DE556987C - Multi-tone sound signal device - Google Patents

Description

All-tone sound signaling device The invention relates to a multi-tone sound signaling device Signaling device in which the various membranes are excited by compressed air, which is supplied by an electric motor driven compressor.

The new thing is that the individual membranes are locked by a locking device are prevented from swinging, so that even when compressed air is supplied to the individual Membranes inadvertently no sound can arise. The locking device of the membranes can be done either for each individual membrane or for all of them at the same time by manual actuation or electromagnets, which are expediently driven by the drive motor through a contact device are controlled, are canceled. This creates a through the construction of the device predetermined single tone or a chord.

The drawing illustrates an embodiment of the invention.

Fig. I is a cross-section through a membrane with a locking device. Figures 2 and 3 show the circuit diagram for a three-tone horn. The Fig..l represents is a partial longitudinal section through the horn.

The sound tube i (Fig. I) is fastened in a pump cover 2. before the round piece 3, which is also screwed to the cover 2, is located the membrane This is mounted between a clamping piece 5 and a threaded piece 6. In the latter, an electromagnet 7 is installed, the armature 8 and piece of felt 9 through a spring io on the middle part of the membrane 4. presses and this on the swing hinders.

In the exemplary embodiment, a three-tone horn is shown. Accordingly has these three sound tubes i, i t, 12 (Fig., 1) and just as many attached electromagnets 7, 71, 72. The armature axis 15 (Fig. 1) has a worm 16 below, which is a worm wheel 17 drives. This also turns the worm shaft 18 (Fig.3 and .4) and one Shift drum i9 (Fig. 3). This has one around the circumference of the shift drum at the front Metal ring 20. With this are short contact rings 21, 22, 23 offset by iao " tied together.

If you close the switch 13 (Fig. 2, 3), the 1lotor 14 set in rotation and with it the shift drum 17. By a slip spring 2.1 the metal ring 2o and the individual segments 21, 22, 23 receive electricity, which then via slide springs 25, 26, 27 one behind the other the electromagnet 7, and then the engine mass is supplied. The consequence of this is that the individual anchors 8 (Fig. i) the magnets 7, 71, 7 = all pulled and the diaphragms 4. of the sound tubes one after the other be released. The release is of course as long as the individual slide springs 25, 26, 27 slide over the segments 21, 22, 23 of the shift drum, and it is now kicking consecutively coordinated tones that repeat themselves over and over again in sequence, until switch 13 is released.

If all three horns are to sound together to form one tone, a switch 25 is closed at the same time with switch 13. This excites a 1-layer 29 which, with its contact plate 3o, connects all three slide springs 25, 26, 27 to one another in a current-locking manner. The current then goes from the slide spring 24 directly to the contact plate 30 and via the slide springs 25, 26, 27 to the magnets 7, 71, 7- '.

These give the membranes q. of the individual horns 1, 11, 12 at the same time free, so that the compressed air entering through the channels 31 the membranes 4. Can vibrate.

Claims (2)

PA TENT ANSYRULE: i. Multi-tone sound signal device in which the various membranes are excited by compressed air supplied by an electric motor-driven compressor, characterized in that the membranes (.1) are prevented from vibrating by a locking device so that no sound can be produced if necessary but can be released individually or collectively by hand or electromagnetically, so that a single tone or a chord is generated. 2. Sound signal device according to claim i, characterized in that the locking devices of the membranes (¢) controlled by a contact device driven by the compressor motor will.