DE833226C - Electromagnetic clapper armature relay - Google Patents

Description

Electromagnetic clapper armature relay The invention relates to an electromagnetic one Relay made in the usual way from a magnetic coil with an iron core and on the side along the coil arranged armature and a contact device actuated by this consists.

The invention is directed to construction and manufacture to simplify the magnetic part of such relays and thus at the same time a to achieve even flow. The processing of the magnetic parts was' up to now awkward and required, in particular, cutouts and holes at the joint of core and armature, as a result of which the properties of the relay have been impaired. To remedy this deficiency, iron of various strengths is available for the anchor and core chosen to reduce the weakening of the holes and cutouts in the balance magnetic circuit.

According to the invention, two of the same for the core and armature of the relay Selected iron parts that are produced, for example, in the same pressure tool permit. The Poles can still do the usual different without any difficulty Shaping obtained by for the core provided with the pole bent at right angles a correspondingly longer piece of iron is selected. Or it will be with complete equality of the parts then cut off the end superfluous on the anchor, or the bent ones Pole ends are each only half the length, so that they are pliers-like when the anchor is tightened beat up.

Essential for the same design of the magnet parts is also the Design of the joint between core and anchor. Each from a flat iron rod too forming magnetic part receives a bend on the joint parts, the raised side is essentially cylindrical and which is at some distance from the rear free end is located. At the apex of this bend, when the parts are pressed at the same time embossed at least one elevation and one depression. If you lay now two of these parts, one of which is provided with the relay coil, with the outwardly curved sides of their bends against each other, the elevation takes hold one in the recess of the other part, creating a mutual displacement the Parts at the bearing point is prevented. A retaining bolt, on which the coil core is screwed tight with its free end and the armature is freely movable is guided, carries the armature spring, the tension of which is screwed onto the bolt Mother can be changed.

The advantage of such a design of the relay parts is in that. that anchor and core with the same pressing tool in the same .material thickness can be produced and cutouts and bores that allow the smooth course of the magnetic flux affect, to be avoided.

The drawing illustrates the subject matter of the invention on a Embodiment.

Fig. I shows a relay according to the invention in side view; Fig. 2 shows a cross section through the armature bearing along the line II-II in FIG. i.

The relay consists of an iron core i, which carries the magnetic coil 2, and an anchor 3. Core and anchor are at their rear end where they can move must be connected to each other, each provided with a bend 4. The depth this deflection is dimensioned so that it is half the width of the magnetic Bridge and thus can be completely the same for core and anchor. at With this design it is possible to produce the core and anchor in the same way, as it was described in the introduction. The core and anchor are then put together in such a way that that they touch with the apex lines of their bends and with projections 5 and wells 6 interlock alternately and exactly matching. like it the Cross-sectional drawing Fig. 2 can be seen.

The protruding over the bends free ends 7 and 8 of the Core i and the armature 3 sit on a bolt 9 on which the magnetic core i over an intermediate piece io made of insulating material is screwed, while the armature 3 is loosely guided on the bolt and by a helical spring i i in the open position is held. The tension of the spring can be changed by a nut 12.

The core i is provided in the usual way with a right-angled pole attachment 13, which is bent behind the coil, which, as described in the introduction, is additionally produced using a correspondingly longer flat iron rod or must be subsequently cut from the anchor iron in exactly the same way when producing both iron parts. The complete equality of the two parts i and 3 can, as already mentioned, be preserved in that the pole bend 13, just like the bend 4, protrudes only half the width of the magnetic circuit, so that the armature 3 is tong-like with respect to the core i closes. With the pole 13, the magnet iron i carrying the coil is attached to a support i4, which is preferably made of insulating material. This support also carries the contact device. It consists of a metal strip i.5, which also serves to supply power by being provided with a soldering lug 16 and a contact pin 17. A Isolietstück 18 connects the NIetallartu 1 5 ntit a contact spring i9 which carries the counter-contact and a solder lug 2o 21st In the strip 15 of the contact device; a switching pin 22 is also mounted in a captive manner. which is influenced by the armature 3 by 'keeping the contacts 17 and 2o open when the armature is open under the pressure of the spring ii', but when the armature is closed it establishes the power connection between the lines connected to the soldering lugs 16 and 21. The relay can be used for a wide variety of purposes, for example to connect an additional capacitor to start a motor depending on the starting current.

Claims (4)

PATENT CLAIMS: i. Electromagnetic hinged armature relay, in which the core carrying the coil and the armature hinged to the one free end protruding from the coil are made of Flaclteisetistälxtt, thereby gelcentizticlinet that core (i) and armature (3) to create an articulated connection oppositely directed bends (4 ) of the same size and shape, so that these two parts (i and 3) can be produced in the same die, and that each of these parts in the seheitel of its bend (4) has at least one elevation (5) and one depression (6 ), while the pole end of the core (i) z. 13. is formed by a right-angled bend (13) using a correspondingly longer flat iron rod. 2. hinged armature relay according to claim t, characterized in that the core (i) with its free end (7) protruding beyond the bend (4) 'on one serving as a bearing support for the relay bolt (9) is firmly screwed on which at the same time the: @tiker (3) with its free end (8) loosely guided and through a Helical spring (i t) is held in the open position. 3. Manufacturing process for core and armature of the clapper armature relay according to claim i, characterized in that that both parts (core and armature) are exactly the same, especially when bending in the die, So with simultaneous bending of the pole ends, are made and that of your iron to be used as an anchor, the bent end (13) is cut off. 4. hinged armature relay according to claim i, characterized in that the core and Anchors ztt using iron parts are designed in exactly the same way, that the pole ends are at about the same height as the bends (: I) at right angles are bent so that (i the two poles when pulling on the lzc ° lais pincer-like move against each other.