FR2602607A1 - Acousto-electrophonic musical instrument - Google Patents

Abstract

The present invention relates to the manufacture of an instrument known as "acousto-electrophonic", acousto because the instrument is played like an acoustic instrument, and electrophonic because it makes it possible to produce a sound corresponding to the instrument of the acoustic type, but also to produce a sound which is totally different from an acoustic instrument of the same shape, and to play silently or audibly, and perfectly independently, by virtue of a system comprising vibration return detector vibrator sensor devices 2, a sound synthesiser 3, an amplifier 4, one or more acoustic sound devices integrated into the instrument 5, an integrated rechargeable energy source 6, as well as, optionally, a sequencer 7, connecting circuits for the input and output data, coded or otherwise, 10, or energy type circuits for the power supply to the system 9, which, completely integrated into the instrument, make it completely independent. The system of the invention applies to all acoustic instruments such as kits of drums, conga, cymbal, bell or another of the same type, a wind instrument, a string instrument. The innovative character of the invention is, then, of bringing together all the advantages of an independent acoustic instrument, the advantages of ranges of dynamic expression which are available with an acoustic instrument, and all the advantages of sound synthesis and of electroacoustics.

Description

DESCRIPTION Ia.present invention relates to the realization of an instrument called "acousto-electrophonic" acousto because it plays on the instrument as an acoustic instrument, and élèctrophonique because it allows to produce a sound corresponding to the instrument type acoustic, but also to produce a sound totally different from an acoustic instrument of the same shape and to play in a silent or sonic manner and perfectly autonomous thanks to a system :: comprising vibrating sensor detectors 2 sound synthesizer 3, an amplifier 4, one or more acoustic sound devices @ integrated with the instrument an integrated rechargeable energy source 6, as well as optionally a sequencer 7, connection connections for the input and output data encoded or not, or energy types for the power supply of the system 9, all of which integrate with the instrument makes it perfectly autonomous eb
The present invention is therefore of musical application, its technical field is perfectly suited to the electroacoustic and all that relates to the sound synthesis in the studios, concerts, as the house allowing the musicians to play following a sound range previously unattainable without changing the instrumant and without changing its playing style taking into account all the expressions of dynamic games b To change the sound, you must change the instrument, which requires to play differently for each instrument or to use a sound synthesizer, which implies being given the current technique of knowing how to play a keyboard with keys or buttons. Until now the electronic instruments seeking to reinforce the acoustic instruments were only at a given time. not autonomous because they were surrounded by external devices in terms of amplification and sound, and did not allow a game totally expressed As is the case with acoustic instruments, the present invention makes it possible to solve these problems (FIG. 1) by means of a system made up of simple sensors C 2) or of vibrator-detector-type vibrator sensors integrated or combined by fixing> entirely or partially to the bodies or parts of the play of the musicians and which produce the sound by examples; striking surface, rim of the body, strings When these elements are likely to be attenuated by the playing of the musician, the sensors will be of the vibrating sensor type vibrating feedback o If these elements undergo the play of the musician and they serve to change the frequency (flute hole, trumpet valve, violin guitar neck) they are combined with simple sensors of preference
position sensors or sensor sensors, as the case may be, shall be combined to the number of three or more for elements likely not to produce the same sound depending on the area operated by the musician, for example; skin, cymbal striking surface, bell etc, and therefore allow depending on the amount of signals and the difference between the signals received by the sensors to provide the dynamie information, as a force of action, quality of action and area d action of the instrumentalist on the instrument to a synthesizer of sound (3 fig 1) which will analyze the information in the form of encoded energy or not electrical or other coming from the sensors and will create the sound appropriate to the musician's game o The musical signal thus created is amplified by an amplifier (4 fig 1) which will feed the acoustic sound device (5 fig I) integrated with the instrument o
With regard to the elements undergoing the play of the musician who produces the same sound whatever the zone used, the element is combined with a single sensor. rim that would have a Vibrator Sensor Detector
Vibration feedback. So these elements are combined with sensors. These sensors can be of any type provided
that they can provide the information characterizing the
games of dynamie expression and that detection is
direct or indirect by said sensors integrated or
externally or partially with the receiving bodies of the musician's play 6 They can be of the type

riadiant or luminous, send a wave energy
shimmering or bright to a combined reflector element
with the receiver corp of the musician's game that returns the
rays to an apropriecombined or separated detector
this radiating o or ere of the microphone type with or without membrane, of the electro-static, electromagnetic type, finally any system likely to detect a vibration or a displacement @ an acoustic instrument when it undergoes the action of the musician sees as the case one of these elements vibrate ellele play of the instrumentalist consists in attenuating the vibration of this body. As for the invention which must allow a game as on the acoustic instrument that it wants to re-move, the invention thus has bodies likely to vibrate. This vibration should preferably be inaudible and should be attenuated by the musician's play, this attenuation must be sensed by an appropriate device that will send the attenuation information to the synthesizer. This device is a Vibration Sensor.
Vibration Feedback Detector6 Capturing because it perceives the action game of the musician who is driving the sound, the vibrator pierces the dipositive directly or indirectly sends vibrations or vibrates the body likely to be attenuated, and vibration feedback detector because the device allows the detection of the quality of the vibration during its attenuation. this System can be defined as follows: I the body undergoes the play of the instrumentalist; 2 the sensor perceives the action and sends to the synthesizer the information characterizing the game causing the sound; 3, the sound synthesizer sends, corresponding to parametric data, a signal enabling the vibrator to vibrate the body to be attenuated according to the envelope of the sound. 4 The vibrations are perceived by the detector which sends a signal to the Syththi
its corresponding to the vibrations; 5 these vibrations'
The synthesizer compares the original and the return data.

the signal sent to the vibrator /. This signal must if the vibrator is not managed to correspond to the parametric data of the synthesizer. when the vibrator is disturbed by the attenuation of vibrations of the vibrating body, the signal of this vibrator by reaction phenomenon does not correspond to what it should be in the case where the vibrator feedback detection.

turel .La membrane que L'invention/base sa solidité par un corps à l'état non naturel et permet une solidité nèttement plus élevé que la membrane japonaise o la membrane que présente l'invention estdans sa plus simple expression faite d'une surface tendu 14 par un cerclage rigide 15. la surface sera de préference de matière rigide .Le cerclage en matière rigide sera de profilé en T ou en triangle ,mais pourvu que lo cerclage quelle que soit sa forme,permette a mise sous tension de la surface,ce-la ne sort pas du cadre de l'inven tiono Pour une plus grande solidité un modèle plus évolué serait fait de deux surface tendus par un cer Lage . Une amélioration trés sensible de cette membrane sera d'emplir la membrane d'un gaz sous préssion 18. pour permetre une solin dité optimale les surface prennent en sandwish une structure 16 quS vu de dessus ressemmble a une toile d'araignée

sera tendu par le cerclage sur so@ côté intérieurs .Cette tructure est mieux approprié contre les problème mécanique que la structure en nid d'abeilles . la structure peut ètre en forme de caletdoscope formé de prismes fig @ . un sommum de la qualité est apporté en allégeant la structure1 au moyen de trous 17 dans les parois de la structure
Un amortissear t9 fig 8 fait d'un tore dont la section forme un grand C ou d'un O allongé sera fendu en son millieu de sa circonférence intérieur et par la et fente les bords extérieurs de cette fente prendra contact la barre du "T"

verticale Vl'intérieur dudit amortisseur est empli d'un fluide gazeux @@ pour permettre une vibration sans gène de l'amortisseur . une bobine 90 en fil d'aluminium et dont le fil est de section carré prend contact sur un bord superieur du
electrique cerclage 15 . l'aluminium permet pour une résistance/égal et un volume 1,6 foit supérieur de peser 2 fois moins que le cuivre . la section carré pour le fil de la bobine s'explique qu'en remplissant les vides crées par une bobine fil fil de section circulaire permet de diminuer le volume et donc de faire une bobine de fil d'aluminium légerement plus grosse,de résitance électrique égale,mais de poids deux fois moins lourde. La figure 10 montre les différent aspects d'une bobine suivant la forme de La section du fil.The signal is interpreted by the synthesizer, which determines the sound signal corresponding to the attenuation and sends back to the vibrator the vibration signal corresponding to the new envelope of the sound. In the case where the vibration return detection is not done by vibrator self-reaction but by an independent detector although it can be part of the vibration feedback detector vibrator device, the synthesizer compares the signal parametric data.
send to vibrator and parametric data after
decoding of the vibrating feedback signal from the detector
The synthesizer sends the signal to the amplifier
corresponding sound and returns to the vibrator the signal of
vibration corresponding to the new envelope of sound
Of course is practically instantaneously and in con
tinu o The sound attenuation speed is done by the
difference of the vibratory signal sent by the synthesizer
and the signal returning to the synthesizer. So more the gap
is biggerAnd this obviously corresponds to the strength of attenuation
nuation of the musicienoplus are will be mitigated o so the
information from these sensors drive the synthesizer (3 fig 1)
which provided the sound to amplify to the amplifier (4 fig 1)
which supplies the acoustic sound device (5 fig 1) e
A control panel 8 fig I perméttant adjustment,
different sound parameters of the synthesizer, amplifi-
the controller, is incorporated in the present invention and can
retractable or fixed. In addition to the control panel 8
this system comprises, optionally a sequencer 7, jacks 10, 9 of internal or (and) external connection that is for
coded information information or not that for the food
energy consumption of the rechargeable energy source
6 and the filtering system of the electric current 6 and com also takes connection for earphone 11 11, C for ampli
external indicator etc. the different main elements
of the intrument such as game receiver body of llinstrumen-
list, system for creating the sound signal, device
acoustic sound, a source of rechargeable energy, are
Removable by means of quick screws, clipt or any other sys
rapid disassembly system peméttant a rechanqe adventuelle
usable elements or services or other e For example
a magnetic latch fastening system will be very
appropriate. the system presented by the invention is
all the acoustic instruments such as p-ercussion de bate
ries- ', conga fig 2; cymbal, bell, or the like of the same type fig 3;
wind instrument fig 4; string instrument fig 5
The innovative character of the invention is therefore of
all the benefits of an autonomous acoustic instrument,
the benefits of games of dynamic expression that we
allows with an acoustic instrument, all the advantages of
the acoustic synthesis of the electroacoustics another invention is made with regard to the acoustic sound device. This device is of the electro-acoustic type and comprises a system made of a magnet of a movable body vibrating a membrane which is the main innovative piece Fig 6 and 7 and 8, at first sight the membrane of the invention resembles a membrane proposed by a Japanese constructor. but the technical principle, technology, and the problems that allowed the realization of such a membrane are totally different. the Japanese manufacturer proposes a membrane made of two sheets between which is interposed a structure of styrene foam or in the form of honeycomb structure around which makes contact a band-shaped border which without it the membrane would be destroyed when it is put into vibration. the solidity of the latter is beste on the principle of a structure carrying a pressure on which above and below is a two sheets that allow to move the air. vibrated by the membrane will carry the acoustic wave
The strength of the membrane proposed by the Japanese constructor is thus based on the rigidity of a body in the state na

The membrane that the invention bases its solidity by a body in the unnatural state and allows a toughness higher than the Japanese membrane o the membrane of the invention is in its simplest expression made of a surface Stretched 14 by a rigid strapping 15. The surface will be preferably rigid material. Strapping made of rigid material will be T-shaped or triangular, but provided that the strapping whatever its shape, allows tensioning of the surface This is not beyond the scope of the Inven tiono For greater strength a more evolved model would be made of two surfaces stretched by a cer Lage. A very noticeable improvement of this membrane will be to fill the membrane with a gas under pressure 18. to allow optimum flashing, the surface takes sandwish structure 16 seen from above resemmble to a spider web

This struc- ture is better suited to the mechanical problem than the honeycomb structure. the structure can be in the form of a caletoscope formed of prisms fig. a summum of the quality is brought by lightening the structure1 by means of holes 17 in the walls of the structure
A cushioning t9 fig 8 made of a torus whose section forms a large C or an elongated O will be split in the middle of its inner circumference and by and slot the outer edges of this slot will contact the bar of the "T "

The interior of said damper is filled with a gaseous fluid to allow vibration without damper gene. a coil 90 of aluminum wire and whose wire is of square section makes contact with an upper edge of the
electric strapping 15. the aluminum allows for a resistance / equal and a volume 1.6 higher than weighing 2 times less than the copper. the square section for the wire of the coil is explained by filling the voids created by a coil wire wire of circular section allows to reduce the volume and thus to make a coil of aluminum wire slightly larger, electric resistance equal, but of weight twice as heavy. Figure 10 shows the different aspects of a coil in the shape of the wire section.

a triangular section would fill the voids but would be impossible to réslis-é unless nue section 12 is parallelogram-shaped, which may relate to the wire section of the coil that presents the invention. this coil takes place in a magnet of circular shape and section-shaped "u", fig 9 .la surface of the acoustic sound device membrane will preferably rigid tenacious material, minimum weight in terms of synthesis or steel soaked. the different parts of the membrane will be covered with a layer of non-resonant material preferably of nylon or vinyl * the attachment of the sound device is part 15, t4, 16,17,18,19,20,21 and the magnet FIG. 9 is made by the outer circular surface of the damper and of the outer circular surface of the magnet or of one or more non-facing surfaces with the membrane on a carcass whose shape has no special character since the device is susceptible of to accomodate at all-s the situation seen the character of the acousto-élètro-phonique instrument which can be of form of infinite possibility,
The membrane can be; cone-shaped, frustoconical, concave, convex, concave-concave

With regard to the acoustic percussion instrument, the system presented by the invention perfectly represents the case of the use of all these possibilities * for the case of percussion of the "fut" type, the various elements such as body rim and impact surface perrèttent the use of vibrator vibration detector vibration sensors. They will be arranged so as to be able to determine the coordinates of a surface. For example, three sensors spaced apart from each other by an equal distance determines a triangular surface susceptible of application for the impact surface of a percussion. In fact three sensors on a circular surface allow the use of a whole surface. The box edge will be made if the striking surface is not stretched over the hollow core of a torus, preferably of slightly elastic material such as rubber or synthetic foam, filled with gas under pressure or liquid and incorporates a vibration detector sensor feedback sensor. When the strand (torus) is struck, it compresses its content which acts on the sensor integrated totally or partially torus .The vibration detector vibrator sensor returns special effects because in reality the attenuation play of the edge of cash It does not exist practically while the case of an acousto-électrophonique percussion is not prohibited to improve the possi-bilities of the instrument. The box edge is mounted on a structure that integrates all the basic systems of the zoosynthetic instrument (synthesizer, thus, sequensellr, power supply and current accumulation) which will preferably have the shape of the body which allows the beautiful aesthetic natural wastes. It was integrated a structure of preference to wing which maintain in its center and under it the magnet
It incorporates in its mass an acoustic sound device if it is central. If the magnet is peripheral then it will be seated at the bottom of the fins at the bottom of the drum. The different systems: amplifier, sequencer, synthesizer, feeding system ~ are preferably fixed on the top of the center of the fin structure which can pass freely the acoustic wave and allows the fut to play the role of enclosure.

acoustic ventilation holes of apropriô placement on the fut allow a freer vibrations of the sound acoustic device. If the striking surface is unstretched it will be mounted on the lower upper edge of the surface by a preferably elastic material surface.
But it is rigid, circular and peripheral with three sections, one that makes contact with the following one acts as a shock absorber and the third around the striking surface made of non-resonant rigid material preferably nylon or rubber Or mounted on dampers above a plate of maintains.

the membrane of the acoustic sound device is movably fixed on the lower inner edge of the shaped structure. Connections are possible any placement that will match the aesthetics of the instrument but preferably above. of the surface of the structure that maintains the systems of sound and in the structure in the form of was. The striking surface is likely to be a skin stretched on a was by tie rods. In this case the box edge is mounted on the tension strapping of the skin. The surface of the rim serving as the rim of the body when this rim is on an acoustic instrument will be wider and suitable for fixing on its top the torus forming the rim. the sensor of the body edge is preferably fully integrated and will pass in a place aPpropria a contact or a plug allowing the connection m duriseau synthesis tiser s taut skin will be cushioned by a foam surface adhering parcilement to the lower surface of the skin and will leave by means of cut hole, freely pass the action of the sensor on the skin which will receive in the case of indirect radiant or luminous sensor the ray reflecting on appropriate reflective surface in contact under said skin means of an adhesive to the sensor device aproorie which will for example be a photocell or in the case of electro-dynamic type sensor which will carry by its lower surface the coils or moving polar parts of the sensors facing the holes of the foam surface o If the striking surface is not stretched it preferably is made of a rubber plate or synthetic foam rig it is indicated by a stiffness plate, preferably made of resonant or non-resonant materials, which is supported on its underside by the movable grippers of the sensors whose movable parts are fixed on a plane preferring structure situated in the upper part of the at a height Adequate in the interior of the was. the sensor support plate is fixed by means for example magnetic latches on a rim of the interior of the futon overlying said plate above or below. in the case of a non-tensioned and free striking surface on these edges it will be maintained above the sensor support plate by cylinders made of elastic material which do not become sticky in the long term, adhering to both surfaces in general. the sensors are arranged in a triangle if they are at the beginning of three or any other geometrical figure regular polygons for more than three sensors. A central sensor allowed to define three diferent zone which connected with the others, to the synthesizer allowed to play three sounds different in the case of four or more sensors depending on the number. the control panel does not have a proper logical structure that can be retractable it can be anywhere appropriately on the was. For the wind instrument whose shape is different the basic principle is always the same. The wind instrument has an ambute, reed or beak followed by a capture chamber of the presence of the breath and its quantity and its frequency variation by means of two types of sensor are differentiated by their positions which are on the internal walls of the cylinder whose internal form depends on the detection system and at the end of the cylinder passing the area which is evacuated by so-called acoustic wind holes ô the conhinaisont of these sensors following the longitudinal direction to the breath and facing the breath allows n being connected. to the synthesizer to provide the data of presence and quantity of breath. This cylinder in the simple formula of the instrument is followed by a fan-shaped trumpet cone whose interior incorporates the acoustic sound device ( or many ) . Of course, whatever the formula of the acoustoelectrophonic instrument, it still possesses the different system of sound creation and their power supply in its advanced formula if the instrument has holes or valves or tubes all move allowing the change of frequency these element will be combined with position and / or pres- sure sensors. Battery accumulators are preferably housed in a straight patient and a small rectifying and straightening current filtering system will be housed in a housing. curved part of a loop for example in the case of an instrument having one or more loops otherwise in extension of the accumulators.

The control tabea @ is located on the fan blooming part. Connections for current, noon, hi-fi headphones, are susceptible of any placement in either a curved or straight portion. FIG. 11 shows the general concept of the acousto-electrophonic system of a percussion instrument. hit 23, the body edge 24, the cymbal or bell or gong 25 undergo the action of a striker element and tansmettent the vibrating signal or shock to the sensors 2. C and CV indicates the phenomenon of percussion detection and vibration and the sensor 2 thus perceives, thanks to the percussion 26, the striking quality, the striking quality and the striking zone, and vibrates the elements 23, 24, 25p The sound synthesis system 3 receives in its device 28 the vibration information and in its device 29 sends the vibration signals and the amplifier 4 amplifies the musical signals of the synthesizer corresponding to the sound appropriate to the action of the instrumentalist.

The amplifier 4 supplies the acoustic sound device
Sequencer 7 records and reproduces the musician's game by controlling the synthesizer 3. The various elements 3; 4, 7, 8, see 2 according to the case are fed by the system 6 comprising the filtering, the transformer, and the accumulator, of the current. the power of the system 6 is by.

the plug 9 receiving the external electrical source. MIDI socket 10 corresponding to the inputs and outputs of the synthesizer and sequencer data. The amplifier feeds a hi-fi headset via a plug It
The control panel 8 displays the information received from the synthesizer of the sequencer amplifier and pivots its last to the control means activated by the musician.

Figure 1 * shows a section of a percussion model * made of a 37 integrating the garlic structure 36 which seen in profile forms arcs, the sound device integrated its interior and in part lower. taking the aforementioned membrane @ t ilustrée taking supports by its buffer t9 on edge inner and lower of the was. the magnet 38 makes contact with its lower and outer periphery on the lower dut was under the fin structure 36 and above the damper 19. the coil 20 of square section wire takes place in the groove of the magnet 38 DEsw acoustic ventilation holes 13 allows a greater freedom of vibration of the sound device 5, and are mounted in the case of the figure in the upper part of the The power supply socket 9 is located in the above-mentioned area. The device 4, 3, 7a under the energy device 6 are placed in the center of said structure.
A holding plate 56 of the sensors for rotating the pole pieces 35 under the stiffening plate 33 of the surface 32 makes contact with an upper inner rim of the mast and is fixed by means of a rapid disengaging system, for example a magnet 57. D3s suspension dampers 59 of the striking surface are interposed at a sufficient number between the plates 33 and 56. The upper edge of the body partially integrates the sensor 2 of the body border 24 made of a hollow torus 30 filled with gas or liquid 31 0 The vibrators of this model are an electrodynamic and magnetodynamic type which has the winding 20 around the workpiece fixed polar 35 (this model that everything is allowed with regard to the ca ptors). Another rapid disassembly system 57 below the ventilation holes 13 allows access to all parts of the instrument. FIG. 13 shows a model coming closest to a natural percussion since it has a skin 42 stretched over a seat 37 by a strapping39 pulled by the screws 40 of the tie rods 41. this skin 42 is coupled by adhesion by means of adhesive, for example to a foam plate 43 preventing the sound vibration and allowed
Through the orifices pass through the vibrating sensor bones 20 which, in the case of the figure, have a single device whose moving parts are secured to the skin 32 by means of glue, for example. Magnetic devices 58 allow the repositioning of the pole pieces 35 when the skin 42 is held, driven by the like through the plate 56.

U? strapping 3c suporte the rim of a box made of a hollow torus 30 filled with its content 31 of gas under pression or li-quide .It case 13 figure the body edge integrates totolement or partially the vibrator sensor 2, The holes acoustic ventilation are located in the under height at the plate 56 .The structure of maintained fins 36 integrated in was in its lower part, fixes the sound device which in the case of the figure is of the traditional type éléctrodynamique, by its magnet that is embedded in said structure 36 at its center by means of a screw and suporte on its high surface in its middle on its upper face the device 3, 4, 6, 7; connected by the sockets 9, 10, 11 ,. The carcass of the sound system 5 by solidarity of the magnet and its outer edge against the lower inner b @ rd of the was by pression a system 57 rapid disassembly magnet for example allows access to the magnet d ' sensor training
Figure 14 shows the general concept of an upright wind instrument, the mouthpiece, the reed or mouthpiece.

channel the breath, a sensor device 2 made of a sensor, a scuffle quantity sensor respectively 46, 47 perceive this breath. the valves, holes, frequency-changing tubes 45 act on the sensors 2 of pression or position and send the signals to the synthesizer 3, which also receives the signals @ the breath sensors O and which analyzes by means of the systems 48 the pression and its change of frequency, and 49 the amount of breath and its frequency as well as the data of the sensor of pression and position. The synthesizer 3 supplies audible signals to the amplifier 4 powered by the filtering, lowering and rectifying system, which also feeds the control board 8, the sequencer 7 and the synthesizer 3. This system has the power outlets 9, 10, 11, respectively allow the connection to the electric power source, the midi connection and the headphone output hifi system 6 is suceptible to supply the case as the sensors 2 d ' a current that will be modulated and analyzed by the synthesizer or a current for radiant device.

FIG. 15 shows a transparent view of a trumpet at a loop followed by a valve cylinder pedanting the sensor 46 which will house the plant and the sensor.
47 which will detect the quantity .this breath 9 followed by a carli-
bearing the breath ventilation hole 13
The 50 steps are mounted on position sensors
magnetodynamic having a straight cylinder that is followed t
of a widening cylinder comprising 3 parts integrating
the synthesizer 3, the sequencer @ and the amplifier @.

the end of the body of the trumpet is made of a body
fan-shaped and integrates one or more
5. In one of the curved parts of the loop
integrates the device 6 and prolongs its accuraula-
in the form of stendart batteries * Plug 10, 11
can be found in the other part of the loop.
is preferably found as indicated by the drawing p in the
part integrating the transformation system running
Figure 16 shows the different dismountable parts of
the instrument. We see here the table that's order 8 in
on the blossoming of the trumpet. the dismantling of
different parts can be done by means of threading,
clips or magnetic system. Figure 27 shows an agra @
nduction of the cylinder carrying the pressure sensor 46
and quantity 47 o The breath follows the circuit 52, passes
through fins carrying the quantity sensor and
spring through 1 port 13. Figure 18 shows two
different system the position sensor o The n C "is
a magnetodrnamic sensor made of a polar piece 34
magnet or not, mobile, and a magnetic circuit U 35
wound with a wire 90 in which circulates an electric current
which will be modified by self induction effect modulated by
the change position of the valve carrying the part 34.

The "D""shows an indirect visible radiation sensor
or not made of a light source 5 "@ which is reflected on
the mirror 55 carried by the valve towards a celulule photo
electric ô
Without prejudice to any changes that may be made to
the present acousto-electrophonic invention without changing
the purpose of obtaining the invention is part of the
of the invention

Claims (3)

CLAIMS Any customary instruments dot ot play as on an acoustic musical instrument according to its type (wind, string rubbed, scraped, pinched, percussion) and is autonomous as an acoustic instrument intended to produce a sound corresponding to the shape of the instrument but also intended to produce an infinite sound possibility and in a silent or audible way thanks to a system integrates the said instrument and which makes it of the "acou sto-élèctrophonique" type which brings together all the advantages of an acoustic instrument, all the advantages of electronic instruments and all the advantages of electro-acoustics and sound synthesis, characterized in that said system includes sensors 2 enabling the detection of the force, the quality, and the zone, the action of the game of the musician on the game receiver body 1 of said in strume-nt @ and fully or partially combined with said element t, and the sensors are connected to a synthesizer  3 integrates into the said instrument which feeds and founies  musical signals or not, codes or not, a sequencer 7  and an amplifier 4 integrated with said instrument, and the am  plifier 4 powers one or more sound devices  acoustic instruments integrated into the instrument, - and all these devices are controlled by an integrated control panel 8  who  audit instrument / displays and allows the control of dif  various parameters of the acousto-electro-acoustic system  releasing the musician, and all these devices are food  by a system 6, filtering the electric current,  lowering of voltage, and accumulation of the current e-light  this system 6 is powered by the plug 9 at the  external current source, and said instrument integrates  the so-called "N I D I" sockets 10, as well as the  connection for headphones 11  2- instrument according to claim t and percussion type  ssion> characterized bydon box edge made of a torus  hollow 30 in a material suitable for deforming and transmitting  be the failure to its content 31 of gas under pressure or  liquid, which tablet acts on a sensor 2 integrated type  Vibration feedback detector vibrator  sse is mounted on a strapping 20 which is mounted on a 39  and tending a skin on said was by means of screws 40 pulling on the strapping with tirans mounted on the fut which integrates the elements 3, 5, 6, 7, 4, in its interior and a structure 36 made a center around which take place fins that make contact with their outer edges on the was in its interior and said structure 36 suporte on its upper center the systems 4, 6, 3, 7, on its raised part, and the said systems 3, 4, 6, 7, are fed to or feed the jacks 9, 10, 11 which are attached to and aligned with the upper surface of the fin structure 36 which holds the magnet at its lower center. an acoustic sound device sleeps the carcass makes contact with its outer edge and pressure on the lower inner edge of the fut and a wound 56 secured to the inside was below the upper edge of the suporte four sensors vibrator detector return type of vibration In the same way, their coils 2C pass through a foam plate 43 adhering to said skin 42 and the said coils are fixed to said skin and their pole pieces are held on the plate 56 magnets 58 under said plate 56. it has acoustic ventilation holes below the plate 5 6 s and said instrument has a rapid disassembly system 57 allowing the acnes to all the elements of the instrument among others to be able to replace the magnets when retaining the skin  3- instrument according to claim j characterized by a body edge 24 made of a hollow torus 30 whose content 31 is filled with gas under pression or liquid, and said body edge is mounted on a fut 37 incorporating a fin structure 36 which supersizes in its upper center the systems 3, 4, 6, 7, and maintains on its lower edge of its lower face a magnet 38 of circular shape and of section U "which makes contact with the fut by its peripheral edge and an acoustic sound device membrane (5) is held below the magnet by a shock absorber 19 of the form of "C n split in its inner perimeter which makes contact with the fut by its peripheral edge, and said was sup- ported by an inner rim below said box edge which partially incorporates a vibrating sensor, a plate @ 6 held under this rim by magnets embedded under said rim and around the plate 56 which sup- ports vibrator sensors. return of vibrations oar their fixed pole pieces their movable parts 34 are fixed under a rigid plate 3 @ suported by dampers maintaining an adequate distance between said platei6 and the plate 33 of resonant material which adheres to a surface attenuating the shocks 32 and a quick disassembly system 57 is located above the structure 36 and integrated into it allows access to all systems, and acoustic ventilation holes 13 are in the fut '> and the @fut integrates the plugs. connection 9, 10, 11, a  4- instrument according to claim t and wind types characterized by a tip 44 followed by a cilyndre 46 bearing pressure sensors and amount of breath followed by a cylinder bearing ventilation holes @ 3 of the breath followed by a trumpet body in the form of a loop, a first curve portion integrates the sockets 10, 11 and the first straight portion between the curved portion incorporates electric batteries and the second curved portion incorporates the system 6 of current transformatiun and filtering current and the plug 9 of electric current and, I- second right part integrates the valves or trumpet buttons which act on posit tion sensor 2 integrated in the said right part, which is followed by three removable elements that integrate the synthesizer3 the bucket7, and the amplifier 4 followed by a fan-shaped part that integrates the acoustic sound device 5 and each part of the trumpet is removed. ble by rapid disassembly system and a control panel 8 is integrated on the surface on the fan part integrating the dispositis 5  5- acoustic sound device made of a moving coil of a magnet and a menbrane characterized in that The menbrane is made of a surface stretched by a form strapping anyone and the surface integrates a so-called disarmament structure strong spider web or hairy ray,  6- acoustic acoustic device membrane characterized by two surfaces stretched 14 on a strapping 15 and the membrane is filled with gas under pressure  7 - Sound acoustic device membrane according to  claim 6 characterized in that the two surfaces  tense sandwish take a structure in the form of  spider web 16 and lightened by means of holes in its  walls 17.  8 - acoustic sound device menbrane according to  claim 6 characterized in that the two surfaces  tense take in shandwish a shaped structure  of a caleïdoscope made of prisms 16 h and lightened by  holes 17 in its walls  9 - melon acoustic sound device membrane  any of claims 5 to 8 characterized in  what the strapping is in the form of "T" 15 and a shock absorber 19  toric makes contact on the vertical bar of the n @ "which  is outside the menbrane / by its interior wall  split, and the damper is hollow and filled with gaseous fluid @ 1  10 acoustic sound device comprising said  menbrane according to claim 5 to 10 and a magnet and a voice coil. and a damper characterized in that the coil makes contact with one of the edges above and below. in a hollow circular-shaped magnet and of U-shaped section and the wire of this coil is of aluminum of square section  11 - sound device according to claim 16 characterized in that the membrane is en oier tempered, the damper foam synthetic.  12 - acoustic sound device membrane  according to any re-soldering of 5 to 15 chars  what it can be of any geometric shape O  (I do not provide assembly details and fabrications  since I want to personally exploit this membrane)  13-Acousto-Elektrophonic Music Instrument  according to 1 one or more of the claims t  4 to 4 characterized by an acoustic sound device and a membrane any one of claims 5 to 12