The invention relates to musical instruments and, more particularly, to methods and systems for producing sound with an instrument using a secondary device.
A stringed instrument produces sound when a string vibrates a mass of the stringed instrument. The mass may include, for example, structural elements defining an acoustic chamber, such as the top, bottom, and side walls of a guitar. The mass of the instrument creates sound by amplifying the string vibration. The sound level of a stringed instrument is commonly amplified by vibrating another mass, such as a speaker cone that is separate and/or distinct from the body of the stringed instrument.
In a first aspect of the invention, there is a musical instrument comprising: a primary sound producing mechanism; a primary sound producing surface, wherein movement of the primary sound producing mechanism by a user causes the primary sound producing surface to produce a sound; a secondary device contacting the primary sound producing surface; and a controller operatively connected to the secondary device and configured to cause the secondary device to vibrate the primary sound producing surface to produce a sound by the musical instrument.
In another aspect of the invention, there is a system comprising the musical instrument comprising the primary sound producing mechanism, the primary sound producing surface, the secondary device, and the controller. The system also comprises an external computer device. The computer device comprises a processor, a memory, and programming stored in the memory and executed by the processor that causes the computer device to: send a signal to the secondary device that causes the secondary device to produce a sound in the musical instrument by vibrating the primary sound producing surface.
In another aspect of the invention, there is a method that uses the musical instrument comprising the primary sound producing mechanism, the primary sound producing surface, the secondary device, and the controller. The method comprises using the secondary device to one of: amplify a sound created by the primary sound producing mechanism; produce a sound in the musical instrument based on a signal received from a computer device that is external to and separate from the musical instrument.
In another aspect of the invention, there is a system comprising: a communication device for receiving and/or sending wireless signals; a capture device that captures mechanical vibrations such as a magnetic pickup, piezo, or microphone; a processor device that converts a signal in one form of energy to another form of energy; an actuator device that accepts energy and produces movement, such as a voice coil or piezo actuator; and an energy source, such as a battery. The communication device, capture device, processor device, actuator device, and energy source are configured to be attached to a musical instrument, and are further configured to cause the actuator device to vibrate a sound producing surface of the musical instrument to produce a sound by the musical instrument.
In another aspect of the invention, there is a method comprising: providing the system including the communication device, the capture device, the processor device, the actuator device, and the energy source; and providing instructions for how to install the system in a musical instrument.
The present invention is described in the detailed description which follows, in reference to the noted plurality of drawings by way of non-limiting examples of exemplary embodiments of the present invention.
a and 11b show exemplary attachments for connecting a device to an instrument in accordance with aspects of the invention.
The particulars shown herein are by way of example and for purposes of illustrative discussion of the embodiments of the present invention only and are presented in the cause of providing what is believed to be the most useful and readily understood description of the principles and conceptual aspects of the present invention. In this regard, no attempt is made to show structural details of the present invention in more detail than is necessary for the fundamental understanding of the present invention, the description taken with the drawings making apparent to those skilled in the art how the several forms of the present invention may be embodied in practice.
The invention relates to musical instruments and, more particularly, to methods and systems for producing sound with an instrument using a secondary device. According to aspects of the invention, a secondary device is added to a stringed instrument to vibrate the mass of the instrument to also create sound. The secondary device can increase the amplitude of the sound derived from the string, the primary device, when played at the same frequency of the vibration of the string. This amplification by the secondary device increases the volume of the notes without an external speaker and creates tone more similar to the original tone than is possible through an external speaker. The secondary device can also vibrate the instrument to create auxiliary sounds at any frequency independent of the sound created by the string.
Implementations of the invention comprise a musical instrument with a secondary device within the instrument to amplify the tone being produced by the primary playing surface of the musical instrument. The secondary device may comprise two or more mechanisms for producing sound. Embodiments use wireless communication to the musical instrument. Implementations comprise a musical instrument with two way data communication. Additional aspects of the invention contemplate using the secondary device in an instrument having a similar shape and/or material to that of the instrument being emulated. Even further aspects of the invention include a software application (e.g., an “app”) designed to record sounds from a musical instrument and replay back to the same instrument with or without adjustment or to add sounds.
Although aspects of the invention are described herein with respect to a guitar, it is noted that the invention is not limited to use with a guitar, and aspects of the invention may be used with any desired musical instrument having a primary sound producing mechanism and a primary sound producing surface. Moreover, the invention is not limited to using one secondary device, and any desired number of secondary devices may be used with a musical instrument within the scope of the invention.
Implementations of the invention may include a power supply (e.g., a battery, etc.) and circuitry (e.g., processor, wiring, etc.) associated with the secondary device 15 that are used in driving the secondary device 15. For example, there may be a controller that is operatively connected to the secondary device 15 and configured to cause the secondary device 15 to vibrate a primary sound producing surface of an instrument to produce a sound by the musical instrument. In embodiments, the controller is a processor device 120 as shown in
Additional aspects of the invention include a device consisting of two or more mechanisms for producing sound: a primary sound producing mechanism (e.g., a guitar example is an acoustic chamber defined in part by the guitar top surface/soundboard) and a secondary sound producing mechanism (e.g., a guitar example is voice coil/piezo/thumper, such as). The secondary sound producing mechanism may be a secondary vibration producing device (secondary device 15) that is able to be lifted and replaced from and to the surface of the instrument. The secondary vibration producing device is able to be turned on or off. The secondary vibration producing device may be arranged on a surface/side other than guitar top surface/soundboard/side. The secondary vibration producing device (guitar example is voice coil/piezo) may be on the same surface/side as the fret board.
Additional aspects of the invention include a musical instrument with a device (secondary device 15) within the instrument to amplify the tone being produced by the primary sound producing surface of the instrument.
Additional aspects of the invention include a musical instrument with two way data communication. This may include, for example, communication out of instrument to a smart phone, computer, recorder, equalizer, or other and reciprocal data communication back to instrument. Aspects of the invention may include a switch or sensor on the musical instrument used to communicate states (i.e., start recording, stop recording, increase volume, add other sounds, etc.) of the instrument to the smart phone, computer, recorder, equalizer, or other device. Aspects of the invention may include a switch or sensor on the smart phone, computer, recorder, equalizer, or the like to communicate states (i.e., start recording, stop recording, increase volume, add other sounds, etc.) back to the instrument. In embodiments, the data is communicated out of the instrument to be processed (e.g., remove noise, noise canceling, amplify, modulate, or the like) by the smart phone, computer, recorder, equalizer, or the like.
Additional aspects of the invention include wireless communication to secondary sound producing mechanism (secondary device 15) within a musical instrument. The communication may be communication from another instrument. The communication may be communication from the internet (i.e., another person playing at the same time through one instrument or downloading a song and playing on the instrument.
Additional aspects of the invention include an application (app or program) designed to capture data from an instrument and replay to the same or another instrument using the secondary device 15.
Additional aspects of the invention include a speaker with the shape of a musical instrument thus resonating as a result of input from the secondary device 15 and producing similar sounds to that of the real instrument and/or a surface speaker on a guitar.
Additional aspects of the invention include a wireless charging station that functions as a stand for the instrument could also charge the batteries that are used to power the device.
Further aspects of the invention include the device being used for the education of guitar players. A player can learn exactly what his or her guitar would sound like when playing a certain chord correctly. For example, the external computer device can transmit a signal to a secondary device 15 mounted inside an instrument 10 that causes the secondary device 15 to vibrate the primary sound producing surface of the instrument 10 at a particular note or chord. At the same time, the computer device may visually display an indication of the particular note or chord that is being played (e.g., via the visual screen of the computer device). The software program on the computer device may be configured to permit a user to select a note or chord on the computer device (e.g., via a graphical user interface), which selection causes the computer device to transmit a signal to the secondary device 15 to play the selected note or chord on the instrument 10. Additionally, a student can practice the lead notes of a song while the secondary device 15 plays the rhythm, drums, and bass parts of the song on the same instrument 10 that the student is playing.
Even further aspects of the invention include a smart phone's accelerometer being used as a switch to engage features of the device described herein, and/or include a smart phone's voice command being used as a switch to engage the features described herein. For example, a user may hold their smart phone in their pocket and jiggle the phone (e.g., with a body movement) to start and/or stop recording of music being played on the instrument 10. As another example, the user may use voice commands to start and/or stop recording of music being played on the instrument 10. Such controls that do not rely on pressing a button on the smart phone may be useful to eliminate gaps at the beginning and end of recordings when playing instruments with one's hands. The invention is not limited to using an accelerometer or voice commands. Instead, aspects of the invention include controlling the secondary device 15 via any suitable input mechanism of the computer device, including but not limited to: keyboard, mouse, graphical user interface, touch screen, etc. Further, the invention is not limited to controlling only start and/or stop recording/playing. Instead, aspects of the invention include using the computer device to control the secondary device 15 to adjust any suitable function of the secondary device 15, including but not limited to: volume up, volume down, mute, loop playback of a recorded sounds, etc.
Still further aspects of the invention include a first user playing a first instrument 10 using the primary mechanism (e.g., the strings), a first computer device recording what is played on the first instrument, the first computer device communicating a signal to a second computer device (e.g., via the Internet or other network), the second computing device transmitting a control signal to a secondary device 15 contained in a second instrument 10′, wherein the control signal causes the secondary device 15 to vibrate the primary sound producing surface of the second instrument 10′ to mimic the sound that was played by the first instrument 10. In this manner, the second user of the second instrument 10′ may hear what is played by the first user of the first instrument 10.
Additional aspects of the invention include the ability to mute strings while the device is exciting the guitar body. This is important because if you wanted to let your guitar play by itself for a moment, it will create sympathetic vibration from the strings.
Further aspects of the invention include an additional bracing system for the soundboard of the guitar.
According to aspects of the invention, the vibrating creating device (secondary device 15) may be placed on either the soundboard or the back surface of the guitar (instrument 10). The invention is not limited to these locations, however, and in some embodiments, the vibrating creating device (secondary device 15) may be placed on other parts of the instrument such as the sides of the guitar body, the guitar neck, etc.
In aspects of the invention, the components (e.g., transmitter, etc.) mounted inside the instrument push a signal outside the instrument, e.g., a computer device that is remote and separate from the instrument 10. The computer device adjusts or adds to the signal, which is then sent back to the secondary device 15 to cause the secondary device 15 to produce a sound in the instrument 10. Thus, implementations use hardware and software that are external to and separate from the instrument for signal processing, which reduces cost of the instrument 10 itself and allows for unlimited control possibilities. In particular exemplary embodiments, the inventive system locates the signal processing circuitry and controls in the computer device that is outside of and separate from the instrument, which allows for unlimited processing by physical users and/or virtual users acting on the instrument 10 via the external computing device and software controlling the secondary device 15.
Implementations of the invention acts on the primary sound producing surface of the instrument 10, e.g., the secondary device 15 vibrates the front or back wall of the acoustic chamber of the guitar body, rather than acting on the strings. The components of the inventive system that are mounted on the guitar may be mounted inside the guitar, e.g., hidden within the guitar without an enclosure for the user to grab or move. The secondary device 15 may also be connected to an exterior of one of the sound producing surfaces of the instrument, e.g., to an exterior of the top/front, side, or back surface of a guitar or the like.
In embodiments, the power supply for the secondary device 15 and associated circuitry inside the instrument 10 may be charged using contact-less inductive charging which transfers power using electro-magnetic flux. This method requires neither a connector nor a plug to re-charge the components inside the instrument 10. However, the invention is not limited to inductive charging, and other charging methods may be used.
According to aspects of the invention, the secondary device 15 produces sound in the instrument 10 by exciting the same acoustic chamber that is normally excited by the strings, i.e., there is not a additional chamber (e.g., resonating chamber, cavity, horn) in which the secondary device 15 operates. Moreover, implementations of the invention do not use additional masses to change tones. Aspects of the invention do not have additional chambers to amplify the sound but instead act directly on the guitar body thus amplifying only the tones that can be generated from the shape of the instrument 10, instead of using new/different chambers or shapes to create new/different tones. In some non-limiting exemplary embodiments, the objective is to generate true tones of the instrument 10 using the secondary device 15, and this is accomplished by the secondary device 15 acting on the same primary sound producing surface that is normally acted on the by the primary sound producing mechanism (i.e., the strings). In some non-limiting exemplary embodiments, the system avoids attaching a mass to the resonator to change the frequency, and, instead, an object is to create the same frequency (e.g., of that produced by the strings) by rigidly attaching the resonator to non-sound producing portions of the guitar (e.g., the secondary device 15 is held in place by braces that are connected to the non-sound producing side walls of the guitar as shown in
In additional embodiments, a signal generating device is not inside the instrument 10. Instead, the signal generating device that controls the secondary device 15 is located outside of the guitar, e.g., in a computer device such as a smart phone, laptop computer, tablet computer, etc. In some embodiments, only the pickup, receiver, communicator (e.g., transmitter/receiver) and amplifier (e.g., secondary device 15) are within the instrument 10.
Additional aspects of the invention include the system audibly educating a user by producing sounds that are exactly what the guitar should sounds like when the cord is played. This can be done because the resonating body is acting against the same surface that generates sound when the strings are played thus the sound is identical allowing for the user to audibly correct themselves until the correct note is played.
Additional aspects of the invention include:
In aspects of the invention, the sub-system 105 may be realized separate from a musical instrument, and subsequently connected to a musical instrument to produce sounds in the musical instrument in a manner similar to that described with respect to secondary device 15. The communication device 110 may be wireless communication device that is adapted to transmit and/or receive signals from a separate computer device 130, e.g., in a manner similar to that describe herein and in particular with respect to
As shown in
In this manner, implementations of the invention provide systems and methods of attaching one or more elements of sub-system 105 to an instrument. In one aspect, there is an attachment system comprising a system for attaching components of the device separately from each other to a musical instrument, e.g. some portions (for example, the communication device, processor device, energy source and capture device) are installed into sound hole of a guitar with clamping mechanisms, and other portions are mounted to the sound producing surfaces of the instrument. In another aspect, there is an attachment system comprising a system for attaching an actuator device 125 (e.g., voice coils or piezos) to a musical instrument that does not inhibit the ability to produce sound of the instrument without the device. In another aspect, there is an attachment system comprising a system for attaching an actuator device 125 (e.g., voice coils or piezos) to a musical instrument that optimizes the desired sound produced by the acoustic chamber when the actuator device is engaged.
Aspects of the invention also contemplate a method comprising: providing a system including the communication device, the capture device, the processor device, the actuator device, and the energy source; and providing instructions for how to install the system in a musical instrument. The system and instructions may be sold as a kit, e.g., separate from the instrument. The instructions may be printed and/or electronic, and may comprise at least one of text, audio, and video that explain how to install the system in a musical instrument, e.g., using one of the attachment methods shown in
It is noted that the foregoing examples have been provided merely for the purpose of explanation and are in no way to be construed as limiting of the present invention. While the present invention has been described with reference to an exemplary embodiment, it is understood that the words which have been used herein are words of description and illustration, rather than words of limitation. Changes may be made, within the purview of the appended claims, as presently stated and as amended, without departing from the scope and spirit of the present invention in its aspects. Although the present invention has been described herein with reference to particular means, materials and embodiments, the present invention is not intended to be limited to the particulars disclosed herein; rather, the present invention extends to all functionally equivalent structures, methods and uses, such as are within the scope of the appended claims.
This application claims priority to U.S. Application No. 61/756,188, filed Jan. 24, 2013, the contents of which are incorporated by reference herein in their entirety.
Number | Date | Country | |
---|---|---|---|
61756188 | Jan 2013 | US |