DE373981C - Cooling device for electrolytic interrupters - Google Patents

Description

The purpose of the invention is to act as an electrolytic breaker to be increased to the maximum by a special type of cooling.

The interruption takes place inside one that is immersed in the electrolyte from above Rohrs. The electrolyte is carried upwards in the tube by the heating and the development of gas and then returns through a

ίο cooling coil attached outside of the vessel back to the lower part of the vessel.

The invention is illustrated, for example, in the figure, the one according to the invention shows built interrupter in vertical section. In the present case it is assumed that the electrolyte is a solution of sodium hydroxide in water.

α is a cylindrical vessel made of iron, which has a partition b at the top, which divides the vessel into a lower and an upper space. This partition is pierced in the middle, and a copper tube c is inserted into the bore, which extends vertically down into the vessel and tapers conically at the lower end. The vessel is closed over the partition b by a lid d onto which a porcelain body e is screwed. The lid d and the porcelain body e are pierced in the middle. A brass sleeve f , the upper edge of which is bent inward, is screwed to the porcelain body e. Under the bent edge lies a ring g which is screwed to an adjusting nut h lying on the edge, as a result of which the nut k is held at an unchangeable height. This nut works on an externally threaded pipe i into which a porcelain pipe k is cemented. The tube i contains a vertical longitudinal groove cut into which a pin I , which is attached to the porcelain body e, engages. The tube i is prevented by this guide from rotating about its axis while it can move up and down. By rotating the nut h , the porcelain tube k can accordingly be raised or lowered.

At the upper edge of the tube i a similar adjusting device is attached, which essentially consists of a vertical groove, a pin η and a nut m , which works on a threaded piece ο , which is connected to a head p , in which by means of the screw q an iron wire is screwed in. The head p carries the positive pole terminal s.

From the space above the partition b , a serpentine tube t leads off, which opens into the lower part of the vessel α. In the event that iron is used as the anode and alkali hydroxide solution as the electrolyte, a bowl u , the bottom of which is completely covered with mercury, is placed under the mouth. The vessel α carries the negative pole terminal v.

With the help of the nut h , the porcelain tube k can be raised or lowered as desired and the end of the wire r protruding from below can be brought to any height.

Furthermore, by means of the nut η, the length of the part of the wire r protruding downward from the porcelain tube k can be precisely adjusted. Finally, after loosening the screw q , the wire can be moved as desired and clamped in the desired position. When the current is switched on, the electrolyte begins to circulate vigorously through tube c upwards and cooling coil t downwards. The space immediately under the partition δ is filled with air, which isolates the cold electrolyte in the vessel α from the hot liquid overflowing the septum. The cooling is far more effective than the known one, in which the vessel is cooled from the outside or by an inserted snake, since the heat is absorbed by a small amount of liquid, that is, given off with a high temperature gradient.

Claims (1)

Patent claim: Cooling device for electrolytic interrupters, characterized in that the Interruption takes place in a tube immersed in the electrolyte from above, in which the electrolyte rises to the lower part through a cooling coil located outside the vessel of the vessel to flow back. 1 sheet of drawings.