Method and structure for achieving spectrum-tunable and uniform attenuation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-007/02
E04B-001/82
출원번호
US-0485466
(2012-05-31)
등록번호
US-8550206
(2013-10-08)
발명자
/ 주소
Keady, John Patrick
Casali, John G.
Lee, Kichol
출원인 / 주소
Virginia Tech Intellectual Properties, Inc.
대리인 / 주소
New River Valley IP Law
인용정보
피인용 횟수 :
16인용 특허 :
48
초록▼
The present invention relates hearing protection devices for the human ear. More particularly, embodiments of the invention provide hearing protection devices capable of tunable acoustic attenuation. The invention relates further to ear plugs comprising a fluid-containing balloon for occlusion of th
The present invention relates hearing protection devices for the human ear. More particularly, embodiments of the invention provide hearing protection devices capable of tunable acoustic attenuation. The invention relates further to ear plugs comprising a fluid-containing balloon for occlusion of the ear canal, which are capable of being adjusted for example by modifying fluid composition and/or fluid pressure within the balloon to vary attenuation at different frequencies of the audible sound spectrum. Other embodiments provide an earplug with fixed attenuation comprising: a body of compressible/expandable-recovery material shaped and sized to fit in an ear canal; and at least one chamber disposed within the body and comprising a filler material chosen from at least one of water, aphrons, water with solid or gelatinous particles suspended, and oil with particles suspended.
대표청구항▼
1. An earplug comprising: a reservoir, where the reservoir includes a flowable medium;a valve;a channel; anda flexible distal end,where the reservoir is operationally connected to the distal end by the channel, where the valve is in the channel between the reservoir and the distal end,where the valv
1. An earplug comprising: a reservoir, where the reservoir includes a flowable medium;a valve;a channel; anda flexible distal end,where the reservoir is operationally connected to the distal end by the channel, where the valve is in the channel between the reservoir and the distal end,where the valve is configured to allow the flowable medium to flow from the reservoir to the distal end,where the flowable medium is selected to attenuate at least one acoustic frequency within a first acoustic frequency bandwidth, andwhere an operational pressure of the flowable medium and any second flowable medium surrounded by the flexible distal end is selected to be within a gauge pressure range during use. 2. The earplug according to claim 1, further comprising: a safety limiter flange, where the safety limiter flange diameter is designed to limit earplug insertion into the ear canal beyond a designed distance. 3. The earplug according to claim 2, further comprising: a distal end flange, where the distal end flange is expandable when the flexible distal end is expanded. 4. The earplug according to claim 1, where the first acoustic frequency bandwidth is between 250 Hz to 4000 Hz, where the pressure range is between 100 mbar and 1000 mbar gauge pressure. 5. The earplug according to claim 4, where the transmitted acoustic spectrum is flat across the first acoustic frequency bandwidth within about +/−5 dB. 6. The earplug according to claim 4, where the medium is at least one of air, liquid, foam, water, oil, water with a salt, water with alcohol, alcohol, water with oil, aphrons, oil with suspended particles, water with suspended solid particles, water with suspended gelatinous particles, water and sugar, liquid with gas bubbles, and carbonated water. 7. The earplug according to claim 6, further comprising: a first movable element; anda second movable element, where the first and second moveable elements are configured to be moved by a user's fingers, where movement of the first and second moveable elements compress the reservoir, where upon compression the medium flows through the valve into the distal end where the valve restricts flow back to the reservoir. 8. The earplug according to claim 6, further comprising: a release mechanism, where the release mechanism is configured to be operated by a user to allow medium to flow from the distal end to the reservoir. 9. An earplug comprising: a reservoir; anda medium, where the medium is contained within the reservoir, where the reservoir is deformable and configured to expand back to a precompressed state when compressed and released, where the reservoir is configured to be compressed by a user's fingers and inserted into an ear canal, where upon or after insertion into the ear canal the reservoir is configured to expand, applying pressure to the ear canal wall. 10. The earplug according to claim 9, further comprising: a finger tab or stem, where the finger tab or stem is configured to allow gripping of the tab with at least two fingers, where a user can pull on the tab to extract the earplug from the ear canal. 11. The earplug according to claim 10, where the medium is at least one of air, liquid, foam, water, oil, water with a salt, water with alcohol, alcohol, water with oil, aphrons, oil with suspended particles, water with suspended solid particles, water with suspended gelatinous particles, water and sugar, liquid with gas bubbles, and carbonated water. 12. An acoustic shaping panel comprising: a front;a back;a rim; anda medium container, where the medium container is configured to be pressurized, where the medium container contains a medium, where the front, back, and rim substantially encloses the container, where the medium is selected to shape an incident acoustic spectrum to a designed transmitted acoustic spectrum. 13. The acoustic shaping panel according to claim 12, where the transmitted acoustic spectrum is flat across the spectrum within about +/−5 dB from 250 Hz to 4000 Hz. 14. The acoustic shaping panel according to claim 12, where the medium is at an operational pressure during use that is within a pressure range. 15. The acoustic shaping panel according to claim 14, where the pressure range is from 200 mbar to 2000 mbar gauge pressure. 16. The acoustic shaping panel according to claim 15, where the medium is at least one of air, liquid, foam, water, oil, water with a salt, water with alcohol, alcohol, water with oil, aphrons, oil with suspended particles, water with suspended solid particles, water with suspended gelatinous particles, water and sugar, liquid with gas bubbles, and carbonated water. 17. The acoustic panel according to claim 16, where the panel is configured to be a liner which, where the liner is configured to be inserted into the inside of a helmet. 18. The acoustic panel according to claim 17, where the fluid medium reduces the amplitude of transmitted acoustic spectrum above 500 Hz by at least 15 dB from the incident acoustic spectrum. 19. The acoustic panel according to claim 18, where the transmitted acoustic spectrum is flat across the spectrum within about +/−5 dB from 250 Hz to 4000 Hz.
Purcell, Ricky W.; Rajala, Gregory J.; Song, Ki Bok; Belliveau, Scott M.; Corbin, Sena S.; Granger, Toriono A., Self-fitting device for location in an ear canal.
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