DE1256804B - Electric gas and / or vapor discharge tubes - Google Patents

Description

GERMAN W7W $ 8 & PATENT OFFICE

EDITORIAL

German class: 21g-12/01

Number: 1 256 804

File number: N 25653 VIII c / 21 g

J 256 804 Filing date: October 7, 1964

Opened on: December 21, 1967

The invention relates to an electric gas and / or vapor discharge tube in which two Electrodes at the same tube end are in mechanical contact with the tube shell, and where the inner wall of the tube envelope at this tube end has a bulge protruding into the interior of the tube has, which is arranged rotationally symmetrical to the tube axis, at least one of the mentioned on Tube end with the tube shell in contact electrodes on a flank of the bulge rests and is secured by this bulge against movement in the radial direction.

For discharge tubes with small dimensions, a type is known in which an electrode of a part of its power supply wire is supported and through this opposite the second electrode is centered, which is with the longitudinal axis of the

Tube collapses. It is also known to increase the creepage distance between two conductors by that at the point of the original creepage distance an insulating mass provided with transverse grooves is attached.

A magnetically controlled gas discharge tube is known from German patent specification 507 076, in which the discharge paths are so short by appropriate arrangement and design of the electrodes that impact ionization of the filling gas is essentially avoided as long as the magnetic field is switched off. In this tube, two electrodes are arranged at the same tube end, which are in mechanical contact with the discharge vessel, and the inner wall of the discharge vessel is provided with bulges at this tube end in such a way that, viewed in cross section, the center of the bulges is on the axis of the electrode system. The electrodes each rest on a flank of a bulge and are thus secured against radial movement. A discharge tube is known from US Pat. No. 2,395,991 in which an annular, rotationally symmetrical bulge is provided at one end of the tube on the inner wall of the discharge vessel, the axis of the electrode system being the axis of symmetry and one electrode on the conical flank of the tubular vessel and the bulge rests and is secured against radial displacement. In this known arrangement, two electrodes are in mechanical contact with the vessel wall at one end of the tube. They are each connected to a power supply wire that is each led out through a tube end. The one electrode has essentially the shape of an electric gas and / or
Vapor discharge tube

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative:

ίο Dr.-Ing. HD Zeller, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Named as inventor:
Hermanus Maria Jongerius,
Johannes Hendrikus Hilderink,
Adrianus Antonius Hurx,
Eindhoven (Netherlands)

Claimed priority:

Netherlands 11 October 1963 (299 166)

Hollow cylinder, while the other electrode is roughly pin-shaped and in the tube axis with the vessel wall is in contact. Such a construction is therefore offered in this known arrangement because the glass vessel of the discharge tube has a conical shape. It seems questionable whether such a construction can easily be used with cylindrical glass vessels. At least this is not indicated in this patent specification.

A gas discharge tube designed as a counter tube is known from British patent specification 831545, for the centering and spacing of coaxial electrodes protruding into the inside of the tube conical parts are used, so that the cylindrical electrode on the after creates flank widening on the outside. From the German patent 690696 and the USA patent 3 075 116 it is also known for the centric holding of several coaxially arranged cylindrical electrodes to use holding parts with several stages, on the flanks of which the different Electrodes are in contact and secured against radial displacement.

The invention is based on this prior art. Its purpose is to provide a simple solution for one cylindrical glass vessel to extend the creep

709 709/375

Claims (5)

specify paths in the vessel in order to simultaneously meet the requirements for electrical gas and / or vapor discharge tubes with regard to the centering of an electrode and with regard to the creepage distance between the electrodes. An electric gas and / or vapor discharge tube of the type mentioned is characterized according to the invention in that the bulge is located between the two electrodes, the bulge being widest at its base and the electrodes only at or near the base of the bulge the tube shell are in mechanical contact. According to the invention, one of the electrodes, which is in mechanical contact with a tube end provided with a bulge, can furthermore have the shape of a hollow circular cylinder or a part thereof. The other electrode can be pen-shaped. The invention can be used with glow discharge tubes, but also with other discharge tubes, for example with thyratrons. The bulges can consist of the same material as the tube casing or also of a different material. For example, the tube casing can be made from glass and the bulge can be made from a ceramic material. The invention is explained in more detail below with reference to some embodiments. It shows F i g. 1 shows, in perspective, a tube with an inner wall of one of the tube ends according to the invention, FIG. 2 in section the right tube end of the tube according to FIG. 1, Fig. 3 is a perspective view of a discharge tube according to the invention with a hollow, semi-cylindrical electrode, FIG. 4 shows the right tube end of the tube according to FIG. 3, FIG. 5 is a perspective view of a discharge tube with a cylinder electrode made of metal gauze, FIG. 6 partially in view and partially in section the in F i g. 5 shown discharge tube. In Fig. 1 denotes 1 a tube in which the interior of the tube end 2 is provided with two annular bulges 3 and 4 extending coaxially to the tube. The cross-section of the bulges 3 and 4 in a plane containing the axis 5 of the tube has a somewhat tapered profile, which is shown in FIG. 2 is shown. The bases 6 and 7 of the bulges 3 and 4 facing the tube end 2 are wider than the other parts of these bulges. By choosing such a profile it is achieved that part of the flank of a bulge on which an electrode comes to rest can also act as a creepage path. The heights of the bulges do not need to be the same. The middle bulge 4 in the example of FIG. B. higher than the bulge 3. In FIG. 3, 22 denotes a discharge vessel. The length of this discharge vessel is approximately 18 mm and the width approximately 4 mm. This discharge vessel is provided with a hollow, semicylindrical electrode 23 and a pin-shaped electrode 24. Only the tube end 25 contains a bulge 26. The lead wires of the electrodes 23 and 24 are designated by and 28, respectively. The left end of the tube is melted shut around a bead 29 through which the feed wire 27 is passed. F i g. 4 shows a section through the right tube end of the tube according to FIG. 3. The bulge is approximately cylindrical and has a base which is slightly wider than the rest of this bulge. In Fig. 5 denotes 30 a discharge tube which is provided with a hollow cylinder 31 made of metal gauze and a pin-shaped electrode 32. The external dimensions of this tube are approximately the same as those of the previous exemplary embodiment. The lead wires of electrode 31 and 32 are designated 33 and 34, respectively. 35 denotes a pearl that closes the tube. F i g. Fig. 6 shows, partly in elevation and partly in section, the tube according to fig. 5. The tube end 36 has a bulge 37. Claims: 1. Electric gas and / or vapor discharge tube with two electrodes on the same tube end are in mechanical contact with the tubular shell, and wherein the inner wall of the tubular shell at this end of the tube has a bulge protruding into the interior of the tube, which is rotationally symmetrical is arranged to the tube axis, wherein at least one of the tube end mentioned electrodes in contact with the tube shell on one flank of the bulge rests and is secured by this bulge against movement in the radial direction, thereby characterized in that the bulge is between the two electrodes, the bulge at its base on widest and that the electrodes are only at or near the base of the bulge with the tubes? are in mechanical contact. 2. Electrical gas and / or vapor discharge tube according to claim 1, characterized in that one of the electrodes, which is in mechanical contact with a tube end provided with a bulge, has the shape of a hollow circular cylinder or a part thereof, and that the other electrode is pen-shaped. Considered publications:
German Patent Nos. 507076, 690696;
British Patent No. 831545;
U.S. Patent Nos. 2395,991, 3,075,116. 1 sheet of drawings 709 709/375 12.67 © Bundesdruckerei Berlin