HU222336B1 - Armature for magnetic trigger mechanism - Google Patents

Abstract

It is used to actuate the trigger stop (14) of the magnetic triggers for the anchor breakers. The anchor (10) consists of a plate cut-out formed into a sleeve and has a trigger end (11) for the release stop (14). The edges of the plate cut parallel to the axis of the anchor (10) are closely spaced at least at intervals. At least one tongue 12 formed transversely to the anchor (10) serves as a stop for the release stop (14). ŕ

Description

Scope of the description is 6 pages (including 1 page figure)

EN 222 336 B1

Field of the Invention The present invention relates to an anchor protection switch for a magnetic release trigger for actuating a release stopper, which is a sleeve formed into a sleeve. A release end is used to start the trip stop.

At present, the anchor used in magnetic relays for protective switches is predominantly produced by cutting. This is not only a time-consuming and costly production method, which also entails a negligible loss of material, but also an anchor for the magnetic release that has a relatively high weight, which adversely affects the "triggering" or "switching" behavior of such an anchor equipped with an anchor.

The anchor described in the introduction is known from DE 25 31 215. In this case, the edges of the sheet strip rolled into the cylindrical shape do not lie on each other at an anchor known from DE 25 31 215. In addition, the stop for the release of the release stopper is formed on the anchor by a machining in which a suitable portion of the anchor stop extends into it. The disadvantage of this known anchor is that the end surfaces of the strip strip in the direction of the magnetic anchor form an anchor and are spaced apart so that the eddy currents are reduced. Such an anchor due to the air gap, as experiments, proves to be unsatisfactory in magnetic triggers.

It is an object of the present invention to provide an easy-to-produce and efficient anchor for magnetic clones of protective switches.

The object of the present invention is to provide that the edges of the plate cut parallel to the anchor axis are at least tightly spaced apart, and that the stop for the release stopper is formed by at least one tongue formed by the anchor, crosswise at the axis of the anchor.

Preferred preferred embodiments of the anchor for the magnetic release according to the invention are described in the accompanying drawings.

Thus, it is preferred that the sheet cut is formed into a circular cross-section. It is also advantageous if the tongue is at an angle to the wall of the anchor and bent inward. The tongue of the tongue in the anchor wall is preferably provided with cutouts from two sides.

In another preferred embodiment, the tongue is disposed within the end face of the anchor sleeve adjacent to the tongue. It may be advantageous if the outer surface of the tongue is flush with the adjacent end face of the anchor.

A further preferred embodiment is that the edges of the cut-off plate cut into the anchor are flat overlapping around the anchor point of the anchor. However, it may be advantageous for the narrow surfaces of the plate cut in the vicinity of the edges to be slanted to the plane of the plate in the plane of the even cutout. It may also be advantageous if the edges of the anchored sheet cutouts lie on one another with their inner edges in the vicinity of the anchor collision location.

In a further preferred embodiment, the narrow surfaces of the disc cut are perpendicular to the plane of the sheet cut in the region of the cut-out plate.

There is also an advantage when the anchor is made of a soft magnetic structure having a magnetic saturation of 1.64-2.0 T, preferably 1.6 T, at a field strength of 4000 A / m. In a preferred embodiment, the anchor is made of Rfe 80 construction material according to DIN 17 405.

The magnetic release trigger anchor according to the invention can be produced not only by forming, for example, from a suitable plate cut, so-called "roll", but also has the advantage of having a smaller weight than the cutting anchors used hitherto. In addition, it has surprisingly been found that the anchor magnets of the present invention are highly advantageous in the absence of an air gap that adversely affects the magnetic properties of the anchor, since the edges of the sheet strip rolled into the anchor will be firmly intertwined at least at intervals.

The anchor tongue according to the invention, which serves as a trigger for the release stopper, allows a simple construction of the release stopper, and may be optional if desired, because of the lack of sophisticated technology of the prior art (DE 25 31 215 A).

The advantages, technical features and details of the invention will be described in more detail with reference to the accompanying drawings, in which:

Figure 1 shows the magnetic release view;

Figure 2 shows the magnetic release without the guide sleeve, the anchor and the release stopper, partially sectioned;

Figure 3 shows a sectional view of a section of the guide sleeve, anchor and release trigger according to the invention, and a return spring, in a partially sectioned, enlarged scale;

Figures 4, 5 and 6 show partial sections of an anchor according to the invention; finally, Figure 7 shows another embodiment of the anchor according to the invention.

Fig. 1 shows a magnetic release device 1 of the known construction, used in circuit breaker automatic switches. They consist of a magnet 2, which is a magnetically conductive material, by which the holder 4 of the conductive contact 3 of the wire protection switch is connected to the electrically conductive material. The magnetic release 1 further comprises an excitation coil 5 which is electrically conductive connected to the line to be protected via the terminals (not shown). Inside the winding coil 5 there is usually a guide sleeve 6 made of plastic, which is attached to a sleeve-shaped stop 7 connected to the magnetic release means 2. This sleeve-shaped stop 7, for example, is provided with a flange 8 of the thinned extension 8 connected to the holder 4 of the web 2 and the electrically conductive material, thereby providing a connection between the electrically conductive carrier 4 carrying the stationary contact 3 and the web 2.

EN 222 336 B1

In the guide sleeve 6, as shown in Figure 3, an anchor 10 of a magnetically conductive material is slidably mounted, which at its distal end 7 is provided with an inwardly extending stopper which is configured as a tongue 12 in the exemplary embodiment, and on which the release stopper 14 is provided. The end of the 13 anchors located inside the 10 anchors rises. A release spring 14 is provided on the smaller diameter front 15 for the release stopper 14, which with its front end rests at the end 18 of the stopper 7 inside the magnetic release 1, and holds the release stop 14 in its standby position as shown in Figure 3.

In the case of tripping, when the magnetic field formed by the winding coil 5 is sufficiently large, the anchor 10 is drawn to the right in FIG. 1, and with the 12 tongue it moves the release stopper 14 so that it operates a release mechanism (not shown) at its front end 19 which is for example, in a manner known per se, the mobile contact moves away from the stationary contact 3, i.e. the circuit breaker interrupts the circuit.

According to the present invention, the anchor 10 of the present invention used in the magnetic release 1 or a similar type of magnetic release 1, as shown in Figures 4, 5 and 6, is a substantially rectangular contour cut which is formed as a ring or sleeve. The cut-out plate is formed into a ring or sleeve so that the edges 20 parallel to the axis of the anchor 10 are tightly intertwined and there is nothing or only a small air gap at the point of impact 20 and 21. In order to ensure that the edges 20 of the anchor-shaped cut 10 are parallel to each other with the axis of the anchor 10. In making the anchor 10 from the plate cut, the plate is over-curved, so that the axial edges 20 of the sheet cut even at the already finished anchor 10 are at least closely spaced from each other and no air gap adversely affecting the magnetic properties of the anchor 10.

In order to disengage the trigger 14 located inside the anchor 10 during the release by moving the anchor 10, it uses a radially inwardly bent tongue (s) 12, which is formed by a single piece of the cut sheet 10, which is the actual anchor, in the exemplary embodiment. .

There are recesses 26 on both sides of the root of the tongue bent at the right angle 12 so that the tongue 25 of the tongue can be folded down so that the tongue 12 extending transversely to the axis of the anchor 10 does not extend beyond the anchor end 27 of the anchor 10.

In an embodiment of the anchor 10 shown in Figure 5, the edges 20 are arranged flat on top of each other. This can be achieved, for example, simply by forming said edges 20 at an angle to the plane of the cut but not formed, i.e., flat sheet, during the production (cutting) of the sheet. In this embodiment, there is practically no air gap in the vicinity of the collision location.

In an embodiment of the anchor 10 in FIG. 7, the edges 20 are at a small acute angle relative to one another and lie only in the vicinity of their inner edges 28 in the vicinity of the collision location. However, the air gap here is so small that the desired magnetic properties of the anchor 10 cannot substantially be adversely affected.

In principle, the material of the anchor 10 can be any magnetically conductive material.

Soft magnetic materials are particularly suitable as they are known per se for direct current relays. Magnetic saturation of the preferred soft magnetic construction materials is 1.4-2.0 T at 4000 A / m field strength. A particularly preferred construction material for the anchor 10 according to the invention is the structural material described in DIN 17 405 (September 1979) with Rfe80 (material number 1.1014) having a magnetic saturation at a field strength of 1.6 T, 4000 A / m.

In summary, the invention is illustrated in the following example.

Magnetic release 10 anchor 10 for magnetic switches, especially wire shield switches, has a circular cross-sectioned plate cut, the edges 20 of which are parallel to the axis of the anchor 10 at least closely spaced. The stop 7 for loosening the release stopper 14 is a tongue 12 formed in one direction along the axis of the anchor 10 by the cutout. In order to minimize the air gap in the vicinity of the collision 21 of the sleeve, the edges 20 lie flat against each other in the vicinity of the collision location 21 of the anchor 10.

Claims (12)

PATENT CLAIMS An actuator for actuating a trigger stop (14) of magnetic release switches (1) for anchor switches, comprising a disc cut-out formed into a sleeve and having a trigger end (11) for driving the trigger stop (14), characterized in that the edges (20) are closely spaced at least at intervals, and at least one tongue (12) formed transversely to the anchor (10) is provided as a stop for the release stop (14). An anchor according to claim 1, characterized in that the plate cut-out is formed as a circular sleeve. Anchor according to claim 1 or 2, characterized in that the tongue (12) is at right angles to the wall of the anchor (10) and is bent inward. 4. Anchor according to any one of claims 1 to 3, characterized in that the root (25) of the tongue (12) in the wall of the anchor (10) is provided with recesses (26) on both sides. 5. Anchor as claimed in any one of claims 1 to 4, characterized in that the tongue (12) is disposed within the end surface (27) of the sleeve forming the anchor (10) adjacent to the tongue (12). HU 222 336 Bl Anchor according to claim 5, characterized in that the outer surface of the tongue (12) is flush with the end surface (27) of the anchor (10) adjacent to it. 7. Anchor as claimed in any one of claims 1 to 4, characterized in that the edges (20) of the plate cut-out formed into the anchor (10) are flush with one another around the anchor (10) of the anchor (10). Anchor according to Claim 7, characterized in that the narrow surfaces of the plate cut-out are inclined at an angle to the plane of the plate when the plate is cut evenly around the edges (20). 9. Anchor as claimed in any one of claims 1 to 4, characterized in that the edges (20) of the plate cut-out formed into the anchor (10) overlap with their inner edges (28) around the point of impact (21) of the anchor (10). Anchor according to claim 9, characterized in that the narrow surfaces of the plate cut-off are perpendicular to the plane of the cut-off in the area of the still flat cut off junctions around the edges (20). 11. Anchor as claimed in any one of claims 1 to 4, characterized in that the anchor (10) is made of a soft magnetic material having a magnetic saturation of 1.64-2.0 T, preferably 1.6 T, at a field strength of 4000 A / m. 12. Anchor as claimed in any one of claims 1 to 4, characterized in that the anchor (10) is made of structural material Rfe 80 according to DIN 17 405.