DK167945B1 - ELECTROMAGNETIC RELAE - Google Patents

Description

DK 167945 B1

The invention relates to an electromagnetic relay having a pivotal armature with a control arm parallel to the longitudinal axis of a magnetic coil and with a spring element arranged on the free end of the control arm for actuating a switch contact spring for a contact spring assembly.

Electromagnetic relays of the specified kind, which have a particularly long and parallel to the solenoid coil operating arm, are used to switch with particularly large contact distances in a contact spring assembly. This presents a problem with generating a sufficiently high contact pressure and avoiding an unstable collision between the contacts.

An electromagnetic relay of the kind specified is known from DE Publication No. 28 31 121. At the end of the operating arm of the pivotal anchor there is provided cylindrical compression springs or a resilient wireline which, when pivoting the anchor on its side, releases the switch contact spring. for the contact spring assembly. It is disadvantageous here that the cylindrical compression springs or the resilient wire hanger require relatively much space and can only be adjusted with difficulty.

In another electromagnetic relay according to DE Publication No. 25 26 785, the switch contact spring is triggered by a leaf spring pair. However, to this end, the switching contact spring is required to operate relatively much space on the back of the contact spring assembly.

It is therefore the object of the present invention to design an electromagnetic relay of the kind referred to in the introduction and in particular the operation of the switch contact spring in such a way that when switching the switch contact spring with a spring element is not necessary. additional space and that the adjustment of the spring element can be carried out in a simple manner.

This task is solved by an electromagnetic relay of the type indicated initially, which electromagnetic relay according to the invention is peculiar in that the actuating arm is formed as a leaf spring and that a pin with carrier is fixed at the free end of the leaf spring. to operate the switch contact spring interferes with this.

The essence of the present invention is to design as a kind of advantageously long spring path parallel to the longitudinal axis of the solenoid coil as a leaf spring and to further provide the pin with carriers in the area of switching the contact spring assembly.

20 Thereby, without the need for additional space, a safe switching with high contact pressure is achieved by a simple adjustment of the spring elements. An unstable collision between the contacts is avoided by the resilient guide of the pin due to the particularly long spring tension here and furthermore by means of the carriers which, after a prior bending of the leaf spring, incorporate the switch contact spring with delay. Due to the guiding of the switch contact spring within the area of the carriers on the pin, a back swing and an unstable stop 30 of the contacts are avoided.

In the practice of the invention, it is advantageous for the operating arm to be resiliently formed of a plastic material. This, in a simple and constructive embodiment, enables an especially light operating arm for the anchor, which, moreover, already suppresses a back swing and an unstable impact of the contacts due to the small mass relative to a metal leaf spring.

In a further embodiment of the invention, it is advantageous for the pin to be passed through the contact spring closest to the operating arm and in engagement with the switch contact spring. Hereby advantageously, by placing the switching region closer to a spring holder, greater switching movements can be achieved, whereby especially at high voltage devices advantageously greater contact distances can be provided.

In carrying out the invention, it is advantageous that the pin is fixedly fixed to the switch contact spring and is passed through the contact spring adjacent to the operating arm for engagement with the resiliently shaped operating arm. The operating arm is now completely free without the contact spring control elements provided thereon, so that a simple adjustment of the operating arm is obtained and, moreover, also a favorable acceleration and function value in switching, because masses which could increase the acceleration, such as the pin, are missing.

The electromagnetic relay of the invention will be explained in more detail below with reference to the drawings, in which:

FIG. 1 is a schematic representation of an embodiment of an electromagnetic relay, in which a spring extension in a service chain is constituted by a U-shaped bending spring there; 2 schematically shows another embodiment of an electromagnetic relay, in which a spring stretch in a control chain is constituted by a coil spring, FIG. 3 schematically shows an electromagnetic relay according to the invention, in which an operating arm is constituted by a leaf spring; FIG. 4 shows schematically an embodiment similar to FIG. 3, where a pin mounted on a switch contact spring is located closer to a spring holder, and Fig. 10 shows schematically a possible attachment of an extended operating arm to an anchor.

In FIG. 1 is an schematic representation of an electromagnetic relay, the magnetic system of which is a magnetic coil 3 with a magnetic core 15 1, a yoke 4 and a yoke 4 on a yoke 5 pivotally mounted anchor 8. The free end of the anchor 8 is here designed as an extended control arm 6, which has at its free outer end a pin 7, which at a point 13 is movably attached to the control arm 6.

20

A contact spring assembly assembled into a spring holder 2 and provided with plug or solder connections 17 as well as two contact springs 9 and a switch contact spring 10 is connected to the magnetic system.

25

In the embodiment of FIG. 1, a curved leaf spring 11 is used as a spring tension in the control chain from the anchor to the switch contact spring 10, the pin 7 being preferably passed through both spring ends. The leaf spring 11 30, with one end, abuts on the operating arm 6, while the other end of the leaf spring 11, upon activating the magnetic system, affects the switch contact spring 10 and leads it to the working position. This end of the leaf spring 11 may, in the resting position of the magnetic system, depending on the design of the leaf spring 11, be in a position away from or in contact with the switch contact spring 10. Furthermore, a carrier 21 may be arranged axially displaceable between the pin 7 the upper end of the leaf spring 11 and the switch contact spring 10, or it may be fixed to the pin 7 between the two ends of the leaf spring 11 as a bending stop for the spring 11. An additional carrier 14 mounted on the end of the pin 7 can serve to return the switch contact spring 10 from the working position to the rest position.

10 The embodiment of FIG. 2 is substantially similar to the embodiment of FIG. 1. Instead of the leaf spring 11, a pin 7 enclosing helical spring 12 is used here, which also with its one end abuts on the operating arm 6, while the other end of the screw spring 12 directly or above an axially slidably arranged on the pin 7 21 when activating the magnetic system, the switch contact spring 10 and in the rest position are at a certain distance from or abutting against the switch contact spring 10.

20

Both of FIG. 1 and 2 have in common that the free end of the anchor 8 is designed as an extended rigid operating arm 6 and cooperates with the spring extension of the pin 7.

25

In a not shown variation of the above described embodiments, the pin 7 may also be placed on the switch contact spring 10 and passed through the operating arm 6. The operating arm 6 may form part of the anchor 8 or as a separate part be movably attached to the free end of the anchor 8 by means of screws, rivets or adhesive. A further possibility of movable attachment of the control arm to the anchor 8 is shown in FIG. 5. Here, the portion of the anchor 8 of the magnetic system has an opening 19, 35 in which the end of the operating arm 6 facing the anchor 6 is passed through and secured to the anchor 8.

6 DK 167945 B1

In the embodiment shown in FIG. 3 of the invention, in the region of the operating arm, a spring stretch is formed in the form of a leaf spring 16 which is fastened by means of screws, rivets 18 or similar fasteners to the free end of the anchor 8 and at its outer end has a the attachment point 13 is movably fastened to pin 15. On the pin 15 there are placed two fixed carriers 14, 21 for engagement with the switch contact spring 10.

10

With a spring tension in the operating chain in the form of a leaf spring 16 instead of a rigid control arm 6, the pin 15 fixed on the leaf spring 16 can be arranged to actuate the switch contact spring 10 on the spring holder side 15 of the contacts 20, as can be seen in FIG. 4, the pin 15 being passed unobstructed through the contact spring 9.

The spring tension within the range of the operating arm can, in a modified embodiment, instead of a leaf spring 16, be made of a resilient operating arm 6 of spring elastic resin material of similar shape, which operating arm is attached to the free end of the anchor 8 and to its free outer end. has a fixed or shaped pin 15 similar to that of FIG. 3. This 25 embodiment with spring elastic operating arm 6 may also be configured with the one shown in FIG. 4, the pin 15 affecting the switch contact spring 10 on the spring retaining side of the contacts 20.

30 In the FIG. 3 and 4 of an electromagnetic relay according to the invention, the pin 15 is fixedly fixed. on the other hand, the pin 15 can, conversely, be fixedly mounted on the switch contact spring 10 and can be spring elastically actuated directly or over a carrier of the leaf spring 16 or a spring elastic operating arm 6.

7 DK 167945 B1

In the case of an electromagnetic relay according to the invention, it is essential that the operating chain from the anchor 8 to the contact or switch contact spring 10 includes a spring extension which causes an elastic contact movement of the switch contact spring 10 and resiliently supports the contact closure as well as the contact plant of contacts.

10

Claims (4)

An electromagnetic relay with a pivotal anchor (8) having an operating arm (6) parallel to the longitudinal axis of a magnetic coil (3) and having a spring element disposed on the free end of the operating arm (6) for actuating a switch contact spring (10) for a contact spring assembly (9, 10, 20), characterized in that the operating arm (6) is formed as a leaf spring (16) and that a free spring 10 (16) is fixedly fixed to a pin (15) with means (14, 21) which engage the actuating contact spring (10) with it. Electromagnetic relay according to claim 1, characterized in that the operating arm (6) is resiliently formed of a plastic material. Electromagnetic relay according to claim 1, characterized in that the pin (15) is passed through the contact spring (9) which is adjacent to the operating arm (6) closest to the contact spring (9) and engages the switch contact spring (10). Electromagnetic relay according to claim 1, characterized in that the pin (15) is fixedly mounted on the switch contact spring (10) and is passed through the contact spring (9) adjacent to the control arm (6) for engagement with the resilient designed control arms (6).