DE762297C - Airborne sound transmitter - Google Patents

Description

Airborne sound transmitter With membrane transmitters and especially with those with electromagnetic drive has been tried many times to reduce the power of the transmitter to drive as high as possible in order to obtain a large range of the signals. Such It is well known that transmitters are used as fog signals for shipping or as alarm signals Used for .Locations and factories and the like. A simple enlargement However, for various reasons, the dimensions are only for a given pitch possible to a certain extent. The aim has always been to achieve as much as possible constant external dimensions to achieve an increase in performance.

It is known to bind sound transmitters, with: those on the membrane a piston is in place in order to be able to displace air with the entire surface of the piston, while a laterally clamped Memibran because of the only in the center existing largest bend is not able to do this. With these sound transmitters the air space arranged before calving is adjusted to the frequency of the vibrating System coordinated; however, this known 'measure does not yet become the greatest Sound transmitter power reached. The piston placed on the membrane or Mitschwinger divides the upstream of the 'l @ ertibran to the frequency of the Tones to be produced tuned sonic hammer in two parts, leaving a space between the diaphragm and the piston and an air space in front of the piston disfigured.

The invention is now based on the knowledge: - t,: that with a Such a piston diaphragm transmitter is the one between the diaphragm and the piston, for sound emission non-contributing space has a detrimental effect, since the front of the piston surface resulting vibrations due to the opposite phase pressure changes in absorbed in the space between the piston and the diaphragm. but at least be weakened. -According to the invention, this reduction in efficiency is avoided in that the natural frequency of the air space between the piston and the membrane outside of the resonance range of the vibrating system. That, for example happen that this air space by yielding, following the piston movement Leather rings or the like. Is sealed against the outside air or that the leather rings Od. Like. Have openings, whereby the air space between the membrane and the Piston in its natural oscillation number to a desired value compared to the Natural frequency of the vibration system is brought.

The figure explains the one applied to an isolating membrane transmitter Inventive concept; ° n. In one through a bell jar T with the outside air in Connected housing sits on a drive system, the membrane JZ, which carries the disc-shaped piston IL. The piston makes the largest amplitude of the Membrane and displaces about three times the volume of air. The fluctuations are released into the air by means of the resonating air space L and the funnel T radiated. This air space is in a known manner on the natural frequency of the oscillating structure (Diaphragm and piston) matched; considered by itself, the piston has a Eigenfrequ:, nz, which is considerably higher than that of the membrane and piston Schv "ingsvstems. According to the invention, zero in a sound transmitter that has such a basic structure that deleteriously affect the Sound emission by -the counteraction of the between the piston and the 'diaphragm lying air space Li canceled by the fact that the natural frequency of this air space is placed outside the resonance range of the oscillation @ -stniS. This closes also the case that this space is made harmless by the fact that the ring-shaped Air passage between the two rooms Li and L. = by a leather ring Od. Like. Is covered, so that a pressure equalization is prevented. D; zrcll Waal the size of one or more openings in the leather bellows can remain igelis the natural frequency of the Ltti dream L i brought to a certain value -, verd2n.

The particular advantage of the arrangement according to the concept of the invention lies in this. that on the one hand a relatively large sound power is achieved that but also, on the other hand, a completely stable closure of the electromagnetic Drive is achieved. This is what makes the piston transmitter in practice in the first place usable.

The above is essentially of the electromagnetic drive Been speech; of course, the advantages of the invention also apply as well for the electrodynamic drive, but also further for the drive known per se the 'leinbrav with compressed air or compressed gases.

Claims (1)

PATENT CLAIMS-. i. Airborne sound transmitter with one at the center of the Diaphragm attached plate-shaped piston through which the diaphragm and the housing walls formed, in front of the membrane, divided into two parts of which the air space in front of the piston is adjusted to the frequency of the oscillating System is matched, characterized in that the natural frequency of the between the membrane and the piston lying air space outside the resonance range of the vibrating system. Air switch according to claim i. thereby gelz ° nnzjiclinet, that the air space between the membrane and the plate-shaped piston is provided by flexible, the piston movement following leather rings or the like. Completed from the outside air is. 3. Airborne sound transmitter marked according to Ans pri * iclieii i and 2, dadur .- ', i that the leather rings od. Like. Have openings, whereby the air roughness between the Diaphragm and the plate-shaped piston in its Eigen.sch-vvingungszahl on one brought the desired value in relation to the natural frequency of the oscillation system will. To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications have been considered: German Patent Specifications No. 366 897, 381 250, 492 932, 501430, 544375, 5-15 758, 555 215 French patents No. 726 9o6, 74016o; British Patent No. 38,1227.