DE2328769C3 - Improved electrical connections for metal electrodes - Google Patents

Description

The present invention relates to electrolytic cells with a metal anode and a metal cathode and especially electrolysis cells for the production of chlorine and caustic alkali. A new process for the Establishing an electrical and mechanical connection between metal cathode and metal anode is shown.

Normally, a membrane cell with a graphite anode has hitherto been used for the production of chlorine and caustic alkali from an aqueous alkali metal chloride solution Recently, practically usable dimensionally stable metal anodes for use in membrane cells have also been developed. These metal anodes have it too allows the filter press arrangement to be considered for the membrane cell. For the development of a practical, compact filter press cell, however, are internal electrical connections necessary. As conditions prevail inside the cells that are highly corrosive to many metals work, it is necessary to create stable electrical-mechanical connections that are easy to protect.

The invention is an improvement of a two-pole filter press electrolysis cell for Production of chlorine from an aqueous alkali metal chloride solution in which the anode consists of a valve metal and the Cathode consists of iron or an iron alloy and anode and cathode are electrically connected to one another by a screw connection, thereby characterized in that through one of the electrodes a threaded bolt consists essentially of the same metal as the electrode is passed through and the other electrode is provided with a corresponding opening with an internal thread, the thread of iron with a coin metal and the thread of the valve metal with at least one metal. ^{1 of} the platinum group is coated

In this way, when the electrical connection is made, the softer platinum metal and the coin metal is in firm contact with one another brings about a solid electrical connection and a mechanical connection that is stable against heavy loads is created

The drawing shows a section taken along the longitudinal axis of the screw, through an iron cathode and a valve metal anode made in accordance with the present invention are electrically and mechanically interconnected. In the embodiment of the invention shown in the drawing, a metal anode 1 is used which like üblijh a sheet metal (either closed or with Openings of various shapes provided) or an expanded mesh made of a valve metal can. A cathode 6 made of iron or an iron alloy is provided as the second electrode of the two-pole cell. Like the anode 1, the cathode 6

either made of sheet metal (closed or provided with openings of various shapes) or expanded metal exist. For reasons of expediency, the Partition wall located between the electrodes and running parallel to them is not in the drawing shown as the present invention does not relate to a specific cell using partitions is known and by omitting the partition in the drawing greater clarity in the representation the details of the invention is achieved.

A pin with an internal thread for receiving the screw S must be fastened to one of the electrodes e.g. by welding. In view of the small thickness of common electrodes, it is recommended to to provide both electrodes with a pin so that, if anode 1 and cathode 6 are correct to each other aligned, the two pins are on top of each other and the correct distance between the electrodes and the Ensure a partition between the anolyte and catholyte chambers. The one provided with an internal thread Spigot can be attached to one or the other electrode.

In the drawing, the internally threaded pin 2 is attached to the anode 1. The internal thread of the pin 2 is with a thin, but cohesive layer 3 covered. Pin 2 consists of im essentially the same metal as the anode 1, i.e. H. it also consists of a valve metal. The cover 3 consists of a platinum metal, which is named after a for the Platinizing usual method was applied. To

In one convenient method of this type, a heating reducible plating solution is applied with a brush and then reduced to a firmly adhering coating with the aid of a small blowtorch. The pin 7 on the cathode 6 consists of im

M) essentially the same metal as cathode 6, viz made of iron or an iron alloy.

Pin 7 is also welded on or fastened in another suitable manner. Pin 7 is provided with a Provided opening that extends in the axial direction with a

h "> corresponding opening in the cathode 6 covers. Through A screw 5 is inserted into these openings, which is used to produce the electrical-mechanical connection according to the invention

The screw 5 has an ordinary head with a shoulder to take over, a shaft and on the other end has a thread. According to the invention, this thread is provided with a metal coating 4. the The screw is made of a material similar to the electrode through which it is inserted. According to the drawing, the screw is passed through the cathode 6 and the cathode plug 7; accordingly the screw S consists of iron or an iron alloy and the coating 4 of a coin metalL For the purposes of this invention, the head of the screw 5 can be provided with a slot for tightening the Provide a screwdriver with a screwdriver (see drawing) or be made in such a way that you can use a Use an Allen key or a similar tool can. The pressure shoulder of the screw head is shown conical in the drawing, but can also other forms can be used, e.g. B. a flat shoulder, depending on the strength of the electrode and provided that each electrode has a corresponding stud. It is of course without further clear that between the screw "; 5 and the with an internally threaded pin made connection of the head of the screw 5 against the electrode and / or pin must be in contact so that the electrode (cathode 6 in the drawing) is held in place.

When the screw 5 is inserted into the internally threaded pin 2, the upper pull 4 on the screw thread and the cover 3 on the inner thread of the pin yield just enough so that the screw 5 can be screwed in and still has a tight, massive electrical-mechanical connection under mechanical tension is created. The loss of electrical energy due to the resistance of the connection is y, therefore reduced to a negligible amount. The tightness of the arrangement also ensures a firm, non-yielding mechanical connection.

From the above it follows that the anode plug 2 with respect to the cathode 6 (or the -id Cathode pin 7, if one is provided) must be arranged so that the head of the screw 5 on the cathode applies pressure and locks it in place

For the person skilled in the art it is immediately clear from the above description that the advantages of this invention come into play regardless of whether the screw passes through the anode 1 and its pin 2 or through the anode 6 and its pin 7 and connects to the other pin. In each case there is d:?. Screw of substantially the same material as the electrode through which it passes. In any case, the thread made of iron or an iron alloy is coated with a platinum metal.

For the purposes of this invention, under valve measurement τ> tall to understand a group of metals well known in the electrochemical arts. Of the For the sake of simplicity, it should be pointed out that this is about titanium, zirconium, tungsten, tantalum and Niobium is preferably used titanium or tantalum, usually those of commercial purity, ζ. Β. electrolytic varieties. Alloys of titanium can also be used provided that the alloy meets the criterion of passivity fulfilled; Metal alloys that passivate with anodic polarization can also be used with a far higher anode voltage than that required for the conversion of a chloride ion into chlorine is required to remain passive. The appearance of passivity in this context becomes in a Article discussed by Greene in the issue of Corrosion magazine from April 1962, page 136-t bis 142-t, was published. In particular, FIG. 1 in this article to point out the typical active-passive transition from a metal to a Corrosive medium described is titanium alloys with aluminum, vanadium, palladium, chromium or Tin, in which the latter metals make up less than 10% of the alloy, are for the purposes of the Invention suitable

Dcf coating on the thread made of iron or a Iron alloy consists of a coin metal, i. H. Copper, silver or gold. Because of the direct The solution conditions required for coating iron with these metals are in some cases advisable to first apply a layer of a metal like nickel that is made from a less unpleasant plating solution is applied, and only then to apply the desired coin metal. For example at Use of nickel and copper avoid the use of a cyanide bath. Two-stage electroplating so with nickel and copper means that the copper is applied over a thin layer of nickel. at other intermediate layers it behaves uhaheh. at the two-layer arrangement of the soft metals will be the advantages of the present invention and at the same time enables the use of less unpleasant electroplating solutions such two-stage system is considered to be within the scope of this invention.

Platinum group metals include platinum, ruthenium, osmium, rhodium, iridium, and palladium as well as alloys of two or more of the aforementioned metals. It is appropriate to this group of Metals to be designated as platinum group, since of these metals platinum is preferably used.

From the above description, numerous modifications will become apparent to those skilled in the art, which are considered to be under the Ur.ira-ig of this invention are to be regarded as falling.

1 sheet of drawings

Claims (2)

Patent claims: 1. Bipolar filter press electrolysis cell for the Production of chlorine from aqueous alkali metal chloride solutions, the anode of which is made from a valve metal and whose cathode consists of iron or an iron alloy and anode and cathode by a Screw connections are electrically connected to one another, characterized in that through one of the electrodes a threaded bolt from essentially the same Metal how the electrode is passed through and the other electrode with a corresponding opening is internally threaded, the thread made of iron with a coin metal and the thread the valve metal is coated with at least one platinum group metal 2. Bipolar filter press electrolytic cell according to claim 1, characterized in that on the the cathode facing side of the anode is made of a valve metal pin with a with internally threaded opening is attached, the internal threading with a metal from the Group of platinum metals coated, and a screw made of iron or an iron alloy through it the cathode is passed through, the thread of the screw being provided with a copper or nickel-copper coating, so that when the electrical connection the softer platinum metal and the nickel-copper metal in firm contact are used together, creating a solid electrical connection and a mechanical connection that is stable against shear stresses arises.