WO2011012206A1 - Cell stack with a specifiable number of individual cells interconnected in parallel and/or in series - Google Patents

Abstract

The invention relates to a cell stack (3) with a specifiable number of individual cells (1) interconnected in parallel and/or in series, wherein each individual cell (1) has a housing (2) as well as a positive and a negative pole, wherein each electrically conductive pole is connected to one housing side (2.1, 2.2) of the housing (2), wherein a housing frame (2.3), laterally revolving in the cell interior, is arranged between the housing sides (2.1, 2.2), wherein the respective housing frames (2.3) of the individual cells (1) are arranged so that the individual cells (1) with their associated housing sides (2.1, 2.2) are connected for electric contact in exactly one direction (R) in a cell stack (3).

Description

 Cell network with a predeterminable number of parallel and / or serially interconnected single cells

The invention relates to a cell network with a predeterminable number of parallel and / or serially interconnected individual cells, wherein the respective individual cell has a housing and a positive and a negative pole, wherein a respective pole is electrically conductively connected to a housing side of the housing, wherein between the housing sides a cell interior laterally surrounding a frame frame is arranged.

From EP 1 939 956 A1 a battery pack is known, which has a plurality of battery cells which are connected in parallel and / or in series with one another. Each battery cell is surrounded by a rectangular outer housing. Between the battery cells, a separator is arranged in each case, which spatially separates the battery cells from each other. Each battery has two poles, which are arranged in an L-shaped manner on the housing of the respective battery cell. In this case, a positive pole is bent opposite to a negative pole of the battery cell.

Furthermore, EP 1 753 058 A2 discloses a battery module which has a plurality of individual cells and cell barriers, the cell barriers being arranged between individual cells arranged next to one another. The cell barriers are designed such that they have a body element and a fastening element which is arranged on a foot of the body element. A respective one

Fastener is connected to an adjacent single cell, with two cell barriers enclosing a single cell.

Furthermore, from DE 10 2007 063 181 A1 a Rahmenflachzelle is known which has a housing, which consists of two housing sides and one between them arranged, a Zetlinneres laterally encircling, housing frame is formed. In the cell interior electrode foils, which are combined to form an electrode foil stack, are arranged. The electrode films are electrically conductively connected to Stromabieiterfahnen and combined to form one pole of the Rahmenflachzelle, wherein a pole rests against a respective side of the housing, whereby these voltages are performed leading.

The invention has for its object to provide a cell network, which space is designed optimized and misconnections between individual cells of the cell network are avoided.

The object is achieved by the features specified in claim 1. Advantageous developments of the invention are the subject of the dependent claims.

The cell assembly according to the invention comprises a predeterminable number of parallel and / or series interconnected individual cells, wherein the respective single cell has a housing and a positive and a negative pole, wherein a respective pole is electrically conductively connected to a housing side of the housing, wherein between the housing sides a cell frame laterally surrounding a frame frame is arranged. According to the invention, the respective housing frames of the individual cells are designed such that the individual cells of the cell assembly with their associated

Housing sides for electrical contact with each other in exactly one direction can be arranged aligned.

Characterized in that the housing sides are connected to a respective pole, the housing sides are made voltage leading, the housing frame the

Housing sides electrically and spatially separated from each other. For this is the

Housing frame particularly preferably made of an electrically insulating material,

For example, a thermoplastic material formed.

By aligning the individual cells of the cell network in exactly one direction, misconnections due to wrong arrangement of the individual cells are avoided in a profit-making manner. If an individual cell is installed in the wrong way in the cell network, no electrical contact between this single cell, an upstream and a downstream individual cell can be produced in an advantageous manner. In addition, based on the design of the housing frame a mistake in terms of a wrong installation of a single cell easily and easily

find. In other words: the individual cells of the invention

Cell composite have a so-called confusion protection of the voltage-carrying housing sides.

For this purpose, the housing frame is designed such that the individual cells of the

Cell composite are particularly advantageous plugged into each other, wherein the

Housing frames of all individual cells are the same.

In particular, the housing frame of each individual cell is per se

opposite long sides provided with positioning elements which at least partially project beyond a housing surface, in particular over one of the outer surface sides of the housing side. All are available for this

Positioning elements of a single cell on only one of the outer surface sides of the housing sides over. In particular, the positioning elements on the outer surface side of the respective housing side are approximately half the width of the housing frame.

In this case, the positioning elements have a length which corresponds approximately to the width of the housing frame.

The positioning elements of a respective single cell are arranged offset on the housing frame such that these with a first half length the

Cover the frame and with the second half length over the

Frame frame protrude.

The positioning elements serve on the one hand to prevent misconnection of individual cells within the cell network and on the other hand to an improved alignment of the individual cells to each other. As a result, a mechanical stability and a dimensional accuracy of the mounted in a particularly advantageous manner

Cell composite increases.

In comparison to the cited prior art, an installation space of the cell composite is optimized on the basis of the cell composite according to the invention and a weight is reduced. In particular, the staggered positioning elements are arranged on the opposite long sides of the housing frame, that the

Positioning elements preferably complete with a short side of the housing frame in a plane, whereby a width of the individual cell and thus the cell network is not changed in a particularly advantageous manner.

In addition, the positioning elements are designed such that they project beyond a height of the sides of the housing. This can be between the

Positioning a Zeilüberwachungseinheit be accurately positioned, making it laterally supported and held. It serves the

Cell monitoring unit for monitoring a voltage of individual single cells.

The positioning elements are also arranged offset on the housing frame, that from the offset results in a formation of so-called receiving units, wherein the receiving units is formed depending on a direction of the arrangement of the single cell in front of or behind the positioning element on the same housing frame. The receiving units can on the one hand planar and on the other hand as a recess or depression on the

Be formed housing frame, in which the positioning elements are inserted laterally.

In a particularly advantageous manner, the staggered arranged correspond

Positioning elements of one of the individual cells with the recording units of a single cell downstream of this single cell.

The receiving units of one of the individual cells have dimensions which correspond to the dimensions of a part of the housing which projects beyond the housing side

Positioning elements correspond to a downstream single cell, whereby the positioning elements of one of the individual cells are arranged in an advantageous manner in positive engagement with the receiving units of an individual cell arranged in the cell network.

In particular, the staggered positioning elements and the recording units resulting from the displacement of an electrically insulating material formed, whereby an electrical contact with a cell assembly in the wrong arranged or installed single cell is excluded.

In a possible embodiment of the cell assembly according to the invention, the positioning elements arranged offset on the housing frame may be fastened to the housing frame in a force, shape and / or materially bonded manner.

In a particularly advantageous embodiment of the cell assembly according to the invention, the positioning elements and the housing frame of the respective single cell may be formed as a molded element, which, for example, in a casting process, in particular an injection molding process, can be produced.

Preferably, the individual cells of the cell assembly are pressed together by pressure plates arranged on the front and rear sides of the cell assembly, clamping bands on the cell assembly, in each case surrounding one longitudinal side at the edge, being able to be arranged.

In particular, the cell assembly is suitable for a battery, for example for a lithium-ion battery, wherein the battery is a vehicle battery, in particular a battery for a vehicle with hybrid drive or a fuel cell vehicle.

Embodiments of the invention will be explained in more detail with reference to drawings. Showing:

Fig. 1 shows a schematic perspective view of a frame flat cell

 executed single cell with arranged on a housing frame positioning elements,

Fig. 2 shows a schematic perspective view of a single cell formed

 Cell assembly with arranged on a respective housing frame positioning elements,

3 is a schematic side view of a cell assembly according to FIG. 2, Fig. 4 shows a schematic perspective view of a section of a

 Cell network,

Fig. 5 shows schematically in perspective a section of a

 Cell composite with a wrong arranged single cell, and

6 is a schematic side view of a section of a cell network shown in FIG. 5 with a single cell arranged in the wrong direction.

Corresponding parts are provided in all figures with the same reference numerals.

FIG. 1 shows a perspective view of a single cell 1, in particular one

Frame flat cell, hereinafter referred to as frame flat cell 1.

The frame flat cell 1 has a housing 2, which consists of a first

Housing side 2.1, a second side of the housing 2.2 and, a cell interior laterally encircling, housing frame 2.3 is formed.

In particular, the housing sides 2.1, 2.2 are formed of metal, wherein the

Housing frame 2.3 is preferably made of an electrically insulating material, for example made of a thermoplastic material.

In the cell interior an unspecified electrochemically active material, for example in the form of coated electrode films is arranged, which may be combined to form an electrode film stack.

Respective ends of the electrode foils of the same polarity are connected to one another as a current drain plugs to one pole, for example by welding, wherein the current sinker tabs of one polarity, connected as a pole, are electrically conductively connected to a respective metallic housing side 2.1, 2.2. Thereby are the

Housing sides 2.1, 2.2 voltage leading performed. The cell frame 2.3 laterally surrounding housing frame serves in particular to separate the housing sides 2.1, 2 electrically and spatially from each other. In addition, the respective housing side 2.1, 2.2 simultaneously serves as a so-called heat conduction, wherein on the heat conducting a resulting in the frame flat cell 1 during charging and discharging heat can be dissipated.

The cell frame 2.3 laterally encircling housing frame 2.3 is inventively designed such that the respective Rahmenflachzelle 1 of a cell network 3 shown in more detail in Figure 2 with their associated housing sides 2.1, 2.2 for electrical contacting within the cell assembly 3 aligned in exactly one direction R can be arranged.

For this purpose, the housing frame 2.3 positioning elements 4, which are tongue-like. The respective positioning element 4 is offset with respect to a width b _{G of} the housing frame 2.3. In this case, the positioning elements 4, in particular on opposite long sides S1 of the housing frame 2.3 in a respective corner region 2.3.1 are arranged opposite one another in a horizontal plane.

In the present embodiment, the housing frame 2.3 four

Positioning elements 4 arranged.

Preferably, the positioning elements 4 are formed analogous to the housing frame 2.3 made of an electrically insulating material.

The positioning elements 4 on the one hand on the housing frame 2.3, for example, force, form and / or cohesively fastened or on the other hand be formed on this itself. For this purpose, the housing frame 2.3 and the

Positioning elements 4 may be formed for example as a molded part, which z. B. in a casting process, for example in an injection molding process, can be produced.

In particular, the positioning elements 4 are arranged offset on the housing frame 2.3, that the positioning elements 4 on an outer surface side 2.1.1 of the first housing side survive 2.1. For this purpose, a dimension of the projecting on the outer surface side 2.1.1 part 4.1 of the respective

Positioning element 4, for example, in about half the width of the b

Body frame 2.3. In addition, the positioning elements 4 have a length I which corresponds approximately to the width b _{G of} the housing frame 2.3. Here are the Positioning elements 4 of a respective frame flat cell 1 offset so arranged on the housing frame 2.3, that this with a first half length 11 the

Cover frame 2.3 and with the second half length 12 over the

Enclosure frame 2.3 protrude, the second half length 12 corresponds to the protruding part 4.1.

The positioning elements 4 are in particular with their protruding

Parts 4.1 in a direction R pointing to the housing frame 2.3 arranged.

Furthermore, the positioning elements 4 are arranged on the housing frame 2.3 such that the positioning elements 4 terminate with an outer lateral boundary with a short side S2 of the housing frame 2.3 in one plane, ie that the respective positioning element 4 on the corresponding short side S2 of the housing frame 2.3 not survives. As a result, a frame flat cell width b _F, and thus a cell assembly width shown in Figure 2 b ₂ despite arranged

Positioning elements 4 consistent.

In addition, the project on the housing frame 2.3 protrude

Positioning elements 4 over a height h of the housing sides 2.1, 2.2 and thus over a height of the housing frame 2.3 addition.

Because the positioning elements 4 are arranged offset on the housing frame 2.3, the surface which is opposite the positioning element 4 with respect to the width bβ of the corresponding housing frame 2.3 forms a so-called receiving unit 5. The receiving units 5 correspond to FIG

Frame flat cell 1 with the positioning elements 4 one to this

Frame flat cell 1 downstream Rahmenflachzelle 1, as shown in detail in Figures 2, 3 and 4.

In one possible embodiment, the receiving units 5 can be made planar. Alternatively, the receiving units 5 may be designed as a slight recess or depression into which the positioning elements 4 are laterally inserted.

2 shows a cell network 3, which has a plurality, in particular a predefinable number, of frame flat cells 1, which are interconnected in parallel and / or in series with each other, in a perspective view. The cell assembly 3 is part of a battery, not shown, wherein the battery is particularly suitable as a vehicle battery, in particular as a high-voltage battery for a vehicle with hybrid drive or for a fuel cell vehicle.

The frame flat cells 1 are arranged in a direction R aligned in the cell assembly 3 by the positioning elements 4, i. H. installed, with the

Positioning elements 4 serve as so-called confusion protection of the voltage-carrying housing sides 2.1, 2.2 of the respective frame flat cell 1.

In this case, the positioning elements 4 of a frame flat cell 1 engage positively in the receiving units 5 of an upstream in the cell assembly 3

Frame flat cell 1 a, d. H. the positioning elements 4 are arranged under or on the receiving units 5. In other words: The housing frame 2.3 of the frame flat cells 1 are formed identically so that the frame flat cells 1 are plugged into one another. As a result, the cell assembly 3 is carried out in an advantageous manner optimized space.

In particular, the frame flat cells 1 are arranged in a direction R aligned plane-parallel side by side, wherein the housing sides 2.1, 2.2 of the respective

Frame flat cells 1 with the same polarity adjacent to each other and thus the electrical contact is realized.

The positioning elements 4 and the receiving units 5 serve for optimized positioning of the flat frame cells 1 relative to each other, as a result of which, in a particularly advantageous manner, a mechanical stability and a dimensional accuracy of the

Cell group 3 are ensured.

On the cell assembly 3, in particular on the head side of the frame flat cells 1, a cell monitoring unit 6 is arranged. In this case, the cell monitoring unit 6 is arranged in a precise fit in particular between the positioning elements 4 arranged at the edge of the housing frame 2.3, whereby the

Cell monitoring unit 6 is laterally supported and held. The

Cell monitoring unit 6 is used in particular to monitor a voltage of the individual frame flat cells 1. At the frame flat cells 1, a heat-conducting plate 7 is arranged below or on the bottom side for tempering the cell composite 3. The heat-conducting plate 7 serves to dissipate heat supplied to the frame flat cells 1 from the housing sides 2.1, 2.2 of the heat-conducting plate 7 which are designed as heat-conducting sheet. For this purpose, the

Wärmeleitplatte 7 a channel structure, not shown, which of a

Wärmeleitmedium, such as a coolant, can be flowed through, wherein for supplying and discharging the Wärmeleitmediums connection points 7.1 are provided.

In a manner not shown, between the heat conducting plate 7 and the Rahmenflachzellen 1 an insulating medium, for example in the form of a

Heat conducting be arranged.

The electrically interconnected Rahmenflachzellen 1, in particular the

Cell composite 3, 9 are compressed by means of pressure plates 8 and straps.

The pressure plates 8 are arranged plane-parallel to the frame flat cells 1 at the front and back of the cell assembly 3. In this case, the pressure plates 8

Contact elements 8.1 for voltage removal of a voltage generated by the cell assembly 3 on.

The clamping bands 9 each surround a longitudinal side of the cell assembly 3 at the edge.

FIG. 3 shows the cell assembly 3 shown in FIG. 2 in a side view, wherein in particular the form-fitting arrangement of the frame flat cells 1 aligned in one direction is shown.

FIG. 4 shows a section of a cell network 3 in a perspective view.

FIGS. 5 and 6 show a detail of a cell network 3 with a frame flat cell 10 installed in the cell network 3 in reverse, FIG. 5 showing a perspective view and FIG. 6 a side view.

It is shown in Figures 5 and 6 in particular that based on the arranged on the Rahmenflachzellen 1 positioning elements 4 in the wrong direction arranged in the cell composite frame flat cell 10 is easy to find and without much effort.

In addition, the production of the electrical contact in the

Cell group 3 reverses built-in frame flat cell 10 is not possible because the positioning elements 4 of the in relation to the direction R reversibly installed Rahmenflachzelle 10 and the positioning elements 10 of the downstream Rahmenflachzelle 11 are aligned facing each other. As a result, the voltage-carrying housing sides 2.1, 2.2 are not adjacent to each other, whereby the electrical contact between the frame flat cells 11, 10 can not be produced.

LIST OF REFERENCE NUMBERS

1 frame flat cell

 casing

 2.1 first side of the housing

 2.1.1 outer surface side

 2.2 second side of the housing

 2.3 case frame

 2.3.1 corner area

 3 cell network

 positioner

 4.1 supernatant part

 5 recording unit

 6 cell monitoring unit

 7 heat conducting plate

 7.1 Connection points

 8 pressure plates

 8.1 contact element

 9 tension bands

 10 wrong built-in Rahmenflachzelle

R direction

 S1 long side

 S2 short side b half width

b _G Width frame

b _F frame flat cell width

bz cell network width

h height of the sides of the housing

 I length positioning element

 11 first half length

 12 second half length

Claims

claims 1. cell network (3) with a predetermined number of parallel and / or serial  interconnected individual cells (1), wherein the respective single cell (1) has a housing (2) and a positive and a negative pole, wherein a respective pole with a housing side (2.1, 2.2) of the housing (2) is electrically connected, wherein between the housing sides (2.1, 2.2) a cell inside a laterally encircling housing frame (2.3) is arranged,  characterized in that the respective housing frame (2.3) of the  Single cells (1) are designed such that the individual cells (1) with their associated housing sides (2.1, 2.2) for electrical contact with each other in exactly one direction (R) aligned in the cell assembly (3) can be arranged. 2. Cell composite according to claim 1,  characterized in that the housing frame (2.3) of the individual cells (1) are formed such that the individual cells (1) are plugged into one another. 3. cell assembly according to claim 1,  characterized in that the housing frame (2.3) of all individual cells (1) are the same. 4. cell assembly according to claim 1, characterized in that the housing frame (2.3) of each individual cell (1) on opposite long sides (S1) is provided with positioning elements (4), at least partially over the housing surface, in particular via one of the outer surface sides (2.1.1) of the housing side (2.1)  protrude. 5. cell assembly according to claim 4,  characterized in that all positioning elements (4) of a single cell (1) on only one of the outer surface side (2.1.1) of the housing sides (2.1, 2.2) survive. 6. cell assembly according to claim 4,  characterized in that the positioning elements (4) on the outer surface side (2.1.1) of the respective housing side (2.1) in approximately half a width (b) of the housing frame (2.3) survive. 7. cell assembly according to claim 4, characterized in that the positioning elements (4) have a length (I) which corresponds approximately to a width (b _G ) of the housing frame (2.3). 8. cell assembly according to claim 4,  characterized in that the positioning elements (4) of a respective individual cell (1) offset on the housing frame (2.3) are arranged such that they cover the housing frame (2.3) with half a length (11) and with the other half length (12) protrude beyond the housing frame (2.3). 9. cell assembly according to claim 4,  characterized in that the positioning elements (4) of a respective individual cell (1) are arranged on the opposite long sides (S1) of the housing frame (2.3) that the positioning elements (4) laterally with a short side (S2) of the housing frame ( 2.3) in one plane. 10. Cell composite according to claim 4, characterized in that the positioning elements (4) protrude beyond a height (h) of the housing sides (2.1, 2.2). 11. cell assembly according to claim 4,  characterized in that the housing frame (2.3) the  Positioning elements (4) opposite receiving units (5). 12. cell assembly according to claim 11,  characterized in that the positioning elements (4) one of  Single cells (1) with the receiving units (5) of a single cell (1) downstream of this single cell (1) corresponds. 13. Cell assembly according to claim 11,  characterized in that the receiving units (5) of one of the individual cells (1) have dimensions which correspond to the dimensions of the housing side (2.1, 2.2) projecting part (4.1) of the positioning elements (4) of a downstream single cell (1). 14. Cell composite according to claim 4,  characterized in that the positioning elements (4) are formed of an electrically insulating material. 15. cell assembly according to claim 4,  characterized in that the positioning elements (4) on the  Housing frame (2.3) are positively, positively and / or materially secured. 16. Cell composite according to claim 4,  characterized in that the positioning elements (4) and the  Housing frame (2.3) of a respective single cell (1) are formed as a shaped element. 17. Cell assembly according to claim 1,  characterized in that the individual cells (1) of the cell assembly (3) are pressed together by front and rear sides of the cell assembly (3) arranged pressure plates (8). 18. Cell assembly according to one of the preceding claims 1 to 17 for a Battery, for example, for a lithium-ion battery. 19. Battery according to claim 18,  characterized in that the battery is a vehicle battery, in particular a battery for a vehicle with hybrid drive or a fuel cell vehicle.