NO125561B - - Google Patents

Description

Electromagnetic relay.

The invention relates to an electromagnetic relay, comprising a flat magnetic core and a flat armature which along one of its edges rests against the core and is pivotable around said edge when the magnetic core is magnetized.

The purpose of the invention is to provide an electromagnetic relay which is made up of simple parts which can be individually produced at low cost and assembled in a simple way without the use of screws or other threaded details.

According to the invention, this is achieved by a relay of the kind mentioned at the outset, the characteristic features of which appear from the following claims.

The invention will be described in more detail below by means of an embodiment with reference to the drawings in which fig. 1 in perspective shows a relay according to the invention, and fig. 2 in perspective shows the details of the relay according to fig. 1.

In fig. 1 denotes 3 a U-shaped magnetic core which is suitably punched out of an iron plate. On one branch 31 of the core, a magnetizing coil 2 with its shape 1 of e.g. plastic material. 4 denotes an L-shaped armature which is likewise punched out of an iron plate and is rotatable around its one edge 41 relative to the magnetic core 3. As a result of the armature's oscillating movement, a spring group consisting of contact spring pairs 5, 6, 7 and 8 can be affected.

12 denotes a return spring and 14 a loft rib which is sandwiched between the free end of the return spring and the armature 4 and when it moves under the influence of the armature's oscillation against the elastic force of the spring 12, two of the contact spring pairs, e.g. 5 and 8. In this way, you have two break contacts and two make contacts. It is of course possible with small changes to provide e.g. four terminal contacts.

The coil form 1 is provided with two protrusions la, lb, which form stops for the armature and insulating spacers for delimiting springs 6 and 7. The contact springs and the return spring are retained as will be described in more detail in connection with fig. 2, by means of the fasteners 9, 10 and 11 of insulating material in such a way that they cannot be displaced in the plane of the springs and are likewise locked perpendicular to this plane. The spring mounts together with the contact springs clamped between them are held on the magnetic core by means of a U-shaped spring clamp 13 which engages in a groove formed by adjacent outlets in the spring mounts and in the armature. The branches of the spring clip extend past the magnetic core on its side facing away from the spring group and are each provided with a recess 131 in which pin-shaped protrusions 42 on the armature 4 engage. These recesses form bearings for the armature so that it can swing around the edge 41 when the coil is magnetized.

Fig. 2 shows the components included in the device according to fig. 1, in a detached state. As can be seen, the L-shaped anchor 4 cut out of a plate is provided with two pin-shaped protrusions 42 which cooperate with the recesses 131 on the spring clamp 13

and a recess 43 for engagement with a recess 141 on the loft rib 14. The U-shaped magnetic core 3 is provided with two recesses 33 which form part of the continuous groove for the spring clamp 13 branches. The magnetic core is further provided in its one branch 32 with two holes 34 for engagement with pins 91 on one of the spring mounts 9. The spring pair 5 is inserted into the spring mount 9, and the spring mount is provided at its lower part with suitable protrusions partly to hold the springs in the spring pair 6 at a distance from each other and partly to cause engagement with openings in an insulating spacer 10 which holds the pair of springs 6 clamped against the spring attachment 9. The protrusions on the spring attachment 9 also extend between the contact springs in the contact spring pair 7 to separate these from each other, and with their ends they engage in openings 111, 112

in the spring attachment 11 in which the contact spring pair 8 is inserted and which, by engagement with the ends of the spring attachment 9 projections, holds the entire spring group in a fixed position. The spring attachment 11 is provided on its underside with a channel in which the L-shaped return spring 12 is retained, which at its end protruding from the attachment is provided with a hole 121 for engagement with the loft rib 14. By pushing on and elastically clamping the spring clamp 13 on the parts stacked on top of each other by insertion into the continuous channel, whereby a nose-shaped part 132 of the spring clip rests against the surface of the magnetic core and recesses 131 engage with the protrusions 42 on the armature 4, the relay assembly is finished.

in

It is obvious that the aforementioned mounting method and the described construction, respectively, entail significant advantages compared to conventional electromagnetic relays.

Claims (3)

1. Electromagnetic relay, comprising a flat magnetic core (3) and a flat armature (4) which along one of its edges (41) rests against the core and is pivotable around said edge when the magnetic core is magnetized, characterized by a U-shaped spring clamp (13) which by elastic deformation of its branches is clamped around the magnetic core's two opposite edges (33), so that it simultaneously holds a spring group on the core in such a position that when the armature swings, the spring group is fed from a rest position to a working position, whereby the branches of the spring clamp extends past the magnetic core on its side facing away from the spring group and is each provided with a recess (131) to form a bearing for projections (42) on the armature (4). 2. Electromagnetic relay as stated in claim 1, characterized in that the spring clamp (13) is arranged to hold together the spring group which consists partly of insulating spring mounts (9, 10, 11) and partly of contact springs (5, 6, 7, 8) which are inserted into the spring mounts where they are held against displacement in their own plane and are stacked on top of each other so that by clamping the spring clamp (13) they are also fixed against displacement perpendicular to the plane of the springs. 3. Electromagnetic relay as stated in claim 1 or 2, characterized in that the magnetic core (3) is U-shaped, whereby one of its branches (31) is surrounded by windings, and that the armature (4) is L-shaped with two mutually perpendicular branches , whereby the edge (41) around which the anchor (4) twists is defined by the outer edge of one branch of the L-shaped anchor which extends parallel to one branch (32) of the core (3), while the other branch of the anchor extends across core branches.