DE541530C - Electromagnetic signal horn for automobiles - Google Patents

Description

Electromagnetic Horn for Automobiles The invention relates to an electromagnetic signal horn for automobiles and the like with adjustable pitch and volume, the membrane of which is rigidly connected to the anchor. The invention aims with a substantial simplification of the design such a storage of the armature that he always remains within the zone of greatest density of lines of force, but without contradicting to hit the magnet. This is achieved according to the invention in that between Armature and magnet, a spring arm protrudes into the lifting path of the armature, when it is influenced caused by the oscillating armature the interruption of the excitation current, and its Spring force is such that it is also used to limit and reverse the armature movement serves.

In the accompanying drawings there is a signal horn according to the invention illustrated. Fig. I shows, partially in section, a side view of a signal horn according to the present invention.

Figure 2 provides a sectional front view of the mechanism removed membrane.

Fig. 3 shows in section the electrical breaker arrangement and Fig.q. shows in part the front view of the membrane and the armature.

= o denotes a housing, which is made of any material and of any Can be shape, and in front of which a funnel i = extends, at its base there is a membrane i2, so that the acoustic waves generated by the latter be sent in the desired direction.

In the present example, the membrane is made to vibrate electromagnetically. For this purpose, a U-shaped piece 13 is accommodated within the housing io, between the arms of which a rod = q. which protrudes through a threaded extension 15 through an opening in the base of the magnet envelope 13 and the rear wall of the housing = o and is firmly connected to it by means of a nut 16 so that both the envelope 13 and the rod = q. are secured against movement within the envelope. The rod = q. can be designed as a steel core or block and the casing 13 made of pressed metal. Between the arms of this envelope and the rod = q. enough space is provided to accommodate the turns of a solenoid i7, with the leads 18 and = g.

The membrane is z. B. from a sheet of iron or another Alloy and is preferably shaped to have a bolt through an opening Can accommodate 2o, at the inner end of a transverse bar 21 is attached.- The Bolt carries a button at 2z that is beyond the outer surface of the crossbar 21 protrudes, while the latter is provided with two parallel grooves 23 on its inner surface is on either side of the center.

The transverse bar firmly connected to the membrane serves as an anchor and, after the membrane has been installed in the housing, is located above the magnetic coil 17 with the screw head 22 in the straight extension and at a certain distance from the core 14, so that when current flows through the coil 17 the armature 21 is pulled down and, in turn, the membrane 12 deflects. When the current is interrupted, these parts will return to their normal position, and a repetition of the process with a sufficiently high frequency causes the diaphragm 12 to produce a tone.

With regard to the interruption of the circuit in the turns It should be noted of the magnetic coil 17 that a line 24 is connected to a metal piece 25 is, one end of which is mounted on a projection 26 and firmly connected therewith while the opposite end can slide on a bolt 27 extending from the Housing io is worn and the head of which is denoted by 28. The piece of metal 25 is pressed against the head 28 by means of a spring 29. The bolt 27 can in its longitudinal direction can be adjusted, e.g. B. with the help of a slot on his End and a screw nut 30. The metal piece 25 carries a contact 31. This opposite is a contact 33 which is attached to a resilient arm 32 is. Both contacts 33 and 31 touch in their normal position. This touch can be more or less strong by adjusting the metal piece 25 with the help of the Screw bolt 27 can be regulated. As can easily be seen, an adjustment causes it of the bolt 27 a bend from that end of the metal piece 25, which this Bolt is assigned, by virtue of the inherent elasticity of this piece or the fact that the connection between the other end and the bearing 26 a small amount of play allowed. It is further noted that the resilient arm 32 is carried directly by the housing io and, as can be seen from Fig. 2 and 4, beyond of the metal piece 25 extends, namely up to the lifting path of the armature 21, so that when the latter is moved to the left (Fig. i) the outer end of the resilient Arm 32 is taken along and moves the same with respect to the metal piece 25 so that that the contact between the elements 34 33 is interrupted. A power line 34 is connected to the arm 32 and the contact piece 33, the outer end of which Lead leads to a terminal 35 from the housing io. The feed line 18 is connected to a similar connector.

With signal horns of this type it is sometimes desirable to run in parallel to use a capacitor at the point of interruption. For this purpose you can Lines 36 are guided with their inner ends to the metal piece 25 or to the arm 32 be, while the outer ends with the opposite assignments of a capacitor 37 are connected.

As soon as the armature 21 is attracted by the solenoid 17, moves he himself and brushes the outer end of the feather with his movement. poor 32, whereby the contact 33 is torn from its mating contact 31 and the current is interrupted will. The strength and resilience of arm 32 cause the latter to secure anchor 2i back to its normal position and beyond, completely independently of the endeavor of the membrane x2 to maintain a normal position of the parts. The diaphragm i2 is built to offer greater resistance when it is moved away from the solenoid 17 than vice versa, so that when the armature in its decline the diaphragm i2 moves, it contributes to the normal position of the restore moving parts. The resilient arm 32 acts in a similar way, when the diaphragm 12 moves towards the coil 17.

It should also be noted that regardless of what has been said above, as a result the comparatively large weight of the armature 21 of this the moving part Gives moment of inertia so that. the formation of vibrations at such a high frequency which cause an undesirable sound. Furthermore, the setting is in the above example by the adjustable bolt 27 such that the frequency and the amount of backward movement of the diaphragm can be easily changed, to adjust the intensity and pitch accordingly.

Claims (1)

PATENT CLAIM Electromagnetic signal horn for automobiles and the like with adjustable pitch and volume, the membrane of which is rigidly connected to the armature, characterized in that between armature (2i) and magnet (i3, 14) a spring arm (32) in the lifting path of the armature protrudes, which causes the interruption of the excitation current when it is influenced by the oscillating armature, and whose spring force is so dimensioned that it also serves to limit and reverse the armature movement.