DE1515735C - Magnetically operated bistable mercury switch - Google Patents

Description

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The invention relates to a magnetic In the previously known switches of the opening operated bistable mercury switch with in a described type is the armature receiving closed housing arranged two stationary sleeve as a hole in one made of mercury Contacts whose contact surfaces are wettable by mercury material, e.g. B. platinum are wettable, and formed a 5 body movable between these. The body also serves the arranged center contact, as a magnetic recording of two coils, which for the optional Body is formed, the contact surfaces of which actuation of the armature around this or the sleeve the stationary contacts facing, are arranged as a contact led around. Based on these surface-serving end faces of mercury arrangement result for a long time or can be magnetically networked are and its outer surface due to mercury proportionally poorly conductive paths for the at silver is not wettable, with the center contact closing one over the armature when the coils are excited metallic sleeve on a mercury film the · magnetic lines of force, which is why for short is guided displaceably, as the inner wall of these switching times and the resulting high Sleeve is wettable with mercury, this acceleration of the armature strong excitation energies Sleeve through an insulating area each from the local 15 are required. In contrast, are inventive Contacts is separated and as electrical according to the highly magnetizable component in the Connection for the middle contact is used, according to the patent middle of the sleeve and the two magnetic construction-1 229 618. Such a switch can provide two magnetic conduction paths even with small elements Dimensions switch relatively large currents; placed, each of which has one half of the sleeve it works completely bounce-free and because of the armature or the armature stored in it on a mercury film floating armature half adjacent contact, the associated Armature and its magnetic component due to the mercury contact and the highly magnetized coating attenuated impact on the stationary Kon- bar component, which the latter thus includes both cycle with practically no wear overall. This magnetic conduction path is common. These guiding properties allow such a switch to run through most of its length Special for use in electrical control parts made of magnetic materials, so that the and data processing systems appear suitable. magnetic resistance is correspondingly low.

In such systems, however, by the highly magnetizable component, the insofar

very short switching times required, which is also addressed as a magnetic shunt

Control of the energies available, it is achieved that this is done by one

are relatively low. The switch after the upward-controlling or a permanent magnet as actuating

mentioned patent but requires to achieve transmission element outgoing magnetic field in the

such short switching times of relatively high control essentials runs within the route that

energies, conversely, the modulation is assigned to the armature half on which the actuation

relatively low energies correspondingly long 35 transmission element is located or is supplied. the

Switching times result. For this reason, about half of the switch's longitudinal expansion

the shortened path in data processing systems for one actuation of the

In addition, it does not meet the requirement that the switch also means triggering lines of force

the control pulse required for switching does not reduce the magnetic resistance,

May be longer than the period of time that the movement 40. In this way, the total for a fast

of the armature until the contact connection is disconnected from the actuating elements

corresponding to the magnetic energy to be applied when the control pulse arrives

Switching state required. This requirement must be kept small.

always on when the reversing pulse is over In a preferred version, the highly magnetic

this contact connection should be routed. There 45 sable component designed as a permanent magnet. Included

there is rather the risk that the armature can be between one of the two magnetic poles

the fixed contact remains, so that the ■ *. Facing the anchor and the other to the adjoining

bistable switching position behavior not guaranteed at the ends of the magnetic components

can be. be closed. This is how you reach those of others

Proceeding from a switch as it is known in the 50 polarized switch types advantages, zudeutschen Patent 1229 618 is described, in addition by the choice of magnetic polarization the object of the invention is to vary the control of one of the actuating means, to create a bistable mercury switch that is particularly easy with electromagnetic shorter switching times with lower energy requirements actuating elements by selecting the converter or works with increased switching reliability and to achieve the 55 direction. The possibility of overlay thus through improved adaptability to the permanent magnetic field and one or more Available energies and switching speed control fields can in particular be used for this purpose other, different areas of the will to achieve particularly short switching times. Circuit technology is to be made accessible. In addition, the bistable behavior becomes a

The solution to the problem is characterized by 60 symmetrically structured and with a duration at least partially around the sleeve in the middle of the magnet polarized switch ensures that it guided highly magnetizable component and two that only have a punctiform unstable equilibrium position of the Housing in the circumferential direction at least partially armature between the fixed contacts, in the encompassing magnetic components that move in the permanent longitudinal direction of the forces acting on the armature 65 magnets are balanced on both sides of the housing. Although the one in a going from the liochiiiagnetisbaren component to the armature located in the switching position already through the the area around the Gehüiisodurchfülmingcn the local surface tension of the mercury in attachment fixed contacts extend. ilen respective fixed contact is lulled, brings

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the polarized version of the switch an additional Fig. 16 a circuit arrangement of a destructive borrowed fuse with it that the switch its readable memory element.
each assumed switching position also with significant vibrations.
signal does not leave. 5 Fig. 18 is a section through an embodiment

A particular advantage of the inventive example of the switch according to the invention,
bistable switch can be seen in the fact that the control pulse required for the switching shown in FIGS owned io electromagnet or permanent magnet is operated. Switching position is required from which the armature shown in FIG. 18 moves due to the control pulse. This is possible with the switch _t according to the invention by virtue of the fact that the mercury film that forms the contact connection conversion of the actuation to be used in each case only tears open when the elements are based on all anchors shown in FIGS. 1 to 17 and have covered a certain distance from the 15 application examples Has moved out the switch position. should therefore be described first.
It is easily possible to use the armature of the invention. The switch according to FIG occupied 20 surfaces are wettable with mercury. The amount of movement communicated to the forehead contact connection in areas of the armature opposite are also sufficient to bring the armature into firm contact with the respective mercury-wettable surfaces of fixed cones. Arranged at polarized bars 101 and 102. The armature 100 and the embodiments of the switch according to the invention are also cylindrical fixed contacts, safe switching is guaranteed in any case, are axially aligned with one another and the table material, for example iron, is made from a magnet if the armature is before the end of the control signal. The . unstable switch position position between the fixed contact armature 100 is displaceably mounted in a sleeve 103 (and has exceeded clocks. rotatably), which consists of a non-magnetic

An embodiment of the metal according to the invention consists and at least with regard to their inner

Switch and a number of application examples 30 wall is wettable. The outside diameter of the

are below on the basis of the drawing. Anchor is so much smaller than the inner diameter

wrote. knife of the sleeve that between the inner

It shows the wall of the sleeve and the jacket wall of the

1 shows a schematic circuit arrangement of the armature, a mercury film 104 can be formed,

of an electromagnetically actuated switch according to FIG. 35. The jacket wall of the armature 100 is not here

of the invention, wettable with mercury, which is why the anchor very

Fig. 2 shows a circuit arrangement of a bistable easily movable floating on the mercury film

Flip-flop ("flip-flop"), mend is stored. A narrow one loaded with mercury

F i g. 3 a circuit arrangement of a binary networkable strip is between the end faces of the

Counter, 40 anchors available, so that the front

Fig. 4 a. Circuit arrangement of a ring area adhering mercury 105 and 106 counter, same or can exchange.

5 shows a circuit arrangement of an "AND" - the sleeve 103 is from the stationary contacts

(AND) and "negated AND" (NAND) gates, 101 and 102 by means of glass shutters 107 and 108

F i g. 6 a circuit arrangement of an "OR" - 45 held apart, which is also made of mercury

(OR) and "negated OR" (NOR) gates, non-wettable ring-shaped isolation zones between

F i g. 7 a circuit arrangement of an »AUS- ** ■ form the fixed contacts and the sleeve. The glass

FINALLY OR «- (EXCLUSIVE OR) and fasteners close tightly at the sleeve ends and

»Negated EXCLUSIVELY OR« - (EX- remove the side walls of the fixed contacts, see above

CLUSIVE NOR) Gatters, 50 that a tight housing is formed from which the

Fig. 8 shows a circuit arrangement of a sub-mercury of the contacts and the displacement breaker for AC signals, storage of the armature cannot leak. The GE-

F i g. 9 a circuit arrangement of a chopper housing can be evacuated or with a protective gas under

for DC signals, relatively high pressure filled, like that

10 shows a circuit arrangement of a current 55 of mercury switches is known per se. the

wenders, size of the housing or the displacement distance of the

11 shows a circuit arrangement of a switching armature 100 between the fixed contacts 101 and

device in which the switch by means of a permanent 102 is made so that the one electrical

magnet is operated, contact showing mercury compound between

12 shows a circuit arrangement of a pressure 60 of the one armature end face and the end face of the

button switch, adjacent fixed contact with safety

13 shows a circuit arrangement of a mono unit is separated when the armature is in the final stable Multivibrators, shift position on the other fixed contact

14 shows a circuit arrangement of an adhesive to be located, and vice versa. On the other hand, the

or impulse relays with electromagnetic actuation 65 mercury connection do not tear open until the

movement, anchor has traveled a certain distance,

15 shows a circuit arrangement of a non-so that one with in the manner described above

extinguishing memory elements. short switching pulses can work. In any

Case must be ensured that on the one hand sufficient Mercury is present to create the required film of mercury on the inner wall of the Form sleeve and around conductive mercury connections between the anchor and the fixed Establish contacts. On the other hand, the amount of mercury must be limited so that the non-wettable Surfaces of mercury actually remain free. It must be guaranteed that the wettable surfaces together absorb all of the available mercury can or that there is only so much mercury to cover these surfaces with a thin To wet layer.

An important feature of the switch according to the invention is approximately in the middle of the sleeve 103 A highly magnetizable component is provided, which in the present exemplary embodiment is the sleeve 103 surrounding ring 110 or annular space is formed. This component 110 is in this case as Shutter cylinder formed magnetic components 111 and 112 connected, which are from the outer area of the component 110, each strutting on both sides, extending into the areas in which the stationary contacts are guided into the housing or the glass closures 107 and 108. on this results in the two routes already described at the beginning, each of which is about an Ankerhälftc, the adjacent fixed contact, the associated magnetic component and the for both routes close common highly magnetizable component. In these routes you can use Magnetic fields are built up with the aid of the magnetic actuation elements provided, which only have to overcome short air gap distances and which therefore require relatively little energy sufficient strength can be built up for rapid actuation of the armature.

In the present embodiment according to FIG. 18, the switch is operated with the aid of two coils 113 and 114 actuated, each of which struts one of the right and left of the highly magnetizable component 110 Sleeve halves. Therefore, the magnetic components 111 and 112 are useful than the coils 113 and 114 overlapping, closed cylinders · and the highly magnetizable Component 110 designed as a circular ring. If the number or type of actuating elements changes, the Form of the magnetic components 111 and 112 and possibly also that of the highly magnetizable Component 110 adapted to the respective requirements. It must only be guaranteed that the can form the routes described above.

While the highly magnetizable component 110 in a woichmagnetic design ensures that a The magnetic field generated in the area of the routes remains essentially restricted to this route and does not extend appreciably to the other routing path when the highly magnetizable Component 110 as a permanent magnet according to FIG. KS primarily those already described at the outset Advantages of a magnetically polarized design of the switch achieved. The highly magnetizable Skin part 110 is polarized so that a permanent luss develops in the two high-speed routes that the two anchoring halls interspersed in opposite directions. Through this will one day be over the Oberllächenspamumuskräl'te the mercury contact connections Additional stabilization for maintaining the respective switch position against vibrations on the other hand, by superimposing the permanent field in one or both routes with a control field of an actuating element a weakening or complete compensation the permanent field in one of the routes ibzw. bring about an addition of the fields, the one significant accelerated, bullet-like movement of the anchor

ίο and thus enables very short switching times. When the switch is operated electromagnetically, this can be particularly easily achieved by switching over the Change the direction of current in a coil to either one or the other stable switching state.

The use of two or more coils results in a large number of actuation options for the switch, as in particular in the circuit arrangements according to FIGS. 1 to 10 and 14 to 16 are reproduced, for example.

From Fig. 18 it can also be seen that the stationary Contacts 101 and 102 via the connections 116 and 117 and the armature 100 as a center contact via the mercury film 104, the sleeve 103 and via the connection 115 connected to this for circuitry Connections are accessible. In most of the examples for Circuit arrangements are the armature 100 designed as a center contact and 10 and the fixed contacts 101 and 102 are designated 11 and 12, respectively. In the circuit examples, the anchor is symbolically in a his two stable switching positions shown, while in Fig. 18 a labile position between the by contacting one of the fixed contacts 101 and 102, the two switching positions marked. occupies.

F i g. 1 symbolically shows the switch according to the invention as a changeover switch that consists of the center contact 10 and the two fixed contacts 11 and 12 is formed. The reversal of the center contact

■ 40 10 from one stable switching position to the other takes place by means of coils 13 and 14, one of which as Switching coil and the other are regarded as the reset coil can be. The control pulse applied to the coils, which causes a switchover can be kept so short that the Because of the control pulse from the current switching position, the center contact 10 removes the latter *** Switch position assigned mercury contact connection 10-11 or 10-12 has not yet interrupted at the end of the control pulse.

According to an embodiment of the invention, the control pulse can last about 0.2 ms. The way. which the armature from its switching position held before it arrived up to Interruption of the mercury compound associated with this switch position must cover is about 50 to 70 u. It takes about a millisecond to run through this distance significantly longer than the control pulse. The one with the arrival of a control pulse - for example at the Coil 13 - the center contact set in motion interrupts its existing contact connection (10-12) accordingly approx. 0.8 ms after the end of the control pulse and requires approx. Another 0.2 ms until the has established the contact connection (10-11) assigned to the other switch position into which the control pulse should transfer the switch. The center contact remains in this other switching position

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long until another 0.2 ms long control pulse due to the high current switching capacity and is now applied to the other coil (14), so low resistance of the switch between the that the center contact 10 in its original individual circuits no amplifier or power switch position (10-12) returns, sources must be provided, although the

From such signals from the respective switch used, the switches connected in series are 5

Execution and the effective amplitude of the control runs and parallel-scaled coils can excite

signal-dependent switching time information results in the must.

possible switching frequency or the time interval. In Fig. 4, a ring counter is shown, in which the control pulses follow one another consists of four switches, each of which is allowed with the help of two. Of course, control impulses can also be actuated in the coils. The contacts of the switch are used which are considerably longer than 0.2 ms and the coils are - if necessary - with indices a . Such a switch according to the invention can give up to d . The interconnection is made of a direct current of about 4 A bounce-free, so that the contacts 11 of each switch, which works with a substantially vertical switching edge, associated coil 14 and the coil 14 that follows the next and has an effective contact resistance, the coil 13 associated with 15 switches . Which is practically zero. The preferably related contact of the last stage 11 d is connected to the coil coils have a resistance of about 20 Ω and 13 a of the first stage. The contacts 12 work at a distance of 0.5 mm at 5 V.

The above-mentioned, purely exemplary stage connected with the exception that the information is of course within wide limits 20 contact YId of the last stage remains free and to be changed, so that one obtains switches with different center contact of the first stage as the input of the switching operating characteristics. tion serves. An occurring at the input of the circuit

In the circuit arrangement according to FIG. 2, the tending pulse train 26, 27, 28, 29, 30, 31 and 32 is

inventive switch 10,11,12 acts with the coils that at the outputs A ₁ B, C and D on

13 and 14 to a bistable circuit (flip-flop) -25 other signals occur, as in the one connected together, the one common to which F i g. 4 assigned diagram is given. The control input 15 connected to the center contact 10 is connected to the outputs A, B, C and D and has two outputs 16 and 17, the emerging impulses being shown on lines, the output 16 associated with the switch-on position with. A ₁ , B ₁ , C ₁ and D _{1 are} designated. The timing of the contact 11 and the pulse input of the coil 30 is determined by the pulse shown above

14 and the sequence 26 to 32 assigned to the switch-off position are given.

gear 17 with the contact 12 and the pulse input. The other application of only one switch according to the invention, circuits of the coils are connected to ground. One in the illustrated switch-off position at input 15 35 can work as an AND and as a negated AND gate. For this purpose there is a normal coil 13 (FIG. 1), with an incoming control pulse appears via the cones the reversal of the switch causes clock connection 10-11 at output 16 and can be energized in two coils 13 / and 13 g at the same time, the coil 14, whose magnetic field causes, separated pulse inputs A and B divided, whose that the center contact 10 can transfer from the switched-off position half the magnetic force of the coil 13 from 10-11 to the switched-on position 10-12 , ie with a constant pulse ampli. Due to the aforementioned kinematic technique, it has half the number of turns. The excitation properties of the mercury according to the invention - a coil is sufficient to operate the switch, not a switch, it is ensured that the contact is sufficient. Accordingly, if there is no or only one connection 10-11 only after the end of the control pulse of inputs A and B, a control pulse opens so that the control pulse waits over its entire 45 'the center contact 10 in connection with the duration on the coil 14 is present. Matches the not-negated AND output 12. This means that the agile time interval has a further control "*" AND output 11 zero pulse, while a pulse at input 15 is applied to input 15 Clock pulse via which the Kon center contact 10, which is now in the switched-on state, reaches the negated AND output 12 clock connection 10-12 of the coil 13 and the output 50. As soon as fed to both coil inputs A 17. After the; as already described- and B If a control pulse is activated at the same time, the center contact 10 is switched by the center contact from the contact 12 to the condasmagnetic field of the coil 13 from the switch-off cycle 11. The AND position 10-12 now shows the switch-on position 10-11 return output 11 is the clock pulse supplied at 15. By a corresponding sequence of control 55 the negated AND output 12 pulse zero signal at input 15, the Z cycle of the switching mode. The switch sets itself to continue the process indefinitely. Output 11 connected coil 14 full turn-In Fig. 3 are a series of bistable switching numbers back as soon as the control pulse at one or 20, 21, 22 and 23 so successive two coil inputs λ and B fails and connected together that the Output of contact 60 input 15 the clock pulse occurs.
11 of the respective preceding circuit with which the circuit arrangement shown in FIG. 6 is only connected to input 15 · of the respective subsequent circuit of an OR and negated OR gate. Such a circuit can be used as a binary switch differs from the counter in Fig. 5, since each circuit - shown AND and negated AND gates thereby, always only every second, you via the input 15 65 that instead of the two coils 13 / and 13y? half the niagiiezugconductcn counting pulse to the input 15 of the trailing force or half the number of turns now the first circuit. A particular advantage of two coils 13 // and 13 / with separate inputs of the switch according to the invention is that it is provided that each animal has the full for the Uiu-

O 10.71 109642.115

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9 10

Control of the circuit can emit the necessary magnetic energy from a controlling alternating current in rhythm or has the full number of turns of its polarity change between the contacts such as the coils 13 and 14. Accordingly th 33 and 34 switched. The contact 34 is the center contact 10 of the switch is already at ground potential, while the contact 33 via the negated OR output 12 on the OR 5 a line 40 direct current is supplied, which switches an output 11 as soon as only one of the specific Has potential to ground. On coils 13h and 13 / or on both a control pulse is applied to the output connected to the center contact. In such a case, the switchover-OR output 11 appears on the line at the rhythm of a clock pulse fed in at 15 above the center contraction, 10 during the io current.

negated OR output 12 has zero signal. Only in Fig. 10 it is shown that several invented

if neither of the two coils 13 Λ and 13 / a proper switch at the same time from one of them

If a control pulse is pending, the center contact 10 will be controlled with a common actuating element

Help the coil 14 in the same way as in the can. This is how the pairs of switches are here

previous example described on the negated OR 15 10 /, 11 ', 11 "and 10g, 12', 12" from their output switched back, so that this now-jointly assigned coil pair 13 α, 14 α actuated,

emits the clock pulse fed in at 15, while two further switches with the center contacts 10 h

the OR output 11 has zero pulse. and 10 / are the coil pair they share

The EXCLUSIVELY OR and negated 10 b, 14 b assigned etc. in a correspondingly continued EXCLUSIVELY OR gate circuit after numbering set 20. Each of a common-fi g. 7 differs from the circuit according to the same coil pair operated switch pair, FIG. 6 works differently than the two coils 13h and 13 / accordingly as if their center contacts are mechanically polarized in opposite directions. That is by being decoupled. With the embodiment shown in Fig. 10 speaking port name of the coils 13 / and interconnection symbolizes a number of such pairs overall Hk in Fig. 7. On the basis of this measure-controlled switch, the same should occur when there are simultaneous control pulses at inputs 1, 2, 3 and 4 on both coils and no permanent signals change over with respect to output 50 of the Schaldes center contact 10 magnetic device to commutate. For this purpose the forces are on. The EXCLUSIVELY OR-off one switch 10 /, 10h, 10 / etc. of the successive passage 11 therefore only leads clock pulses if only 3 ° consecutive switch pairs in the manner of one of the two coils 13 / and 13A: a control 4 shown and described ring counter pulse is fed in, while the negated OFF with each other and with the associated coils, finally OR output 12, a zero signal, while the other switches 10 g, 10 /, 10 k . In all of these gate circuits, etc., the pairs of switches with their center contacts to the signal at one output mean a logical "one", 35 the output 50 and with one of their fixed contacts, whenever the other output is connected to a logical "zero" in the manner shown one shows that inputs 1 to 4 are connected.

With the circuit arrangement according to FIG. 8, a. With regard to the slide alternating current signal attached to FIG. 10, it should be assumed that the medium alternating current is made available in chopped form at an output contact 10 / and IQg of the first coil pair. The change - the fixed contacts' or. 12 'are switched. A current signal is also applied to the primary winding 30 of a transformer 31, the center contacts of the second coil pair, the secondary winding of which, contrary to the illustration in the drawing, is connected downwards to a center tap connected to ground. Now step at the entrance 10 / which can be seen. The two connections of the secondary winding 45 ring counter circuit the first pulse of a temporal development 32, the pulse sequence set in each case with respect to the ground connection, will have opposite polarities, with contact connection 10 / -11 ', the coils 14 a and 13 & the in This example with 33 and 34 designated- energized, whereupon the first two pairs of switches connected to their fixed contacts of the switch according to the invention, designated here as a whole with 35, central contacts 10 /, 10 g, 10 and 10 /, des- 50 consequently disappears the line 50 the sen center contact 10 in the rhythm of the controlling signal of the input 1, while the signal of the alternating current is switched. For this purpose, passage 2 appears. This state corresponds to the two oppositely wound coils 13 and 14 in FIG. 10 shown switching position of the Mittelkon series to the source, not shown, for the control clock of the switch pairs. A next pulse of the serious alternating current is switched and premagnetized in such a way with the help of 55 pulse train at the input of the ring counter circuit geeines permanent magnet 36 that in the accordingly reaches the coils 14 b and 13 c, whereupon a half-wave of the controlling alternating current the the center contacts 10ft, 10 / and 10 /, 10 k, the two-action of one coil on the armature toggle the th and the third pair of switches. On the other coil it cancels, whereas in the other half of the output line 50 the signal wave the action of the other coil that of the 60 of the input 2 against the one of the input 3 cancels the coil. Which exchanges through the center contact 10. The further switching steps are carried out according to the output taken from the contacts 33 and 34, their number up to the repetition of the input signal thus symbolizing the alternating ring counter circulation depends on the arbitrary current signal that is fed to the transformer. selectable number of inputs of the commutation

In the circuit arrangement shown in FIG.

In the arrangement shown in FIG. 11, the center contact 10 of the invention is used

according to the switch in the same way as in the middle contact 10 of the invention

Example according to FIG. 8 by means of a pre-magnetized coil switch instead of coils with the help of a magnet

11 12

operated, which is switched to two different positions 60 and, which represents the output of the "l". 61 is shown. In the upper displacement position 60 where the information "0" stored reversed Werdes magnet is the center contact 10 to the fixed to, the center contact 10 is switched by means of the contact 11, so that the input C of the coil connected 14 to the contact 12 the arrangement of which via the contact connection 10-11 to 5 in the end embodies the value "0",
output A is switched. If the magnet is in contrast to that, FIG. 16 shows a storage element, the position 61 is shifted, then the center contact at which the "1" output or contact 11 of the invention 10 from the contact 11 to the contact 12 of the corresponding switch with the reset coil 14 switches, whereby the input C is now connected to the. If the coil 13 is energized, an output B of the arrangement is connected. io “1” is stored, that is, the center contact becomes 10

The push-button switch shown in Fig. 12 after the end of the storage pulse on the contact works according to the same operating principle for 11 switched, then the accesses this storage a switch according to the invention, as shown in FIG. 11 first the following interrogation pulse on the coil 14 is reproduced. On a push button 70 is a about whose excitation to reset the central magnet 71 attached, which leads against the force of a pressure 15 contact 10 from the center contact, what the spring 72 by pressing button 70 in such a way. Display of "ü" means. The stored insertable is that the center contact 10 of a corresponding "1" becomes accordingly when reading arranged switch according to the invention in clears.

the rest position of the magnet with the fixed Kon- Fig. 17 shows a circuit arrangement in which bar 11 is connected. With button 20 pressed down for commutation in a DC motor 70 and thus two shawl magnets according to the invention, offset in the direction of the spring 72, instead of brushes 71 is used to match the signal input 73, as this is due to its closed center contact 10 on the fixed con- Switching speed and switching capacity for dertakt 12 switched. , like tasks are particularly suitable. The symbol of,

In the case of the monostable.n 25 control magnet 80 shown in FIG. 13, the rotor of the The circuit is a switch according to the invention by means of a motor, which is fastened on the motor shaft 81. the a magnet 75 premagnetized in such a way that the motor shaft carries a further permanent magnet 82, Center contact 10 continuously clocks in the direction of the condenser in phase with the rotor magnet 80 12 is acted upon so that it runs in the idle state. The rotor rotates between the anchor electrodes Arrangement, the contact connection 10 to 12 windings 83 to 86, which closed with their one connection is. To operate the switch, a sen is common to ground. The other on coil 13 provided, which upon receipt of a corre- sponding conclusion of the armature windings are the fixed conches Control signal to the input 73 of the clocks 89 to 92 of two inventive switches Arrangement connected center contact 10 fed to the, in such a way that the fixed fixed contact 11 switches. Such a switch 35 contacts 89 and 90 of the one switch with the antenna arrangement is suitable due to the small footprint of the opposing anchor space requirements of the arrangement and the small Kapa- windings 85 and 83 are connected, while the between the electrodes as a result of the small fixed contacts 91 and 92 of the other switch Size of the switch especially as a relay for high- the connections of the opposite one another frequency signals. 40 armature windings 84 and 86 are connected.

With Fig. 14 is to be shown that a with the help of the center contacts 87 and 88 of the two switches alternately actuated by two coils 13 and 14, a positive DC voltage can be applied together switch according to the invention per se an adhesive closed, which is fed via a line 93, relay represents. If the two switches are magnetically polarized, they can be distinguished from one another. Both coils are pulse-controlled - similar to that described at the beginning - and are driven, depends on the switching position of the in the in the area of action of the permanent magnet 82 in its Example with 16 designated center contacts **, sen direction of rotation offset from one another by 90 ° and thereof which of the two coils is sorted by last. Per revolution of the magnet 82 are demeine Control pulse was excited and remains after the two center contacts 87 and 88 in time as long as not the other, not last excited coil 50 one after the other and depending on the polarity receives a control pulse. In this case, the one of the magnetic pole sliding past shows once Circuit the behavior of a self-adhesive relay. one of its fixed contacts 89 to 92 connected. But it can also be one of the coils, the reset The switching times are determined so that always coil, are continuously fed, whereby only one of the center contacts is connected to one of its fixed monostable behavior similar to that of the arrangement 55 contacts is connected.

13 results. In such a case, the example shown in FIG. 17 is the

Switch from its rest position to the working south pole of the magnet 82 near the center contact

position by switching on the other coil, the tes88, which reverses it to contact 91

Adhesive coil, transferred, which is connected to a higher turn and supplies a current to winding 84

number has or leads with a stronger current, which is due to its winding direction

must be fed to the action of the restoring is magnetized such that the rotor 80 is in a

coil to surpass the armature of the switch. Clockwise rotation is forced. This

With reference to FIG. 15, the use of a rotation should take place over an angle of 90 °, whereupon

The latching relay arrangement according to FIG. 14 is the center contact 87 as the non-quenching north pole of the magnet 82

of the storage element are explained. To the spoke 65 switches to the contact 89, so that the winding 85

When the information "1" is displayed, the coil 13 is excited. This is also achieved by winding 85

whereupon the magnetic field associated with the input of the circuit exerts a rotating force on the rotor

the center contact 10 to the fixed contact 11 in a clockwise direction and thus takes over the

tricbswirkiing the winding 84. This switching cycle is continued in the course of each 90 - movement of the rotor 80 and magnet 82 by first moving the coil 86 by actuating the center contact towards the contact 92 and then the coil 83 by switching on the contact connection 87 to 90 is excited, from which the switching cycle is repeated for one more rotation. The circuit arrangement can be set up in such a way that the rotor starts running from any rotational position, since there is always one of the contact connections 87 to 89 or 90 or 80 to 92 or 92.

Claims (13)

Patent claims: 1. Magnetically operable bistable mercury switch with two stationary contacts arranged in a closed housing, the contact surfaces of which can be wetted by mercury, and a center contact which is movably arranged between these and is designed as a magnetic body, the contact surfaces of which faces the stationary contacts as Contact surfaces serving end faces are wettable by mercury and the outer surface of which is not wettable by mercury, the central "contact being guided in a metallic sleeve on a mercury film, since the inner wall of this sleeve is wettable with mercury. This sleeve is each provided with an insulating area is separated from the stationary contacts and serves as an electrical connection for the central contact, according to patent 1229 618, characterized by a highly magnetizable component (110) guided at least partially around the sleeve (103) in the center thereof and two the housing (103.107.108) i In the circumferential direction at least partially encompassing magnetic components (111,112) which extend in the longitudinal direction of the .Häuses on both sides, each starting from the highly magnetizable component, into the area around the housing bushings of the stationary contacts (101.102) . 2. Switch according to claim 1, characterized in that the highly magnetizable component (110) is magnetically polarized. 3. Switch according to claim 1 or 2, characterized in that the metallic sleeve (103 ) carries at both ends annular glass closures (107,108) which cannot be wetted with mercury and through which the stationary contacts (101, 102) are passed. 4. Switch according to one of claims 1 to 3, characterized in that a coil (13, 14; 113. 114) is arranged over each half of the sleeve (103) for use as a bistable flip-flop circuit and that the armature (10; 100) is connected to a pulse source via its galvanic connection with the sleeve (103). 5. Switch according to one of claims 1 to 3, characterized in that, for use in logic circuits, one half of the sleeve (103) is surrounded by a coil (14) and the other half is surrounded by a pair of coils (13 /, 13 g; 13h, 13 /) and that the armature (10 ; · 100) is connected to a pulse source via its galvanic connection with the sleeve and one of the contacts (11; 101) is connected to a terminal of the coil (14) facing away from it, the other terminal of which is connected to a reference voltage. 6. Switch according to claim 5, characterized in that to form an AND gate only the additive superposition of the magnetic fields of both coils (13 /, 13 g) of the coil pair the armature (10; 100) on the contact (11; 101) too moved (Fig. 5). 7. Switch according to claim 5, characterized in that to form an OR gate, the magnetic field of each of the two coils (13 / z, 13 /) of the coil pair moves the armature towards the contact (11; 101) (Fig. 6). 8. Switch according to one of claims 1 to 3, characterized in that for use as a chopper, two coils (13, 14) with opposite directions of winding are arranged on each half of the sleeve (103) and are connected in series with an alternating current source that one of the two coils is magnetically biased by a permanent magnet (36) and that the two switching contacts (33, 34; 101, 102) are each connected to one of two oppositely polarized halves of an input power source (31) (FIG. 8). 9. Circuit arrangement with several switches according to one of claims 1 to 3, characterized in that several electrically separate switches (10 /, 10g) coils (13α, 14α) shared by them can be actuated simultaneously. 10. Circuit arrangement with several switches according to claim 9, characterized., that in each case two switches with two coils assigned to them in common form a switching unit, several of these switching units interconnected for intermittent interrogation are. 11. Switch according to one of claims 1 to 3, characterized in that it is in the area of the field of a movable permanent magnet is arranged. 12. Switch according to claim 11, characterized in that the permanent magnet to achieve alternating actuation of the switch can be driven in rotation. 13. Circuit arrangement with a switch according to spoke 11 or 12, characterized in that that the rotationally drivable permanent magnet has several switches for commutation of a direct current are assigned to direct current machines. For this 1 sheet of drawings