A woodwind mouthpiece has a tone chamber in communication with a central bore running through the mouthpiece and a window exposing the tone chamber. A table is located at a first end of the window, and a tip rail is located at a second end of the window opposite the first end. A pair of side rails run along opposite sides of the window from the table to the tip rail. Each side rail includes a side rail top surface. A pair of flanges are provided in the mouthpiece such that each flange extending out from one of the side rail top surfaces in a direction opposite the window. This arrangement reduces the intensity of the shock fronts at the aperture into the tone chamber.

A flute headjoint includes a cylindrical pipe section (2), an embouchure hole (3) bounded by a reinforcing element (4), a crown (6) terminating the pipe section (2) situated to the left of the embouchure hole (3), and a concave tuning plug (8) disposed in the pipe section (2) in a sonic chamber (5) situated under the embouchure hole (3). The cylindrical pipe section (2) is longer compared to conventional configurations, the crown (6) is open, the tuning plug (8, 12, 15, 23) is a cylindrical body with its face situated facing the embouchure hole (3) having a sunken three-dimensional configuration made as a combination of regular or irregular arcuate and flat faces. A balance weight (40) is positioned in the resonator cavity (5a) between the tuning plug (8, 12, 15, 23) and the crown (6). Pipe section (2) includes an additional extension piece (42, 43) which is removable

A flute headjoint includes a cylindrical pipe section (2), an embouchure hole (3) bounded by a reinforcing element (4), a crown (6) terminating the pipe section (2) situated to the left of the embouchure hole (3), and a concave tuning plug (8) disposed in the pipe section (2) in a sonic chamber (5) situated under the embouchure hole (3). The cylindrical pipe section (2) is longer compared to conventional configurations, the crown (6) is open, the tuning plug (8, 12, 15, 23) is a cylindrical body with its face situated facing the embouchure hole (3) having a sunken three-dimensional configuration made as a combination of regular or irregular arcuate and flat faces. A balance weight (40) is positioned in the resonator cavity (5a) between the tuning plug (8, 12, 15, 23) and the crown (6). Pipe section (2) includes an additional extension piece (42, 43) which is removable

A wind instrument includes a tube body; a tone hole tube that has an inner open end formed extending from the outer periphery of the tube body and opening to the inside of the tube body, and an outer open end opening to the outside of the tube body; and a finger pressing plate that, in the radial direction of the tone hole tube, extends from the outer open end of the tone hole tube to the outside of the tone hole tube.

A smoker's pipe, comprising a tobacco bowl for burning tobacco, and a stem extending from the outer bowl, wherein the bowl comprises a brass musical instrument mouthpiece and the stem comprises the lead tube of a brass musical instrument.

A woodwind mouthpiece has a tone chamber in communication with a central bore running through the mouthpiece and a window exposing the tone chamber. A table is located at a first end of the window, and a tip rail is located at a second end of the window opposite the first end. A pair of side rails run along opposite sides of the window from the table to the tip rail. Each side rail includes a side rail top surface. A pair of flanges are provided in the mouthpiece such that each flange extending out from one of the side rail top surfaces in a direction opposite the window. This arrangement reduces the intensity of the shock fronts at the aperture into the tone chamber.

A woodwind mouthpiece has a tone chamber in communication with a central bore running through the mouthpiece and a window exposing the tone chamber. A table is located at a first end of the window, and a tip rail is located at a second end of the window opposite the first end. A pair of side rails run along opposite sides of the window from the table to the tip rail. Each side rail includes a side rail top surface. A pair of flanges are provided in the mouthpiece such that each flange extending out from one of the side rail top surfaces in a direction opposite the window. This arrangement reduces the intensity of the shock fronts at the aperture into the tone chamber.

A ligature strap for a mouthpiece includes a plurality of kerfs extending at least partially along each one of a plurality of parallel lines running across the ligature strap with at least two separate kerfs extending along a common line in the plurality of parallel lines. The ligature strap includes a central portion and two ends portions extending at an angle from the central portion. The parallel lines extend into the end portions and kerfs are disposed on the parallel lines in the end portions.

A ligature strap for a mouthpiece includes a plurality of kerfs extending at least partially along each one of a plurality of parallel lines running across the ligature strap with at least two separate kerfs extending along a common line in the plurality of parallel lines. The ligature strap includes a central portion and two ends portions extending at an angle from the central portion. The parallel lines extend into the end portions and kerfs are disposed on the parallel lines in the end portions.

Personalized dental guards for users of musical wind instrument, as well as methods for making such personalized dental guards, are disclosed. The personalized dental guards can be fabricated from a thermoplastic ingot that becomes pliable at elevated temperatures. The method can involve heating the thermoplastic ingot until pliable, wrapping the pliable thermoplastic ingot around a musical wind instrument user's teeth to form a personalized dental guard that substantially conforms to the user's teeth. Once formed, the personalized dental guard can be transformed back to the pliable thermoplastic ingot by subjecting it to heat and the recovered thermoplastic ingot can be reprocessed to fabricate a new personalized dental guard.