DEP0046947DA - Dynamic sound reproduction system for high sound frequencies - Google Patents

Description

The invention relates to a dynamic sound reproduction system for high sound frequencies, in particular a loudspeaker system. Up to now there has been a comparatively low demand for such devices because the bandwidth of the radio stations was limited to 9000 Hz. The so-called tweeter systems were therefore mainly only used in cinema loudspeaker systems. Mostly they work according to the pressure transformation principle, are able to reproduce frequencies above 10,000 Hz with only low intensity and show a high distortion factor as particular disadvantages; In addition, the pressure chamber systems are considerably more expensive than the other conventional systems.

In the future, with the introduction of ultra-shortwave in broadcasting and the increasing spread of magnetic sound devices, there will be a significant need for cheap Geren tweeter systems occur, with which frequencies up to 15000 Hz can be reproduced with high intensity with low distortion factor. The present invention has succeeded in creating such a system; It consists in the arrangement of a sound emitter in the form of a conical cup, which is connected and centered at its narrower end with the voice coil, but can otherwise oscillate completely freely. The conical beaker as a sound emitter is, so to speak, the remainder of a conical membrane, as it is used in dynamic loudspeaker systems, whereby the clamping of the membrane at the outer edge has been omitted. The testing of the new system has shown that with a significantly lower distortion factor than is inherent in the pressure chamber system, sound frequencies of up to 15,000 Hz can be reproduced very well. The intensity is comparatively lower in the system according to the invention than in the pressure chamber system. In the case of cinema systems, for example, it will therefore come into question to provide two or more identical systems. Apart from the advantage of better sound reproduction, there is no disadvantage in this, because the new system is so cheap that in any case the system still requires significantly lower system costs than a loudspeaker with a pressure chamber system for the same performance.

The mounting and centering of the cup-shaped sound emitter is of considerable importance for the

Effectiveness of the system. According to an additional inventive material, two disk-shaped centering springs can be used for this purpose at a distance from one another at the narrower end of the cup, which at the same time form the only holder. The sound emitter can consist of a very thin, light, hard and brittle material; thin glass is preferably used for this. To amplify the sound, the sound emitter can be built into a reflector, the shape of which is BEZW according to the desired directional effect. Scatter directs.

Further features and advantages of the invention emerge from the following description of an exemplary embodiment.

FIG. 1 shows a schematic representation of an axial section through a loudspeaker system according to the invention. The figures of the dynamic loudspeaker system shown are denoted by 1, the magnetic core by 1a and the voice coil by 2. The voice coil is rigidly connected to the conical cup 3, which acts as a sound emitter. In the narrower end of the cup 3, the centering springs 4 and 5 are used. A stud bolt 6 with spacer sleeves 7 and 8 for fastening the cup to the magnet core 1a is pulled through the center openings 4a and 5a in these two centering springs. The cup 3 surrounds the reflector housing 9, the shape of which is directed towards the desired directional effect; in the example case, the sound waves emanating from the outer surface of the cup 3 are reflected parallel to the cup axis.

The cup 3 must consist of a very light, but hard and brittle material; glass has been found to be particularly suitable.

Claims (4)

1.) Dynamic sound reproduction system for high sound frequencies, characterized by a sound radiator in the form of a conical cup, which is connected and centered at its narrower end with the voice coil, but otherwise can vibrate completely freely. 2.) Dynamic sound reproduction system according to claim 1, characterized in that the sound emitter is centered by means of two disc-shaped centering springs which are inserted into its narrow end at a distance from one another and which at the same time form its only holder. 3.) Dynamic sound reproduction system according to claims 1 and 2, characterized in that the sound emitter consists of a very thin, light, hard and brittle substance, preferably made of glass. 4.) Dynamic sound reproduction system according to one or more of the preceding claims, characterized in that the sound emitter is built into a sound reflector.