DEP0036772DA - - Google Patents

Description

Plant sur

Robert Bosch G.m.b.H., Stuttgart, Poratatrau ^ e 9

'' Interrupter with initial ignition "

Switching tubes controlled by initial locking devices have been known for a long time. If it calibration thereby example hip lelaisrohren with capacitive sinner _t e so they .thaiten in general, a mercury cathode, in which a usgefiilltes with a conductor insulators is immersed. By applying a c ^{e s} ö H.ö.ber the mercury cathode positive voltage to the enclosed within the tubular insulators conductor is on the surface of the mercury © a Hathodenfleck erseu ^ t, and swar by Pun, "- ken, OCE in eggs gap between , the mercury meniscus vnä. the wall ü®Q Isolierstoffröhrchen® skips · This organ results in an arc between the cathode and anode, whereby the anode can also consist of mercury. The major stages of SehaltYOrgangs being conveyed in a very short intervals from Soit ~ · The known interrupters of this type have drs Hßohteil she DAEs t electrical continuity only in one Riehtu ^, jf allow tone of the cathode to the anode. If a converter is to be reversed, a second, similar three-way tube is required. The invention has made it an object to remedy this disadvantage and to create a switching tube for two opposite directions of current.

Ee this is achieved in that di © interrupter isyrame so formed trigch that they at least two 'contains a respective ignition electrode cooperating mercury electrodes "Such a switching tube can ζ.B ₉ in B-form with one ^ uecksiltorelektrode in each leg be designed, each of the xalelectrodes in ferbiadung with a Sündelektrod® alternating

Robert Bosch GMBH. Ba / Mr 5243

Stuttgart March 12, 1949

wise ale cathode and anode works.

In FIGS. 1 ″ and 2, exemplary embodiments of the inventive fee status are shown and shown

1 a two-pole interrupter and fig. 2 is a circuit diagram of a photographic flash rental system Purposes »which using a switching tube according to Fig. 1 is constructed.

Ia Pig, 1 illustrates 1 a .. Bf Särad, jee Ölasgefäß, the legs of which each contain a © mercury electrode 2 and 3. Auseer & em are also made of mercury auxiliary electrics 4 and 5 gate areas. Yes, the mercury electrodes 2 and 3 are immersed in capacitive teeth electrodes, which are made of insulating tubes 6 and? it consists of closed ladders 8 and 9.

As already mentioned * int in Fig. 2 the visual image of a Slitsliehtaülage for photographic purposes shown using a switching tube 20 according to Fig. T. The interrupter 20 is used in this case to control the charging of a capacitor 21 and to discharge it via a MchtplitalRiiipe 22, whereby both the charging and the charging of the capacitor 21 and the same winding 23 of a single transformer is n. In addition to these switching elements is the Irimärwicklung 24r a © battery 25 in FIG. 2 and drawn a buzzer 26, and a three-pole switch 27 for the I "aden u ^r * & JSntlades & ea capacitor" 21, also a Auslöeeschalter 28 for da © Flashlight In the flashlight lamp 22, which is designed as an Eochdruok lamp with argonfailung. In the supply lines to the sin electrodes there are resistors 40 to limit the ignition power.

The mode of operation of this device is as follows: In the position of the switch 21 shown with slackened lines, the buzzer circuit of the Söndtransforiaators is closed with the primary winding 24, the battery 25 and the buzzer ZS , so that a chopped up synchronous current flows in it. This has a © at the ends ""<jr winding 23 on a sequence, which atr ⁿ , 'a ßis

Robert Bosch G.n.b.H. Ba / Mr 5 * 243

Stuttgart March 12, 1949

Lines 29 and 30 & n & @ r mercury electrode? 01 and dsr oil electrode 202 in the left leg of the interrupter 20 is located. The electrode PQt works as a cathode in this switching position, so it flows after the formation of a riathotleafleks and after the ignition of the tube 20 ela current τοπ of the electrode 201 on the electrode 203 tmd over the capacitor ΙΊ back over, winding 23 of the 2üii <ltransformer »The process takes about 10 seconds if the capacitor has a capacity of 20 al ¹ and is charged to 1500? Lt.

After the charging of the Eondenoator 21, is there a switch 2? turned over, bo that he takes the position shown with dashed lines. In this switch position, the bundles of 4 sin gauges 25 are connected via lines 31 &&& 32 to the mercury electrode 203 and the 2 bundle electrode 204 of the right leg of the switching tube 20 _s while the sunmer circuit is initially still through the lower Kentakt pair 33 »34 via the switch designed as a push-button switch 28 is interrupted «, When the switch 28 © is operated, the pair of contacts 35 * 56 * closes first, whereby the one side of the capacitor 21 passes through the door .; gen 37, 38 aa the Lan pe 22 is echoed r; ird. The other side of the condenser 21 lies under the 2-circuit connection of a switching tube 20 ₈ for & h. which the Sntlaestronic circuit is initially still interrupted, but the line 39 also falls to <3 © r lamp 22. Only when the pulse pair 53, 34 of the switch 23 is also bridged, the charge φβ® capacitor 21 is initiated and. by the fact that by switching on the buzzer circuit 24 »25, 26 an ignition voltage is induced in the winding 23 sea ignition transformer ^, which now opens the interrupter 20 _s , in which case the discharge current of the capacitor 21 is. uaigökehrter Hiöhtung by Eöhre 20 fly as the charging of Xcn ~ denaators 21. Until mercury electrode 203 operates so as cathode and di © ^ uecksilborelektrode 201 Anoäe "In iibrigeri has Oer discharge of gonäeäaatore 21 of a high-intensity flash of light in the lamp 22 to which is sufficient to expose photographic layers. Mention Su is In. The susceptibility to the fact that the lamp 22 can be saved by the fact that the switching tube 20 itself is designed as a flashlight lamp, "as by V © ren_UEg of the effective ^ u -" section of the opening tube 20 _s

Robert Bosch GMBH. Ba / Mr 5243

Stuttgart March 12, 1949

el.ii »of the horizontal connecting piece between the vertical Legs of the interrupter can be reached.

The lightning system described is of course only an ellee example for the use of interrupter »! aaeh of the present invention. These can be used with advantage everywhere "where high currents have to be controlled". This is also the case, for example, in welding systems in which two controlled discharge tubes connected against one another have been used so far, in order to be able to use both half-waves of the alternating current used for welding. It will be readily illuminated a "that also in this case, the" two tubes through a einsige of FIG. 1 is replaced k'6nn & n _a

To. it should also be mentioned that the s.rins | t; can also be used with tubes. kauri, in which the ignition cLuroh anE. in the mercury cathode immersed semiconductor pin bewerkf "telligtiit" l * "Äerartig; e. IGSN ^" f-con · Drilling would then only with ζ κ ausz-abilden © 1 mercury electrodes immersed a semiconductor pin in the Each and w © l * ^tj oe? also work alternately as Eathoda and Anode.

Claims (4)

Claim. 1 »Switching tube with mercury electrode controlled by initiation». _t characterized in that the interrupter is designed symmetrically »that it contains at least two electrodes, each with a 2ündelectrode susamiaenworking» 2. Interrupter according to claim ty in H ~ form with one mercury electrode in each leg _t characterized in that 3 © de of the two electrodes is provided with a sinus electrode and works alternately as cathode and anode. 3e. Ochait tube according to Claim 1 and Z ₉ sbiix, characterized by its use in circuits in which a capacitor is charged over one and the same winding of a transformer Robert Bosch GMBH. Ba / lär 5243 Stuttgart 12. 3.1949 fr with each of the two mercury electrodes once as Cathode and the other time it works as an anode. 4. Interrupter according to claim 1 to 3 »characterized in that its effective cross-section is narrowed in such a way that it occurs when the capacitor is discharged bright flashes of light arise.