DE102019117530A1 - Method for testing an arrangement for cooling or heating a battery cell, and system for carrying out the method - Google Patents

Abstract

The invention proposes a method for testing an arrangement for cooling or heating a battery cell. The arrangement has a receiving structure (1) for a battery cell, a heat transfer structure (3) for cooling or heating the receiving structure (1) and a heat conducting means (2), wherein the heat conducting means (2) is arranged between an electrically conductive contact surface of the receiving structure (1) and an electrically conductive contact surface of the heat transfer structure (3). The method has the following method steps: - Providing a measuring device (4), wherein the measuring device (4) is set up to measure a current-voltage relationship between two measuring points, the measuring device (4) having two contact elements (5) for contacting the measuring points, - contacting the receiving structure (1) with the one contact element (5) - Contacting the heat transfer structure (3) with the other contact element (5), - Measuring the current spa There is also proposed a system for carrying out such a method.

Description

The invention relates to a method for testing an arrangement for cooling or heating a battery cell, and also to a system for carrying out such a method.

Battery systems consist of one or more battery cell modules, among other things. Power loss in the form of heat also occurs in the battery cells of the battery cell modules during operation. Therefore, cooling systems are often installed in battery systems. The cooling takes place via a contact surface between the cooling system and the battery cell module or the battery cells. Due to manufacturing tolerances and electrical insulation requirements, there is a gap between the cooling system and the battery cell module or the respective battery cell. This gap is often bridged by a heat conducting agent, which is in particular a thermal conductive paste, in order to maintain the thermal conductivity with simultaneous electrical insulation. For optimal heat conduction, both the battery cell modules or battery cells and the cooling systems are often designed with metallic surfaces.

To ensure the required complete wetting of the contact surface with heat transfer agent, test series are carried out in the form of a type test as part of the process qualification. The process in production is monitored indirectly via other process parameters. A complex X-ray procedure or a destructive test is required as part of the type test. The result of a test is only available with a time delay of several minutes or hours. The effort required can mean that only a fraction of the total number of battery cells produced is tested.

From the EP 2 343 769 A1 a device for heating and cooling a battery is known, this battery being used to drive a vehicle. The device has the battery with a plurality of battery cells, a coolant circuit which has at least one coolant line, an electrical heating element and a common heat transfer component for the heat transfer between the battery and the coolant line and the electrical heating element. A heat conduction means, which is a thermally conductive paste, is provided between the heat transfer component and the electrical heating element and / or the coolant line.

The US 2013/0164576 A1 also discloses cell modules for a battery that are thermally coupled to a cooling system by means of heat conducting elements.

The object of the present invention is to create a method which enables rapid, non-destructive, precise testing of an arrangement for cooling or heating a battery cell. Another object of the invention is to provide a structurally simple system for carrying out the method.

The object is achieved by a method that has the features of claim 1, and also a system that has the features of claim 10. Advantageous further developments are the subject of the subclaims.

In the method according to the invention for testing an arrangement for cooling or heating a battery cell, the arrangement has a receiving structure for a battery cell, a heat transfer structure for cooling or heating the receiving structure, furthermore a heat conducting means, the heat conducting means between an electrically conductive contact surface of the receiving structure and an electrically conductive one Contact surface of the heat transfer structure is arranged on. The following process steps are provided for this arrangement:

• Provision of a measuring device, the measuring device being set up to measure a current-voltage relationship between two measuring points, the measuring device having two contact elements for contacting the measuring points,
• - Contacting the receiving structure with the one contact element,
• - Contacting the heat transfer structure with the other contact element,
• - Measuring the current-voltage relationship between the two measuring points.

The measurement of the current-voltage relationship between the two measuring points allows a statement to be made about the degree of contact between the electrically conductive contact surface of the receiving structure and the electrically conductive contact surface of the heat transfer structure by means of the heat conducting means.

In particular, the heat-conducting agent has a heat-conducting paste or the heat-conducting means is formed by a heat-conducting paste.

Under the aspect of a particularly favorable heat transfer, it is provided in particular that the electrically conductive contact surface of the receiving structure and the electrically conductive Contact surface of the heat transfer structure are metallic.

The measurement of the current-voltage relationship between the two measuring points is preferably one which comprises measuring a current-voltage characteristic curve between the measuring points.

In particular, at least one of the following values is determined from the measured current-voltage relationship and / or current-voltage characteristic: direct current resistance, alternating current resistance, capacitance.

It is considered to be particularly advantageous if the contact surface of the receiving structure and the contact surface of the heat transfer structure form a capacitor. This is in particular a plate capacitor.

The heat conducting agent is preferably a dielectric. In particular, this is an electrically non-conductive dielectric.

The contact surface of the receiving structure and / or the contact surface of the heat transfer structure are preferably designed as a closed surface. The contact surfaces thus have a homogeneous surface structure that is advantageous for the measurement.

In particular, the contact surfaces are arranged at a distance from one another.

The receiving structure is in particular a metallic cell frame of the battery cell.

It is provided, in particular, that the measured current-voltage relationship and / or the measured current-voltage characteristic curve and / or the determined value are compared with a reference variable. Deviations from this lead to the conclusion that, for example, there is no or only incomplete wetting of the heat conducting agent or the heat conducting agent has a different conductivity.

In particular, it is provided that the reference variable is measured and / or determined in accordance with the method according to the invention or the described developments of the method according to the invention, the method being carried out with a reference arrangement for cooling or heating a battery cell.

The system according to the invention for carrying out the method has an arrangement which has a receiving structure for a battery cell, a heat transfer structure for cooling or heating the receiving structure and a heat conducting means, the heat conducting means being arranged between an electrically conductive contact surface of the receiving structure and an electrically conductive contact surface of the heat transfer structure , on. The system also has a measuring device, the measuring device being set up to measure a current-voltage relationship between two measuring points, the measuring device having two contact elements for contacting the measuring points. In the system it is provided that one contact element contacts the receiving structure and the other contact element contacts the heat transfer structure.

Further features of the invention emerge from the dependent claims, the attached drawing and the description of the exemplary embodiment shown in the drawing, without being restricted thereto.

• 1 in einer schematischen Darstellung ein System zum Prüfen einer Anordnung zum Kühlen oder Erwärmen einer Batteriezelle.

It shows:

• 1 in a schematic representation a system for testing an arrangement for cooling or heating a battery cell.

Figure description

A recording structure 1 for a battery cell is designed as a metallic cell frame. A thermal conductor 2 , which is a thermal paste, a so-called non-conductive gap filler, is between the receiving structure 1 and a heat transfer structure 3 for cooling or heating the receiving structure 1 arranged. At the heat transfer structure 3 it is a cooling system. The recording structure 1 , the heat transfer agent 2 and the heat transfer structure 3 form a capacitor. The fully wetted thermal interface 2 has a characteristic dielectric constant.

A measuring device 4th has two contact elements 5 , 5 on. The measuring device 4th is set up to measure a current-voltage relationship between two measuring points, the measuring device 4th the two contact elements 5 , 5 for contacting the measuring points. The one contact element 5 contacts the host structure 1 and the other contact element 5 the heat transfer structure 3 .

As the metallic receiving structure 1 , the metallic contact surface of the heat transfer structure 3 and the heat conduction agent disposed therebetween 2 Form a plate capacitor is a conclusion from the measured current-voltage relationship or current-voltage characteristic curve on the surface coverage with regard to the electrically conductive contact surface of the receiving structure 1 and the electrically conductive contact surface of the Heat transfer structure 3 through the heat transfer agent 2 possible.

In a series of tests, the typical measured values for the current and voltage characteristics with complete surface coverage or wetting are established as part of the process qualification.

• - Die Prüfung erfolgt direkt. Abweichungen in den Messergebnissen lassen darauf schließen, dass zum Beispiel keine Benetzung oder nur eine unvollständige Benetzung vorliegt oder dass das Wärmeleitmittel eine andere Leitfähigkeit aufweist.
• - Die Prüfung erfolgt zerstörungsfrei.
• - Das Ergebnis liegt schnell, das heißt innerhalb weniger Sekunden bzw. Minuten vor. Die Prüfung kann somit als Inline-Prüfung im Prozess implementiert werden. - Aufgrund des geringen Aufwands können alle produzierten Teile geprüft werden.

The improved quality inspection is carried out as part of battery production:

• - The test is carried out directly. Deviations in the measurement results suggest, for example, that there is no wetting or only incomplete wetting or that the heat transfer agent has a different conductivity.
• - The test is non-destructive.
• - The result is available quickly, i.e. within a few seconds or minutes. The check can thus be implemented as an inline check in the process. - Due to the low effort, all parts produced can be checked.

The test can also be carried out during the development phase or in series during error analysis.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• EP 2343769 A1 [0004]
• US 2013/0164576 A1 [0005]

Claims (16)

A method for testing an arrangement for cooling or heating a battery cell, the arrangement comprising: - a receiving structure (1) for a battery cell, - a heat transfer structure (3) for cooling or heating the receiving structure (1), - A heat conducting means (2), the heat conducting means (2) being arranged between an electrically conductive contact surface of the receiving structure (1) and an electrically conductive contact surface of the heat transfer structure (3), the method having the following method steps: - Provision of a measuring device (4), the measuring device (4) being set up to measure a current-voltage relationship between two measuring points, the measuring device (4) having two contact elements (5) for contacting the measuring points, - Contacting the receiving structure (1) with the one contact element (5), - Contacting the heat transfer structure (3) with the other contact element (5), - Measuring the current-voltage relationship between the two measuring points. Procedure according to Claim 1 , wherein the heat conducting means (2) comprises a heat conducting paste or is formed by a heat conducting paste. Procedure according to Claim 1 or 2 , the contact surfaces being metallic. Method according to one of the Claims 1 to 3 wherein the method comprises measuring a current-voltage characteristic between the measuring points. Method according to one of the Claims 1 to 4th , wherein at least one of the following values is determined from the measured current-voltage relationship and / or current-voltage characteristic: direct current resistance, alternating current resistance, capacitance. Method according to one of the Claims 1 to 5 , wherein the contact surface of the receiving structure (1) and the contact surface of the heat transfer structure (3) form a capacitor. Procedure according to Claim 6 , wherein the capacitor is a plate capacitor. Method according to one of the Claims 1 to 7th , wherein the heat conducting agent (2) is a dielectric. Procedure according to Claim 8 , wherein the dielectric is an electrically non-conductive dielectric. Method according to one of the Claims 1 to 9 , wherein the contact surface of the receiving structure (1) and / or the contact surface of the heat transfer structure (3) are designed as a closed surface. Method according to one of the Claims 1 to 10 , wherein the contact surface of the receiving structure (1) and the contact surface of the heat transfer structure (3) are arranged parallel to one another. Method according to one of the Claims 1 to 11 , wherein the contact surfaces are arranged at a distance from one another. Method according to one of the Claims 1 to 12 , wherein the receiving structure (1) is a metallic cell frame of the battery cell. Method according to one of the Claims 1 to 13th , the measured current-voltage relationship and / or the measured current-voltage characteristic curve and / or the determined value being compared with a reference variable. Procedure according to Claim 14 , wherein the reference variable by means of a method according to one of the Claims 1 to 13th is measured and / or determined, the method being carried out with a reference arrangement for cooling or heating a battery cell. System for carrying out the method according to one of the Claims 1 to 15th , comprising - an arrangement, the arrangement having: - a receiving structure (1) for a battery cell, - a heat transfer structure (3) for cooling or heating the receiving structure (1), - a heat conducting means (2), the heat conducting means (2) is arranged between an electrically conductive contact surface of the receiving structure (1) and an electrically conductive contact surface of the heat transfer structure (3), - a measuring device (4), the measuring device (4) being set up to establish a current-voltage relationship between two measuring points measure, the measuring device (4) having two contact elements (5) for contacting the measuring points, one contact element (5) contacting the receiving structure (1) and the other contact element (5) contacting the heat transfer structure (3).

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