DE704394C - Electrode system for discharge tubes - Google Patents

Description

Electrode System for Discharge Tubes The present invention relates to an electrode system for discharge tubes, the outermost electrode with the heat rays the hot cathode from the discharge space liinausreflektenden surfaces is.

It is already known in hot cathode tubes the heat rays of the Provide reflective mirror surfaces formed by the anode, which reflect the hot cathode, around the heat emitted by the hot cathode to the outside through the vessel wall throw. For this purpose, the anode took the form of an outwardly widening Given double truncated cone.

There are also electrode systems known, the outermost electrode, which usually serves as an anode and is held at a high positive potential is formed openwork. This measure is carried out for thermal reasons, to enable better heat radiation from inside the discharge space. However, there is a risk that electrons will fly through the openings of the anode and get into the space between the anode and the glass wall and cause interference there give various kinds of indulgence.

The electrical state of the inner wall has to do with the nature of these disturbances the glass bulb and the insulating parts used to hold the electrode system gain decisive influence. This can be caused by leakage currents from the anode seal going out, being charged to positive potential. This case occurs with great Probability if the anode voltage is switched on before the full emission of the cathode is achieved, as is the case with the operation of tubes in the usual network connection devices is generally the case. When these insulating surfaces through those straying from the discharge space or passing through the perforated anode Electrons are hit at a rate that corresponds to your potential Area corresponds, they are caused to secondary emission. The emitting Cl'berflächen then act like electrodes and because they are capacitive with the control grid are coupled, they cause changes in attenuation and capacitance in the lattice circle.

But even if the glass wall does not have a positive charge and a secondary emission is not to be feared, the breakthrough version can give the anode cause for disruptive effects. The electrons flying through the anode slow down their movement the more they are Approach glass wall, only to turn back at last. This forms in your space between the anode and glass wall a space charge, the existence and composition of which are numerous electrical Influences inside and outside the tube is subject. Of course, is understandable Such a tube is considerably more sensitive to external disturbances than if the Discharge process is limited to the space within the electrode system. Aul:) erdem However, such space charges are often very unstable and tend to be erratic Transitions that look unpleasantly noticeable in the loudspeaker as cracking noises do. Under 1-111 levels, the space charges can also oscillate according to the type of Carry out Barkhausen short-sighted vibrations.

The perforated anodes were made of wire mesh, for example produced, whereby at the same time the radiation of the in the anode itself developed heat dissipation promoting surface obscuration can be achieved. Further anodes are made up of a number of metal strips which are concave towards the cathode composed, the projection of which onto a cylindrical surface area coaxial with the cathode this area does not completely fill, so that in addition to the heat rays also electrons can escape from your discharge space. Finally, there are also grid electrodes known, which consist of set, overlapping sheet metal strips at the edges, however, neither is the object of the invention, nor is it the measures for the reflection of the heat rays are taken.

According to the invention the outermost electrode, e.g. B. the anode, one Electrode systems made up of several conductively interconnected and at least on the side facing the cathode is designed to reflect heat radiation assembled, and it these strips are arranged so that that of the cathode outgoing electrons cannot get into the space behind this electrode, while the heat rays are reflected out of the space enclosed by the electrode will.

It is advisable to complete this measure by the electrons are also deprived of the possibility at the end faces of the electrode system to leave the discharge path and into the space between the glass wall and the electrode system to resign. For this purpose, the electrode system can pass through the end faces Cover plates made of secondary emission-free or deactivated by methods known per se with insulating material or with negatively prestressed metal plates.

The figure shows the cross section through a device designed according to the invention Electrode system shown, where l (the cathode and G the control grid. The anode consists of a plurality of narrow sheet metal tires a, for example are arranged parallel to the cathode. These metal strips have a certain Inclination x against the tangential surfaces t of an imaginary anode cylinder Z. The metal sheets overlap like a blind in such a way that the cathode is completely outward covered, i.e. invisible from the outside. As a result, that of the cathode is also Electrons passing over to the anode blocks the way into the space outside the anode. On the other hand, the fact that the sheet metal strips are mirrored or at least on the inside are polished bright, provision is made that the heat rays according to the known optical radiation laws are reflected outwards, as indicated by the Ray w is illustrated.

Claims (2)

PATENT CLAIMS: i. Electrode system for discharge tubes, their outermost electrode to achieve increased heat dissipation from the discharge space with the heat rays from the hot cathode reflecting out of the discharge space Areas is provided, characterized in that the outermost electrode, e.g. B. the anode, made up of several conductively interconnected and at least on the The side facing the cathode is made of metal strips that reflect heat radiation is assembled and these are arranged in such a way that those emanating from the cathode Electrons cannot get into the space behind this electrode while the Heat rays are reflected out of the space enclosed by the electrode. 2. Electrode system according to claim i, characterized in that the parallel to Discharge path lying sides of the electrode system through cover plates, z. B. off Metal or a secondary emission-free insulating material.