DE1094865B - Overcurrent switch - Google Patents

Description

The invention relates to an overcurrent switch or an overcurrent relay with thermal and magnetic Tripping.

An overcurrent switch is already known which has a movable armature with two air gaps, wherein a resistance piece is arranged in the one air gap. By warming this Resistance piece results in an increase in the magnetic resistance in one leg of the magnet, so that the armature is attracted by the other magnet leg against the action of a spring will. This construction has the disadvantage that, for example, when a high level of heating occurs of the device to be protected, as is the case with a short circuit, does not respond quickly, since the armature only is then tightened when the resistance piece has reached the correspondingly high temperature. aside from that this construction has the disadvantage that when the armature is tightened, the air gap in the Resistance piece is considerably enlarged and thus its effect is reduced after cooling will. This means that the function of this device cannot be determined with certainty in advance, as it is caused by the anchor the effect of the cooled resistance piece is also influenced.

Furthermore, an overcurrent switch is known in which a magnetic shunt in the form of a rod is arranged to the air gap. When this rod is heated, this switch responds, but it will The air gap and thus the magnetic shunt are considerably reduced by the attracted armature practically rendered ineffective.

Here, too, there is the disadvantage that the effect of the magnetic shunt is correspondingly the position of the anchor changes.

These disadvantages become with overcurrent switches or overcurrent relays with thermal and magnetic Triggering with a two-legged, a magnet winding bearing and with a swivel Armature cooperating core, which has a magnetic shunt in which a Control piece is arranged, the permeability of which changes when heated by the electric current, avoided according to the invention in that the armature and shunt are arranged so that their magnetic fluxes are branched off parallel to each other and from the main magnetic flux. With this arrangement, therefore, flows a separate magnetic flux each through the magnetic shunt and the armature. This is a mutual Influencing of these magnetic fluxes is switched off, and it can now work properly without further ado Way not only the closing, but also the opening of the switch can be predetermined. If for example, the control piece cools slowly, so

Applicant:

Texas Instruments Incorporated,
Dallas, Tex. (V. St. A.)

Representative: Dr.-Ing. W. Höger, Dr.-Ing. E. Maier

and Dipl.-Ing. M. Sc. W. Stellrecht, patent attorneys,

Stuttgart S, Uhlandstr. 16

Claimed priority:
V. St. v. America 8 May 1957

Charles Downing Flanagan, Attleboro, Mass.

(V. St. A.),
has been named as the inventor

takes the effect of the secondary conclusion to the same extent and the force exerted on the armature decreases accordingly.

An exemplary embodiment of the invention is shown in the drawing. It shows

Fig. 1 is a plan view of the subject matter of the invention,

FIG. 2 shows a side view according to FIG. 1, with individual parts being broken away and shown in section. and an armature of the switch is shown here in the retracted position,

3 shows a section along line 3-3 of FIG. 2,

Fig. 4 is a view similar to Fig. 2 of another embodiment, the anchor in its tightened Position shows.

1 and 2, a first type of switch according to the invention is designated as a whole by 1. This has an electromagnet with a magnetic core 3, which has a rectangular shape and from two legs 5 and 7 and two yoke pieces 9 and 11 connecting these legs. Between the yoke pieces 9 and 11 an intermediate leg 13 is arranged, which represents a magnetic shunt. The leg 7 has a recess or a gap 15 and the shunt leg 13 a Split 17. Non-magnetic strips 19 are provided along the side surfaces of the leg 7, which bridge the gap 15 of this leg. These strips are used to support a shaft 21, which carries a magnet armature 23 which can rotate within the gap 15. The anchor is secured by a

009 678/423

3 4

Spring 25 held in an inclined position (Fig. 2). embodiment shown, can be operated manually, A coil 27 wound around the leg 5 is used to be closed again. With a slight current excitation of the core 3. The armature can clockwise overloads, the time lag is advantageous from the inclined position according to FIG. 2 into a liability, as is the case, for example, with an engine fuse swing the leg 7 bridging position, 5 is the case. For example, a motor can be used in the when such a magnetic force develops a strong start-up for a short period of time is that the spring force is overcome. Doing so will cause current overload while the element he actuates a reset switch 29, which on a 33 needs a longer period of time to reset his Curieam Leg 7 attached angle piece 31 to reach angeord- point. Because this current overload only net is. ίο is temporary, the opens as desired

Preferably, the shunt leg 13 armature 23 does not yet have the switch 29,
a smaller cross-section than the main legs 5 reached at high overcurrents or short circuit and 7 and the yoke pieces 9 and 11 on. In the gap of the shunt leg 13 due to its small 17 of the shunt leg is a cross section very quickly its saturation before the Curiethermomagnetic material existing element 33. 15 point of element 33 is reached, and the main part is heated by current flow and at Er - The power flow immediately flows through the leg 7 warming above a certain temperature and actuates the armature to interrupt the current essential is nonmagnetic. For example, circle. So the device works essentially a strip 33 made of pure nickel, used as a thermal breaker for small currents (see Fig. 2 and 3), which loads up to a temperature of 20 and as a magnetic breaker at about 350 ° C (Curie Point) is magnetic. Other major overcurrents or short circuits. Materials suitable for the switch are nickel-iron alloys, 29 can also reset itself, and platinum alloys, etc. The element 33 can be used to provide suitable means to delay its control of the magnetic resistance of the auxiliary reset, so that the Element 33 time circuit leg 13. In the illustrated embodiment ² 5 to give cooling, whereupon an automatic form is the element 33 in a circuit 35 takes place in reconnection of the circuit. The current series with the coil 27 and the reset switch 29 circuit remains closed when the current is switched over. Points 37 and 39 represent the terminal load or the malfunction of the device in the meantime, with which it was connected in series. For example, a hydraulic or load circuit L can be connected, and a manual switch S can be provided in the 3 ° pneumatic damping device. that in order to delay a return of the anchor, so

In one embodiment of the device, the element 33 can cool down before the magnetic core 3, which is made of cold-rolled steel, comes into operation again.
50.8 mm long, 38.1 mm high and 12.7 mm deep, FIG. 4 shows a second type of an inventive counter-leg 5 and 7 and the yoke pieces 9 and 11 6.4 mm 35 stood as a whole with 41 is designated. The construction and the shunt leg 3.2 mm wide and the structure essentially corresponds to the gap 0.25 mm to 3 shown in FIG. 1 in the shunt leg. But here is in the by-pass. The element 33 was a central in the intermediate leg 13 no gap and no special flow space accommodated strip of pure nickel of heated element made of magnetic material in 0.15 mm thickness, which is not provided in electrical connection 40 a gap that is a predetermined with the shunt leg was standing. The anchor was Curie point, but the shunt was 19.05 mm long, and the length of the gap between kel is here in one piece with an element 43 of clothe anchor ends and the leg 7 was 0.13 mm. ner cross-section. The coil 27 consisted of ten turns of an iso-external heating device in the form of a resistive copper wire. 45 coil 45 provided. This reflection shown in Fig. 4

If load currents occur that are insufficient, standing coil can be connected in the same way in series with the coil 27 in the circuit 35 to heat the element 33 up to its Curie point Element 33 in the circuit breaker 1 of the leg 7 via the shunt leg 13 is diverted. In this embodiment of the invention, since the magnetic resistance of the shunt 5 °, the element 43 is heated by radiation and convection schenkeis 13 because of the magnetic characteristics of the coil 45 heated by the current, which is relatively low in the all-element 33. Likewise, the time delay with which the force exerted on the armature 23 is increased in relation to which of the switch 29 is actuated is generally increased. Since the iron is low and is not sufficient to swivel this element 43 made of material with a predetermined Curieken that it actuates the switch 29. However, if the current point rises, the adjacent parts of the shear load are sufficiently high to heat the element 33 kels 13, if they are integral with the element 43, beyond its Curie point and make it of the same material. To make this essentially non-magnetic in many cases, it has proven to be advantageous. On the other hand, the magnetic resistance of the shunt can see the predetermined Curie point having material with kels 13 so far that the power flow in the leg 7 ⁶ ° the adjacent end parts of the leg 13, exerts a magnetizing de force on the armature, for example be connected by welding, so that the remaining material of the magnetic circuit is sufficient to pivot it into its switch actuation position, so that the circuit does not have the same Curie point when interrupted,
will. If the circuit is interrupted, the action of the switching element 33 shown in FIG. 4 cools down to below its Curie point, so 65 age 41 corresponds to that in connection with FIG. 2 that it becomes magnetic again and the shunt described , with the difference that the element acting on the shunt leg occurs again. 43 indirectly by radiation from the circuit and this means that the armature is not heated directly by the current due to the spring load,
pivoted back into its inclined position, if it is desired that the device only as and the switch 29 can then if it, as in the 70 thermal overload circuit breaker and not

additionally acts as a magnetic circuit breaker, the cross-sections of the legs 13 can be kept so large be that they are not saturated when overloaded.

The movement of the armature 23 can be used to control other parts in addition to the electrical switch 29 located in the circuit of the coil 27. For example, the switch 29 can be completely removed from this circuit and the circuit can only be used ^{to supply 1} current for heating the element 33 or 43 by means of a switch 5. This results in a time delay in the actuation of the armature 23, and in this case the shaft 21 of this armature can serve to actuate ^{the relevant part with the desired time delay after the actuation of the switch 5 1.} A magnetization of the magnetic frame produced by the legs 5, 7 and the yoke pieces 9, 11 can also be brought about by producing individual or all of the sections from permanently magnetic material. In this case, the circuit L supplying the thermomagnetic element 33 (FIG. 2) or 45 (FIG. 4) with current does not have to have an electromagnetic coil 27.

Claims (6)

PATENT CLAIMS: 1. Overcurrent switch or overcurrent relay with thermal and magnetic release with a two-legged armature with a magnet winding and a pivoting armature cooperating core which has a magnetic shunt in which a control piece is arranged whose permeability changes when heated by the electric current, characterized in that the armature and shunt are arranged so that their magnetic fluxes are branched off parallel to each other and from the main magnetic flux. 2. Switch or relay according to claim 1, characterized in that a frame-like core is present, on the base piece of which the magnet winding and in the opposite yoke piece the armature is arranged and its legs through a magnetic shunt forming web are bridged. 3. Switch or relay according to claim 1 or 2, characterized in that at high excitation current, For example, if a short circuit occurs, the magnetic shunt quickly saturates. 4. Switch or relay according to claim 1 to 3, characterized in that the control piece has a Has gap in which a separate control element is provided which has a Curie point, whose material differs from the rest of the material of the core, preferably only that Control element is heatable. 5. switch or relay according to claim 1 to 4, characterized in that the control piece with the control element and optionally with the whole core is integral. 6. Switch or relay according to claim 5, characterized in that the cross section of the Control element is smaller than that of the control piece. Considered publications:
German Patent Nos. 890 992, 658 555, 846, 438 121. 1 sheet of drawings © 009 678/423 12.60