DE1671861C - Process for the production of galvanic elements with coaxially arranged electrodes and system for carrying out the process - Google Patents

Description

I 671 861 ^

I 2

The invention relates to methods and an alkali in suspension, as before

layers for the production of galvanic elements with remains,

Salt electrolyte and with coaxially arranged elec- Another disadvantage is the unstable supply

electrodes, preferably for the production of galvanic composition of the material of the thickened elec-

Elements with an alkaline electrolyte. 5 trolyts (the ion-conducting diaphragm) on it

Generally known is a process for the produc- tion that, on the one hand, the negative

position of galvanic elements with salt electrode surrounding suspension during drying

lyt, in which one flows the space of the negative electrode, the forehead parts of the electrode, so that the

for example a zinc electrode, initially with a layer of flour of uneven thickness over the elec-

Suspension of electrolyte and starch fills and io trodenhöhs distributed and that on the other hand also the

then the material of the positive electrode is incorporated when the electrodes are introduced into the suspension

brings. When the positive electrode is introduced, the amount of flour remaining on it does not become constant

the suspension is displaced and fills the space. In addition, the flour content in the

between the electrodes. The thickening of the suspension gradually decreases.

Suspension, which leads to the formation of an ion-conductive 15 The known facilities for the production of

Diaphragm is required, is done with self-galvanic elements

thickening solutions over time and, in others, extensive mechanization of individual operations

Heat supply solutions. in the procedures described above that

The application of this process for the production of number of operations could not be done so far

can be reduced by galvanic cup elements with alkaline ao.

Electrolyte and with a negative electrode made of paste- With the invention, these disadvantages of the similar Zinc, for example, is known to the extent that it is used for the production of electroplating unfavorable as the characteristics of the elements very fixed elements and a reliable plant incur unstable. This disadvantage is mainly due to the high efficiency for the production of gallich two causes. 25 vanic elements can be specified, in which the

First, the flour swells very quickly in the number of operations and the quality of the lower

Alkalis. In order to allow the assembly of the elements, the elements are larger.

borrowed, one therefore cools from production engineering The invention is based on the object

The bases of the alkalis during the formation of the ion-conducting diaphragm and the elec-

ion-conducting diaphragm down to 0 to 5 ° C. 30 trode-forming materials in the housing of the galvanic

In spite of this cooling, the 2 ugly Aufbenische element remains to be introduced in such a way that the danger

retention time of the solution limited to 15 minutes. of short circuits and self-discharges of the

After this time, the solution is avoided despite the element during storage,

low temperature thick. The thickening time of the as well as an automatic plant to develop that

the suspension poured into the element is 35 allow the number of operations to be reduced,

against at least 2 minutes. This time is sufficient, has a high performance wedge and is reliable

around the surface layer that is in operation in the suspension.

remaining pasty negative electrode. This object is destroyed according to the invention. The particles leaving this electrode dissolve, so that the electrolyte solution pre-thickens and glides evenly down and can short-circuit in the 40 early with the material of at least one electrode Element and thus a self-discharge during the in the housing cup of the galvanic element Cause storage. is poured with simultaneous shaping.

On the other hand, the suspension is advantageous during the first, the positive electrode

Filling with particles of the positive electrode arranged in the housing of the element and then the

mixes in the lower part of the element 45 material of the negative electrode at the same time

collect. This can also cause a self-discharge of the thickened electrolyte solution,

of the element during storage. One can also use the pre-thickened electrolyte solution

A method is also known for introducing the material of both electrodes simultaneously in the position of galvanic elements with alkaline elements in the housing. It is also advisable to use electrolyte, in which the material of the negative 50 simultaneously with the introduction of the thickened electrode, for example zinc, first electrolyte solution and the material of the negative in a suspen electrode prepared from starch and water also the conductor in the space of the sion is immersed. Insert the electrode prepared in this way, negative electrode,
is allowed to dry in the air for a time that is sufficient for the formation of a film of swelling flour on 55 according to the method according to the invention preferably a nozzle of the surface of the electrode (15 to 20 seconds) for shaping the expelled strands of material . Then the tube of the positive, at least two coaxially arranged hollow mandrels on the electrode is filled with alkali and the material is applied.

the negative electrode. This forms in one of the nozzle spaces is advantageous with one

about 3 to 4 seconds the ion-conducting diaphragm 60 dispenser for the pre-thickened electrolyte solution and the

from (see, for example, the Soviet authorship of other DUsenraum with an allocator for the work-

133 082), connected to the negative electrode. The two

Although this process enables the manufacture of dispensers to be connected to pressure lines,

of galvanic elements of somewhat higher quality, which supply the corresponding substances,

but also has a number of shortcomings. 6j The two allocators are preferably in the form of

The main disadvantage is that there is a risk that the cylinders are executed with movable punches

a short circuit in the element caused by particles provided with a valve. The valve enables

WT electrode, which after filling in the liquid light, the alternating connection of the cylinder

clear the pressure lines and the nozzle pipes.

An essential advantage of the method according to the invention is that the ion-conducting diaphragm consists of a pre-thickened electrolyte solution that is kept in this state for a long time will be icann. without their properties and thus the properties of the galvanic elements produced to affect.

Another advantage of the method according to the invention is to avoid the risk of an internal short circuit between the electrodes.

In addition, in the method according to the invention, the number of operations is reduced because the materials of the electrodes and the ion-conducting diaphragm into the housing of the at the same time Element can be introduced.

The system according to the invention, in which the spaces of the shaping nozzle with dispensing cylinders, the one Movable plunger and valve have, are connected, enables extensive mechanization of the manufacturing process.

The invention is illustrated below with the aid of some exemplary embodiments with reference to FIG Drawings explained in more detail. It shows

F i g. 1 shows a longitudinal section through an inventive Nozzle for pressing in the material of the negative electrode, the thickened electrolyte solution and the current conductor in the housing of the galvanic element in which the positive electrode was previously arranged has been,

Fig. 2 shows a longitudinal section through a further according to the invention Nozzle for pressing in the negative and positive materials at the same time Electrode, the thickened electrolyte solution and the current conductor,

F i g. 3 shows a schematic representation of distributors for feeding materials in portions into the spaces of the nozzles according to FIG. 1.

From the following description of the structure and the mode of operation of some exemplary embodiments of plants according to the invention is also the one on which the method according to the invention is based Basic idea understandable.

The in F i g. 1 shown plant for the production of a galvanic Etement with alkaline electrolyte contains a nozzle with a jacket 1 and two concentrically arranged hollow mandrels 2, 2 ', which the Limit rooms 3, 4. The shape and dimensions of the jacket 1 should match the shape and dimensions of the space correspond to the positive electrode previously placed in the housing of the element (in the drawing not shown) are arranged.

The spaces 3, 4 are filled with d '; r pre-thickened electrolyte solution or the material of the negative electrode. The current conductor of the negative electrode is inserted into space 5.

Are the substances in the rooms 3, 4 When exposed to pressure, they flow simultaneously in the form of a strand into the space of the positive Electrode, whereby the ionic diaphragm and the negative electrode are formed. Simultaneously the current conductor is also introduced through the opening 5, which is pressed firmly against the negative electrode or pressed onto the negative electrode will.

The in F i g. The nozzle shown in FIG. 2 is expediently used when the negative and positive electrodes and the ion-conducting diaphragm (not shown in the drawing) are to be pressed in and shaped at the same time. The nozzle here has a jacket 1 and three hollow domes 2, 2 ', 2 ", which in turn are arranged coaxially and form the spaces 3, 4 and 6. These nozzle spaces take the pre-thickened electrolyte solution, the material of the positive and the material of the negative The space 5 is again used to introduce the current conductor of the negative electrode, which is inserted into the housing of the galvanic element at the same time as the substances are pressed into the spaces 3, 4 and 6. The design and dimensions of the jacket 1 should the shape and dimensions of the housing of the galvanic element (not shown in the drawing) The manufacture of the galvanic elements, ie the introduction and shaping of the electrodes and the ion-conducting diaphragm, are carried out as above

ao described.

F i g. 3 shows a further exemplary embodiment of the system according to the invention. The plant according to F i k. 3 makes it possible to mechanize the manufacturing process by controlling the material flows.

This system contains a nozzle with a jacket 1 and with hollow mandrels 2, 2 ', which the spaces 3, 4, 5 continue to form cylinders 7, 8 with displaceable rams 9, 10 and with rotary valves 11, 12, which are used as discontinuously working dispensers for the thickened electrolyte solution and the electrode materials works.

The space 13 of the cylinder 7 is on the one hand through the channel 14 with the space 3 of the nozzle and on the other hand connected to the pressure line 15. In the same way, the cylinder rim 16 is also over the channel 17 is connected to the nozzle chamber 4 and to the pressure line 18.

The system according to FIG. 3 works as follows: The galvanic element with the one pressed into it

positive electrode 19 is placed on the nozzle body by advancing the plunger 20. The ring 21, which also serves to prevent destruction of the positive electrode 19, is displaced in the process the nozzle jacket 1 along.

When the spaces 13, 16 of the cylinders 7, 8 via valves 11, 12 with the corresponding pressure lines 15, 18 are connected, they fill with the materials of the ion-conducting diaphragm and the negative electrode. Under the pressure

So the effect of the entering substances drive the Steiripel 9, 10 upwards and release a certain space.

When the cylinders 7, 8 are filled, the

Valves 11, 12 rotated (by 180 ° according to the drawing), whereby the cylinder chambers 13, 16 are connected to the corresponding nozzle chambers 3, 4 via the channels 14, 17. The current conductor 22 is now inserted into the space 5 and it is pressed with the plunger 23 to the bottom of the element. If the punches 9, 10 are now moved downwards,

The substances flow out of the cylinder chambers 13, 16 under the action of pressure in the nozzle spaces 3, 4 and from there into the housing of the element in which the positive electrode 19 is already in place. The ion-conducting diaphragm and the

its negative electrode shaped.

Simultaneously with the introduction of the materials and the insertion of the conductor 22, the Plunger 20 withdrawn.

In the same way as the system described above, a device for simultaneous Introduction of the substances for the positive and negative electrodes and for the ion-conducting diaphragm be constructed, only with the difference that the S nozzle then has three coaxially arranged hollow mandrels and the nozzle spaces formed thereby are connected to three press cylinders.

The application of the invention makes it possible to considerably simplify the manufacture of galvanic elements, ie to increase the OUte of the elements and to reduce the tolerances of their characteristics. In addition, self-discharge of the elements during storage, as occurs with conventional elements due to leakage currents, is avoided. On the basis of the invention, high-performance machines can be developed which largely reduce the amount of work involved in the manufacture of galvanic elements. te

Claims (7)

Patent claims: 1. Process for the production of galvanic elements, in the housing of which a positive elec- * s trode and a negative electrode with current conductor arranged coaxially and through an ion-conducting Diaphragms are separated from each other, characterized in that the electrolyte solution pre-thickened and simultaneously with the so Material of at least one electrode is pressed into the housing of the galvanic element with simultaneous shaping. 2. The method according to claim 1, characterized in that first the positive electrode is arranged in the housing of the element and then the material of the negative electrode and the pre-thickened electrolyte solution are pressed in at the same time. 3. The method according to claim 1, characterized in that the pre-thickened electrolyte solution and the material of both electrodes are pressed simultaneously into the housing of the galvanic element. 4. Process according to Claims 1 and 2, characterized in that the current conductor is inserted into the space of the negative electrode at the same time as the pre-thickened electrolyte solution and the negative electrode are pressed in. 5. Plant for performing the method according to claims 1 to 4, characterized by a nozzle with at least two coaxially arranged hollow mandrels (2, T), which enables the materials to be pressed in while simultaneously shaping the exiting strands. 6. Plant according to claim 5, characterized in that one of the nozzles spaces with one Dispenser for adding the pre-compressed electrolyte solution in portions and another one with connected to a dispenser for feeding the material of the negative electrode in portions and that both feeders are connected to pressure lines for the corresponding materials are. 7. Plant according to claim 6, characterized in that the distributor as a cylinder (7, 8) with movable plunger (9,10) and a valve (11,12) are formed and that the valve is the associated cylinder space alternating with one of the pressure lines (15, 18) and one of the DUsen rooms (3, 4) connects. 1 sheet of drawings 2256