DE1248161B - Polarized toggle relay with hermetically sealed contact arrangement - Google Patents

Description

GERMAN 'M7WWt PATENT OFFICE

EDITORIAL

German class: 21g-4/01

Number: 1248 161

File number: S 81355 VIII c / 21 g

1 248161 filing date: September 7, 1962

Opened on: August 24, 1967

The invention relates to a polarized toggle relay with a hermetically sealed contact arrangement, the between the excitation circuit and the permanent magnet circuit is inserted. The object of the invention is thereby based on, for a polarized toggle relay of the type mentioned, not only a simple manufacturing option create, but there should also be the possibility of the assembly relating to the contact circuit to be able to replace easily at any time. The latter requirement is special important because the service life of a polarized relay is not caused by wear and tear in the exciter or Permanent magnetic circuit, but exclusively determined by the wear on the switch contacts will.

It is already known to extend the switching contacts by hermetically sealing the switch contacts to achieve the maximum number of switching operations of such a relay. This measure alone increases the operational one The service life of the switching contacts is not as high as is often required in practice will. This is especially true when inductively or capacitively loaded circuits are polarized Relays are to be switched or if optimal spark extinction cannot be used for operational reasons is.

It is also already known, the closed in a contact chamber contact circuit between the excitation circuit and insert permanent magnetic circuit of a polarized relay. Let known solutions of this kind however, after the completion of the contact chamber, the contact circuit is no longer adjusted. this is particularly disadvantageous in terms of production, since for operational reasons often only after assembly of the assemblies the final setting is to be made. This is especially true even if the assembly relating to the contact circuit has expired after the guaranteed number of operations is removed from the relay system in order to replace it with a new, merely pre-adjusted assembly. This new assembly must then be adjustable with regard to the required operating data of the relay be. In order to achieve optimal conditions, it is necessary to use the armature and contact arrangement to adjust existing assemblies to optimal values during production, whereby The assembly-related setting is then only a matter of defining or changing the working air gaps relates.

According to the invention, these requirements can be achieved in that a contact chamber made of non-magnetic metallic material has a polarized toggle relay with a hermetically sealed connection
Contact arrangement

Applicant:

Siemens Aktiengesellschaft, Berlin and Munich, Munich 2, Wittelsbacherplatz 2

Named as inventor:

Josef Fischer,
Herbert Krautwald,
Erwin Müller, Munich

a two-winged, preferably formed from soft iron sheet with edges bent for stiffening has armature mounted in its center of gravity, each associated with a permanent magnet at its ends is whose continuous fluxes penetrate the ends of the armature in the transverse direction, and that the contact chamber has a fastening adjustable in at least two places, through which in connection the working air gaps can be fixed with a layered tension spring. Through the given solution it is achieved that the assembly relating to the contact circuit can be easily exchanged at any time can be. This assembly, which includes both the armature and the contacts, allows their adjustable mounting ensures that the polarized relay is excited to the required level Set values without - as is the case with known solutions - the contact distances or the position of the contacts to the anchor must be changed.

In addition, by dividing this relay into individual, completely separate assemblies, a particularly efficient production can be achieved. The already mentioned subsequent adjustment option of the the contact circuit and armature comprehensive assembly in the relay system is particularly advantageous high-quality relay designs, as it is possible in this way to reduce the type spread to a relatively small extent keep. In addition, the simple interchangeability of this assembly results in an increased service life the entire relay arrangement, since practically only this assembly is subject to wear is.

An expedient development of the invention provides that the two-winged anchor on a central one Bushing is tiltable and the two

709 638/419

Claims (3)

the optionally to be operated mating contacts of the contact chamber can be screwed into the insulating end bushings. The insulating bushings of the contact chamber are expediently melted into pressure glass. Further details of the invention emerge from the following description of an exemplary embodiment, the figure showing a diagrammatic representation of the polarized relay according to the invention. The polarized relay has three assemblies, which include the excitation circuit, the permanent magnet circuit and the contact circuit. The excitation circuit consists of two yoke plates 7 and 8 which, by overlapping with a core plate 9 required to enlarge the iron cross-section, form the effective iron core of the excitation coil 10. The yoke plate 7 and 8 are attached by means of notches to two massive side parts 19, with which the base of the relay is screwed. The base 11 carries the connecting pins 12 of the relay, which can be used as solder and / or plug connections. This excitation circuit is opposed to the permanent magnet circuit, which has the permanent magnets 15 and 16, which are attached to a non-magnetic carrier plate. During assembly, this assembly is assigned to the exciter circuit in such a way that operationally there is an overlapping of the continuous flow with the exciter flow. The air gap between the permanent magnets 15 and 16 on the one hand and the pole faces 1 a and 8 a of the excitation circuit on the other hand is ensured by stops on the side parts 19. The contact chamber made of non-magnetic material with insulating bushings 2, 3 and 4 is inserted between the excitation circuit and the permanent magnet circuit, in which there is also the two-winged armature 5, which is tiltably mounted on the central bushing 3 of the contact chamber 1. The contact chamber 1 consists of two housing parts welded together, which form a hermetically sealed chamber. In the housing part facing the permanent magnet circuit, three pressure glass bushings 2, 3 and 4 are soldered, with the middle bushing 3 also serving to position the armature 5, while the adjustable mating contacts 14 a and 14 b are inserted into the end bushings 2 and 4. The armature 5 is stiffened by bent edges 5 a and connected to a bolt of the pressure glass bushing 3 via a torsion spring 6. The torsion spring 6 is designed as a U-profile for stiffening in order to keep the deflection of the spring, as a support on two supports with a central load, very small. The current is carried via this torsion spring and the contact pieces 56 welded to the armature 5. The two pressure glass bushings 2 and 4 are provided with tubes 2a and 4a, which have internal threads into which the mating contacts 14a and IAb are screwed. This contact circuit of the relay, thus enclosed by the contact chamber 1, is constructed in such a way that the setting of the armature 5 and that of the mating contacts a and IAb cannot be made when the relay is installed, but in a setting and testing device prior to assembly. The final closure of the contact chamber takes place with simultaneous securing of the mating contacts by means of soft soldering. When the contact chamber 1 is removed from the relay arrangement, it is only necessary that the electrical connections on the base are unsoldered. In addition, an adjustable fastening of the contact chamber in connection with a layered tension spring 18 ensures that a continuous definition of the working air gap between the armature 5 and the pole faces 7α and 8a of the exciter circuit on the one hand or the auxiliary air gap between the armature 5 and the permanent magnets 15 and 16 on the other hand is possible. In order to protect the permanent magnetic circuit and in particular the excitation circuit against external influences, it is possible to place a metal cap 17 on the relay base, which is then manufactured in pressure glass, whereby a hermetic seal of the entire relay can be achieved. Patent claims: 1. Poled toggle relay with hermetically sealed contact arrangement between the excitation circuit and is inserted into the permanent magnetic circuit, characterized in that one consists of a non-magnetic, metallic material Contact chamber a two-winged, preferably in has its center of gravity mounted armature (5), each of which has a permanent magnet at its ends (15, 16) is assigned, the continuous flows of which penetrate the ends of the anchor in the transverse direction, and that the contact chamber (1) has a fastening that can be adjusted in at least two places, through the working air gap in connection with a layered tension spring (18) are definable. 2. Poled toggle relay according to claim 1, characterized in that the two-winged armature (5) is tiltably mounted on a central passage (3) and the two optionally actuated counter- contacts (14 a, 14 b) of the contact chamber (1) in the insulating End bushings (2, 4) can be screwed in. 3. Poled toggle relay according to claim 1 or 2, characterized in that the insulating Feedthroughs (2, 3, 4) of the contact chamber (1) are melted into pressure glass (13). Considered publications:
German Patent No. 814915;
French Patent No. 1194291;
U.S. Patent No. 2060235. 1 sheet of drawings 709 638/419 8.67 © Bundesdruckerei Berlin