The present invention concerns a mechanism able to produce at least one sound, to be fitted, for example, to a timepiece such as a wristwatch.
A strike mechanism commonly used in wristwatches includes a hammer which strikes a gong. The hammer is moved away from its rest position, then released and strikes the base portion of the gong which is arranged in a circle around the movement. One drawback of this type of strike mechanism is that the intensity of the sound produced is weak.
A second type of strike mechanism is similar to the strike mechanisms used in music boxes. A mechanism of this type is shown schematically in
It is an object of the present invention to overcome the aforementioned drawbacks in addition to others by providing a sound generating mechanism that can easily be integrated for example in a wristwatch and that produces a sound of great intensity.
The present invention therefore concerns a sound generator mechanism including a control member, a vibrating member and a mechanism for locking/unlocking the control member, the control member being able to move between a first position in which it is retained by the locking/unlocking mechanism and a second position in which it is released by the locking/unlocking mechanism and in which it simultaneously releases the vibrating member, which starts to vibrate and to produce a sound.
Owing to these features, the present invention provides a sound generator mechanism, which, by moving the vibrating member away from its rest position then abruptly releasing it, is capable of producing a sound of great intensity.
According to a complementary feature of the invention, the sound generator mechanism is wound by an action of the user and is released when a time process reaches an end.
According to another feature of the invention, the control member moves by pivoting between its first and second positions.
According to yet another feature of the invention, the control member includes a cam and the locking/unlocking mechanism includes a spring with a catch.
To release the cam and generate a sound, it is only sufficient to act on a spring element, which necessitates little energy and makes the sound generator mechanism of the invention particularly easy to integrate into a wristwatch for example.
Other features and advantages of the present invention will appear more clearly from the following detailed description of one embodiment of the sound generator mechanism according to the invention, this example being given purely by way of non-limiting illustration, in conjunction with the annexed drawing, in which:
a is a schematic cross-section of the sound generator mechanism in accordance with the present invention in a locked position, and
b is a similar view to that of
The present invention proceeds from the general inventive idea which consists in providing a sound generator mechanism able to produce sounds of high intensity while requiring little energy to be switched on, which makes this object particularly easy to integrate in a portable object such as, for example, a wristwatch. Thus, the sound generator mechanism according to the invention includes a control member, which, in a first locked position, moves a vibrating member away from its rest position and which, in a second unlocked position, releases the vibrating member which starts to vibrate and to produce a sound of high intensity.
Designated as a whole by the general reference numeral 8, the sound generator mechanism according to the invention shown in cross-section in
As can be seen upon examining the Figures, cam 10 is pivotably mounted on a drive arbour 20. Thus, cam 10 has an aperture 22 formed of a central cylindrical passage 22a via which said cam 10 is mounted on drive arbour 20 and two cut portions in the shape of an arc of a circle 22b which open into central passage 22a. Cam 10 is coupled with drive arbour 20 via a retaining member 24 such as a key secured to drive arbour 20 and the role of which is described hereinafter.
In the position shown in
Released from the hold of cam 10, gong 12 can return to its horizontal rest position by vibrating and transmitting an acoustic signal of high intensity. As will have been understood, the only energy necessary for starting the sound generator mechanism according to the invention is that which has to be provided to move spring 14 away from the position in which it locks cam 10. The quantity of energy to be provided is thus very low, which means that it is easy to envisage integrating the mechanism according to the invention for example in a watch, which, as is known, can only store a very limited quantity of energy.
As was seen above, when the spring with a catch 14 releases cam 10, the latter pivots in the clockwise direction along arrow B. Cam 10 is however limited in its pivoting movement by retaining member 24 which is secured to drive arbour 20 and which will abut against the bottom of the portions cut out having the shape of an arc of a circle 22b formed in aperture 22 (see
The sound generator mechanism according to the invention is rewound by the user who can, for example, exert pressure on a button, via the effect of which drive arbour 20 makes a 180° movement. As cam 10 has pivoted by approximately 35° and abutted, via the edges of its portions cut out having the shape of an arc of a circle 22b, against retaining element 24, drive arbour 20 will only start to drive cam 10 when the retaining element abuts against the opposite edges of the portions cut out in the arc of a circle 22b arranged in aperture 22. While drive arbour 20 completes a rotation of 180°, cam 10 will only move by 180−35=135° to return to its initial position illustrated in
It will be noted that the present invention is not limited to the embodiment that has just been described and those skilled in the art could envisage various simple alterations and variations without departing from the scope of the present invention as defined by the annexed claims. In particular, the sound generator mechanism according to the invention could be wound by means of a motor. One could also envisage arranging several mechanisms in accordance with the invention, but with different sound frequencies produced by the respective gongs, in parallel in order to generate a melody.
Number | Date | Country | Kind |
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05008838.4 | Apr 2005 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/003011 | 4/3/2006 | WO | 00 | 10/22/2007 |