DE19758412A1 - Arrangement for mixing an electrolyte of a battery - Google Patents

Description

The invention relates to an arrangement for mixing an electrolyte a battery, with an outer housing receiving the electrolyte and spaced apart to this running guide for the electrolyte from the bottom area of the housing to in the upper area above the fluid level.

A corresponding arrangement for batteries can be found in EP 0 617 846 B1. For A U-tube is provided to guide an electrolyte. In the space between the Walls in the bottom area of a battery, the U-tube has a perforation as a passage opening on. The openings of the tube itself are close to the top of the Cell. There are balls inside the tube. The bullets can also be made by lead sledge to be replaced. The perforation allows fluid to enter from the bottom of the cell penetrate. With each acceleration of the cell in the longitudinal direction of the U-tube takes place through the Movement of the balls or lead slides to convey liquid, creating a Mixing takes place. However, the balls or lead slides resist flow said, which does not necessarily ensure thorough mixing to the required extent.  

There is also a corresponding design for liquids with signs of sedimentation not suitable.

The present invention is based on the problem of an arrangement of the beginning mentioned type so that a mixing of the electrolyte in sufficient Scope can take place, with the mixing optionally both on thermal and also on mechanical. Ways should be possible.

According to the invention, the problem is essentially solved by guiding through one between the outer housing and an inner housing arranged therein existing space is formed that the inner housing at least one bottom Opening, preferably at least one in a side wall below from the electrolyte mirror side wall opening and one above the elec trolyte mirror running ceiling wall with this running ceiling wall opening comprises, which preferably runs in a depression.

The mechanical mixing of the electrolyte (fluid) can be done by the connection between rule the openings running preferably over the entire floor area upper edge of the side wall extending space and the backflow through the ceiling wall opening, preferably in the depression of the ceiling wall respectively. To ensure mixing from the floor area to the ceiling area, it is provided that the inner housing has a circumferential upper edge to which set back the ceiling wall goes out. This creates a liquid intake above the ceiling wall, which ensures that liquid that flows from the space in the Side wall area flows towards the ceiling wall, enters the inner housing from above.

Thermal mixing can take place through the opening in the side wall respectively. For this purpose, it is preferably provided that in the area of the side wall opening a heat or cold source is present, which is preferably by a partition or is formed by or has an outer wall of the outer housing.  

In order to ensure a uniform mixing, at least the inner housing in With respect to its side wall, a geometry corresponding to the outer housing.

The outer housing is preferably divided into at least two by a partition Areas divided, with at least one inner housing being arranged in each area, wherein the partition is or has the heat and / or cold source.

It is also proposed that from the side wall opening of a battery plate surrounding inner housing at least one running into the interior of the inner housing Line with liquid-dispensing outlets, preferably the outlets even in other lines extending to the bottom area of the inner housing hen. This ensures that the electrolyte is within the required range between the plates and in the desired concentration.

In a particularly noteworthy development of the invention it is provided that the line or lines within separating fleece present between the plates of the battery run.

According to a further development, the side wall or side walls of the inner housing ses approximately equidistant to the inner side wall surface or side wall surfaces of the outer Housing run, whereby the required mixing to the required extent is ensured.

Further details, advantages and features of the invention result not only from the Claims, the features to be extracted from these - individually and / or in combination -, but also from the following description of the drawing preferred embodiments.

Show it:  

Fig. 1 is a schematic representation of a battery in section,

Fig. 2 shows another embodiment of a battery in section and

Fig. 3 shows a schematic diagram of a liquid movement of an accelerated battery housing.

The figures to be described below provide arrangements for mixing of electrolytes, for example to avoid sedimentation or the ent are different concentrations in the electrolyte itself.

In Figs. 1 and 2, batteries 10, 12 each of an outer housing 14 which is divided by a partition 16 into two sections 18, 20 and 22 respectively. In each of these areas 18 , 20 , 22 , plates 24 , 26 , 28 are connected to battery cells in the usual way in order to deliver the desired voltage. In this regard, however, reference is made to conventional techniques.

Deviating from known constructions, the battery plates 24 , 26 and the individual cells are each surrounded by an inner housing 28 , 30 , which extends at a distance from the inner wall of the outer housing 14 and the partition 16 . The inner housing 28 , 30 has a bottom wall 32 , 34 with openings 36 , 38 . The side wall 40 , 42 running parallel to the partition 16 in turn has a further opening 48 , 50 at a distance from the liquid surface 44 , 46 when the battery 10 , 12 is at rest.

The inner housing 28 , 30 is covered on the upper side by a ceiling wall 52 , 54 , which in turn preferably has an opening 60 , 62 in a depression 56 , 58 . In other words, the top wall 52 , 54 can be designed inclined to the depression 56 , 58 so that liquid flows along the outside of the top wall 52 , 54 to the opening 60 , 62 and thus into the interior of the inner housing 28 , 30 . The opening 60 , 62 runs above the liquid level 44 , 46 .

The top wall 52 , 54 is surrounded by a peripheral edge 64 , 66 , so that there is a plate-shaped receptacle for liquid above the top wall 52 , 54 . The peripheral edge 64 , 66 , which can be angled inwards, that is in the direction of the depression 56 , 58 (reference numerals 68 , 70 ), is an extension of the side walls of the inner housing 28 , 30 .

Of course, the teaching according to the invention is also available with a flat ceiling wall Opening feasible, with the ceiling wall surrounding the opening Elevation should have, so that a liquid collection is available.

If the battery, i.e. the housing 10 , 12 is accelerated in one direction, then liquid flows through the space between the inner housing 28 , 30 and the outer housing 14 in the area above the top wall 52 , 54 of the inner housing 28 , 30 with the result that the Liquid can flow into the interior via the opening 60 , 62 (see arrow), as a result of which the desired mixing takes place. In addition, an energy source can be installed in the partition wall 16 , which in turn causes thermal mixing by convection to the effect that liquid flows from the bottom region between the inner housing 28 , 30 and the outer housing 14 into the space between the partition wall 16 and the adjacent side wall 40 , 42 of the inner housing 28 , 30 flows to the opening 48 , 50 and enters the interior of the inner housing 28 , 30 .

According to the exemplary embodiment in FIG. 2, a horizontally running line 72 extends from the side wall opening 48 and runs in the intermediate space between two adjacent plates of a battery cell, preferably in a separating fleece 74 which fills the intermediate space between two adjacent battery cell plates. From the horizontal line 72 extend vertically in the direction of the bottom of the cell 72 extending lines 76 , 78 with openings 80 through which the electrolyte enters the separating fleece 74 and thus into the area between the plates.

On the basis of Fig. 3 should be made clear once more that with the acceleration of the outer housing of the assembly, the liquid level to Horizonta invention len inclined sets with the result that liquid passes through the opening in the top wall into the inner housing. This enables the desired mechanical mixing.

Please also refer to the following advantages.

If an enlarged acid reservoir accumulates in the bottom area of a battery, to Example after the battery has been discharged for a long time ten), the performance of the battery can be increased in the short term by re-mixing be significantly increased.

If there are fleeces or sponges in a battery (so-called fleece battery the new generation), training can take place in such a way that by using nonwovens or sponges with different capillary effects also in the mixing area both the desired leakage security is guaranteed, as well as a - albeit ver hesitated - mixing is achievable.

Claims (14)

1. Arrangement for mixing an electrolyte of a battery, with an outer housing ( 14 , 86 , 122 ) receiving the electrolyte and spaced guides for the electrolyte from the bottom region of the housing to its upper region above the electrolyte mirror ( 44 ), characterized in that the guide is formed by an intermediate space present between the outer housing ( 14 ) of the battery and within the inner housing ( 28 , 30 ) arranged therein, the inner housing having openings ( 36 , 38 ) on the bottom, preferably at least one in one Side wall ( 40 , 42 ) existing below the electrolyte level ( 44 ) extending side wall opening ( 48 , 50 ) and a top wall running above the fluid level ( 52 , 54 ) with at least one ceiling wall opening ( 60 , 62 ). 2. Arrangement according to claim 1, characterized in that the ceiling wall opening runs in a depression ( 56 , 58 ). 3. Arrangement according to claim 1 or 2, characterized in that the inner housing ( 28 , 30 ) has a circumferential upper edge ( 64 , 66 ), from which the recessed wall ( 52 , 54 ) starts. 4. Arrangement according to at least one of the preceding claims, characterized in that the upper circumferential edge ( 64 , 66 ) surrounding the ceiling wall ( 52 , 54 ) is angled inwards. 5. Arrangement according to at least one of the preceding claims, characterized in that the ceiling wall opening ( 60 , 62 ) is arranged centrally in the ceiling wall ( 52 , 54 ). 6. Arrangement according to at least one of the preceding claims, characterized in that the inner housing ( 28 , 30 ) at least with respect to its side wall has a geometry corresponding to the outer housing ( 14 ). 7. Arrangement according to at least one of the preceding claims, characterized in that the inner housing ( 28 , 30 ) on the bottom side has openings ( 36 , 38 ) preferably uniformly distributed over its entire or almost its entire base area. 8. Arrangement according to at least one of the preceding claims, characterized in that in the region of the side wall opening ( 48 , 50 ) having side wall ( 40 , 42 ) of the inner housing ( 28 , 30 ) and spaced apart from this a heat and / or cold source ( 16 ) is arranged. 9. Arrangement according to at least one of the preceding claims, characterized in that the outer housing ( 14 ) is divided into at least two areas divided by a partition ( 16 ), that in each area at least one inner housing ( 28 , 30 ) is arranged and that the partition is or has the heat and / or cold source. 10. The arrangement according to at least one of the preceding claims, characterized in that from the side wall opening ( 48 ) extends into the interior of the inner housing ( 28 ) extending line with liquid-emitting outlets ( 76 , 78 , 80 , 82 ). 11. The arrangement according to at least one of the preceding claims, characterized in that the outlets in further to the bottom region of the inner housing ( 28 ) he extending preferably openings such as perforations having lines ( 76 , 78 ). 12. The arrangement according to at least one of the preceding claims, characterized in that the line or lines ( 72 , 76 , 78 ) run between plates of a battery or within separating fleece arranged between the plates. 13. Arrangement according to at least one of the preceding claims, characterized in that the side wall or side walls of the inner housing ( 28 , 30 ) runs or run approximately equidistant to the inner side wall surface or to the inner side wall surfaces of the outer housing ( 14 ). 14. Arrangement according to at least one of the preceding claims, characterized in that the ceiling wall opening ( 60 , 62 ) has a peripheral edge ( 64 , 66 ) to form a fluid intake.