The present invention relates to a shield device configured to fit over the mouthpiece of a wind instrument to block droplets and aerosols released by a performer using the instrument. The shield device receives and blocks germs and pathogens in droplets and aerosols and prevents them from spreading. The shield device does not interfere with the functionality and operation of the instrument and is configured to be positioned in front of the nose and mouth of a performer at a distance of up to a few inches.

The present invention relates to a shield device configured to fit over the mouthpiece of a wind instrument to block droplets and aerosols released by a performer using the instrument. The shield device receives and blocks germs and pathogens in droplets and aerosols and prevents them from spreading. The shield device does not interfere with the functionality and operation of the instrument and is configured to be positioned in front of the nose and mouth of a performer at a distance of up to a few inches.

An instrument mouthpiece having an interior wall that includes a plurality of modifications that disrupts airflow through the mouthpiece in order to produce a pleasing sound when a player is playing an instrument. The modifications may comprise raised ridges disposed on the baffle of the or valleys carved into the baffle. Additionally, the modifications may include specific patterns designed to elicit different, yet still pleasing sounds from the instrument. These patterns may include a first pattern having a first central linear modification flanked by a set of modifications having parabolic elongated modifications wherein each modification has a parabolic focus increasingly more distant from each respective modification in a direction away from the central modification and also flanked by a set of modifications having parabolic elongated modifications fashioned in the opposite direction. Another pattern may include modifications that are linear but spaced apart from each other in an increasingly distant pattern.

In an embodiment a flute head joint includes a beak-shaped mouthpiece and a curved neck, wherein the mouthpiece comprises a curved labium, and wherein a chamber of the mouthpiece has a larger diameter than an inner cavity of the neck.

In an embodiment a flute head joint includes a beak-shaped mouthpiece and a curved neck, wherein the mouthpiece comprises a curved labium, and wherein a chamber of the mouthpiece has a larger diameter than an inner cavity of the neck.

The present invention relates to a novel woodwind mouthpiece, which comprises: a main body having an elongated streamlined shape; a hollow chamber and a bore inside the main body; a reed table on one side of the main body and partially suspended from the main body; a beak on an opposite side to the reed table on the main body; a reed rail surrounding the beak and connecting to two lateral sides of the reed table to form an opening window between a reed and the hollow chamber inside the main body; and a tip opening disposed between the reed rail at a tip of the beak and an virtual surface extending from a surface of the reed table, wherein the woodwind mouthpiece is made of a plastic, a metal, an alloy, a composite, wood or a combination thereof.

A ligature for a woodwind mouthpiece includes a ligature strap with a carbon fiber portion and at least one flexible strap portion attached to and extending from the carbon fiber portion along one of the side edges. The flexible strap portion is folded over to form two layers of flexible strap, and a pair of rods are disposed between the two layers of one of the flexible strap portions. A closure mechanism passes through the flexible strap portion and each rod.

A ligature for a woodwind mouthpiece includes a ligature strap with a carbon fiber portion and at least one flexible strap portion attached to and extending from the carbon fiber portion along one of the side edges. The flexible strap portion is folded over to form two layers of flexible strap, and a pair of rods are disposed between the two layers of one of the flexible strap portions. A closure mechanism passes through the flexible strap portion and each rod.

To provide an electronic wind instrument capable of accurately detecting the amount of rotation of a transmission member. During an electronic wind instrument performance by a performer, external light (such as light from lighting) may easily shine on the upper surface side of an instrument main body. However, the light-receiving section of an optical sensor faces toward the bottom surface side of the instrument main body therefore external light from the upper surface side of the instrument main body can be prevented from reaching the light-receiving section of the optical sensor. As a result, erroneous detection of the external light by the optical sensor can be suppressed therefore the rotation amount of a transmission member can be accurately detected by the optical sensor.

To provide an electronic wind instrument capable of accurately detecting the amount of rotation of a transmission member. During an electronic wind instrument performance by a performer, external light (such as light from lighting) may easily shine on the upper surface side of an instrument main body. However, the light-receiving section of an optical sensor faces toward the bottom surface side of the instrument main body therefore external light from the upper surface side of the instrument main body can be prevented from reaching the light-receiving section of the optical sensor. As a result, erroneous detection of the external light by the optical sensor can be suppressed therefore the rotation amount of a transmission member can be accurately detected by the optical sensor.