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    • 1. 发明授权
    • Portable acoustic impedance data acquisition and analysis system
    • 便携式声阻抗数据采集与分析系统
    • US5684251A
    • 1997-11-04
    • US412387
    • 1995-03-28
    • Noe ArcasCharles A. ParenteShepard G. Kay
    • Noe ArcasCharles A. ParenteShepard G. Kay
    • G01N29/00G01N29/09G01N29/04
    • G01N29/09G01N2291/02491G01N2291/02836G01N2291/02863G01N2291/02872G01N2291/2694
    • A portable two microphone acoustic impedance data acquisition and analysis system provided in a lightweight, fully portable, battery powered instrument with a dual capability of either on-site or remote-site analysis of measured data on the acoustic impedance of acoustically absorbing duct liners of aircraft jet engines. The fully portable instrument is capable of being operated by relatively unskilled personnel to provide acoustic impedance and non-linearity measurements on acoustic liners at airports and aircraft maintenance facilities. The measured data on the engine duct acoustic liner can be an input directly to the data analysis system at the data acquisition site for on-site analysis, or can be recorded for input to a data analysis system at a later time, or can be recorded and transmitted, such as by a telephone modem, to a data analysis system at a remote-site. The remote-site analysis of data eliminates the requirement for skilled personnel at the aircraft to perform the relatively complex data analysis procedures.
    • 便携式双麦克风声阻抗数据采集和分析系统,提供在轻型,完全便携式,电池供电的仪器中,具有双重功能,可对现场或远程现场分析航空器吸声管道衬垫的声阻抗测量数据 喷气发动机。 完全便携式仪器能够由相对不熟练的人员操作,以在机场和飞机维修设施的声学衬垫上提供声学阻抗和非线性测量。 发动机管道声衬垫上的测量数据可以直接输入到数据采集现场分析系统的数据分析系统进行现场分析,也可以在以后记录下来输入数据分析系统,或者可以记录 并且例如通过电话调制解调器发送到远程站点处的数据分析系统。 数据的远程现场分析消除了对飞行员熟练人员执行相对复杂的数据分析程序的要求。
    • 2. 发明授权
    • Multi-degree linear liner impedance testing device
    • 多级线性线性阻抗测试装置
    • US5377546A
    • 1995-01-03
    • US827606
    • 1992-01-29
    • Noe ArcasShepard G. KayCharles A. Parente
    • Noe ArcasShepard G. KayCharles A. Parente
    • G01H15/00G01N29/11G01N29/22G01N29/00
    • G01H15/00G01N29/11G01N29/223G01N2291/02441G01N2291/045
    • A device for permitting evaluation of the acoustic impedance of liner designs used to attenuate noise in engine aircraft inlet and exhaust ducts, and in particular multiple degree of freedom designs of the type which include a porous facesheet followed by a backing depth followed by successive facesheet/backing depth combinations, includes a plurality of spacers of different thicknesses for varying the backing depths, and a movable plunger with a threaded adjustment mechanism for establishing the final backing depth. Gaskets and seals are installed at various interfaces to eliminate noise leakage paths. Two attachment bolts are used to hold the plunger assembly, face sheets, and spacers together, and an alignment disc positioned on the first facesheet is used to properly align an impedance tube waveguide on facesheet.
    • 一种用于允许评估用于衰减发动机飞机入口和排气管道中的噪声的衬套设计的声阻抗的装置,并且特别是包括多孔面板,随后是背衬深度,随后是连续的面板/ 背衬深度组合包括多个用于改变背衬深度的不同厚度的间隔物,以及具有用于建立最终背衬深度的螺纹调节机构的可移动柱塞。 垫圈和密封件安装在各种接口处,以消除噪声泄漏路径。 使用两个连接螺栓来将柱塞组件,面板和间隔件保持在一起,并且使用位于第一面板上的对准盘来将阻抗管波导适当地对准在面板上。
    • 5. 发明授权
    • Acoustic liner
    • 声衬
    • US4969535A
    • 1990-11-13
    • US371593
    • 1989-06-26
    • Noe ArcasCharles A. Parente
    • Noe ArcasCharles A. Parente
    • B64C1/40B64D33/02
    • B64D33/02B64D2033/0206B64D2033/0286
    • An acoustic liner comprising a sound permeable inside plate forming a first closed annulus, and a sound impermeable outside plate forming a second closed annulus located outside of and extending around the first closed annulus. The inside and outside plates are spaced apart and thus form an annular chamber therebetween; and a core member is secured in this annular chamber, between the inside and outside plates. The core member forms or has the shape of a sine wave form annularly extending around the inside plate, and the core member and the inside plate form a multitude of varying depth sound absorption chambers to attenuate sound waves over a broad band of frequencies.
    • 包括形成第一闭环的透声内板的声学衬垫和形成位于第一闭环之外并围绕第一闭环的第二闭环的不透声外板。 内板和外板间隔开,从而在它们之间形成环形室; 并且芯构件固定在该环形室中,内外板之间。 芯构件形成或具有围绕内板环形延伸的正弦波形状,并且芯构件和内板形成多个变化的深度吸声室,以在宽频带上衰减声波。
    • 7. 发明授权
    • Segmented resistance acoustic attenuating liner
    • SEGMENTED RESISTANCE ACOUSTIC ATTENUATING LINER
    • US5175401A
    • 1992-12-29
    • US670917
    • 1991-03-18
    • Noe ArcasCharles A. Parente
    • Noe ArcasCharles A. Parente
    • G10K11/172
    • G10K11/172Y10T428/24149
    • An acoustic attenuating liner has a non-metallic honeycomb core bonded on a backsheet. A corrosion-insulated perforated sheet is bonded to the honeycomb core by adhesive between the perforated sheet and the core. The mesh is woven to a plurality of different determined weave patterns from material on and affixed to the perforated sheet, whereby the mesh has a plurality of different resistances. The mesh is aligned with the perforated sheet and is bonded to the perforated sheet by additional adhesive between the mesh and the perforated sheet, thereby providing a segmented liner with a plurality of facesheet resistances.
    • 声衰减衬垫具有粘合在底片上的非金属蜂窝芯。 通过多孔板和芯之间的粘合剂将防腐绝缘的多孔板粘合到蜂窝芯上。 网格由多个不同的确定的编织图案编织到多孔板上并固定到多孔板上,由此网格具有多个不同的电阻。 网孔与穿孔片材对准,并通过网孔和穿孔片材之间的附加粘合剂粘合到穿孔片材上,从而提供具有多个面片电阻的分段衬垫。
    • 9. 发明授权
    • Method and apparatus for determining flow resistance of fully assembled
acoustic liners
    • 用于确定完全组装的声学衬垫的流动阻力的方法和装置
    • US4768379A
    • 1988-09-06
    • US890999
    • 1986-07-25
    • Noe ArcasJoseph P. GowCharles A. Parente
    • Noe ArcasJoseph P. GowCharles A. Parente
    • G01N29/00G01H15/00G01N29/11G01N29/22G01N29/04
    • G01N29/11G01H15/00G01N29/223G01N2291/02863G01N2291/02872
    • Apparatus and method for determining the steady state flow resistance of face sheets on fully assembled acoustic duct liners. Resistance is measured by subjecting the liner to a sinusoidal acoustic pressure field at the face sheet surface. The pressure field is applied through a cylindrical waveguide and is measured by a pressure transducer flush mounted on the inside of the waveguide near the liner face. A second pressure measurement, obtained by a similar transducer positioned further from the face, is combined with the first measurement to calculate the acoustic resistance for the excitation frequency. If the excitation frequency coincides with the resonant frequency of the liner configuration, then no significant pressure exists on the back surface of the liner face sheet. For this condition the root mean square (rms) pressure measured at the face sheet is equated to the static pressure drop used to obtain the steady state flow resistance. The rms velocity of the oscillating pressure wave is calculated from the ratio of the rms pressure to resistance. A repetition of the procedure for several magnitudes of dynamic pressure permits the development of a curve which describes the non-linear characteristics of resistance with changes in velocity. This curve may be equated to a similar curve obtained using steady state flow resistance measurements of the liner in its partially assembled state without a backing surface.
    • 用于确定完全组装的声管衬套上的面板的稳态流动阻力的装置和方法。 电阻是通过对衬片进行面板表面的正弦声压场测量的。 压力场通过圆柱形波导管施加,并通过平行安装在靠近衬垫面的波导内侧的压力传感器来测量。 通过距表面更远的类似换能器获得的第二压力测量与第一测量结合以计算激发频率的声阻。 如果激发频率与衬套结构的谐振频率一致,则衬垫面板的背面上没有明显的压力。 对于这种情况,在面板处测量的均方根(rms)压力等于用于获得稳态流动阻力的静压力降。 振荡压力波的均方根速度由均方根压力与电阻的比值计算。 对于几个动态压力的重复程序允许开发描述电阻随速度变化的非线性特性的曲线。 该曲线可以等于使用在其没有背衬表面的部分组装状态下的衬管的稳态流动阻力测量获得的类似曲线。