DE1277077B - DC buzzer - Google Patents

Description

DC buzzer The invention relates to a DC buzzer a resilient armature which can be excited to vibrate by a coil which an interrupter contact can be actuated that periodically interrupts the coil current. With such a buzzer, the signal is directly from that evoked by the anchor Formed buzzing sound, where appropriate a resonance housing, z. B. a watch case, serves to amplify the buzzing tone. The one made of soft magnetic material Armature is generally resiliently attached to a yoke which is exposed to magnetic flux the coil is penetrated. When the coil is excited, the armature is attracted and thereby the breaker contact is open so that the armature drops out again. This game repeats itself continuously until the coil is de-energized.

To achieve a sufficient degree of efficiency, the air gap must be kept small between armature and coil core. This has the consequence that the Anchor strikes the core with every oscillation. The signal oscillation therefore gives way strongly depends on the sinusoidal shape and is neither frequency nor amplitude constant. Of the Therefore, the buzzer tone is generally not perceived as pleasant.

Such a buzzer is therefore everywhere where the sound quality is concerned certain minimum requirements are required, e.g. B. as a wake-up device in one electric clock, poorly usable. It must also be proportionate in manufacturing can be precisely adjusted and is sensitive to minor mechanical deformations, how they z. B. can occur when installing the buzzer in a watch case.

The object of the invention is therefore to provide a buzzer of the type mentioned to create that does not have the listed defects and in particular one Sound quality has a use of the buzzer as a wake-up device for a electric clock permitted.

For this purpose, it is proposed, according to the invention, in the magnetic circuit of the coil to arrange a permanent magnet to polarize the coil in such a way that the armature is at current-carrying coil moved away from the coil core and the breaker contact to be trained so that it interrupts the coil current when the armature is swung out.

The armature no longer strikes the coil core and its return swing path is only limited by the breaker contact, so that the sound quality is essential and the buzzer is easy to adjust. The permanent magnet can open be glued to the armature or the coil core. But it can also be the coil core or the armature itself can be formed by a permanent magnet.

Details of the invention are shown in the drawings Embodiments emerge. It shows F i g. 1 shows a longitudinal section through a buzzer according to the invention, FIG. 2 shows a longitudinal section through a first variant of the buzzer according to F i g.1 and F i g. 3 shows a longitudinal section through a second variant of the buzzer according to Fig. 1.

In Fig. 1, 1 denotes a coil which can be excited by direct current and in which a core 2 is inserted, one end of which is attached to a yoke 3. In the yoke 3 a threaded hole 4 is provided for fastening the buzzer. In its upper part, the yoke 3 has a recess 5 in which a soft magnetic armature 6 is arranged, which is connected to the yoke 3 by means of a leaf spring 7 fastened to it. A contact spring 8 of an interrupter contact 10 is also attached to the armature 6 and protrudes through a recess 9 in the leaf spring 7 and the recess 5 in the yoke 3. A fixed contact part 11 of the contact 10 is fastened to an insulating material plate 12 and is conductively connected to a solder lug 13. One end of the winding of the coil 1 is connected to ground and the other end of the winding is connected to a further soldering lug, not shown, attached to the plate 12. The two soldering lugs are to be connected to a DC voltage source via a switch. A tablet-shaped permanent magnet 14, which has the polarity shown, is glued to the core 2.

With the drawn polarity of the permanent magnet 14 , the coil 1 is polarized in such a way that the core 2 has the drawn polarity when the coil 1 flows through it. The yoke 3 and thus also the armature 6 form a magnetic south pole, so that the armature 6 is repelled by the magnet 14. The spring 8 is pivoted clockwise so that the contact 10 opens and the coil 1 is de-energized. The armature 6 springs back to its original position and the work cycle begins again. The air gap between the armature 6 and the magnet 14 is dimensioned so that the armature 6 does not strike the magnet 14 when it springs back. The path of the armature 6 is limited only by the contact 10 , which, however, forms a resilient stop.

In the exemplary embodiments according to FIG. 2 and 3, the same parts are provided with the same reference numerals as in FIG. 1. In Fig. 2, a tablet-shaped permanent magnet 15 is glued to the armature 6 and has the polarity shown. Accordingly, the coil 1 must be polarized in such a way that the core 2 has the polarity shown when the coil 1 flows through it. In Fig. 3, the armature 6 itself consists of a flat permanent magnet 16. The selected polarity of the magnet 16 and the coil 1 is the same as in the exemplary embodiments according to FIGS. 1 and 2. In all cases, the armature is actuated by repulsive forces .

Instead of sticking a special permanent magnet to the armature or coil core or to make the armature permanent magnet itself, the coil core of a permanent magnet. The anchor is then under a certain preload, and the coil must be polarized so that the permanent magnetic field when the coil is excited is weakened, so that the bias decreases. In all cases it is essential that the armature moves away from the coil core when the coil is excited and also when The spring back does not strike the coil core.

Claims (5)

Claims: 1. DC buzzer with a resiliently arranged armature which can be excited to vibrate by a coil and through which an interrupter contact can be actuated which periodically interrupts the coil current, characterized in that a permanent magnet (14, 15 , 16) is arranged so that the coil (1) is polarized so that the armature (6 or 16) moves away from the coil core (2) when the coil (1) is flowing through it, and that the interrupter contact (10) so is designed that it interrupts the coil current when the armature (6 or 16) is pivoted out. 2. buzzer after Claim 1, characterized in that the consisting of soft magnetic material Coil core (2) a tablet-shaped permanent magnet (14) is glued on (FIG. 1). 3. buzzer according to claim 1 with a resiliently attached to a yoke, soft magnetic armature, characterized in that a tablet-shaped permanent magnet (15) is glued to the armature (6) (F i g. 2). 4. buzzer according to claim 1, characterized characterized in that the armature is formed by a permanent magnet (16), which is resiliently attached to a yoke (3) (Fig. 3). 5. buzzer according to claim 1, characterized in that the coil core (2) is formed by a permanent magnet.