DE1271260B - Polarized protection tube changeover contact - Google Patents

Description

Polarized protective tube changeover contact The invention relates to a protective tube changeover contact with contact lamellas symmetrically polarized by at least one permanent magnet.

In the case of protective tube change contacts of the aforementioned type, there are manufacturing tolerances with regard to different sizes of the two working air gaps and different Pretensioning of the moving central contact lamella is practically unavoidable. So far now with known protective tube change contacts a one-sided rest position of the middle Contact lamella through one-sided pre-excitation by means of an asymmetrically arranged Permanent magnets is created, this one-sided rest position because of the aforementioned Manufacturing tolerances cannot be precisely defined. It is therefore necessary to use the Over-dimensioning permanent magnets, creating the desired one-sided rest position in is enforced in each case. However, this measure creates a noticeable disadvantage such that the control winding or the control excitation is correspondingly large must be sized to the magnetic field of the oversized permanent magnet compensate.

A protective tube changeover contact is now already known in which attempts are made was to counteract the aforementioned disadvantage in such a way that in addition to the exciter magnet and the asymmetrically arranged permanent magnet another, symmetrically arranged Permanent magnet is provided, the magnetic flux of which passes through the two outer contact blades and the two working air gaps runs and which one here on the movable one middle contact blade acts symmetrically. The arrangement of the two permanent magnets is, however, made so that the magnetic field of the asymmetrically arranged Permanent magnets don't just have the middle contact blade and the preferred one outer contact lamella, but also close over the other outer contact lamella can. This, in turn, is a sufficiently large dimensioning of the permanent magnets, which has already been mentioned and the control exciter power necessary, which has the disadvantages already mentioned brings itself.

In addition, a protective tube changeover contact is already known, in which a permanent magnet acting symmetrically on the central contact lamella is provided is and a desired one-sided rest position of this contact lamella through change on existing Flußleitblechen, be it with regard to their different strength or their different coupling or the like. Is achieved. Here is however, the disadvantage that any such change in the flux return plates a deterioration in the magnetic function of the protective tube changeover contact brings with it, on the one hand, an disadvantageously large dimensioning the excitation winding and also the switching speed of the contact noticeably decreases. These disadvantages of known arrangements are addressed with the present Invention avoided that the contact blades by one or more other Permanent magnets are also polarized asymmetrically.

In this design, the middle contact lamella is influenced symmetrically by the one symmetrically arranged permanent magnet, whereby manufacturing tolerances of the type already mentioned are largely eliminated. In contrast to the known arrangement of the kind set of the one-sided rest position of the central contact blade inducing additional permanent magnet is JE yet so polarized and arranged such that it affects only the average contact blade and the respective outer contact blade unbalanced, so that the magnetic pre-excitation clearly is defined. This clear definition of the magnetic pre-excitation with the help of a magnetic field instead of, for example, different magnetic coupling of flux guide plates in the known arrangement also ensures that the contact manages with advantageously low control power and also has high switching speed with good contact pressure.

According to one embodiment of the invention, the contact blades by two symmetrically arranged permanent magnets and another, the flux of one of the two permanent magnets reinforcing permanent magnets polarized, so the strength the pre-excitation of the middle contact lamella in turn with great accuracy the strength of the added derived from further permanent magnets will.

In the following the details of the invention are explained in more detail with reference to the exemplary embodiments; it shows F i g. 1 a protective tube changeover contact, the asymmetry of which is achieved by an additional permanent magnet; F i g. 2 shows a similar protective tube changeover contact, the original symmetry of which is achieved by two permanent magnets, FIG. 3 a relay arrangement in which the asymmetry is caused by coupling the permanent magnet on one side. is achieved.

Fig. 3 shows a relay arrangement in which the asymmetric example made of ceramic, with three contact lamellas 2, 3 and 4, an excitation coil 5 and Jcfchblechen 6 and 7 is shown. A permanent magnet 8 is arranged between the outer ends of the normally closed contact lamellae so that it creates a symmetrical flow of flux. Another permanent magnet 9 is arranged between the outer end of the movable contact lamella 2 - and the flux guide plate 7 and generates the pre-excitation necessary for the one-sided rest position of the protective tube changeover contact by amplifying the continuous flux running over the contact blades 3 and 2 and the guide plate 7 8 of the magnet. the two permanent magnets 10 and 11 in F i g 2 are also used for excitation of a symmetrical Dauennagnetflusses. By shifting the two permanent magnets within the plane of movement of the movable contact lamella, mechanical asymmetries of the protective tube changeover contact can be compensated for by magnetic influence. The permanent magnet 12, which is arranged between the outer end of the movable contact lamella 13 and the pole plate 14, causes the unilateral rest position of the changeover contact by amplifying the permanent magnetic flux generated by the permanent magnet 11 and via the lower fixed contact lamella, the movable contact lamella and the Baffle 14 runs. With a symmetrical course of the fluxes generated by the permanent magnets 10 and 11 , the strength of the flux generated by the permanent magnet 12 alone is decisive for the pre-excitation, so that this can be clearly defined. The relay arrangement shown in FIG . 3 can accommodate a plurality of protective tubes 15 next to one another. All protective tubes are jointly influenced by a permanent magnet 16 and an excitation coil 17 . The yoke plates 18 and 19 are also only available once for the relay arrangement. The one-sided rest position of the movable contact lamellas is achieved in this arrangement by coupling the permanent magnet on one side with the aid of the asymmetrically arranged yoke brackets 20 and 21. The yoke brackets comprise the outer ends of the normally closed contact lamellae, between which the permanent magnet is arranged so that one normally closed contact lamella is in the immediate vicinity of the yoke plate, while the other normally closed contact lamella is spaced a large distance from the other end of the yoke bracket. The flux of the permanent magnet 16 therefore runs' predominantly over the contact lamellas 22 and 24 and on separate paths via the lightweight sheet 18 and the yoke 20 and 21 and via the lightweight sheet 19 and the contact lamella 23 back to the permanent magnet. In the other position of the contact lamella 24 only the flux portion running over the contact lamellae 22 and 23 and the working air gap comes into effect, since the same polarity exists for the opposite ends of the other flux circles or the large air gap between the contact lamella 22 and the yoke brackets 20 and 21 must be overcome.

Claims (2)

1. A protective tube exchange contact with symmetrically polarized by at least one permanent magnet contact plates, d a d g e k urch hen - characterized in that the contact blades by a plurality of further permanent magnets or are polarized in addition unbalanced. 2. Protection tube change contact according to claim 1, characterized in that the contact lamellas are polarized by two symmetrically arranged permanent magnets and a further permanent magnet reinforcing the flux of one of the two permanent magnets. Documents considered: German Auslegeschrift No. 1 046 779.