DE1614038B1 - Electromagnetic relay - Google Patents

Description

The invention relates to an electromagnetic relay in which the Anchor on, at least one elastic, held on the fixed relay part and is attached to bending, stressed element.

U.S. Patent 310Z 974 discloses an electromagnetic relay known, in which the balanced anchor is suspended from a flexible string, which is subjected to torsion and is arranged within a tube. The one The end of the tube is attached to the anchor together with the string, the other end acts as a vibration limiter: Such relays can also - with strong vibrations and impact stresses work, but they are an inevitable wear and tear of the limiter exposed as a result of the friction at the stops: Far is a Relay known; in which the armature attached to the end of a relay housing Leaf spring is suspended, @ vvie it for example - in the German patent specification 943 713 is described. The sensitivity of the spring to shocks, vibrations and accelerations, however, results in an unstable position of the armature, thereby reducing the technical Data of the relay are significantly impaired.

There is also a relay from the copyright of the USSR no.123194 known, in which to dampen the vibrations of the moving system around the attachment point the flexible spring on the relay housing stops near the connection point the spring with the anchor are provided. The application of stops near the anchor Although it improves the resistance of the system to mechanical influences, but at the same time greatly increases the rigidity of the Ariker suspensions, which means that the Relay becomes insensitive.

Finally, from the USA patent 2 955174 a relay is known, in which the changeover contact springs are attached to the armature and together with this move. A major disadvantage of these relays is the change their properties due to a deformation of the insulating inserts at different Ambient temperatures .. Also need for power supply. flexible ladder be used, whereby the dimensions -increase, -the design the life-. duration is shortened.

There are also known contact systems in which the movable contact springs .be held by bolts, which in turn. are attached in the relay socket, and in which the current is fed to the springs via these bolts (see the USA patent 2,852,639). One of the disadvantages of this type of construction is the complicated setting the contact springs and the fact that. the opposing force of all during the anchor movement Rückstele and Umschaltkontaktfedem are overcome, reducing the sensitivity of the relay is severely affected.

The invention is based on the object; a vibration and shock insensitive To create a small relay that has a stable behavior and a long service life and which does not have the deficiencies of the relays described above.

According to the invention, this is made possible in that ar, attached stops on the elastic: emäüt in the vicinity of its mounting point attack the fixed relay part and that the center of gravity of the armature with all parts attached to it in the vicinity of the point of contact between the stops and the elastic member is located or in a plurality of elastic members> in the approximation by the points of contact of the stops with the - line extending elastic elements is located.

The elastic element is advantageously arranged in tubes, from one attached to the anchor 'and the other to the fixed part of the Relay is connected, the tubes with play in each other and the stops lie between the elastic element and the tube: Preferably .sind on the tube, which is attached to the elastic element together with the anchor, Arranged contact springs, and the elastic element simultaneously forms the power supply line to the feathers.

In the following, the invention will be based on exemplary embodiments will be explained in more detail with reference to the drawings. It shows Fig.1 that Fastening scheme of the anchor on the elastic element, F i g. 2 den. Structure of the relay ;.

F i g: 3 a partial section of one of the fastening options of the Armature in the relay according to F i g. 2, fig. 4 shows a section along IV, V-IV, V a Embodiment in which: the elastic element is designed as a string, F i G. 5 shows a section along IV, V-IV, V of an embodiment in which the elastic Element is designed as a leaf spring, F i g: 6: the attachment of an anchor with contact springs arranged thereon in section, FIG. 7 the attachment of FIG. 6 in side view, F i g. 8 shows a section along VIII-VIII in FIG. 7, fig. 9 shows the structure of a polarized multi-contact relay, in which the armature accordingly is attached to the scheme shown in F i g: 1 and the switching springs by stops arranged on the armature are set in motion, FIG. 10 the relay of FIG. 9 in side view, FIG. 11 a further electromagnetic relay in partial section: As can be seen from FIG. 1; the schematically the moving 'parts of the anchor shows the elastic element 1 on the fixed support 2, for example attached to the relay socket. At the free end of the elastic element 1 is with Anchors 3 provided with stops 4 are suspended: The stops 4 are intended for this; a Oscillation of the movable anchor system in the event of external mechanical influences (vibration, To prevent bumps and the like.

The point of contact .between the stops 4 and the elastic Element 1 is located near its mounting point on the fixed part of the Relay and coincides with the center of gravity of the armature 3.

With such a fastening, the anchor 3 is on the elastic element 1 easily swiveling and at the same time sufficiently resistant to external mechanical Actions stored.

The type of relay shown in F i g: 2, in which the inventive The type of fastening of the anchor is used, should now be considered in more detail.

The relay consists of two coils 5 and 6, in which the cores are located 7 are located. The coils 5 and -6 are attached to a carrier 8, which is through a Support 9 is connected to the base 10. Of the Anchor 11 is together with a tube 12 on an elastic element located inside the tube (not shown) attached and swings out as soon as one of the coils is wound 5 or 6 current is supplied.

One of the possible types of attachment of the anchor 11 is shown in FIG. 3 shown.

The armature 11 is attached there to an elastic element 13 which is designed either as a string 13 ' (see FIG. 4) or as a leaf spring 13 "(see FIG. 5).

The elastic element 13 is housed inside the tubes 12 and 14. The tube 12 is in a known manner on the anchor 11, for example by means of a Glass insulator 15 attached. The other tube 14 is on the base 10 of the relay attached by means of an insulator 16.

The above-mentioned elastic member 13 is fixed inside the tube 14 at the outer end thereof by welding or soldering. At the other end of the elastic element 13, which drifts out of the tube 14, the tube 12 is attached. In terms of construction, this is one of the possible embodiments of an elastic fastening of the anchor 11 according to the invention. The ends of the tubes 12 and 14 lie one inside the other with a certain amount of play that is sufficient for the anchor 11 to pivot. The size of the game is determined by appropriate choice of the inner and outer diameter of the tubes 12 and 14 and by their mutual arrangement. With the help of stops 17 and 18, the elastic element 13 is held and centered as it emerges from the tubes 12 and 14. There is sufficient play between the inner walls of the tubes 12 and 14 and the elastic element 13 for the elastic element 13 to bend transversely.

If the elastic element 13 is designed as a string 13 '(see F. i g. 4), at the ends of the stops 18 grooves 19 are provided that the string 13 'hold the tubes 12 and 14 in an equiaxed position.

The above-mentioned design can be used in various relay types for elastic Fixing the armature and transferring its movement to the contact springs to be used.

Let us now give an example of the use of the anchor fastening mentioned to create a movable contact system, the design of which is shown in FIG. 6, 7 and 8 is shown.

The contact spring 20 is fastened, together with the additional spring 21 and support plate 22 fastened to it, to the outer surface of the tube 12, which in turn is fastened in the armature 11 with the aid of the insulator 15. In the interior of the tube 12, the elastic element 13 is attached, which also serves as a current lead for the contact spring 20, which is conductively connected to the tube 14 attached in the relay socket 10 with the help of the insulator 16: The contact system shown here can be neutral and polarized Relay come into use. If there are two or more contact groups in the relay, they must. be arranged on the anchor so that the elastic elements lie in a line (e.g. the line YY in FIG. 8): In FIG. 9 and 10 show a polarized relay in which the contact springs are switched by an armature attached to the elastic element. The relay is provided with the coils 5 and 6 attached to the support body 8; the support body is connected to the base 10 via the support 9. The anchor 11 is suspended from the base 10 at two points with the aid of the elastic element 13 fastened in the tubes 12 and 14: the tubes 14 are firmly seated in the base 10. If the coils 5 or 6 are flowed through by the current, the armature 11 swings out, swinging about the axis running approximately through the exit point of the elastic element 13 from the tube 14. The armature 11 carries tappets 23 which, when they act on the movable contact springs 24, bring them into or out of engagement with the mating contacts 25 and 26 attached to the connecting pins. The permanent magnet 28 arranged between the coils 5 and 6 holds the armature 11 firmly on the coil cores after the relay has responded.

F i g. 11 shows a neutral electromagnetic relay with a Anchor and a contact system according to FIG. 6th

When the relay winding is de-energized, the armature 11 is pressed against the stationary stop 30 by the return spring 29. Contacts 31 and 32 are closed and contacts 33 and 34 are open. When current flows through the relay winding, the armature 11 is attracted to the core 35 , opening the contacts 31 and 32 and the contacts 33 and 34 closing.

Claims (3)

Claims: 1. Electromagnetic relay in which the armature on at least one elastic, held on the fixed relay part and on Bending stressed element is attached, d a d u r c h marked that on Anchor attached stops (4) to the elastic element (1) in the vicinity thereof Attack mounting point on the fixed relay part and that the focus of the Anchor (3) with all parts attached to it near the point of contact between the stops (4) and the elastic element (1) or, in the case of several elastic ones Elements, located in the vicinity of the points of contact of the stops with the elastic elements running line is located. 2. Electromagnetic relay according to claim 1, characterized in that; that the elastic element (13) is arranged in tubes (12,14), of which one tube (12) is attached to the armature (11) and the other (14) is connected to a fixed relay support (10), and that the Tubes (12 and 14) lie one inside the other with play and that furthermore the stops (17 and 18) are arranged between the elastic element (13) and the tubes (12 and 14) . 3. Electromagnetic relay according to claim 2, characterized characterized, that on the tube (12), which together with the anchor (11) on the elastic Element (13) is attached; Contact springs (20) are arranged and that the elastic Element (13) at the same time forms the power supply line to the springs (20).