DE3421874A1 - KLAPPANKER STORAGE - Google Patents

Description

BROWN, BOVERI & CIE Public Company

Mannheim June 12, 1984

Mp. No. 592/84 ZPT / P4 - Du / Sd

Folding anchor storage

The invention relates to a hinged armature mounting, preferably for an electromagnetic release according to the preamble of claim 1.

An electromagnetic release is a device in which, by changing an action quantity with the help of a Drive system the effect variable is converted into mechanical movement.

As a low-voltage switching device, the electromagnetic release is responsible for triggering a lock switch required work. Electromagnetic releases are preferably used as short-circuit protection. As a drive system they often have a hinged armature magnet. The response value can be determined by an acting on the armature Adjust the spring. The electromagnetic releases are for the function of the current-limiting circuit breakers and quick switches of great importance.

From FR-PS 15 13 052 a hinged armature magnet is known. There the hinged armature is stored in such a way that this via two rectangular recesses cut into the hinged anchor onto two correspondingly shaped, in front of the yoke edge arranged pin is attached, and by a behind the yoke edge on The tension spring attacking the hinged armature is secured. The tension spring also determines the rest position of the hinged armature. It turns out that the hinged armature in the direction of the pin is only supported by the tension spring is secured. This proves to be disadvantageous because under certain circumstances, e.g. when the trigger is subjected to shock, the hinged armature can jump out of its storage. A corresponding reinforcement of the tension spring is not possible, as the response value of the hinged armature magnet and thus of the release is determined by the tension spring force is set.

The invention is based on the object of increasing the height of a hinged armature magnet of the type mentioned at the beginning to improve the functional reliability of the hinged armature storage.

This object is achieved by the features characterized in claim 1.

The advantages achieved by the invention are in particular that regardless of the installation position of the The hinged armature magnets and the hinged armature remains securely in its storage in the event of a shock load. Further is by the hinged anchor storage according to the invention an exact rest position of the hinged armature achieved with a defined air gap, as it is to achieve a constant, precise response value is required for the release.

Further advantageous refinements of the invention are characterized in the subclaims. 5

The invention is explained below with reference to an embodiment shown in the drawing. It shows:

Fig. 1 is a side view of a hinged armature magnet

in rest position,

FIG. 2 shows a side view of a hinged armature magnet according to FIG. 1, in the working position,

3 shows a section in the plane III-III of the hinged armature magnet ,

Fig. 4 is a rear view of the hinged armature magnet. 20th

In the figure 1 is a hinged armature magnet 1 for a not described in detail electromagnetic release shown. The hinged armature magnet 1 has a right angle bent, made of a soft magnetic material (iron) yoke 2. On the inside of the A cylindrical iron core 3 is attached to a yoke leg, onto which a coil 4 is pushed. The free end of the other yoke leg is the same by a centrally arranged web-like extension 8 shoulder-shaped. The shoulders are on hers Rear side beveled so that the outer edges form a cutting edge (yoke cutting edge 5). The hinged anchor 6 has at one end two legs 16 arranged in the shape of a fork. The mounting of the hinged armature 6 takes place so that the Leg 16 rest on the yoke 5, and to

lateral locking the web-like extension 8 fit between them, above the hinged armature 6 there is a delimitation pin 9 which is integrally formed on the web-like extension 8 by means of plastic shaping and which connects the hinged armature 6 to the yoke edge 5 holds. Furthermore, the ends of the legs 16 of the hinged armature 6 are provided with locking lugs 10, which the Reach behind the yoke 5. The locking lugs 10 are means Shear action formed on the hinged armature 6 during the punching process. In one on the hinged anchor 6 asymmetrically Attached hole 11 is a tension spring designed as a restraint spring 12 is suspended, which with her the other end is attached to a transverse pin 13 of the web-like extension 8 of the yoke 2. The one on the hinged anchor 6 attacking restraint spring 12 holds it in the rest position.

In the event of a short circuit, the armature magnet 1 responds within a very short time. Through the in working position going hinged armature 6 (FIG. 2) becomes a release lever 14 a key switch, not shown, is brought into position 15, and the key lock is unlocked, the contacts of the switching device are opened and the short-circuit current is switched off.

Mp. -No. 592/84 4 # Hinged armature magnet Reference number yoke 1 Iron core 2 Kitchen sink 3 Yoke edge 4th Folding anchor 5 Recess 6th web-like extension of the yoke 7th Limiting pin 8th Locking lugs 9 drilling 10 Shackle spring 11th Cross pin 12th Release lever 13th Switch position 14th leg 15th 16

Claims (4)

Mp. No. 592/84 Jf 3 4 2 1 8 7 A Expectations Hinged armature mounting of a hinged armature magnet, preferably for an electromagnetic release, consisting of a right-angled yoke, with a coil with an iron core attached to one yoke leg, with a hinged armature that is movably arranged around a yoke edge at the end of the other yoke leg, and one that engages the hinged armature Restraint spring, characterized in that the hinged armature (6) is mounted centrally on the yoke (2) between the yoke edge (5) and a limiting pin (9) arranged above the same, and that the hinged armature (6) has latching lugs (10) which the yoke edge (5) to lock the hinged armature (6) with the yoke (2). 2. hinged armature mounting according to claim 1, characterized in that the yoke edge (5) having The end of the yoke (2) has a web-like extension (8) so that the yoke edge (5) is shoulder-shaped is designed that the hinged armature (6) formed at one end with its two leg ends (16) rests on the yoke edge (5), and the web-like extension (8) for lateral fixation is arranged between the leg ends (16). 3. hinged armature mounting according to claim 1 or 2, characterized in that the locking lugs (10) by means Shear action can be formed on the hinged armature (6) during a punching process. 4. hinged armature mounting according to one of claims to 3, characterized in that the limiting pin (9) protrudes through plastic shaping from the surface of the web-like extension (8) of the yoke (2).