FI57131B - ANODSTAVSTAETNING FOER ELEKTROLYSCELL - Google Patents

Description

RSr ^ l [B] (11) ADVERTISEMENT ς? 1, 1 lJ 'v utlAggningsskrift j M oi

Patent oieddelat ^ ^ (51) K ».ik.3 / int.a.3 C 25 B 9/00 FINLAND — FINLAND (21) p« «ittltalwimi» - PtMMamSknlng 2365/71 *

(22) H »k« nl * pthrf — An <ekn »n *« d «| O8.O8.7U

'(B) AltaipMvt — GlMghttadag O8.O8.7U

(41) Tullut JulktMksI —MivK offantllg - ^ q Q2 jc PMMittl · and rakiatarihalditut (44) NlhtMWptne (,

Patent- och raglatarttyralaan AiMöku utitfd och uti.tkriftan pubticmd 29.02.80 (32) (33) (31) Requested etueiiww — B «giH prtork« 09.08.73

Federal Republic of Germany-Förbundsrepubliken Tyskland (DE) P 23U02U0.6 Verified—

Styrkt «(71) Friedrich Uhde GmbH, Deggingstrasse 10-12, U6 Dortmund, Federal Republic of Germany-Förbundsrepubliken Tyskland (DE) (72) Luciano Mos €, Dortmund, Federal Republic of Germany-Förbundsrepubliken Tysk-1 and (DE) (lU) FIELD OF THE INVENTION

First, the anode rod seal must be gas and liquid tight to protect the interior of the mercury electrolytic cell from the effects of air. In addition, it must be constructed in such a way that the anode rod can be moved axially relative to the cover.

In this sense, a method is already used in which the cover of the electrolytic cell has a circular opening made in the passages of the anode rods.

However, its diameter is many times that of the anode rod. The ring-shaped opening thus left free is covered, for example, according to U.S. Pat. No. 1,671 UUO with a flexible, heat-resistant and non-corrosive film. The cell cover is again sealed with a flange ring and several screws. The anode rod itself is sealed by pressing the a membrane with a nut on it against a non-corrosive and pressure-resistant protective and intermediate sleeve around the anode rod.

57131

Anode rod seals with membranes are further known, in which the central part of the membranes is sealed to the smooth anode rod by means of the respective fastener. Even in this embodiment, the seal has several parts. However, the downside of these already known seals is that the membranes sealed with screws and fasteners have to be removed point by point when the height adjustment of the anodes has to be performed. And if the screws are then tightened too tight, the film will easily puncture, leaving its sealing power non-existent. If small explosions occur in a cell using the anode rod seal described above, then it is the seals that break because they are the weakest point in the cell.

It is an object of the present invention to provide a flexible anode rod seal for an electrolysis cell such that it does not have the weaknesses of previous seal structures.

The device according to the invention is mainly characterized in that the sealing device is a ring plug made in one piece of elastic material and formed by a U-shaped collar section with a conical outer part and a central part extending as an annular bellows that the collar part is pressed into the opening of the cover.

The advantages of the seal according to the invention include its simple and quick attachment and detachment, good sealing performance and the possibility of adjustment, i.e. the possibility of easily moving the anode rod vertically and horizontally. If explosions occur in the cell due to the formation of explosive gas mixtures there, the ring plug will pop up, preventing parts of the cell or the actual seal from being damaged.

An embodiment of the invention is shown by way of example in the drawing and will be described in more detail below.

The bottom of the electrolytic cell has a mercury layer 2 as a cathode. Between the mercury cathode and the anode and around the anode there is a decomposable saline solution 5. On the cell there is a lid 6. The current is conducted through the anode rod ^. The gas-tight seal between the cell cover 6 and the anode rod h is formed by a seal according to the invention with an outer annular plug 7 »inwardly facing membrane 8 and a sleeve part 9 around the anode rod. To reduce the radial deflection in the direction of the anode rod, a clamping ring 10 is provided in the anode rod seal. The film itself can be either smooth or corrugated. The sealing part is preferably shaped and dimensioned in such a way that a sufficient number of sealing cams with the necessary prestressing guarantees the tightness. The anode arm to which the sealing member is attached should be as smooth as possible so that the sealing member can be easily moved in the axial direction if necessary.