DE102019210782A1 - Lid assembly and method of making a lid assembly - Google Patents

Abstract

The invention relates to a cover assembly of a battery cell, a method for its production and its use. The cover assembly of a battery cell comprises a cover plate (22, 32) with at least one opening (24, 34) and further comprises at least one terminal (26, 36), the at least one terminal (26, 36) through the at least one opening (24 , 34) of the cover plate (22, 32), and wherein the at least one terminal (26, 36) is bent in such a way that the at least one terminal (26, 36) is connected to the cover plate (22, 32) in a force-locking manner.

Description

The present invention relates to a cover assembly of a battery cell, a method for its production and its use according to the preamble of the independent patent claims.

State of the art

A battery cell is an electrochemical converter that, when discharged, converts the stored chemical energy into electrical energy. The electrical energy can be used to drive vehicles in electric vehicles. Batteries containing lithium are particularly suitable for this because of their comparatively high reliability and performance. As an elementary unit of a lithium-containing battery cell, an electrode unit comprises at least one positive electrode, one negative electrode and a separator arranged in between. A conductor flag is provided on each individual electrode. The positive and negative conductor tabs are separately bundled on the side of the electrodes and connected to a positive or negative current collector.

The electrode units are accommodated in a housing to form a battery cell. The housing can be designed prismatic, round or film-like. A prismatic housing is typically closed with a plate-shaped cover. The positive or negative current collectors are led out of the housing through an opening in the cover and are connected to a positive or negative terminal.

The positive or negative terminal is typically arranged on the cover.

The positive or negative terminal is connected to the positive or negative current collector in the interior of the housing through an opening on the cover. If the opening is not closed tightly, air or liquid can penetrate through the opening into the interior of the housing. Electrode units react very sensitively to such external influences. Therefore, the sealing of the opening must be made as good as possible.

From document D1 ( EP 2495784 B1 ) a battery comprising a housing and an electrode arrangement positioned in the housing is known. The housing is closed with a cover plate. The battery further comprises a current collector which is connected to the electrode arrangement and to which a terminal is connected. The terminal includes a rivet section and a pin-shaped connection section. Furthermore, the battery comprises a connection plate arranged above the cover plate, the connection plate including an inclined surface which carries the rivet section of the terminal.

Disclosure of the invention

According to the invention, a cover assembly of a battery cell, a method for its production and its use with the features of the independent claims are provided.

The cover assembly according to the invention comprises a cover plate with at least one opening and further comprises at least one terminal. The at least one terminal is guided through the at least one opening in the cover plate. Furthermore, the at least one terminal is bent over in such a way that the at least one terminal is connected to the cover plate with a force fit.

It is advantageous that the at least one terminal of the cover assembly according to the invention does not become detached from the cover plate in the event of an impact or a swelling of a battery cell housing. This suppresses external influences such as air or liquid from the environment on the electrochemical units of a battery cell. This protects the battery cell from external influences and thus ensures the reliability of the battery cell.

Further advantageous embodiments of the present invention are the subject of the subclaims.

It is therefore advantageous if the at least one terminal is bent over by means of a riveting process. As an alternative to the riveting process, a pressing process is also conceivable. A folding process is also possible. These methods can be carried out relatively easily and inexpensively.

It is also advantageous if the at least one opening in the cover plate is surrounded by a sealing element. The sealing element is designed to mitigate a force to be exerted on the cover plate during a riveting process, a pressing process or a folding process. This protects the cover plate from mechanical damage. Furthermore, the seal between the opening of the cover plate and the terminal is improved by the sealing element.

It is also advantageous if the at least one terminal contains a first part with a recess. It is also advantageous if a second part is additionally positioned within the recess of the first part of the terminal. It is advantageous that the second part without structural Changes to the first part is positioned within the recess. Furthermore, a contact surface for conducting a current flow through the first part is larger and therefore less heat is generated in the area of the at least one terminal.

According to a further aspect of the invention, a method for manufacturing a cover assembly is provided. In a first method step, a cover plate with at least one opening is provided.

At least one terminal is then provided in a second method step. Furthermore, in a third method step, the at least one terminal is passed through the at least one opening in the cover plate. Furthermore, in a fourth method step, the at least one terminal is bent over so that the at least one terminal is connected to the cover plate with a force fit.

Such a cover assembly is thus produced by means of a relatively simple and inexpensive method.

It is advantageous if, in the second method step, the at least one terminal is provided with a first part comprising a recess. It is also advantageous if, in the second method step, a second part of the at least one terminal is additionally arranged in the recess of the first part.

It is also advantageous if, in the fourth method step, the at least one terminal is bent over by means of a riveting process, a pressing process or a folding process.

The cover assembly according to the invention can advantageously be used in lithium-containing battery systems such as lithium-ion batteries, lithium-containing solid-state batteries, lithium-sulfur or lithium-air batteries. These can be used in electric vehicles, in hybrid vehicles, or in stationary applications such as storing regeneratively generated energy.

Figure list

• 1a: eine schematische Darstellung eines Terminals,
• 1b: eine schematische Darstellung einer Deckelbaugruppe,
• 2: eine schematische Darstellung einer erfindungsgemäßen Deckelbaugruppe gemäß einer ersten Ausführungsform,
• 3: eine schematische Darstellung einer weiteren erfindungsgemäßen Deckelbaugruppe gemäß einer zweiten Ausführungsform,
• 4: ein beispielhaftes Ablaufdiagramm eines erfindungsgemäßen Verfahrens zur Herstellung einer Deckelbaugruppe.

In the drawing, advantageous embodiments of the present invention are shown and explained in more detail in the following description of the figures. It shows:

• 1a : a schematic representation of a terminal,
• 1b : a schematic representation of a cover assembly,
• 2 : a schematic representation of a cover assembly according to the invention according to a first embodiment,
• 3 : a schematic representation of a further cover assembly according to the invention according to a second embodiment,
• 4th : an exemplary flow diagram of a method according to the invention for producing a cover assembly.

In 1a is a terminal 16 shown schematically. The terminal 16 comprises, for example, a bushing element containing a first part 162 , which is sleeve-shaped, for example, and a second part 164 , which is for example pen-shaped. The bushing element is on a terminal plate 166 attached, for example welded. The terminal plate 166 made of the same metal as the bushing element. It is also possible that the terminal plate 166 has a different metal than the lead-through element. Copper or aluminum is suitable as a metal for this. Furthermore it is also possible that the first part 162 a different metal than the second part 164 having.

Alternatively, the lead-through element is made exclusively from the first part 162 educated. The first part is also an alternative 162 and the second part 164 manufactured as one component.

The terminal 16 can for example be in a lid assembly 10 according to 1b deploy. The lid assembly 10 includes a cover plate 12 made of metal, polymer or ceramic, for example. The first terminal is on the periphery of the cover plate 16 arranged through a first opening 14th the cover plate 12 is led. A second opening to receive a second terminal, which is preferably the same as the first terminal 16 is designed is in 1b not shown.

The cover assembly further comprises 10 a sealing element 18th , for example, comprising a polymer. Possible materials for the sealing element 18th include ethylene-propylene-diene rubbers (EPDM) or polyvinylidene fluoride (PVDF). The materials for forming the, for example, annular sealing element can thereby 18th all around the first opening 14th be injected.

The lid assembly 10 differs essentially from a cover assembly according to the invention 20th according to 2 in that a first terminal 26th in 2 is riveted, pressed or folded in such a way that the first terminal 26th frictionally with a cover plate 22nd is connected. The first terminal includes 26th a first part 262 going through a first opening 24 the Cover plate 22nd is led. Furthermore is the first terminal 26th attached to a terminal plate, not shown, which has an opening in the middle. The opening is positively connected, for example, to a safety valve. Between the first part 262 of the first terminal 26th and the cover plate 22nd is a sealing element 28 positioned that the sealing element 18th according to 1 corresponds. A second opening to receive a second terminal, which is preferably the same as the first terminal 26th is designed is in 2 not shown.

According to a second embodiment of the present invention is a further cover assembly 30th in 3 shown schematically. This includes the cover assembly 30th a cover plate 32 with a first opening through which a first terminal 36 is led. A second opening to receive a second terminal, which is preferably the same as the first terminal 36 is designed is in 3 not shown.

The first terminal 36 for example contains a first part 362 and a second part 364 . The first part 362 is bent over, for example by means of a riveting process, so that the first terminal 36 with the cover plate 32 is positively connected. Alternatively is the first part 362 for example bent by means of a pressing process or a folding process.

In 4th is an exemplary flow chart of a method according to the invention 40 for making a cover assembly 20th , 30th shown. The inventive method 40 comprises a first process step 42 , in which a cover plate 22nd , 32 with at least one opening 24 , 34 provided. Then in a second process step 44 a first terminal 26th , 36 provided. The first terminal contains 26th at least a first part 262 with a recess. Alternatively, in the second process step 44 a first terminal 36 with a first 362 and a second part 364 provided. This is the second part 364 in a recess of the first part 362 arranged.

Next is in a third process step 46 the first terminal 26th , 36 through the at least one opening 24 , 34 the cover plate 22nd , 32 guided. Furthermore, in a fourth process step 46 the first terminal 26th , 36 bent over so that the first terminal 26th , 36 with the cover plate 22nd , 32 is positively connected. A suitable process for this is a riveting process, a pressing process or a folding process.

The cover assemblies according to the invention 20th , 30th are suitable for use in lithium-containing battery systems, such as lithium-ion batteries, lithium-containing solid-state batteries, lithium-sulfur or lithium-air batteries and in fuel cells. These in turn are used in e-bikes or motor vehicles as well as in the stationary storage of electrical energy.

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 2495784 B1 [0006]

Claims (10)

Cover assembly of a battery cell, comprising a cover plate (22, 32) with at least one opening (24, 34) and further comprising at least one terminal (26, 36), the at least one terminal (26, 36) passing through an opening (24, 34) ) the cover plate (22, 32) is guided, characterized in that the at least one terminal (26, 36) is bent in such a way that the at least one terminal (26, 36) is non-positively connected to the cover plate (22, 32). Lid assembly according to Claim 1 , characterized in that the at least one terminal (26, 36) is bent over by means of a riveting process, a pressing process or a folding process. Lid assembly according to Claim 1 , characterized in that the at least one opening (24, 34) of the cover plate (22, 32) is surrounded by a sealing element (28, 38). Lid assembly according to Claim 1 , characterized in that the at least one terminal (36) contains a first part (262, 362) with a recess. Lid assembly according to Claim 4 , characterized in that a second part (364) is additionally positioned within the recess of the first part (362) of the at least one terminal (36). Method for producing a cover assembly (20, 30) of a battery cell, a cover plate (22, 32) having at least one opening (24, 34) being provided in a first method step (42) and at least one terminal being provided in a second method step (44) (26, 36) is provided and in a third method step (46) the at least one terminal (26, 36) is guided through the at least one opening (24, 34) of the cover plate (22, 32), characterized in that in a fourth method step (48) the at least one terminal (26, 36) is bent over so that the at least one terminal (26, 36) is connected to the cover plate (22, 32) with a force fit. Procedure according to Claim 6 , characterized in that in the second method step (44) the at least one terminal (26, 36) is provided with a first part (262, 362) containing a recess. Procedure according to Claim 7 , characterized in that, in the second method step, a second part (364) is additionally arranged in the recess of the first part (362) of the at least one terminal (36). Procedure according to Claim 6 , characterized in that in the fourth method step (48) the at least one terminal (26, 36) is bent over by means of a riveting process, a pressing process or a folding process. Use of a battery cell with a cover assembly (20, 30) according to one of the Claims 1 to 5 in an electric vehicle (EV), in a hybrid vehicle (HEV) or in a plug-in hybrid vehicle (PHEV).

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