Focusing ultrasonic transducer to which acoustic lens using Fresnel zone plate is applied and method for manufacturing focusing ultrasonic transducer
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G10K-011/30
G01S-007/521
G01S-015/02
출원번호
US-0247334
(2016-08-25)
등록번호
US-9711132
(2017-07-18)
우선권정보
KR-10-2016-0051605 (2016-04-27)
발명자
/ 주소
Kim, Yong Tae
Baik, Kyung Min
Doh, Il
Kim, Se Hwa
출원인 / 주소
Korea Research Institute of Standards and Science
대리인 / 주소
Hoffman & Baron, LLP
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
The present disclosure relates to an acoustic lens using a Fresnel zone plate, a design method and a manufacturing method of the acoustic lens, a focusing ultrasonic transducer to which the acoustic lens is applied, and a manufacturing method of the focusing ultrasonic transducer. More specifically,
The present disclosure relates to an acoustic lens using a Fresnel zone plate, a design method and a manufacturing method of the acoustic lens, a focusing ultrasonic transducer to which the acoustic lens is applied, and a manufacturing method of the focusing ultrasonic transducer. More specifically, an acoustic lens using a Fresnel zone plate which is applied to a focusing ultrasonic transducer. The acoustic lens includes a plurality of concentric regions which is concentrically disposed with respect to a center point. In the concentric region, a sound insulation region which blocks an entering sound wave and a transmission region which transmits the sound wave are alternately formed in a radial direction from the center point, and the entering sound wave is focused near a focal point.
대표청구항▼
1. An acoustic lens using a Fresnel zone plate applied to a focusing ultrasonic transducer, the acoustic lens comprising: a plurality of concentric regions concentrically disposed with respect to a center point,wherein in the concentric regions, a sound insulation region which blocks an entering sou
1. An acoustic lens using a Fresnel zone plate applied to a focusing ultrasonic transducer, the acoustic lens comprising: a plurality of concentric regions concentrically disposed with respect to a center point,wherein in the concentric regions, a sound insulation region which blocks an entering sound wave and a transmission region which transmits the entering sound wave are alternately formed in a radial direction from the center point, and the entering sound wave is focused near a focal point. 2. The acoustic lens according to claim 1, wherein the acoustic lens is configured to be planar such that both surfaces are flat surfaces and a thickness is constant. 3. The acoustic lens according to claim 2, wherein a radius of each of the plurality of sound insulation regions and each of the transmission regions in the concentric regions is calculated based on a set focal length of the acoustic lens and a wavelength in a transmission medium determined from a frequency of a set sound wave. 4. The acoustic lens according to claim 3, wherein radii of the plurality of sound insulation regions and the plurality of transmission regions in the concentric regions are calculated by bm=mλ(F+mλ4),where m is an index of sequential concentric regions from the center point in the radial direction, λ is a wavelength of set sound wave in the transmission medium, and F is a focal length of the acoustic lens. 5. The acoustic lens according to claim 4, wherein the focal length of the acoustic lens is defined by F=Ra2mλ-mλ4, where Ra is a radius of the acoustic lens, λ is a wavelength of the set sound wave in the transmission medium, and m is the number of concentric regions in the acoustic lens. 6. The acoustic lens according to claim 5, wherein the transmissive material which configures the transmission region is at least one of glass and rubber, and the sound insulation material which configures the sound insulation region is air or an acoustic absorbent having a composite material which induces a scattering process of the entering sound wave and a matrix material which fills a base of the acoustic absorbent during the scattering process of the entering sound wave. 7. The acoustic lens according to claim 1, wherein a thickness of the acoustic lens is larger than an ultrasonic wavelength in the sound insulation region, and the thickness of the acoustic lens is smaller than the ultrasonic wavelength in the transmission region. 8. An ultrasonic transducer comprising: an ultrasonic shaker which excites an ultrasonic wave; andan acoustic lens using a Fresnel zone plate applied to the ultrasonic shaker, the acoustic lens to receive the ultrasonic wave from the ultrasonic shaker and focus the ultrasonic wave near a focal point, the acoustic lens comprising a plurality of concentric regions concentrically disposed with respect to a center point, wherein in the concentric regions, a sound insulation region which blocks the ultrasonic wave and a transmission region which transmits the ultrasonic wave are alternately formed in a radial direction from the center point. 9. The ultrasonic transducer according to claim 8, wherein the ultrasonic shaker is configured by a piezoelectric element. 10. A method of designing an acoustic lens using Fresnel zone plate, the method comprising: determining a desired ultrasonic frequency and a desired focal length;calculating an ultrasonic wavelength in a transmitting medium;calculating radii of a plurality of sound insulation regions and a plurality of transmission regions in concentric regions, based on the ultrasonic wavelength and the focal length;determining a radius of the acoustic lens within a radius of an ultrasonic shaker and a number of the concentric regions; andmanufacturing the acoustic lens to comply with the number of concentric regions, the radius of the acoustic lens, and the radii of the plurality of sound insulation regions and the plurality of transmission regions in the concentric regions. 11. The method according to claim 10, wherein in the calculating of radii, radii of the plurality of sound insulation regions and the plurality of transmission regions in the concentric regions are calculated by bm=mλ(F+mλ4),where m is an index of the sequential concentric regions from the center point in the radial direction, λ is a wavelength of a sound wave in the transmission medium, and F is a focal length of the acoustic lens. 12. The method according to claim 11, wherein in the calculating of radii, radii of sequential concentric regions at an ultrasonic frequency for every focal length are calculated to be stored as a database. 13. A method of manufacturing an acoustic lens using a Fresnel zone plate, the method comprising: manufacturing a mold in which a disc shaped protrusion is provided at a center and concentric concave portions and convex portions are alternately and sequentially formed in a radial direction from the disk shaped protrusion;filling a transmissive material which transmits a sound wave in the mold;sealing the transmissive material as filled in the mold by coupling a cap to an upper portion of the mold;hardening the transmissive material; andremoving the cap and detaching the hardened transmissive material to manufacture the acoustic lens using Fresnel zone plate. 14. The method according to claim 13, wherein an outermost edge of the mold is configured by a boundary edge which is higher than a convex portion, the cap is coupled to the boundary edge and the transmissive material is filled in a space between the cap and the mold. 15. The method according to claim 14, further comprising: filling a sound insulation material which blocks the sound wave in a concave edge of the acoustic lens as detached and hardening the sound insulation material,wherein the hardened transmissive material configures a transmission region of the acoustic lens and the hardened sound insulation material configures a sound insulation region of the acoustic lens. 16. A method for manufacturing an ultrasonic transducer, the method comprising: manufacturing a mold in which a disc shaped protrusion is provided at a center and concentric concave portions and convex portions are alternately and sequentially formed in a radial direction from the disk shaped protrusion;filling a transmissive material which transmits a sound wave in the mold;sealing the filled transmissive material as filled in the mold by coupling the cap to an upper portion of the mold;hardening the transmissive material;removing the cap and detaching the hardened transmissive material to manufacture an acoustic lens using a Fresnel zone plate; andcoupling the acoustic lens using the Fresnel zone plate to an ultrasonic shaker which excites an ultrasonic wave.
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이 특허에 인용된 특허 (3)
Welter, John T; Sathish, Shamachary; Christensen, Daniel; Heebl, Jason D; Brodrick, Philip; Cherry, Matthew R, Air coupled acoustic aperiodic flat lens.
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