DE2439186A1 - Battery element with positive and negative plates - has electrolyte permeable partitions with slots parallel to plate edges - Google Patents

Abstract

The battery element consists of several positively and negatively charged electrode plates in alternating side-by-side, arrangement, separated by partitions for electrolytic current propagation. The partition edges are connected on at least two sides by common walls in a tight manner thus forming a continuous pocket assembly for the electrode plates of the battery. The walls have slots parallel to the electrode plate edges. The slots are preferably provided laterally and/or underneath the positive electrode plates. The element is produced by stacking the electrode plates and partitions and by soldering all positive and negative plate tags respectively together.

Description

Battery element and process for its production are the subject of Main patent ....... (application P 23 32 546.4) is an atterieelement consisting from a plurality of positively and negatively charged plates, which alternate arranged next to one another and each through one for the electrolytic current transpdrt permeable battery separators are separated from each other, with the edges of the separators of the element on at least two sides by means of common walls connected to each other and thereby a cohesive package of bags for form the battery plates. the common walls are preferably made from a circumferential strip made of a material that is resistant under battery conditions, that is firmly connected to the separator edges.

The invention according to the main patent was primarily based on the task a lateral closure of the battery elements in a simple manner, i.e. without use individual prefabricated pockets.

This problem has been solved in a surprisingly simple manner, however it can occasionally prove to be a disadvantage that in the embodiment according to Main patent also completely encased the positive plates and thus on the side be included. Often it would be cheaper if only the negative plates encased, the positive plates, however, would be freely accessible, as a coating may impair the function of the latter. Since on the positive Plate water is formed, there is a local dilution of the battery acid, when the acid cannot circulate freely. With prolonged use, divorces on the positive plate sludge, which with a complete coating the positive plate cannot fall to the bottom of the battery box, but accumulates in the plate area. Finally it comes through a The positive plate may grow to an extent that becomes mechanical Tension.

These difficulties that may arise can be resolved according to Invention clear that in a battery element according to the main patent Walls have slots running parallel to the panel edges. Through the slots on the sides in the area of the positive plates one can achieve, for example, that the battery acid can circulate freely.

Slots in the floor area below the positive plates ensure that possibly formed sludge can fall out and therefore not the function of the positive plate is impaired.

The main patent also relates to a method of production of battery elements, which can be done by putting the battery plates and separators together creates a package and the flags of the positively charged and the negatively charged Plates are soldered together, taking the edges of the battery separator connects tightly to a common wall on at least three sides and thereby forms a multicellular pocket, the cells of which hold the battery plates and / or separate from each other.

According to the invention, this method is further developed to this effect and improves that the common wall is provided with slots, which essentially run parallel to the plate edges.

According to a preferred embodiment, it is also possible here that the common walls are cut open over their entire length and thus individual pockets generated, which every second plate, preferably the negative plates, envelop. The procedure can be carried out in such a way that one is in each case in the field one type of plate, for example in the area of the positive plates, the common Cut the wall along its entire length. It is achieved in particular that when the positive plates expand, the stresses that occur no longer occur can lead to mechanical destruction of the element. To also have free acid circulation and to facilitate the separation of the battery sludge, it can be cheaper to make a parallel double cut and one strip of the wall material at a time take out and remove. A battery element is then obtained which has the is similar to conventional elements, each with the negative plates in a Single pocket are pushed, but this is much easier and possibly can also be produced automatically without difficulty.

The accompanying drawings are intended to explain the invention to serve; 1 shows a perspective view of a battery element according to the invention 2 shows a perspective view of another battery element according to the invention.

The battery element of Fig. 1 is shown in the inverted position, so that the pole flags point downwards. The element consists of five negatives Plates 1 and four positive plates 2, with one between the plates Scheider 3 is located. One of the negative plates 1 lies in front and behind. The separators 3 are firmly connected with a strip 4 on three edges, so that a cohesive package of pockets is formed, which is open at the top. There the pole lugs 11 of the negative plates 1 protrude on one side and on the other Side the pole lugs 12 of the positive plates 2 out and can through pole bridges be connected to each other. The circumferential strip 4 is in the area of the positive Plates 2 are provided with slots 5 on both the sides and bottom, which both free circulation of battery acid and falling out of Allow formed sludge.

In the battery element of FIG. 2, the negative plates 21 are with the positive plates 22 joined together.

and separated from one another by a battery separator 23. The positive plates are so-called tube plates. In making this Battery element were initially also all battery separators 23 and thus the Plates firmly connected to one another by a circumferential strip 24. Afterward individual pockets which only cover the negative plates 21 are thereby achieved get that in the direction of the edges of the positive plates 22 the circumferential strip 24 is separated over its entire length by a cut A or that through a double cut B and C each in the region of the positive plates 22 Strip is cut out and removed.

Claims (4)

Claims (1. Battery element consisting of a plurality of positive and negative loaded plates, which are arranged alternately next to each other and each through a battery separator permeable for the electrolytic current transport from each other are separated, with the edges of the separators of the element on at least two sides are tightly connected to each other by common walls and thereby a Form a coherent package of pockets for the battery plates, according to the patent ....... (Patent application P 23 32 546.4), characterized in that the Walls have slots running parallel to the panel edges. 2. Battery element according to claim 1, characterized in that the slots are provided on the side and / or below the positive plates. 3. Process for the production of battery elements, in which one by Combining the battery plates and separators creates a package and the flags the positively charged and the negatively charged plates respectively soldered together, taking the edges of the battery separators on at least three Sides each with a common wall tightly connects and thereby forms a multi-cell pocket, the cells of which hold the battery plates and / or separate from each other, according to patent. ... ... (patent application P 23 32 546.4), thereby characterized in that the common wall is provided with slots, which essentially run parallel to the plate edges. 4. The method according to claim 3, characterized in that the cuts common walls over their entire length and thereby creates individual pockets, which envelop every second plate, preferably the negative plates in each case. 5 ~ Method according to claim 4, characterized in that in each case makes a double cut and thereby a strip from the common Wall removed. L e r s e i t e