DE1232271B - Anode for electric discharge tubes - Google Patents

Description

Anode for electric discharge tubes The invention relates to a Anode for electric discharge tubes, which is placed on top of the other tube electrodes facing side is divided chamber-like by an insert body. Such anodes are usually referred to as chamber anodes.

Such a chamber anode is used, for example, when if there are unfavorable operating conditions in the tube, the effect of the Anode caused by the electron bombardment secondary electrons on the front their lying grille is to be reduced. Such conditions are e.g. B. in a pentode that is used in a television receiver for line deflection will. This tube is in the circuit up to the kink of the anode voltage characteristic controlled. In such an operation, the anode voltage drops considerably below the value of the screen grid voltage, which in spite of the presence of a braking grid increased secondary electrons can get from the anode to the screen grid. Even Barkhausen short oscillations can easily arise in this operating mode.

In Fig. 1 is a section through half of such a known one Tubular system shown with a chamber anode. Part of the opposite to the grid wires lying wall of the anode 1 is set back a little so that a depression 1 a is created. By inserting a U-shaped bent insert body 2, the Well 1 a divided into three chambers 3, which on the screen grid 4 and brake grid 5 sides are open. Those coming from the cathode 7 through the control grid 6 Electrons can therefore fly into the chambers 3 and become secondary electrons there trigger. However, these secondary electrons are largely on the walls of the chambers 3 and can no longer get onto the screen grid. The effectiveness the chamber anode depends on the number of chambers and their depth.

Due to the electrons striking the anode 1, the walls become the chambers 3 heated, in particular the end faces 2 a of the insert body 2. From For economic reasons, the insert body 2 is attached to the actual one Anode body 1 usually with the help of some punched-out tabs, which are spot welded be attached. However, this results in an extremely poor heat transfer the heat generated in the walls of the insert body 2 on the actual anode body 1. The heat generated in the walls of the insert body 2 can therefore come from these Walls essentially only dissipated by radiation into the interior of the tube system will.

Although it would be possible to solder the insert body 2 to the anode body 1 to connect; However, such a type of fastening is too expensive and therefore comes from out of the question for economic reasons.

The invention is based on the object of specifying a method through which it is possible that during the operation of the tube in the walls of the Insert body 2 dissipate resulting heat so that most of this heat is not emitted into the interior of the tube.

This task is performed with an anode for electric discharge tubes with an active surface running approximately parallel to the lattice plane, which on the side facing the grille or grids in a chamber-like manner through an insert body is divided, solved according to the invention in that the insert body with outside the anode arranged, the heat radiating parts in a thermally conductive connection stands.

The heat generated in the walls of the insert body is therefore through Heat conduction released to the parts arranged outside the anode and then from radiated from these parts. The way in which the insert body is attached to the anode plays a role it no longer matters because of the high heat transfer resistance through which the heat is generated must be removed, no longer present in the anode design according to the invention are.

In carrying out the invention, it is most expedient if that is within the anode and the part of the insert body lying outside the anode from one Pieces are made because you then get optimal heat dissipation. One obtained compared to the above-mentioned known anodes significantly improved effect but one also when the inside and outside of the anode lying parts of the insert body are composed of several pieces.

The invention is explained using an exemplary embodiment. In the recess la of the anode 1 a slot 8 is carved out in its center; as in Fig. 2, the previous shape of the anode 1 remains unchanged. the The width of the slot 8 depends on the material thickness of the in FIG. 3 shown Insert body 9. This body 9 is bent in the specified shape and can consist of one piece or can be assembled from two parts. This creates the already described U-shape for the formation of the chambers, but with the difference, that a flag 9a is present on the other side of the part 9 thus created. This flag 9a is pushed through the slot 8 of the recess 1a of the anode l, until the part 9 is seated in the bottom of the recess 1 a of the anode 1. Afterwards takes place the attachment to the anode 1. After completion, the whole arrangement has the in the F i g. 4 shape shown. The flag 9 a then protrudes into the outside space and radiates the heat dissipated from the walls of the part 9. To further increase the radiation of the flag 9a protruding into the outer space, the two adjacent one another Sheet metal bent apart, as in FIG. 4 is shown. The function of the arrangement according to FIG. 4 as the chamber anode is not affected.

If one refers to the one shown in FIG. 4 shown spreading apart the two parts of the flags 9 a waived, d. H. leaves the insert body in the shape, as shown in FIG. 3 is shown, this insert body can be made of a contiguous Make a piece of sheet metal by shaping this sheet accordingly. In case of Spreading apart according to FIG. 4, the insert body 9 must be made of two parts which are expediently welded to one another at the common connection point will. The embodiment according to FIG. 4 has the advantage that the heat radiation of the spread flags 9 a is much cheaper than the flag 9 a according to F i g. 3 in the not spread state. However, the heat dissipation takes place in the same good way because the walls of the insert body with the associated flag parts each form a mechanical unit.

Claims (4)

Claims: 1. Anode for electric discharge tubes with a active surface running approximately parallel to the lattice plane, which on the or the side facing the grids is divided into a chamber-like manner by an insert body, d a d u r c h characterized that the insert body with arranged outside the anode, the heat-radiating parts is in a heat-conducting connection. 2. anode according to claim 1, characterized in that the insert body is a flag-like Has extension piece which is inserted through a slot in the anode. 3. Anode according to Claims 1 and 2, characterized in that the flag-like extension piece has twice the sheet metal thickness of the insert body and after pushing through the slot of the anode is spread open. 4. insert body for an anode according to claim 2 and 2, characterized in that it is bent in a U-shape from a piece of sheet metal is that symmetrically to the U-profile a flag of double the sheet metal thickness is created. Considered publications: German Patent Specifications No. 933 465, 951585; German interpretative document No. 1152 765.