DE102017216890A1 - Method for producing a battery cell and a seal for a battery cell and battery cell - Google Patents

Abstract

The present invention relates to a method of manufacturing a gasket (200) for a battery cell (102), characterized in that in a step of assembling, a green ceramic blank (106) of the gasket (200) is connected to a terminal (108) for the battery Battery cell (102) is assembled, and sintered in a step of sintering, the ceramic blank (106) to the ceramic seal (200), wherein the seal (200) connects to the terminal (108).

Description

Field of the invention

The invention relates to a method for producing a seal for a battery cell, a method for producing a battery cell and a battery cell.

State of the art

In a battery cell, the poles of the battery cell are electrically isolated from each other. Between the poles an insulator is arranged. The insulator seals the battery cell in the area between the poles. As insulator, a plastic material can be used.

Disclosure of the invention

Against this background, a method for producing a seal for a battery cell, a method for producing a battery cell and a battery cell according to the independent claims are presented with the approach presented here. Advantageous developments and improvements of the approach presented here are described in the dependent claims.

Advantages of the invention

Embodiments of the present invention may advantageously enable a particularly mechanically, thermally, chemically and / or electrically resistant material to be used as insulator and seal within a battery cell, in particular between the poles of the battery cell. By the production process presented here, a tight connection, in particular a fluid-tight connection, between different battery components or the materials used for these can be achieved. The use of plastics for the seal can be dispensed with. The seal may be insensitive to thermal and mechanical stress and stable to the electrolyte.

There is provided a method of manufacturing a gasket for a battery cell, characterized in that in a step of assembling, a green ceramic blank of the gasket is assembled with a terminal for the battery cell, and in a step of sintering the ceramic blank to the ceramic gasket is sintered, with the seal connects to the terminal.

Furthermore, a method for producing a battery cell is presented, which is characterized in that in a step of connecting a cover plate with a sintered ceramic seal is placed on a housing of the battery cell and connected to the housing.

Further, a battery cell is presented with a cover plate, in which a terminal of the battery cell is inserted, wherein between the cover plate and the terminal a sintered at least with the terminal ceramic seal is arranged.

Ideas for embodiments of the present invention may be considered, inter alia, as being based on the thoughts and findings described below.

Under a seal can be understood a sealing and electrically insulating layer between two electrical poles of a battery cell. The terminal can form a pole. The cover plate can form the other pole. The terminal can be T-shaped and penetrate the cover plate. In the battery cell, a plurality of arresters may be connected to the respective poles to form a stack of the battery cell.

The seal can be sintered from a ceramic blank. Such a ceramic blank is sometimes referred to as a green compact. The ceramic blank can be produced for example in a press from a powdery starting material. The ceramic blank can be mechanically processed before sintering. As starting material, a sinterable ceramic powder can be used. The ceramic powder can consist, for example, of particles of, for example, aluminum oxide. The particles of the ceramic powder may be coated with a binder, which allows shaping of the ceramic blank by adhering the coated particles. The binder typically has a significantly lower melting and / or boiling temperature than the starting material of the ceramic powder.

The ceramic powder is sintered in a sintering process at a sintering temperature, for example, of several hundred degrees Celsius, in particular of more than 700 ° C. For example, a process of sintering may be accomplished by placing the ceramic blank in an oven. Sintering times can vary and for example be a few seconds to several hours. In this case, the particles of the powder combine with their adjacent particles, while the binder is essentially volatilized.

The ceramic blank may be oversized and shrink on the terminal during sintering. The lid or the cover plate and / or the housing may be aluminum or an aluminum alloy.

The gasket made as described herein may be chemically resistant to organic solvents such as the electrolyte. The ceramic seal can be absolutely airtight or fluid-tight, have a very high strength and / or be compatible with metals. In particular, the starting material of the ceramic seal may bond during sintering with the metallic material of adjacent components of the battery cell during sintering or by sintering in a mechanically loadable and / or fluid-tight manner. Advantageously, a frictional, positive and / or material connection between the ceramic seal and metallic components of the battery cover can be effected. The ceramic material can be stable at high and low temperatures and rapid or extreme temperature changes and stable against vibration. The ceramic seal can have a long lifetime.

The ceramic blank may be disposed between the terminal and a cover plate of the battery cell. The seal may further connect with the cover plate to a lid of the battery cell during sintering. By a combined sintering the lid can be made in one step.

The method may include a step of assembling in which the gasket connected to the terminal is mated with a cover plate of the battery cell to a lid of the battery cell. The cover plate can be subsequently connected to the seal, which was previously formed by sintering the ceramic blank. As a result, shrinkage problems during sintering can be avoided. The cover plate may be made of a less heat-resistant material because it does not need to withstand the sintering temperatures.

The cover plate can be molded onto the seal. The seal is heat resistant and can be overmoulded. By injection molding, the metal material of the cover plate can establish a direct, preferably non-positive, positive and / or material connection to the ceramic of the seal.

The cover plate can alternatively be glued to the seal. In this case, a very thin adhesive layer can be used, since the seal ensures a distance between the poles.

The cover plate can be connected to the housing by laser welding. Aluminum is easily weldable and results in a tight, electrically conductive connection to the housing. By a welded joint, the housing can be a total of the second pole of the battery cell.

It should be noted that some of the possible features and advantages of the invention are described herein with reference to different embodiments as a method of manufacturing and as a battery cell. A person skilled in the art will recognize that the features can be suitably combined, adapted or replaced in order to arrive at further embodiments of the invention.

list of figures

• 1 zeigt eine Darstellung von Einzelteilen eines Deckels für eine Batteriezelle gemäß einem Ausführungsbeispiel;
• 2 zeigt eine Darstellung eines Deckels für eine Batteriezelle mit einer keramischen Dichtung gemäß einem Ausführungsbeispiel; und
• 3 zeigt eine Darstellung einer Batteriezelle gemäß einem Ausführungsbeispiel.

Embodiments of the invention will now be described with reference to the accompanying drawings, in which neither the drawings nor the description are to be construed as limiting the invention.

• 1 shows a representation of individual parts of a lid for a battery cell according to an embodiment;
• 2 shows an illustration of a lid for a battery cell with a ceramic seal according to an embodiment; and
• 3 shows a representation of a battery cell according to an embodiment.

The figures are only schematic and not to scale. Like reference numerals designate the same or equivalent features in the figures.

Embodiments of the invention

1 shows a representation of an assembly of a lid 100 for a battery cell 102 according to an embodiment. The lid 100 is made of a cover plate 104 , a ceramic blank 106 a seal and a terminal 108 composed. This is the ceramic blank 106 into a breakthrough 110 the cover plate 104 used and the terminal 108 in an execution 112 of the ceramic blank 106 used.

The terminal has a contact plate 114 on, parallel to the cover plate 104 is aligned. The ceramic blank 106 has a collar 116 on that between the contact plate 114 and the cover plate 104 is arranged. The collar 116 is essentially the same shape as the contact plate 114 ,

The terminal 108 here has a quadrangular cross-section. This is the implementation 112 shaped accordingly square. The terminal 108 may also have a round or oval cross-section. The implementation 112 is then shaped accordingly.

Also the breakthrough 110 is approximately like the terminal 108 shaped.

The lid 100 with the ceramic blank 106 is then sintered. This is the ceramic blank 106 to the ceramic seal with glassy surface. The seal connects to the terminal without glue 108 and the cover plate 104 ,

In one embodiment, the terminal becomes 108 in the ceramic blank 106 used. During sintering, the ceramic connects to the terminal 108 , The cover plate 104 is added after sintering.

In one embodiment, the sintered ceramic seal becomes breakthrough 110 glued.

In one embodiment, the cover plate 104 made of aluminum molded onto the sintered ceramic seal.

2 shows a representation of a lid 100 for a battery cell with a ceramic seal 200 according to an embodiment. The lid 100 essentially corresponds to the lid in 1 after sintering. The ceramic blank is due to the heat during sintering to the ceramic seal 200 has become and has become with the cover plate 104 and the terminal 108 connected.

3 shows a representation of a battery cell 102 according to an embodiment. A lid 100 as he is for example in 2 is shown is on a housing 300 the battery cell 102 put on and with the housing 102 firmly connected. The cover plate 104 is by a laser welding process with the housing 300 been connected.

Before welding is a stack of the battery cell 102 with the terminal 108 and the lid flap 104 connected and in the housing 300 been used.

Finally, it should be noted that terms such as "comprising," "comprising," etc., do not exclude other elements or steps, and terms such as "a" or "an" do not exclude a multitude. Reference signs in the claims are not to be considered as limiting.

Claims (7)

A method of manufacturing a gasket (200) for a battery cell (102), characterized in that in a step of assembling, a green ceramic blank (106) of the gasket (200) is assembled with a terminal (108) for the battery cell (102), and sintering the ceramic blank (106) to the ceramic gasket (200) in a step of sintering, wherein the gasket (200) connects to the terminal (108). Method according to Claim 1 in which, in the step of assembling, the ceramic blank (106) is placed between the terminal (108) and a cover plate (104) of the battery cell (102), wherein in step of sintering the seal (200) is further connected to the cover plate (104) to a lid (100) of the battery cell (102) connects. Method according to Claim 1 assembly comprising a step of assembling in which the gasket (200) connected to the terminal (108) is joined to a cover plate (104) of the battery cell (102) to a lid (100) of the battery cell (102). Method according to Claim 3 in which, in the joining step, the cover plate (104) is injection-molded onto the seal (200). Method for producing a battery cell (102), characterized in that in a step of connecting a cover plate (104) with a sintered ceramic seal (200) is placed on a housing (300) of the battery cell (102) and connected to the housing (300) is connected. Method according to Claim 5 in which, in the bonding step, the cover plate (104) is laser welded to the housing (300). Battery cell (102) having a cover plate (104), in which a terminal (108) of the battery cell (102) is inserted, wherein between the cover plate (104) and the terminal (108) at least with the terminal (108) sintered ceramic seal (200) is arranged.

Images