FR2977062A1 - Diffuser for disk-type sound-signaling hooter in siren alarm of car, has coupling region, where resonant frequency of diffuser is equal to harmonic of nth order of fundamental frequency of excitation in which number n is integer - Google Patents

Abstract

The diffuser (11) has a coupling region that is allowed to undergo vibration at a fundamental frequency of excitation to induce a resonance effect on the diffuser. One of resonant frequencies of the diffuser is equal to a harmonic of nth order of the fundamental frequency of excitation in which the number n is an integer less than or equal to 5. The thickness of the diffuser lies between 0.6 mm and 2.4 mm, and frequency of resonance is equal to third order harmonics. An independent claim is also included for a sound-signaling hooter.

Description

Diffuser for a disc type audible alarm and buzzer comprising such a diffuser Technical field of the invention

The invention relates to the field of the generation of warning sound waves, in particular audible warning devices, for example intended to equip a motor vehicle.

The object of the invention is more particularly on the one hand a diffuser for a disc type audible alarm and on the other hand a disc sound horn comprising such a diffuser. Finally, it also relates to a motor vehicle and an alert system comprising such a buzzer.

STATE OF THE ART A first type of known buzzer concerns a buzzer of the horn or horn type. However, the reliability of this type of alarm is very poor in practice due in particular to its open shape at the level of the horn, allowing water and dust to be mistakenly entered on the mechanical switch disposed inside the horn. body of the alarm. This often results in a loss of electrical contact resulting in untimely breaks in operation of the alarm, which is obviously not satisfactory.

In an attempt to remedy these problems, some suppliers provide horn horns with an electronic breaker replacing the conventional mechanical breaker. This does not prevent the penetration of water and dust inside the body of the alarm but reduces the consequences: the electronic switch remains waterproof and can retain its functionality despite the presence of water or water. dust. However, this solution has the main disadvantage of being very expensive.

Other horn horns include a gate at the entrance of the horn to try to limit the harmful penetration of dust, but the overall effectiveness of this protection is unsatisfactory in practice.

This is one of the reasons for the existence of a second type of audible warning device with a much higher reliability, of disc type.

The document FR-A1-2940710 describes such an electronic disk alarm, further using a photo-switch.

The disc sound horn diffuser conventionally comprises a coupling zone for vibrating at a fundamental excitation frequency adapted to induce a resonance input of the diffuser, leading to the emission of a warning sound wave. Within the sound horn, a vibrating membrane, itself possibly solicited by a device for generating vibrations, may have a vibratory coupling with the diffuser in its coupling zone, for example located in the center of the diffuser adopting, for example, a shape of revolution.

The excitation of the membrane can be performed electromagnetically, with contact point at a mechanical switch, or electronically, without contact point, using an electronic switch.

However, disk-type sound alarms are not entirely satisfactory despite the affordability, because unlike horn-type horn horns, their acoustic listening properties are not satisfactory. The sound quality is criticized and unflattering because the sound is perceived as unpleasant due to a warning sound wave produced which is nasal. Indeed, the acoustic spectrum of the diffuser during transmission of the warning sound wave has a peak of acute acoustic power resulting from the main resonance frequency of the metal diffuser of such an alarm which is often between 4000 and 5000Hz.

OBJECT OF THE INVENTION The object of the present invention is to remedy these drawbacks, by proposing a warning sound wave generation solution which presents good sound quality, which is inexpensive and reliable.

A first aspect of the invention relates to a disk-type sound horn diffuser, the diffuser comprising a coupling zone for vibration at a fundamental excitation frequency adapted to induce a resonance input of the diffuser. The diffuser is configured so that one of its resonance frequencies is substantially equal to an order harmonic "n" of the fundamental excitation frequency where the number "n" is an integer less than or equal to 5.

In the current case where the fundamental frequency of excitation is between 300 and 450 Hz, it follows that the main natural frequency of the diffuser which amplifies the excitation advantageously remains lower than about 2500 Hz, thus conferring improved acoustic qualities while maintaining a reliability and cost satisfactory to the image of the known type of disc sound horns.

The shape and / or the material and / or the thickness of the diffuser can be configured so that the number "n" is equal to three.

The thickness of the diffuser may be between 0.6mm and 2.4mm.

The constituent material of the diffuser may comprise a plastic. The plastic may be a thermoplastic comprising polypropylene (PP), or acrylonitrile butadiene styrene (ABS) optionally copolymerized with polycarbonate (PC).

In the case where the thermoplastic comprises acrylonitrile butadiene styrene (ABS) co-polymerized with polycarbonate (PC), the thickness of the diffuser may be of the order of 1.2 mm so that its resonance frequency is substantially equal at a harmonic of order 3 of the fundamental excitation frequency is substantially equal to 1014Hz.

A second aspect of the invention relates to a disk-type sound horn equipped with a diffuser as mentioned above, the horn comprising a vibration generating device adapted to control a vibration of a membrane. at a fundamental excitation frequency adapted to induce a resonance input of the diffuser to emit a warning sound wave, the diffuser having, in its coupling zone, a vibratory coupling with the membrane.

The diffuser and the membrane may have forms of revolution whose axes of revolution coincide, the coupling zone of the diffuser being arranged near the center of the diffuser and the vibratory coupling with the membrane consisting of a local arrangement of a connection between the diffuser and the membrane.

The vibration generating device may be of the electromagnetic type with contact point or electronic type without contact point.

Finally, third and fourth aspects of the invention relate to two possible uses of a buzzer as mentioned above, namely the arrangement respectively of a motor vehicle comprising a horn comprising such a buzzer or a warning system comprising an alarm siren comprising such a buzzer.

Brief description of the drawings

Other advantages and features will emerge more clearly from the following description of particular embodiments of the invention given by way of non-limiting example and shown in the accompanying drawings, in which: - Figure 1 is a schematic view an example of a buzzer according to the second aspect of the invention and incorporating an example of a diffuser according to the first aspect of the invention, - Figure 2 shows the evolution curves of two resonance frequencies of the diffuser of FIG. 1 as a function of the thickness of the diffuser, and FIG. 3 illustrates the acoustic spectrum (acoustic power as a function of frequency) of the warning sound wave generated by two audible warning devices of the prior art and by the horn in Figure 1.

Description of preferred modes of the invention

In Fig. 1, an example of a disk type sound horn 10 according to the second aspect of the invention is shown. It incorporates an example of diffuser 11 according to the first aspect of the invention, which will be described in detail later.

Thus, the invention generally relates to the generation of warning sound waves, using the buzzer 10, this wave being generated by the diffuser 11 by amplifying a vibration that it undergoes. in a coupling zone, this vibration being at a fundamental excitation frequency adapted to induce a resonance input of the diffuser. Such a buzzer can have many applications, such as for example the constitution of a horn intended to equip a motor vehicle or an alarm siren used in an alert system, for example anti-intrusion or anti -fire.

There are two types of audible warning devices. The first use a vibration generating device comprising a switch constituting a mechanical contact point, while in the second, only an electronic switch without contact point is implemented.

As is illustrated in FIG. 1, in the electronic type audible warning device 10, when a first switch 12 is closed, the current flows through both ends of the switch 12, and then returns to the terminals of a battery 13 after passing through a coil 14 via the electronic switch 15.

In this case, when the current flows, an iron core 16 around which the coil 14 is wound is magnetized to act as an electromagnet and pulls a frame 17 downwards. When the armature 17 is pulled down, the current is interrupted by the switch 15 so that the iron core 16 loses the electromagnetic force, and therefore the armature 17 returns to its original position by the elastic force of return of a membrane 18 coupled to the armature 17. When the armature 17 returns to its original position, the flow of current is again controlled by the switch 15 through the iron core 16 which acts as an electromagnet, and the frame 17 is pulled back down. By repeating the above operations, the buzzer 10 generates a warning sound wave 19. In this case, the fundamental frequency of excitation of the buzzer 10 is determined by the time required for the comings and goings of the armature 17 attributable to the elastic force of the diaphragm 18 coupled to the armature 17. By way of example, the horn 10 is configured so that its fundamental excitation frequency is between 300 and 450 Hz, for example equal to 338Hz for some applications.

The disc-type non-contact electronic horn 10 described above is configured such that the diaphragm 18 and the diffuser 11 are attached coaxially to the armature 17 and in such a way that the vibration generated by the diaphragm 18 is amplified. by the diffuser 11 using the acoustic phenomenon of resonance. It is the diffuser 11 in a resonance situation that concretely generates the warning sound wave 19.

As a result of this arrangement, the vibration of the membrane 18, when mechanically excited by the vibration generating device described above in a transverse direction (from top to bottom in FIG. 1) to its general plane (which is horizontal in Figure 1) and substantially at its center, is amplified by the diffuser 11 using the resonance. More specifically, the vibratory resonance input of the diffuser 11 results from the vibration of the membrane 18 due to the existence of a vibratory coupling for example substantially in their center between the membrane 18 and the diffuser 11 which can for this purpose present forms of revolution and be mounted coaxially with each other, the common axis of revolution coinciding with each other and with the direction of the excitation waves. The transmission of vibrations from the diaphragm 18 to the diffuser 11 is practiced by virtue of this vibratory coupling, for example of the mechanical type. The coupling zone of the diffuser 11 may be arranged near the center of the diffuser 11 and the vibratory coupling with the membrane 18 may consist of a local arrangement of a connection between the diffuser 11 and the membrane 18 which may otherwise be secured to a support 20 at its periphery.

Thus, the vibration generating device can be, as described above, of the electronic type without contact point, which can then comprise, for example, an electronic card having a microcontroller controlling the switch 15. However, the device for generating vibrations can be indifferently electromagnetic type with a mechanical switch using a point of contact in substitution for the electronic switch 15.

Thus, the diffuser 11 for a disk type audible alarm 10 thus comprises a coupling zone (for example near its axis of revolution) intended to undergo the excitation fundamental frequency vibration, this frequency being adapted to induce an input In accordance with the first aspect of the invention, the diffuser 11 is configured so that one of its resonance frequencies is substantially equal to an order harmonic "n" of the fundamental excitation frequency where the number "n" is an integer less than or equal to 5.

To achieve this essential characteristic, the shape and / or the material and / or the thickness of the diffuser 11 may be chosen in a suitable manner. By way of example with particularly interesting acoustic qualities, the shape and / or the material and / or the thickness of the diffuser 11 are configured so that the number "n" is equal to three. For example, the thickness of the diffuser 11 is adjusted according to the prior choice of the material and the choice of the shape of the diffuser 11. This thickness adjustment can be obtained by means of computer assistance, for example by using software simulation in the field of acoustics.

For example, the thickness of the diffuser may be between 0.6 mm and 2.4 mm, in particular depending on the material and the shape of the diffuser 11. In a particularly advantageous way to achieve the invention, the material constituent of the diffuser 11 may comprise a plastic, for example a thermoplastic comprising polypropylene (PP), or acrylonitrile butadiene styrene (ABS) optionally copolymerized with polycarbonate (PC).

FIG. 2 illustrates a simulation of the evolution curves of two resonant frequencies of the diffuser 11 of FIG. 1 as a function of the thickness of the diffuser in the case where it consists of ABS copolymerized with PC and a frequency fundamental excitation of 338Hz. The first curve labeled Cl represents the evolution, as a function of the thickness of the diffuser, of the frequency of the first mode of resonance of the diffuser, while the second curve marked C2 illustrates the evolution, as a function of the thickness of the diffuser , the frequency of the main mode of resonance of the diffuser. In FIG. 2, the vertical line positioned on a 1.2 mm abscissa intersects the curve C1 at an ordinate point 750 Hz approximately and the curve C2 at an ordinate point approximately 1014 Hz. Thus, this FIG. 2 shows that a thickness of the diffuser of the order of 1.2 mm makes it possible for its main resonant frequency to be substantially equal to a harmonic of order 3 of the fundamental excitation frequency. On the other hand, the resonance frequency of the first resonance mode, which is parasitic, is located between the second and third harmonics of the fundamental excitation frequency.

A compensating counterweight integral with the armature 17 or the membrane 18 may be adjusted in mass in order to keep the fundamental excitation frequency constant, independently of the characteristics of the diffuser, ie its mass, its material, its thickness, its resonance frequency. ..

The invention also relates to a motor vehicle comprising a buzzer 10 as defined above, so that vehicle provides a use of the buzzer 11 as a horn for this vehicle. The invention also relates to an alarm system comprising a horn 10 as defined above, thus this system provides for the use of the horn 11 as an alarm siren for this anti-intrusion or anti-theft system. fire especially.

Finally, FIG. 3 illustrates the acoustic spectrum (acoustic power as a function of frequency) of the warning sound wave generated by two prior art audible alarms and the horn 10 of FIG. referenced S1 relates to a sound wave generated by a buzzer-type horn. The spectrum marked S2 relates to a sound wave generated by a disk-type sound horn conventionally provided with a metal diffuser. The spectrum marked S3 finally relates to the sound wave 19 generated by the sound alarm 10 of the disk type according to the second aspect of the invention. The spectrum S1 does indeed illustrate an acoustic spectrum that does not have very high acoustic power peaks, unlike the case of the spectrum S2, which shows that a considerable power peak occurs between about 4000 and 5000 Hz with the diffusers of the prior art. i.e., the resonant frequency of these diffusers which is substantially equal to a harmonic of the fundamental excitation frequency corresponds to a harmonic of order between 12 and 15. Also, with reference to the spectrum S3 , the resonance frequency of the diffuser 10 which is substantially equal to a harmonic of the fundamental excitation frequency corresponds to a harmonic of order less than or equal to 5. As a result, the spectrum S3 has lower power peaks than in the case of spectrum S2 at harmonics of orders greater than 5.15

Claims (12)

REVENDICATIONS1. Diffuser (11) for a disk-type sound horn (10), the diffuser comprising a coupling region for vibration at a fundamental excitation frequency adapted to induce a resonance input of the diffuser, characterized in that the diffuser is configured so that one of its resonant frequencies is substantially equal to an order harmonic "n" of the fundamental excitation frequency where the number "n" is an integer less than or equal to 5. 2. Diffuser according to claim 1, characterized in that the shape and / or the material and / or the thickness of the diffuser are configured so that the number "n" is equal to three. 3. Diffuser according to claim 2, characterized in that the thickness of the diffuser is between 0.6mm and 2.4mm. 4. Diffuser according to one of claims 1 to 3, characterized in that the constituent material of the diffuser comprises a plastic. 5. Diffuser according to claim 4, characterized in that the plastic is a thermoplastic comprising polypropylene (PP), or acrylonitrile butadiene styrene (ABS) optionally co-polymerized with polycarbonate (PC). 6. Diffuser according to claim 5, characterized in that the thermoplastic comprising acrylonitrile butadiene styrene (ABS) co-polymerized with polycarbonate (PC), the thickness of the diffuser is of the order of 1.2mm so that its resonance frequency, which is substantially equal to a harmonic of order 3 of the fundamental excitation frequency, is substantially equal to 1014 Hz. 7. Horn (10) disc type, equipped with a diffuser (11) according to one of claims 1 to 6, the buzzer comprising a vibration generating device adapted to control a vibration of a membrane (18) at a fundamental excitation frequency adapted to induce a resonance input of the diffuser to emit a warning sound wave (19), the diffuser having, in its coupling zone, a vibratory coupling with the membrane. 8. An alarm according to claim 7, characterized in that the diffuser and the membrane have forms of revolution whose axes of revolution coincide, the coupling zone of the diffuser being arranged near the center of the diffuser and the vibratory coupling with the membrane. consisting of a local arrangement of a connection between the diffuser and the membrane. 9. An alarm according to one of claims 7 and 8, characterized in that the vibration generating device is electromagnetic type with contact point. 10. An alarm according to one of claims 7 and 8, characterized in that the vibration generating device is of electronic type without contact point. 11. Motor vehicle, characterized in that it comprises a horn comprising a buzzer according to one of claims 7 to 10. 12. Warning system, characterized in that it comprises an alarm siren comprising a buzzer according to one of claims 7 to 10.