TW200941451A - Sound recurrence apparatus and system - Google Patents

Abstract

A sound recurrence system includes: a first stringed instrument; a pick up device is provided on the first stringed instrument to sense the sound and converted into a first output sound signal; a recording device is electrically connected the pick up device which is recorded and broadcast the first sound output signal to produce a second sound output signal; an amplifier is electrically connected to the recording device to produce an amplified sound input signal; an actuator is generated a mechanical vibration according to the amplified sound input signal; and a resonator is generated the resonance according to the mechanical vibration, and the resonator is used as the sound output device to send out the sound.

Description

200941451 IX. INSTRUCTIONS: [Technical Field] The present invention mainly discloses a sound reproducing device and system, in particular, a combination of an actuator and a clamping device, which can be clamped on any resonance body by weight Now, the vibration phenomenon when the resonance body sounds' reproduces the sound reproduction device and system of the original sound. [Prior Art]

The current recording technology and audio design _ the main goal is that the village age is not _ time and location to achieve the original sound reproduction effect. Through the highest _ audio equipment, people can enjoy music and music in different occasions. The existing audio bribes use a variety of output devices that are used as sounds to transmit the recorded sound through the Weng output to the original sound. In order to simulate the original sound effect when the instrument is played, it must be done with multiple expensive microphones. The current recording process begins with the sound of the sound. After the sound is emitted, the sound is transmitted to the microphone via the air. The sound is then converted to electronic video by the microphone. Then it may be necessary to make a difficult mix to obtain the approximate sound. Effect; broadcast _ renewed voice electronic confession and whispering, to Μ Μ lie 方 观 观 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Many of the recording techniques === the silk, pay attention to distortion; and when the recording of the instrument through the sound of the sound of the ship, the process of zooming in the signal and pushing the sound of the sound also have inevitable distortion, The quality of audio equipment such as gamma 4 is more affecting the sound quality, and it is necessary to pay a very high cost to achieve the original sound and rhyme. The way to know the sound is to use the left-handed real edge to play the scales _ Qianshun sound, no matter how the sound, after all, Λ silk 妓 completely nothing. The lake, the open patent lion _5 series revealed that the combination of the tablet violin keyboard did not make any invention for reproducing the sound of the 200941451 acoustic instrument. The open patent TW00466468 proposes an application for exciting the pronunciation of a panel on a stringed instrument, so that the stringed instrument itself emits the sound processed by the effector, and the playback of the stringed instrument (:1) music does not make any invention for the original sound reproduction; and its implementation is lacking Convenience, the structure of the existing stringed instrument must be destroyed or changed, so it cannot be accepted by the market. • In the case of a stringed instrument, the vocalization of a stringed instrument is to first cause mechanical vibration of the string by plucking the strings (such as a guitar), rubbing the strings (such as a violin), or striking a string (such as a piano); The frequency of the mechanical vibration of the strings depends on the effective chord length, the material of the strings, the thickness of the strings, and the tension of the strings; the mechanical vibration of the strings is transmitted to the panel through the bridge to resonate the panel; the resonance of the panel is transmitted to The speaker produces the resonance of the resonance cavity, forming a sound that has a special tone of the stringed instrument. The tone of the instrument depends on the resonant structure of the panel and the speaker. Various string instruments such as violins, guitars, and cymbals have their own structure, and the resulting sounds have their own characteristics. The invention can make the performance of the stringed instrument achieve the effect of reproducing the original sound. The original acoustic string instrument must contain the complete resonance cavity structure for the transphonic color, so the bulky is not convenient for the modern stage performance electronic music (four) but meets the needs of the modern stage, but can not perfectly simulate the sound of the original vocal H, so it can only be convenient Sex and tone ship - choice. The new concept of this invention can take into account the advantages of the original acoustic instrument and the electronic musical instrument, and avoid the disadvantages of both. When electronic music is played through a keyboard or a computer, you want to create the sound of the original sound instrument - straight - a big obstacle; the conventional sound synthesizer has an FM synthesizer (FM Liu _ (4), wave table synthesizer ( Wavetable Synthesizer), physical model synthesizer m〇dding synthesizer), where the FM synthesizer is the simplest 'but the effect is poor, far from the real instrument sound, the wave table σ into 11 纟 according to a large number of memory m and the change of the timbre Enthusiastic; physical model synthesizers require complex theory and high-speed computer computing capabilities, and each instrument has a slightly different structure, and it is necessary to re-examine the complexity. The invention breaks through the bottleneck of the electronic music 200941451 sound, so that the electronic music can also have the sound of the original sound instrument. SUMMARY OF THE INVENTION The present invention has been proposed for the purpose of sound reproduction, and the sound reproduction is so secret that any object that is vocalized by resonance can be reproduced at different times or places. At the same time, in order to make the product more suitable for the market demand, the invention is combined with the actuator to facilitate the (4) fine device, so that the scope of the system is greatly increased, and the user is prevented from being transformed or destroyed by the existing music (4), and the user is allowed to be ___ Can share

The fun of doing it yourself' makes it possible for the object to be clipped as an output device that can be reproduced by the user as a sound. The conventional recording method is to reproduce the sound propagating in the air, and the purpose of the present invention is to reproduce the resonance condition of (4) in the process of forming the piano sound, and to generate the sound of the instrument by the resonance of the instrument itself. Good recipe: in the Hexian music, picking up the sound, picking up the bridge of the stringed instrument or the sound of the string (4) panel position; then transmitting the sound vibration signal to the recording and playback device; when the original sound is needed, The sound vibration signal is output from the recording and playback device, and is transmitted to the actuator at the position of the bridge or the panel, and the bridge that activates the inspection string (4) is turned on; the vibration of the panel is transmitted to the speaker, and the speaker is The effect of resonance in the resonance cavity is caused by the difference between the chord (four) panel and the structure of the sound, which will result in a non-resonant effect and a non-frequency response, thus forming a special tone of the string (four). Since various string instruments such as violins, guitars, and cymbals have their own structure, the resulting sounds are unique. The sound reproduction of the present invention uses Φ to reproduce the string (four) resonance image of the panel and the speaker when playing, to reproduce the phase with the live performance _ timbre and sound effect ^ the above vibration is generated by the vibration of the actuator The stringed instrument of the sound can also be performed on the sound recording material and the sound money _ _ _ (four), 疋 the string n as a resonance body, or the resonance body as a string correction - part of this = reproduce the sound of the stringed instrument. In addition, the resonating body may not be part of the stringed instrument, and the scorpion may select various non-constructions to cause various (4) fading changes in the sound reproduction. Here to __, such as the body of the selection of the sound reduction of the ship's resonance body, Mei (four) er _ (four) Saki. The closer to = ke makes the sound not _ reproduce, you can also make the sound in the same, ==:=: the sound of the sound is shaken instantly in other different _: contains two is the string _ two parts, ^ l Another part containing 3 用来 is used for pronunciation. Musicians can 邋 参 - - - Bit: Two t-light instruments are played on stage, by vibrating the sound of a portable instrument while being in a different color. The sound of the resonance chamber is heavy _ hair (four) surface sound, and the thief still has a beautiful _ acoustic instrument sound side side peach surface weight gain, cavity material and knot == the sound of the instrument depends on the frequency response of the stringed instrument, the resonance of the stringed instrument in the material With two 2 [micro wei ities will make their frequency response greatly independent. Cheap stringed instruments String I's I* Sun's expensive stringed instrument. In order to make the cheap stringed instrument also expensive, it does not immediately send the sound vibration picked up from the original stringed instrument back to the stringed instrument, and/or 疋 instantly shakes the sound picked up from the original stringed instrument through the sound effect of the professional instrument to resonate the resonance effect. , you can reproduce the resonance cavity effect of the string on the cheap stringed instrument. You can increase the volume of the county string instrument when playing. In order to make the product more in line with the market demand, 'in combination with the actuator and the clamping device, it should be increased' and greatly improve the implementation of the manufacturer, but it can eliminate the damage to the structure of the current 2 or other resonators. Change, it will allow users to fully enjoy the fun of their own movements - the thing that can hide the oil and the sound of the sound can be output by the user Bazhen County. When Xiang Jiaqi is placed to actuate the surface of the resonator, the mechanical vibration generated is transmitted to the resonator, causing the resonator to resonate and emit sound. When the solid device is combined with the actuator, it can be used for sound reproduction alone; when the clamping device is combined with the 200941451 actuator and the pickup, the same device can be used to complete the sound pickup and reproduction. Electronic music produces a bottleneck in the sound of a true stringed instrument. We first use traditional sound synthesis methods such as physical modeling synthesize, wavetable synthesize or FM synthesize to synthesize mechanical vibration signals of strings and then mechanical vibration signals of strings. An actuator that is transmitted to a position near the bridge of a real stringed instrument, vibrates the bridge of the stringed instrument or the panel near the bridge through the actuator; causes the panel near the bridge to vibrate, thereby making the panel of the entire stringed instrument Resonance is generated, which is transmitted to the body and the speaker, and the resonant cavity resonance effect is produced in the well-designed speaker, thus forming a special tone of the string device. The stringed instrument can only have the structure of the speaker, omitting the structure such as the string and the neck. The position of the actuator is preferably the bridge, but it is not limited to the bridge. Alternatively, the signal transmitted to the actuator may be replaced with another sound source device without using a sound synthesizer. For stringed instrument players, the aforementioned sound reproducing device incorporating the clamping device and the actuator has the characteristics of being convenient to use and having minimal damage to the instrument. We further replaced the clamping device with a bridge and developed a bridge that incorporates an actuator. Because stringed instrument users (such as cellist) love the expensive instruments, we have developed bridges that incorporate actuators and bridges that combine actuators and pickups to allow players to replace them at any time while avoiding stringed instruments. Significant modifications and damages • It is less likely to interfere with performance than the aforementioned combination of clamping devices and actuators in actual performance. According to the above, the present invention discloses a sound reproducing device comprising: a clamping device for mounting and dismounting on an object surface in a clamping manner; and an actuator disposed on the clamping device, according to The sound source inputs a signal to produce mechanical vibration. The invention also discloses a sound reproducing device comprising: a sound source device, which outputs a sound source nickname, an actuator, generates mechanical vibration according to the sound source signal; and a clamping device for carrying the actuator And used to clamp to an object; the actuator is disposed on the clamping device. The invention further comprises: a sound source device for extracting a sound source signal; a resonance body for using a sound output device; and a clamping device for fixing the resonator; and - Lai ^ ' is placed on the device, the root noise source generates mechanical vibration and 200941451 is transmitted to the resonator, so that the resonator generates resonance and emits a sound. The present invention also discloses a sound reproduction system comprising: at least a first-string musical instrument; at least one pickup is disposed on the first-string musical instrument for sensing sound, and converting the sound into at least one sound source output, at least An amplifier for generating at least one amplified sound source input subtraction based on the sound source output signal, at least an actuator for generating mechanical vibration according to the amplified sound source input signal; and at least a resonating body, the actuating n being disposed on the filament body And the resonating body resonates according to the mechanical vibration generated by the actuator, thereby generating a sound. The present invention discloses a sound reproduction system comprising: at least one first stringed instrument; at least one pickup stomach is disposed on the stringed instrument for sensing a sound and converting the sound into at least one sound source output signal At least-amplifier, according to the sound source output signal, generates at least one amplified sound source input nickname 'at least-actuator, generates mechanical vibration according to the amplified sound source input signal, at least one resonant body, the actuator is disposed at the a resonance body that resonates according to mechanical vibration generated by the actuator to generate a sound; and at least one curing device, the actuator is disposed on the cooling device and the clamping device can be clamped Or disassembled in the resonator. The invention further discloses a sound reproduction system comprising: at least an H musical instrument; at least one pickup is disposed on the first-string musical instrument, sensing a sound, and converting the sound into at least one first-sound source output signal; The sound device is electrically connected to the pickup for recording the first sound source output signal, and playing the recorded first sound source output thief, and outputting the at least one second sound source input signal; at least one amplifier, according to The second sound source input signal generates at least one amplified sound source input signal; at least an actuator detects mechanical vibration according to the amplified sound source input signal; and at least - a resonator 'the actuator is disposed on the resonance ceremony, The resonance body resonates according to the mechanical vibration generated by the actuator, thereby generating a sound. According to the above, the present invention discloses a sound reproduction system that can generate a sound of a true stringed instrument, comprising: - a sound source device that outputs at least one sound source signal; and at least one amplifier that generates at least one amplified sound source signal according to the sound source signal; An actuator that generates mechanical vibration according to the amplified sound source signal; and at least the speaker 'at least includes a structure of a stringed instrument speaker for generating an effect with the 200941451' and the speaker has the same frequency response as the stringed instrument, and the speaker The vibration, and then the appearance of the speaker, according to the rhythm vibration generated by the freshness, the co-propagation of the characteristics of the co-propagation of the moon is very detailed. The following is a detailed description of the preferred embodiment. (For details: Objectives, Structure, Features, and Functions, Step-by-Step Understanding, Silking Embodiments [Embodiment]

The direction of this _ is the sound device and system, especially a sound reproduction device and system that combines sitting and crying, 1 main S device, on the stringed instrument, by reproducing the string when the panel and speaker are missing. The phenomenon of resonance, to reproduce the same tone and sound as when playing a real person. In order to understand the side of the examination, the detailed description of the listed description towel and the other aspects are mentioned in the present invention. Detailed circuit layout and device structure of the device are described in detail to avoid causing unnecessary invention of the present invention. The first embodiment of the present invention will be described in detail below, in addition to these detailed descriptions, the present invention also It can be widely implemented in other implementations and the scope of this development is not limited, which is subject to the scope of the patents that follow.

The invention raises the 丨-view new method, and waits for the sound to enter the air secret broadcast, * when the sound is still in the mechanical structure t vibration propagation (four) the sound (four) vibration wave is converted into an electronic ship recording. When broadcasting, the object of music or other resonant structure is used as the sound transmission iH device, which directly restores the vibration propagation of the initial sound in the mechanical structure of the instrument. Therefore, it is more highly faxable to achieve the original sound reproduction. . At the same time, in order to make the production more suitable for the field, the fine range is greatly increased, so that the actuator is combined with the SI device. This also avoids damage and changes to the existing instrument or other resonating structure. Any object that can be clamped and vibrated can be used by the user as a resonance 200941451 to output sound. When the actuator is clamped to the surface of the resonator by the clamping device, the mechanical vibration generated by the actuator is transmitted to the resonator, and the resonator is resonated to emit sound. When the clamping device is combined with the actuating n, it can be used for sound reproduction; when the actuator is combined with the pickup, the same device can be used to complete the pickup and reproduction of the sound. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic cross-sectional view showing a clamping device disclosed in the present invention. As shown in FIG. 1, the clamping device 10 has an upper plate 102 and a lower plate 1〇4, and the upper plate 102 and the lower plate 1〇4 are connected by a rotating shaft 106, and a rotating shaft is used to apply a When the external force is applied to the upper plate 102 and the lower plate 1〇4, the upper plate 102 and the lower plate 1〇4 can be opened or closed according to the external force; wherein the clamp φ fixing device 10 can be a clothespin type, as shown in FIG. And further comprising a compressible elastic element, such as a magazine or a u-shaped metal piece, mechanically coupled to the rotating shaft 106 such that the upper plate 1〇2 and the lower plate 1〇4 are made of a compressible elastic element (not The compression shown in the figure and its elastic force are clamped to the object (not shown). In this embodiment, as shown in FIG. 2A, at least one cushion 210 may be disposed on one of the inner surfaces of the upper plate 1〇2 with respect to the surface of the lower plate 1〇4, and the cushion 210 may be, for example, rubber. Silicone, foam, etc., when the clamping device 1〇 is clamped to an object (not shown), such as a musical instrument, 'can protect the object from scratching the surface of the object when the clamping device 10 is clamped to the object; _ This cushion 210 also has the function of increasing friction to prevent the clamping device 10 from being detached from the clamped object when the object is vibrating; in addition, the vibration of the actuator is transmitted to the clamped body via the buffer 塾The object 'so the cushion has the function of adjusting the frequency response. Further, as shown in Fig. 2B, at least one magnetic device 220, such as a magnet, is disposed on the inner side of the upper plate 1〇2 and/or the lower plate 1〇4 of the clamping device 10. Therefore, when the clamping device 1 is clamped to an object (not shown), the upper plate 1 〇 2 and the lower plate 104 can be rotated by the magnetic device 220 by the magnetic device 220 and using the principle of magnetic attraction. The object which is adsorbed on the object, especially the magnetic material containing iron, abbreviated or recorded, especially the clamping device 10 having a compressible elastic element (not shown) can be produced not only by the magnetic device 22 The magnetic force is adsorbed on the object, and can be more firmly clamped to the object by the clamping force of the compressible elastic element; wherein the upper and lower sides of the upper plate 1〇2 and the lower 12200941451 plate 104 are magnetically opposite each other. The surface of the device 22 further includes a cushion 2 to prevent the clamping device 10 from scratching the surface of the object; the buffer 塾 21 〇 also has the function of increasing friction and adjusting the frequency response. Further, the 2C® indicates a schematic view in which a magnetic device is disposed on the lower surface of the lower plate of the clamping device. Here, the magnetic device 220 is disposed on the lower surface of the lower plate 104 of the clamping device 10; therefore, the clamping device 10 can be arbitrarily attached to the object having a magnetic material such as iron, cobalt, and lanthanum by the magnetic device 22 (not shown in the towel), Ke will be limited by the secret of the object itself. 3A and 3B are schematic cross-sectional views showing different embodiments of the clamping device disclosed in the present invention. As shown in FIG. 3A, the clamping device 10 has an upper plate 102 and a lower plate 1〇4, and a bracket 105' for connecting the upper plate 1〇2 and the lower plate 1〇4, and the upper plate 102 Or the lower plate 1〇4 has at least one screw hole 108; at least one screw 11〇 has a thread corresponding to the screw hole 1〇8, and is screwed through the screw hole 108, and the clamping device is tightened by the screw The tightening force is clamped to the surface of the object. In addition, the screw 110 may also include a rotating handle 112, which is indicated by a broken line in FIG. Referring to FIG. 3B, the upper plate 1〇2 and the lower plate 1〇4 each have a corresponding screw hole 1〇8A/1〇8B, and has a screw 110A of a rotating handle 112A and a rotating handle 112B. One of the screws 110B is threaded through the screw holes 108A and 108B of the upper plate 102 and the lower plate 104 respectively; therefore, the screws 110A and 110B can be adjusted to be screwed inward or both by rotating the upper and lower φ shanks 112A and U2B. Side rotation; therefore 'Depending on the size of the object (not shown), the rotation handles U2A and ii2B can be used to adjust the distance between the screw 110A and the screw 110B to clamp the clamping device 1 to the object (not It is shown in the figure; here, the shape of the rotary handles 112A and 112B may be a straight shape, a cross shape or a disk-shaped rotary handle. In addition, in FIGS. 2A to 2C, the cushion 210 and the magnetic device 220 are disposed at the position of the clamping device 10, and can also be implemented in the clamping device disclosed in FIGS. 3A and 3B. No more statements here. In addition, in the clamping device disclosed in FIG. 2A to FIG. 3B, at least one adhesive device (not shown) may be disposed in the position where the cushion 21〇 and the magnetic device 22 are disposed at the clamping device 10. It is used to assist the clamping device 10 to be clamped to an object (not shown). 13 200941451 Figures 4A through 4B are schematic illustrations of another embodiment of a clamping device in accordance with the present invention. In this embodiment, the upper plate 1〇2 of the clamping device 1 is composed of the first portion taking into account the second portion 1023; t is between the first portion and the second portion 1〇23 It is connected by a rotating shaft 1025 as shown in FIG. 4A; here, the second portion 1〇23 can be arbitrarily rotated by the rotating shaft 1〇25 as shown in FIG. 4B. And fixing the rotating shaft at a proper position to fix the position of the second portion 1G23 of the upper plate ι〇2'; when the second portion is rotated to the upper portion of the first portion, the first portion 1021 is overlapped. 5A through 5B are schematic representations of another embodiment of a clamping device in accordance with the present invention. In this embodiment, the upper plate of the clamping device 1 is composed of a first portion 1021 and a second portion 1023, wherein the second portion 1023 has at least one protrusion 1122; The 1021 has at least one groove 1124, and the first portion is deleted and the second portion is as shown in FIG. 5B. Here, the width and depth of the groove 1124 depend on the design of the projection 1122. Therefore, the second portion 1023 can be disposed on the first portion 1021 by the protrusion U22 and the recess 1124, whereby the second portion 1023 can be combined with the recess 1124 by the protrusion 1122. The first portion 1021 is telescoped inward or outward. In addition, the positions of the protrusions and the grooves can be interchanged to achieve the same function; that is, wherein the second portion 1023 of the upper plate 102 has at least one groove (not shown), the first portion 1021 has at least A projection (not shown) allows the first portion of the upper plate 1〇2 to telescope inwardly or outwardly by engaging the projection with the groove. Figure 5C shows another embodiment of the sound reproducing device, wherein the upper plate of the actuator 2 is composed of a first portion 1021 and a second portion 1〇23 and a third portion 1024, wherein the second portion 1023 can The third portion 1〇24 can be arbitrarily rotated by a rotating shaft 1〇25 to be inwardly or outwardly telescoped by the at least one protruding portion 1125 and the at least one recess 1126 being engaged with each other. Figure 6A is a schematic view showing the arrangement of the actuator on the clamping device. As shown in FIG. 6A, in the embodiment, the actuating device 20 is disposed on the upper plate 〇2 of the clamping device 1; the actuating device 20 can generate mechanical vibration according to the input signal of the sound source; The upper plate ι 2 of the device 1 has a groove 1 〇 28 (dotted line in the figure) and corresponds to one of the actuators 2 卡 2 〇 2, so that 14

200941451 Mounting or dismounting in the clamping device 10 ^ can also be corresponding to the first threaded structure: the screw and the cassette 202 are placed on the four-groove surface and rotated on the upper plate (10) of the central solid device 1::::Τ 'Then the actuator 10 can be screwed onto the upper plate 102 of the clamping device 20 so that the actuating device 2G can be lightly mounted or detached onto the lying device 1 . The first volume diagram shows a method of combining the actuator 20 with another of the clamping device 1〇. The actuator 2 includes a protrusion 203, and the plate 1 〇 2 on the upper portion 1 〇 2 has a groove expansion, and the actuator such as the protrusion 203 corresponds to the clamping device 1 〇 The groove of the upper plate ι〇2 causes the actuator 2G to be engaged with the groove by the projection 2G3, so that the actuator 2q can be telescoped inward or outward on the upper plate of the clamping device 1 1〇2. Figure 6C shows that a foam 2 ι can be added between the actuator 20 and the clamping device 1 , for the purpose of absorbing vibration. The lower surface of the actuator 2 亦 can also be added with a buffer 塾 21 〇, Used as a buffer for the vibration conduction between the actuator 20 and the central solid object (not shown in the figure). Figure 60 is a view showing another method of combining the actuator 20 and the clamping device 1A. The clamping device 1 has a screw hole 109'. The actuator 20 has a screw 213 and a rotating handle 212 through the screw hole. 109, the rotation between the actuator 2's and the clamped object (not shown) can be adjusted by the rotation of the screw 213. Here, the shape of the rotating handle 212 may be a straight shape, a cross shape or a disc-shaped rotating handle. According to the above-described structure of the clamping device 1A as shown in Figs. 1 to 5B, the clamping device 10 can be clamped to the object by the upper plate 102 and the lower plate 1〇4 (not shown in the figure). The actuator 2 on the surface of the clamping device 1 can generate mechanical vibration according to a sound source input signal. In addition, the sound source input signal used to cause the actuator 20 to generate mechanical vibration may also be first amplified by an amplifier (not shown) and then input to the actuator 2A to increase the vibration of the actuator 20. strength. An amplifier for amplifying the input signal of the sound source can also be disposed on the clamping device 10. 15 200941451 In an embodiment of the invention, the actuator 20 can be a variety of different types of actuators, such as electromagnetic actuation n, piezoelectric blue, or pure, where actuation (four) has For the -known technology 'in the role of the 剌 剌 ^ ^ 2G county into the step system, (d) to discuss the electronic circuit of the actuator or structural improvement, and the mechanical actuation and electronic circuit structure of various types of actuators It can be known from various published documents or books, and will not be described any more. When the clamping device is combined with the actuator, it can be used for sound reproduction alone; when the clamping device is combined with the actuator and the pickup, the same device can be used to complete the pickup and reproduction of the sound. Figure 6E is a schematic illustration of a sound reproducing apparatus according to the present invention, showing a pickup provided on a clamping device having an actuator. As shown in FIG. 6E, a pickup device 10 is further included in the clamping device 10 having the actuator 20, and the sound can be sensed by the pickup 30 and converted into a sound source output signal; and the recorder 20 can be Mechanical vibration is generated according to a sound source input signal; mechanical vibration generated by the actuator is transmitted to an object (not shown) that is clamped by the clamp device 1 to generate sound. In an embodiment of the present invention, the pickup 30 may be a variety of different types of pickups, such as: a condenser microphone, a moving coil microphone, a contact microphone, a lower string pillow pickup, a piezoelectric crystal pickup, a single coil electromagnetic pickup, and a double Coil electromagnetic pickups and moving coil pickups. φ Here, the pickup has been a conventional technique, and the pickup 30 used in the present invention is a further application 'instead of discussing the electronic circuit of the pickup or the structural improvement, and the mechanical actuation and electronics of various types of pickups. The circuit structure can be known from various published documents or books and will not be described any more. Fig. 6F is a block diagram showing the sound reproducing apparatus shown in Fig. 6. In addition, the sixth map can also include a preamplifier 1 § (not shown in the figure), the sound source output signal generated by the pickup 3 可以 can be amplified by a preamplifier (not shown in the figure); An amplifier (not shown) may be provided on the clamping device 10. Referring to Figure 6G, the block diagram of the sound reproducing apparatus according to the present invention is shown as 200941451. As shown in Fig. 6G, the sound reproducing apparatus includes: a clamping device 1A, an actuator 2A, and a pickup 30, wherein the actuator 20 and the pickup 30 are respectively disposed on the clamping device 1A. . Further, 'in the 0Gth picture' may further include a preamplifier 9〇2, which is indicated by a broken line in Fig. 6, and is connected to the pickup 3Q for amplifying the sound source output signal generated by the pickup 3(). In addition, the 'sound reproducing device can include a recording and playback device 908', which is indicated by a broken line in FIG. 6G, and is electrically connected to the pickup device 3〇 for recording the sound source output signal, and can play the recorded sounds and sounds as a sound. For the sound _ people Wei sent the new actuator 20. In addition, in FIG. 6G, at least one amplifier 4〇4 may be further included, which is indicated by a broken line in the sixth (} diagram, and is electrically connected to the recording and playback device 9〇8 and the actuator 2, respectively. The sound source input signal played by the recording and playback device 9〇8 is transmitted to the amplifier 404' before being transmitted to the actuator 2' to amplify the sound source input signal, and then transmitted to the actuator 2〇, so that the actuator 2 Therefore, when the pickup 30 senses the sound source output signal, the sound source output signal is transmitted to the preamplifier 902 to amplify the sound source output signal, and then the amplified sound source output signal is transmitted to the thief sound device. The recording material of 9G8 H green & health material is recorded in the recording and playback device 908; then, the sound source output recorded in the recording and playback device 9 (10) can be played as a sound source input signal to be transmitted to the amplifier 404 at any time. To amplify the sound source input signal ^ and then transmit it to the actuator 20, so that the actuator generates mechanical vibration. 丨 In addition, in FIG. 6G, a wireless signal transmission device 91〇 may be further included, in the figure The broken line indicates that the actuator generates mechanical vibration by wirelessly transmitting the signal to the actuator 20 by the wireless signal transmission device. Further, the preamplifier 9〇2 and the recording and playback device 9 are shown in Fig. 6G. Both the 〇8 and the amplifier 404 can be disposed on the clamping device 10. The wireless signal transmission devices shown in the embodiments of the present specification both include a wireless transmitter and a lineless receiver of 200941451, for simplicity of illustration, the wireless in the figure The signal transmission device only draws the wireless transmitter' and the portion of the wireless receiver is not shown in the figure. In the embodiment of the present specification, the recording and playback device 908 can be a variety of different recording and playback devices, such as computers, individuals. Digital assistant; PDA), iPod, voice recorder, MP3 player, MD, record player, and multi-track recording and playback system; wireless signal transmission device 910 can be selected from the following groups: mobile phone, wireless USB , Ultra Wide Band (UWB; Ultra Wide Band), Wireless Network Interface (WiFi), Bluetooth Interface and Microwave Access Global Interoperability Interface (WiMAX; Worldwide Inte Ropeability for Microwave Access)

, FM transceiver, frequency shift key transceiver ^psK; frequency shift key-in) and phase shift key transceiver (PSK; phase shift key-in). In addition, the object to be clamped as shown in the embodiment of the present specification may be any entity such as a house, a car, a table, a musical instrument, or a thin plate, etc., and the clamping device 10 may be clamped to the objects when actuated. The device 20 receives a source input signal and generates mechanical vibrations that can be emitted by the objects when they are transmitted to the objects to cause resonance. Next, Fig. 7 is a block diagram showing a sound reproducing apparatus disclosed in the present invention. As shown in FIG. 7, a sound reproducing device includes: a clamping device 1A, an actuator 2A, and a sound source device 40; wherein the sound source device 40 is configured to output a sound source signal; and the clamping device 1 is configured to The actuator 20 is carried and can be clamped to an object (not shown); the actuator 2 is disposed on the clamping device 10 to generate mechanical vibrations based on the source signal. In FIG. 7, the sound reproducing device may further include an amplifier 404, which is indicated by a broken line in FIG. 7, and is electrically connected to the sound source device 4A and the actuator 20 respectively to amplify the sound source signal. It is then transmitted to the actuator 2, causing the actuator to generate mechanical vibration. Thereby, the same sound as the sound source signal output from the sound source device 40 can be emitted on the object (not shown) clamped by the clamping device 1 to achieve the original sound reproduction. In addition, the sound source device 40 may further include an amplifier 402, which is indicated by a broken line in FIG. 7, and is electrically connected to the sound source device 40 and the actuator 20, respectively, for amplifying the sound source signal and then transmitting the sound source signal to the actuator. 20, causing the actuator 20 to generate mechanical vibration. Further, the sound source device 18 200941451 can be placed on the clamping device 10', which is indicated by a broken line in Fig. 7. In addition, the sound reproducing device may further include a wireless signal transmission device 91, which is indicated by a broken line in FIG. 7, and the sound source device 4 outputs a sound source output signal to the wireless signal transmission device 91, and then by wireless letter The transmission device (10) transmits the sound source output signal to the actuator 2〇 in a wireless communication manner, thereby causing the actuator to generate mechanical vibration. In the seventh embodiment, the structure of the clamping device 1() and the same The functions are the same as the previous ones, and no more statements are made here. Lin Gangshu's example towel, cutting, device can be a variety of paste sound positions, such as: computer, mobile phone, personal digital assistant (PDA), MD, iPod, voice recorder, mp3 player, record player, TV And a radio, a video game, a CD player, a DV 〇pkyer, and a sound synthesis. Referring to FIG. 8, a block diagram of another sound reproducing apparatus disclosed in the present invention is shown. As shown in FIG. 8, the sound reproducing device includes: a clamping device 10 having an actuator 2, a sound source device 40 for outputting a sound source signal; and a resonance body 5〇 as a sound output device; Thus, in the present embodiment, the sound source device 4 outputs a sound source signal to the actuator 20 provided on the detachment device 10, so that the actuator 20 generates mechanical vibration. Since the clamping device 1 is clamped on the resonator 50, the mechanical vibration of the actuator 20 is transmitted to the resonator 50, so that the resonator 50 resonates to emit sound, that is, the resonator is used as a sound output. The device emits a sound to achieve the purpose of sound reproduction. In addition, in FIG. 8, the resonant body 5〇 may further include a sounding board 502 and a resonance chamber 504, which are indicated by broken lines in FIG. 8, and therefore, the sound source signal output by the sound source device 4' is transmitted to the actuator. The mechanical vibration generated after 20 is transmitted to the sounding plate 5〇2 or the resonance cavity 504, so that the sounding plate 502 or the resonance cavity 504 resonates to emit sound. In addition, in FIG. 8, the sound reproducing device may further include a pickup 3〇, which is indicated by a broken line in FIG. 8 and is disposed on the clamping device 10 for sensing the sound 'and converting the sound into one The sound source output signal; particularly, in the embodiment, the sound sensed by the pickup 30 is different from the sound source signal output from the sound source device 4A. 19 200941451 In addition, in FIG. 8, the pickup 30 may have a 榫 (not shown) and corresponds to one of the grooves of the clamping device (not shown), so that the pickup 3〇 The clamping device 1 is mounted or detached by the latch and the recess. In addition, in Fig. 8, the pickup 30 may have a projection (not shown), and corresponding to the recess of the detachment device (not shown), so that the pickup is used The protrusion engages with the groove and telescopes inward or outward to be mounted or detached to the clamping device 10. Further, in Fig. 8, the sound reproducing device may further include a wireless signal transmitting device 91, which is indicated by a broken line in Fig. 8, and transmits the sound source signal output from the sound source device 40 to the actuator 20 by wireless communication. In addition, in Fig. 8, the sound source device 40 may be disposed on the clamping device 1A, and is indicated by a broken line in Fig. 8. In the embodiment shown in Fig. 8, the resonator 5' may be a stringed instrument. For example, the resonant body 50 can be a stringed instrument such as a violin, a guitar, a cymbal, a cymbal, a zither, or a guqin. Similarly, in the embodiment shown in Fig. 8, the structure of the clip@device 1() and its function are the same as described above, and will not be further described herein. ^ Figure 9 shows a block diagram of a sound reproduction system. As shown in Fig. 9, the sound reproduction system includes: at least a - stringed instrument 6G; at least "pickup 3 (), disposed on the first string = 60" to sense the sound, and convert the sound into At least - the sound source output signal; at least - the amplifier 4G4 generates at least __ amplified sound source input signal according to the sound source turn-off signal; at least the actuator 20 generates a machine motion according to the amplified sound source input signal; and at least one resonator body % And the actuator 2 is disposed on the resonator 5〇. Therefore, when the first stringed instrument 6 〇 produces a sound, the pickup 3 〇 senses the sound produced by the first stringed instrument 6 且 and converts the sound into at least one sound source output 彳 5 ' and then transmits the sound source output signal to The amplifier - to generate an amplified source output signal; then, the amplified source output signal is transmitted to the actuator 2 such that the actuator 20 produces mechanical vibration. Since the actuator 2 is disposed on the resonator 5 当 when the mechanical vibration of the actuator 20 200941451 resonates, the resonator 50 is used as a sound guitar, cymbal, cymbal, zither, guqin, etc. When vibrating, the resonator 50 emits a sound generated by the string-string H 6G according to the actuator 20 vibrating body 50, and outputs the device. The first stringed instrument 60 can be, for example, a violin or a stringed instrument. In Fig. 9, the resonating body 50 may contain at least one total of 5 〇 2, and in the 9th board, the 5G2 is in contact with the nin. When actuating-transmitting the amplified sound source fine signal to generate mechanical vibration, the resonance body 50 may include at least one first resonance chamber 5〇5, and the first resonance chamber 5 at the ninth 〇5 generates an amplified sound transmitted by the amplifier 4〇4 according to the mechanical vibration generated by the actuator. When the mechanical vibration is transmitted to the first resonance chamber 5〇5, the first resonance chamber is generated. 5〇5 produces resonance and acts as a sound input to emit the sound produced by the first stringed instrument (8). In addition, referring to FIG. 9 , a sound reproduction system according to the present invention may include at least a preamplifier 9G2, which is indicated by a broken line in FIG. 9 , and is electrically connected to the pickup 30 and the amplification Is 404 respectively; When the pickup 3 senses the sound generated by the first stringed instrument (9) and converts it into a sound source output, the sound source output signal is transmitted to the preamplifier 9〇2 for amplifying the sound source output signal in advance; Then, the amplified sound source output signal is transmitted to the amplifier 4〇4' to generate another-amplified sound source output signal woven and then the amplified sound source output signal is transmitted to the set at the common 5G thief 2G, Xia Zhi The actuator Μ generates mechanical vibration, and the resonance body 50 resonates to emit a sound generated by the first string. In addition, referring also to FIG. 9, the sound reproduction system may further include at least one volume adjustment circuit 904', which is indicated by a broken line in FIG. 9 and electrically connected to the amplifier 4〇4 and the actuator 2, respectively. 'It is used to control or adjust the sound transmitted by the amplifier 4〇4 to the volume adjustment circuit 9〇4 200941451 The source output is used to describe the sound size, and then transmitted to the blue ^ μ, m mechanical vibration, and then by /, The vibrating body 5 〇 generates resonance and emits a sound adjusted by the volume adjustment circuit. In addition, referring to FIG. 9, the sound reproduction system may further include at least one sound processing circuit 906', which is indicated by a broken line in FIG. 9 and electrically connected to the pickup % and the amplifier 4 (10) respectively, so that the pickup 30 is After sensing one of the sound source output signals output by the first stringed instrument 60, it is sent to the sound effect processing circuit 9〇6, and the sound source output signal is 曰 by the sound effect processing circuit 9〇6. The effect is changed, and then the processed sound source output signal is transmitted to the amplifier 4〇4, and the processed sound source output signal is amplified by the processor 404, and then transmitted to the actuator 2〇 to actuate the actuator 2 The mechanical vibration is generated and the resonance body 50 is caused to resonate by mechanical vibration of the actuator 20 so that the resonator 50 can function as a sound output device to emit a sound-processed sound source output signal. In the embodiment of the present specification, the sound effect processing circuit 9〇6 may be various sound processing circuits, for example, a reverb circuit, a harmony circuit (Ch〇njs), an equalization circuit (Equalization), and a dynamic a compression effect circuit (c〇mpress〇r), a delay circuit 1 or a pitch shifter, etc. In this embodiment, the resonator body 50 may be a second stringed instrument (not shown in the figure), It can be a stringed instrument such as a violin, a guitar, a cymbal, a cymbal, a zither, a guqin, etc. and the actuator 2 〇 is set at the position of the second stringed instrument to the right and the pickup 30 is the same as the position of the first stringed instrument. The original sound reproduction effect; in this case, taking the guitar as an example, when the first stringed instrument 6 is a guitar, the pickup 3 is set on the guitar's soundboard, and the actuator 20 is placed on the other guitar. Also on the soundboard, to reproduce the sound vibration on the soundboard. If the pickup 3 is placed on the bridge of the guitar, the actuator 20 can be placed on the other guitar and also on the bridge. Best original sound reproduction Here, the 'resonant body 50 may or may not be part of the first stringed instrument 6〇, when the resonator body 5〇 is part of the first stringed instrument 60 (indicated by a broken line in FIG. 9), the actuator 2 〇Setting on a total of 22 200941451 on the vibrating body 50' and the resonating body is the _string (four) __ part ^ At this time, if you want to get the best effect of the original sound reproduction, you can choose to set the actuator 2〇 to the same as the pickup % The position is based on the first-stringed instrument 6〇 as the guitar, the resonator % is the guitar speaker, including the panel: the side panel and the back panel are inspected, and the position of the pickup is placed in the bridge position. When the actuator 20 is disposed at the position of the bridge, the best effect of reproducing the original sound can be obtained. In addition, the resonant body 50 can include at least one sounding plate 5〇2, and the sounding plate 5〇2 is generated according to the actuator 20. The mechanical vibration generates resonance and can be emitted by the soundboard 5〇2; in addition, the resonator 50 can include at least one first resonance chamber 5〇5 such that the first resonance chamber can be generated according to the mechanism generated by the actuator 20. Resonating by vibration; and the first stringed instrument 60 contains at least The second resonance chamber 506' and when the first resonance chamber 505 and the second resonance chamber 5〇6 have the same structure, the best original sound reproduction effect can be obtained. Here, the first stringed instrument 6〇 is used as a guitar. An example in which the first resonance chamber 505 and the second resonance chamber 5〇6 have the same structure, the second resonance chamber is a speaker of the first stringed instrument 6〇 (guitar), and comprises a panel, a side plate and a back plate; the resonance body 50 includes a first resonance chamber 505, and the structure of the first resonance chamber 505 is exactly the same as that of the first stringed instrument 6 (guitar), and the resonance body 5 has the same panel, side panel and the first stringed instrument 60 (guitar) The speaker structure such as the backboard; the resonance body 5〇φ may not include the structure other than the neck, the fingerboard, the strings, the head of the guitar, etc.; the sound emitted by the first stringed instrument 60 (guitar) can pass through the pickup 3 The 〇 is converted into a sound source signal and transmitted to the actuator 20 to generate mechanical vibration, and the resonance body 5 具有 having the same guitar speaker structure is resonated to emit the same sound as the first stringed instrument 60 (guitar) to achieve the original sound reproduction. The purpose. In the above embodiment, the 'resonant body 50' may be a stringed instrument such as a violin, a guitar, a cymbal, a cymbal, a zither or a guqin. It should be added here that 'the sound of the sound picked up on a stringed instrument can be reproduced on other different resonating bodies instantly, and the concept of a separate stringed instrument can be realized, that is, the stringed instrument can be divided into two parts, including the string. That part is used to play, including the other part of the speaker. 23 200941451 = Acoustic = hand can carry a portable instrument without a resonance chamber to play on the stage, by recreating the resonance chamber of the portable (four) sound __ stage another position The sound of the performance is played, and the sound of the original acoustic instrument can still be preserved.

. In addition, it is necessary to add that since the tone of the string H depends on the frequency response of the stringed instrument, the slight difference between the material and structure of the stringed instrument will make the frequency response greatly different. ▲The stringed instrument should be different in material and structure. It is better to blame _ (four). In order to make the cheap stringed instrument also emit the sound of the expensive string H', we immediately send the sound vibration picked up from the original stringed instrument back to the string (four) different parts' or instantly shake the sound picked up from the county stringed instrument through the sound effect. After processing, and then sending the phonograph to the resonance effect, the volume of the resonance chamber of the expensive string H core can be reproduced on the cheap stringed instrument, and the volume of the county string instrument can be clearly displayed. Figure 10 is a block diagram showing a sound reproduction line. As shown in Fig. 1G, a sound reproduction system includes: at least a first stringed instrument 60; at least one pickup 30 disposed on the stringed instrument 6G. Sensing the sound, and converting the sound into at least a sound source output signal; at least - amplifying H 4G4, generating at least - amplifying the sound source input signal according to the sound source output signal; at least the actuator 20 is disposed on the clamping device 1G, The mechanical vibration is generated according to the input signal of the amplified sound source; and at least the resonator 50 having the actuator 2G is clamped to the resonator 50 by the loss-relief device 1 . The main difference between Fig. 10 and Fig. 9 is that in Fig. 9, the actuator 20 is disposed directly on the resonator 5〇 (or the resonance plate 5〇2 or resonance set in the resonance body%). In the first embodiment, the actuator 2 is disposed on the clamping device 1 and is clamped to the resonator 50 by the clamping device 10 (or is disposed on the resonator 5). The sound board 5〇2 or the resonance chamber 504). Therefore, by the sturdy solid device 1() having the actuator 2, it is cooled on the resonator 50, and the resonance generated by the resonator 5 同样 can also generate the sound generated by the first stringed instrument 6 。. Similarly, in the embodiment shown in Fig. 1, the structure of the clamping device 1 and its action are the same as described above, and the description thereof will not be repeated here. Figure 11 is a block diagram showing another sound reproduction system. As shown in the U, a sound reproduction system includes: at least one first stringed instrument 60; at least one pickup 3' is disposed on the 24 200941451 string-stringed instrument 60 for sensing sound and converting the sound into At least the signal, ·-recording and playback _, connected to the pickup 3Q, shaft =

Detecting and converting the first-sound source output signal, and playing the recorded first-tone second number, and outputting it as at least a second-source input signal; at least one amplifier 4〇4, connected to the recording and playback eroticity a second sound source input signal, generating at least one amplified sound source input signal; at least - an actuator 20, generating mechanical vibration according to the amplified sound source input signal; and at least one resonant body 50 'New (four) 2G is disposed on the resonator body %, resonance (4) Resonance is generated by the mechanical vibration generated by the actuator, and the sound is emitted as a sound output device by the resonator 5 。. The biggest difference between the 11th and the 10th is that the embodiment of the first embodiment includes a recording and playback device 908, which is electrically connected to the pickup 30 and the amplifier 4〇4, respectively, and is sensed by the pickup 30. The first stringed instrument 6 转换 is converted into a sound source output signal, and the sound source output signal is transmitted to the recording and playback device 9 () 8 to record the sound source output signal; when the recording and playback device 908 plays the recorded When the first sound source outputs a signal, the play output becomes a sound source input signal; the sound source input signal is transmitted to the amplifier 4G4 to generate an amplified sound source input nickname, and then the amplified sound source input signal is transmitted to the actuator 2〇, The actuator 2 is caused to generate mechanical vibration, which is transmitted to the resonator so that the resonator 5 共振 resonates, and the resonator 50 acts as a sound output device to emit the same sound as the first stringed instrument 6 。. Thus the embodiment of Fig. u can choose to reproduce the original sound at different times. In addition, at least one preamplifier 9〇2 may be added to Fig. 11, and is electrically connected to the pickup 30 in Fig. u for amplifying the first sound source output signal. In addition, at least one first volume adjustment circuit 904A may be added in FIG. 11 , which is indicated by a broken line in the nth diagram, and is electrically connected to the recording and playback device 908 and the amplifier 404 respectively for adjusting the second audio input. signal. The recording and playback device 908 transmits the played audio source input signal to the first volume adjustment circuit 904A to adjust the volume of the audio source input signal, and then transmits the adjusted audio source input signal to the amplifier 404 to generate an amplified audio source input signal; Down, the amplified sound source input signal is transmitted to the actuator 20 disposed on the clamping device 1 such that 25 200941451 5〇 generates resonance' and the mechanical vibration is generated by the common volume and through the volume adjustment actuator 20, The sandwiched vibrating body 50 is used as a sound output device to emit a sound from the first stringed instrument 6 . In addition, at least the second volume adjustment circuit Na can be added to the figure, which is indicated by a broken line in the nth figure, and is electrically connected to the amplifier and the actuator 2, respectively. When the amplified write 4〇4 receives a sound source output signal and generates a-amplified sound source output signal; then, the amplified sound source is sent (four) to the second volume adjustment circuit 9 (ΜΒ, the rib of the amplified sound source output signal The volume, and then the adjusted sound source output signal is transmitted to the actuator 2〇, so that #四(4)2G generates the class_, and the total of 5G produces the ship, and the body 50 is turned as the sound output device by the first The sound is generated by the stringed instrument 6G and is adjusted by the volume. In the embodiment, the first volume adjustment circuit 9G4A and the second volume adjustment circuit 904B are included in the off-state. In addition, at least 11 of the embodiment can be added. An audio processing circuit 9〇6, which is indicated by a broken line in FIG. 11 is electrically connected to the recording and playback device 908 and the amplifier 404 respectively; the recording and playback device 908 transmits the played audio source input signal to the sound effect processing circuit 9〇6. Perform sound processing on the sound source wheeling signal, and then transmit the sound source processed sound source input signal to the amplifier 404 404 to generate an amplified sound source input signal; next, the amplified sound source is input. The signal is transmitted to the actuator 20' disposed on the clamping device 10 such that the actuator 20 generates mechanical vibrations, so that the clamped resonator 50 resonates and is emitted by the resonator 50 as a sound output device. The sound processed by the first stringed instrument 60 and processed by the sound effect. The sound effect processing circuit 906 shown in the embodiment of the present specification may be various sound processing circuits, such as a reverb circuit (Reverb) and a harmony circuit (Chorus). , equalization circuit (Equalization), dynamic compression effect circuit (Compressor), delay circuit (Delay) and transposition effect circuit (Pitch shifter), etc. In addition, at least one clamping device 10 can be added to FIG. 11 of the embodiment. The actuator 20 can be disposed on the clamping device 10 and is detached from the resonator 50 by the clamping device 10, which can be mounted or detached, as indicated by a broken line in FIG. 26 200941451. The pickup body 30 of the present embodiment may also be disposed on a clamping device (not shown) and clamped to the first stringed instrument (9) by a clamping device, the clamping body Device can Mounted or disassembled on the first stringed instrument 6〇. When the resonating body 5〇 is a part of the stringed instrument 6〇 (not shown in the figure), the pickup 30 and the actuator 2〇 may be disposed in the same clamping device In addition, in the eleventh figure, the resonating body 50 may be a second stringed instrument (not shown), for example, "the piano, the guitar H阮, the kite, Guqin and other strings H. And actuator 2. Set in the position of the second stringed instrument, if the pickup g 3G is set in the first bribe (four) position, there is the best original sound reproduction effect, here is the guitar as an example. When the first-stringed instrument (9) is - the guitar is set, the pickup % is set on the guitar's soundboard, and the actuator 2 is placed on the other guitar position. The same is also on the soundboard. Sound shop. If the pickup 3Q is placed on the bridge of the guitar, the position of the actuator 3 20 i placed on the other guitar is also on the bridge to achieve the best original reproduction. In addition, the position of the pickup on the stringed instrument 6() is best in the vicinity of the bridge or bridge. 7 ❿ Here, the resonator 50 may or may not be part of the first stringed instrument 60, when the resonator 5 is a part of the stringed instrument 6G (not shown), the actuator 2 () is set On the resonating body 50 in the range of the first stringed instrument, at this time, in order to obtain the best effect of the original sound reproduction, the actuator 20 can be selected to be disposed at the same position as the pickup 3, where the first stringed instrument 6 is used. For example, the guitar "resonant 5G is a guitar speaker" consists of a panel, a side panel and a back panel. If the pickup 30 is selected to be placed at the bridge position, the actuator 2 is also disposed on the bridge. In the position, the best effect of the original sound reproduction can be obtained. In addition, the resonator 5G can include at least one sounding board 502' and is common. The black plate 502 resonates according to the mechanical vibration generated by the actuation of g 2 , and can be sounded by the sounding plate 502; in addition, the resonant body 50 can include at least a - resonance cavity 5〇5 to make the first resonance The cavity can resonate according to the mechanical vibration generated by the actuator 2〇; 27 200941451 3 stringed instruments 60 to 2 include a second resonance cavity, and when the first resonance cavity milk has the same structure as the second cavity 506, You can get the best original sound reproduction. Here, the first-stringed instrument 60 is used as the -the resonance chamber 5〇5 and the second example. The second resonance chamber is the first-string instrument...1" has a phase I structure, 6〇 (0 him) Speaker, including panel, side panel and back

The resonance body 50 includes a first common cavity 5〇5, and the structure of the first resonance is exactly the same as that of the stringed instrument 6〇 (guitar), and the resonance body has the same as the first stringed instrument. He) the same panel, side panel and back panel and other speaker structure; the resonance body 5〇 can not include the structure other than the speaker: piano =, fingerboard, string, head and other speakers; by the first string (four) (guitar) The emitted sound can be converted into a sound source signal through the pickup 3 to be transmitted to the actuator 2 to generate mechanical vibration, and the resonator 50 having the same guitar speaker structure is resonated to be emitted with the first stringed instrument 60 (guitar). The same sound to achieve the purpose of the original sound reproduction. In the above embodiment, the resonating body 5〇 may be a violin, a guitar, or a stringed string instrument. f hundred, find a Bu, in the 11th figure can also add at least - wireless signal transmission device (not shown in the figure), set in the recording and playback device 9 〇 8 and the pickup 3 〇 or the amplifier 4 〇 4 The first audio source output signal or the second audio source input signal is transmitted in communication. Similarly, in the embodiment shown in FIG. 11, it is the same as the foregoing, and will not be further described herein. The structure of the clamping device 10 and its function, the jl2 嶋 green-type sound reproduction device, includes: - Qinqiao 8G, made in a stringed instrument, 提, violin, guitar, Kunyu, 阮, 筝, Guqin and other stringed instruments Qinqiaosheng machinery ^ actuation (four), set. Qinqiao 8G, according to at least - the source of the input signal to produce charm = * 12th figure can also contain at least - pickup 3G' in the 12th figure is shown by the dotted line, set Lost on the 8th bridge of the bridge, the ribs are fine, and the sound is turned to the sound source. In addition, Fig. 12 may further include at least one amplifier 404' indicated by a broken line in Fig. 12, 28 200941451 amplifying the sound source input signal to be input to the actuator 20, so that the actuator generates mechanical vibration. In addition, FIG. 12 may further include at least one recording and playback device 9〇8, which is indicated by a broken line in FIG. 12, for recording the sound source rotation signal from the pickup 30, and for playing the sound source input signal to the actuator. 20. In addition, FIG. 12 may further include at least one wireless signal transmission device (not shown) for transmitting a sound source input signal to the actuator 20 to the actuator 2 in wireless communication, so that the actuator is generated. Mechanical vibration. Next, Figure 13 is a block diagram showing a sound reproduction system capable of producing a true stringed instrument sound, comprising: a sound source device 4? for outputting at least one sound source signal; at least one amplifier 404, Amplifying the sound source signal outputted by the sound source device 40, generating at least - amplifying the sound source signal according to the sound source signal; at least - an actuator 2G, generating mechanical vibration according to the amplified sound source signal; and at least one speaker 70, comprising at least one The structure of the stringed instrument speaker is used to produce the same resonance cavity effect as the stringed instrument, and the speaker 7 has the same frequency response as the stringed instrument, and the actuator 20 is disposed on the speaker 70 such that the speaker 70 is based on the actuator 2 The generated mechanical vibrations resonate and sound. Therefore, when the sound source device 40 outputs a sound source signal, it can be transmitted to the amplifier 4〇4 to amplify the sound source signal; then, the amplified sound source signal is transmitted to the actuator 20 disposed on the speaker 7〇, The actuator 20 generates mechanical vibration which is transmitted to the speaker %, produces a resonance cavity effect in the speaker 7〇 as a stringed instrument, and sounds from the speaker 7 as a stringed instrument. In this case, the soundboard structure included in the speaker 7G is the same as that of the __ recorder, such as violin, guitar, thief, cymbal, zither, guqin, etc. The speaker 7G can also be a string instrument, such as a violin, guitar, m阮, zither, guqin, etc., at this time, the effect of the original sound of the stringed instrument can be reproduced most. Further, the sound source device 40 of Fig. 13 may include at least one sound synthesizer 41, which is indicated by a broken line in the figure. 'The sound synthesizer has a physical model synthesizer (Physical ModelingsyntheSizer>, 29 200941451 wavetable synthesizer) and FM synthesis. In addition, FIG. 13 may further include a wireless signal transmission device 91, disposed between the sound source device 40 and the amplifier 404, and transmitting the sound source signal output by the sound source device by wireless communication. In Fig. 13, at least one clamping device 1〇 may be included, the actuator 2〇 is disposed on the clamping device 10, and the clamping device 10 can be clamped and detached to the speaker 70. • Similarly, in the first In the embodiment shown in Fig. 13, the structure of the clamping device 10 and its function are the same as described above, and will not be further described here. • It is to be added here that the conventional sound synthesis method such as physical model synthesis is used first. Physical modeling synthesize, wavetable synthesize* FM synthesize to synthesize the mechanical vibration signal of the string, and then the string machine The vibration signal is transmitted to an actuator mounted near the bridge of the real stringed instrument, vibrating the bridge of the stringed instrument or the panel near the bridge through the actuator; causing the panel near the bridge to vibrate, thereby making the entire stringed instrument The panel generates resonance, which is transmitted to the hammer and the speaker, and produces resonance resonance in the well-designed speaker, thus forming a special tone of the stringed instrument. The stringed instrument can only have the structure of the speaker, omitting the string and the piano. The structure of the neck, etc. The position of the actuator is optimally selected as the bridge 'but not limited to the bridge. The signal transmitted to the actuator can also be used without the sound mixer, and other sound source devices can be used. The present invention is not limited to the above-described preferred embodiments, and it is not intended to limit the invention. Any one skilled in the art can make some changes and adjustments without departing from the spirit and scope of the invention. Therefore, the scope of patent protection of the present invention is subject to the definition of the patent application scope attached to the specification. According to the technology disclosed in the present invention, the cross-section of the clamping device is shown as a circle; and the second embodiment is based on the technique disclosed in the present invention, showing a cross-section of the cushion surface on the side surface of the upper and lower plates 30 200941451 of the clamping device. 2B is a schematic cross-sectional view showing a magnetic device on the inner surface of the upper plate and the lower plate of the clamping device according to the technology disclosed in the present invention; FIG. 2C is a magnetic representation according to the technology disclosed in the present invention. A schematic view of the device disposed on the lower surface of the lower plate of the clamping device; FIGS. 3A and 3B are schematic cross-sectional views showing different embodiments of the clamping device according to the disclosed technology; ® 4A to 4B Figure 5 is a schematic view showing another embodiment of a clamping device according to the technology disclosed in the present invention; Figures 5A to 5B are schematic views showing another embodiment of the clamping device according to the technology disclosed in the present invention; 5C is a diagram showing another embodiment of a sound reproducing apparatus according to the technology disclosed in the present invention; FIG. 6A is a diagram showing an actuator according to the technique disclosed in the present invention. A schematic view placed on the clamping device; • FIGS. 6B to 6D are schematic circles showing a method of combining various actuators and clamping devices according to the disclosed technology; FIG. 6E is a diagram according to the present invention The disclosed technology represents a schematic diagram of a pickup disposed on a detachment device having an actuator; FIG. 6F is a block diagram of a sound device according to FIG. 6E; and FIG. 6G is a sound according to the present invention. Figure 7 is a block diagram of a sound reproducing apparatus according to the present invention; and Figure 8 is a block diagram showing another sound reproducing apparatus disclosed in the present invention; 31 200941451 Figure 10 is a block diagram showing a sound reproduction system; Figure 10 is a block diagram showing a sound reproduction system; Figure 11 is a block diagram showing a sound reproduction system; and Figure 12 is a diagram showing the present invention. A sound reproduction system 'which can generate a block diagram of the timbre of a real chord' instrument; and a thirteenth figure showing that a true chord can be produced according to the technique disclosed by the present invention One kind of sound device to reproduce the sound of a block diagram of the system. 0 [Main component symbol description] 10 Clamping device 20 Actuator 102 upper plate 104 Lower plate 105 bracket 106 Rotary shaft 108 Screw hole 108A Screw hole 108B Screw hole 109 Screw hole 110 Screw 112 Rotary handle 110A Screw 110B Screw 112A Rotary handle 112B Rotary handle 1021 first part 1023 second part 1024 third part 1025 shaft 1028 groove 1029 groove 32 200941451 1122 protrusion 1125 protrusion 202 card 203 protrusion 212 rotation handle 220 magnetic device 40 sound source Device 404 Amplifier 41 Sound Synthesizer 50 Resonant Body 504 Resonance Chamber 506 Second Resonance Chamber 60 First Stringed Instrument 70 Speaker 80 Bridge 902 Preamplifier

1124 groove 1126 groove 210 cushion 211 foam 213 screw 30 pickup 402 amplifier 502 sound board 505 first resonance chamber 904A first volume adjustment circuit 904B second volume adjustment circuit 906 sound processing circuit 908 recording and playback device 33 200941451 910 wireless Signal transmission device

34

Claims (1)

200941451 X. Patent application scope: 1. A sound reproducing device comprising: a clamping device for mounting and dismounting on an object surface in a clamping manner; and an actuator disposed on the clamping device, Mechanical vibration is generated based on a sound source input signal. 2. The sound reproducing device of claim 1, wherein the actuator is mountable or detachable - on the clamping device. 3. The sound reproducing device of claim 1, wherein the actuator is selected from the group consisting of an electromagnetic actuator, a piezoelectric actuator, and a magnetic actuator. 4. The sound reproducing device of claim 1, wherein the clamping device further comprises a recess and corresponds to one of the actuators to cause the actuator to be used by the card The groove and the groove are attached or detached to the detachment device. 5. The sound reproducing device of claim 4, wherein the recess has a first threaded structure and the latch has a corresponding second threaded configuration. 6. The sound reproducing device of claim 1, wherein the actuator further comprises at least one projection corresponding to a groove of the upper plate of the clamping device, such that The protrusion is engaged with the groove by the protrusion, and is telescoped inward or outward to be attached or detached to the clamping device. 7. The sound reproducing device of claim 1, wherein the clamping device comprises: φ an upper plate; a lower plate; and a rotating shaft, wherein the upper plate and the lower plate are rotated by the rotating plate The shafts are connected and closed up and down by the shaft. 8. If the application for the sound reproduction device described in item 7 further includes a compressible element and is connected to the shaft surface, the cake body plate is squeezing the pressure of the body. The surface of the object. 9. The sound reproducing device of claim 8, wherein the compressible elastic member is a spring. 10. The sound reproducing device of claim 8, wherein the compressible elastic member is a U-shaped metal piece. 35 200941451. The sound reproducing device according to claim 2, wherein The clamping device comprises: an upper plate; a lower plate; at least one screw hole on the upper plate or the lower plate; at least one screw having a thread and corresponding to the screw hole, screwing through the screw hole The clamping device is clamped to the surface of the object by a tightening force when the screw is tightened; and • a bracket for connecting the upper plate and the lower plate. 12. The sound reproducing device according to Item 7 or Item of the patent application, further comprising at least one cushioning pad disposed on the inner side surface of the upper plate or the lower plate of the clamping device. The sound reproducing device according to claim 7 or claim n, further comprising at least a magnetic device disposed on the inner side of the upper plate or the lower plate of the clamping device. The sound reproducing device of the above aspect, further comprising at least one adhesive device disposed on the inner side of the upper plate or the lower plate of the clamping device. 15. Patent Application No. 7 or 11 The sound reproducing device of the present invention, wherein the upper plate has a first portion and a second portion, and the second portion is arbitrarily extendable and accommodated in the first portion, and the portion A portion of the sound reproduction device of claim 7 or claim 5, wherein the 帛- portion of the upper plate has at least a groove and the The second portion has at least one protrusion such that the second portion of the upper plate can be separated by the protrusion The sound reproducing device of claim 7 or claim n, wherein the second portion of the upper plate has at least one groove and the first A portion has at least one protrusion such that the second portion of the upper plate can be telescoped inward or outward by engaging the protrusion with the groove. 18. As claimed in claim 7 Or the sound reproducing device of the item U, wherein the second portion of the upper plate of the clamping device is coupled to the first portion by a rotating shaft so that the second portion can be rotated by the rotating portion _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Input signal. 20. The sound reproducing device of claim i, further comprising a pickup disposed on the moxibustion device for sensing sound and converting the sound into a sound source output signal. 2L is the sound reproducing device according to the second aspect of the patent application, wherein the pickup is selected from the following groups: a condenser microphone, a moving coil microphone, a contact microphone, a lower pillow type pickup, a piezoelectric crystal pickup, and a coil electromagnetic Pickups, dual coil electromagnetic pickups and moving coil pickups. 22. The sound reproducing device of claim 2, further comprising a preamplifier electrically coupled to the pickup for amplifying the output signal of the source. The sound reproducing device of claim 2, further comprising a recording and playback device electrically connected to the pickup for recording the sound source output signal, and playing the recorded sound source output signal as the sound source input signal. 24. The sound reproducing device according to claim 23, wherein the recording and playback device is selected from the group consisting of a computer, a mobile phone, a PDA, an iP〇d, a voice recorder, an mp3 player, a purchaser, a record player, and a plurality of Track recording and playback system. 25. The sound reproducing device of claim 1, further comprising a wireless signal transmitting device for wirelessly transmitting the sound source input signal. 26. The sound reproducing device of claim 25, wherein the wireless signal transmission device (w) is selected from the group consisting of: a mobile phone, a wireless USB, an ultra-wideband interface, a Uhra Band, a wireless network. Interface (WiFi), Bluetooth interface (2), Worldwide Interoperability for Microwave Access (WiMAX), AM Transceiver, FM Transceiver, Frequency Shift Key Transceiver (FSK; frequency shift key- In) and phase shift key-in (PSK) phase playback device, comprising: a sound source device for outputting a sound source signal; an actuator, generated according to the sound source signal Mechanical vibration; and a clamping device for carrying the actuator and for clamping to an object; the actuator being disposed on the clamping device. 37 200941451 28. As described in claim 27 The sound reproducing device further includes an amplifier electrically connected to the sound source device and the actuator, respectively for amplifying the sound source signal and transmitting to the actuator, so that the actuator generates mechanical vibration.The sound reproducing device of claim 27, wherein the sound source device includes an amplifier electrically coupled to the actuator for amplifying the sound source signal and transmitting the actuator to the actuator such that the actuator 30. The sound reproducing device according to claim 27, wherein the sound source device is selected from the group consisting of a computer, a mobile phone, a PDA, an MD, an iPod, a voice recorder, an mp3 player, a record player, A sound reproducing device as described in claim 27, wherein the clamping device further comprises a card and corresponds to a radio, a video game, a CD player, a DVD player, and a sound synthesizer. a sound reappearing device according to claim 31, wherein the actuator is attached to or detached from the clamping device by the latch and the recess, Wherein the latch has a first threaded structure and the recess has a corresponding second threaded structure. 33. The sound reproducing device of claim 27, wherein the actuator further comprises a convex 'corresponding One of the recesses of the clamping device is such that the actuator is engaged with the groove by the protrusion, and is telescoped inward or outward for mounting or dismounting the clamping device. The sound reproducing device of item 27, wherein the clamping device comprises: an upper plate; a lower plate; and a rotating shaft, the upper plate and the lower plate are connected by the rotating shaft and closed up and down by the rotating shaft 35. The sound reproducing device of claim 34, further comprising a compressible elastic member and mechanically coupled to the rotating shaft such that the upper plate and the lower plate are elasticized by the compressible elastic member Clamped to the surface of the object. The sound reproducing device of claim 35, wherein the compressible elastic member is a spring. 38. The sound reproducing device of claim 35, wherein the compressible elastic member is a U-shaped metal piece. 38. The sound reproducing device of claim 27, wherein the clamping device comprises: an upper plate; a lower plate; at least one screw hole 'located on the upper plate or the lower plate; - at least one a screw having a thread corresponding to the screw hole and screwed through the screw hole, the clamping device being clamped to the surface of the object by a tightening force when the screw is tightened; and a bracket for connecting The upper plate and the lower plate. 39. The sound reproducing device of claim 34 or claim 38, further comprising at least a cushion disposed on an inner side surface of the upper plate or the lower plate of the clamping device. 40. The sound reproducing device of claim 34 or claim 38, further comprising at least one magnetic device disposed on an inner side of the upper plate or the lower plate of the clamping device. 41. The sound reproducing device of claim 34, wherein the sound reproducing device further comprises at least one adhesive device disposed on an inner side of the upper plate or the lower plate of the clamping device. 42. The sound reproducing device of claim 34, wherein the upper plate has a - part and a second part, and the second part is arbitrarily expandable and accommodating The first portion and the portion of the first portion overlap with the second portion. 43. The sound reproducing device of claim 34, wherein the upper portion of the upper portion has at least a recess and a lower surface of the second portion Having at least a projection ′ such that the two portions of the upper plate can be telescoped inward or outward by the engagement of the projection with the groove. 4. The sound reproducing device of claim 4, wherein the lower surface of the second portion of the upper plate has at least a __ groove and the __ portion The upper surface has at least a protrusion 4 such that the two portions of the upper plate can be telescoped inward or outward by the engagement of the projection with the groove. 39. The sound reproducing device of claim 27, wherein the wireless signal transmitting device further comprises a wireless signal transmitting device for wirelessly viewing the sound source signal. 40. The device as claimed in claim 45, wherein the wireless signal transmission device is selected from the group consisting of: a mobile phone, a wireless USB, an ultra wideband interface (UWB), a wireless network interface ( WiFi), Bluetooth and Worldwide Interoperability forMicr〇wave Access, Heart Transceiver, FM Transceiver, Frequency Shift Key Transceiver (FSK; frequency Zhao key in) and phase Shift key transceiver (four) κ; rush off shift key-in). 47. A sound reproducing device comprising: a sound source device for outputting a sound source signal; a resonance body 'as a sound output device; a clamping device 'for clamping the resonator body; and an actuating motion The device is disposed on the clamping device, generates mechanical vibration according to the sound source signal, and transmits to the resonant body 'so that the resonant body resonates to emit a sound. 48. The sound reproduction device of claim 47, wherein the sound source device is selected from the group consisting of: a computer, a mobile phone, a PDA, an iPod, a voice recorder, an mp3 player, a record player, a television, an MD, a radio, CD player and DVD Player. 49. The sound reproducing device of claim 47, further comprising a pickup disposed on the clamping device for sensing sound and converting to a sound source output signal. The sound reproducing device according to claim 49, wherein the pickup is selected from the following scales: a condenser microphone, a closed type Mai sister, a contact type Mai sister, a lower recording type pickup, a piezoelectric crystal pickup, and a single coil. Electromagnetic pickup, double coil electromagnetic pickup and moving coil type picker. The sound reproducing device of claim 5, wherein the pickup has a click bar and corresponds to a groove of the 3W device, so that the pickup passes the latch and the groove The disassembly is removed from the clamping device. The sound reproducing device of claim 50, wherein the pickup has a projection 200941451 and corresponds to a groove of the clamping device such that the pickup is coupled to the projection The recess engages and telescopes inwardly or outwardly for attachment or detachment to the clamping device. 53. The sound reproducing device of claim 47, further comprising a wireless signal transmitting device for wirelessly transmitting the sound source signal. 54. The sound reproducing device of claim 53, wherein the wireless signal transmission device is selected from the group consisting of: a mobile phone, a wireless USB, an ultra wideband interface (UWB), a wireless network interface ( WiFi), Bluetooth and Worldwide Interoperability for Microwave Access (WiMAX), AM Transceiver, FM Transceiver, Frequency Shift Key-in (FSK) and Phase The sound reproducing device of claim 47, wherein the resonant body comprises a sounding plate, and the sounding plate is according to the actuator This mechanical vibration is generated to cause resonance. The sound reproducing device of claim 47, wherein the resonator includes a resonance chamber and the resonance chamber resonates according to the mechanical vibration generated by the actuator. The sound reproducing device according to claim 47, wherein the resonance system is a sound reproducing device according to the item 47 of the claim, wherein the actuator is in the following group Selected: electromagnetic actuators, piezoelectric actuators, and magnetic actuators. Install or remove the clamping device. 59. The sound reproducing device of claim 47, wherein the cooling device further comprises a slot and corresponds to a latching recess of the actuator, such that the button is used by the card The sound reproducing device according to the above aspect of the invention, wherein the bar has a first thread structure and the groove has a corresponding second thread structure. The outlet 'and corresponding to the recess of the clamping device, the slot is mounted and detached to the clamping device. The sound reproducing device of claim 47, wherein the clamping device comprises: an upper plate; a lower plate; and a rotating shaft, the upper plate and the lower plate are connected by the rotating shaft The shaft is closed up and down. The sound reproducing device of claim 62, further comprising a compressible elastic member and mechanically coupled to the rotating shaft such that the upper plate and the lower plate are elasticized by the compressible elastic member Clamped to the surface of the object. 64. The sound reproducing device of claim 63, wherein the compressible elastic member is a spring 65. The sound reproducing device of claim 63, wherein the compressible elastic-shaped U-shaped metal piece. 66. The sound reproducing device of claim 47, wherein the clamping device comprises: an upper plate; a lower plate; at least one screw hole on the upper plate or the lower plate; at least one screw, Having a thread and corresponding to the screw hole, screwing through the screw hole, the clamping device is clamped to the surface of the object by a tightening force when the screw is tightened; and the bracket is used to connect the upper plate And the lower plate. 67. The sound reproducing device of claim 62 or 66, further comprising at least a cushion disposed on an inner side of the upper plate or the lower plate of the clamping device. 68. The sound reproducing device of claim 62, wherein the sound reproducing device further comprises at least a magnetic device disposed on an inner side of the upper plate or the lower plate of the clamping device. 69. The sound reproducing device of claim 2, wherein the sound reproducing device further comprises at least one adhesive device disposed on the inner side of the lower plate. 7. The sound reproducing device of claim 62, wherein the upper plate has a first portion and a second portion, and the second portion is arbitrarily expandable and accommodating The first part 42 200941451 is injured, and part of the first part overlaps with the second part. «^Ι::Γ-:Γ166——'—The 17th slot and the second portion have at least a projection such that the convex (four) of the upper plate and the clear card—or outwardly expand and contract. The sound reproducing device according to Item 62 or Item 66, wherein the second flute of the upper plate has at least one groove and the first portion has at least one protrusion, such that The upper splint/the first spline can be telescoped inward or outward by engaging the projection with the groove. 73. A sound reproduction system comprising: 至少 at least a first stringed instrument; a picker '1' is placed on the stringed instrument for sensing sound and converting the sound into at least one source output signal; to /amp, according to the source output signal, generating At least one amplifying the sound source input signal; at least - actuating H, and touching the singer to generate a thief vibration; and to the evening, the actuator is disposed on the resonator, and the resonance is generated according to the actuator The mechanical vibration causes resonance and then makes a sound. The sound reproduction system of claim 73, further comprising at least one preamplifier electrically connected to the pickup for amplifying the output signal of the sound source. 75. The sound reproduction system of claim 73, further comprising at least one volume adjustment circuit electrically coupled to the amplifier and the actuator for adjusting the amplified sound source input signal. 76. The sound reproduction system of claim 73, wherein the resonance body is a second stringed instrument and the actuator is disposed at a position of the second stringed instrument and the pickup is disposed on the first stringed instrument The same position is used to reproduce the sound vibration of the position. 77. The sound reproduction system of claim 73, wherein the resonance system is part of the first stringed instrument. 78. The sound reproduction system of claim 73, wherein the resonator is not part of the first stringed instrument. The sound reproducing system of claim 73, wherein the resonant body comprises at least a sounding plate that resonates according to the mechanical vibration generated by the actuator. 8. The sound reproduction system of claim 73, wherein the resonator is selected from the group consisting of a violin, a guitar, a cymbal, a cymbal, a zither, and a guqin. The sound reproduction system of claim 73, wherein the resonator body comprises at least a first resonance chamber, and the first resonance chamber resonates according to the mechanical vibration generated by the actuator. 82. The sound reproduction system of claim 81, wherein the first stringed instrument comprises at least a second resonance chamber, and the second resonance chamber has the same structure as the first resonance chamber. The sound reproduction system of claim 81, wherein the first stringed instrument comprises at least a second resonance chamber, and the second resonance chamber has a different structure from the first resonance chamber. 84. The sound reproduction system of claim 73, wherein the pickup is selected from the group consisting of a condenser microphone, a moving coil microphone, a contact microphone, a lower string pillow pickup, a piezoelectric crystal pickup, and a single Coil electromagnetic pickup, double coil electromagnetic pickup and moving coil pickup. 85. The sound reproduction system of claim 77, wherein the actuator is disposed at the position of the first stringed instrument and the position of the pickup disposed at the first stringed instrument for reproducing the position The sound vibrates. 86. The sound reproduction system of claim 73, wherein the pickup is disposed adjacent to a bridge of the first stringed instrument. The sound reproduction system of claim 73, wherein the actuator is selected from the group consisting of an electromagnetic actuator, a piezoelectric actuator, and a magnetic actuator. The sound reproduction system as described in claim 73 further includes at least one sound processing circuit and is electrically connected to the amplifier and the amplifier, respectively. The sound reproduction system of claim 87, wherein the sound processing circuit is selected from the group consisting of: Reverb, Harmonic circuit, equalization circuit, dynamic compression effect Circuit (C〇mpressor), delay circuit (Deiay), and pitch shifter 〇44 200941451 90. A sound reproduction system comprising: at least one first stringed instrument; at least one pickup disposed on the first stringed instrument The upper sound is used to sense a sound, and the sound is converted into at least one sound source output signal; at least one amplifier generates at least one amplified sound source input signal according to the sound source output signal; at least an actuator, according to the amplified sound source input signal a mechanical vibration is generated; and the actuator is disposed on the resonant body, and the resonant body resonates according to the mechanical vibration generated by the actuator, thereby generating a sound; The actuator is disposed on the clamping device and the clamping device can be clamped or detached to the resonant body. 91. The sound reproduction system of claim 90, further comprising at least one preamplifier electrically coupled to the pickup for amplifying the output signal of the sound source. The sound reproduction system of claim 90, further comprising at least one volume adjustment circuit electrically connected between the pickup and the amplifier for adjusting the sound source output signal. 93. The sound reproduction system of claim 9, further comprising at least one volume adjustment circuit electrically coupled to the amplifier and the actuator for adjusting the amplified sound source input signal. 4. The sound reproduction system according to claim 90, wherein the resonance body is a second stringed instrument, and the actuator is disposed at a position of the second stringed instrument and the pickup is disposed on the first stringed instrument The same position is used to reproduce the sound vibration of the position. 5. The sound reproduction system of claim 9G, wherein the resonating ship is part of the first stringed instrument. 96. The sound reproduction system of claim 9, wherein the resonator is not part of the first stringed instrument. The sound reproducing system of claim 9, wherein the resonator body comprises at least one sounding plate, and the sounding plate resonates according to the mechanical vibration generated by the actuator. 98. The sound reproduction system of claim 9, wherein the resonator is selected from the group consisting of: 04,414,514: violin, guitar, insect, cymbal, zither, and guqin. 99. The sound reproducing system of claim 9, wherein the resonant body comprises at least a first resonance chamber and resonates according to the mechanical vibration generated by the actuator. The sound reproducing system of claim 9, wherein the first stringed instrument has at least a 3-th-resonance chamber (10) - the resonance chamber has the same structure as the second resonance chamber. The sound reproduction system of claim 1 , wherein the first stringed instrument has at least an L 3 resonance cavity, and the first __ common cavity has a different structure from the second resonance cavity. The sound reproduction system according to claim 9 , wherein the pickup is selected from the group consisting of a condenser microphone, a moving coil microphone, a contact microphone, a lower string pillow pickup, and a piezoelectric crystal pickup. , a single-coil electromagnetic pickup, a double-coil electromagnetic pickup, and a moving-loop pickup. 3. The sound reproduction system according to the item of the patent of the invention, wherein the actuator is disposed on the first stringed instrument. The position is the same as the position at which the pickup is disposed on the first stringed instrument for reproducing the sound vibration of the position. ^ 104. The sound reproduction system according to the scope of claim 9G, wherein the position of the pickup is set Close to a bridge of the first stringed instrument. 105. The sound reproduction system of claim 9 further includes a wireless signal transmission® S set to the pickup and the amplification The sound source output system is transmitted by wireless communication. The optical signal transmission device of claim 1, wherein the wireless signal transmission device is selected from the group consisting of: a mobile phone, a wireless USB, Ultra Wide Band (UWB; Ultra Wide Band), Wireless Network Interface (WiFi), Bluetooth Interface (Bluetooth) and Worldwide Interoperability for Microwave Access (wiMAX), AM Transceiver, FM Transceiver a frequency shift key-in (FSK) and a phase shift key-in (psk; phase shift key-in) ° 107. The sound reproduction system as described in claim 9 Wherein one of the clamping devices card 46 200941451 榫 corresponds to a recess of the actuator such that the actuator is mounted or detached to the clamping device by the latch and the recess. The sound reproducing device of claim 1, wherein the latch has a first threaded structure and the recess has a corresponding second threaded structure. 108. According to claim 90, Sound reproduction system, Wherein one of the protrusions of the actuator corresponds to a groove of the clamping device, such that the actuator is engaged with the groove by the protrusion, and is telescoped inward or outward for mounting or dismounting. The sound reproducing system of claim 90, wherein the clamping device comprises: an upper plate; a lower plate; a lower shaft; and a lower shaft and the lower plate The plates are connected by the rotating shaft and closed up and down by the rotating shaft. 110. The sound reproduction system of claim 90, further comprising a compressible elastic member and mechanically coupled to the rotating shaft such that the upper plate and the lower plate are elastically clamped by the compressible elastic member Fastened to the surface of the object. The sound reproducing system of claim 11, wherein the compressible elastic member is a spring. 112. The sound reproduction system of claim 5, wherein the compressible elastic element φ is a U-shaped metal piece. 113. The sound reproduction system of claim 9, wherein the clamping device comprises: an upper plate; a lower plate; at least one screw hole on the upper plate or the lower plate; at least one screw Having a thread and corresponding to the screw hole, screwing through the screw hole, the detachment device is clamped to the surface of the object by a tightening force when the screw is tightened; and a bracket is used to connect the screw hole Board and the lower board. 114. The sound reproduction system of claim 9, further comprising at least one cushion, 47 200941451 being disposed on an inner side surface of the upper plate or the lower plate of the central solid device" 115. The sound reproduction system of claim 90, further comprising at least a magnetic device disposed on an inner side of the upper plate or the lower plate of the clamping device. 116. The sound reproduction system of claim 90, further comprising at least one arranging device disposed inside one of the upper plate or the lower plate of the clamping device. 117. The sound reproduction system of claim 1, wherein the upper plate comprises a first portion and a second portion, and the second portion is arbitrarily expandable and The first part is accommodated, and the first part overlaps with the second part. The sound reproducing system of claim 1, wherein the first portion of the upper plate has at least one groove and the second portion has at least one protrusion, such that The second portion of the upper plate can be telescoped inward or outward by engaging the projection with the groove. 119. The sound reproduction system of claim 1, wherein the second portion of the upper plate has at least one groove and the first portion has at least one protrusion. The upper plate and the first injury can be telescoped inward or outward by engaging the protruding portion with the groove. The sound reproduction system of claim 90, further comprising at least one sound processing circuit electrically connected to the pickup and the amplifier, respectively. 121. The sound reproduction system of claim 3, wherein the sound effect processing circuit is selected from the group consisting of: Reverb, Harmonic circuit (ch_), and equalization circuit (Caliper (10)) a dynamic compression effect circuit (Compress〇r), a delay circuit (May), and a transposition effect circuit (4) 122. A sound reproduction system comprising: at least a first stringed instrument; and converting the sound into an evening-pickup, Provided on the first stringed instrument, sensing a sound, less - the first sound source is rotated out; recording the first sound source output signal, and 'outputting at least one second sound source input signal; Electrically connected to the pickup, playing the recorded first sound source output signal 48 200941451 to 2 amplifier, according to the second sound source input signal, generating at least one amplified sound source input signal; to y 'm the amplified sound source input record a mechanical vibration is generated; and the actuator is disposed on the resonator, and the resonator generates resonance according to mechanical vibration generated by the actuator, thereby generating sound . 123. The sound reproduction system of claim 122, further comprising at least one preamplifier, electrically connected to the pickup for amplifying the first sound source output signal. The sound reproduction system according to claim 122, further comprising at least one third volume adjustment circuit ′ electrically connected to the recording and playback device and the amplifier, respectively, for adjusting the second audio input signal . e. The sound reproduction system according to claim 122, further comprising at least one second volume adjustment circuit </ RTI> splitting the amplification H and the electrical connection of the worm, and inputting the signal by the joint touch source. 126. The sound reproduction system of claim 122, further comprising at least one sound processing circuit ‘ electrically coupled to the recording and playback device and the amplifier, respectively. 127. The sound reproduction system of claim 122, wherein the sound processing circuit is selected from the group consisting of: a reverb circuit, a harmony circuit (Ch〇rus), an equalization circuit (Equalization), A dynamic compression effect circuit (Compressor), a delay circuit (Delay), and a shifting effect circuit (Pitch shifter ^ 128. The sound reproduction system described in claim 122) wherein the resonance ship is a second stringed instrument And the position of the second stringed instrument is the same as the position at which the pickup is disposed on the first stringed instrument for reproducing the sound vibration of the position. 129. The sound of claim 122 A reproduction system, wherein the resonance system is part of the first stringed instrument. 130. The sound reproduction system of claim 122, wherein the resonance body is not part of the first stringed instrument. The sound reproducing system of claim 122, wherein the resonant body comprises at least 49 200941451 a sounding board, such that the sounding board generates the mechanical vibration according to the actuator The sound reproduction system according to claim 122, wherein the resonance body includes at least a first resonance chamber, and the resonance body has a different structure from the first resonance chamber, such that the first A sound reproduction system according to the mechanical vibration generated by the actuator, wherein the first stringed instrument includes at least a second resonance chamber, and The second resonance chamber has the same structure as the first resonance chamber. The sound reproduction system according to claim 122, wherein the pickup is selected from the following groups: a condenser microphone and a moving coil microphone. Contact microphone, down-string pillow pickup, piezoelectric crystal pickup, single-coil electromagnetic pickup, double-coil electromagnetic pickup and moving coil pickup. 135. Sound reproduction system as described in claim 122. The actuator is disposed at the position of the first stringed instrument and the position of the pickup disposed at the first stringed instrument to reproduce the sound of the position 136. The sound reproduction system of claim 122, wherein the pickup is disposed at a position adjacent to a bridge of the first stringed instrument. 137. The sound is as described in claim 122. The system further includes at least one wireless signal transmission device disposed between the recording and playback device and the pickup or the amplifier to wirelessly transmit the first sound source rotation signal or the second sound source input signal. The sound reproduction system of claim 137, wherein the wireless signal transmission device is selected from the group consisting of a mobile phone, a wireless USB, an ultra wideband interface (UWB), a wireless network interface (WiFi), Bluetooth and Worldwide Interoperability for Microwave Access (WiMAX; Worldwide Interoperability for Microwave Access), AM Transceiver, FM Transceiver, Frequency Shift Key-in (FSK) and Phase Shift Key Transceiver (PSK; phase shift key-in). 139. The sound reproducing system of claim 122, wherein the actuator is selected from the group consisting of an electromagnetic actuator, a piezoelectric actuator, and a magnetic actuator. 50 200941451 For example, please refer to the sound reduction system described in Section 122 of the special fiber, and further include at least one failure device. The actuator and the pickup are respectively disposed on the clamping device, so that the clamping device can be installed. Or disassemble the resonator with the stringed instrument. 141. The sound reproduction system of claim 122, wherein the recording and playback device is selected from the group consisting of: a computer, a mobile phone, a pDA, an iPod, a voice recorder, a _, a _ ρ1_, a record player, and a multi-track. Recording and playback system. • 142. A sound reproduction device comprising: a bridge for a bridge on a stringed instrument; and φ at least an actuator </ RTI> mounted on the bridge to generate mechanical vibrations based on at least one source input signal. 143. The sound reproducing device of claim 142, further comprising at least one pickup mounted on the bridge for sensing a sound and converting to a sound source output signal. 144. The sound reproduction device of claim 143, wherein the pickup is selected from the group consisting of a condenser microphone, a moving coil microphone, a contact microphone, and a piezoelectric crystal pickup. 145. The sound reproducing device of claim 142, further comprising at least one amplifier, generating at least one amplified sound source input signal according to at least one sound source signal, and using the amplified sound source input signal as the sound source input signal The actuator is caused to generate mechanical vibrations. 146. The sound reproducing apparatus of claim 142, further comprising at least one wireless signal transmission means for transmitting the sound source input signal to the actuator by wireless communication such that the actuator generates mechanical vibration. 147. The sound reproducing device of claim 146, wherein the wireless signal transmission device is selected from the group consisting of: a mobile phone, a wireless USB, an ultra wideband interface (UWB), a wireless network interface ( WiFi), Bluetooth and Worldwide Interoperability for Microwave Access (wiMAX), AM Transceiver, FM Transceiver, Frequency Shift Key-in (FSK) and Phase Displacement key transceiver (psk; phase shift key-in). 148. The sound reproducing device of claim 142, further comprising a recording and playback device, 51 200941451 for recording the sound source output signal, and playing the recorded sound source output signal to play the audio source input signal. H9. The sound reproducing device according to claim 10, wherein the recording and playback device is selected from the group consisting of a computer, a mobile phone, a PDA, an iPod, a voice recorder, a purchaser, a recording device, and a multi-track recording and playback. system. 150. The sound reproducing device of claim 142, wherein the actuator is selected from the group consisting of: an electromagnetic actuator, a piezoelectric actuator, and a magnetic actuator. 151. A sound reproduction system for producing a sound of a real stringed instrument, comprising: φ a sound source device that outputs at least one sound source signal; at least one amplifier that generates at least one amplified sound source signal according to the sound source signal; at least an actuator Generating mechanical vibration according to the amplified sound source signal; and at least - the speaker, comprising at least one stringed instrument speaker structure for generating the same common cavity effect as the stringed instrument, and the speaker has the same frequency response as the stringed music ^, And the actuating stomach is disposed on the box, so that the speaker resonates according to the mechanical vibration generated by the actuator, thereby generating a sound. 152. The sound reproduction system of claim 151, wherein the speaker is a string instrument. 0 153. The sound reproduction secret of claim 151, wherein the sound source device comprises at least one sound synthesizer. 154. The sound reproduction system of claim 5, wherein the sound synthesizer is selected from the group consisting of: a physical modeling synthesizer, a wavetable synthesizer, an Oavetable synthesizej^ FM synthesizer (FM). 155. The sound reproduction system according to claim 151, further comprising a wireless signal transmission device, not disposed between the sound source device and the amplifier, and transmitting the sound source signal by wireless communication. The sound reproduction system described in claim 155, wherein the wireless signal transmission device is selected from the group consisting of: a mobile phone, a wireless USB, an ultra-wideband interface, a squad, a d), 52 200941451, a wireless network interface (WiFi) ), Bluetooth and Worldwide Interoperability for Microwave Access (WiMAX; Worldwide Interoperability for Microwave Access), AM Transceiver, FM Transceiver, Frequency Shift Key-in (FSK) and Phase Shift Key shifter (PSK; phase shift key-in). 157. The sound reproduction system of claim i51, further comprising at least one clamping device for positioning the actuator, and the clamping device can be clamped and detached to the speaker. 158. The sound reproduction system of claim 151, wherein the actuator is selected from the group consisting of an electromagnetic actuator, a piezoelectric actuator, and a magnetic actuator. 53