何琳;徐伟;

• 1:海军工程大学振动与噪声研究所
• 2:船舶振动噪声重点实验室

摘要：

隔振装置是降低舰船机械噪声最重要的技术之一,目前已有大量文献对舰船隔振装置技术进行了研究,但系统、全面地论述其技术特点、应用和进展,尤其是我国在该领域进展的文献相当缺乏。针对已应用并取得成效的舰船隔振装置技术,首先概述了其发展历程,分析了单层隔振装置、双层隔振装置、浮筏双层隔振装置和气囊隔振装置的技术特点;然后介绍了近年来该领域的进展,包括智能气囊隔振装置、推进动力系统新型隔振装置、主被动混合隔振装置、推力轴承隔振装置等;最后对隔振装置技术的未来发展趋势进行了展望。通过系统地总结梳理,较完整地呈现了舰船隔振装置技术发展概况,可供舰船减振降噪研究和工程设计人员参考。

关键词：

Abstract: Machinery mounting system is one of the most important vibration and noise attenuation technology of naval vessels.There are numerous papers relative to naval vessel mounting technology,but papers which systematically discuss the characteristics,application and advances,especially recent domestic advances of this technology are rather scarce.By focusing on the vessel mounting technology whose effectiveness has been verified by engineering practice,the development history of this technology is summarized firstly.The characteristics of simple mounting,two-stage mounting, raft mounting and air spring mounting are analyzed,followed by the introduction of recent advances including intelligent air spring mounting,highly effective propulsion machinery mounting,active/passive hybrid mounting and thrust bearing mounting.Finally the development trend of mounting technology is discussed.A general view of the development of naval vessel machinery mounting technology is presented and can be used as a reference for naval vessel noise attenuation research and engineering design.

Keywords:

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参考文献：

• 1 Hardy H C,Tyzzer F G.Noise and vibration reduction in felt mountings.The Journal of the Acoustical Society of America,1946(18):253-254
• 2 Den Hartog J P.Mechanical vibration(3rd Edition).McGrawHill, 1948
• 3 Green W P,Arents C A et al.Resilient mountings for reciprocating and rotating machinery.Illinois Institute of Technology,1950
• 4 Vane F F.A guide for the selection and application of mountings for shipboard equipments(Revised).David Taylor model basin report 880,1958
• 5 Snowdon J C.Representation of the mechanical damping possessed by rubberlike materials and structures.The Journal of the Acoustical Society of America,1963;35(6): 821-829
• 6 Snowdon J C.Reduction of the response to vibration of structures possessing finite mechanical impedances.The Journal of the Acoustical Society of America,1961;33(11): 1466-1475
• 7 Snowdon J C.Steady-state and transient behavior of twoand three-element isolation mountings.The Journal of the Acoustical Society of America,1963;35(3):397-403
• 8 Snowdon J C.Rubberlike materials,their internal damping and role in vibration isolation.Journal of Sound And Vibration,1965;2(2):175-193
• 9 Snowdon J C.Occurrence of wave effects in rubber antivibration mountings.The Journal of the Acoustical Society of America,1965;37(6):1027-1032
• 10 Sykes A O.Isolation of vibration when machine and foundation are resilient and wave effects occur in the mount. Noise Control,1960;6(3):23-38
• 11 Sykes A O.The effects of machine and foundation resilience and of wave propagation on the isolation provided by vibration mounts.David Taylor model basin report 1276, 1959
• 12 Ungar E E,Dietrich C W.High-frequency vibration isolation. Journal of Sound and Vibration,1966;4(2):224- 241
• 13朱石坚,何琳.船舶机械振动控制.北京:国防工业出版社,2006
• 14 Mcgoldrick R T.Calculation of natural frequencies and normal modes of vibration for a compound isolaton mounting system.David Taylor model basin report 1420,1960
• 15 Snowdon J C.Vibration and shock in damped mechanical systems.New York:Wiley,1968
• 16 Snowdon J C.Isolation from vibration with a mounting utilizing low- and high-damping rubberlike materials.The Journal of the Acoustical Society of America,1962;34(1): 54-61
• 17 Snowdon J C.Mechanical four-pole parameters and their application.Journal of Sound and Vibration,1971;15(3): 307-323
• 18 Snowdon J C.Vibration isolation on rigid and nonrigid foundation.Applied Research Laboratory,1979
• 19 Snowdon J C.Vibration isolation:Use and characterization. The Journal of the Acoustical Society of America, 1979;68(5):1245-1274
• 20何琳.双层隔振系统的优化分析.舰艇动力学术讨论会论文选,中国造船工程学会船舶轮机学术委员会,1984:118-126
• 21 Winberg M,Hansen C,Claesson I et al.Active control of engine vibrations in a Collins class submarine.Blekinge Institute of Technology,2003
• 22国家科学技术进步奖,获奖单位:海军工程大学,证书编号: 87-KG6-2-24-01,国家科学技术进步奖评审委员会
• 23 Gorman R M.Design and advantages of a tow-stage mounting system for major machines in ship's engine room.Shock and Vibration Bulletin,1966;35:227-234
• 24 Lynfield O T,Sudbury S M.Condenser integrated turbine support.U.S.Patent:4747360,1988
• 25何琳.潜艇声隐身技术进展.舰船科学技术,2007;9(5):29-42
• 26 Swinbanks M A,Daley S.Advanced submarine technology-project Mcontrol theory report.Office of Naval Research, 1993
• 27 Trelleborg Industrial AVS:Equi-Frequency mountings large series.http:\\www.metalastik.com,2011
• 28 Bondaryk J E.Vibration of truss structures.The Journal of the Acoustical Society of America,1997;102(4):2167- 2175
• 29 Heath M R.Dynamic behavior of a three dimensional aluminum truss in free space.MIT:1994
• 30 Chiasson L E.Radiated noise fr0111 a three dimensiona1 truss.MIT,1995
• 31何琳,施引,吕志强等.浮筏式减振装置固有频率设计中的优化方法.第四届全国海事技术研讨会,1986:235-240
• 3 2科学技术成果鉴定证书:浮筏双层隔振装置研制,鄂科鉴字[1997]第0018306号,1997
• 33科学技术进步奖励证书,获奖单位:海军工程大学,证书编号: 982056,湖北省人民政府,1998
• 34严济宽,沈荣瀛,尚国清.浮筏装置结构动力参数的选定.噪声与振动控制,1995(1):2-9
• 35华宏星,石银明,瞿祖清等.浮筏系统频率响应灵敏度分析.中国造船,1999;40(3):92-97
• 36张华良,傅志方,瞿祖清.浮筏隔振系统各主要参数对系统隔振性能的影响.振动与冲击,2000;19(2):5-8
• 37陈明,陈秀珍,孙新占.大型组合式浮筏减振装置试验研究.舰船科学技术,2002;24(6):56-60
• 38余永丰,庞天照,关珊珊等.大型浮筏隔振系统筏架耦合振动研究.噪声与振动控制,2010;10(5):56-59
• 39龚丽琴,姚利峰.带齿轮箱的主动力设备减振技术研究.噪声与振动控制,2010;12(6):39-42
• 40邵汉林,姚心国,朱显明.浮筏隔振装置隔振效果评定.噪声与振动控制,2002;8(4):21-23
• 41徐志云,吴崇健,付爱华.浮筏隔振效果估算方法研究.舰船科学技术,2006;2s(215):64-68
• 42张峰,许树浩,俞孟萨等.浮筏隔振效果评定的矢量四端网络参数方法与试验研究.船舶力学,2011;15(10):1173-1180
• 43霍睿.复杂隔振系统的功率流传递特性与控制策略研究.青岛:山东工业大学,1998
• 44张峰,许树浩,俞孟萨.桁架式浮筏研究概况.船舶力学,2010; 14(5):566-570
• 45张英会.弹簧.北京:机械工业出版社,1980
• 46 Firestone:Airstroke Airmount brochure.http://www. firestoneindustirial.com/literature.aspx,2012
• 47何琳,吕志强,赵应龙等.大承载能力、高可靠性、抗冲击气囊隔振器.中国专利:ZL200620096279.9,2007
• 48徐伟.舰船推进主机气囊隔振技术理论与试验研究.博士学位论文,武汉:海军工程大学,2010
• 49何琳,帅长庚,赵应龙等.智能气囊隔振装置.中国专利: 200910063656.7,2010
• 50严济宽,沈密群.中低速船用主机的隔振问题.噪声与振动控制,1998(2):2-8
• 51 Luthi M,Sacchi F.Resiliently-mounted medium-speed propulsion engines for cruise ships.Switzerland:Sulzer, 1991
• 52 Steenhoek H F.Resilient mounting of medium speed diesel engines in ships.In:Proc.INTERNOISE 79,Warszawa, 1979;16:665-668
• 53 Fromaigeat L,Armange M.Vibration generated and transmitted by the raft-mounted CODAD concept.UDT,1995: 180-186
• 54 Lewis C.The advanced induction motor.Power Engineering Society Summer Meeting,2002;1:250-253
• 55 Siemens:SINAVY_Permasyn.http://www.industrysolution. siemens.com/marine/en/solution/sinavy.htm,2010
• 56 Kantola R A.Marine propulsion isolation system for control of motion due to torque and related method.United States Patent:6623318,2003
• 57伏同先,庄国华.某潜艇推进电机隔振装置的研制.舰船科学技术,1998(1):44-49
• 58 He L,Xu W,Bu W J.Air spring vibration isolation technology for ship propulsion engine.Acoustics 2012 Hong Kong,2012
• 59卜文俊.舰船推进主机气囊隔振技术对中监测及控制研究.武汉:海军工程大学博士学位论文,2010
• 60施亮.舰船推进主机气囊隔振系统控制技术研究.武汉:海军工程大学博士学位论文,2011
• 61 Ross D.Mechanics of underwater noise.New York:Pergamon Press,1976
• 62 Fuller C R,Elliott S J,Nelson P A.Active control of vibration. London:Academic Press,1997
• 63 Jason G Z,Haynes L S.Six degree-of-freedom active vibration control using the Stewart platform.IEEE Trans. Control Systems Technology,1994;2(1):45-53
• 64 Thayer D,Campbell M,Vagners J et al.Six-axis vibration isolation system using soft actuators and multiple sensors. Journal of Spacecraft and Rockets,2002;39(2):206-212
• 65 Anderson E H,Houghton B.Elite-3 active vibration isolation workstation.Paper 4332-23,SPIE Smart Structures and Materials 2001:Industrial and Commercial Applications of Smart Structures Technologies
• 66 Johnson F A.Advanced submarine technology-project M control experiments and simulations.Office of Naval Research, 1994
• 67 Daley S,Johnson F A,Pearson J B et al.Active vibration control for marine applications.Control Engineering Practice,2004(12):465-474
• 68 Johnson F A,Daley S.Vibration isolation.U.S.Patent: US2008/0191118A1,2008
• 69 Winberg M,Lago T L.Inertial mass active mount used in a Marine application.The Adaptronic Congress 99,Potsdam, Berlin,1999
• 70 Winberg M,Johansson S,Lago T L.Active control of engine induced noise in naval application.ICSV 8,Hong Kong,China,2001
• 71 Berkman E F,Bender E K.Perspectives on active noise and vibration control.Sound and Vibration Magazine,1997(1): 1-23
• 72 New Technologies-Active Isolation.http://www.stopchoc. co.uk/anti_vibration_products.html
• 73杨铁军,靳国永,李玩幽等.舰船动力装置振动主动控制技术研究.舰船科学技术,2006;28(215):46-53
• 74段小帅,梁青,王永.磁悬浮隔振器的自寻优前馈控制.船舶力学,2010;14(7):795-799
• 75王永,刘凯,陈绍青等.双层混合隔振系统隔振效果评价与实验研究.自动化仪表,2011;32(11):20-22
• 76张志谊,王俊芳,周建鹏等.基于跟踪滤波的自适应振动控制.振动与冲击,2009;28(2):64-67
• 77 Li Y,He L,Shuai C G.An active vibration control method based on nonlinear reverse model and Fx-LMS algorithm. Acoustics 2012 Hong Kong,2012
• 78 Caresta M,Kessissoglou N J.Acoustic signature of a submarine hull under harmonic excitation.Applied Acoustics, 2010(71):17-31
• 79 Merz S,Kinns R,Kessissoglou N J.Structural and acoustic response of a submarine hull due to propeller forces. Journal of Sound and Vibration,2009(325):266-286
• 80 Hultsch H,Merk K.Marine vessel propulsion with a thrust bearing.United States Patent:6969289B2,2005
• 81 Anderson H G,Rajan J R N,Morse W H.Trunnion mounted marine thrust bearing/vibration reducer.U.S. Patent:3826544,1974
• 82 Ministry of Defense,Defense Standard 02-304 part 2,Shaft systems and propulsors Part 2 Design requirements for main propulsion shafting auxiliaries,2002
• 83 Dylejko P G,Kessissoglou N J,Tso Y K,Norwood C J. Optimisation of a resonance changer to minimise the ??vibration transmission in marine vessels.Journal of Sound and Vibration,2007(300):101-116
• 84 Lewis D W,Allaire P E.Active magnetic control of oscillatory axial shaft vibrations in ship shaft transmission systems, Part 1:System natural frequencies and laboratory scale model.Journal of tribology transactions,1989(32): 170-178
• 85 Pan J,Farag N,Lin T et al.Propeller induced structural vibration through the thrust bearing.Acoustics 2002- Innovation in Acoustics and Vibration,Adelaide,Australia, 2002
• 86 Merz S,Kessissoglou N J,Kinns R et al.Reduction of the sound power radiated by a submarine using passive and active vibration control.Proceeding of ACOUSTICS 2009, Adelaide,Australia,2009