WO2017036922A1 - Cooling plate of a battery cooler - Google Patents

Abstract

The invention relates to a cooling plate (1) of a battery cooler (2) with an outer edge (3), wherein a cooling duct (6) is arranged in the cooling plate (1), and an inlet (4) communicating with said cooling duct and an outlet (5) are arranged on one of the outer edges (3). It is essential here for the invention – that the cooling plate (1) is composed of an upper part (7) and a lower part (8), wherein crimping tabs (9) are arranged on the outer edge (3) of the lower part (8), said crimping tabs being connected to the outer edge (3) of the upper part (7) when the cooling plate (1) is fitted and thereby securing the upper part (7) on the lower part (8), – that a connecting stub (11) is provided both in the region of the inlet (4) and of the outlet (5) and is clamped between the upper part (7) and the lower part (8).

Description

 Cooling plate of a battery cooler

The present invention relates to a cooling plate of a battery cooler with outer edges, according to the preamble of claim 1. The invention also relates to a battery cooler with at least one such cooling plate and a method for producing such a cooling plate.

From DE 10 2008 059 952 A1 a generic cooling plate of a battery cooler with an outer edge is known, wherein on the outer edge of an inlet and a drain and in the cooling plate itself a cooling channel are arranged. The cooling plate itself is designed to be electrically insulating at contact points to a battery cell.

From DE 20 1012 102 349 U1 a battery cooler for temperature control of batteries by means of a heat transfer fluid is known, which has an arrangement of at least one structural plate and a receiving plate, which limit a flow channel up and down. On the structural plate itself lateral channel boundaries are formed, which form a two- or mehrflutigen flow channel, which is formed in cross-section more than twice as wide as high. On the structural plate several island-like webs are arranged in the flow direction behind the other within the flow channel, which reduce the flow cross section in sections. As a result, a battery cooler with reduced space requirements and ease of manufacture can be realized.

Generally, cooling plates of battery coolers are usually composed of two plate-like components that define the cooling channel therebetween. A connection of the two plate-like components is usually carried out via a soldering, wherein in particular the fixing during the the actual soldering process requires expensive soldering frames. This makes a production of such cooling plates consuming and expensive.

The present invention therefore deals with the problem of providing for a cooling plate of the generic type an improved or at least one alternative embodiment, which overcomes the disadvantages known from the prior art.

This problem is solved according to the invention by the subject matter of independent claim 1. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea to enable a pre-assembly of a cooling plate by attaching Crimplaschen to a lower part of such a cooling plate, which only need to be bent for prefixing and fixing during the actual soldering process. The cooling plate according to the invention of a battery cooler in this case has an outer edge in a known manner, wherein an inlet and a drain are arranged on the outer edges and a cooling channel communicating therewith is arranged in the cooling plate itself. The cooling plate is composed of an upper part and a lower part, which limit the intermediate cooling channel. At an outer edge of the lower part Crimplaschen are arranged according to the invention, which are connected with mounted cooling plate with the outer edge of the upper part and thereby fix the upper part of the lower part. In the area of the inlet and the outlet, in each case a connecting piece is additionally provided, which can be prefabricated as a separate component and clamped between the upper part and the lower part. In this preassembled state, the cooling plate together with connecting piece can now be soldered and thus sealed. The crimping plates provided according to the invention and the connecting stubs clamped at the same time between the two parts of the cooling plate allow the cooling plate together with the connection stubs to be preassembled in an exactly aligned state and can be pre-mounted there preassembled and prefixed state then, for example, in a brazing furnace to be soldered. As a result, the assembly of the cooling plate according to the invention can be significantly simplified, in particular can be dispensed with consuming and expensive solder racks, as well as the assembly of the cooling plates in the solder racks entirely, whereby the manufacturing process can be made more cost effective. Of particular advantage is that by means of Crimplaschen also fixation of the connecting piece is possible.

In an advantageous development of the solution according to the invention, at least one of the connecting pieces is designed as a turned part. Due to the design as a rotating part, such a connecting piece can be manufactured with high precision and at the same time inexpensively.

Suitably, at least one connecting piece has a first portion fixed between the upper part and the lower part of the cooling plate and an outwardly projecting second portion, wherein the first and the second portion are arranged coaxially with one another. As a result, the axis of the first and the second portion is aligned with the axis of the inlet or the outlet, in which the respective connecting piece is inserted. Alternatively, it can also be provided that the first and the second section are arranged offset in axial direction with respect to one another, so that in this case the axis of the first section runs parallel to the axis of the second section. As a result, for example, manufacturing tolerances with respect to a connection of the cooling plate to corresponding cooling lines can be compensated comparatively easily.

In a further advantageous embodiment of the solution according to the invention an anti-twist device is provided in the region of the inlet and / or the outlet, which forces a clear installation position of the respective connecting piece. Such an anti-twist device can be formed, for example, by a channel in the inlet and / or in the outlet, which cooperates with a groove formed complementary thereto in the first section of the associated connecting piece while allowing the installation of the respective connecting piece in only a single angular position. This is particularly advantageous, provided that the second section is formed offset in the axial direction to the first portion of the connecting piece and a rotation angle exact mounting position is a prerequisite for easy installation of the cooling plate.

In a further advantageous embodiment of the solution according to the invention, the upper part and / or the lower part of the cooling plate are soldered. Such soldering is already widespread in the cooler industry and allows a particularly uniform solder application and thus reliable soldering.

The present invention is further based on the general idea to provide a method for producing a cooling plate described above, in which initially the upper part of the cooling plate is placed on an associated lower part of the cooling plate. Before or after a connecting piece is inserted or inserted into an inlet and a drain, depending on whether the assembly of the connecting piece takes place before or after the juxtaposition of the two parts of the cooling plate. Subsequently, the Crimplaschen the lower part are bent upward until they embrace an outer edge of the upper part, for example with a nose, and thereby fix the lower part of the upper part. In this state, a fixed pre-assembly state is now reached, in which not only the two components of the cooling plate fixed together, but at the same time the two connecting pieces between the two parts of the cooling plate are clamped and thus fixed. Subsequently, the upper part is soldered to the lower part and the connecting piece and thereby tightly connected. The inventively provided Crimplaschen and the connecting pieces a simple pre-assembly of the cooling plate can be achieved and thus dispense with the previously required in a soldering furnace consuming soldering frames, which simplifies the production of the cooling plates and thereby cheaper to implement. Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description with reference to the drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

Show, in each case schematically,

1 is an exploded view of a cooling plate according to the invention of a battery cooler,

Fig. 2 is an illustration of the cooling plate according to the invention in mounted

 Status,

Fig. 3 is a detailed representation in the region of two connecting pieces of a

 Inlet and a drain of the cooling plate,

Fig. 4 is a sectional view through the inlet and the drain.

1 to 4, a cooling plate 1 according to the invention of the battery cooler 2 has an outer edge 3, wherein on the outer edge 3, an inlet 4 and a drain 5 and in the cooling plate 1 itself a cooling channel 6 are arranged. According to the invention, the cooling plate 1 is now made of a top part 7 and a Lower part 8 is assembled, wherein on an outer edge 3 of the lower part 8 Crimplaschen 9 are arranged, which are connected with mounted cooling plate (see Fig. 2) with the outer edge 3 of the upper part 7 and thereby fix the upper part 7 on the lower part 8. The crimping lugs 9 can have, for example, a lug 10 (cf., FIGS. 3 and 4) which engages behind the outer edge 3 of the upper part 7 of the cooling plate 1 and thereby fix the lower part 8 to the

Upper part 7 causes. In this case, therefore, the Crimplaschen 9 are designed in the manner of a clip or latching connection, or act in this way with the upper part 7 of the cooling plate 1 together. In the region of the inlet 4 and the outlet 5 in each case a connection piece 1 1 is provided, which is clamped between the upper part 7 and the lower part 8.

Looking closer to Fig. 1, it can be seen that the cooling channel 6 is formed exclusively by corresponding indentations on the upper part 7 of the cooling plate 1, while the lower part 8 is designed as a flat punched sheet. Only in the region of the inlet 4 and the outlet 5 as well as in the area of the crimping lugs 9 are corresponding shapes provided.

At least one of the connecting pieces 1 1 can preferably be formed as a rotating part and thus not only inexpensive, but also produced very high quality.

If one examines the connecting pieces 1 1 in more detail, it can be seen that they have a fixed between the upper part 7 and the lower part 8 of the cooling plate 1 first portion 12 and an outwardly projecting second portion 13, wherein the first and the second portion 12, 13 are arranged coaxially to each other or off-axis to each other, as shown for example in FIG. 3. By such a staggered arrangement of the two sections 12 and 13, the respective inlet 4 and 5 outlet can be aligned with respect to associated and not shown cooling lines, so that in this case the connecting piece 1 1 acts as an adapter. If one looks closer to FIGS. 3 and 4, it can be seen that in the region of the inlet 4 and the outlet 5 there is in each case provided an anti-rotation lock 14 which forces an unambiguous installation position, in particular with regard to an angular position, of the connection piece 11. The rotation 14 can thereby

For example, be formed by a groove 15 in the inlet 3 and / or in the drain 5, which cooperates with a complementary thereto formed groove 16 in the first section 12 of the associated connecting piece 1 1.

In order to effect a reliable soldering and thus also a sealing of the two parts 7, 8, it can be provided that the upper part 7 and / or the lower part 8 are soldered.

The cooling plate 1 according to the invention is produced as follows:

First, the upper part 7 of the cooling plate 1 is placed on the lower part 8, wherein before or after the connecting piece 1 1 in the inlet 4 and the drain 5 are arranged. Subsequently, the Crimplaschen 9 are bent upwards so that they fix the upper part 7 of the cooling plate 1 on the lower part 8. As a result, a pre-assembly state is now reached, in which the preassembled cooling plate 1 can be soldered in a soldering oven. When heating in the brazing furnace, a soldering of the upper part 7 to the lower part 8 and the

Connecting piece 1 1 and thus simultaneously sealing the cooling plate. 1 By providing at least one Crimplasche 9 on the outer edge 3 of the lower part 8, an exactly aligned assembly of the upper part 7 with the

Lower part 8 are forced. The term "Crimplasche 9" is intended

represent any tabs or latching hooks, which one

enable clear fixing of the upper part 7 on the lower part 8 of the cooling plate 1.

Of course, it can also be provided that the Crimplaschen 9 already before placing the upper part 7 on the lower part 8 of the cooling plate. 1 are set up, so that in this case a mounting of the cooling plate 1 as follows:

First, in this case, the connecting pieces 1 1 are inserted with their respective first section 12 in the inlet 4 and 5 outlet of the lower part 8 and then pressed the upper part 7 on the lower part 8 until the lugs 10 of the Crimplaschen 9 the outer edge 3 of the upper part. 7 engage behind and thereby cause fixing of the upper part 7 on the lower part 8. Now, here is one too

Soldering done.

With the cooling plate 1 according to the invention and the invention

Manufacturing method, it is thus possible to dispense with previously required for fixing during the soldering soldering frames, whereby the manufacturing process can not only be simplified, but also made more cost effective. The individual Crimplaschen 9 are arranged on the lower part 8 of the cooling plate 1, that only a single connection position between the upper part 7 and the lower part 8 is possible, which errors during assembly can be effectively excluded.

Claims

claims 1 . Cooling plate (1) of a battery cooler (2) with an outer edge (3), wherein in the cooling plate (1) a cooling channel (6) and at one of the outer edges (3) arranged therewith an inlet (4) and a drain (5) are,  characterized,  in that the cooling plate (1) is composed of an upper part (7) and a lower part (8), wherein on the outer edge (3) of the lower part (8) crimping lugs (9) are arranged which, when the cooling plate (1) is mounted are connected to the outer edge (3) of the upper part (7) and thereby fix the upper part (7) on the lower part (8),  - That in the region of the inlet (4) and the outlet (5) each have a connecting piece (1 1) is provided, which is clamped between the upper part (7) and the lower part (8). 2. Cooling plate according to claim 1,  characterized,  that the upper part (7) and the lower part (8) with each other and with the connecting piece (1 1) is soldered. 3. cooling plate according to claim 1 or 2,  characterized,  that at least one connecting piece (1 1) is designed as a rotating part. 4. cooling plate according to one of claims 1 to 3, characterized, in that at least one connecting piece (11) has a first section (12) fixed between the upper part (7) and the lower part (8) of the cooling plate (1) and an outwardly projecting second section (13), the first and the second Section (12,13) are arranged coaxially to each other. 5. cooling plate according to claim 1 or 2,  characterized,  in that at least one connecting piece (11) has a first section (12) fixed between the upper part (7) and the lower part (8) of the cooling plate (1) and an outwardly projecting second section (13), the first and the second Section (12,13) are arranged offset in axial direction to each other. 6. Cooling plate according to one of the preceding claims,  characterized,  that in the region of the inlet (4) and / or the outlet (5) a  Anti-rotation (14) is provided, which enforces a clear mounting position of the connecting piece (1 1). 7. cooling plate according to claim 6,  characterized,  in that the anti-twist device (14) is formed by a channel (15) in the inlet (4) and / or in the outlet (5), which has a groove (16) formed complementary thereto in the first section (12) of the associated connection piece (1 1 ) cooperates. 8. cooling plate according to one of the preceding claims,  characterized,  that the upper part (7) and / or the lower part (8) are solder-plated. 9. Battery cooler (2) with at least one cooling plate (1) according to one of Claims 1 to 8. 10. A method for producing a cooling plate (1) according to any one of claims 1 to 8, characterized by  - A superimposition of an upper part (7) of the cooling plate (1) on a  associated lower part (8) of the cooling plate (1), wherein thereafter or in front of an inlet (4) and a drain (5) in each case a connecting piece (1 1) is inserted or inserted,  - Fixing the upper part (7) on the lower part (8) via Crimplaschen (9), which are arranged on the lower part (8) and in the assembled state a  Embrace the outer edge (3) of the upper part (7),  - Soldering of the upper part (7) with the lower part (8) and the connecting piece