A stringed instrument, such as an acoustic, electric, or semi-acoustic electric guitar or bass, can employ a stringpath assembly that consists of a tail structure connected to a head structure via a plurality of strings with the tailpiece consisting of a body disposed between a bridge mechanically fastened to a tailpiece with each string of the plurality of strings continuously extending from the bridge through the body to the tailpiece to efficiently capture vibration of the plurality of the strings.

A stringed instrument, such as an acoustic, electric, or semi-acoustic electric guitar or bass, can employ a stringpath assembly that consists of a tail structure connected to a head structure via a plurality of strings with the tailpiece consisting of a body disposed between a bridge mechanically fastened to a tailpiece with each string of the plurality of strings continuously extending from the bridge through the body to the tailpiece to efficiently capture vibration of the plurality of the strings.

Exemplary embodiments of stringed instruments including extended string retaining saddle straps are disclosed. The exemplary embodiments include an extended string retaining saddle strap connected to each of, and between, a string connection to the instrument's strings at a bottom portion of a body portion of the stringed instrument and a saddle strap connector at an upper portion of the body portion of the stringed instrument. In an aspect, the saddle strap connector may be connected to a neck block portion joining a neck portion of the stringed instrument to the body portion, within a hollow interior of the body portion. In an aspect, connecting the extended string retaining saddle strap to each of, and between, the string connection and the saddle strap connector creates a tension that tends to pull the string connection and the saddle strap connector towards each other.

A saddle for a string instrument includes a string contact surface comprising a first material, a saddle end surface, generally opposite the string contact surface, comprising the first material, and two opposing side surfaces comprising a vibration-absorbent material different than the first material.

A saddle for a string instrument includes a string contact surface comprising a first material, a saddle end surface, generally opposite the string contact surface, comprising the first material, and two opposing side surfaces comprising a vibration-absorbent material different than the first material.

[Problems to be Solved] The object of the present invention is to provide a stringed instrument which can maintain sound volume at a specific level, optimize vibration of strings and resonance of body and improve balance of the sound volume and sound quality in the treble side tone and the bass side tone. [Means for Solving the Problems] A force is applied to a front end of said tailpiece for rotating a front end of a tailpiece in a direction from a portion to which a string having a high basic frequency is fastened to a portion to which a string having a low basic frequency is fastened so that a load applied from the string having a high basic frequency to a bridge decreases and a load applied from the string having a low basic frequency to the bridge increases.

A saddle for a string instrument includes a string contact surface comprising a first material, a saddle end surface, generally opposite the string contact surface, comprising the first material, and two opposing side surfaces comprising a vibration-absorbent material different than the first material.

A saddle for a string instrument includes a string contact surface comprising a first material, a saddle end surface, generally opposite the string contact surface, comprising the first material, and two opposing side surfaces comprising a vibration-absorbent material different than the first material.

[Problems to be Solved]

The object of the present invention is to provide a stringed instrument which can maintain sound volume at a specific level, optimize vibration of strings and resonance of body and improve balance of the sound volume and sound quality in the treble side tone and the bass side tone.

[Means for Solving the Problems]

A force is applied to a front end of said tailpiece for rotating a front end of a tailpiece in a direction from a portion to which a string having a high basic frequency is fastened to a portion to which a string having a low basic frequency is fastened so that a load applied from the string having a high basic frequency to a bridge decreases and a load applied from the string having a low basic frequency to the bridge increases.

A string instrument tailpiece may include a lever including a tailcord. The string instrument tailpiece may also include a base coupled to the lever along a pivot axis such that the lever is pivotable about the pivot axis. The tailcord may engage an endpin of a string instrument. The tailcord may be under an engaged-tension when the lever is in an engaged position and a release-tension when the lever is in a release position. The engaged-tension may be greater than the release-tension. The tailcord may also be disengageable from the endpin when under the release-tension.