DE421583C - Arrangement for cooling rectifier anodes - Google Patents

Description

Arrangement for cooling rectifier anodes. It is known that Equiliters work poorly with cold anodes and tend to re-ignite and that a temperature corresponding to the red glow is the most favorable for this. Now, especially with higher powers, the amount of heat occurring at the anodes - so significant that they require cooling, and there is the difficulty to make the arrangement so that in spite of the cooling the mentioned red heat is reached quickly and even with smaller loads. All known so far Versions show a defect or include an annealing temperature of the Anodes off at all. You give them one so that they get glowing quickly the smallest possible mass, there is a risk that they will melt away under high loads. For this reason, the anodes have so far mostly been designed as bodies with large masses been achieved, the desired high temperatures only after prolonged operation became.

An arrangement which, while avoiding the disadvantages mentioned, allows the anode to be brought to as high a temperature as possible even with a low load is now made according to the invention in the following manner. .

With the anode designed as a thin-walled body, there is little Distance a heat dissipating body directly connected in such a way that the heat dissipation occurs both by conduction and by radiation. The heat sink will in turn the absorbed heat is removed in a suitable manner.

The simplest embodiment of such an arrangement is shown in Fig. I. The anode space r carries the lead-in insulator i and encloses the well-wäxmelekenden body a, at the lower end of which the anode plate-i b is attached at a distance d. The cooling head c, which is provided with cooling tabs j, is placed on the body a, through which the power supply is also carried out here. The anode b is designed in the shape of a roof, as indicated in Fig. I, so that condensed mercury can drain away. Since the thermal conductivity between the anode b and the heat sink a is kept small, the anode b will heat up very quickly even at low loads and then its heat will be transferred to the body a and from by radiation, which is known to increase with the fourth power of the temperature give it to the cooling flags /.

With this arrangement, not only the sheet metal b, but also the body a, if it is electrically conductive, is attacked by the arc. This is avoided in the design according to Fig. 2. Here, a thin-walled jacket m is placed around the entire body a, which forms the entire contact surface for the arc. Otherwise this arrangement has the same effect as that shown in Fig. I.

Claims (2)

PARTY CLAIM. 1. Arrangement for cooling rectifier anodes, characterized in that the thin-walled body is a heat-dissipating body directly connected to the anode is associated with the thin-walled body in such a way that the heat is transferred both by conduction and by radiation. 2. Arrangement for cooling the rectifier anode according to claim i, characterized in that the anode is formed as a roof-shaped sheet and is moun- ted on the lower end of the heat dissipating body. 3. Arrangement for cooling rectifier anodes according to claim i, characterized in that the anode is guided around the heat-dissipating body as a den-walled jacket.