噪声与振动控制
譟聲與振動控製
조성여진동공제
NOISE AND VIBRATION CONTROL
2014年
5期
192-197
,共6页
程金磊%田佳彬%周雷%塔娜%黄新生%饶柱石
程金磊%田佳彬%週雷%塔娜%黃新生%饒柱石
정금뢰%전가빈%주뢰%탑나%황신생%요주석
声学%作动器%砧骨激励式%人工中耳%振动测试
聲學%作動器%砧骨激勵式%人工中耳%振動測試
성학%작동기%침골격려식%인공중이%진동측시
acoustics%piezoelectric actuator%incus inspired middle ear implant%temporal bone%vibration measurement
为治疗感音神经性听力损伤,设计的中耳植入式助听器,近年来已成为国内外研究的热点。提出一种砧骨激励式中耳植入助听装置,设计时综合考虑植入位置、空间、手术过程等,并对加工出的装置进行了相关实验。该装置采用压电式作动器,结构简单,作动器产生的力能够高效地传送至听骨链。在设计过程中使用有限单元法(FEM)对装置的共振频率和输出位移进行预估,仿真及实验结果说明该作动器具有良好的动态响应特性,谐波失真度小于1%,在6.9 Vrms电压驱动下能够提供相当于鼓膜处90 dB SPL激励的效果,可以激励镫骨产生足够的位移以补偿听力损失,是一款有效的助听装置。
為治療感音神經性聽力損傷,設計的中耳植入式助聽器,近年來已成為國內外研究的熱點。提齣一種砧骨激勵式中耳植入助聽裝置,設計時綜閤攷慮植入位置、空間、手術過程等,併對加工齣的裝置進行瞭相關實驗。該裝置採用壓電式作動器,結構簡單,作動器產生的力能夠高效地傳送至聽骨鏈。在設計過程中使用有限單元法(FEM)對裝置的共振頻率和輸齣位移進行預估,倣真及實驗結果說明該作動器具有良好的動態響應特性,諧波失真度小于1%,在6.9 Vrms電壓驅動下能夠提供相噹于鼓膜處90 dB SPL激勵的效果,可以激勵鐙骨產生足夠的位移以補償聽力損失,是一款有效的助聽裝置。
위치료감음신경성은력손상,설계적중이식입식조은기,근년래이성위국내외연구적열점。제출일충침골격려식중이식입조은장치,설계시종합고필식입위치、공간、수술과정등,병대가공출적장치진행료상관실험。해장치채용압전식작동기,결구간단,작동기산생적력능구고효지전송지은골련。재설계과정중사용유한단원법(FEM)대장치적공진빈솔화수출위이진행예고,방진급실험결과설명해작동기구유량호적동태향응특성,해파실진도소우1%,재6.9 Vrms전압구동하능구제공상당우고막처90 dB SPL격려적효과,가이격려등골산생족구적위이이보상은력손실,시일관유효적조은장치。
The middle ear implantable hearing aid, as a new treatment for sensorineural hearing loss, has attracted more attentions of researchers. A new kind of incus driving type middle ear implant, which contains a stack of piezoelectric crystals in a compact structure and a position adjustment apparatus, is proposed in this paper. In the design of the hearing aid apparatus, the embedded location, space, and the implant surgery process, etc. are considered. Finite element method (FEM) is used to assess resonant frequency and output displacement of the device. It is shown that the designed apparatus can be implanted in the middle ear cavity easily, has a good dynamic response, and the total harmonic distortion is below 1 %. Temporal bone experiment reveals that stapes displacement under actuator stimulation of 6.9 Vrms is higher than that under acoustic stimulation of 90 dB SPL over the operating frequency range, which can be applied to compensate the hearing loss.
