DE102018209484A1 - Method for manufacturing a housing for a lithium-ion battery and housing for a lithium-ion battery - Google Patents

Abstract

A method for producing a housing (12) for a lithium ion battery (10) is proposed, the method comprising the following steps: - providing injection molding material; and - Injection molding of the housing (12) from the injection molding material, characterized in that during injection molding a predetermined breaking point (50) is generated in the housing (12) for yielding in the event of an overpressure in an outer surface of the housing (12).

Description

Field of the Invention

The invention relates to a method for producing a housing for a lithium-ion battery and a housing for a lithium-ion battery.

State of the art

In previously known methods for producing a housing for a lithium-ion battery or previously known housings for a lithium-ion battery, a predetermined breaking point or a safety vent is arranged in the housing or on an outer surface of the housing. The predetermined breaking point or the safety vent indicates that the fluid pressure is too high, i.e. if the pressure of a gas and / or a liquid is too high, inside the housing and in this way prevents an explosion of the housing. A controlled pressure relief of the housing is thus carried out by means of the predetermined breaking point or the safety vent.

The predetermined breaking point or the safety vent is welded into the housing after the housing has been manufactured, e.g. by laser cutting. As a result, a corresponding predetermined breaking point is arranged in the outer surface or on the outer surface.

The disadvantage of this is that two steps are necessary, namely first the step of producing the housing and the step of creating or arranging the predetermined breaking point on the housing. Thus, the technical effort is high and the manufacturing costs are high.

Disclosure of the invention

Advantages of the invention

Embodiments of the present invention can advantageously make it possible to demonstrate a method for producing a housing for a lithium-ion battery with a predetermined breaking point or a housing for a lithium-ion battery with a predetermined breaking point, which is technically simple and inexpensive to produce.

According to a first aspect of the invention, a method for producing a housing for a lithium-ion battery is proposed, the method comprising the following steps: providing injection molding material; Injection molding of the housing from the injection molding material, characterized in that during injection molding a predetermined breaking point for yielding in the event of an overpressure, in particular a fluid overpressure, is generated in the housing in an outer surface of the housing.

An advantage of this is that the method is typically technically simple, since the predetermined breaking point is generated in the same step as the manufacture of the housing. This usually lowers manufacturing costs. In addition, less time is typically required, as a result of which the housing with predetermined breaking point can be produced particularly quickly.

According to a second aspect of the invention, a housing for a lithium-ion battery is proposed, wherein an outer surface of the housing has a predetermined breaking point for yielding in the case of an overpressure, in particular a fluid overpressure, characterized in that the predetermined breaking point during an injection molding of the Housing was generated.

The advantage of this is that the housing is typically technically simple to produce, since the predetermined breaking point was generated in the same step as the production of the housing. As a rule, this can reduce the manufacturing costs of the housing. In addition, the housing can usually be manufactured in a short time. This also typically saves costs.

Ideas for embodiments of the present invention can be viewed, inter alia, as based on the thoughts and knowledge described below.

According to one embodiment of the method, the injection molding material comprises ceramic material, in particular the injection molding material consists of ceramic material. This has the advantage that the housing is generally electrically non-conductive. Another advantage of this is that the housing typically has good thermal conductivity. In addition, the housing generally has a high chemical and thermal resistance. A combination of the housing with a cover made of any material, such as Metal, ceramic, plastic is usually possible. In addition, it is typically possible to connect a cover to the housing using an adhesive and / or a polymer.

According to one embodiment of the method, the injection molding material comprises polymer material, in particular the injection molding material consists of polymer material. This has the advantage that the housing is generally electrically non-conductive. Another advantage of this is that the housing can typically be made from a particularly inexpensive material. In addition, polymer material, such as polyethylene and / or polypropylene and / or polyvinyl chloride, can typically be injection molded in a technically particularly simple manner. In addition, the housing produced in this way generally has a low weight.

According to one embodiment of the method, the housing is injection molded in such a way that the housing is designed to accommodate a prismatic lithium-ion cell, preferably a plurality of prismatic lithium-ion cells. As a result, the housing can typically be used to produce a lithium-ion battery with a high energy density in a technically simple manner.

According to one embodiment of the method, the predetermined breaking point has no self-contained geometric shape in an outer surface. This ensures that high mechanical forces, so-called mechanical stress peaks, generally occur at the edge of the predetermined breaking point, so that the predetermined breaking point yields before the housing fails mechanically due to the overpressure in the housing.

According to one embodiment of the housing, the housing comprises ceramic material, in particular the housing consists of ceramic material. This has the advantage that the housing is generally electrically non-conductive. Another advantage of this is that the housing typically has good thermal conductivity. In addition, the housing generally has a high chemical and thermal resistance. A combination of the housing with a cover made of any material, such as Metal, ceramic, plastic is typically possible. In addition, it is generally possible to connect a cover to the housing using an adhesive and / or a polymer.

According to one embodiment of the housing, the housing comprises polymer material, in particular the housing consists of polymer material. The advantage of this is that the housing is generally electrically non-conductive. Another advantage of this is that the housing can typically be made from a particularly inexpensive material. In addition, polymer material, e.g. Polyethylene and / or polypropylene and / or polyvinyl chloride, typically technically particularly easy to be injection molded. In addition, the housing is generally light in weight.

According to one embodiment of the housing, the housing is designed to receive a prismatic lithium-ion cell, preferably a plurality of prismatic lithium-ion cells. The advantage of this is that the housing can typically be used to produce a lithium-ion battery with a high energy density in a technically simple manner.

According to one embodiment of the housing, the predetermined breaking point has no self-contained geometric shape on the outer surface. This generally ensures that high mechanical forces, so-called mechanical stress peaks, occur at the edge of the predetermined breaking point, so that the predetermined breaking point of the housing yields before the housing mechanically fails in an uncontrolled manner due to the excess pressure in the housing.

It is pointed out that some of the possible features and advantages of the invention are described herein with reference to different embodiments of the method for producing a housing for a lithium-ion battery or the housing for a lithium-ion battery. A person skilled in the art recognizes that the features can be combined, adapted or exchanged in a suitable manner in order to arrive at further embodiments of the invention.

list of figures

• 1 zeigt eine Explosionsansicht einer Lithium-Ionen-Batterie mit einer Ausführungsform des erfindungsgemäßen Gehäuses;
• 2a-2e zeigen Aufsichten auf verschiedene mögliche Formen der Sollbruchstelle des Gehäuses aus 1; und
• 3a, 3b zeigen Querschnittsansichten des Bodens des Gehäuses aus 1, wobei die Sollbruchstelle in dem Boden des Gehäuses vorhanden ist.

Embodiments of the invention are described below with reference to the accompanying drawings, wherein neither the drawings nor the description are to be interpreted as limiting the invention.

• 1 shows an exploded view of a lithium-ion battery with an embodiment of the housing according to the invention;
• 2a-2e show views of various possible forms of the predetermined breaking point of the housing 1 ; and
• 3a . 3b show cross-sectional views of the bottom of the housing 1 , the predetermined breaking point being present in the bottom of the housing.

The figures are only schematic and are not to scale. In the figures, the same reference symbols denote the same or equivalent features.

Embodiments of the invention

1 shows an exploded view of a lithium-ion battery 10 with an embodiment of the housing according to the invention 12 ,

The lithium-ion battery 10 includes a housing 12 in which the lithium-ion cell, which stores the energy electrochemically, is accommodated. The housing 12 has a lower housing part 15 on in one direction (in 1 towards the top) is open, and a housing cover 20 on. The opening of the lower part of the housing 15 is through a housing cover 20 locked. The housing cover 20 is part of the housing 12 , It is also conceivable that the housing 12 only the lower part of the housing 15 includes or that only the lower housing part 15 , in which then the predetermined breaking point 50 is present, is produced by injection molding and that Housing upper part is produced by a different manufacturing process.

The lower part of the housing 15 has a cuboid shape.

It also includes the lithium-ion battery 10 a first seal 25 that is a terminal 30 , which is passed through an opening in the cover, opposite the housing cover 20 seals and insulates. The housing cover 20 is by means of a second seal 35 with the lower part of the housing 15 connected gastight. The first seal 25 has a recess through which part of the terminal 30 is put through.

The housing cover 20 can comprise or consist of metal, plastic and / or ceramic. The first seal 25 can comprise or consist of adhesive, plastic and / or ceramic. The terminal 30 can consist of metal, for example aluminum and / or copper. The second seal 35 can comprise or consist of an adhesive, plastic and / or ceramic. The second seal 35 can be essentially rectangular with a low height.

The housing 12 is injection molded, ie manufactured using an injection molding process. The housing 12 may comprise ceramic material and / or polymer material.

In particular, the housing 12 consist of ceramic material and / or polymer material.

In a side wall or an outer surface or on an outer surface of the housing 12 is a predetermined breaking point 50 available. It is also conceivable that more than one predetermined breaking point 50 , for example two or three predetermined breaking points, in the outer surface or on the outer surface of the housing 12 available.

The predetermined breaking point 50 can in the housing cover 20 be trained. Alternatively or additionally, a predetermined breaking point can be used 50 be present in a side wall. Alternatively or additionally, a predetermined breaking point can be used 50 in the bottom of the lower part of the housing 15 of the housing 12 to be available.

The predetermined breaking point 50 is used during injection molding to manufacture the housing 12 with trained or generated. This means that during the injection molding of the housing 12 the predetermined breaking point 50 is already being formed.

For this purpose, the injection molding tool is designed or shaped accordingly. The injection mold points to the predetermined breaking point 50 corresponding form. The injection mold typically has one or more projections, so that the housing 12 or the corresponding wall (or the housing cover 20 or the bottom) of the housing 12 at the predetermined breaking point 50 a small thickness or less thickness compared to the other parts of the housing 12 having.

2a-2e show views of various possible forms of the predetermined breaking point 50 of the housing 12 out 1 , In 2a-2e is the predetermined breaking point 50 each (in the middle) in the bottom of the lower part of the housing 15 , The outer geometry, ie the geometry on the outer surface or outer surface of the floor, the predetermined breaking point 50 is shown in each case.

The predetermined breaking point 50 usually has locations in which the material of the housing 12 is diluted. This means that at the predetermined breaking point 50 the material of the case 12 has a smaller thickness than in the other areas or parts of the housing 12 ,

In 2a-2e are views of the differently designed predetermined breaking points 50 shown. If the breaking point 50 in the bottom of the case 12 trained, so poses 2a-2e accordingly a top view of the bottom of the housing 12 from below.

In 2a shows the predetermined breaking point 50 in supervision the shape of a cross, ie of two lines intersecting in the middle at an angle of 90 °. The predetermined breaking point ends at the end of the respective line 50 abrupt, ie it has an edge. This means that the thickness of the material of the wall or the ceiling or the bottom of the housing 12 at the end of the predetermined breaking point 50 abruptly or quickly rises or falls.

Mechanical stress peaks occur at these points, so that the housing 12 at the location or location of the predetermined breaking point 50 in the event of overpressure or excessive pressure in the housing 12 failed before the housing 12 failed at another point not intended for this purpose. Thus, when the pressure of the fluid or gas and / or liquid in the housing 12 exceeds a predetermined pressure, the gas and / or the liquid is controlled by the predetermined breaking point 50 released to the environment.

The predetermined breaking point 50 is also referred to as a safety vent.

In 2 B shows the predetermined breaking point 50 in supervision the shape of a tub.

In 2c shows the predetermined breaking point 50 the shape of a partial circle, in particular the shape of a three-quarter circle. The circle is not closed. This means that the geometric shape is not closed, but is open.

In 2a . 2 B and 2c the mechanical stress peaks occur at the end of the line or lines.

In 2d shows the predetermined breaking point 50 the shape of an pointed arrow, ie two lines that meet at an acute angle. Here there is an overpressure in the housing 12 the greatest mechanical stresses at the point where the lines meet. The predetermined breaking point fails here 50 first.

In 2e has the predetermined breaking point 50 in supervision the shape of a double arrow, the arrow ends of which point in the opposite direction. This means that at the two lateral ends in 2e two straight lines meet at an angle. The meeting points of the two lines are connected by another straight line. The predetermined breaking point also fails here 50 at the end of the respective outer lines first when the pressure of the fluid in the housing 12 rises above the specified limit.

3a . 3b show cross-sectional views of the bottom of the housing 12 out 1 , the predetermined breaking point 50 in the bottom of the case 12 is available.

It is clear in 3a or in 3b realizing that the housing 12 in the area of the predetermined breaking point 50 or at the location of the predetermined breaking point 50 is thinner, ie has a smaller thickness than outside the predetermined breaking point 50 , The thickness of the housing material 12 sinks quickly in the area of the predetermined breaking point 50 in 3a and has this small thickness over a distance (in the middle of the 3a) , before it increases to the original thickness (from left to right in 3a seen).

In 3b drops the thickness of the material of the case 12 or the outer wall of the housing 12 or the bottom of the housing 12 (seen from left to right in 3b) quickly from the normal thickness. Immediately after the thickness of the material has dropped to a minimum value, the thickness of the housing increases 12 back to normal thickness just as quickly as the thickness has dropped. This means that the housing 12 in this cut the 3b only at one point of the predetermined breaking point 50 has a smallest value.

It is conceivable that in the housing 12 one or more lithium-ion cells can be accommodated. The several lithium-ion cells share a housing 12 and thus a breaking point, so to speak 50 , In this case, the multiple lithium-ion cells are fluidly connected to one another.

The housing 12 can have one predetermined breaking point or several predetermined breaking points. For example, a predetermined breaking point 50 in the bottom of the case 12 and another predetermined breaking point in the housing cover 20 of the housing 12 be trained.

The housing 12 can be designed in such a way that a lithium-ion cell in prismatic form is accommodated therein. However, it is also conceivable that a lithium-ion cell with a cylindrical shape and / or in a pouch construction in the housing 12 is recorded.

The housing 12 can consist of ceramic material that is or has been injection molded. It is also possible that the housing 12 consists of a polymer material such as polyethylene, polypropylene and / or polyvinyl chloride. The polymer material has also been injection molded.

Injection molding or injection molding means in particular that the injection molding material is liquefied (plasticized) by means of an injection molding machine and then the injection molding material is injected into a mold, the injection molding tool, under pressure.

In conclusion, it should be pointed out that terms such as "showing", "comprehensive", etc. do not exclude other elements or steps, and terms such as "one" or "on" do not exclude a large number. Reference signs in the claims are not to be viewed as a restriction.

Claims (10)

A method for producing a housing (12) for a lithium-ion battery (10), the method comprising the following steps: - providing injection molding material; and - Injection molding of the housing (12) from the injection molding material, characterized in that during injection molding a predetermined breaking point (50) is generated in the housing (12) for yielding in the event of an overpressure in an outer surface of the housing (12). Procedure according to Claim 1 , wherein the injection molding material comprises ceramic material, in particular consists of ceramic material. Procedure according to Claim 1 or 2 , wherein the injection molding material comprises polymer material, in particular consists of polymer material. Method according to one of the preceding claims, wherein the housing (12) is injection molded such that the housing (12) is designed to receive a prismatic lithium-ion cell, preferably a plurality of prismatic lithium-ion cells. Method according to one of the preceding claims, wherein the predetermined breaking point (50) has no self-contained geometric shape in an outer surface. Housing (12) for a lithium-ion battery (10), an outer surface of the housing (12) having a predetermined breaking point (50) for yielding when there is excess pressure in the housing (12), characterized in that the predetermined breaking point (50) was produced during an injection molding of the housing (12). Housing (12) after Claim 6 , wherein the housing (12) comprises ceramic material, in particular the housing (12) consists of ceramic material. Housing (12) after Claim 6 or 7 , wherein the housing (12) comprises polymer material, in particular the housing (12) consists of polymer material. Housing (12) according to one of the Claims 6 - 8th , The housing (12) being designed to accommodate a prismatic lithium-ion cell, preferably a plurality of prismatic lithium-ion cells. Housing (12) according to one of the Claims 6 - 9 , The predetermined breaking point (50) has no self-contained geometric shape on the outer surface.

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