Patents by Inventor Mayuki Yanagawa
Mayuki Yanagawa has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20200291546Abstract: A system and method for forming non-woven fibers includes an extruder for melting a substance, a nozzle on an end of the extruder for outputting the melted substance, and a gas source in fluid communication with the nozzle. The nozzle may be configured to output the substance in a melted form at atmospheric pressure proximate an output of the gas source. The system may be configured to output a gas stream at lower temperature.Type: ApplicationFiled: April 5, 2020Publication date: September 17, 2020Inventors: Keiko Muto, Mayuki Yanagawa
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Patent number: 10648104Abstract: A system and method for forming non-woven fibers includes an extruder for melting a substance, a nozzle on an end of the extruder for outputting the melted substance, and a gas source in fluid communication with the nozzle. The nozzle may be configured to output the substance in a melted form at atmospheric pressure proximate an output of the gas source. The system may be configured to output a gas stream at lower temperature.Type: GrantFiled: March 28, 2017Date of Patent: May 12, 2020Inventors: Keiko Muto, Mayuki Yanagawa
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Publication number: 20180282903Abstract: A system and method for forming non-woven fibers includes an extruder for melting a substance, a nozzle on an end of the extruder for outputting the melted substance, and a gas source in fluid communication with the nozzle. The nozzle may be configured to output the substance in a melted form at atmospheric pressure proximate an output of the gas source. The system may be configured to output a gas stream at lower temperature.Type: ApplicationFiled: March 28, 2017Publication date: October 4, 2018Inventors: Keiko Muto, Mayuki Yanagawa
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Patent number: 7510047Abstract: A complex speaker edge and asymmetric resonator panel in which the acoustic vibration damping capacity of the speaker edge varies longitudinally around the speaker edge. The resonator panel has an aspect ratio of approximately 1.3:1 or more, and is composed of top and bottom panels held in spaced apart relationship by a plurality of longitudinally extending ribs extending therebetween. The ribs extend at an angle of from approximately 5 to 35 degrees to the longitudinal axis of the panel. The angle is acoustically matched to the complex speaker edge to improve the accuracy with which said acoustic vibration is reproduced. The effectiveness of the differential damping capacity of the edge in improving the quality of sound output from a speaker assembly is determined by observing the average magnitude of the excursions of the sound level pressure versus frequency curves for comparable complex and single speaker edges, particularly in the 200 to 10,000 Hertz range.Type: GrantFiled: October 4, 2007Date of Patent: March 31, 2009Inventors: Keiko Muto, Mayuki Yanagawa
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Publication number: 20080023259Abstract: A complex speaker edge and asymmetric resonator panel in which the acoustic vibration damping capacity of the speaker edge varies longitudinally around the speaker edge. The resonator panel has an aspect ratio of approximately 1.3:1 or more, and is composed of top and bottom panels held in spaced apart relationship by a plurality of longitudinally extending ribs extending therebetween. The ribs extend at an angle of from approximately 5 to 35 degrees to the longitudinal axis of the panel. The angle is acoustically matched to the complex speaker edge to improve the accuracy with which said acoustic vibration is reproduced. The effectiveness of the differential damping capacity of the edge in improving the quality of sound output from a speaker assembly is determined by observing the average magnitude of the excursions of the sound level pressure versus frequency curves for comparable complex and single speaker edges, particularly in the 200 to 10,000 Hertz range.Type: ApplicationFiled: October 4, 2007Publication date: January 31, 2008Inventors: Keiko Muto, Mayuki Yanagawa
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Publication number: 20050286729Abstract: A flat loudspeaker having a back plate, a driver responsive to an electrical signal, an enhancer having a neck and a mouth, the neck attached to the driver and movable in accordance with the movement of the driver, a thin film membrane, the membrane attached to the enhancer, the membrane stretched over the frame, a frame for supporting the membrane and maintaining it in a taut state, and a rubber type adhesive for dampening the membrane resonances and for adhering the membrane to the frame. Clarity of sound can be further improved by including a plurality of sound breathers in the back plate of the speaker. For improved sound radiation capability, the size and the shape of the enhancer can be modified in various ways, including a frustoconical, parabolic, or bell-shaped enhancer. Dampening material may be provided in the space below or affixed to the membrane to improve sound quality.Type: ApplicationFiled: June 13, 2005Publication date: December 29, 2005Inventors: George Harwood, Keiko Muto, Michael Petroff, Mayuki Yanagawa
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Publication number: 20050194203Abstract: A complex speaker edge in which the acoustic vibration damping capacity of the speaker edge varies longitudinally around the speaker edge in rough proportion to the radial distance of the instant section of the speaker edge from the center of the source of acoustic vibration. The vibrational damping capacity of the speaker edge can vary gradually or abruptly in a stepwise fashion. The complex speaker edge is adapted for use in planer speaker assemblies with high aspect ratio planar resonator plates. The effectiveness of the differential damping capacity in improving the quality of sound output from a speaker assembly is determined by observing the average magnitude of the excursions of the sound level pressure versus frequency curves for comparable complex and single speaker edges, particularly in the 200 to 10,000 Hertz range.Type: ApplicationFiled: March 5, 2004Publication date: September 8, 2005Inventors: Keiko Muto, Mayuki Yanagawa
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Patent number: 6925191Abstract: A loudspeaker having a back plate, a driver attached to the back plate, the driver being responsive to an electrical signal, an enhancer having a neck and a mouth, the neck attached to the driver and movable in accordance with the movement of the driver, a thin film membrane, the membrane attached to the enhancer, the membrane stretched over the frame, a frame for supporting the membrane and maintaining it in a taut state, and a rubber type adhesive for dampening the membrane resonances and for adhering the membrane to the frame. Clarity of sound can be further improved by including a plurality of sound breathers in the back plate of the speaker. For improved sound radiation capability, the size and the shape of the enhancer can be modified in various ways, including a frustoconical, parabolic, or bell-shaped enhancer.Type: GrantFiled: January 23, 2002Date of Patent: August 2, 2005Assignee: Digital Sonics LLCInventors: Michael Petroff, Mayuki Yanagawa, Keiko Muto
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Patent number: 6687381Abstract: A planar loudspeaker is disclosed having a unique multi-layered sound resonator plate. The resonator has an upper layer and a lower layer maintained in a flat spaced-apart relationship. Divider walls or ribs are present to maintain the upper and lower layers spaced-apart, and in a self-taut state with internal chambers. The resonator layers and divider walls establish a plurality of internal passages or chambers that may or may not be sealed. The planar speaker includes a frame assembly having a mount plate and a resonator driver attached to the mount plate. The driver being responsive to an electrical signal and attached to a radiator that is movable in accordance with the movement of the driver. The flat spaced-apart resonator is attached to the radiator and frame, which produces sound when vibrated. The aspect ratio of the planar loudspeaker is preferably at least about 1.3 to 1 or greater.Type: GrantFiled: March 7, 2002Date of Patent: February 3, 2004Inventors: Mayuki Yanagawa, Muto Keiko
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Publication number: 20020176597Abstract: A loudspeaker having a back plate, a driver attached to the back plate, the driver being responsive to an electrical signal, an enhancer having a neck and a mouth, the neck attached to the driver and movable in accordance with the movement of the driver, a thin film membrane, the membrane attached to the enhancer, the membrane stretched over the frame, a frame for supporting the membrane and maintaining it in a taut state, and a rubber type adhesive for dampening the membrane resonances and for adhering the membrane to the frame. Clarity of sound can be further improved by including a plurality of sound breathers in the back plate of the speaker. For improved sound radiation capability, the size and the shape of the enhancer can be modified in various ways, including a frustoconical, parabolic, or bell-shaped enhancer.Type: ApplicationFiled: January 23, 2002Publication date: November 28, 2002Inventors: Michael Petroff, Mayuki Yanagawa, Keiko Muto
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Publication number: 20020094108Abstract: A planar loudspeaker is disclosed having a unique multi-layered sound resonator plate. The resonator has an upper layer and a lower layer maintained in a flat spaced-apart relationship. Divider walls or ribs are present to maintain the upper and lower layers spaced-apart, and in a self-taut state with internal chambers. The resonator layers and divider walls establish a plurality of internal passages or chambers that may or may not be sealed. The planar speaker includes a frame assembly having a mount plate and a resonator driver attached to the mount plate. The driver being responsive to an electrical signal and attached to a radiator that is movable in accordance with the movement of the driver. The flat spaced-apart resonator is attached to the radiator and frame, which produces sound when vibrated. The aspect ratio of the planar loudspeaker is preferably at least about 1.3 to 1 or greater.Type: ApplicationFiled: March 7, 2002Publication date: July 18, 2002Inventors: Mayuki Yanagawa, Muto Keiko