DE102016122101B4 - Battery cell and cover plate - Google Patents

Abstract

Battery cell (10) with a cell vessel (12) within which positive and negative electrode plates (22, 24) are arranged, between which separators (30) are arranged and a cover plate (38) arranged above the separators (30), wherein the cover plate (38) has at least one flexible region (42), which allows a length adjustment of the cover plate (38) in the longitudinal extent between the inner sides of the cell vessel walls (16, 20).

Description

The invention relates to a battery cell with a cell vessel within which electron plates and separators and an electrolyte are arranged.

Such battery cells are optionally interconnected to battery blocks and serve in particular a stationary power and voltage supply of different electrically operated devices.

The individual battery cells consist essentially of electrodes, separators, that is ion-permeable separating elements for the spatial and electrical separation of electrodes of different polarity, an electrolyte, a cell vessel and other parts required for the assembly and connection of a battery.

In particular, when used in the stationary area, a so-called cover plate is usually placed above the separators, which is held in position at the top by the negative and the positive pole bridge. The purpose of the cover plate is to prevent the separators and possibly built laterally of the plate set filler unintentionally leave the nominal position or direct damage to the separators from the outside can occur during technical maintenance.

DE 12 78 575 A and DE 25 16 729 A1 each disclose battery cells in which positive and negative electrode plates are arranged within a cell vessel. Separators are arranged between the electrode plates. Above the separators, a cover plate is arranged, which is firmly mounted in the cell vessels.

Since the parts required for the assembly of the battery cell and the cell vessel are subject to certain dimensional tolerances, positioning of the separators or optionally of the filling materials can not be ensured in individual cases.

The invention is based on the object to provide a battery cell of the generic type, in which in a simple way positioning of the separators and a retention of the separators is ensured at their nominal positions.

According to the invention this object is achieved by a battery cell having the features mentioned in claim 1. Due to the fact that the cover plate arranged above the separators has at least one flexible region which makes it possible to lengthwise adjust the cover plate in the longitudinal extent between the inner sides of the cell vessel walls, it becomes advantageously possible to compensate for dimensional tolerances via the at least one flexible region of the cover plate. The cover plate is thus always pressed with a minimum force to the cell vessel walls, so that both the separators and optionally present further filler safely remain in their nominal positions.

In a preferred embodiment of the invention, it is provided that the at least one flexible region is formed by at least one tongue formed on the cover plate. This makes it possible in a simple manner, integrally form the flexible area with the cover plate.

The thus flexibly mounted on the Abdeckpate tongue provided a sufficient holding force for the cover sure.

In a further preferred embodiment of the invention it is provided that the cover plate has at least one of its end faces open to the front side recess which forms an undercut to the edge region of the cover plate. With this embodiment, the formation of a flexible region on the cover plate is achieved in a particularly simple manner. The formation of the flexible region can thus be integrated into the production of the cover plate as a whole in a simple manner.

Further preferred embodiments of the invention will become apparent from the remaining, mentioned in the dependent claims characteristics.

• 1 eine schematische Draufsicht auf eine Batteriezelle;
• 2 eine schematische Schnittdarstellung durch eine Batteriezelle;
• 3 eine Draufsicht auf eine Abdeckplatte in einer ersten Ausführungsvariante;
• 4 eine schematische Perspektivansicht einer Abdeckplatte in einer zweiten Ausführungsvariante
• 5 eine Draufsicht auf eine Abdeckplatte in einer dritten Ausführungsvariante;
• 6 eine schematische Draufsicht auf eine Abdeckplatte in einer vierten Ausführungsvariante.

The invention will be explained in more detail in embodiments with reference to the accompanying drawings. Show it:

• 1 a schematic plan view of a battery cell;
• 2 a schematic sectional view through a battery cell;
• 3 a plan view of a cover plate in a first embodiment;
• 4 a schematic perspective view of a cover plate in a second embodiment
• 5 a plan view of a cover plate in a third embodiment;
• 6 a schematic plan view of a cover plate in a fourth embodiment.

1 shows in a schematic plan view a total with 10 designated battery cell. The battery cell 10 includes a cell vessel 12 comprising a bottom (not shown in plan view) and four cell vessel walls 14 . 16 . 18 respectively 20 having. The cell vessel 12 consists for example of glass and forms a receiving space for the other components of the battery cell 10 out.

Inside the cell vessel 12 are arranged electrode plates. Here are alternately positive electrode plates 22 and negative electrode plates 24 arranged. The number of six positive electrode plates shown in the example 22 and seven negative electrode plates 24 are of course purely exemplary.

The positive electrode plates 22 are by means of a pole bridge 26 connected with each other. The negative electrode plates 24 are over a pole bridge 28 connected with each other. The connection between the electrode plates 22 . 24 and the pol bridges 26 respectively 28 done by 2 illustrated connection lugs 29 respectively 31 ,

Between the electrode plates 22 and 24 each is a so-called separator 30 that is an ion-permeable separating element for the spatial and electrical separation of the electrode plates 22 and 24 arranged.

Between the outer negative electrode plate 24 and the cell vessel walls 16 / 20 is a filler 34 , also as Wellseparator 34 designated arranged.

Between the pole bridge 26 and the pole bridge 28 extends a cover plate 38 , on the one hand on the inner wall of the cell vessel wall 16 and on the other hand on the inner wall of the cell vessel wall 20 is applied.

The cover plate 38 is formed by a U-shaped perforated perforated sheet in its cell wall 20 facing end portion 40 a flexible area 42 having.

The flexible area 42 is formed by the fact that the front side 44 the cover plate 38 one to the front 44 open recess 46 that in the end section 40 an undercut 48 formed. This leads to the formation of tongues 50 , in the longitudinal extension of the cover plate 38 are flexible.

In the intended condition, the cell vessel 12 filled with an electrolyte and with a lid (not shown) sealed. The pol bridges 26 and 28 are led to the outside via corresponding negative or positive connection poles.

Structure and function of a battery cell 10 are generally known, so that in the context of the present description will not be discussed here.

Essential to the invention is the cover plate 38 with their flexible range 42 , This ensures that when mounting the cover plate 38 above the separators 30 or Wellseparatoren 34 the cover plate 38 between the cell vessel walls 16 and 20 is clamped with a holding force. The holding force is due to the elasticity of the tongues 50 of the flexible area 42 certainly.

When mounting allows the flexible area 42 that the tongues 50 in the longitudinal direction slightly inward, that is in the direction of the undercut 48 can be urged so that they then frictionally against the inner wall of the cell vessel wall 20 issue. This will accidentally move the cover plate 38 avoided, so can dimensional tolerances, for example, in the manufacture of the cell vessel 12 be compensated.

The separators 30 , in particular the Wellseparatoren 34 are thus always through the cover plate 38 kept in their intended nominal position.

In other words, the cover plate 38 is able to due to the existing flexible range 42 Manufacturing tolerances when cutting the cover plate 38 and deviations of the inner dimension of the cell vessel 12 and in addition a trouble-free installation of the plate set including the cover plate 38 to enable.

In 2 is a schematic partially sectioned side view of the battery cell 10 clarifies that the cover plate 38 between the terminal lugs 29 and 31 or the pole bridges 26 and 28 is fixed. The cover plate 38 is above an indicated wave separator 34 to the inside of the cell wall 16 guided.

In 3 is a schematic perspective view of the cover plate 38 with its end section 40 again clarified. The same parts as in the preceding figures are provided with the same reference numerals and not explained again.

In particular, the longitudinally extending lateral upstand becomes 52 the cover plate 38 clear. The upstand 52 ensures that when applying a force to the tongues 50 in fact, only one evasive movement one-dimensionally on the plane of the cover plate 38 through the flexible area 42 is obtained. An evasion of the cover plate 38 , that is a bending of the cover plate 38 in the vertical direction, is due to the upstands 52 avoided.

In the following 4 to 6 are further embodiments of the design of a cover plate 38 shown. The cover plate 38 is here only partially shown to the principle of training at least one flexible area 42 to clarify.

According to the in 4 illustrated embodiment, the cover plate 38 from adjacent segments 54 , each by a leaf spring-like trained connector 56 are connected. The sections 54 are through slits provided 58 positioned at a distance from each other and only through the connector 56 connected with each other. This ensures that when applying a holding force F in the direction of the arrow sections 54 are mutually displaceable.

With built-in cover plate 38 practice the connectors 56 a spring force on the sections 54 out, leaving the respective outer sections 54 the cover plate 38 against the inner walls of the cell vessel wall 16 respectively 20 be urged.

In the in 5 the embodiment shown, the cover plate 38 from a variety of segments 60 that only in their side area so in the area of the upstand 52 connected to each other. The segments 60 have corresponding nose-like projections 62 which take turns taking hold of each other. Between the segments 60 there is always a free space left 64 , so that when applying a holding force F, the segments 60 reduce their distance from each other. In contact with the inner wall of the cell vessel wall 16 or the cell vessel wall 20 then arrive respectively the outer projections 62 the outer segments 60 ,

6 shows an embodiment in which the cover plate 38 from meandering sections 66 a ribbon 68 are formed. The sections 66 show thickening 70 on to a stabilization of the cover plate 38 leads in the vertical direction. When applying a holding force F, the sections 66 spiral spring-like crowded together, so that the cover plate 38 between the insides of the cell vessel walls 16 and 20 can be tightened.

According to all embodiments, the cover plates 38 made of an electrically non-conductive material, such as a plastic.

LIST OF REFERENCE NUMBERS

10

battery cell

12

cell vessel

14

Zell vessel wall

16

Zell vessel wall

18

Zell vessel wall

20

Zell vessel wall

22

positive electrode plate

24

negative electrode plate

26

positive pole bridge

28

negative pole bridge

29

positive connection flag

30

separator

31

negative connection flag

34

Filling material / Wellseparator

38

cover

40

end

42

flexible area

44

front

46

recess

48

undercut

50

tongues

52

backsplash

54

segment

56

joint

58

slots

60

segment

62

nose-like projections

64

free space

66

sections

68

tape

70

thickening

Claims (8)

Battery cell (10) with a cell vessel (12) within which positive and negative electrode plates (22, 24) are arranged, between which separators (30) are arranged and a cover plate (38) arranged above the separators (30), wherein the cover plate (38) has at least one flexible region (42), the length adjustment of the cover plate (38) in the longitudinal direction between the insides of the cell vessel walls (16, 20). Battery cell (10) after Claim 1 , characterized in that the flexible region (42) of at least one on the cover plate (38) arranged tongue (50) is formed. Battery cell (10) according to any one of the preceding claims, characterized in that the cover plate (38) on at least one of its end faces (44) has a recess open to the end face (46), which has an undercut (48) to the edge region to the end face (44 ) of the cover plate (38) is formed. Battery cell (10) after Claim 1 , characterized in that the cover plate (38) consists of adjoining segments (54) which are each connected by a blade-ferrule-shaped connecting piece (56). Battery cell (10) after Claim 1 , characterized in that the cover plate (38) consists of segments (60) which are interconnected in the region of an upstand (52). Battery cell (10) after Claim 5 , characterized in that the segments (60) have corresponding nose-like projections (62) which engage alternately. Battery cell (10) after Claim 1 Characterized in that the cover plate (38) has a meandering shape to each other extending portions (66). Covering plate (38) for a battery cell (10), characterized in that the cover plate (38) has at least one flexible region (42), which lengthwise adjustment of the cover plate (38) in the longitudinal extension between the inner sides of cell vessel walls (16, 20) of a Cell vessel (12) of the battery cell (10) allows.

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