DE1665958A1 - Heavy-duty contact arrangement - Google Patents

Description

Heavy-duty contact arrangement The invention relates to a heavy-duty contact arrangement, in particular a changeover contact arrangement for relays. When building power relays that have to switch higher currents, the difficulty arises that the flexible contact spring often cannot be optimally selected with regard to its spring properties. This is related to the fact that the movable contact spring is current-carrying r and therefore, when selecting it, consideration must be given not only to its spring property, but above all to its electrical time capability. The thermal conductivity of such a contact spring also plays a role that cannot be neglected when switching larger currents, since the heat generated at the switching contact must be dissipated to a sufficient extent.

The object of the present invention is to provide a high-load bearing contact arrangement to create in which the material of the movable contact spring is exclusively can be selected taking into account their mechanical properties. the Solution to this problem is that the bevregliche contact spring with a Loop-shaped power supply with low rigidity and high electrical time capability connected is. Such a separate power supply enables the contact spring itself. is not loaded in terms of current, whereby by appropriate dimensioning this power supply affects the play of forces of the contact arrangement only insignificantly will. It is advantageous to choose a material for the power supply which, in addition to high electrical conductivity, also has high thermal conductivity. In this way, not only can the self-heating of the power supply be kept low, but the heat from the contacts can also be advantageously conducted away.

An expedient Vleiter formation of the invention provides the connection the bcvielichen contact spring with the power supply on which the Contact spring associated Kontaktclement-produce. It is advantageous to The loop-shaped power supply has a U-shape that is open towards the contact side admit. The actual connection between the movable contact spring and the Power supply can of course be done in different ways, with the welding 'or riveting are the most frequently used forms of connection. It it is advisable to have the power supply at its end facing away from the connection point to train like a shoe, so that the part located within the relay housing of the respective Ansahlussmesser is included like a claw.

Further details of the invention emerge from the following Description of an exemplary embodiment.

1 shows an electromagnetic relay in which the invention ! Application finds, Fig. 2 'in a diagrammatic representation a partial view of the relay with the details important for the invention. In Fig.1 there is a socket with a socket provided electromagnetic relay that has a heavy-duty contact arrangement after of the invention. This is a changeover contact arrangement, by the fixed contact elements 3a and 4a and by the movable one Contact spring 2 attached contact element 2a is formed. Around the contact spring 2 not to load in terms of current, this is assigned a U-shaped power supply 1, the connection with the contact spring 2 in the vicinity of the contact element 2a, for example by welding. At the opposite end 1a is the power supply, which has only low rigidity, is shoe-like, whereby the terminal end of the located within the relay housing 6 part of the Connection knife 5 can be encompassed like a claw.

If the excitation winding 9 receives its operating current, the moves Left 7 fixed in its rest position by a return spring 10 in the direction of the arrow downwards, so that the movable contact spring 2 with its contact element 2a of switches the fixed contact element 4a to the fixed contact element 3a. by what Presence of the separate power supply 1 results in that the over the Current carried by contact elements does not flow via the movable contact spring 2 got to. The holder of the movable contact spring 2 on the left 7 is electrical insulating. The secondary circuit to be switched by the relay leads from the connection knife 5 via the power supply 1 and the contact element 2a according to the respective position of the armature 7 to the contact elements 3a bzvi. 4a and thus to the an ;; cliluss knives 3 bzvi. 4th

Rig.2 only shows the contact arrangement according to the invention shown alone, the only schematically 'shown attachment of the movable Contact spring 2 can be designed on the armature 7 according to FIG. In this Representation, which has the same reference numerals as in FIG. 1, can be seen in detail recognize the arrangement of the power supply 1 with its shoe-like end 1a. The operational direction of movement of the respective contact spring 2 with its contact element 2a is also marked here by an arrow, in the case of the connecting knives 3, 4 and 5 it can be assumed that it is embedded in a base of the relay housing 6 are and with their ends facing the interior of the relay housing as a carrier for the contact elements 3a and 4a and for the loop-shaped power supply 1 are used. This figure also clearly shows that the heat generated at the switch contact 2a with Using the power supply 1-can largely be derived. The heat dissipation is naturally the better, the larger the cross section of the power supply 1 is. So that the play of forces in the contact arrangement is influenced as little as possible, a material of low rigidity is chosen for the power supply. ..

Claims (7)

P a t e n t a n s p r ü c h e-1. Heavy-duty contact arrangement, In particular changeover contact arrangement for relays, characterized in that the bevregliche contact spring (2) -with a loop-shaped power supply (1) less Stiffness and high electrical time capacity is associated. 2. Contact arrangement according to claim 1, characterized in that a material is used for the power supply (1) high thermal conductivity is selected. 3. Contact arrangement according to claim 1, characterized characterized in that the connection of the movable contact spring (2) with the power supply (1) is made on the contact element (2a) of the movable contact spring (2). 4. Kollt act arrangement according to claim 1, characterized in that the loop-shaped Power supply (1) has a U-shape open towards the contact side. 5. Contact arrangement according to claim 1 to 4, characterized in that the connection between the beviegliehgn Contact spring (2) and the power supply (1) is made by welding. 6th Contact arrangement according to Claims 1 to 4, characterized in that the connection between the movable contact spring (2) and the power supply (1) by riveting is made. 7. Contact arrangement according to claim 1 or the following, characterized in that the power supply (1) at its end facing away from the connection point (1a) is shoe-like and comprises the part of the connecting knife (5) located within the relay housing (6) like a claw.