DE598626C - Discharge tubes with an electrode cooled by a flowing coolant - Google Patents

Description

, IpA. Eigemloirf
17 JUL 1934

ISSUED ON
JUNE 15, 1934

It is known that in discharge tubes, the anode is extremely high when it is heavily loaded is strongly heated and that by this heating the stress on the tube limits are set. An increase in the load is achieved in a known manner by cooling the electrode achieved by flowing water or oil. If the load on the individual tubes is further increased, the upper one soon becomes

xo limit reached.

In order to achieve a greater cooling effect, it is known to insert channels into the one to be cooled Mill the electrode surface so that the surface is enlarged. These channels at right angles to the direction of flow of the coolant serve essentially to reduce the laminar To disrupt the flow character of the coolant flow and thus cause a turbulent flow. It follows from this that the enlargement of the surface is insignificant with such an arrangement of the channels considering that. with regard to the actual purpose of these channels the depth of a channel must be significantly smaller than its width, because otherwise too great a stagnation of the current occurs, and that at a channel depth of several millimeters the flow pressure would prevent the coolant swirling in a channel is replaced by freshly flowing coolant. the known channels therefore usually have a depth of 1.5 mm and a width of several millimeters.

The conversion of the laminar flow of the coolant into a turbulent flow serves to prevent vapor bubbles from forming on the surface to be cooled, which significantly impair the cooling effect. If one uses means against it to get a turbulent flow, i.e. to divide the coolant flow into a To dissolve a series of eddies, a much more intensive cooling occurs, since every surface element the surface to be cooled is hit by a large amount of coolant that is still cold. With the previously known However, cooling methods have not yet succeeded in keeping the turbulent flow uniform to be distributed over the entire surface to be cooled.

According to the invention therefore exist in discharge tubes with a flowing through Coolant of cooled electrode, in which the coolant passes through to the electrode surface Mounted channels flows, in which means are provided, the laminar flow in to convert a turbulent one, this means of helically coiled wires, which are inserted in the ducts.

In the case of a cylindrical anode, a helical channel is expediently in the Milled electrode surface and the elec-

*) The inventors have been named by the Palentucher:

Kurt Matthics and Sigurd Ganswindt in Berlin-Siemensstadt.

trode so placed in a cooling pot that the coolant is forced to the screw thread to flow along the canal. According to the invention, the means generating the turbulence now consist of a helical one coiled wire that is inserted into the channels. The slope of this wire screw is expediently 4 to 5 mm, and the individual turns are advantageous so large that they lightly touch the walls of the canal.

The figure shows, for example, a section of one equipped according to the invention Discharge vessel partly in side view and partly in section.

The discharge space 1 is delimited by the anode 2, and this in turn is surrounded with a cooling jacket 3. In the outer surface of the anode body 2 is

ao a helical groove 4 attached, which is of the not indicated coolant in the direction indicated by an arrow 6 flows through. To prevent of a laminar flow character in the groove, it is helical with a wound wire 5 filled, which slightly touches the groove walls.

Claims (1)

Claim: Discharge tube with an electrode cooled by a flowing coolant which the coolant flows through channels attached to the electrode surface, ■ in which means are provided to convert the laminar flow iii into a turbulent one, characterized in that these means consist of helically wound wires which are inserted into the Channels are inserted. 1 sheet of drawings