This application claims priority from European Patent Application No. 13196156.7 filed Sep. 12, 2013, the entire disclosure of which is incorporated herein by reference.
The invention concerns a disc-vibration plate assembly for a musical or striking timepiece, including at least one disc rotating about an axis and provided with pins projecting substantially parallel to said axis, and arranged to cooperate with strips comprised in at least one vibration plate of said assembly, each said pin including an actuation surface arranged to cooperate with a complementary receiving surface on a distal end of a said corresponding strip, and said distal end is placed on the same radius of said disc as said pin, wherein the section of said strips of said vibration plate gradually increases from the shortest strip which is the highest pitched to the longest strip which is the lowest pitched.
The invention also concerns a musical sound or striking mechanism including at least one such disc-vibration plate assembly.
The invention also concerns a timepiece movement including at least one such sound mechanism.
The invention also concerns a timepiece, in particular a watch, including at least one such movement, and/or at least one such mechanism.
The invention concerns the field of musical timepieces and music boxes and, more particularly, musical watches, striking and minute repeater watches, and alarms.
The striking mechanism of musical watches is generally formed by a vibration plate and a system of actuating the vibration plate strips. The actuation system may be a rotating cylinder, as in most music boxes, or a rotating disc.
This latter solution, with a rotating disc disposed in the plane of the watch, is particularly advantageously because of its limited overall height, but it greatly limits the actuation energy of the strips producing the lowest notes. The melody is consequently not very audible.
Through pins are arranged on the striking disc so as to quickly lift and release each strip of the vibration plate. Two criteria are generally followed for the sizing of the disc-vibration plate system.
Despite the antiquity of musical timepieces, no guidance exists in the state of the art as regards:
Consequently, the consumption of torque and thus the mechanical energy of the striking mechanism is generally not optimised:
Since the loss of energy is proportional to the force and to the torque applied according to the degrees of freedom of these incorrect deformations, and since it depends on the result of multiplication of the spatial deformation generated and the mechanical stress created in the material, this loss of energy may be very significant even if the strips are made rigid so as to greatly reduce improper spatial deformations, since the mechanical stresses then increase.
US Patent Application No 2876670A in the name of DUNCAN discloses a music box disc-vibration plate assembly with strips of constant thickness and of unequal length and width, all within the projection of the disc onto the median plane of the vibration plate plate, which includes, in the solid part thereof on the side of the attachment of the strips, grooves forming resonant cavities.
CH Patent Application No 704670A in the name of BREGUET discloses a disc-vibration plate assembly for a music box with strips all within the projection of the disc onto the median plane of the vibration plate plate, and wherein the height of the control pins of the disc is adapted according to the torque to be transmitted.
CH Patent Application No 405896A in the name of FERNAND discloses a music box vibration plate partially encapsulated in a coating determining the free length of the various strips of which it is formed.
WO Patent Application No 2004/090863 A2 in the name of SEGAN LTD discloses an electronic music generating device, with a memory, magnetic sound generator and a vibration plate.
The invention proposes to optimise a striking vibration plate-disc system for overcoming these drawbacks of the state of the art.
To reduce the chronic energy losses of the prior art, it is an object of the present invention to maximise the energy in the first bending mode of each strip of the vibration plate, while optimising the direction and type of force produced when the strips are actuated, without however increasing the rigidity of the strips for unwanted degrees of freedom: torsion and bending in the plane of the timepiece or of the music box.
To this end, the invention concerns a disc-vibration plate assembly for a musical or striking timepiece, including at least one disc rotating about an axis and provided with pins projecting substantially parallel to said axis, and arranged to cooperate with strips comprised in at least one vibration plate of said assembly, each said pin including an actuation surface arranged to cooperate with a complementary receiving surface on a distal end of a said corresponding strip and said distal end is placed on the same radius of said disc as said pin, wherein the section of said strips of said vibration plate gradually increases from the shortest strip which is the highest pitched, to the longest strip which is the lowest pitched, characterized in that said complementary receiving surface includes an end edge, which is placed, at the end of said strip actuation phase, on the same radius relative to said pivot axis as a complementary end edge comprised in said pin, and in that said end edge and said complementary end edge are straight line segments.
According to a feature of the invention, said straight line segments are inclined relative to a plane perpendicular to said axis.
The invention also concerns a musical sound or striking mechanism including at least one such disc-vibration plate assembly.
The invention also concerns a timepiece movement including at least one such sound mechanism.
The invention also concerns a timepiece, in particular a watch, including at least one such movement, and/or at least one such mechanism.
Other features and advantages of the invention will appear upon reading the following detailed description, with reference to the annexed drawings, in which:
The arrangement and the mechanical and geometrical properties of the vibration plate strips and of the striking disc pins are adapted to each other to optimise actuation of each vibration plate strip, ensuring optimum exploitation of mechanical energy and minimising the take-up of torque necessary for generating sound.
The invention concerns a disc-vibration plate assembly 1 for a musical or striking timepiece 1000, including at least one disc 2 rotating about an axis D and provided with pins 3 projecting substantially parallel to said axis D, and arranged to cooperate with strips 4 of at least one vibration plate 5.
Each pin 3 includes an actuation surface 30, preferably formed by an inclined plane or similar, which is arranged to cooperate with a complementary receiving surface 40 on a distal end 41 of a corresponding strip 4 and said distal end 41 is placed on the same radius of disc 2 as said pin 3, said complementary receiving surface 40 being preferably also an inclined plane or similar.
Actuation is a phase during which the actuation surface 30 pushes complementary receiving surface 40 to tense the strip by moving it away from its rest position and providing it with potential energy. The end of actuation occurs after the complete tensing of strip 4 by the corresponding pin 3, and just before the pin and strip separate to let strip 4 resonate, strip 4 then returning the potential energy, in the form of sound energy, which was provided thereto by pin 3 during the rotational motion of disc 2.
Advantageously, the section of strips 4 of vibration plate 5 gradually increases from the shortest strip 4C which is the highest pitched, to the longest strip 4L which is the lowest pitched. Gradually increases means here increasing, or increasing in steps with identical sections between neighbouring strips of different length. In a particular variant of the invention, the increase is strict from one strip to another. Advantageously, the complementary receiving surface 40 includes an end edge 42 which is placed, at the end of the actuation phase of strip 4, on the same radius with respect to pivot axis D, as a complementary end edge 32 comprised in pin 3.
More specifically, the width of strips 4 of vibration plate 5 gradually increases from the shortest strip 4C (the highest pitched) to the longest strip 4L (the lowest pitched), as seen in
Advantageously, the width of actuation pins 3 also gradually increases, in line with the width of strips 4 with which the pins 3 concerned cooperate. The width of a pin 3 is its useful dimension in the radial direction relative to axis D of disc 2, i.e. the dimension of the part of the pin intended to cooperate with the corresponding strip 4. In a particular embodiment seen in
Identical strip heights for the whole of the vibration plate permit more economical production, when the vibration plate is in one piece.
One possible variant consists in acting on the height of strips 4 and having, as an alternative to increasing strip width, increasing strip height, or, more simply, an increasing section of the strips from the highest pitched to the lowest pitched. In a particular embodiment, the height of strips 4 gradually increases from the shortest strip 4C which is the highest pitched, to the longest strip 4L which is the lowest pitched. However, the actuation energy is then greater if the strip has a constant section, which makes the use of the embodiment of the Figures preferable wherein the strips have a constant height and a variable width.
In a particular embodiment according to the invention, the end edge 42 and the complementary end edge 32 are straight line segments 49, 49A.
More specifically, these straight line segments 49, 49A are oblique, i.e. inclined with respect to a plane P perpendicular to the axis of rotation D of the disc.
In a particular embodiment, the width of the complementary end edges 32 comprised in actuation pins 3 also gradually increases in the same proportion as the section of strips 4 with which pins 3 respectively cooperate.
Advantageously, as seen in
Compared to a conventional configuration of actuation surfaces 30 of pins 2 and of complementary receiving surfaces 40 of strips 4, which are both oriented orthogonally to the main direction of the strips, the invention proposes a configuration making it possible to consume less torque: actuation surfaces 30 of pins 3, and complementary receiving surfaces 40 of strips 4 are oriented in a suitable manner, in the radial direction DR originating from the centre of disc 2 and passing through the strip-pin contact point, as seen in
The line of contact between pin 3 and strip 4 must therefore preferably be in the radial direction to the disc at the moment the strip is released, thus at the end of actuation.
Pins 3 of striking disc 2 preferably have a height, relative to plane P of disc 2, which gradually increases from the shortest strip to the longest strip, which requires a gradually increasing lift.
The actuation energy of each strip is given by:
where E is the Young's modulus, b the width, h the height, L the length of the strip and δ the lift of the strip.
According to the invention, the ratio of the actuation energy of the lowest pitched strip to that of the highest pitched strip must be greater than 1:3 (which corresponds to a difference in acoustic level of less than 5 dB).
This criterion requires a strict relation between the width of the strips, their lift and their length, in a particular embodiment wherein the height of the strips is advantageously identical for all the strips. If we consider the lowest pitched strip 4L (the longest) (bg; Lg; δg), and the highest pitched strip 4C la (the shortest) (ba; La; δa), the relation is:
Specifically, for strips 4 of the same height and the same width, and each of the given frequency and lift characteristics (f; δ), the relation between the lowest pitched strip 4L (fg; δg, and the highest pitched strip 4C (fa; δa), satisfies the inequality
In a particular embodiment, actuation surfaces 30 of pins 3, and the complementary receiving surfaces 40 of strips 4 are oblique planes relative to the plane P of disc 2 in a local radial direction DR originating from the centre of disc 2 and passing through the point of contact between the strip 4 and pin 3 concerned.
More specifically, with respect to axis D, a first radial line DRC corresponding to the strip 4 which is the shortest 4C, and a second radial line DRL corresponding to the strip 4 which is the longest 4L of vibration plate 5, form a non zero central angle with each other.
The invention also concerns a musical sound or striking mechanism 100, including at least one disc-vibration plate assembly 1.
The invention also concerns a timepiece movement 200 including at least one such sound mechanism 100.
The invention also concerns a timepiece 1000, particularly a watch, including at least one such movement 200, and/or at least one such mechanism 100.
The invention has numerous advantages:
Number | Date | Country | Kind |
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13196156.7 | Dec 2013 | EP | regional |