EP0484592A2 - Electromagnetic relay with contact spring mounted on armature - Google Patents

Abstract

The relay has a contact spring which is connected to the armature, is broadened in the T-shape in the region opposite to the armature end after a constriction and hence forms a double contact or a bridge contact. A supporting lug is in each case integrally formed on the two lateral limbs of the contact spring, which supporting lug engages with the armature end in the event of an armature movement directed to contact opening. In this way, the soft spring characteristic is maintained during closing of the contacts, while, during opening, the armature impact is exerted in the immediate vicinity of the contact pieces in order, if necessary, to separate welded adhesions and mechanical sticking. <IMAGE>

Description

• die Kontaktfeder ragt mit ihrem kontaktgebenden Endabschnitt über das freie Ankerende hinaus,
• die Kontaktfeder besitzt im Bereich des freien Ankerendes eine verminderte Breite und ist im Bereich jenseits des Ankerendes unter Bildung Von zwei Querschenkeln T-förmig verbreitert und
• an den Querschenkeln befindet sich jeweils ein Kontaktstück, das mit einem Gegenkontaktelement zusammenwirkt.

The invention relates to an electromagnetic relay with a contact spring made of leaf spring material and fastened to the armature, which has the following features:

• the contact spring projects with its contacting end section beyond the free armature end,
• the contact spring has a reduced width in the area of the free armature end and is widened in a T-shape and in the area beyond the armature end to form two cross legs
• There is a contact piece on each of the transverse legs that interacts with a counter-contact element.

Such relays are known in many forms, for example from DE 35 28 715 A1 or EP 0 113 440 A1. These relays have the advantage of a very simple construction, the use of an additional slide being avoided by the direct connection between the armature and the contact spring, and the contact spring often also taking over the storage and resetting of the armature. With the two contact pieces on the free end of the contact spring, this can be used as a bridge contact or as a double contact, a soft spring characteristic being achieved by the constriction between the fastening of the spring on the armature and the transverse legs. At the same time, torsion of the spring to compensate for tolerances when switching is possible in this way.

Since such a double contact or bridge contact relay is used to switch higher currents, contact welding or hooking can lead to opening errors and thus device failures. Those acting on the make contacts via the contact spring when the armature falls off Forces or shocks may not be sufficient to tear open a small amount of welding or entanglement of the contact surfaces, since the impact of the anchor when opening due to the spring deflection in the longitudinal and transverse directions is strongly dampened at the constriction point and therefore does not reach the contact points.

In order to avoid these disadvantages, either the restoring forces had to be increased, which in turn necessitated increased relay excitation and thus a greater thermal load on the relay, or a larger relay.

The object of the invention is to provide a relay of the type mentioned while maintaining the advantages of the T-spring shape mentioned, but at the same time the effects of welding and hooking in the contact area are significantly reduced with the same dimensions.

• der Anker besitzt an seinem freien Ende eine den Querschenkeln der Kontaktfeder gegenüberstehende Abschlußkante und
• an jedem Querschenkel ist in Richtung zum Ankerende ein Stützlappen angeformt, welcher jeweils bei einer auf Kontaktöffnung gerichteten Ankerbewegung mit dem Ankerende im Bereich der Abschlußkante in Eingriff gelangt.

According to the invention, this object is achieved by the following further features:

• the armature has at its free end a transverse edge of the contact spring opposite edge and
• A support tab is formed on each cross leg in the direction of the armature end, which engages with the armature end in the region of the end edge each time an armature movement is directed toward the contact opening.

The inventive design of the support tab ensures that the flexibility and torsion of the contact spring is fully retained when the contacts are closed, while when the contacts are opened the impact of the anchor acts on the support tab in the immediate vicinity of the contact pieces, so that any welded or hooked contacts be opened because the damping effect of the soft contact spring does not come into effect in this case. Of course, it is assumed that the point of contact between the end edge and the support tab is so close to the contact pieces that the Length of the support tab or the section of the contact spring lying in this area does not experience any significant deflection.

In order to obtain a defined impact point, it is furthermore expedient for the support tabs to be bent in the direction of the anchor surface. For the same purpose, however, it is also possible for the anchor to have embossments opposite the support tabs.

• Figur 1 und 2 ein erfindungsgemäß gestaltetes Relais in zwei Ansichten, wobei in Figur 1 lediglich eine Vorderansicht von Anker und Kontaktfeder unter Weglassung der übrigen Relaisteile dargestellt ist,
• Figur 3 und 4 eine vergrößerte Seitenansicht der Endabschnitte von Anker und Kontaktfeder aus Figur 2 mit verschiedener Gestaltung.

The invention is explained in more detail using an exemplary embodiment with reference to the drawing. Show it

• 1 and 2 show a relay designed according to the invention in two views, only one front view of the armature and contact spring being shown in FIG. 1, the other relay parts being omitted,
• Figures 3 and 4 is an enlarged side view of the end portions of the armature and contact spring of Figure 2 with different designs.

The relay shown in the drawing has a coil former 1 with a winding 2 and an angular yoke 3 on which a flat armature 4 is mounted. A contact spring 5 is riveted or welded to the anchor at a fastening point 6 and fastened to the yoke with an arcuate rear bearing section 7.

In the region of the end edge 4a of the armature, the contact spring 5 is reduced in width and thus forms a constricted region 5a of smaller cross-section, while in its end section 5b it is widened in a T-shape outside the end edge 4a of the armature and forms two transverse legs 5c. A contact piece 8, which interacts with a contact piece 9 of a mating contact element 10, is fastened to each of these cross legs 5c. With these two counter-contact pieces 10, of which only one is visible in Figure 2, the contact spring 5 acts either as a bridge contact or as a double contact, depending on whether the two mating contact elements 10 are connected in parallel or in series in the load circuit. In the case of double contact, the contact spring 5 must of course have its own connection.

Due to the reduction in cross section in area 5a, the contact spring can bend slightly when the contacts are closed and can also be twisted about its longitudinal axis, thus achieving a tolerance compensation with respect to the mating contact elements and a uniform contact pressure.

When opening the contacts, however, it is not desirable to dampen the armature joint by means of the soft contact spring, since the joint is necessary to tear open the contact if the contact surface is lightly welded or caught. Therefore, the two cross legs 5c of the contact spring each have on their upper edge 5d - that is the edge facing the armature - a molded support tab 11, which comes into engagement with the armature edge 4a during the opening movement. The upper edge 5d is immediately adjacent to the anchor edge 4a, i. that is, the distance may only be so large that no substantial damping of the anchor joint is caused by the length of the support tabs.

As can be seen in the enlarged detailed illustration in FIG. 3, the support tabs 11 can have an end section 12 bent towards the anchor. In this way, a defined stop on the anchor is defined. Instead of or in addition to this bending of the ends 12, a protruding embossing 13 could also be provided on the anchor in order to ensure this defined stop. A corresponding embodiment is shown in FIG. 4. The support tabs can of course also contain other deformations, for example beads, in order to stiffen these support tabs.

In the example shown, a normally open contact is shown.

This means that the contact opening takes place during the falling movement of the armature, that is to say it engages the support tabs on the side of the armature facing away from the pole face. However, a modification would also be conceivable for normally closed contacts, where the contacts open when the armature is tightened. In this case, the support tabs would have to engage on the armature side facing the pole face.

Claims (3)

Electromagnetic relay with a contact spring made of leaf spring material attached to the armature with the following features: - The contact spring (5) projects with its contacting end section (5b) beyond the free armature end (4a), - The contact spring (5) has a reduced width (5a) in the area of the free armature end (4a) and is widened in a T-shape in the area beyond the armature end to form two transverse legs (5c) and - On the cross legs (5c) there is a contact piece (8) which interacts with a counter-contact element (9, 10), characterized by the following additional features: - The armature (4) has at its free end (4a) a transverse edge (5c) of the contact spring (5) opposite end and - A support tab (11) is formed on each cross leg (5c) in the direction of the armature end, which engages with the armature end in the region of the end edge (4a) when the armature moves towards the contact opening. Relay according to Claim 1, characterized in that the support tabs (11) have end sections (12) which are bent towards the armature surface. Relay according to claim 1 or 2, characterized in that the armature (4) has embossments (13) opposite the support tabs.

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