DE1145274B - Electromagnetic relay with current-carrying armature - Google Patents

Description

Electromagnetic relay with live armature Electromagnetic Relays are known in which two magnetic cores surrounded by coils are supported by an armature are bridged, the current-carrying switch part with its contacts to the pole pieces as opposed to the mating contacts. Form in the known relays of this type Pole shoe and magnet none, immediately the magnetic core has a pole shoe at all, one unity. is usually between the armature and the pole piece or the magnetic core a separating plate is arranged to prevent the armature from sticking to the magnetic core. to prevent.

The invention is based on an electronic diagnostic relay of the type mentioned at the beginning. According to the invention, each pole piece is insulated from its magnetic core by a foil and the armature is mounted on an edge of a pole piece so that it can rock near its center of gravity. During its switching movement, the armature covers a distance that corresponds to the distance between the contacts, if their suspension is not taken into account.

In the event that the two # solenoids are on a U-shaped magnetic core are arranged, the relay has an armature that isolates the two on the End faces of the magnetic core arranged Polschulie bridged. Are the two Magnet coils, however, arranged on two parallel magnetic cores, then the relay points two anchors, each of which bridges the neighboring pole pieces.

The drawing serves as an explanation. 1 shows the upper part of a relay according to the invention; the lower half is preferably arranged in a mirror image of the upper half, FIG. 2 shows the overall view of the relay according to FIG. 1, which has two coil cores and two armatures bridging them, FIG. 3 shows a cross section through the relay according to line A-A of FIG. 1 , Fig. 4 is a plan view of the front side of the relay according to line BB of Fig. 1, Fig. 5 shows a modification of the relay of FIG. 1, in which the anchor is to be inserted among a U-shaped shaped spring clip, Fig. 6 is a plan view on the end side of the relay according to the line CC of Fig. 5, Fig. 7 shows a detail of Fig. 6 along the line ZZ showing the armature bearing with its environment, Fig. 8 shows the circuit diagram for a relay according to Fig. 2. the coil twin 1 'l' contains the two coil cores 2, 2 'ending at the same level; over the ends of which the armature 3 is arranged so that it can be rocked.

The armature 3 and the two pole pieces 2 and 2 ' are electrically isolated from the coil cores 2 and 2'. For this purpose, an insulating plate 4 provided with openings is arranged over the ends of the coil cores 2, 2 ', flush with their end faces. The openings in the insulating plate are covered with an insulating film 5 , which is held on the insulating plate 4 by the pole piece 2 and is fastened in the insulating plate 4 by screws or rivets 40 (FIGS. 2, 4 and 6). It is also held by the pole piece 2 ' fastened in the insulating plate 4, with which the angled end of the armature spring 6 is fastened to the insulating plate 4. The other end of the cranked spring 6 carries the armature 3, which preferably rests with its center of gravity on an edge of the pole piece 2 ' and swings around this edge when the coil or coils are excited.

Thanks to the electrical insulation of the armature 3 and the pole shoes 2, Z ' , the armature can serve as a current-carrying, contact-making element. During its switching movement, the armature covers a distance that corresponds to the distance between the contact and the mating contact, provided the contact is not on a spring. Expediently, however, one or two special, resilient contacts 7, 7 'are assigned to each contact of the armature 3 , which when actuated either close before the actual armature contact 3 and open after it. As a result, the contact points 3 of the armature remain clean because an arc can only form on the spring-loaded contact pieces 7, 7 ' . The other end of the armature has the resilient contact 8 , which is opposite the contact rivet 9 on the insulating plate 4.

The springs on which the contacts 7 and 7 sit 'obtained, according to Fig. 4 and 6 advantageously have different lengths L and L 21 undbzw. or the contacts 7 and 7 ' are given different weights so that the natural frequencies of the contacts are different. If the relay according to FIG. 2 has two armatures, it is expediently constructed in a mirror-inverted manner around its center line penetrating the coils.

The spring acting on the armature can, according to FIG. 5, also be provided with a U-shaped spring end 10 which is used to accommodate the armature 3 . In this embodiment, the armature is pushed into the U-profile of the spring end until the retaining spring 11 engages in the notch 12 of the armature 3.

Fig. 8 schematically shows the circuit diagram. The solid line 3 shows the position of the armature when the relay is not energized, the dashed line 3 shows the position of the armature when the relay is energized.

When not excited, the armature relay contact 8 is closed with the contact 9, which is connected on the back of the insulating plate 4 with the conductor 21 (Fig. 3). The line 20 establishes the electrical connection with the armature 3 serving as a switching tongue via the pole shoe 2 #, under which it is clamped, and the line 22 the connection with the pole shoe 2, which is designed as a contact printed wires on the insulating board. 4 are arranged as shown, Fig. 3 shows.

A relay provided with two armatures as shown in FIG. 2 can be designed in such a way that both anchors can be actuated by excitations of different strengths are. Such a relay can practically perform the function of two relays.

Claims (2)

PATENT CLAIMS: 1. Electromagnetic relay with two parallel coils, the magnetic cores of which are bridged by an armature, which, as a contact-guiding switch part, faces the pole pieces as the mating contacts, characterized in that each pole piece (2, 1) is covered by a foil (5 ) isolated from its magnetic core (2, 2 ') and the armature (3) is mounted in the vicinity of its center of gravity so as to be rockable on an edge of a pole piece. 2. Relay according to claim 1, characterized in that each armature end is designed as a contact surface, the mating contact of which is either a pole piece (2) or a contact rivet (9) seated on the insulating plate (4). 3. Relay according to claims 1 and 2, characterized in that each armature contact additionally has at least one spring-loaded contact (7 ' or 8) . 4. Relay according to Claims 1 to 3, characterized in that the armature (3) is fastened with a cranked armature spring (6) on the insulating plate (4). 5. Relay according to Claims 1 to 3, characterized in that the armature (3) is to be pushed into a U-shaped retaining spring (11) until it engages in the notch (12). 6. Relay according to claims 1 to 5, characterized in that it is constructed in mirror image about its central axis penetrating the two coils. 7. Relay according to claims 1 to 6, the magnetic circuit of which has more than two air gaps one behind the other, characterized in that the two armatures are to be actuated by different excitation. 8. Relay na-eh claims 1 to 7, characterized in that the insulating plate (4) has printed lines as feeds to the pole pieces (2, 1) and the contact rivet (9) . Documents considered: German Auslegeschrift No. 1 021 923; French patents nos. 1160 192, 879205.