DE102019105242A1 - Sealing device for sealing a return device for adjacent cooling channels of a cooling device - Google Patents

Abstract

Sealing device (10) for sealing a return device (100) for adjacent cooling channels (212) of a cooling device (210) of a battery device (200), having a base body (20) with a forward sealing section (30) for circumferential sealing against a counter-forward sealing section ( 230) of the cooling device (210) and a return sealing section (40) for circumferential sealing against a counter-return sealing section (240) of the cooling device (210), further comprising a circumferential sealing section (50) for circumferential sealing against a counter-circumferential sealing section (150) of a circulating duct (110) of the return device (100).

Description

The present invention relates to a sealing device for sealing a return device for adjacent cooling channels of a cooling device of a battery device as well as a corresponding return device and a battery device with such a return device.

It is known that battery devices have cooling devices to cool the battery device. For this purpose, the cooling devices are usually equipped with cooling channels, which pull through a corresponding cooling body. At one end of this cooling device, which is often designed in the form of a plate, flow connections are positioned in half of the cooling channels and return connections are positioned in the other half of the cooling channels. Thus, adjacent cooling channels are usually formed in forward and reverse operation. For this purpose, a first cooling channel is acted upon with a cooling fluid, which must be deflected on the opposite side of the cooling plate of the cooling device in order to flow back again as a return in the adjacent cooling channel.

The known solutions have for this purpose an extruded profile for the plate-shaped cooling device. In order to provide the circulation between the flow and the return of the adjacent cooling channels, known solutions have return devices, which are also placed on the plate-shaped cooling device as end covers or end plates. The problem with the known solutions is the great effort that has to be made in order to be able to ensure a clean seal of the cooling fluid. In the known solutions, a large number of separate sealing means is usually necessary in order to seal the contact with the respective cooling channel and the circulation channel itself. To avoid the large number of complex and different sealing elements, only solutions have been known so far which require a high level of complexity in the feedback device. For example, already closed circulation channels can be made available with the help of lost molds in order to reduce the sealing of the same.

It is the object of the present invention to at least partially remedy the disadvantages described above. In particular, it is the object of the present invention to improve the assembly and sealing of the cooling device in a cost-effective and simple manner.

The above object is achieved by a sealing device with the features of claim 1, a return device with the features of claim 8 and a battery device with the features of claim 10. Further features and details of the invention emerge from the dependent claims, the description and the drawings . Features and details that are described in connection with the sealing device according to the invention naturally also apply in connection with the return device according to the invention and in connection with the battery device according to the invention and vice versa, so that with regard to the disclosure, reference is always made to the individual aspects of the invention or alternately. can be.

According to the invention, a sealing device serves to seal a return device for adjacent cooling channels of a cooling device of a battery device. Such a sealing device is equipped with a base body which has a flow sealing section for circumferential sealing against a counter-flow sealing section of the cooling device. The base body also has a return sealing section for circumferential sealing against a counter-return sealing section of the cooling device. In addition, a circumferential sealing section is provided for circumferential sealing against the counter-circumferential sealing section of a circulating channel of the return device.

The arrangement of the individual sealing sections, i.e. the flow sealing section, the return sealing section and the circumferential sealing section, is particularly adapted to the corresponding geometric positioning and configuration of the counter-flow sealing section, the counter-return sealing section and the counter-circumferential sealing section. For a particularly compact and inexpensive configuration, the flow sealing section and the return sealing section are preferably arranged together on the same side of the base body, while the circumferential sealing section is arranged in particular on an opposite or oppositely oriented side of this base body.

According to the invention, a triple sealing function is now integrated in a base body. On the one hand, the base body allows the supply sealing section to provide a seal between the base body and the supply flow of the corresponding cooling channel of the cooling device. At the same time, the same base body can ensure a corresponding sealing of the connection to the return channel of the cooling device via the return sealing section. In particular, on the oppositely oriented side of the base body, the third sealing functionality ensures that the circumferential channel is sealed with the aid of the circumferential sealing section. In other words, the sealing device, in particular the Base body, meanwhile, the outlets of the adjacent cooling channels on the one hand and the circulation channel of the return device on the other hand are used to ensure the desired seal. While a large number of individual sealing means had to be used in known solutions, the sealing for all three sealing functions can now be achieved here with a single sealing device, in particular with a single base body, and thus preferably with a single assembly movement.

A wide variety of materials or material combinations are of course conceivable. It is also possible for the base body to be formed in one piece, integrally or monolithically with one or more of the sealing sections. However, multi-part base bodies are also conceivable or can be designed with the stiffening options explained later.

In addition to the simple assembly option and the reduction in complexity and the reduction in the number of components, a sealing device according to the invention can also provide tolerance compensation, in particular transverse to the axial alignment of the cooling channels, in an improved manner. This is based in particular on the corresponding compensation options in the sealing between the circumferential sealing section and the counter-circumferential sealing section. Because the circumferential seal has now also been integrated into the base body of the sealing device in a simple and inexpensive manner, the circumferential channel can be made available inexpensively and easily, for example by removing material in a return body of the return device. This can be made available, for example, by means of a corresponding milling with corresponding side walls and axial walls, as will be explained later. A simple elongated hole groove can thus produce the circulation channel inexpensively and easily, while a simple and inexpensive sealing option is provided via the circumferential sealing section integrated into the sealing device.

According to the invention, the sealing device relates in particular to battery devices which are used in vehicles. In particular, these are battery devices which provide the drive energy completely or at least partially for driving such a vehicle.

It can also be advantageous if, in a sealing device according to the invention, the flow sealing section and / or the return sealing section have a guide section for a guiding engagement in the respective cooling channel of the cooling device. Such a guide section allows in particular an improved relative positioning of the respective sealing section to the respective cooling channel. In addition, such guide sections can also engage or contact the corresponding cooling duct wall, so that an additional sealing effect can even arise here. The entire cross-sectional area, which is available in the axial direction as a sealing section or counter-sealing section, can thus be made available completely and thus in a maximized manner for the sealing functionality. A correspondingly elastic configuration of this guide section allows an additional sealing function to be added in the radial transverse direction by elastic deformation and corresponding pressing in of the guide section.

A further advantage is when, in a sealing device according to the invention, the guide section has an insertion section, in particular in the form of a cross-rib, for easier insertion and centering of the guide section with respect to the respective cooling channel. This insertion function further facilitates the relative positioning during assembly and in particular prevents incorrect assembly. Such a rib cross can be designed, for example, as a permeable or sieve-like rib cross, in order to avoid the distribution of suspended matter or the undesired closure by contamination. Such a rib cross, in particular tapering to a point, as an insertion section allows a type of prepositioning to be carried out in which the insertion section is inserted into the respective cooling channel. The final assembly is then carried out, in which the base body is brought in a sealed manner from this relative position prepositioned in this way into the desired end position.

It can also be advantageous if, in a sealing device according to the invention, the circumferential sealing section has at least one positioning section for positioning the circumferential sealing section and / or the base body relative to the circumferential channel of the return device. In a manner similar to that which has already been explained for the guide section, a guide functionality can also facilitate the corresponding relative positioning here. Accordingly, the positioning section is combined in particular with the described guide section or the described insertion section of the preceding paragraphs. Here, too, the positioning section can be a corresponding engaging contacting and / or conical surface.

Here, too, elastic deformability is possible, which by pressing into the circulation channel provides an additional seal against the Side wall of the circulation channel allowed. Due to the relative positioning aid in the side walls of the circulation channel, the correspondingly available entire sealing surface of the counter-rotating sealing section can be optimized or maximized in the same way.

In addition, it is advantageous if, in a sealing device according to the invention, the base body has a stiffening section for mechanical reinforcement of the base body, in particular the forward flow sealing section and / or the return flow sealing section. This can be, for example, a metallic insert, which brings about the desired mechanical stiffening of the base body. Such a metallic plate or a metallic frame makes it possible to equalize sealing forces and to distribute them in the base body, so that even when the sealing force is applied locally, for example by means of appropriate fastening means of the return device, an evened sealing force is achieved on the entire circumferential forward sealing section, return sealing section and / or circumferential sealing section Is provided. This stabilization function thus allows the evened sealing function also in those areas in which, for example, due to a lack of counterforce in an elongated hole in the circulation channel, there is no direct effect of the sealing force.

In addition, it can be advantageous if, in a sealing device according to the invention according to the preceding paragraph, the stiffening section has a stiffening frame which at least partially, in particular completely or essentially completely surrounds the forward sealing section, the return sealing section and / or the circumferential sealing section. This frame-like configuration can supplement a plate-shaped configuration of the stiffening section or be provided as an alternative to this. This external stabilization is used for improved protection during storage and assembly and, at the same time, for improved handling during assembly movement. The individual sealing sections protrude axially, preferably beyond the frame, in order to be able to provide the sealing effect through elastic deformation under the action of the sealing force. The effect of the sealing force is also provided axially, so that, as explained in the preceding paragraph, the stiffening frame supports the transverse distribution and equalization of this punctually introduced sealing force.

In addition, it is advantageous if, in a sealing device according to the invention, the flow sealing section and the return sealing section are identical or essentially identical, in particular symmetrical or essentially symmetrical. An identical design, in particular in a symmetrical or mirrored manner, allows the sealing device to be manufactured more cost-effectively. In addition, in particular with a symmetrical configuration, a freer alignment and thus an error-reduced assembly option can be guaranteed.

The present invention also relates to a return device for the return of cooling fluid between adjacent cooling channels of a cooling device of a battery device. Such a return device has a return body with at least one circulation channel with at least one side wall and at least one axial wall. The at least one side wall is circumferentially surrounded by a counter-circumferential sealing section for sealing against a circumferential sealing section of a sealing device according to the invention. A return device according to the invention thus has the same advantages as have been explained in detail with reference to a sealing device according to the invention.

A return device according to the invention can be developed in such a way that the return body has at least one fastening section, in particular at least two fastening sections on both sides of the at least one circulation channel. In the simplest case, such a fastening section is provided as a through opening for a corresponding fastening means, for example in the form of screws. A symmetrical introduction of sealing force on both sides of the circulating channel allows a particularly uniform sealing function on all sealing sections.

The fastening sections can be designed for a reversible, but also for an irreversible design of the fastening functions.

The present invention also relates to a battery device with a cooling device with cooling channels for guiding cooling fluid for cooling the battery device. Such a battery device has a return device according to the invention and at least one sealing device according to the invention. A sealing device is preferably provided for each cooling channel pair, that is to say for each flow channel and for each return channel. A battery device according to the invention thus brings the same advantages as have been explained in detail with reference to a return device according to the invention and with reference to a sealing device according to the invention.

• 1 eine Ausführungsform einer erfindungsgemäßen Dichtvorrichtung in perspektivischer Darstellung,
• 2 die Ausführungsform der 1 in seitlicher Darstellung,
• 3 die Ausführungsform der 1 und 2 in weiterer seitlicher Darstellung,
• 4 die Ausführungsformen der 1 bis 3 in Draufsicht,
• 5 die Anordnung einer erfindungsgemäßen Dichtvorrichtung in einem Teilschnitt,
• 6 eine Ausführungsform einer erfindungsgemäßen Batterievorrichtung,
• 7 die Ausführungsform einer erfindungsgemäßen Batterievorrichtung ohne Dichtvorrichtung,
• 8 die Ausführungsform einer erfindungsgemäßen Batterievorrichtung mit geschlossener Rückführvorrichtung und
• 9 eine Ausführungsform einer erfindungsgemäßen Rückführvorrichtung.

Further advantages, features and details of the invention emerge from the following description in which, with reference to FIG Drawings embodiments of the invention are described in detail. The features mentioned in the claims and in the description can each be essential to the invention individually or in any combination. They show schematically:

• 1 an embodiment of a sealing device according to the invention in a perspective view,
• 2 the embodiment of the 1 in side view,
• 3 the embodiment of the 1 and 2 in another illustration on the side,
• 4th the embodiments of the 1 to 3 in plan view,
• 5 the arrangement of a sealing device according to the invention in a partial section,
• 6th an embodiment of a battery device according to the invention,
• 7th the embodiment of a battery device according to the invention without a sealing device,
• 8th the embodiment of a battery device according to the invention with a closed return device and
• 9 an embodiment of a return device according to the invention.

The 1 to 4th show one possibility of a sealing device according to the invention 10 . This is with a base body 20th equipped, which has two component components. This is, on the one hand, the group of sealing components that form the forward sealing section 30th , the return seal section 40 and on the opposite side the circumferential sealing section 50 having. A stiffening section is also the second component group 80 provided, which here has a metallic material and additionally a stiffening frame 82 completely all around the body 20th provides. In the embodiment of these figures, there is a single component as a stiffening section 80 , which also integrates the stiffening frame 82 having. In addition, in this component are the stiffening section 80 Grooves formed in which the sealing sections 30th , 40 and 50 are arranged.

As can be seen, on the one hand, in 2 on top of the forward sealing section 30th and the backflow sealing portion 40 . There are guide sections here via conical slopes 60 provided, the insertion sections for an even further improved relative positioning during assembly 62 have as a star-shaped rib structure. This star-shaped rib structure is like this the one 4th shows permeable to the corresponding cooling fluid when it passes through the base body 20th .

On the opposite side, i.e. in 2 on the bottom, is the circumferential sealing section 50 to recognize how he is particularly also in the 3 and 4th is shown. This in turn comes with a positioning section 70 equipped, which is able, also by conical design, the relative positioning to the circulation channel explained later 110 to provide. It goes without saying that an embodiment without such a positioning section is also possible 70 possible. In such a case, assembly is carried out, for example, by axial pressing.

The functionality of the sealing functions goes in particular into 5 well. A partial section can be seen here with the sealing device inserted 10 . The two cooling channels 212 extend in a plate-shaped cooling device 210 the battery device 200 . On the front of the cooling device 210 are the corresponding counter-sealing sections, i.e. the counter-flow sealing section 230 and the counter-backflow sealing portion 240 to recognize flat. These are able to make a sealing contact with the corresponding flow sealing section 30th and the return seal portion 40 to arrive when the sealing device 10 via the lead-in section 62 and the guide section 60 is used. Here, too, assembly is of course also possible without a guide section 60 possible, for example by radial pressing. Then after doing this for all adjacent cooling ducts 212 has been carried out, the common feedback body 120 the return device 100 placed and using appropriate fastening means through the fastening sections 122 attached through. In doing so, it reaches the opposite side of the sealing device 10 arranged circumferential sealing section 50 now in a flat and thus sealing contact in the axial direction with the counter-rotating sealing section 150 . The sealing force is set by the fastening force of the fastening means. Like in the 5 can still be seen clearly, the circulation channel 110 except for the main body 20th the sealing device 10 through a side wall 112 and an axial wall 114 limited, and can be formed inexpensively and easily, for example by machining, as a slot groove. A build-up production or the use of an injection molding process, in particular with plastic, is also conceivable for producing such a design.

Next is that 5 easy to see how through the sealing device 10 so to speak, an empty hollow channel is bridged. The two adjacent cooling channels 212 have in this embodiment an empty hollow channel between them. This is through the flow sealing section 30th and the backflow sealing portion 40 sealed.

The 6th shows schematically how a variety of cooling channels 212 in a cooling device 210 the battery device 200 with a corresponding feedback device 100 with a variety of circulation channels 110 can work together. The 7th shows the situation before the assembly of the individual sealing devices 10 for such a cooling device 210 the battery device 200 . Once the feedback body 120 the return device 100 has been arranged and secured, the situation arises as in 8th shown. 9 shows an open feedback body 120 the return device 100 . Here are the multitude of circulation channels again 110 and the respective adjacently arranged fastening sections 122 clearly visible. Also the circumferential counter-circumferential sealing sections 155 as well as the corresponding side walls 112 and axial walls 140 of the circulation channels 110 are in the 9 shown.

The above explanation of the embodiments describes the present invention exclusively in the context of examples. Of course, individual features of the embodiments can be freely combined with one another, provided that they are technically sensible, without departing from the scope of the present invention.

Claims (10)

Sealing device (10) for sealing a return device (100) for adjacent cooling channels (212) of a cooling device (210) of a battery device (200), having a base body (20) with a forward sealing section (30) for circumferential sealing against a counter-forward sealing section ( 230) of the cooling device (210) and a return sealing section (40) for circumferential sealing against a counter-return sealing section (240) of the cooling device (210), further comprising a circumferential sealing section (50) for circumferential sealing against a counter-circumferential sealing section (150) of a circulating duct (110) of the return device (100). Sealing device (10) after Claim 1 , characterized in that the flow sealing section (30) and / or the return sealing section (40) have a guide section (60) for a guiding engagement in the respective cooling channel (212) of the cooling device (210). Sealing device (10) after Claim 2 , characterized in that the guide section (60) has an insertion section (62), in particular in the form of a cross-rib, for easier insertion and centering of the guide section (60) for the respective cooling channel (212). Sealing device (10) according to one of the preceding claims, characterized in that the circumferential sealing section (50) has at least one positioning section (70) for a relative positioning of the circumferential sealing section (50) and / or the base body (20) to the circulation channel (110) of the return device (100). Sealing device (10) according to one of the preceding claims, characterized in that the base body (20) has a stiffening section (80) for mechanical stiffening of the base body (20), in particular the flow sealing section (30) and / or the return sealing section (40). Sealing device (10) after Claim 5 , characterized in that the stiffening section (80) has a stiffening frame (82) which at least partially, in particular completely or essentially completely surrounds the forward sealing section (30), the return sealing section (40) and / or the circumferential sealing section (50). Sealing device (10) according to one of the preceding claims, characterized in that the flow sealing section (30) and the return sealing section (40) are identical or essentially identical, in particular symmetrical or essentially symmetrical. Return device (100) for the return of cooling fluid between adjacent cooling channels (212) of a cooling device (210) of a battery device (200), comprising a return body (120) with at least one circulation channel (110) with at least one side wall (112) and at least one axial wall (114), the at least one side wall (112) being surrounded circumferentially by a counter-circumferential sealing section (150) for sealing against a circumferential sealing section (50) of a sealing device (10) having the features of one of the Claims 1 to 7th . Return device (100) after Claim 8 , characterized in that the return body (120) has at least one fastening section (122), in particular at least two fastening sections (122) on both sides of the at least one circulating channel (110). Battery device (200) with a cooling device (210) with cooling channels (212) for guiding cooling fluid for cooling the battery device (200), having a return device (100) with the features of Claim 8 or 9 and at least a sealing device (10) having the features of at least one of the Claims 1 to 7th .

Images