DE7739158U1 - Electromagnetic relay - Google Patents

Description

The invention relates to an electromagnetic relay in a housing with a mounted in the housing, consisting of a coil, a yoke, an armature and an armature flap magnet system, with a at least one contact spring set having contacts and an actuator for transmitting the movement of the Armature of the magnet system on the contact spring set.

An electromagnetic relay of the aforementioned type is known from DT-GM 72 15 057. One such relay is suitable for use in printed circuits, for example. The contact sets can be designed in this way be that the relay in one form of the contact sets for a standing or in another form of the Contact sets is suitable for a horizontal installation. The contact sets are in the relay housing, for example by pressing the contact springs into the assigned housing sections or by gluing the contact springs with the associated housing sections held. The relay's magnet system is used during assembly assigned a predetermined number of contact sets for a very specific installation shape. During assembly, these will be Magnet system and the associated sets of contacts so firmly connected to one another in a common housing that they can normally no longer be separated from one another.

If the contact sets or the magnet system are damaged, the entire relay must always be replaced. The assembly of the relays intended for different purposes must also be carried out on separate assembly lines will. Finally, different types of relays must be kept in stock for the various types of installation. The resulting costs are considerable, which add to the manufacturing costs of a single relay.

The object of the invention is to create an electromagnetic relay which avoids the aforementioned disadvantages and enables universal use.

According to the invention, this object is achieved by at least one contact spring set frame that is separate from the relay housing, by plug pins or plug strips and matching plug openings respectively Grooves in the relay housing and the contact spring set frame for the connection between the relay housing and the contact spring set frame and through a loose guide of the actuator in the contact spring set frame.

The invention provides a relay in an advantageous manner, in which at any time a dissolvable structure for the overall construction is given, with the magnet system

at any time with one or more contact spring sets can be plugged together. One made up of a magnet system and various sets of contact springs The relay can also be removed again at any time. This modular principle means that it is interchangeable the complete contact spring sets possible. In this way, the contact spring sets, which represent the wearing parts, can be used at any time to be renewed. In addition, the relay according to the invention makes scheduling easier because orders are placed Relay at short notice by using the required number of magnet systems and the corresponding number can be converted from contact spring sets. Thanks to the interchangeable contact spring sets, relays with different Contact arrangements can be carried out for both an upright and a horizontal design. It consists there is also the option, when assembling individual pieces, to determine the installation form only during final assembly and for this purpose to connect the magnet systems with the necessary contact spring sets to achieve the desired relay. Through the Use of plug-in pins or plug-in strips as well as matching plug-in openings or plug-in grooves in the contact spring set frame and the relay housing No further assembly aids are required either injection molding known according to the current state of the art

make it possible to drive the relay housing and contact spring set frame to produce with the connector elements with such small tolerances that a secure connector between each relay housing and each contact spring set frame is possible. The loose guidance of the actuator in the contact spring set frame enables such a simple assembly that this is also carried out by automatic machines could be. The elimination of a separate holder for the actuator in the relay housing simplifies this Shape of the relay housing and contributes to low manufacturing and assembly costs.

The drawing shows exemplary embodiments of the invention, namely:

Fig. 1 is a perspective view of an embodiment of an electromagnetic relay having two Contact spring sets, with individual elements, for example the attachment of the contact springs, for Simplification of the illustration are omitted,

Fig. 2 is a perspective view of an electromagnetic relay, similar to that of Fig. 1, but has only one contact spring set,

Fig. 3 is a side view of the electromagnetic relay of Fig. 1 looking in the direction of Arrow I in Fig. 1,

4 shows a side view of a contact spring set frame, as it is used in the electromagnetic relay of FIG. 3, and

FIG. 5 shows an end view of the contact spring set frame from FIG. 4.

According to Fig. 1 to 3, the electromagnetic relay consists of a box-shaped relay housing 1 made of insulating material with unspecified guide grooves, support edges and openings for a magnet system 2. In addition, this has Relay housing unspecified plug-in slots, recesses and plug-in pins for receiving analogue plug-in slots, Recesses and pins of the contact spring sets 3. The relay housing 1 is closed with a cover 4. The housing 1 has a shoulder on three edges to accommodate the cover. The fourth edge then supports the Cover off.

According to FIG. 3, the magnet system 2 consists of a yoke 5, a core 6 and an anchor flap 7 made of soft iron as well

from a bobbin 8 made of a dimensionally stable plastic. The bobbin 8 contributes to the magnetic excitation of the Relay serving excitation winding 9. To for the excitation winding To create 9 simple connection options when the coil body 8 is applied, are from the excitation winding on one end face of the bobbin 8, two connecting pins 10 made of copper wire are led out. These connecting pins 10 sit in the reinforced end flange of the bobbin 8. A bronze spring 12 holds the armature flap on the yoke 5 and in a defined position on a stop 11. The bronze spring 12 also serves as a return spring for the anchor flap 7. It is pushed out on two Yoke pin 13 riveted. The stop 11 is insulated and prevents a magnetic short circuit.

The contact spring set 3 consists of a contact spring set frame 14 made of insulating material which is resistant to leakage currents. He is in its upper region is designed so that it can loosely receive an actuator 15 made of abrasion-resistant plastic. The contact spring set frame 14 is in the lower area designed for receiving and holding a maximum of three contact springs 16. The contact springs 16 are leaf springs made of bronze with contact rivets attached to one end. By an inclined arrangement 17 of the straight Contact springs 16 in the lower area of the contact spring set

frame 14 opposite approaches 18 in the above frame area the necessary preload of the contact springs is achieved. The middle contact spring has an extended end 19 that extends beyond the lugs 18 into the area of the actuator 15 and only there after the magnet system 2 has been excited is connected by contact with the actuator 15. When the actuator is moved by the magic system from the one end position to the other end position is the middle contact spring over the contact rivet out of contact brought into contact with the other contact spring with one. The middle contact spring also serves as a Additional return spring for the actuator 15 and the armature flap 7. The return path of the central contact spring is limited by the approach 18 on the contact spring set frame 14.

The fastening of the contact springs 16 inserted at an angle takes place by bending back two tabs 20 pressed out on the contact springs under two lugs 21 on the contact set frame 14, The contact springs are held in place in that a positive and non-positive connection is established between the frame sections and the contact spring tabs will.

In the embodiment of the shown in Fig. 1 electromagnetic relays, two contact spring sets are used in two separate contact spring set frames. In the embodiment shown in Fig. 2 is only one Contact spring set 3 in its contact spring set frame 14 come to use. There are a set of contact spring frames on one Spacer sleeves 23 used to frame the contact spring set to hold in the operating position between relay housing 1 and cover 4. When using several contact spring set frames, insulating material layers 22 are used to prevent flashovers and To avoid creep stresses between the individual contact spring sets.

Claims (2)

-1- CLAIMS 1. Electromagnetic relay in a housing with a mounted in the housing, consisting of a coil, a yoke, an armature and an armature flap Magnet system, with at least one contact spring set and an actuator for Transmission of the movement from the armature of the magnet system to the contact spring set, characterized by at least one of the relay housing (1) separate contact spring set frame (14), by means of plug-in pins or stretching strips as well as suitable Plug openings or grooves in the relay housing (1) and the contact spring set (14) for the Connection between the relay housing and the contact spring set frame and through a loose guide for the actuator (15) in the contact spring set frame (14). 2. Relay according to claim 1, characterized in that in the contact spring set frame (14) at least two Contact springs (16) are arranged and that the contact springs (16) in the contact spring set frame by Formund Are held frictional connection between the spring elements and the adjacent frame parts.