DE102019127039A1 - Battery module - Google Patents

Abstract

The invention relates to a battery module, in particular a secondary battery, with at least one cell stack, the cell stack having at least one, preferably a plurality of prismatic battery cells (100), and the cell stack with at least one end plate (200) arranged at a first end of the cell stack , the at least one end plate (200) being arranged essentially parallel to the central plane (E) of the at least one battery cell (100) of the at least one cell stack, and a receiving device (500) for receiving at least one battery cell (100) at least one end plate (200), preferably of the at least one cell stack, is provided, wherein at least one contacting device (400) is arranged in the receiving device, which is non-positively connected to at least one contacting element (300) which is arranged in or on an end plate (200) cooperates to make electrical contact, and wherein the Aufnah Measuring device (500) additionally has a temperature control device (501) for temperature control of the battery module, in particular the contacting device (400).

Description

The invention relates to a battery module, in particular a secondary battery, with at least one cell stack, the cell stack having at least one, preferably a multiplicity of prismatic battery cells, and wherein the cell stack has at least one end plate which is arranged at a first end of the cell stack, wherein the at least one end plate is arranged essentially parallel to the center plane of the at least one battery cell of the at least one cell stack.

In the context of this disclosure, the middle plane is understood to mean that virtual plane that runs parallel to the two cover surfaces and perpendicular to the four narrow sides of the prismatic battery cell and thus divides the prismatic base body of the battery cell into two essentially symmetrical halves along its longitudinal axis, without any connection elements the battery cell.

Secondary batteries according to the prior art usually have a large number of battery modules which are connected to one another either by means of a screw connection or a plug connection. A problem with the screw connections is that there is usually no protection against accidental contact. Depending on the type of connection, the assembly of the battery can be extremely complex and time-consuming. In any case, the wiring for the heavy current within the battery must be connected and fixed separately.

The US 8,652,678 B2 describes a battery module with a cell stack with a plurality of battery cells, a housing having a base plate being provided, in which groove-like receptacles are provided for receiving the individual battery cells. The individual battery cells are arranged in a cell carrier, with the aid of which the battery cell can be inserted into the housing. For this purpose, each individual battery cell must first be arranged in a cell carrier made of metal, in order to then be inserted into the housing. The battery cells are contacted in the manner already described above.

It is an object of the invention to provide a battery module which allows the individual battery cells or the cell stack to be installed quickly and easily in a battery module.

This object is achieved according to the invention by a battery module of the type mentioned at the outset in that a receiving device is provided for receiving at least one battery cell with at least one end plate, preferably for receiving the cell stack, at least one contacting device being arranged in the receiving device and having at least one Contacting element, which is arranged in or on the at least one end plate, cooperates non-positively in order to produce an electrical contact, and wherein the receiving device additionally has a temperature control device for temperature control of the contacting device.

The present invention provides that at least one contacting device is arranged in the receiving device. When assembling the battery module according to the invention, the individual battery cells are first combined to form a cell stack, an end plate being arranged on at least one end of the cell stack, preferably on each end of the cell stack. The cell stack with the at least one end plate is then inserted into the receiving device. According to the invention, the receiving device has a contacting device which serves to contact the cell stack. For this purpose, a contacting element is arranged at least in or on the at least one end plate, which interacts positively with the contacting device in order to produce an electrical contact. For this purpose, the end plate is designed like a cavity, so that the contacting element is advantageously arranged in a cavity formed in the end plate. This structure of the battery module allows the battery cells to be packed particularly tightly in the cell stack and thus reduces the size. However, this denser packing also requires improved cooling of the battery module and, in particular, of the contacting device, so that the invention provides that a temperature control device, in particular a cooling device for a preferably liquid coolant, is additionally arranged in the receiving device.

This temperature control device can be designed, for example, as a cooling plate or as one or more cooling channels, preferably in the receiving device.

In a particularly preferred embodiment of the invention, it is provided that the at least one contacting device is designed as a busbar. Busbar connections are often used to make contact with battery cells and / or cell stacks. In the present invention, at least one busbar is preferably arranged non-detachably in the receiving device and is in electrical contact with the contacting element arranged in the end plate. Here, a first end of the contacting device is in electrical contact with a contacting region of a first battery cell, while a second end of the at least one contacting device is at least one Contacting element is in electrical contact by means of frictional connection.

For example, it can be provided that the at least one contacting device is designed as a busbar which has an L-shape or a U-shape, at least one leg of the busbar being in contact with the end plate, and here with the contacting element.

If the at least one end plate has at least one receiving area for receiving the at least one contacting element, it can be provided according to the invention in a further embodiment of the invention that the leg of the contacting device which is in contact with the end plate projects into this receiving area. The receiving area of the end plate is advantageously designed like a cavity and a contacting element is arranged in the receiving area. This embodiment of the invention has the advantage that the area in which the electrical contact between the contacting device and the contacting element is made is protected against unwanted contact.

According to the invention, in a further variant it is provided that the at least one contacting element is designed as a plug-in connection which is in non-positive contact with the contacting device via an essentially pliers-like connecting element.

In order to obtain particularly efficient cooling, in a further preferred variant of the invention the temperature control device is designed as an integral part of the receiving device, the receiving device advantageously being constructed in a sandwich construction. The temperature control device has the task of cooling the contacting device in particular. It is advantageous here that the temperature control device can be arranged in the receiving device such that in addition to the contacting device, the battery cell itself is also cooled.

A major advantage of the present invention is that when assembling the battery module according to the invention, the individual battery cells do not have to be screwed together, but rather are plugged in. Here, the battery cells are prefabricated, pre-assembled and contacted via the receiving device. This type of assembly is particularly flexible and simple and prevents accidental contact with live parts. Likewise, in the event of a defect in individual battery cells, they can be replaced quickly and safely without there being any risk of touching live parts. In addition, the contacting itself is also cooled in the battery module according to the invention, so cooling takes place in an area in which a relatively high heat development occurs due to the currents flowing in the contacting.

• 1 eine perspektivische Ansicht einer Batteriezelle mit Endplatte;
• 2A eine erste Schnittansicht eines Kontaktierungselements;
• 2B eine zweite Schnittansicht des Kontaktierungselements aus 2A;
• 3 eine schematische Ansicht des Batteriezelle mit Endplatte aus 1 in kontaktiertem Zustand; und
• 4 eine geschnittene Ansicht der Darstellung aus 3.

The invention is explained in more detail below on the basis of non-limiting exemplary embodiments with associated figures. In it show:

• 1 a perspective view of a battery cell with end plate;
• 2A a first sectional view of a contacting element;
• 2 B a second sectional view of the contacting element 2A ;
• 3rd a schematic view of the battery cell with end plate 1 in contacted condition; and
• 4th a sectional view of the representation 3rd .

In the 1 is a battery cell 100 with two contact surfaces 101A , 101B shown. This battery cell 100 has an essentially prismatic structure, as is customary, for example, for lithium-ion battery cells. On a surface of the battery cell 100 , which are essentially parallel to a central plane E of the battery cell 100 is an end plate 200 arranged. This end plate 200 has four recording areas in this version 201A , 201B , 201C , 201D for receiving contacting elements, such as commercially available plug connections. These contacting elements are in the cavity-like receiving areas 201A , 201B , 201C , 201D the end plate 200 arranged to ensure at all times that accidental contact with live parts is avoided.

Such a commercially available connector 300 is exemplary in a sectional view ( 2A) as well as in a side view ( 2 B) shown. This connector 300 has a gripper-like gripping element 301 on, which is set up to make a non-positive electrical contact with a contacting element in the receiving device according to the invention. The shaft 302 the connector 300 is used to connect a cable.

In 3rd is the battery cell 100 with the associated end plate 200 Shown in a view from above, with a busbar 400 with a substantially L-shaped cross section with a contact area 101A the battery cell 100 is in electrical contact. In the end plate 200 is in a recording area 201A a Contacting element 300 arranged, the pliers-like gripping element 301 with one leg 401 the track 400 is in frictional contact to establish an electrical connection ( 4th ).

In the 4th is the contacting arrangement as in 3rd shown in a sectional side view, with a view of the battery cell for the sake of a better overview 100 and their known contacting by means of a busbar 400 was waived.

The in the 4th detail of the receiving device according to the invention 500 has a base plate in which the busbar 400 is arranged insoluble, preferably cast. This track 400 protrudes with one leg 401 into the cavity-like receiving area 201A the end plate 200 , being in the recording area 201A a contacting element 300 is arranged, in the present embodiment of the invention as a connector - as in the 2A and 2 B shown - is realized. This contacting element 300 grips with its gripping element 301 the first leg 401 the contacting device 400 , in the present case a busbar.

The cradle 500 according to the invention has a cooling device 501 for cooling the contacting device 400 by means of preferably liquid coolant. For this purpose, the receiving device 500 sandwiched and has a cooling channel 501 through which a coolant can be passed. In this way, the contacting device in particular 400 cooled efficiently, which allows a denser packing and space-saving design of the battery module according to the invention.

It is understood that the present invention is not limited to the embodiments described above, in particular the shape of the contacting elements 300 as well as that of the contacting device 400 vary.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included 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

• US 8652678 B2 [0004]

Claims (8)

Battery module, in particular a secondary battery, with at least one cell stack, the cell stack having at least one, preferably a plurality of prismatic battery cells (100), and wherein the cell stack has at least one end plate (200) which is arranged at a first end of the cell stack , wherein the at least one end plate (200) is arranged substantially parallel to the central plane (E) of the at least one battery cell (100) of the at least one cell stack, characterized in that a receiving device (500) for receiving at least one battery cell (100) at least one end plate (200), preferably of the at least one cell stack, is provided, wherein at least one contacting device (400) is arranged in the receiving device, which is non-positively connected to at least one contacting element (300) which is arranged in or on an end plate (200) cooperates to make electrical contact, and wherein the A Receiving device (500) additionally has a temperature control device (501) for temperature control of the battery module, in particular the contacting device (400). Battery module after Claim 1 , characterized in that the at least one contacting device (400) is designed as a busbar, which preferably has an L-shape or a U-shape. Battery module after Claim 1 or 2nd characterized in that the at least one contacting device (400) is in electrical contact with a first end (401) with a contacting region (101A) of a first battery cell (100), while a second end (402) of the at least one contacting device (400) is in electrical contact with at least one contacting element (300) by means of a frictional connection. Battery module after Claim 3 , characterized in that the at least one end plate (200) has at least one receiving area (201A, 201B, 201C, 201D) for receiving at least one contacting element (300). Battery module according to one of the Claims 1 to 4th , characterized in that the contacting element (300) is in frictional contact with the contacting device (400) via a pliers-like connecting element (301). Battery module according to one of the Claims 1 to 5 , characterized in that the temperature control device (501) is designed as an integral part of the receiving device (500), the receiving device (500) advantageously being constructed in a sandwich construction. Battery module according to one of the Claims 1 to 6 , characterized in that an end plate (200) has a cavity-like receiving area (201A, 201B, 201C, 201D). Battery module after Claim 7 , characterized in that the contacting device (400) projects with one leg (401) into the cavity-like receiving area (201A, 201B, 201C, 201D) of the end plate (200).

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