DE2104258B1 - Electromagnetically operated switching device - Google Patents

Description

The invention relates to switching devices each having two together one magnetic Forming a series circuit, shared by a joint preferably equipped with a magnetic shunt Permanent magnet pre-magnetized and bistable operable via at least one field winding Switching contacts, each of which insulates one in a magnetizable carrier plate perpendicular to its plane used magnetizable pin core and have a magnetizable armature, which is essentially parallel to the plane of the carrier plate and this overlapping is arranged movably so that it is with the opposite end of the pin core in its rest position forms a working air gap and in his work situation cooperates contact-making, in particular coupling toggle relays for telephone systems.

In the case of switching devices of the aforementioned type, it is desirable or, if so, a preferred use than Coupling toggle relay for telephone systems takes place in view of the cooperation with other switching

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break down within the overall system even necessary- this is achieved according to the invention by

dig, the operating values of the switching devices including the two switching contacts in a known manner to keep each other as similar as possible. These are united into a constructive unit in which, Following the objective, the mandatory requirement arises, in each case while maintaining electrical insulation, that already within a single switching device 5 the pin cores with mutually parallel, from zumintung of the present type whose two switching contacts at least one field winding enclosed longitudinally with regard to their response and decay excitation must run closely adjacent, and that they are to each other like their temporal function largely the same-facing carrier plates with the poles of the too-like have to react. However, this is opposed, at least partially arranged between them that the two switching contacts are already magnetically coupled by the Fer- io permanent magnets, and that Due to certain mechanical tolerances, the influence of the permanent magnet on the magnetoresistance must be, which inevitably see the working groups of the two switching contacts by means of affect electrical and temporal operating values. Adjustability of the permanent magnet itself and / or So, for example, can be arranged between it and the pen cores permissible tolerances - the preloads of the 15 magnetic shunts in the direction of the PoIa armature return springs or the working air gaps of the ringing of the permanent magnet asymmetrically change both Switching contacts can be adjusted differently, is bar.

or the distances between the poles of the common

seed permanent magnets to those with them magnetic des is admittedly from a per se already known 20 Measure used to be coupled parts of the two switching contacts, but only in a limited way or it can still be the per- Hch of the feature quoted in the first place "that the meability of the two switching contacts used from different batches to form a constructive unit th materials for the manufacture of the pin cores and are combined in the, each while maintaining a Carrier plates differ from each other. All this electrical insulation, the pin cores with each other Factors lead to a different working parallel, of at least one excitation winding of the two switching contacts and occur, in particular, their longitudinal axes run closely adjacent «, which then blatantly in appearance when positive and This measure is for example in the negative limit tolerances within a switching Austrian patent 280 400 already performed meet each other. public. It is there, however, in relation to

As a countermeasure to the above-mentioned, part- 30 hang with an arrangement that is both in their wise not at all influenceable and up to the structure as well as in their task definition from the control the ready-to-use switching signaling object differs fundamentally, Direction also not or only inefficiently detectable. The known arrangement not only lacks the Factors, a screening that characterizes the subject of the application as a whole is necessary at first A search for matching switching characteristics, but there is not yet a single contact. Such a procedure is naturally times agreement with regard to the classifying extremely uneconomical and within a moder- features. The known arrangement has namely A largely mechanized fabrication, neither a permanent magnet nor a magnet-conceivable. Furthermore, there is a subsequent table shunt for this, so that already from there Adjustment of the switching contacts or of one of the two completely different conditions are given, the switching contacts, which, however, is also extremely different, of course is time-consuming and thus inefficient and shows which mode of operation of the two arrangements. In particular In addition, not inconsiderable technical special but give way to the two arrangements such as Difficulties arise because the switching contacts in the already mentioned in their respective task built-in state only with difficulty for an adjustment 45 position seriously from each other. While at the are accessible. Finally, the above-described arrangement could be used in accordance with the statements made in the preceding Disadvantages also remedy that mentioned Austrian patent 280 400 die basically the limit values of the permissible tolerances - also the parts applied to the subject of the application in the operating values correspondingly increased measure of the union of two switching contacts would, which, however, essentially fails to 50 a constructive unit of the type mentioned in the that, as already mentioned at the beginning, on the connection with the creation of a multi-office circuit, that means, on electrical equipment, relays of the specific type according to the master gene, which is one of the underlying patent no. 256 236 composite multiple switchgear are upstream or downstream, contact relay arrangement is, the invention is the Consideration must be given and a completely different objective is based on a shift shift the limit values also often set up the type in question a time from Buyers, for example from telecommunication technical highs, the same work of the individual switching authorities as possible, such as post or the like, to ensure established standards or contacts, apart from other regulations oppose. Ren, not provided in the known arrangement

In contrast, the present invention discloses 60 and also measures that do not appear sensible, a way of creating a switching device of the type mentioned in connection with the structural design, in which, with acceptance and magnetic operation, the practically unavoidable switching contacts used proves to be expedient, In each case two borrowed influencing factors and without the use of un- switching contacts in the manner already mentioned for rational or impermissible steps to unite the greatest possible part of a structural unit,
going correspondence of the electrical and time- By the measures according to the invention

borrowed reaction of the two switching contacts within the possibility of any existing deflectors Switching device is achieved. the operating values of the switching contacts

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influencing factors, for example different- According to another embodiment of the Erliche The permanent magnet can be pre-tensioned by inserting the armature return springs separated large working air gaps or the like. Widest- two plastic plates with its poles between going to compensate, so that within the the carrier plates of the two, preferably by means of entire switching device is also a resilient tension member, which is also as resilient as possible, in its desired position going to be pressed in matching electromagnetic and locked switch contacts. Here the time response of the two switching contacts is set. can according to a further embodiment of the Er-Bei by adjusting the joint permanent finding the plastic plates as the two flanges magnet itself or the magnet associated with it - be formed from a common coil former, table shunt in the polarization direction from io which can be resolved by at least one excitation winding asymmetrical change in the influence of closed winding bodies a breakthrough to the Aufdes Permanent magnets on the two switching contacts would take the two pin cores and their flanges that is, in connection with the specific one, a trough for form-fitting reception takes place in each case Structure of the switching contacts used and their carrier plates of the two switching contacts aufweisspzieller Association to a constructive unit 15 sen. This formation of the subject matter of the invention a different magnetic coupling of the overall results in a mechanically compact component stray field of the permanent magnet with the two is called that there are no special components for electrical Switching contacts, so that despite the connection of the same insulation between the permanent magnet and the to a magnetic series circuit requires an individual switch contact, which also requires a winding adjustment Premagnetization of the working group 20 development of the switching device before the installation of the two individual switching contact is possible, as which enables the switching contacts and which ultimately This results in a compensation of different me- an exact fit that is also reliable in the long term mechanical preloads and, ultimately, the components.

an adaptation of the operating values of the two switching devices. It proves to be easy to handle in practice

brings about contacts. 25, if according to a further training of the invention

For a according to the invention provided Verification the plastic plates or the coil body from adjustability of the permanent magnet itself, it proves to be made of a thermoplastic material and expedient if, according to a development of the permanent magnet under thermally effected Verfor invention, the clear width between the with the mung of the coming with its poles to the plant pole of the permanent magnet to be magnetically coupled 30 plastic is pressed. In this way, surfaces minus existing insulating layers can be used to ensure a secure fit of the permanent magnet without being so much greater than the length of the permanent magnet through greater mechanical stress on the sensitive poles that the adjustment path of the permanent magnet components of the switching device is ensured,
It is particularly advantageous if the drive values of the two switching contacts in the frame 35 allow the last-mentioned embodiment according to a permissible tolerance and that the desired development of the invention of the permanent magnet with the position of the permanent magnet, preferably by means of ultrasound -Action is pressed in. Here a hardening adhesive, casting resin or the like, namely with a thermoplastic Verforchanisch is fixed. This enables the plastic to be carried out, which creates local exposure, also limits switching contacts with extreme 40 and thus protects other parts of the switching devices that are at risk of being shielded from other parts of the switching device at risk, so that the number of direction otherwise considered unusable saved.

discarded switching devices noticeably reduced. A particularly good adhesion of the permanent magnet

will. and one for balancing the two switching con-

In the case of a switching device, the last clock required exact status of the same in its named type with adjustable permanent magnet according to the target position is guaranteed if according to a a development of the invention of the permanent magnet further development of the invention with the when assembling the switching device loosely between the poles of the permanent magnet coming to the plant see the area of the plastic to be magnetically coupled with its poles in the direction of insertion Areas inserted and then by a permanent magnet running on it 50, when pressing the attacking mechanical adjusting device with fine permanent magnets sheared off or at least advanced guided in its desired position or there up formed ribs, and that during the for its mechanical fixation immovably firmly - pressing in the permanent magnet, the two switching stops, this results in an even inexperienced force contacts or at least the two flanges of the th feasible adjustment process with reliable 55 bobbins on suitably shaped counter supports and closely tolerated result. support.

Furthermore, it is found in the case of the following, the invention is based on in

Embodiments of the invention as expedient, the drawing illustrated embodiments

if the switching device with two, the magne- explained in more detail. This shows

table coupling with the poles of the permanent magnet 60 F i g. 1 a practical embodiment of the

serving, the carrier plates partially protruding subject of the invention in a side view, partially

and in the protruding area each cut with a wise,

Breakthrough for the attack of the adjusting device on FIG. 2 the section AB from the arrangement according to

Flußleitblechen provided with permanent magnets from Fig. 1,

is prepared. In this way, an easily accessible 65 F i g. 3 the section CD from the arrangement according to

borrowed and precise attack possibility of the adjusting device F i g. 1,

tion created on the permanent magnet, what the fine-F i g. 4 the subject matter of the invention in a schematic,

position of the switching device benefits. partially cut representation,

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F i g. 5 a further embodiment of the invention in place of the mentioned displaceable object of the invention, also in a schematic, partial order of the permanent magnet 11 of this also sectioned illustration, fixed in a chamber or between the end faces F i g. 6, 7 diagrams for the arrangement according to FIG. 5, the bobbin 9 can be pressed in and a F i g. 8 a device for pressing in a local 5 necessary balancing of the mode of operation of the fixed permanent magnets in the subject of the invention the switching contacts 1 and 2 by means of a magnet 11 associated with the permanent in a simplified representation, changing its position-F i g. 9 could be a device for adjusting a magnetic shunt made adjustable permanent magnet in one embodiment, as is indicated schematically in an arrangement shown in the game of the subject of the invention, again in FIG. 4. multiple representation. The two FIGS. 4 and 5 symbolically show the In FIGS. 1 to 3, 1 and 2 are two switching contacts, two switching contacts of one of the invention-based contacts of a known type, lying switching device. The parts represent the one isolated approximately vertically in a carrier plate 17 and 18 two switching contacts, whose magnetizable pin cores 5 and 20 each have a and 6, and their contact devices each have pressure glass fusible plug 21 and 22 in a Weil under a gas carrier plate 23 and 24 on the carrier plate 3 or 4 are melted and mechanically protected by a tightly fitted cover enclosed in a common response winding 25, an atmosphere of inert gas. The free end of the pin cores 19 and 20 protrudes into the switching contacts are visibly facing one another by means of a cover 26 and 27 in a gas-tight manner so that their two pin cores 5 are closed and filled with inert gas and 6 overlap closely adjacent to each other, clock space in which an armature 28 and 29, which is movably mounted in the Dar leaf spring, is in the position of the pin core 6 of the switching contact 2 for the purpose of its rest position under bias on the cover Separation of the circuits by means of a 25 26 or 27 is applied and is electrically insulated in its working position with a tubular plastic sleeve 7. to the free end of the pin core making contact. The two each have the magnetic core of a switching group. With 30 and 31, two pin cores 5 and 6, which form permanent contact points, are denoted by one, which are polarized in the indicated arrow direction common response winding 8 and a throw-off and each of which is surrounded by a magnetic winding 9, which in turn is attached to a 30 shear shunt 32 and 33 is assigned. To this extent, coil bobbins 10 are wound, in which the two arrangements are identical. The only difference in the two arrangements is that the sub-switch contacts are partially positively inserted. With 11 is a common for both switching contacts that in the arrangement according to FIG. 4 denotes the permanent slow permanent magnet, the magnetic flux of which is permanently pressed in and the premagnetization keeps the armature of the two switching contacts in the working position of a shunt 34 that can be changed in its position even after the two switching contacts 17 and 18 have been switched off by means of switching the response excitation, until a corresponding, opposite, for the purpose of balancing the operation of the two polarized electrical impulses on the Abwerfwick- switching contacts is asymmetrically adjustable, where 9 is given. The permanent magnet 11, in contrast to the embodiment shown in FIG. is fixed in its position. and in the operational state of the switching device. In the diagrams according to FIGS. 6 and 7 are mechanically fixed between two flanges 12 and 13 of the coil body on the abscissa of the armature stroke AH in mm, pers 10 by means of gluing. The 45 and on the ordinates Pl to P 4 on the two parts 14 is made of permeable material and forms switching contacts of a switching device according to the forces occurring in a magnetic shunt to the permanent magnet 11, Fig. 4 and 5, essentially the tilting behavior of the dargestell - gen, where on the ordinates Pl and P 4 the antenna switching device determines and also catching forces in the armature rest position, on the other hand on a certain shielding of a possible magnetic 50 ordinates P 2 and P 3 the initial forces in the Artican stray field between adjacent arranged- beitslage, ie at the beginning of the shedding of the armature, th switching devices of the type shown, are plotted by way of example. Of the two diagrams, the one according to FIG. 1 applies in a coordinate switch for telephone. 6 for one and the slide switching systems, is used. This magnetic shunt gram according to FIG. 7 for the other switch contact 14 is also mechanically arranged in the coil body 10 according to the invention, through mutual locking of the direction, for example FIG. 6 for the switch contact resilient elements. 17 and Fig. 7 for the switching contact 18 of an arrangement with 15 connecting elements are designated which voltage according to FIG. Characteristic curves of the two armature return springs, speech and ejector winding are used. This connection if both their bias and their force elements 15 are designed as round pins and through the rise and ultimately also the armature stroke of the two a so-called, already known funnel switch contacts 17 and 18 would be completely identical, plate 16 inserted through them Mechanically analogous to this, the idealized are protected and their target position for the structure 65 characteristic curve 36 of the permanent magnet 31 is also entered, the switching device shown on a perforated if its magnetic field completely symmetrically occupy both grid plates. It goes without saying that switch contacts would work. This purely theoretical in the illustrated embodiment of the Er symmetry of all for an equivalent behavior of

209 527/489

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Both switch contacts are shown by 46 with an initial value Ab. It is particularly clear at the two central intersection points in the main area of application of the invention of the characteristics of the armature return springs, namely in telephony, to strive for the characteristic curve of the premagnetization by one To achieve the operation of the switching device, permanent magnets 31. As far as a first 5 in which the response value An is about as large as the control measurement of the switching device with the help of the drop value Ab, because such a response winding 25 from the arrangement according to symmetry the dimensioning of the entire scarf fig. 5 should result in the aforementioned symmetry of the operating data and the application of a plurality of the two switching contacts, switching devices of the present type, for example, of course, do not require any adjustment of the switching device configured in accordance with the io way in a coordinate field for telephone communication invention. Makes communication facilities significantly easier,
on the other hand, the mode of operation of the two switching contacts in FIG. 8 is only a part of interest from one another, which is shown in the two diagrams according to the switching device according to the invention, namely FIGS Of the remaining parts, 48 is a coil body, different characteristics 39 and 40 for the two 49 an excitation winding, 50 one of the two armature return springs and thus ultimately a sub-magnetic core, 51 and 52 two symbolically different operation of the two switching contacts indicated switching contacts one related to FIGS. 1 to 5. This can now be designated by the asymmetrical change of the type already mentioned. The flanges 53 tion of the premagnetization of the two Schaltkon- 20 and 54 of the coil body 48 are compensated between plantacts, that is, in the example, parallel jaws 55 and 56 pressed so that they cannot evade an arrangement according to FIG. 5 by shifting and in the right Angle to this, the permanent magnet 31 in its polarization direction is a counter-position 57 on which the coil winding, which leads to new characteristics 41 and 42 with respect to body 48, is supported when the permanent magnet 47 of the premagnetization is pressed into the two switching contacts 25. This pressing in of the permanent magnet 47 leads, with a synchronous relationship insofar as there is a fixed connection in the illustrated example, as the flanges 53 and 54 of the bobbin 48 see an intensification of the premagnetization, for example in the switching contact 18 with the higher one, namely by means of an ultrasonic stamp 58, whereby Characteristic curve for the armature return spring produces an analogous weakening of the premagnetization in the working circuit 30, 53 and 54 sheared or thermoplastically deformed of the switching contact 17 when the ribs 59 and 60 are pressed in. This way can be. This method ensures that the Dauerman, the corresponding adjustment path for the permanent magnet, is stably pressed in, without the flanges gnetting, which are caused by the different 53 and 54 after opening the jaws 55 and characteristic curves 39 and 40 of the armature return springs 56 Spread apart, so that ultimately the desired symbols differing working methods of the two switching 35 metric seat and accordingly a symmetrical contacts at least approximately compensate so that the working method of the two switching contacts 51 and ultimately a 52 that is satisfactory in practice is achieved and also maintained.
Symmetry of the operating values of the two switching contacts. In FIG. 9, 61 and 62 again result in two clocks. This shows on the basis of the two schematically indicated switching contacts, diagrams, that on the one hand when responding according to 4 ° of which a pin-like magnetic core 63 is visible of the characteristic curve 43, an excitation would be sufficient, which and which in a common coil body 64 partly above the initial force of the armature return spring is, are attached in a form-fitting manner. On the coil, however, only the switch contact 17 would then be activated by an excitation winding 65, whereas the switch contact 18 would not, because the armature return spring of the two pin cores of the switching device jointly encloses a higher response. At 66, a meeting is already necessary. This higher-level addressee is referred to as the so-called funnel plate. The supply is, of binding for the two switching members 67 provide connection elements of likewise bekontakte and in the diagram of Fig. 7 as already described type is characteristic, over which the two denoted 44 with an initial value. Other switching contacts can be connected electrically. On the other hand, to throw off the closed switching 50 permanent magnet of the switching device shown is contacts by means of an oppositely polarized Er- denoted by 68 and, in contrast to the arrangement, excitation corresponding to the initial value on the ordi according to FIG. 8 is not inherently stationary, but vernate P 3 already suffice a counter-excitation that is adjustable. A shift in the permanent magnet 31 only weakens so far that the indicated direction of the arrow takes place by means of an only blatant force, which is shown as a characteristic mechanical adjusting device line 45 with an initial value Ab ' below 69 with pins 70 and acting on the permanent magnet maximum force of the armature return spring would be. 71, which actuating device would essentially open, however, only the switching contact 18, while the slide switching contact 17, which can be adjusted in the manner of a support, remains closed with fine feed and which may be ben because here the remaining pre-magnet 60 depending on the measurement results during the sation by the permanent magnet significantly higher adjustment of the switching device fully automatic reläge than the retraction force of the armature return spring. can act. If the adjustment of the switching device is the counter-excitation for shedding the two switching contacts with the result of the best possible balancing must therefore be so large that in connection with the operation of the two switching contacts 61 and training with the premagnetization, a resulting 65 62 ends, the permanent magnet 68 by means of a motor occurs, the value of which is smaller OD than the force of the fast-drying adhesive, molding resin. like. stationary armature return spring with the lower characteristic firmly fixed and the switching device is then in the example case, therefore, a force in accordance with the characteristic operating finished.

1 sheet of drawings

Claims (9)

Patent claims: 1. Electromagnetically actuated switching device with two together forming a magnetic series circuit, pre-magnetized by a common permanent magnet preferably equipped with a magnetic shunt and bistable actuated via at least one excitation winding, each of which insulates a magnetizable pin core inserted into a magnetizable carrier plate approximately perpendicular to its plane and have a magnetizable armature which is essentially parallel to the plane of the carrier plate and is arranged so that it overlaps it, so that it forms a working air gap with the end of the pin core opposite it in its rest position and cooperates in a contact-making manner in its working position, in particular coupling toggle relays for telephone systems , characterized in that the two switching contacts (17, 18) are combined in a manner known per se to form a structural unit in which, in each case while maintaining an electrical I. isolation, the pin cores (19, 20) with parallel longitudinal axes enclosed by at least one excitation winding (25) run closely adjacent and that the facing carrier plates (23, 24) with the poles of the permanent magnet (3O ₃ 31 ) are magnetically coupled, and that the influence of the permanent magnet (30, 31) on the magnetic working circuits of the two switching contacts (17, 18) by means of the adjustability of the permanent magnet itself (31) and / or a magnetic shunt (34 ) can be changed asymmetrically in the direction of the polarization of the permanent magnet. (Fig. 4 and 5) 2. Switching device according to claim 1, characterized in that the clear width between the surfaces to be magnetically coupled to the poles of the permanent magnet (31) (23, 24) minus the existing insulating layers, so much greater than the length of the permanent magnet (31) on its poles is that the adjustment path of the permanent magnet (31) is the compensation different operating values of the two switching contacts (17, 18) in the frame Permissible tolerances and that the target position of the permanent magnet (31), preferably is mechanically fixed by means of a hardening adhesive, casting resin or the like. (Fig. 5) 3. Switching device according to claim 2, characterized in that the permanent magnet (68) when Assemble the switching device loosely between the magnetically coupled with its poles Parts (64) inserted and then by a mechanical adjusting device acting on it (69, 70, 71) guided with fine feed into its target position or there up to its mechanical fixation is held immovably. (Fig. 9) 4. Switching device according to claim 2 or 3, characterized in that the switching device with two, the magnetic coupling with the poles of the permanent magnet (68) serving, the carrier plates of the switching contacts (61, 62) partially protruding and in the protruding area each with an opening for the attack (70, 71) of the adjusting device (69) on the permanent magnet (68) provided flux guide plates. (Fig. 9) 5. Switching device according to claim 1, characterized in that the permanent magnet with the interposition two plastic plates with their poles between the carrier plates of the two, preferably by means of resilient tension members, switching contacts locked in their target position is pressed in. (F i g. 1 to 4, 8) 6. Switching device according to claim 5, characterized in that the plastic plates as the two flanges (53, 54) of a common bobbin (48) are formed, of which at least an excitation winding (49) enclosed winding body an opening for receiving of the two pin cores (50) and their flanges (53, 54) each have a trough for form-fitting Have recording of the carrier plates of the two switching contacts (51, 52). (Fig. 8) p 7. Switching device according to claim 5 or 6, M ^ characterized in that the Kunststoffplat- ^^ th or the bobbin (48) made of a thermoplastic material and the permanent magnet (47) with thermally caused deformation of the coming with its poles to the plant Plastic (53, 54) is pressed in. (Fig. 8) 8. Switching device according to claim 7, characterized in that the permanent magnet (47) with Is pressed in with the aid of ultrasound exposure (58). (Fig. 8) 9. Switching device according to one of claims 5 to 8, characterized in that the with the poles of the permanent magnet (47) coming into contact with the area of the plastic (53,54) Pressing in the permanent magnet has sheared or at least deformed ribs (59, 60), and that during the pressing in of the permanent magnet (47) the two switching contacts (51, 52) or at least the two flanges (53, 54) of the bobbin (48) on suitably shaped ^ Support counter supports (55, 56, 57). (Fig. 8)