| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 381368000 | On shock absorbing support | 10 |
| 20090016558 | SUSPENSION DEVICE FOR MICROPHONE - The present invention is a suspension device comprising a frame and a means for holding a microphone. The means for holding a microphone is secured to the frame by two arms lying in a plane and the arms are shaped to allow movement of the means for holding a microphone in a direction transverse to the plane. | 01-15-2009 |
| 20090274334 | Mounting Method and Holder for SMD Microphone - A SMD microphone holder has an SMD microphone mounted within, and includes a cap body and cylindrical portion. The cap body is withstands a reflow temperature, and defines a cavity for mounting the SMD microphone therein. The cylindrical portion is formed with the cap body, and withstands a reflow temperature. The cap body includes a center hole, a tool contacting surface, and a shock absorbing protrusion. The center hole, through which outside sound enters, is formed in an upper surface of the cap body. The tool contacting surface is formed around the center hole, to facilitate use of a vacuum tool during a mounting of the SMD microphone. The shock absorbing protrusion is formed on an upper, inner perimeter surface of the cap body in a radial direction about the center hole, to avert direct surface friction between the cap body and a sound hole of the SMD microphone. | 11-05-2009 |
| 20090279730 | Shock-Absorbing Apparatus for a Ribbon Microphone Housing - A ribbon microphone housing incorporates a shock-absorbing apparatus to reduce vibration to a ribbon for noise reduction and high-fidelity electric output signal generation. The ribbon for the ribbon microphone housing is typically made of a thin corrugated strip of aluminum. The shock-absorbing apparatus utilizes spring elements to suspend a ribbon microphone frame in air. The spring elements isolate the ribbon contained in a ribbon frame from vibration, rumble, and shock exerted to the ribbon microphone housing which encloses both the ribbon and the ribbon frame. The shock-absorbing apparatus also uses an electrically-conductive spring element configured to carry the electric output signal from an electrode connected to one end of the ribbon to one or more transformers for further signal processing. | 11-12-2009 |
| 20100040251 | HANG UP MAGNET FOR RADIO MICROPHONE - A system is disclosed for safely and efficiently removing or returning a radio microphone from a mounting surface. The system includes a first magnet attached to the rear side of a radio microphone and a second magnet located at a desired mounting position on the mounting surface. The second magnet preferably includes an outer vinyl layer to prevent breaking or cracking of the first second magnet when returning the radio microphone to its mounting position. | 02-18-2010 |
| 20100054517 | Mounting Device for Mounting a Sound Pickup Device on an Object - A mounting device is adapted for mounting a sound pickup device on an object, and includes a mounting unit, a shock absorbing unit, and a coupling unit. The mounting unit includes a mounting member that is adapted to be provided on the object and that has a top side, and a linking member that is disposed on the top side of the mounting member and that has top and bottom sides. The shock absorbing unit includes a resilient body that is disposed on the top side of the linking member and that has a top side. The coupling unit includes a coupling member that is disposed on the top side of the resilient body and that is adapted for connecting to the sound pickup device. | 03-04-2010 |
| 20100119098 | Low handling noise vocal microphone - A handheld microphone includes a hollow cylindrical housing with a portion of a cylindrical shock mount device positioned within the top end thereof. The shock mount device incorporates an isolation band such that only the isolation band contacts the inner surface of the housing, thus dampening the external noises transmitted to the dynamic element of the microphone. | 05-13-2010 |
| 20120201411 | AUDIO PICK-UP DEVICE OF A CONDENSER MICROPHONE - An audio pick-up device of a condenser microphone includes a base, a resilient anti-shock mount disposed fixedly on the base, and an audio pick-up unit disposed securely on the anti-shock mount for sensing and processing sound waves to output corresponding electric signals. The audio pick-up device further includes a circuit unit that includes an impedance converter circuit board and a control circuit board. The impedance converter circuit board is disposed securely on the anti-shock mount and is connected electrically to the audio pick-up unit for converting a high-impedance output of the audio pick-up unit to a low-impedance output. The control circuit board is mounted on the base and is coupled electrically to the impedance converter circuit board for receiving and processing the electric signals therefrom. | 08-09-2012 |
| 20130004010 | Devices and Methods for Dampening Vibrations - A device for isolating a microphone from vibrations, the device comprising a frame comprising a plurality of surfaces, the plurality of surfaces laying on a plane that is different from each other and defining at least one mounting point; at least one non-resonant cord attached to the mounting point of the frame, the non-resonant cord adapted to support a microphone and absorb vibration; and a biasing device connected to the non-resonant cord, the biasing device adapted to provide tension to the non-resonant cord. | 01-03-2013 |
| 20130202143 | ELECTRONIC DEVICE - A foldable tongue piece portion formed to extend at an end of a microphone bush. An insertion hole in which a lead wire is inserted is formed near the tongue piece portion. By storing a microphone, to which the microphone bush is attached, in a container portion, the tongue piece portion is folded and the lead wire drawn through the insertion hole is pressed. | 08-08-2013 |
| 20130251183 | OFFSET ACOUSTIC CHANNEL FOR MICROPHONE SYSTEMS - A microphone with an offset acoustic channel. The microphone includes an external case, an acoustic chamber enclosure within the external case, a microphone transducer positioned within the acoustic chamber enclosure, and a gasket positioned between the external case and the acoustic chamber enclosure. A first opening in the external case is positioned an offset lateral distance from a second opening in the acoustic chamber enclosure. An acoustic channel is formed in the gasket extending from the first opening to the second opening along the offset lateral distance. | 09-26-2013 |
