DE1639092B2 - Self-igniting discharge lamp - Google Patents

Description

3 ^ 4 ^ d ^^ arm ² ^ ⁹ selS ^^ 1 ^^ - ^^^ SfSi zr ^ n ^ trLiÄne ^ iaTg 45 dig ^ ngen ώηη where * the discharge has a bridge wire between the electrodes- ^^^ g- ^ gf _Erf . _ndu ^

SÄrÄ ^ i: » ^ SiSf S ¹ S ^ even if the _discharge lamp is used only once, an increased discharge lamp

In the case of non-self-igniting short-arc discharge ^ta \ 5? L ^^ Ληίηβ of the self-supporting section

lamps, it is first of all necessary to

To create a very high pulse voltage typically of Bruc _{N "height of the electrodes} -

is wise at 15,000 volts and in general you ch ^se ^ ' ^da f _{d in} contact with the

an ignition or trigger pulse voltage source go- «0 spit ™ ^ t.sch led _{and that this £ nd} .

is produced. Thereby, the tkktroden between the, electrical dc k _shift it to _sew

the located gas partially, onized and a Bo- ^ sch ⁿ .Hc duicn j ^ _n ^. ^ _{di £}

gene discharge triggered. As soon as the arcades h «ßj. _S t Every _{t will be}

has started, the further * ^! «iung ^ o - ßerste ^ f J ^ P," - _{that the cantilevered}

dSSgs ^ pe ^^ tr ^^ 'ese; E ^ so between the electrodes together-

is pressed that its end portions in places that can, as shown in the drawings, a

are close to the electrode tips, elastically be identical to each other, so that each of the two

are resiliently pressed against the electrodes. Can serve as an alternative and the lamp is not polarized

which are the exit points of the bridge is. Of course, one of the two can also

wire-receiving slots in the tapered ends of the 5 electrodes with a larger diameter than that

Electrodes in such a position that the other bridges are formed in order to

wire to the hotter anode when it is inserted and in the usual manner when it comes to its exposure lamp

would be formed through the tips of the electrodes. However, the fact that the discharge

must be performed. The curved or bent lamp according to the invention must be non-polarized,

The shape of the inside of the discharge path represents a decided advantage in that the

Chen bridge wire not only causes elastic manufacturing costs are significantly reduced and the

see support of the bridge wire, but offers lamp to a voltage regardless of polarity

also the guarantee that the ends of the free voltage source can be connected.

The electrodes 16 and 18 are immovably mounted on the conical surface of the electrodes and in 15 within the lamp bulb 12, in that they are located in the immediate vicinity of the tip of the electrode of the better bulb directly on the main parts 20 and 22, see above that the end sections remaining on the electrode feet 24 and wire after the burn-off of the bridging electrodes and the wire is shrunk onto the receptacle 26. The foot 24 of the electrode 16 slot only through the hot electrode tips can be left by spot welding by means of a molybdenum, thereby being melted, 20 thin sheets 30 (usually 0.00015 mm) close the slot and thus a smooth electrode with a conductor strip 28 connected, which cause in a known slab shape. ter way is attached to the electrode foot 24. The exemplary embodiment of a discharge lamp according to Leiterbana 28 usually consists of molybdenum. The invention can be seen on the basis of the description in FIG. 3 and has a width of about 3 mm and a strength connection with the drawings; it is 25 by about 0.017mm. The other end of the ladder-F i g. 1 an elevation view, partly in cross-section and under the tape 28, is connected in the same way to a connection of some parts of a self-terminal 32 to which a flexible short-arc discharge lamp to be ignited is attached after the device 34. The part of FIG. 1 consisting of the conductor strip 28, the invention, terminal 32 and possibly also from FIG. F i g. 3 is an enlarged elevation, partially surrounded in the transverse piston 12, in that this is shrunk by means of a cut of the arch wire and the adjacent one of a known method.
Electrode sections of the lamp of Fig. 1, In the same way, the electrode foot 26 is enlarged views of Figs connected, and on bridging wire, including the optimal shape, this entire lead is shown the lamp bulb, shrinks. To put the lamp into operation, FIG. 5 is a representation similar to FIG. 3, showing the voltage source (not shown) for the light bulb, a further embodiment of the invention, in which the cantilevered section of the bridging wire is connected to the leads 34 and 40 the, ignites the arc and then keeps a bonur having a single curvature, genentiadung in the lamp 10 upright. This on-Fig. 6 is a perspective view of one construction of a lamp is commonly known as a "bandabge electrode and a portion of the archwire sealed" lamp because the seal between the embodiment of FIGS. Fig. 7 is similar to Fig. 6 showing the bands around. However, it should be pointed out that a further embodiment with a closed one shows that the present invention shows a receiving slot in the cathode. equally also to "rod-sealed" lamps. In the various figures, the same can be used, in which the strips are denoted by rods with the same reference numerals or are assigned to one another, around which the seal is made, corresponding parts. In the FTg. 1 to 3 is a discharge The electrodes 16 and 18 are each shown with a discharge lamp 10 with a bridge wire, which is provided with lamp end sections, which are formed from the according to the invention. The discharge cylindrical sections 42 and 44 of the smaller lamp 10 has a lamp bulb 12 which, for understandable reasons, consists of quartz cuts 46 and 48 in diameter and in conical shape, which are made of opposing glass. The inner space 14 of the lamp vessel ends overlying tips, between which the 12 is generally under gas pressure and is formed with a discharge path. This discharge is filled with a noble gas, for example with xenon or a length, ie the distance between the tips of the related gas, the pressure of which in the case of both electrodes is generally between 10 and 15 atmospheres and between 0.635 and 0 .89 mm and is denoted here with the amount and the drawing symbol »G« at normal operating temperature. The discharge distance usually increases to 15 to 30 at. A formed bridging wire 50 is bridged by a curved or loop-shaped pressurized lamp bulb 12, which is arranged in the pair of electrodes 16 and 18, which cone sections 46 and 48 are embedded in slots, the anode and the cathode of the short-arc discharge - 65 and along the cylindrical sections 42 and form dungslampc. These electrodes consist of 44 runs. The ends of the arch wire 50 are made of a refractory metal, e.g. B. made of die-cast tungsten by a spot weld or forged in some other way. The electrodes 16 and 18 by means of platinum leaves 52 and 54 in

7 "" 8

known way firmly to the electrodes 16 and 18 between the arch wire and the side walls of the

tied together. The bridge wire 50 usually has a receiving slot is a good heat transfer between

a diameter of 0.150 mm and consists of seeing the bridge wire and the electrode given,

Molybdenum or another metal. and the electrode acts as a when the lamp is ignited

The electrodes 16 and 18 in FIG. 3 each have 5 a heat sink. This will remove heat from the a receiving slot 60 or 62 for the bridge ends of the bridge wire, which are immediately adjacent wire on, the width of which is dimensioned so that the electrodes are quickly derived. As for the Arch wire 50 within the slot a sliding midsection of the arch wire no heat dissipation Has. The receiving slots 60 and 62 run line is possible, this heats up very quickly, from the periphery to the interior of the electrodes, thereby ensuring that the arch wire in the case of the slot in the electrode 16 diametrically opposite, burns off first in the middle and then over the slot in the electrode 18 is arranged. burn or melt in a short time in the direction of The term “diametrically opposite” is intended to include electrodes.

when understood that the two slits around the whole process that results from the melting Are offset from one another by 180 ° and put together from directions opposite to the central section and the burning of the wire ending into the electrodes, happens very quickly, so that to run. for the term the »exploding« of the bridge

Since the two receiving slots 60 and 62 can be used to tie-in wire. The part of the electrodes other are identical, the following band meets the first is heated, is the tip, and then the Writing of the slot 62 also on the slot 60 20 the whole process is going on very quickly, the to. The receiving slot 62 has a bottom surface burn-back ends of the arch wire between 64, which are straight or, as shown in the figure, the exit point and the hot tip, can be slightly concave. The main reason or catch. When the burning back ends of the also the reason for the curvature of the bottom surface of the bridgewire near the center line of the Elek-64 is in the manufacturing process for the slot 25 troden, they melt and close the to see if this is for example through a slot on the axle, so that a firm and smooth Grinding wheel is produced, whereby the bottom end of the electrode arises.

the surface 64 of the periphery of the grinding wheel. The point at which the bottom surface 64 is, for example, less than a diameter of the bridge surface of the cone section 48 intersects is with 30 kendrahtes, so that the exit points of the bridge 66 and should be the exit point of the wire practically in the axis of the electrodes, Be considered. In the same way it can be after the middle section has been burned off Exit point for the slot 60 with the reference time that the burning-back ends of the Chen 67 specified. The exit point 67 is to measure the bridge wire out of the receiving slots be pressed along the inclined surface of the cone before the tip extends so far by the distance "/ 4" from the tip of the warms to these ends by fusing them together removed. The position of the point of intersection of the Bo-hold, and that the end of the bridgewire is not denfläche 64 is burned off with the surface of the cylindrical, but another electrode bil-section 44 is not critical and may indicate which of the arc jump and any point on the surface of the electrode 40 can cause a discontinuity in the discharge, provided that the intersection of this point generally occurs in the presence of this case protruding portion of the arch wire 50 from vibrations when formed in a straight line within a relatively short distance bridging wires that are not taut within the of which the discharge path is stretched by spot welding on the leaflet and in the ignition time 54 attached end is located. 45 point through which the vibrations are laterally offset.

The distance y> A "is chosen so that the bridging wire 50 protruding in the above-mentioned distance r> A " with respect to the discharge path is located over the length of the receiving slot in the direction of in the immediate vicinity of the tip. Since it refers to inclined conical surface when non-polar is desirable, for the arch wire 50 a sated lamps on both electrodes. With a good polarization holder and a good heat transfer to 50th lamps, this distance "A" relates to created, for the distance "Λ" there is at least one ster line on the cathode, since the anode generally requires a distance that corresponds to the diameter by about 700 ^c C is hotter. When the bridge of the arch wire corresponds to 50. The distance "Λ" kendraht burns back in the direction of the anode, on the other hand, can be four times the value of the diameter, therefore the end of the bridge wire over the knife of the bridge wire 50 corresponds, with 55 conical surface splattered and closes the still a steady arc can be obtained . From the receiving slot without further ado. For this reason these reasons, the distance "A" is within the location and the distance of the receiving slot selected a region between a mini mum in the anode with respect to the tapered surface is not critical from about a diameter and a maxi and can be within a much larger mum before. about four times the diameter of the region 60 to be changed, as it is in connection with the bridge wire, wherein the optimum has been called at about the distance "A".
two diameters . The portion of the arch wire 50 which extends from

In this context it must also be mentioned the exit points 66 and 67 of the receiving data, that the bridge wire protrudes from the receiving slot between the exit 65 when an exit slot 60 and 62 into the discharge path is intended as the cantilevered section of the stepping point and the tip is located and is named after the arch wire and has completely burned off can only leave the slot if it generally has the shape of the letter "S" in which moves through the tip. As a result of the sliding fit form a double curvature or loop, like

9 10

is immediately apparent from the drawings. That of the arch wire is approximately three times that The unsupported section of the bridge wire 50 is the length of the discharge path “G” and its can be longer than the distance between the exit shapes with respect to the axis of the electrodes points 66 and 67, which are referred to in the drawing as an oblique "S", desdem Reference symbol "ß" is designated. 5 sen angle of inclination approximately parallel to the cones FIGS. 4A, 4B and 4C show three different electrode surfaces. The two Schleidene Versions of the double-curved free meeting of the »S« are each around 180 °, and those of Lowing section shown, the outgoing loop with 70 or 71 of an electrode comes up and 72 and are each spaced between a distance to the other of the two electrodes the electrodes 16 and 18 are located. The loops io approach, which entder almost half of the discharge distance Cantilever lengths 70 are longer than what is optically speaking.

male shape, the section 71 represents a training The "S" -shaped shape of the self-supporting figure

which is to be referred to as the optimal length, section 71 is made up of a pair of rectilinear

and section 72 finally shows a shape, towards end sections 75 and 76, which are approximately

in which the loops are shorter than in the case of the optimal 15 standing right to the conical surfaces

len training. Although each of the illustrated ab-

Sections 70, 71 and 72 have a shape that is substantially parallel to the end portions,

a straight design of the cantilever and a pair of curved or curved

Length is superior to what is taut between the tip sections 78 and 79 together, which by 180 °

zen of the two electrodes is spanned, it has 20 are bent and the opposite ends of the

it has been shown that the formation in the manner of the central section 77 with the sections 75 and 76, respectively

cantilevered section 71 connect the best results.

brings. Although the exact shape of the cantilever ab each of the FIGS. 4 A, 4 B and 4 C shown section within the discharge path not very much th cantilevered sections has a loop conveying which is critical, certain characteristics can be identified for shape, especially a double loop between the determination of the optimal area, see the exit points of the electrodes, which are between- If the forms 70 and 72 as the lower and the see the closed bottom surfaces of the receiving upper limit and the shape 71 as the center of the opme slit and the tips of the electrodes can be used in the maximum range It is assumed that this is a 30 hen that the length of the cantilevered section non-polarized lamp. These loops are usually no less than about one and a half centimeters Shape is 66 times and no more than about five times that between the exit points and 67 are pressed together, so that if the length of the discharge path is still unf, r- should be "G". It On the very top of the bridge wire the ends of the cantilever can also be seen that the "S" shape is inside the section resiliently resilient against the exit half of the discharge path between one completely on points applied and a good heat-deflecting »S« and one completely on the side cause a line to the electrode. In this training lying »S« should be. In addition, each would The reason for this should be seen in the fact that the two loops that form the "S" are not Lamp with bridgewire according to the invention is improved by more than 270 ° and by not less than 90 ° Shock and vibration resistance possesses 40 curves should be. This last indicator is and under all operating conditions that occur simultaneously for the middle of the range that the has an increased burning stability. End sections and the middle section of the "S"

The length of the cantilevered section 70 are parallel to one another.

carries approximately five times the length of the discharge. 5 is another embodiment of a sclbstdungsstrecke "G", and its shape can be ignited in the way ₄₅ short-arc discharge lamp shown in the same views of the axis of the electrode as a standing invention in which a pair of electrical "S" are referred to. The two loops of the "S" 80 and 82, which in one (not shown) are each about 270 °, and which are enclosed on an elec- Bridge wire 84 across half of the discharge path to the other that is bridged. The arch wire 84 is connected to the electrodes. This shape is seen as the electrodes 80 and 82 connected by spot welds at the upper limit of an optimal length range, points 86 and 88 in the manner already described, which are normally not exceeded. The electrodes should have receiving slots. 90 and 92, which in all respects correspond to the length of the cantilevered section 72 and the embodiment of FIG. 3 is about one and a half times the size of the discharge, with the exception that it is not diamedungsweg "G", and its shape can be seen in the rear opposite, but from the same side when looking at the axis of the electrodes as a Insert the electrodes underneath. In other words, a wrapped "S" can be denoted that is not only parallel to the whole on which they lie, but is also around the ^0c side. The two underdeveloped loops 60 offset from one another.

are each about 90 °. This shape is called the The arch wire 84 is held by the receptacle lower Cut the limit of an optimal length range 90 and 92 included, and the freely visible, the section 94, which is normally not undercut, is shaped in such a way that it is one should. forms umpteen loop. As with the earlier execution optimal Shape and length for the cantilever 65 gene is the location of the exit point 96 on the Ka section are shown in Fig.4B and lie between a polarized lamp and the position of the dei see the values and shape of sections 70 exit points 96 and 98 on cathode and anode, respectively and 72. The length of the cantilevered portion 71 of a non-polarized lamp corresponding to FIG

11 12

chosen above. For the arrows so that the arch wire is physically held tion of the cantilevered section 94 can and cannot escape. In this case it is Curvature can be chosen, which offers the possibility of desirably, the exit point as close as possible, to arrange the cantilevered portion 94 between the borrowed to the tip, so that the optimal Press exit points 96 and 98 together, 5 depth of the slot half a diameter of the Corresponds to an increased resistance to the bridge wire and the wire is practical rectilinear shape of the arch wire. exits coaxially with the tip. To be a good cons-der The optimal area determined by tests is to ensure the stability of the bridge wire, however, between 90 ° and 270 °, and the optimal one is the cantilevered section in the figure shown in FIG. 5 darge shape in the middle of the range at about 180 °. io posed way curved. Since the arch wire in

Figure 6 is a perspective view of one of these designs securely anchored in the cathode of the two electrodes of FIG. 5, showing that the is may refer to the receiving slot in the anode Receiving slot 90 along its entire length of the receiving slot in the cathode one ran is, so that the curvature of the self-supporting Ab- have angular position, since only one holding Cut 94 the slightly compressed bridge wire 15 contact with the exit point of the anode holds in the receiving slot and which is the same.

End sections elastically resilient against the outlet It should be readily apparent that besides

points presses. the one consisting of one or two loops,

F i g. 7 shows a further embodiment which, in the forms shown, many other loop forms, especially polarized short-arc discharge 20, which can be used when the lamps are pressed together, are conceivable. In this figure, a cable end of the cantilevered section elastic method 100 is shown, which has a receiving slot 102 for contact with a correspondingly arranged bridge wire 104 . As the exit points of the receiving slots have already been identified in the leads, it is necessary to press an electrode in order to achieve this. In addition, the mutual steady arc discharge is critical for the part of the cantilevered section that does not burn back very much towards the cathode as the angular alignment of the receiving slots, and the value of 0 ° for a single one is to be captured before it has the option of looping and 180 ° for a double loop to step out of the receiving slot and thus changeable within wide limits,
possibly forming another electrode. In the above-described self-igniting the above-described embodiments 30 short-arc discharge lamp with a curvature of this capture is achieved in that the arch wire intretende end portion of the arch wire is within the discharge path, the end portions of which is near the tip, in particular against which is acted upon in elastic resilient contact with at least the exit point, which is located towards an exit point of the receiving slots finter the tip, so that the exiting bridge, which would have to pass through the tip at a wire behind the apex of the electrode . Is arranged in the point located, has a verbesder in F i g. The embodiment shown in FIG. 7 has increased resistance and an increased combustion slot 102 closed by drop forging.

1 sheet of drawings

Claims (20)

Patent claims: 1. Self-igniting discharge lamp, which 'has within a pressurized piston at a mutual distance from one another a pair of fixedly arranged electrodes which form an arc gap between them and are connected to one another by a bridging wire which contains a cantilevered, the arc gap bridging, burnable section which at Applying the operating voltage to the discharge lamp melts and causes the arc to ignite, characterized in that the cantilevered section (70, 71, 72, 94) of the bridge wire (50, 104) has a curved or loop-shaped shape over its entire extent and so is compressed between the electrodes (16, 18) so that its end portions (75, 76) are resiliently pressed against the electrodes at locations in the vicinity of the electrode tips. 2. Self-igniting discharge lamp according to claim 1, characterized in that the curved Shape of the arch wire has a single curvature (94). 3. Self-igniting discharge lamp according to claim 1, characterized in that the curved Shape of the arch wire consists of two curved sections (78,79). 4. Self-igniting discharge lamp according to claim 3, characterized in that the curved Shape of the arch wire essentially has the shape of the letter "S". 5. Self-igniting discharge lamp according to claim 4, characterized in that the length of the "S" -shaped self-supporting middle section of the arch wire between one and a half times and five times the length of the arc gap (G). 6. Self-igniting discharge lamp according to claim 4, characterized in that the arc length each of the curved sections (78, 79) of the "S" -shaped, self-supporting Central portion (77) of the arch wire is within a range of 90 to 270 °. 7. Self-igniting discharge lamp according to claim 4, characterized in that the "S" - shaped shape of the cantilevered central portion with respect to the center line of the arc gap is inclined at an angle between 0 and 90 °. 8. Self-igniting discharge lamp according to claim 4, characterized in that the arc length each of the curved sections which together form the "S" -shaped cantilever Form the middle section of the arch wire, encloses an angle of nominally 180 ° and the length of the cantilevered central section is nominally three times the length of the arc gap amounts to. 9. Self-igniting discharge lamp according to claim 4, characterized in that the outermost Ends of the end sections (75, 76) and the center of the middle section (77) of the "S" -shaped formed cantilever central portion of the arch wire substantially parallel extend to each other and are connected to one another by curved sections (78, 79) which are essentially semicircular. 10. Self-igniting discharge lamp according to claim 1, characterized in that at least the cathode of the two electrodes has a receiving slot (60, 62, 90, 102) for the bridge wire which extends essentially in the axial direction from the apex of the electrode along part of this electrode runs, the width of this receiving slot being dimensioned such that the arch wire is slidably received by the slot, and the bottom surface (64) of the slot intersects the electrode end and forms an exit point (66, 67) for the cantilevered central portion which is on the diametrically opposite the Schlitzöffnuog side of the electrode by a certain distance ("A") away from the electrode tip. 11. Self-igniting discharge lamp according to claim 10, characterized in that the distance between the exit point of the arch wire and the electrode tip along the Electrode surface is dimensioned so that the protruding from the electrode portion of the Bridge wire near the tip of the electrode. 12. Self-igniting discharge lamp according to claim 11, characterized in that the receiving slot is closable to the extreme end of the cantilevered middle section that is in contact with the exit point to be held securely. 13. Self-igniting discharge lamp according to claim 10, characterized in that the distance between the exit point of the arch wire and the electrode tip along the Electrode surface is dimensioned so that it is between once and four times the diameter of the neighboring end section of the cantilever Corresponds to the section of the bridgewire. 14. Self-igniting discharge lamp according to claim 10, characterized in that the distance between the exit point of the arch wire and the electrode tip along the Electrode surface is dimensioned so that it is substantially twice the diameter of the neighboring End portion of the cantilevered portion of the arch wire corresponds. 15. Self-igniting discharge lamp according to one or more of the preceding claims, characterized in that at least at the cathode the distance between the exit point of the bridgewire and the electrode tip is dimensioned so that the end portion of the cantilevered portion closer than about four times the diameter of the end portion to the The center line of the electrode tip. 16. Self-igniting discharge lamp according to one or more of the preceding claims, characterized in that the arched shape of the arch wire consists of a single loop, the arch of which forms a Describes angles of not less than 90 ° and not more than 270 °. 17. Self-igniting discharge lamp according to claim 15, characterized in that the curved Shape essentially the shape of a "S" corresponds and the curvature of each of the operating voltage sources also corresponds to a ^Z ™ ^d ^ Loops of the "S" an angle of no less pulse voltage source must be present than 90 ° and not more than 270 ° must be connected by circuit, ⁶¹ P ^ * ^{IS Self-igniting} discharge lamp according to An a complex, costly, F latzb ^ ^anspm ™, _nten Claim 15, characterized in that the free 5 arrangement of great weight. The in the S ^e . ⁿ <^ load-bearing section of the arch wire in the we-patent specifications BogNampenmiieiu substantially corresponds to a semicircle and the bridgewire avoid these disadvantages for a ™ Receiving slots in the electrodes are essentially used by the lamp ^{e ^^ cn} chen is ignited parallel to one another by the same rieh- through that they are ignited with the leg ™ »* V do »out into the two electrodes. ion source is connected. The to the Autrecn- ^c " 19. Self-igniting discharge lamp serving an arc discharge voltage _s claim 15, characterized in that the free burns first of all the bridge wire, zunaei uι supporting section of the bridge wire in the we- through the arc discharge and receives, ^a . ^iesi * V laterally in the shape of a letter "S" still upright. The bridge wire formed in these patent sections and the receiving slots in FIG. 15 touches the pointed electrodes essentially parallel to one another, irrespective of whether they lead into the remaining electrodes from one direction or from opposite directions. owns, has an essentially straightforward stud 20. ^{Self-igniting discharge 1} ampe after and is coaxial to the axes of the fciekxroucu soruch 15, characterized in that the two are categorized. Although this discharge lamp with a “straight receiving slots (60, 62) essentially” bridge wire are identical to one another in very few places and therefore work in a single shaft and work well as a Form self-igniting Enüa non-polarized discharge lamp. education lamp is suitable, it has been shown that, Ui.- wiu ^ S ₅ Stability and burning stability under the bin flow of very strong shock and vibration influences sen as well as high accelerations or decelerations in some respects not quite the set Requirements. Extremely strong shock Diesc invention relates to self-igniting unloading 3o conclusions or _Α ^ _{'ε η} s _n ^ * m al | - discharge lamps, in particular short-arc discharge ^^^^^^^ Ά ^ Brüklampen which stand- within a pressurized. Each is 1bea «pn ^ en diameter the piston at a mutual distance from each kendraht of in general "nn _{k s0 that among} other a pair of fixedly arranged electron has mm of about 0.15, senrsu. , Has, which form an arc between them 35 ^^^^ Äi'von gap, and is connected by a bridging wire. If the ^ £ ™ ^{1 is} _brought , can are other connected, the one self-supporting, the Schj "ign ^ zi ^ e ^ e" M ^ ^ ^ arc gap bridging, burnable waste it ^vorko ^ ^s ^? _t ^{s a} 5 ° _E, e _ektrod has moved away section includes, at the application of the Betriebsspan- he.ßesten point J ^ f ° f _{s' Brü} ^g _{ckend? ah} it