JP2009049656A - Automatic concert apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform reproduction by excellent sound quality of a violin group musical instrument sound source with accompaniment by an automatic violin group musical instrument. <P>SOLUTION: Sound of a violin group musical instrument is recorded in a dedicated violin group musical instrument channel of a medium, sound of an accompaniment sound source is recorded in a dedicated accompaniment channel, a reproducing device synchronizes electrical sound signals of the both channels and respectively separately reproduces the electrical sound signals to send them out, vibrations of a piezoelectric vibrator that vibrates in accordance with the electric sound signal of the dedicated violin group musical instrument channel excite bridges of the violin group musical instrument to automatically perform the sound source of the violin group musical instrument, vibrations of a voice coil that vibrates in accordance with the electrical sound signal of the accompaniment channel excite cone paper to make the sound source of accompaniment music emit sound by a dynamic speaker to perform automatic concert by the both sound sources. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a technique for automatically performing a violin by an electric voice signal of a violin music sound source accompanied by an accompaniment and simultaneously performing automatic ensemble of an automatic violin and a speaker by a speaker generating accompaniment music.

The present applicant has already applied for an automatic violin technique for performing a performance using a stereo sound source by fixing two piezoelectric diaphragms that vibrate in response to a stereo audio signal to the upper edge of the violin piece (Patent Literature). 1).
With this technology, solo violin music can be played back by the sound of the violin itself. However, many violin music sources are accompanied by accompaniments such as pianos and orchestras, and there are the following problems when reproducing these sound sources using only automatic violins.
(1) Problems of the sound range: The violin sound range corresponds to the G-line open sound (G) or higher, and the automatic violin cannot properly sound the accompaniment sound in the lower sound range.
(2) Tone problem: Automatic violins use the violin as a sound generator, so they cannot produce the timbre of other instruments such as pianos.
(3) Volume problem: The volume of a violin has a limit, and it cannot cope with the volume of a piano or orchestra.
Japanese Patent Application No. 2006-203998

  The problem to be solved is that the automatic violin cannot reproduce the sound source accompanied by accompaniment.

In order to solve the above-described problems, an automatic ensemble apparatus according to claim 1 of the present invention is a medium in which the sound of a violin instrument and the sound of an accompaniment sound source are synchronized and recorded in a channel dedicated to a violin instrument and a channel dedicated to an accompaniment, respectively. , A playback device that plays back the recorded electrical audio signals of both channels separately and sends them separately, and a piezoelectric vibrator that vibrates according to the electrical audio signals of the channels dedicated to the violin group instruments. It consists of an automatic violin group musical instrument that plays by exciting a piece, and a dynamic speaker that reproduces an accompaniment sound source by exciting cone paper with the vibration of a voice coil that vibrates in accordance with an electrical audio signal of an accompaniment channel.
In order to solve the above-mentioned problem, the automatic ensemble apparatus according to claim 2 of the present invention recorded a violin sound and a cello sound in synchronism with each other and recorded on a violin dedicated channel and a cello dedicated channel, respectively. Automatic playback by exciting the violin piece with the playback device that synchronizes and plays back the electrical audio signals of both channels separately and sends out the piezoelectric vibrator that vibrates according to the electrical audio signal of the dedicated violin channel And an automatic cello that performs automatically by exciting a cello piece with the vibration of a piezoelectric vibrator that vibrates in response to an electric audio signal of a cello dedicated channel.
In order to solve the above-mentioned problems, the automatic ensemble apparatus according to claim 3 of the present invention is the automatic ensemble apparatus according to claim 1 or 2, wherein the automatic violin group musical instrument, automatic violin or automatic cello is attached to the piece. It is configured to automatically play a musical instrument by exciting a piece with a piezoelectric vibrator, the piezoelectric vibrator and the piece are connected by a rod-like structure, and the piezoelectric diaphragm of the piezoelectric vibrator has a mass member for adjusting sound quality at the edge. The rod-like structure has a structure in which the center portion of the piezoelectric diaphragm is penetrated into the skewer, the piezoelectric diaphragm is fixed to the open end via a reaction absorbing elastic body, and the fixed end is fixed to the upper edge of the piece. It is characterized by that.
In order to solve the above problems, the automatic ensemble apparatus according to claim 4 of the present invention is the automatic ensemble apparatus according to claim 1 or 2, wherein the automatic violin group musical instrument, automatic violin or automatic cello is attached to the piece. The instrument is configured to automatically play a musical instrument by exciting a piece with two piezoelectric vibrators. The two piezoelectric vibrators and the piece are connected by a rod-shaped structure, and the piezoelectric diaphragms of the two piezoelectric vibrators are respectively A mass member for adjusting sound quality is provided at the edge, and the rod-shaped structure penetrates the center of the two piezoelectric diaphragms into a skewer, and the first piezoelectric diaphragm is inserted into the open end via a reaction absorbing elastic body. The second piezoelectric diaphragm is fixed with a reaction absorbing elastic body interposed between the first piezoelectric diaphragm and the fixed end fixed to the upper edge of the piece. .

  The automatic ensemble apparatus according to the present invention has an advantage that many violin tunes with accompaniment can be faithfully reproduced because the violin music sound source accompanied by accompaniment is simultaneously reproduced by the automatic violin and reproduced by the speaker.

  The purpose of faithful reproduction of accompaniment violin music was realized by faithful reproduction of the violin sound source and faithful reproduction of the accompaniment sound source with the configuration of automatic violin and speaker.

  FIG. 1 is a diagram for explaining the configuration of a first embodiment of an automatic ensemble apparatus according to the present invention. In this figure, reference numeral 1 denotes a playback apparatus, and 1-1 denotes a medium in which the sound of a violin instrument is recorded in a dedicated channel for a violin instrument, and the sound of an accompaniment instrument is recorded in a channel for an accompaniment. Since both channels are recorded in synchronization with the synchronization device, the playback device 1 plays back with synchronization between both channels. 2 is an amplifying device for an electric audio signal, 2-1 is an amplifying device for a channel dedicated to a violin group musical instrument, and 2-2 is an amplifying device for a channel dedicated to accompaniment. 3 is an automatic violin group musical instrument, 3-1 is a piezoelectric vibrator attached to the piece of the violin group musical instrument, and 3-2 is a violin group musical instrument. 4 is a dynamic speaker.

  In the present embodiment, the recorded electric voice signal of the dedicated channel for the violin group musical instrument is amplified by a dedicated amplification device, and the violin group musical instrument piece is excited by the vibration of the piezoelectric vibrator to automatically play the violin group musical instrument. At the same time, the recorded electric sound signal of the accompaniment channel is amplified by a dedicated amplifying device, the cone paper is excited by the vibration of the voice coil, and the dynamic speaker sounds the sound of the accompaniment instrument, so the piano and orchestra accompaniment is played back While playing violin group instruments automatically.

  The applicant has described in Japanese Patent Application Laid-Open No. 2005-151820 that a violin group musical instrument is automatically played by attaching a piezoelectric vibrator to a piece. In this configuration, the sound of an accompaniment instrument can be reproduced by a violin group instrument, but the sound quality is naturally that of a violin group instrument, which is somewhat strange and unsatisfactory in terms of pitch and volume. . In this embodiment, the sound of the accompaniment instrument is recorded on a dedicated channel independent of the sound of the violin group musical instrument and is reproduced by the dynamic speaker. Therefore, the accompaniment instrument having the original sound quality and the automatic performance of the violin group instrument are performed. I can now enjoy it.

  FIG. 2 is a diagram for explaining the configuration of a second embodiment of the automatic ensemble apparatus according to the present invention. In this figure, reference numeral 1 denotes a playback apparatus, and 1-1 denotes a medium in which a violin sound is recorded on a violin dedicated channel and a cello sound is recorded on a cello dedicated channel. Since both channels are recorded in synchronization with the synchronization device, the playback device 1 plays back with synchronization between both channels. 2 is an electric voice signal amplifier, 2-1 is a violin dedicated channel amplifier, and 2-2 is a cello dedicated channel amplifier. 3 is an automatic violin, 3-1 is a piezoelectric vibrator attached to a piece of violin, and 3-2 is a violin. 4 is an automatic cello, 4-1 is a piezoelectric vibrator attached to the cello piece, and 4-2 is a cello.

  In this embodiment, the recorded electric voice signal of the dedicated channel for the violin is amplified by the dedicated amplifier, and the violin piece is excited by the vibration of the piezoelectric vibrator to automatically play the violin. At the same time, the recorded electric voice signal of the cello dedicated channel is amplified by the dedicated amplifier, and the cello is automatically played by exciting the cello piece by the vibration of the piezoelectric vibrator, so that an automatic ensemble of violin and cello can be performed .

  The applicant has described in Japanese Patent Application Laid-Open No. 2005-151820 that a violin group musical instrument is automatically played by attaching a piezoelectric vibrator to a piece. In this configuration, it is possible for the violin to reproduce the sound of the cello, but the pitch, volume and sound quality are naturally limited to the violin's pitch, volume and sound quality. In this embodiment, the cello sound is recorded on a dedicated channel independent of the violin sound and automatically played by the cello. Therefore, the ensemble sound source playback of the violin and cello is performed automatically with the respective pitch, volume and sound quality. Can now enjoy.

  In addition, if you prepare and record multiple channels on the medium and play an automatic violin group musical instrument corresponding to each channel as described above, string quartet, string quintet, string sextet, string music eight It goes without saying that automatic performances such as songs are possible.

Next, a third embodiment of the present invention will be described. The overall configuration of the automatic ensemble apparatus of the third embodiment is the same as that of the first embodiment, and only the automatic violin group musical instrument 3 of FIG. 1 is different. Therefore, the description of the entire configuration is omitted, and the automatic violin group musical instrument of the present embodiment is omitted. Will be described with reference to FIG.
FIG. 3A is an overall cross-sectional view of the automatic violin group musical instrument of this embodiment, and B is a side view of its vibration part and structure. Reference numeral 1 denotes a vibrator, 2 denotes a mounting portion, 3 denotes a piece portion, and 4 denotes a musical instrument body portion. The vibrator 1 is a piezoelectric vibrator, 1-1 is a diaphragm of the piezoelectric vibrator, 1-2 is a reaction absorbing elastic body, and 1-3 is penetrated through the diaphragm of the piezoelectric vibrator through the reaction absorbing elastic body. Screws fixed to the open end of the fixed rod-shaped structure 2-1 (described later), 1-4 is a protective cover, 1-5 is an outer frame of the diaphragm, and 1-6 is a sound quality adjustment attached to the periphery of the diaphragm. The mass member 1-7 is an electric audio signal conducting cable.

  In the mounting portion 2, 2-1 is a rod-shaped structure that fixes the vibrator 1 to the piece, and transmits mechanical vibrations of the vibrator 1 to the piece, 2-2 is a holding member 2-3 of the clip portion, and a base of the clip portion. A screw 2-5 is clamped by sandwiching the upper edge 3-7 between the tools 2-4, and 2-5 is a screw for fixing the rod-shaped structure 2-1 to the base 2-4 of the clip portion. Moreover, in the piece part 3, 3-1 thru | or 3-4 are 絃, and in the case of a violin, they are E 絃, A 絃, E 絃, and G 絃 in order. Reference numerals 3-5 and 3-6 denote leg portions of the pieces, respectively. Further, in the musical instrument body 4, 4-1 is a front plate, 4-2 is a side plate, 4-3 is a back plate, 4-4 is a f-hole, 4-5 is a soul column, and 4-6 is a power wood.

  With the above configuration, the piezoelectric diaphragm 1-1 of the vibrator 1 vibrates in response to the electric sound signal of the violin group musical instrument, and this vibration excites the piece through the rod-shaped structure 2-1, and the vibration of the piece causes the leg 3 to vibrate. It is transmitted to the back plate of the musical instrument through the -5 and 3-6 and the soul pillar, and the musical instrument "sounds".

  Here, the effect of the reaction absorbing elastic body 1-3 will be described. As understood from FIG. 3, when the diaphragm 1-1 of the piezoelectric vibrator vibrates, the vibration is simultaneously transmitted in the vertical direction of the rod-shaped structure 2-1. The vibration transmitted downward excites the piece fixed to the lower end and the vibration energy sounds the instrument, but the piece is fixed to the instrument body, so part of the vibration energy as a reaction is a rod-like structure Reverse 2-1 upward. Further, the vibration energy of the diaphragm 1-1 is directly transmitted to the upward direction of the rod-shaped structure 2-1. Because of the retrograde energy, the vibrator 1 tends to jump out from the open end of the rod-shaped structure 2-1, so that the diaphragm 1-1 is fixed with a fixing screw 1-3 in order to hold it. Since the fixed screw 1-3 and the diaphragm 1-1 collide violently with this ascending vibration energy, the rod-like structure 2-1 also transmits the collision vibration to the piece, so that the electric sound signal is not transmitted from the instrument. Artifact noise that did not exist is emitted. The reaction absorbing elastic body 1-3 is indispensable as an element that alleviates this collision and prevents the generation of noise, and is interposed between the diaphragm 1-1 and the fixed screw 1-3.

  Next, the sound quality adjusting mass member 1-6 attached to the periphery of the diaphragm will be described. As described above, the diaphragm 1-1 vibrates by itself and transmits the vibration to the piece through the rod-shaped structure 2-1, but the vibration returns in the opposite direction, causing the diaphragm 1-1 itself to vibrate. Try to. This reverse energy is scattered in the air by vibrating the diaphragm 1-1. At this time, the ratio of the downward energy and the upward energy changes depending on the mass of the diaphragm 1-1. The energy scattered in the air is, of course, wasted energy that does not contribute to sounding the instrument, and reducing it as much as possible is a necessary condition for sounding the instrument effectively. Therefore, in the present invention, the mass member 1-6 is attached to the periphery of the diaphragm 1-1 to prevent energy dissipation. Since this dissipated energy is remarkable especially in long-wave low sounds, the mass member 1-6 is referred to as a sound quality adjusting member for enhancing low sounds.

Next, a fourth embodiment of the present invention will be described. The overall configuration of the automatic ensemble apparatus of the fourth embodiment is the same as that of the first embodiment, and only the automatic violin group musical instrument 3 of FIG. 1 is different. Therefore, the description of the entire configuration is omitted, and the automatic violin group musical instrument of the present embodiment is omitted. Will be described with reference to FIG.
The automatic violin group musical instrument configuration of the present embodiment is necessary for automatic performance of a musical instrument that requires a larger vibrational energy than a violin, particularly a cello. In this embodiment, a large vibration energy is realized by connecting a plurality of vibrators. FIG. 4 shows an embodiment in which two vibrators are connected for this purpose.

  In FIG. 4, 1 is two piezoelectric vibrators, 2 is a mounting part, and 3 is a piece part. 1-1 is a vibration plate of the piezoelectric vibrator 1, 1-2 is a vibration plate of the piezoelectric vibrator 2, and 1-3 is a rod-shaped structure that penetrates and fixes the vibration plate of the piezoelectric vibrator through a reaction absorbing elastic body 2. 1 is a reaction-absorbing elastic body for the piezoelectric vibrator 1; 1-5 is a reaction-absorbing elastic body for the piezoelectric vibrator 2; 1-6 is an outer frame of the diaphragm; -7 is a sound quality adjusting mass member attached to the periphery of the diaphragm, 1-8 is an electric audio signal conducting cable to the piezoelectric vibrator 1, 1-9 is an electric audio signal conducting cable to the piezoelectric vibrator 2, 1- Reference numeral 10 denotes a protective cover.

  In addition, in the mounting portion 2 of FIG. 4, 2-1 is a rod-like structure that fixes the vibrator 1 to the piece, and transmits mechanical vibrations of the two vibrators to the piece, 2-2 is a clip holder 2- 3 is a screw that clamps the upper edge portion 3-1 between the stand 2-4 of the clip portion and fastens it, and 2-5 is a screw that fixes the rod-like structure 2-1 to the stand 2-4 of the clip portion. is there.

  In this embodiment, the left and right signals of two monaural sound sources or stereo sound sources are induced to the piezoelectric vibrator 1 and the piezoelectric vibrator 2 via the electric audio signal conducting cables 1-8 and 1-9, respectively. Since the two vibrators are vibrated and the doubled vibration energy is transmitted to the piece via the rod-shaped structure 2-1, it is possible to automatically play heavy bass on a large stringed instrument such as a cello. In this case, as described in the third embodiment, the sound quality adjusting mass member 1-7 attached to the periphery of the diaphragm exerts a great effect on the sound generation of the heavy bass in the musical instrument.

  Record the voice of the violin instrument on the channel dedicated to the violin instrument, reproduce and amplify the electrical audio signal from the medium that recorded the sound of the accompaniment sound source on the accompaniment channel, and respond to the electrical audio signal on the channel dedicated to the violin instrument Accompaniment music by exciting a violin group instrument with the vibration of a piezoelectric vibrator to automatically play the sound source of the violin group instrument, and exciting the cone paper with the vibration of the voice coil that vibrates according to the electrical audio signal of the accompaniment channel By reproducing the sound source with a dynamic speaker, it can be applied to an excellent automatic ensemble of a violin group musical instrument sound source with accompaniment.

It is explanatory drawing which showed the structure of the automatic ensemble apparatus. Example 1 It is explanatory drawing which showed the structure of the automatic ensemble apparatus. (Example 2) It is explanatory drawing which showed the structure of the automatic violin group musical instrument, and the structure of a vibration part and a structure. (Example 3) It is explanatory drawing which showed the structure of the vibration part and structure of an automatic violin group musical instrument. (Example 4)

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Playback apparatus 2 Amplification apparatus 3 Automatic violin group musical instrument 4 Dynamic speaker

Claims (4)

A medium in which the sound of the violin instrument and the sound of the accompaniment sound source are recorded in synchronization on the channel dedicated to the violin instrument and the channel dedicated to the accompaniment,
A playback device that synchronizes and plays back the recorded electrical audio signals of both channels separately,
An automatic violin group musical instrument that plays by exciting a piece of a violin group musical instrument with vibration of a piezoelectric vibrator that vibrates in response to an electric sound signal of a channel dedicated to the violin group musical instrument,
An automatic ensemble apparatus comprising a dynamic speaker that reproduces an accompaniment sound source by exciting cone paper with the vibration of a voice coil that vibrates according to an electric sound signal of an accompaniment dedicated channel. A medium in which the violin sound and the cello sound are synchronized and recorded on the violin channel and the cello channel, respectively.
A playback device that synchronizes and plays back the recorded electrical audio signals of both channels separately,
An automatic violin that automatically plays by exciting the violin piece with the vibration of a piezoelectric vibrator that vibrates in response to the electrical audio signal of the dedicated channel for the violin,
An automatic ensemble apparatus comprising an automatic cello that automatically performs performance by exciting a cello piece by vibration of a piezoelectric vibrator that vibrates in response to an electric audio signal of a cello dedicated channel.   The automatic violin group musical instrument or automatic violin or automatic cello is configured to automatically play a musical instrument by exciting a piece by a piezoelectric vibrator attached to the piece, and the piezoelectric vibrator and the piece are connected by a rod-like structure, and the piezoelectric vibration The piezoelectric diaphragm of the child is provided with a mass member for adjusting the sound quality at the edge, and the rod-like structure penetrates the center of the piezoelectric diaphragm through a skewer, and the piezoelectric diaphragm is connected to the open end via a reaction absorbing elastic body. The automatic ensemble apparatus according to claim 1 or 2, characterized in that the fixed end is fixed to the upper edge of the piece.   The automatic violin group musical instrument or automatic violin or automatic cello is configured to automatically play a musical instrument by exciting a piece by two piezoelectric vibrators attached to the piece, and the two piezoelectric vibrators and the piece are rod-shaped structures. The piezoelectric diaphragms of the two piezoelectric vibrators are provided with sound quality adjusting mass members at their respective edges, and the rod-like structure penetrates the center part of the two piezoelectric diaphragms into a skewer, The first piezoelectric diaphragm is fixed to the open end via a reaction absorbing elastic body, and the second piezoelectric diaphragm is fixed with a reaction absorbing elastic body interposed between the first piezoelectric diaphragm and the fixed end. 3. The automatic ensemble apparatus according to claim 1, wherein the end is fixed to the upper edge of the piece.

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