Abstract: A string-bridge interface system includes a plurality of string-bridge interface units to provide coupling between strings of a musical instrument and one or more sound bridges of the musical instrument, which are further coupled to the sound board of the musical instrument. Such coupling provided by the string-bridge interface units allows for reduced loading of the sound board and more direct routing of the strings.

Abstract: A string-bridge interface system includes a plurality of string-bridge interface units to provide coupling between strings of a musical instrument and one or more sound bridges of the musical instrument, which are further coupled to the sound board of the musical instrument. Such coupling provided by the string-bridge interface units allows for reduced loading of the sound board and more direct routing of the strings.

Abstract: A piano (1) having a dense sound-enhancing component (2), said piano (1) having a case (6), a frame (3) located within the case (6), strings (5) located within the frame (3), keys (9) in connection with hammers (11), two bridges (13) each of stone having a top face (27), a bottom face (28), a first side (29) and a second side (30), bridge pins (16) extending from the top face (27) at an angle, the strings (5) extending across the bridges (13) adjacent to the bridge pins (16), a soundboard (4) and an amount of epoxy (18) located between the bridges (13) and soundboard (4). The dense sound-enhancing component (2) is a stone material, preferably granite, and enhances the sound of the piano (1) by holding and sustaining pitch longer, providing a longer and stronger signal, providing a higher volume or decibel level and having a decreased decibel fall-off as compared to conventional pianos utilizing wood bridge(s).

Abstract: An acoustic guitar having a reverberating bridge assembly mounted onto the body of the guitar for re-echoing and reverberating the sounds produced by the strings of the guitar, in order to increase the range of sound effects that the guitar is capable of producing. The reverberating bridge assembly comprises a tailpiece having a transverse crevice, a U-shaped tube support positioned within the crevice, and a hollow cylindrical tube supported upon the U-shaped tube support. The strings of the guitar press upon the cylindrical tube. When a player plucks the strings, vibrations of the strings reverberate within the tube, and are transmitted therefrom to the U-shaped tube support, the tailpiece, and then to the body of the guitar. The reverberating bridge assembly produces sound having a delightful reverberating quality.

Abstract: The invention relates to an acoustic piano having a fretbase on which at least one fret node is supported by a fret and an adjacent node spaced from the fret node. Selected piano strings press downwardly upon the nodes and define between the nodes a duplex scale portion of the piano strings. A plate is located beneath the fretbase and is pressed downwardly by the fretbase due to pressure of the strings. The invention provides a method of moving the fretbase portion relative to the plate in a direction parallel to the piano strings. The method includes the steps of providing a force-applying tool including a mandrel portion, and a force-transmitting head having a force-transmitting surface and a surface for sliding on the plate. The tool is oriented so that a main axis of the mandrel portion angles downwardly towards a plane of the piano strings, with the force-transmitting surface abutting a force-receiving surface of the fretbase, and with the sliding surface abutting the plate.

Abstract: A small mass having a weight within the range of from about 50 grams to about 200 grams is utilized in an upright or grand piano to minimize or eliminate a difference in tonal amplitude and/or decay rate between at least two notes produced by playing at least two adjacent piano keys. The difference in tonal amplitude and/or decay rate may occur in a small group or region of notes produced by adjacent keys, or at those notes of adjacent keys located at certain natural scale "breaks". The mass is affixed to that soundboard bridge on which the note demonstrating the greatest amplitude and/or decay rate terminates vibrationally and is located adjacent the at least one string of that note.

Abstract: An electric piano, using only one string per note and no soundboard, employs special mechanical and electrical means capable of controlling all of its various characteristics in order to duplicate the sound and other characteristics of a conventional piano. A floating bridge, floating on the strings and supported solely thereby, is used not for the pickup or transfer of string vibrations to any other device, but to control the characteristics of the string vibrations. Magnetic pickups consisting of a series of coils with adjustable permanent-magnet cores are arranged in special positions along the active lengths of corresponding strings and, in conjunction with frequency responsive capacitor circuitry, convert the vibration of each string into an electrical signal, shape the signal, and provide a composite signal output containing all the tone characteristics needed to produce a true piano sound.