DE750154C - Device for cooling for partly glass and partly metal discharge tubes of higher performance - Google Patents

Description

Device for cooling for partly made of glass, partly made of metal Discharge tubes of greater power There are already electrical discharge vessels known with air cooling, in which an air flow runs within cooling fins, which are arranged in the longitudinal direction of the anode. Such a cooling device has however, the disadvantage that as soon as @ di, e anode exceeds a certain length, the Parts that are further away from the air inlet point are no longer adequately cooled, because the air is already flowing past the air inlet, get closer has heated lying parts too much.

To remedy this drawback it is known loading, along .the anode several L uftzuführungen make. On the one hand, this results in a more complicated structure, since special pipelines must be provided for each cooling air supply, and on the other hand, the capacitance of the anode to earth is increased, which is undesirable in any case. According to the invention, a device for cooling consists in that for discharge tubes of greater power, partly made of glass and partly of metal: the vessel wall of which is cooled by a flow of cooling air introduced under pressure, the cylindrical anode forming part of the vessel wall at a distance from another cylinder is surrounded, and that the shell space thus formed is penetrated by a plurality of cooling ribs perpendicular to the anode axis, between which the cooling air is introduced.

This device has the advantage that it is also distant from the feed lying parts are well cooled because the cooling air does not exceed the circumference of the anode washed around once. At the same time, the structure of the device remains simple, since only one Supply and discharge is necessary. -This way it also manages the capacity small between the anode and the earth.

A discharge vessel has now become known in which also the cooling air is guided around the anode to be cooled. This cooler is different However, from the invention in that the cooling fins according to the turns of a Screw placed around the anode so that the air flow hits the anode several times flows around. Therefore, this arrangement does not solve the disadvantage that further parts of the anode that are remote from the air inlet point are poorly cooled, because the cooling air strokes the anode several times and gets hotter from cycle to cycle will.

The invention will now be explained in more detail with reference to the drawing.

Fig. Z shows a known high-performance tube, its envelope consists of a glass part z and a cup-shaped anode 2, .die on the front side with the glass part is fused. The upper end of the glass part carries the cathode leads 3, while the side wall is turned up at 4; to accommodate the grid lead 5. This lead is of any conventional type Shape and is fused airtight with the protuberance. The grid lead 5 has an integral pin 6 with it that protrudes outward and is ordinary finite is connected to the outer grid lead.

The anode: 2 of the tube has radial cooling surfaces 17, which with the Anode can be molded in one piece. But you can also use a sleeve seat, which is ground inside to be intimate with the outer surface of the anode To make contact. As can best be seen from Figure 2, the air is under Pressure supplied tangentially through a feed line 18, through the spaces between through the cooling surfaces h and slides off at i9. The feed line 18 can be made of insulating material exist, e.g. B. made of glass, rubber or Bakelite. All mechanical connections between Ilochspannungskontakten and I? Lel: troeien on the one hand and the pump on the other go tiber insulating pipes, which are automatically kept dry and as a result are free of creepage distances. The compressed air flow takes care of the dryness.

In Figs. 3 and 4 it is shown how a cooling device according to the invention can be expanded in such a way that it can be used as an oscillating gyro element for a short-wave oscillator or reinforced forms. The tubes i, 1 with their anodes 2 (Fig. 4) are so with each other related to a common push-pull amplifier or oscillator for ultra-short waves. For example, they like according to your Barkhausen-Kurz principle operate. In the arrangement shown in Fig. 3, the heat radiation surfaces form the Abstiinm-Lec'her-Wires of the step. As in Fig. 1, a sleeve 40 is over the Outer surface of the anode cylinders. Cylindrical cooling ridges 41 extend across the circumference of the sleeve. The cooling webs 41 each close in the radial direction cooling fins 42 and 47 in two opposite directions. The cooling fins of the both tubes run parallel to each other, and their length is slightly greater than that mutual distance. The outer edges of the cooling webs 41, 42 and 47 are made of plates or strips 43 covered to the outside, with the panels extending over the entire length the webs extend. In this way, a number of cooling channels with rectangular Cross-section, at each end of the ribs 42 pressure hift flows in, passes through the Channels around the anode and exits on the opposite side. If you make the cooling fins 42 and 47 from a highly thermally conductive material, for. B. made of metal, they can then be used as the long sides of a hole-wire system and use it to electrically tune the tubes. With the help of sliding bridges 44 and capacitors 45 any resonance frequency can be set.

Claims (4)

PATENT CLAIMS: 1. Device for cooling for partly made of glass, partly made of metal discharge tubes of greater power, the vessel wall of which is cooled by a flow of cooling air introduced under pressure, characterized in that the cylindrical anode forming part of the vessel wall is at a distance from another cylinder is surrounded and that the shell space formed in this way is penetrated by a plurality of cooling ribs which are perpendicular to the anode axis and between which the cooling air is introduced. 2. Device according to claim 1, characterized in that that the inlet and outlet openings are arranged next to one another. and the compressed air the anode is completely flown around once. 3. Device according to claim 1, characterized in that that the feed line is at least partly made of a highly insulating material, z. B. glass or synthetic resin. 4. Apparatus according to claim 1, characterized in that the inlet and outlet openings are arranged on opposite sides and that the openings are connected to feed and discharge lines of rectangular cross-section and the cooling surfaces are continued in the lines parallel to the direction of flow. To distinguish the subject of the application from the state of the art, the following publications were considered in the granting procedure: German patent specification .... No. 543 698; 11o French patents - 508490, 6: a.7 172; USA. - - - 1 905811, 1,874,679; British - - 348848, 115 - 410352.