DE102011116177A1 - Cell frame of an electrochemical cell, electrochemical cell with cell frame and battery with corresponding electrochemical cells - Google Patents

Abstract

The cell frame (10) is designed to accommodate at least one electrochemical cell of a battery, in particular a designed for use in motor vehicles battery, the electrochemical cell is preferably configured flat. The cell frame (10) has at least one outer part (2) with a number of preferably rigid functional element receptacles (3) designed and arranged to receive functional elements, and at least one elastic inner part (1) at least partially on at least one inner side of the Outer part (2), preferably arranged on four inner sides of the outer part (2) and which is configured and arranged for holding the electrochemical cell. Furthermore, the cell frame (10) is configured at least on one longitudinal side surface for connection to a further cell frame, preferably on two longitudinal side surfaces for connection to a respective further cell frame.

Description

The invention relates to a cell frame of an electrochemical cell, an electrochemical cell with corresponding cell frames and a battery having a number of these electrochemical cells.

Electrochemical energy stores, also referred to below as electrochemical or galvanic cells, are often produced in the form of stackable units, from which by combining a plurality of such cells batteries for different applications, in particular for use in electrically powered vehicles can be produced. The invention will be described in relation to the use in a motor vehicle, wherein, however, it should be pointed out that a suitably designed electrochemical cell also independent of motor vehicles z. B. can be operated in a stationary operation.

Cell frames for receiving an electrochemical cell and corresponding electrochemical cells and batteries with a number of these electrochemical cells are known from the prior art.

The present invention has for its object to provide an improved cell frame and an improved electrochemical cell and an improved battery with a number of corresponding electrochemical cells.

This object is achieved by a cell frame according to claim 1, an array of cell frames according to claim 20 and a battery according to claim 21. The dependent claims relate to advantageous developments of the invention.

According to a first aspect, this object is achieved in a cell frame, which is designed to accommodate at least one, preferably a flat designed, electrochemical cell of a battery, in particular designed for use in motor vehicles battery, characterized in that the cell frame at least one outer part with a number preferably rigid functional element receptacles, which are configured and arranged to receive functional elements, and at least one elastic inner part, which is at least partially disposed on at least one inner side of the outer part, preferably on four inner sides of the outer part and which is configured and arranged for holding the electrochemical cell , An advantage of this embodiment is that the holder of electrochemical cells is improved in the frame. Another advantage is that the electrochemical cell can be better attenuated especially against vibrations and shocks. An additional advantage is that due to the separate outer part reliable effects on the functional elements can be reduced.

An electrochemical cell is understood to mean an electrochemical energy store for the present invention, that is to say a device which stores energy in chemical form, delivers it in electrical form to a consumer and preferably can also receive it in electrical form from a charging device. Important examples of such electrochemical energy stores are galvanic cells or fuel cells. The electrochemical cell has at least first and second means for storing electrically different charges, which are preferably configured as an electrode arrangement, and means for producing an electrically operative connection of both said means, wherein charge carriers can be displaced between these two means. Under the means for producing an electrical active compound z. B. to understand an electrolyte, which acts as an ion conductor.

An electrode arrangement is understood to mean an arrangement of at least two electrodes and an electrolyte arranged therebetween for the present invention. The electrolyte may be partially absorbed by a separator. Then the separator separates the electrodes. The electrode arrangement also serves to store chemical energy and convert it into electrical energy. In the case of a rechargeable galvanic cell, the electrode assembly is also capable of converting electrical to chemical energy. Preferably, the electrodes are plate-shaped or foil-like. Preferably, the electrodes are stacked arranged in the electrode assembly. According to another preferred embodiment, the electrodes may also be wound up. The electrode arrangement may preferably also comprise lithium or another alkali metal in ionic form.

In this context, a flat electrochemical cell is to be understood as meaning an electrochemical cell whose external shape is characterized by two essentially parallel surfaces whose vertical distance from one another is shorter than the average length of the cell measured parallel to these surfaces. Between these surfaces, often surrounded by a packaging or a cell housing, the electrochemically active components of the cell are arranged. Such cells are often surrounded by a multi-layered film packaging, which has at the edges of the cell packaging a sealed seam, which by a permanent Connecting or closing the film packaging is formed in the region of the sealed seam. Such cells are often referred to as pouch cells or as coffeebag cells.

The outer part of the cell frame is preferably configured on at least one longitudinal side surface for connection to an outer part of a further cell frame and preferably on both longitudinal side surfaces for connection to a respective outer part of further cell frames. An advantage of this embodiment is that the electrochemical cells can be kept particularly reliable, in particular by means of an alternating arrangement of cell frame and electrochemical cell.

Preferably, the outer part of the cell frame on a number of spacer sleeves, which are preferably formed of a metal or a metal alloy. An advantage of this embodiment is that both an exact tightening torque can be set and / or determined by means of the spacers and a high reproducibility can be achieved.

Preferably, the outer part of the cell frame on four spacers, which are preferably arranged in each case in the region of the corners of the outer part. An advantage of this embodiment is that a particularly good connection of the cell frames can be achieved.

Preferably, the cell frame is formed such that the elastic inner part substantially completely covers the inwardly facing surfaces of the outer part. An advantage of this arrangement is that the electrochemical cell received in the cell frame can be better protected against strains acting on the outer part of the frame.

Preferably, in the cell frame, the elastic inner part is directly or indirectly connected to at least one first damping element, which is configured substantially circular, in particular spider-web-shaped and which is arranged substantially parallel to a base surface of the cell frame. An advantage of this arrangement is that the electrochemical cell accommodated in the cell frame can be better protected against lateral loads and better kept.

In the case of the cell frame, the elastic inner part is preferably directly or indirectly connected to at least one second damping element, which is substantially strip-shaped and which is arranged substantially parallel to a base surface of the cell frame. An advantage of this arrangement is that the electrochemical cell accommodated in the cell frame, in particular in combination with the embodiment comprising the first damping element, can be better protected and better kept against laterally acting loads.

In the case of the cell frame, at least one of the second damping elements directly connected to the elastic inner part preferably has a foot part which bears against the elastic inner part. An advantage of this embodiment is that the connection of the second damping element with the elastic inner part can be improved.

In the case of the cell frame, the elastic inner part and / or the foot parts of the second damping elements are preferably designed to be increased in relation to the median plane of the cell frame. An advantage of this embodiment is that the electrochemical cells can be kept particularly secure and protected in an alternating arrangement of cell frames and electrochemical cells by means of the increased design and by means of the arrangement of the first and second attenuation elements in the median plane of the cell frame.

Preferably, in the cell frame, the elastic inner part has been formed at least partially from one or more elastomers. Preferably, at least one elastomer is selected in the cell frame, which can be attached by an injection molding process. Alternatively and / or additionally, preferably at least one elastomer is selected in the cell frame, which is chemically connectable to a thermoplastic. Alternatively and / or additionally, at least one elastomer is selected in the cell frame, which can be positively connected to a thermoplastic.

In the case of the cell frame, the outer part of the cell frame preferably has elastic regions on at least one longitudinal side surface, preferably elastic regions on both longitudinal side surfaces. An advantage of this embodiment is that the outer part can be better protected against particular side acting loads.

In the case of the cell frame, the elastic regions are preferably designed as an elastic ring, preferably an elastomer ring, which is introduced at least partially into a groove running around in the longitudinal side surface. An advantage of this embodiment is that the protection of the outer part against side-acting loads can be achieved particularly effective.

Preferably, the cell frame is configured to hold the electrochemical cells by means of frictional engagement. An advantage of this embodiment is that that the electrochemical cell can be kept improved.

Preferably, the cell frame is designed to hold the electrochemical cells by means of positive locking. An advantage of this embodiment is that the electrochemical cell can be kept improved, in particular in combination with the preceding embodiment.

In the cell frame, a temperature sensor is preferably introduced into at least one of the functional element receptacles as a functional element, and preferably a channel for a data and / or signal line is introduced into the outer part of this functional element receptacle. An advantage of this embodiment is that the functional elements can be better protected against the effects of electrochemical cells.

Preferably, the outer part of the cell frame Kontaktierelementaufnahmen for rigid or spring-loaded Kontaktierelemente, which are designed for contacting of arresters of the recorded electrochemical cell. An advantage of this embodiment is that the contacting elements can be better protected against the effects of the electrochemical cells.

According to a further aspect of the present invention, this object is achieved by an arrangement of the above-mentioned cell frames, in which electrochemical cells have been accommodated in the cell frame and the cell frames are connected via a tie rod system.

According to a third aspect, the object is achieved for a battery in that their electrochemical cells have a cell frame according to one of the above-mentioned embodiments.

In the following, aspects of the invention will be described in more detail with reference to a preferred embodiment and with the aid of figures. Showing:

1 a schematic representation of a cell frame according to the invention for receiving an electrochemical cell,

2 a schematic representation of a first section of the in 1 shown cell frame and

3 a schematic representation of a second section of the in 1 shown cell frame.

1 shows a schematic overview of a designed for receiving an electrochemical cell cell frame according to the invention 10 and the 2 and 3 show schematic partial representations of this cell frame 10 which is designed to receive an electrochemical cell. The cell frame 10 has an elastic inner part 1 and an outdoor part 2 on, in the functional element recordings 3 are arranged. Furthermore, the elastic inner part 1 in the preferred embodiment shown in the figures with a first number of circular damping elements 4 and a second number of strip-shaped damping elements 5 indirectly or directly connected, wherein in the preferred embodiment shown, the circular damping elements 4 and the strip-shaped damping elements 5 essentially parallel to the base of the cell frame 10 are arranged. Preferably, the strip-shaped damping elements 5 that are directly connected to the elastic inner part 1 are connected, a foot part 9 on, on the elastic inner part 1 is applied. In the preferred embodiment shown in the figures, the circular damping elements 4 and the strip-shaped damping elements 5 essentially in the median plane of the cell fram 10 arranged and covers the elastic inner part 1 essentially completely the inwardly facing surfaces of the outer part 2 , where the inner part 1 and the foot parts 9 to the median plane of the cell frame 10 are formed increased. Furthermore, the outer part 2 Kontaktierelementaufnahmen for receiving rigid or spring-loaded Kontaktierelementen 7 on. Furthermore, the cell frame points 10 a number of spacers preferably formed of a metal or a metal alloy 6 on that at the corners of the cell frame 10 are introduced. In the 2 it can be seen that in the outer part 2 cable channels 9 are arranged.

The present invention further relates to a battery having these cell frames, in particular a designed for use in a motor vehicle battery having these cell frames.

LIST OF REFERENCE NUMBERS

1

elastic inner part

2

outer part

3

Function element receptacle

4

circular damping element

5

strip-shaped damping element

6

Stand Off

7

contacting element

8th

Cabel Canal

9

footboard

10

cell borders

Claims (21)

Cell frame ( 10 ) configured to receive at least one electrochemical, preferably flat-configured cell of a battery, in particular a designed for use in motor vehicles battery, characterized in that the cell frame ( 10 ): - at least one outer part ( 2 ) with a number of preferably rigid functional element receptacles ( 3 ), which are configured and arranged to receive functional elements, and - at least one elastic inner part ( 1 ), which at least partially on at least one inside of the outer part ( 2 ), preferably on four inner sides of the outer part ( 2 ) and which is configured and arranged for holding the electrochemical cell. Cell frame ( 10 ) according to claim 1, characterized in that the outer part ( 2 ) of the cell frame ( 10 ) is configured at least on one longitudinal side surface for connection to an outer part of a further cell frame, preferably on both longitudinal side surfaces for connection to each outer part further cell frame. Cell frame ( 10 ) according to claim 1 or 2, characterized in that the outer part ( 2 ) of the cell frame ( 10 ) a number of spacers ( 6 ), which are preferably formed of a metal or a metal alloy. Cell frame ( 10 ) according to claim 3, characterized in that the outer part ( 2 ) of the cell frame ( 10 ) four spacers ( 6 ), which preferably in each case in the region of the corners of the outer part ( 2 ) are arranged. Cell frame ( 10 ) according to one of claims 1 to 4, characterized in that the elastic inner part ( 1 ) the inward facing surfaces ( 2 ) of the outer part ( 2 ) is substantially completely covered. Cell frame ( 10 ) according to one of claims 1 to 5, characterized in that the elastic inner part ( 1 ) with at least one first damping element ( 4 ) is connected directly or indirectly, which is designed substantially circular, in particular spider-web-shaped and substantially parallel to a base surface of the cell frame ( 10 ) is arranged. Cell frame ( 10 ) according to one of claims 1 to 6, characterized in that the elastic inner part ( 1 ) with at least one second damping element ( 5 ) is connected directly or indirectly, which is designed substantially strip-shaped and substantially parallel to a base surface of the cell frame ( 10 ) is arranged. Cell frame ( 10 ) according to claim 7, characterized in that at least one of the with the elastic inner part ( 1 ) directly connected second damping elements ( 5 ) a foot part ( 9 ), which on the elastic inner part ( 1 ) is present. Cell frame ( 10 ) according to claim 8, characterized in that the elastic inner part ( 1 ) and / or the foot parts ( 9 ) of the second damping elements ( 5 ) to the median plane of the cell frame ( 10 ) are formed increased and that the first damping elements ( 4 ) and the second damping elements ( 5 ) substantially on the median plane of the cell frame ( 10 ) are arranged. Cell frame ( 10 ) according to one of claims 1 to 9, characterized in that the elastic inner part ( 1 ) has been formed at least partially from one or more elastomers. Cell frame ( 10 ) according to claim 10, characterized in that at least one elastomer has been selected, which can be attached by an injection molding process. Cell frame ( 10 ) according to claim 10 or 11, characterized in that at least one elastomer has been selected which is chemically connectable to a thermoplastic. Cell frame ( 10 ) according to one of claims 10 to 12, characterized in that at least one elastomer has been selected, which is positively connected to a thermoplastic. Cell frame ( 10 ) according to one of claims 1 to 13, characterized in that the outer part ( 2 ) of the cell frame ( 10 ) has elastic regions on at least one longitudinal side surface, preferably elastic regions on both longitudinal side surfaces. Cell frame ( 10 ) according to claim 14, characterized in that the elastic regions are formed as an elastic ring, preferably an elastomeric ring, which is at least partially introduced into a circumferential groove in the longitudinal side surface. Cell frame ( 10 ) according to one of claims 1 to 15, characterized in that the cell frame ( 10 ) is configured to hold the electrochemical cell by means of frictional engagement. Cell frame ( 10 ) according to one of claims 1 to 16, characterized in that the cell frame ( 10 ) is designed to hold the electrochemical cell by means of positive engagement. Cell frame ( 10 ) according to one of claims 1 to 17, characterized in that in at least one of the functional element recordings ( 3 ) is introduced as a functional element, a temperature sensor and that preferably to this functional element recording ( 3 ) in the outer part ( 2 ) a channel ( 8th ) is introduced for a data and / or signal line. Cell frame ( 10 ) according to one of claims 1 to 18, characterized in that the outer part ( 2 ) of the cell frame ( 10 ) Kontaktierelementaufnahmen for rigid or spring-loaded Kontaktierelemente ( 7 ) configured to contact conductors of the accommodated electrochemical cell. Arrangement of cell frames ( 10 ) according to one of claims 1 to 19, characterized in that in cell frames ( 10 ) electrochemical cells have been recorded and the cell frames ( 10 ) are connected via a tie rod system. Battery with a number of electrochemical cells and at least one cell frame ( 10 ) according to one of claims 1 to 19 and / or an arrangement of cell frames ( 10 ) according to claim 20.

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