NO132010B - - Google Patents

Description

The present invention relates to a method which enables the creation of electrical connections in accumulator batteries simultaneously between pole plates and connecting terminals for accumulator batteries. '

It is known to make electrical connections both between the pole plates in a cell element in an accumulator and between groups of plates in neighboring cells in batteries, using small rods such as e.g. is produced by pouring lead, which has previously been brought into a liquid state, into a suitable stop shape, arranged so that the small rods will extend through the partitions between the relevant cells or elements in the accumulator battery.

Connection of the plates in the battery's outer elements with assigned connection clamps is carried out by means of connecting pieces or orers on the plates, likewise by means of an appropriate stop technique. An example of this is given in British patent document no. 1,221,779, which describes the electrical connection between the orers on the plates and the battery's connection terminals in cavities formed along the upper part of the battery's side walls. However, such known methods have a number of disadvantages.

In particular, the production of the connecting rods is a relatively delicate work process, which necessitates the use of special stop forms, and this will lead to increased costs in the production of the batteries.

Furthermore, connections made in this way are not always sufficiently liquid-tight, which will adversely affect the working function of the storage battery.

The purpose of the present invention is to overcome these disadvantages

and applies to a method which enables the simultaneous manufacture of all internal connections between pole plates and clamps in an accumulator battery, while the method is particularly easy to carry out and a high production rate is thus ensured.

More specifically, the invention thus relates to a method for creating electrical connections in storage batteries simultaneously between pole plates in the same battery element, between groups of pole plates in different elements as well as between the battery's connection terminals and plate groups in the battery's outer elements/ as orers on the plates and the connection terminals are electrically connected in cavities designed along the upper part of the accumulator's side walls by feeding the ores into the cavity through openings or slots formed in the inner walls of the cavities.

This method has as a special feature according to the invention that the battery's connection terminals are lined in said cavity through the cavity's outer walls, and said cavity is filled with granules of an electrically conductive, fusible material, which are brought to fusion by means of a melting device placed in a working position in relation to said cavity.

Further distinctive features and advantages of the invention will be described in more detail in the following with the help of an embodiment with reference to the attached drawings, in which: Fig. 1 shows in longitudinal section a battery of accumulator elements comprising electrical connections created by carrying out the method according to the invention ; and

Fig. 2 shows the battery in claim 1 in cross-section.

The figures thus show a battery of accumulator cells comprising a container 1 and a lid 2 made of a plastic material with openings 3 for filling the cells with electrolyte 4, and which can be closed using plugs or stoppers 5.

Elongated cavities 6 are arranged along the upper part of the container 1, each of the cavities being limited by the upper part of the battery container's side wall 7, a bottom piece 8 and an inner wall 9 parallel to the wall 7 and arranged mainly in extension of the lower part 10 of the outer wall of the accumulator container, the upper part 7 of the outer wall being arranged to protrude beyond the lower part 10. Furthermore, dividing walls 11 are arranged in said cavity with the aim of creating insulation between the various connection sections.

The inner wall 9 is equipped with a predetermined number of openings or slits 22, which, like the cavities 6, are stopped at the same time as the container.

The appended figures further show positive plates 12, negative plates 13 and also separator plates 14, which are carried in a known manner by blocks 15

arranged on the bottom of the container 1. Special reference must now be made to fig. 1, in which it is shown that the grooves 16 on the plates have a mainly rectangular shape, a front section 17 designed to be inserted into said openings or slots 22. The accompanying figures also show connection clamps 18, which are crimped into the upper part 7 of the side wall for container 1.

Finally, windings 19 for high-frequency current are arranged above the cavities 6, the battery itself being arranged to be advanced under said windings by means of suitable means 20, such as e.g. a traveling belt, transport rollers or the like.

The implementation of the method according to the invention takes place

in the following way:

First, the front section 17 is inserted on the plates' ears 16 in the openings

22 in the inner wall 9 for the cavities 6 in the way that is closer

illustrated in fig. 1. The cavities 6 are then filled, in the next production step, with a granule 21 of fuseable material, such as e.g. lead or a lead alloy. The battery is then made to travel under the windings 19, in which a current of suitable frequency and strength flows at the same time, the displacement of the battery being caused by the means 20.

The result of this is induction fusion of the granular material 21 and also the ends 17 of the plates' edges 16, so that at the same time electrical connections are made between the plates and also between the plates in the battery's outer elements and the connection terminals 18. Fig. 2 also shows that mutual insulation between the created connections between neighboring elements, produced by means of partitions 11.

The last work operation consists in welding or brazing the lid 2 on the container 1, preferably using heat welding techniques.

The process that makes up the invention thus makes it possible to produce, quickly and with minimal costs, the desired connections between the battery's components. Development of the method of the invention requires only a small effort at a not particularly high professional level, so that the process can easily be automated.

Claims (2)

1. Method for creating electrical connections in storage batteries simultaneously between pole plates in the same battery element, between groups of pole plates in different elements as well as between the battery's connection terminals and plate groups in the battery's outer elements, the terminals on the plates and the connection terminals being electrically connected in cavities designed along the upper part of the side walls of the accumulator in that the ores are fed into the cavity through openings or slots formed in the inner walls of the cavities; characterized in that the battery's connection terminals are lined in said cavity through the cavity's outer walls, and said cavity is filled with granules of an electrically conductive fusible material, which are brought to fusion by means of a melting device placed in a working position in relation to said cavity. 2. Procedure as stated in claim 1, characterized in that said melting device is made up of windings in which high-frequency current flows.