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    • 2. 发明授权
    • Magnetorheological-fluid hydraulic mount
    • 磁流变流体液压安装
    • US07118100B2
    • 2006-10-10
    • US10825731
    • 2004-04-16
    • Sanjiv G. TewaniMark O. BodieJamieson K. KieferMark W. LongJohn A. Walterbusch
    • Sanjiv G. TewaniMark O. BodieJamieson K. KieferMark W. LongJohn A. Walterbusch
    • F16F5/00F16F9/53
    • F16F13/305
    • A magnetorheological-fluid hydraulic mount includes a hydraulic-mount partition plate assembly, a hydraulic-mount decoupler, an electric coil, and a flexible membrane assembly. The partition plate assembly has first and second sides, has a non-magnetorheological-fluid first orifice, and has a magnetorheological-fluid second orifice. The first orifice has a first terminus positioned at the first side and a second terminus positioned at the second side. The second orifice has a first end positioned at the first side and has a second end positioned at the second side. The hydraulic-mount decoupler is operatively connected to the first orifice. The electric coil is disposed to magnetically influence the second orifice. The flexible membrane assembly has a first membrane portion fluidly-isolating, on the first side of the partition plate assembly, the first end from the first terminus and has a second membrane portion fluidly-isolating, on the second side of the partition plate assembly, the second end from the second terminus.
    • 磁流变流体液压支架包括液压安装分隔板组件,液压安装分离器,电线圈和柔性膜组件。 隔板组件具有第一和第二侧面,具有非磁流变流体的第一孔口,并且具有磁流变流体第二孔口。 第一孔具有位于第一侧的第一末端和位于第二侧的第二末端。 第二孔具有位于第一侧的第一端,并且具有位于第二侧的第二端。 液压安装分离器可操作地连接到第一孔。 电磁线圈设置成磁力影响第二孔。 柔性膜组件具有在分隔板组件的第一侧上流体隔离第一端部的第一膜部分,第一端部与第一端部分隔开,并且在分隔板组件的第二侧上具有流体隔离的第二膜部分, 第二个终点是第二个终点。
    • 3. 发明授权
    • Control of magnetorheological engine mount
    • 磁流变发动机支架的控制
    • US06754571B2
    • 2004-06-22
    • US09918416
    • 2001-07-30
    • Prasad V. GadeSanjiv G. TewaniThomas A. Baudendistel
    • Prasad V. GadeSanjiv G. TewaniThomas A. Baudendistel
    • G06F700
    • F16F13/305F16F2230/18
    • A system and method of controlling engine vibration mounted within a vehicle including at least one hydraulic mount, each mount including a fluid chamber. A pair of accelerometers sense relative acceleration across the mount between the engine and the frame and generate a relative acceleration signal. A control unit is electrically connected to the accelerometers. The control unit is adapted to generate an electronic control signal in response to the relative acceleration signal. The control device is responsive to the electric control signal for controlling the damping force of the hydraulic mount. A control algorithm calibrates the control unit such that maximum vibration damping occurs at and around the engine resonance bounce frequency.
    • 一种用于控制安装在车辆内的发动机振动的系统和方法,包括至少一个液压支架,每个支架包括流体室。 一对加速度计感测发动机和车架之间的安装座上的相对加速度,并产生相对的加速度信号。 控制单元电连接到加速度计。 控制单元适于响应于相对加速度信号而产生电子控制信号。 控制装置响应于电控信号以控制液压支架的阻尼力。 控制算法校准控制单元,使发动机谐振反弹频率和周围发生最大振动阻尼。
    • 4. 发明授权
    • Control of magnetorheological mount
    • 磁流变安装控制
    • US08672104B2
    • 2014-03-18
    • US13241471
    • 2011-09-23
    • Prasad V. GadeSanjiv G. TewaniThomas A. Baudendistel
    • Prasad V. GadeSanjiv G. TewaniThomas A. Baudendistel
    • F16F9/53
    • F16F13/305F16F2230/18
    • A system and method of controlling engine vibration mounted within a vehicle including at least one hydraulic mount, each mount including a fluid chamber. A pair of accelerometers sense relative acceleration across the mount between the engine and the frame and generate a relative acceleration signal. A control unit is electrically connected to the accelerometers. The control unit is adapted to generate an electronic control signal in response to the relative acceleration signal. The control device is responsive to the electric control signal for controlling the damping force of the hydraulic mount. A control algorithm calibrates the control unit such that maximum vibration damping occurs at and around the engine resonance bounce frequency.
    • 一种用于控制安装在车辆内的发动机振动的系统和方法,包括至少一个液压支架,每个支架包括流体室。 一对加速度计感测发动机和车架之间的安装座上的相对加速度,并产生相对的加速度信号。 控制单元电连接到加速度计。 控制单元适于响应于相对加速度信号而产生电子控制信号。 控制装置响应于电控信号以控制液压支架的阻尼力。 控制算法校准控制单元,使发动机谐振反弹频率和周围发生最大振动阻尼。
    • 5. 发明授权
    • Control of magnetorheological mount
    • 磁流变安装控制
    • US08046129B2
    • 2011-10-25
    • US10696517
    • 2003-10-29
    • Prasad V. GadeSanjiv G. TewaniThomas A. Baudendistel
    • Prasad V. GadeSanjiv G. TewaniThomas A. Baudendistel
    • G06F19/00F16F9/53
    • F16F13/305F16F2230/18
    • A system and method of controlling engine vibration mounted within a vehicle including at least one hydraulic mount, each mount including a fluid chamber. A pair of accelerometers sense relative acceleration across the mount between the engine and the frame and generate a relative acceleration signal. A control unit is electrically connected to the accelerometers. The control unit is adapted to generate an electronic control signal in response to the relative acceleration signal. The control device is responsive to the electric control signal for controlling the damping force of the hydraulic mount. A control algorithm calibrates the control unit such that maximum vibration damping occurs at and around the engine resonance bounce frequency.
    • 一种用于控制安装在车辆内的发动机振动的系统和方法,包括至少一个液压支架,每个支架包括流体室。 一对加速度计感测发动机和车架之间的安装座上的相对加速度,并产生相对的加速度信号。 控制单元电连接到加速度计。 控制单元适于响应于相对加速度信号而产生电子控制信号。 控制装置响应于电控信号以控制液压支架的阻尼力。 控制算法校准控制单元,使发动机谐振反弹频率和周围发生最大振动阻尼。
    • 7. 发明申请
    • CONTROL OF MAGNETORHEOLOGICAL MOUNT
    • 磁力学控制
    • US20120006635A1
    • 2012-01-12
    • US13241471
    • 2011-09-23
    • Prasad V. GadeSanjiv G. TewaniThomas A. Baudendistel
    • Prasad V. GadeSanjiv G. TewaniThomas A. Baudendistel
    • F16F9/53
    • F16F13/305F16F2230/18
    • A system and method of controlling engine vibration mounted within a vehicle including at least one hydraulic mount, each mount including a fluid chamber. A pair of accelerometers sense relative acceleration across the mount between the engine and the frame and generate a relative acceleration signal. A control unit is electrically connected to the accelerometers. The control unit is adapted to generate an electronic control signal in response to the relative acceleration signal. The control device is responsive to the electric control signal for controlling the damping force of the hydraulic mount. A control algorithm calibrates the control unit such that maximum vibration damping occurs at and around the engine resonance bounce frequency.
    • 一种用于控制安装在车辆内的发动机振动的系统和方法,包括至少一个液压支架,每个支架包括流体室。 一对加速度计感测发动机和车架之间的安装座上的相对加速度,并产生相对的加速度信号。 控制单元电连接到加速度计。 控制单元适于响应于相对加速度信号而产生电子控制信号。 控制装置响应于电控信号以控制液压支架的阻尼力。 控制算法校准控制单元,使发动机谐振反弹频率和周围发生最大振动阻尼。
    • 10. 发明授权
    • Vacuum actuated active decoupler mount
    • 真空启动主动分离器安装
    • US06422545B1
    • 2002-07-23
    • US09780857
    • 2001-02-09
    • Thomas A. BaudendistelSanjiv G. TewaniMark W. LongJames E. Dingle
    • Thomas A. BaudendistelSanjiv G. TewaniMark W. LongJames E. Dingle
    • F16F1300
    • F16F13/268F16F2230/183
    • A hydraulic engine mount includes opposed mounting members secured to an elastomeric body and a base, respectively, and an orifice plate assembly interposed the body and the base to define a pumping chamber and a reservoir or opposed pumping chambers for fluid to flow therebetween through an orifice track formed by the orifice plate assembly. One or two elastomeric decoupler discs may be secured in recesses between two orifice plates of the orifice plate assembly and form spaces which are operable to be in communication with a vacuum source to impose vacuum pressure on the decouplers at selected frequencies as controlled by solenoid operated valves and a controller. The mount may be operated at a substantially reduced dynamic stiffness lower than the static stiffness of the mount to provide improved low amplitude vibration isolation, in particular.
    • 液压发动机支架分别包括固定到弹性体和基座的相对的安装构件,以及插入主体和基座的孔板组件,以限定泵送室和储存器或相对的泵送室,用于使流体之间通过孔 由孔板组件形成的轨道。 一个或两个弹性体解耦盘可以固定在孔板组件的两个孔板之间的凹槽中,并且形成空间,其可操作地与真空源连通,以在选定的频率处对选择的频率施加真空压力,由电磁阀 和控制器。 特别地,安装座可以以比安装件的静态刚度低得多的显着降低的动态刚度来操作,以提供改进的低振幅隔振。