the collecting tube 4. The collecting tube 4 is, as already described, produced by a bending of a flat strip of material into a U-shaped configuration. This results in the upper leg 10 and the lower leg 1 1, which are opposite to each other substantially parallel. The two legs 10, 1 1 are connected to each other via the narrow pipe side 13.

FIG. 6 also shows a plurality of openings 18, which are provided in the narrow side 13 of the tube. The openings 18 are adapted in their contour of the outer contour of the flat tubes 2. The opening 18 thus has two to the surfaces 10 and 1 parallel longitudinal sides and two perpendicular to the surfaces 1 0 and 1 1 standing transverse sides. The longitudinal sides of the opening 18 are longer than the transverse sides. The transverse sides of the openings 18 are rounded.

Furthermore, it can be seen in FIG. 6 that at the transverse sides of the opening 18 passages 17 are arranged, which are placed inwards. It can also be seen that the outward openings 19 each have two projections 12, which are separated from one another by a respective recess 14. These recesses 14 serve as positioning aid for the cover plate. 3 Preferably, both on the upper and on the lower side of the opening 18, the outwardly provided passages 19 and projections 12 are present.

The outward passages 19 are formed in two parts. The projections 12 are formed identically and are separated from each other by the recess 14. The recess 14 serves, as already described, the inclusion of a projection of the cover plate 3 in order to ensure a secure positioning of the cover plate relative to the manifold.

The outward passages 19 have a recess 14 both centrally and at their respective left and right-lying end regions. In addition, the outward passages 19 and the projections 12 on insertion bevels 21, which should facilitate the insertion of the cover plate 3. The insertion bevels 21 are already shown in the sectional view of FIG. 7 shows a detailed view of the cover plate 3. At the left edge region of the cover plate 3 projections 22 and chamfers 20 are arranged. The projections 22 are designed such that they can fit accurately into the recesses 14 on the collecting pipe 4. The chamfers 20 are designed in such a way that they correspond to the insertion bevels 21 on the passages 19 provided outwards or projections 12 of the collecting tube 4. The projections 22 and the chamfers 20 are arranged at the same distance from each other, as are the openings 18 of the headers 4.

In alternative embodiments, the chamfers can also be guided over a wider region of the edge region of the cover plate. In principle, the arrangement of the chamfers 20 or of the projections 22 is based on the regions of the collecting tubes 4 formed by the openings 18 or the outward passages 19 and the projections 12. FIG. 8 shows a further perspective view of a heat exchanger 1 a view of the arranged below the cover plate 3 flat tubes. 2 The cover plate 3 is fixed in Fig. 8 by an alternative embodiment of the fixing means on the flat tubes 2. For this purpose, a detailed view is shown in the right part of FIG. The cover plate 3 is attached here via a bent out of the flat surface of the cover plate 3 tab 30 on a flat tube 2. The flat tube 2 is at least partially encompassed by the tab 30. In addition to the flap 30 shown in FIG. 8, further tabs may be arranged along the cover plate 3. The tabs can embrace the flat tubes 2 more or less in alternative embodiments, as shown in FIG. 8. The tab 30 is intended essentially to prevent the plate 30 from falling off the flat tubes 2 during assembly or transport.

The exemplary embodiments shown in FIGS. 1 to 8 are merely exemplary in nature. They have no restrictive effect and can be combined with each other.

Claims

claims

1. Heat exchanger (1) with a Abdeckpiatte (3), a first manifold (4), a second manifold (4) and at least one tube (2), wherein the tube (2) end in each case in an opening (18) of the first Collecting tube (4) and the second collection tube (4) is received, wherein the Abdeckpiatte (3) in contact with the collecting tubes (4) and in thermal contact with the tube (2), characterized in that a means for fixing is provided , via which the cover plate (3) can be fixed to at least one collecting tube (4) and / or at least one tube (2).

2. Heat exchanger (1) according to claim 1, characterized in that the

Means for fixing by holding elements is formed, which are arranged on the Abdeckpiatte (3) and / or at least on a collecting tube (4) and the fixing of Abdeckpiatte (3) on at least one collecting tube (4) and / or at least one tube (2 ), wherein the holding elements are formed by at least one projection (12, 22) and / or at least one recess (14).

3. Heat exchanger (1) according to one of the preceding claims, characterized in that at least one opening (18) of the collecting tubes (4) has an edge region and the edge region at a the center of the opening (18) facing surface at least one insertion bevel (21) having. 4. Heat exchanger (1) according to one of the preceding claims, characterized in that the projection (12, 22) and / or the recess (14) arranged on the collecting tube (4) at an edge region of an opening (18) of the collecting tube (4) is, wherein the projection (12, 22) has the insertion bevel (21).

5. Heat exchanger according to claim 4, characterized in that at the opening (18) of the collecting tube (4) through the projection (12) and / or the Recess (14) an at least partially circumferential passage (19) is formed, wherein the passage (19) from the interior of the respective collecting tube (4) is directed away.

6. Heat exchanger (1) according to one of the preceding claims, characterized in that the cover plate (3) has a chamfer (20) on at least one edge region, whereby the material thickness of the cover plate (3) increases from the edge.

7, heat exchanger (1) according to one of the preceding claims, characterized in that a clamping between the tube (2) and the

Collecting tube (4) can be generated, whereby one on the tube (2) arranged and to the collecting pipe (4) adjacent cover plate (3) is fixable.

3. Heat exchanger (1) according to claim 7, characterized in that the edge region of the cover plate (3) with the chamfer (20) at least partially into an area between the passage (19) and the tube (2) is insertable and / or in the opening (18) of the collecting tube (4) can be inserted.

9. Heat exchanger (1) according to one of the preceding claims, characterized in that the cover plate (3) at two substantially opposite edge regions each having a chamfer (20).

10. Heat exchanger (1) according to one of the preceding claims, characterized in that the insertion bevel (21) is oriented such that the clear opening width of the opening (18) towards the interior of the collecting tube

(4) decreased.

1 1. Heat exchanger (1) according to one of the preceding claims, characterized in that between the cover plate (3) and at least one outer surface of a collecting tube (4) a flush transition is formed, wherein the outer surface and the cover plate (3) form a common planar surface. 12, heat exchanger (1) according to any one of the preceding claims, characterized in that a plurality of tubes (2) is provided, wherein the tubes (2) by flat tubes (2) are formed, each having two opposite broad sides and two opposite Have narrow sides, wherein the center axes of the flat tubes (2) and the respective broad sides are each arranged lying in a plane, wherein the cover plate (3) rests on the plane formed by the broad sides,

13. Heat exchanger (1) according to one of the preceding claims, characterized in that the means for fixing by at least one tab (30) is formed, which from the plane of the cover plate (3) is bendable and at least partially around a tube (2) is bendable.