DE1120948B - Electroacoustic sound transmitter - Google Patents

Description

Electroacoustic Sound Transmitter The invention relates to a electroacoustic sound transmitter, the sound generator of which in one of a base plate and a housing consisting of a cap and which with a resonator cooperates for telecommunication systems, in particular alarm clocks with bell shells as vibrating surfaces.

The invention aims at such a design and arrangement of the Resonator that the sound transmitter is kept smaller despite the arrangement of the resonator can be used as a sound transmitter of the same volume without a resonator.

There are known designs in which external bell shells cover a correspondingly shaped cavity resonator and which a narrow one Coupling space between the inner wall of the bell shell and the corresponding one Have coupling openings provided wall of the resonator. With these well-known Versions, the bell shells and thus the entire sound transmitter are very large, and they are not suitable for installation in small enclosures such as B. in telephone alarm clock boxes is desirable. It is also known to buzz or buzz in a telephone station to be installed, in which the wall of the station housing as a vibrating surface and so that the station housing is used as a sound emitter. Such a buzzer Although it takes up little space, it never has the effect of Bell shells scored. Even a dimensioning of the station housing according to acoustic Point of view can not lead to the goal, because the shape and size of such Housing is primarily determined by the equipment to be installed and only in this narrow framework could be adapted to acoustic requirements.

Furthermore, an acoustic signal device is known, which consists of a Membrane sound generator consists of two concentric with an additional resonator There are tubes of various widths. This version is only suitable in larger ones Housings, such as station housings, and it is not suitable to interact with an alarm clock of the usual type as a sound generator. Also stands the space between the vibrating surface and the entrance opening of the above the surface attached resonator is not in contact with the outside air and cannot be change, so that a vote of the signaling device to a corresponding to the The fundamental tone to be selected is not possible due to the existing interference characteristic.

According to the invention, these disadvantages are avoided in that the cap or the base plate of the housing itself one or more against the vibrating Surfaces of the sound generator open; resonator spaces delimited by partition walls forms and that the openings of the resonator chambers the predetermined shapes of the vibrating Surfaces of the sound generator are adapted so that the vibrating surfaces depending on Choice of the fundamental tone to be amplified according to the openings of the respective resonator space can be approached. By assigning resonator spaces to the vibrating ones Surfaces, a certain basic tone of the emitted sound can be amplified in such a way that that the vibrating surface is kept much smaller with the same sound power can be. Because the vibrating surfaces make up a substantial part of the space required make up a sound transmitter, its dimensions are greatly reduced. The order inside the housing allows the use of the dead space that is available to everyone Sound transmitter housing is inevitably given by the different dimensions the vibrating surfaces of the stimulating electromechanical system and any additional apparatus. That means that the size of the case is not about the size the resonator chambers must be enlarged, but only by a small amount. The formation of resonator spaces through partitions in the cap or on the base plate allows the resonator spaces to be independent of the acoustic conditions to adjust the dimensions of the housing depending on the housed parts. Through this, that said partitions with the cap or the base plate in one piece exist, the structure of the sound transmitter will be despite the arrangement of a resonator chamber simple. The adaptation of the corresponding wall of the resonator chamber to the shape of the vibrating Area allows a narrow, the efficiency increasing coupling space between the resonator space and the vibrating surface to be provided and also by its dimensioning a certain fundamental tone of the emitted To amplify noise, the choice of which depends on the noise characteristics at the installation site directs.

To increase the effect of a resonance-enhanced sound transmitter or in order to be able to keep the sound transmitter even smaller, according to the invention the resonator chambers can be dimensioned differently and different from one another Have distances from the respective vibrating surface, such that each resonator chamber is tuned to a different keynote.

The best effect is achieved when bell shells are used as vibrating surfaces used. According to the invention, this can also be used for simple adaptation of the acoustic Properties of the sound transmitter used to the conditions at the place of installation be, in that the vibrating surface or the vibrating surfaces of the sound transmitter designed as a bell shell or bell shells of known design and eccentric is or are adjustably mounted for the purpose of coordinating the resonator chamber or chambers on a certain keynote of the assigned vibrating surface.

Since the sound generator with its resonator spaces within the an is housed in the existing housing, is through the housing or cap wall the radiated sound energy is reduced. In order to get the most of the radiated To make sound power usable, the housing can also according to the invention own sound outlet opening opposite the vibrating surface of the opposite vibrating surfaces and a sound outlet opening opposite the coupling space or have opposite the coupling spaces. So that of the vibrating Areas on the side facing away from the coupling space radiated sound power component just as directly to the outside as the component of the sound power, which due to the resonance space between this and the vibrating surface comes.

A further reduction in the damping effect of the housing the emitted sound power can be achieved in that the resonator chamber or the resonator chambers is or will be provided with sound outlet openings. In this way, in addition to the inside of the housing opposite to the vibrating Openings lying on the surface, the resonator chambers are connected to the outside air, so that the standing vibrations generated in the resonator chambers immediately follow can be made effective externally, which depending on the given circumstances, the audibility of the signal compared to the predominant disturbance characteristic.

The invention is described on the basis of two exemplary embodiments, which are shown in the drawings. It means Fig. 1 is a plan view an embodiment of the sound transmitter according to the invention with the cover removed, FIG. 2 shows a section through the sound transmitter according to FIG. 1 along the line A-B attached cover, Fig. 3 is a plan view of the sound transmitter in another embodiment in a schematic representation, FIG. 4 shows a longitudinal section through the sound transmitter Fig. 3 according to the line C-D, Fig. 5 shows a cross section through the cover of the sound transmitter according to Fig. 3 along the line E-F.

In Figs. 1 and 2, an electromagnetic sound transmitter is shown, whose sound generator consists of an alarm clock system 1 of a known type and two oscillating, formed as bell shells 2 surfaces. The sound transmitter 1 is on one Base plate 3 mounted.

In addition, the base plate 3 is used to store and secure a capacitor 4 and connection elements 5. In the dead space between the alarm clock system 1 and its bell shells 2, the capacitor 4 and the connection elements 5, the base plate 3 has partition walls 6 and 7, which have two resonator spaces 8 and 9 and which are made in one piece with the base plate 3. The partition walls 7 of the two resonator chambers 8 and 9 are perforated and adapted to the shape of the bell shells 2. As a result, a coupling space 10 can be formed between the walls 7 and the bell shells 2, which, kept as narrow as desired, can be tuned to a specific fundamental tone of the emitted sound. The resonator chambers 8 and 9 and the distances between their walls 7 and the bell shells 2 are dimensioned differently, so that a match to two different basic tones is given, whereby the subjective sound power is significantly increased. A cap 11 is placed on the base plate 3 which, together with the base plate 3, forms a housing 3/11 for the sound transmitter. The cap 11 is provided with sound outlet openings 12 (FIG. 2) for the direct sound and with sound outlet openings 13 for the amplified fundamental tone. To adapt to the given conditions at the installation site, the bell shells 2 can be mounted eccentrically adjustable with the aid of screw connections 14 on a support 15 for the alarm clock system 1. By turning the bell shells 2, the coupling spaces 10 can be changed.

3 to 5, a further embodiment of the sound transmitter according to the invention is shown in simplified form, in which the resonance chambers 8 and 9 are formed by partition walls 16 and 17, which are made of one piece with the cap 11 , and by the wall sections of the cap 1.1 as well as an attachable plate 18 are supplemented. The plate 18 can be clamped or clamped to the intermediate walls 16 and 17; it can also, as shown in FIG. 4, be supported on the base plate 3 or be firmly connected to it. The perforated partitions 17 are also here adapted to the shape of the bell shell 2 of the alarm clock system 1 and approximated to them according to the choice of the fundamental tone to be amplified. The resonance chambers 8 and 9 are connected to the outside space via passage openings 19 in the wall of the cap 11. In this example, the cap 11 also has sound passage openings 12 for the direct sound opposite the bell shells 2.

Claims (5)

CLAIMS: 1. An electro-acoustic sound emitter whose sound generator is arranged in a group consisting of a base plate and a cap housing and which cooperates with a resonator for telecommunication systems, especially telephone alarm with bells shells as vibrating surfaces, characterized in that the cap (11) or the The base plate (3) of the housing itself forms one or more resonator spaces (8 and 9) that are open against the vibrating surfaces (2) of the sound generator (1) and are delimited by partition walls (6 and 7 or 16 and 17) and that the openings of the resonator spaces (8 and 9) are adapted to the predetermined shapes of the vibrating surfaces (2) of the sound generator (1) so that the vibrating surfaces (2) are brought closer to the openings of the respective resonator chamber (8 or 9) depending on the choice of the fundamental tone to be amplified can. 2. Electroacoustic sound transmitter according to claim 1, characterized in that the resonator chambers (8 and 9) are dimensioned differently from one another and have different distances from the respective vibrating surface (2) , such that each resonator chamber (8 and 9) has a different fundamental tone is matched. 3. Electroacoustic sound transmitter according to claim 2, characterized in that the vibrating surface or the vibrating surfaces (2) of the sound transmitter (1) is designed as a bell shell or bell shells of known type and is mounted eccentrically adjustable or are for the purpose of tuning the or the resonator chambers (8 and / or 9) to a specific keynote of the associated oscillating surface (2). 4. Electroacoustic sound transmitter according to one of the preceding claims, characterized in that the housing (3/11) has a sound outlet opening (12) opposite the vibrating surface or the vibrating surfaces (2) and a sound outlet opening (13) opposite the coupling space or the coupling spaces (10) . 5. Electroacoustic sound transmitter according to one of the preceding claims 1 to 3, characterized in that the resonator chamber or chambers (8 and / and 9) is or are provided with sound outlet openings (19). Publications considered: German Auslegeschriftt No. 1037 327.