DE642764C - Device for igniting metal vapor discharge apparatus with a liquid cathode, in particular mercury vapor rectifiers - Google Patents

Description

Means for igniting a metal vapor discharge apparatus with liquid cathode, in particular mercury-arc valve to start-up of metal vapor apparatuses, in particular _ mercury vapor rectifier Bern is generally 'between the liquid cathode metal arid a further -flüssigen- or - fixed electrode, an arc generated by @ .that this electrode temporarily brought into contact with the liquid cathode metal or the contact is temporarily interrupted while a voltage is applied between the cathode rivet and the ignition electrode. The spark or arc that occurs when the contact is lifted initiates the discharge to the excitation or main electrodes of the discharge vessel.

Various methods have been proposed for 'cancellation the contact between the cafhode metal and the ignition electrode, one of them Movement of the whole rectifier vessel or a moving one. Ignition anode: That is why it is avoided because of - the electrodynamic, the electromagnetic ioder - thermal effect of the electric current the cathode. metal itself in, movement is brought; particular is for using mercury vapor rectifiers Mercury cathode - it has been suggested to pass the mercury through a narrow pipe or a! narrow channel with a clear vacuum; tightly introduced auxiliary supply line in To bring connection: and with the help of a short-circuit-like current an evaporation to effect in the narrow pipe or the gutter. However, this known arrangement has the Disadvantage that it fails after a short time because of the pollination of the wall of the connecting tube or the connecting channel no longer holds the mercury in the pipe. or the gutter runs into it because the overpressure required for this is missing. Attempts have therefore been made to avoid this disadvantage by removing the prevention pipe slightly below the., mercury level put the cathode and using a funnel-shaped. Opening that reached to the surface of the mercury provided. With this arrangement occurs., However, it often happens that the cathode spot of the main arc in the narrow funnel so that .the arc burns to this narrow opening, which is connected to the cathode mercury through the mercury thread. The edges of the funnel surrounding the opening cause the transition of the Cathode spot on the free mercury surface; is impossible. The narrow tube therefore becomes very hot, and occurs only after the high temperature has been reached indirectly ignites a cathode leak on the mercury surface. It there is also the fact that the known arrangement, especially the one with the connecting channel, still has the disadvantage that it only applies to a very specific one The level of the mercury level works reliably. One has therefore. tried to get through Widening of the connecting channel and, by means of a deeper arrangement, it relates to the operational level of the cathode mercury level the return of the mercury to facilitate in the connecting channel after ignition; however, this will the cross-section of the amount of mercury beer to be evaporated increases considerably, so that evaporation would only be possible with very large currents.

In the arrangement according to the invention, in which also -an ignition electrode via a constriction with the cathode mercury in connection and with the means An electric shock caused the mercury in the constriction to evaporate is, these disadvantages are avoided by having one or more constrictions in a thin partition between the cathode and the ignition electrode below the Mercury mirror attached openings are provided.

Fig. I shows an embodiment. The mercury is with me the mercury 8, which is provided with the ignition current inlet 2, by a wide Rohr_3 connected, which is opposite to the mercury level q. is arranged so that it about 3 to q. mm deep is filled with mercury. In this tube is a thin one Partition wall 5 is used, which is provided with an opening 6 under the mercury level ¢ is. For ignition, a short current surge is sent from ignition lead 2 to the cathode lead 7 sent through the mercury, i.e. also through the narrow opening 6. If this The current in the opening 6 of the thin partition 5 evaporates Amount of mercury, so that the part 8 of the mercury separated by the partition 5 from the cathode: mercury i - separated by the vapor bubble at 6. With matching The applied voltage is then measured between the quantities of mercury 8 and i at the moment- of separation an arc that causes the evaporation of a larger one Causes the amount of mercury in the vicinity of the opening 6. The cathode spot this one Lichtbägeng directs the ignition of the discharge to the exciter anodes or the main anodes io of the rectifier one because, the cathode spot .auf - the mercury mexige z hnd is not formed on the amount of mercury _8. In the latter case it would have to the excitation arc will burn through the narrow opening 6. But he is for that unable because of the large voltage drop in the small opening.

The disadvantages occurring with the previously proposed arrangements are avoided in the arrangement according to the invention in that the pressure level causing the mercury to recombine can be chosen to be significantly higher without increasing the current required for the evaporation of the mercury. The influence of the dusting of the pipe 3 in the vicinity of the opening 6, which gradually develops during operation, will generally be less, the thinner the thickness of the separating partition 5 is in the vicinity of the opening 6. It is therefore useful in many cases to grind the partition 5 in the vicinity of the opening 6 from both or at least from one side so that it has only a small thickness there, as shown in Fig. I at ii.

To protect the glass tube 3, an insert 12 made of heat-resistant material, eg. B. sintered corundum or quartz, is used, which is connected to the partition 5 so that there is a connection between the mercury 8 surrounding the ignition lead and the cathode mercury i below the mercury level only through the opening 6. Above the mercury level, a further connection 13 can be provided between the two tubes, by means of which the mercury 8 is prevented from splashing out under the influence of the vapor development when the arc occurs.

Since it is only possible with the use of special intermediate glasses is to fuse quartz with glass, it is advisable to use a closed insert body, z. B. made of quartz, to be used, such as that shown in Fig. 2, and the vacuum-tight melted supply line 2 to melt the cathode mercury into the glass vessel and through an opening i q which is also arranged above. in the insert body 12 made of quartz. The conductor 2 can be used for fixation at the same time the position of the insert body 12 can be used.

If the glass vessel 3 is not, as shown in Fig. 3 at 16, - is expanded at least downwards in the vicinity of the partition 5, it is advisable to extend the insert tube 12 at least below the mercury level by an extension 1 5 to protect the Glass wall.

The ignition current can be switched off in a manner known per se the excitation current or the main current are effected if it is not preferred, him independent of these currents after a certain time switch off all circumstances in order to prevent that in the event of: a fault in the Excitation: or main circuit, the ignition current flows until al1A mercury evaporated or through the u11. interrupted arc the partition wall 5 or adjacent Parts are destroyed. To facilitate the ignition, it is advisable to at least to arrange one of the excitation anodes 9 in the vicinity of the extension pipe.

The risk of destroying the partition wall 5 can be advantageous under certain circumstances can also be avoided by keeping the voltage used for ignition so low it is chosen that the arc between the quantities of mercury 8 and i already after tears off again in a very short time. In this case, of course, is for evaporation a sufficiently large amount of mercury a greater current is required than for the Case that the evaporation is still through after the separation of the two quantities of mercury the amount of heat generated by the arc continues.

Since the current required for ignition: essentially through the Dimensions of the partition 5 and the opening. 6 is determined, has the amount of Mercury level 4 in b: with reference to the opening 6 only: a minor influence on the ignition process. It is not particularly important in this arrangement Meaning of how much mercury in each case as a result of the irregular condensation the walls of the condensation chamber, unes 16 adheres. It is only necessary that above of the mercury level in the extension tube 3 always has enough space free, thus the excitation arc during the ignition process, temporarily with its cathode corner can start near the partition wall.

Claims (5)

PATENT CLAIMS: i. Device for the ignition of metal vapor discharge apparatus with liquid cathode, especially of mercury vapor rectifiers, in the a quantity of mercury provided with an ignition current supply via a constriction with the cathode mercury in connection and with the means of a current surge the mercury in the constriction is made to evaporate, thereby characterized in that as a constriction, one or more in .einer thin partition between the cathode and ignition electrode below the mercury level Openings are provided. 'characterized device according to claim i, characterized in, that the amount of mercury provided with the ignition current supply in a vessel (12) made of heat-resistant insulating material, preferably made of quartz or sintered corundum is that below the cathode metal level with one or more openings (6) is provided. 3. Device according to claim i and 2, characterized in that that the ignition current supply above the cathode metal level is vacuum-tight, through the wall of the metal steam apparatus iuid, without a seal, into the vessel (12) from above "is introduced" and is preferably shaped so that it this vessel in his Position opposite the wall of the metal steam apparatus. q .. Establishment according to Claim i and following, characterized in that the partition between the Cathode mercury (i) and the amount of mercury (8) in the vicinity of the connecting Openings is much thinner than in the other places. 5. Set up after Claim i and following, characterized in that on the insert vessel (12) in the An extension (15) is provided near the openings, which protrudes into the cathode metal and shields the vessel wall from the cathode corner of the ignition arc;