Patent Grant
9519271
This application claims priority from European patent application 14189091.3 filed Oct. 15, 2014, the entire disclosures of which is hereby incorporated herein by reference.
The invention concerns an acoustic radiating membrane arrangement for a musical watch, or a striking watch. This arrangement includes at least two membranes superposed inside the watch case for the acoustic radiation of a sound generated in the watch.
In a watch, a striking mechanism may be provided to generate a sound or piece of music. To achieve this, the gong of the striking watch or the vibration plate of the musical watch are generally arranged inside the watch case. Thus, the vibrations of the gong or the vibration plate strips are transmitted to the various external parts of the watch. These external parts are, for example, the case middle, the bezel, the crystal and the back cover of the watch case. These large external parts start to radiate sound into the air under the effect of the transmitted vibrations. When a sound is produced either by a gong struck by a hammer, or by the vibration of one or more strips of the vibration plate, these external parts are capable of radiating the produced sound into the air.
Generally, in such a musical or striking watch, acoustic efficiency, based on the complex vibroacoustic transduction of the external parts, is low. In order to improve and increase the acoustic level perceived by the user of the striking or musical watch, the material, geometry and boundary conditions of the external parts must be taken into account. The configurations of these external parts are also dependent upon the aesthetic appearance of the watch and operating stresses, which may limit adaptation possibilities.
The frequency content of the sound from a striking or musical watch must be rich in a frequency range between 1 kHz and 6 kHz. Conventional external parts do not allow efficient radiation in this frequency range. Thus, in order to further improve the vibroacoustic efficiency of the striking mechanism, one or more membranes are arranged inside the watch case. The membranes are dimensioned and configured such that the note or notes produced in the watch case are efficiently radiated. The frequencies of the notes produced must be close to the natural vibration modes of the membranes in order for them to resonate.
Constraints relating to the arrangement of acoustic membranes are generally at variance with the rules of mechanical design for ensuring impermeable sealing, and the mechanical resistance of the watch to shocks and high external pressures. The back cover of the striking or musical watch, which is normally pierced with openings, also requires the connection between the membrane or membranes and the rest of the movement to be sealed. In these conditions, a pierced membrane cannot therefore be used between the back cover and the mechanical movement. Further, a membrane having a too low level of stiffness cannot ensure sufficient resistance to external pressure without risking damage to the movement, which constitutes drawbacks.
EP Patent Application No 1 795 978 A2 discloses a watch, which includes a striking device. This striking device includes two bell-shaped membranes, which are coaxially held in the watch case, one atop the other, by central support pins. There is also provided, between the two bells and the back cover of the watch case, another thin taut membrane secured between the case middle and the pierced back cover of the watch case. By adjusting the radial tension of the other membrane, it is possible to adjust the acoustic radiation frequency of this membrane. However, the two other bell-shaped membranes are not arranged to improve the acoustic level of the sound produced by the striking device, which is a drawback.
It is therefore an object of the invention to overcome the aforementioned prior art drawbacks by providing an acoustic radiating membrane arrangement for a musical watch or a striking watch, created to improve acoustic efficiency over a broad frequency range and also to ensure the impermeable sealing and resistance to high external pressure of the watch case.
To this end, the invention concerns an acoustic radiating membrane arrangement for a striking or musical watch, the arrangement including a first membrane arranged superposed on a second membrane, a first peripheral edge portion of the first membrane and a second peripheral edge portion of the second membrane being intended to hold the membranes inside a watch case,
the first acoustic radiating membrane being configured to radiate efficiently the frequencies in a first frequency band, and
the second acoustic radiating membrane being configured to radiate efficiently the frequencies in a second frequency band that is different from the first frequency band,
wherein a spacer ring is disposed between the first membrane and the second membrane to define a cavity between the two membranes, which is tuned to at least one of the two natural vibration frequencies of the two membranes.
Particular embodiments of the acoustic radiating membrane arrangement are defined in the dependent claims 2 to 18.
One advantage of the acoustic radiating membrane arrangement lies in the fact that the geometry and connection of several, notably superposed membranes are each specifically optimised to guarantee mechanical strength and impermeable sealing, and also to improve and make uniform acoustic radiation, mainly in a frequency band from 1 kHz to 4 kHz.
Advantageously, at least a first membrane is configured to radiate efficiently the frequencies in a first frequency band, which may be the frequency band from 2 kHz to 4 kHz. This first membrane, secured inside the watch case, ensures good sealing of the portion of the watch case that includes the mechanical movement of the striking or musical watch. This acoustic membrane is made of a determined material and with a defined general width having plan dimensions comparable to the plan dimensions of a watch case or crystal.
Advantageously, at least a second membrane is configured with a central portion in the form of a piston, similar to the principle of a loudspeaker. Openings may also be made in the central portion. This makes it possible to ensure an increase in vibration amplitude, especially in a second frequency band, which may be a frequency band from 1 kHz to 2 kHz. As with the first membrane, this second acoustic membrane is made of a determined material and with a defined general width having dimensions that may be comparable to those of the first membrane. The acoustic response of the second membrane is relatively uniform in this frequency range.
Advantageously, the second membrane is superposed on the first membrane, for example by means of a spacer ring. Owing to the assembly of the two membranes with the spacer ring, there remains a cavity between the two membranes, which is tuned, to within 100 Hz, to one of the two fundamental vibration frequencies of the two membranes. Further, the openings, which are made in the central portion of the second membrane, may be dimensioned such that the assembly of the two membranes provides an acoustic cavity of the Helmholtz resonator type. This allows the acoustic level of the striking or musical watch to be increased at certain frequencies.
Advantageously, the membrane arrangement, which is preferably formed of two membranes and the spacer ring, can be made as a single piece.
Advantageously, at least one of the two membranes may be made in a material having a Young's modulus E>60 GPa and E<150 GPa and a density comprised between 5,000 and 18,000 kg/cm3, of amorphous metal or metallic glass, or also of gold or platinum, or even of brass or titanium.
Advantageously, the two membranes are made of two materials having the same Young's modulus to density ratio.
Advantageously, at least one of the two membranes has an elastic limit greater than 1 GPa.
With such membranes, extension of the sound range can be combined with very low internal damping, which makes it possible to obtain very good acoustic efficiency.
The objects, advantages and features of the acoustic radiating membrane arrangement for a musical watch or a striking watch will appear more clearly in the following description given on the basis of at least one non-limiting embodiment, illustrated by the drawings, in which:
In the following description, reference will mainly be made to the configuration of the acoustic radiating membrane arrangement intended to equip a musical watch, or a striking watch. The acoustic radiating membranes may be made in a complex shape to increase the vibration amplitude of the various notes produced in a watch case. Preferably, the membranes are dimensioned and configured to amplify, in particular, the first vibration mode, or even a second vibration mode, in a frequency band from 1 kHz to 4 kHz.
The acoustic radiating membrane arrangement 1 includes at least a first acoustic membrane 2 superposed on a second acoustic membrane 4. Preferably, the first membrane 2 is superposed on the second membrane 4 by means of a spacer ring 3 thereby defining an acoustic cavity. The two superposed membranes 2, 4, are dimensioned to be held, for example, clamped during their assembly in a watch case, between the back cover and the middle part of the watch case with a sealing gasket at the periphery of the membranes. The plan dimensions of these membranes may be comparable to the inner dimensions of the watch case or of the watch crystal.
The first membrane 2 is dimensioned and configured to radiate efficiently the frequencies in the frequency band from 2 kHz to 4 kHz of sounds or notes produced by the striking or musical mechanism of the watch. Preferably, for assembly in a watch case of generally circular shape, seen from above, this first membrane 2 defines a disc. The first membrane 2 takes the form, for example, of a dome with an active central portion 23, 26, defining a dome base, a cylindrical or even slightly conic lateral wall 22, and a peripheral edge portion 21.
Starting from its connection to lateral wall 22, central portion 23, 26 may have a diameter greater than 15 mm and preferably between 20 and 40 mm. This diameter may be substantially equivalent to that of a watch crystal (not shown). Conventionally, the peripheral edge portion 21 may be clamped between a peripheral support of the back cover of the watch case and a circular inner rim of the case middle by means of at least one sealing gasket. The general thickness of first membrane 2 is less than or equal to 1 mm.
Central portion 23, 26 of first membrane 2 includes a base 23 defining a preferably circular and flat bottom, and an annular portion 26 at the periphery of base 23, so as to form a single piece. The diameter of base 23 may be between 10 and 20% less than the diameter of annular portion 26. Annular portion 26 may be slightly tapered at an angle of between 70° and 88°, preferably on the order of 86°, with respect to the axis of the base.
The first membrane 2 is made with no pierced portions or openings through the material of the membrane. This ensures good sealing of the portion of the watch case that includes, in particular, the timepiece movement with the striking or musical mechanism.
It is also possible to provide hollow areas 24, 25 of different thickness in base 23. Seen from above, these hollow areas 24, 25 have asymmetrical circular shapes, such as ellipses. With these ellipses 24, 25, it is possible to have twice the number of natural vibration modes for each ellipse compared to an area of uniform circular shape. This type of embodiment of first membrane 2 with a base 23 provided with a first hollow area 24 and with a second hollow area 25, is described in detail with reference to FIG. 1 in EP Patent Application No 2 461 219 A1, which is incorporated herein by reference.
Of course, it is also possible to provide protruding portions (not shown) of different thickness in base 23, as explained in EP Patent Application No 2 461 219 A1. These protruding portions may also be ellipses to obtain a large number of natural vibration modes for first membrane 2.
Second membrane 4 is dimensioned and configured to radiate efficiently the frequencies in the frequency band from 1 kHz to 2 kHz of sounds or notes produced by the striking or musical mechanism of the watch. As with the first membrane 2, seen from above, second membrane 4 defines a disc, whose shape and dimensions may be similar to those of the first membrane, as explained above. Second membrane 4 may also be configured in the form of a dome with an active central portion 43, 46 defining a dome base. Second membrane 4 also includes a lateral wall 42 of cylindrical or even slightly conic shape, connected to the central portion, and a peripheral edge portion 41 for the superposed assembly thereof to first membrane 2 inside the watch case.
The active central portion of second membrane 4 is formed of a base 43, connected to an annular portion 46, so as to form a single piece. As with first membrane 2, the base 43 of second membrane 4 defines a preferably circular and flat base. The diameter of base 43 may be between 10 and 20% less than the external diameter of annular portion 46. Annular portion 46 may be slightly tapered at an identical angle to annular portion 26 of first membrane 2.
One or more pierced portions or openings 45 are made in the central portion, notably in base 43 of second membrane 4. These pierced portions or openings 45 may be U-shaped, while defining suspended surfaces or sectors 47 that are partially connected to base 43. The arms of the U-shaped openings are oriented towards the centre of base 43. Each base of the U-shaped pierced portions is disposed on an imaginary circle concentric to base 43. Thus, base 43 of the second membrane is connected to annular portion 46 by means of one or more connecting sectors 44. These connecting sectors 44 are made in the material of base 43 with a smaller thickness than the rest of the base to enhance the vibration of the membrane.
In the embodiment shown in
The thickness of each sector 44 may be chosen to be between 50 and 100 μm, whereas the thickness of the rest of base 43 may be greater than 100 μm and less than 1 mm. Thus, the central portion of second membrane 4 may take the form of a piston, similar to the principle of a loudspeaker, which improves acoustic radiation notable in the frequency band from 1 kHz to 2 kHz.
The two acoustic radiating membranes 2 and 4 may be formed in a single piece made of the same material, which may be metallic. This material may be amorphous metal or metallic glass. The material selected may also be gold, or platinum, or even brass, titanium, aluminium, for example with a similar density, Young's modulus and elastic limit.
It is also possible to envisage to design each membrane by combining two different materials, by soldering, brazing, pressing-in or coating. First membrane 2 may be made of a different material from second membrane 4, but in order to obtain good acoustic radiation at any temperature, the temperature dependence of the selected materials must be close.
As specified above, the membrane arrangement 1 also includes a spacer ring 3 disposed during assembly between first membrane 2 and second membrane 4. This ring may be made of an equivalent material to the first membrane and/or the second membrane. Membrane arrangement 1 may also be made in a single piece.
Ring 3 may advantageously have an equivalent diameter to the external diameter of each membrane. This facilitates the assembly of membrane arrangement 1 in a watch case with the peripheral edge portion 21, 41 of each membrane 2, 4 and spacer ring 3 properly aligned. After assembly of membrane arrangement 1 in the watch case, the central portions 23, 43 of the two membranes 2, 4 are not in contact with each other and with other parts of the watch in order to vibrate freely.
Once the first membrane 2, spacer ring 3 and second membrane 4 are mounted, there remains a cavity between the two membranes. This cavity may be tuned to one of the two natural vibration frequencies of the two membranes. Further, openings 45, which are made in the central portion of second membrane 4, and the thickness of the spacer ring, which may be close to 1 mm, may be dimensioned such that the assembly of the two membranes provides the acoustic cavity of the Helmholtz resonator type. In such case, the system provides a vibroacoustic coupling between the membranes and the cavity. This allows the acoustic level of the striking or musical watch to be increased at certain frequencies.
It should also be noted that parts of the peripheral edge portions 21, 41 of membranes 2, 4 may be arranged to rest on the movement or on an inner rim of the case middle. In such case, the peripheral edge portions 21, 41 are no longer placed one atop the other, but fitted together. The portions formed at the periphery of the membranes may have a defined geometry to improve the vibration transfer between a sound generator and the membranes.
It should also be noted that second membrane 4 may be configured in a different manner from that described with reference to
By way of illustration,
Test results prove the utility of the arrangement with at least two membranes to improve the acoustic radiation of a striking mechanism. The acoustic level obtained using this arrangement of membranes is increased throughout the frequency band and more at lower frequencies, except at one frequency, which coincides with the anti-resonance of the coupled membrane-cavity system. The presence of anti-resonance demonstrates the vibroacoustic coupling between the components.
By way of illustration,
Since the function and performance of the membrane arrangement can be digitally simulated, it is possible to obtain theoretical dimensions of the arrangement and its performance is not dependent on its assembly, which differs from other external parts. Development of a digital model makes it possible to be predictive. It is also possible to optimise parameters, such as the bearing of the membranes on the movement, the dimensions of the pierced portions of the second membrane and the geometries of the two membranes.
From the description that has just been given, several variants of the membrane arrangement for a striking or musical watch can be devised by those skilled in the art without departing from the scope of the invention defined by the claims. Pierced portions of various dimensions may be provided in the second membrane at different locations, for example from the centre towards the exterior of the membrane. More than two superposed and assembled membranes may be provided.
| Number | Date | Country | Kind |
|---|---|---|---|
| 14189091 | Oct 2014 | EP | regional |
| Number | Name | Date | Kind |
|---|---|---|---|
| 4180970 | Tokunaga | Jan 1980 | A |
| 4258432 | Zafferri | Mar 1981 | A |
| 4271498 | Zafferri | Jun 1981 | A |
| 7414922 | Ferri | Aug 2008 | B2 |
| 7545706 | Candaux | Jun 2009 | B2 |
| 8540420 | Morata | Sep 2013 | B2 |
| 8638644 | Favre | Jan 2014 | B2 |
| 8665676 | Sarchi | Mar 2014 | B2 |
| 8770833 | Sciascia | Jul 2014 | B2 |
| 9164487 | Raggi | Oct 2015 | B1 |
| 9207645 | Karapatis | Dec 2015 | B2 |
| 9360843 | Kadmiri | Jun 2016 | B2 |
| 9417611 | Karapatis | Aug 2016 | B2 |
| 9436161 | Kadmiri | Sep 2016 | B2 |
| 20120002513 | Behrend | Jan 2012 | A1 |
| 20160098013 | Kadmiri | Apr 2016 | A1 |
| 20160109856 | Karapatis | Apr 2016 | A1 |
| Number | Date | Country |
|---|---|---|
| 1795978 | Jun 2007 | EP |
| 2461219 | Jun 2012 | EP |
| 2461220 | Jun 2012 | EP |
| 2777095 | Oct 1999 | FR |
| Entry |
|---|
| European Search Report of EP 14189091 dated Jun. 30, 2015. |
| Number | Date | Country | |
|---|---|---|---|
| 20160109856 A1 | Apr 2016 | US |
