DE1115818B - Electromagnetic device for triggering lock switches - Google Patents

Description

Electromagnetic device for triggering lock switches The The invention relates to an electromagnetic device for triggering lock switches and relates in particular to the placement of a switch armature between two Pole pairs of a permanent magnet.

The use of electrical current for tripping and thus for switching off a switch is known, in the simplest case an electromagnet system Anchor attracts and this releases the handle of a lock in the course of tightening.

The size of the tripping current and thus the force to be applied by the Electromagnet system is largely determined by the latching resistance and possibly additional spring force of the lock. With known switching systems fluctuate these values already within the same castle, and you are therefore with these known electromagnet systems forced the lowest tripping current to be higher to ensure safe shutdown even after years.

For this purpose, amplifiers on tube transistor and transductor base has been built, which adjusts the trip current to the desired Bring value. However, such amplifiers always require an auxiliary power source, which makes the triggering of the lock switch dependent on this.

Another known system uses a permanent magnet at an armature is movably arranged between the two poles, which by means of a Adjusting screw is fixed in its rest position. So the anchor tilts in his Rest position always towards a pole (e.g. the south pole). Will the postponed on the anchor If a current flows through the coil of this system, then the resulting magnetic flux 0S "must always be greater than that of the armature already in its rest position attractive and permanent flow limited by the adjusting screw 0 "" m. Will the The adjusting screw of this known system is turned back, which increases the inclination of the anchor against the "south pole" of the permanent magnet system means, must for triggering the current flowing through the coil can be increased quadratically. On the other hand, the Adjustment screw turned against the "north pole" of the permanent magnet system, see above the position of the anchor becomes more and more unstable towards the central position and ultimately leads directly or through vibrations to trigger the system and thus to undesired Operation of the switch.

In the front, electrically sensitive position, this is known The system is therefore unstable and too insensitive in the rear stable position.

These disadvantages are now according to the invention by an electromagnetic Device for triggering lock switches eliminated, which is characterized is that an armature on the one hand with one end in the field of a pole pair of a permanent magnet engages and can be influenced by a coil arranged in this area of the armature is, while the other fork-like end in the area of a second pole pair The same permanent magnet protrudes, with the field of this pole pair in the neutral position of the armature runs through a magnetically shielding E-profile.

For a more detailed explanation is an embodiment of this device shown graphically. In this illustration, FIG. 1 shows the armature with a trip coil and storage in the permanent magnet, Fig. 2 the magnet system with one side broken illustrated anchor and Fig. 3 to 5 in view and plan view, the fork-shaped End of the armature with the pole pieces of the magnet system and the course of the field lines.

According to FIG. 1, the armature 1 is held in the middle in a bearing 2 of the permanent magnet 6 and is movably suspended therein. The left side of the anchor 1 b has the shape of a fork. At the end of the right side 1 a of the armature 1, a pole piece is arranged which reaches up to the end face of the magnetic poles 10, 11 and protrudes into their field. The coil 3 includes the right armature part 1 a and sits firmly in a housing or frame, not shown. The armature can move in the coil 3. If the armature 1 rotates counterclockwise around the bearing gang 2, the release pin 4 strikes the release pin 5 of the lock to be switched off and releases it.

Fig. 2 shows the magnet system. The anchor 1 is shown broken and rotatably mounted in a bearing of the permanent magnet system 6 as described. A metallic connection 9 a leads from the magnetic pole S to the pole piece 11 and also a connection 9 b to the pole piece 12. It also leads from pole N of the permanent magnet 6 the magnetic connection 8 a to the pole piece 10 and also a connection 8 b to pole piece 13.

At a small distance above the ends of the pole shoes 12, 13 is a magnetic one Arranged cage 7, which is pushed over the prongs of the fork of the left armature part 1 b is. At rest, the part 1 a of the armature 1 is caused by the magnetic field at the air gap the pole pieces 10, 11 held at the end face, so that on the other side the fork of the armature part 1 b is in the magnetic cage 7 as it is the view 3 shows. The force line field of the pole shoes 12, 13 is at their effective Air gap shown in FIG. 3. It leads from 8 b, 13, the North Pole, across the air gap into the magnetic cage 7 and enters the pole piece 12, 9 b via the air gap back on. Because of the shielding effect of the cage 7 on the armature, it does not have any Influence, which is thus in the neutral position.

However, if a current flows through the coil 3 in a certain direction, so the right armature part la is at the effective air gap of the pole shoes 10, 11 according to known electromagnetic laws from the magnetic center to Nordpo110 diverted. As a result, the fork of the left armature part 1 b from the magnetic Cage 7 moved out. Moving out, however, has a change in the flux of the lines of force in the magnetic cage 7 result. Fig. 4 shows this change. From the pole piece 13 the lines of force now flow through the air gap directly into the fork of the Armature part 1 b and via an air gap after the pole piece 12. This change in flux The lines of force of the permanent magnetic field through the fork has an instantaneous strong attraction of the fork result in until the fork touches the pole pieces 12, 13 directly bridged what Fig. 5 shows.

With this process, the release pin 4 on the anchor part 1 b is down moves, and the release pin 5 triggers the lock, not shown.

Claims (3)

PATENT CLAIMS: 1. Device for the electrical release of latched Lock switches consisting of a permanent magnet and one by a coil influenceable armature acting on the switch, characterized in that the Armature (1) on the one hand with one end (1a) in the field of a pole pair (10/11) of the Permanent magnet (6) engages and is arranged by one in this area of the armature (1) Coil (3) can be influenced, while the other end (1b) is in the area of a second pole pair (12/13) of the same permanent magnet (6) protrudes, the field this pair of poles (12/13) in the neutral position of the armature (1) by a magnetic shielding profile runs. 2. Device according to claim 1, characterized in that the armature part (1b), which is attracted by the pole pair (12/13) rotated by 90 ° with respect to the poles of the permanent magnet (6) when triggered, in the form of a fork in a magnetic shielding E-profile (7) engages and can hit the pole pair (12/13) when deflected. 3. Device according to claim 1, characterized characterized in that both pole pairs (10/11, 12/13) as secondary poles of the permanent magnet (6) are formed.