Patent application number | Description | Published |
20080197549 | Vibration damping apparatus - A vibration damping apparatus wherein a mass member is elastically supported by a spring member on a vibrating member to be damped for constituting a secondary vibrating system. The spring member is a metal plate spring with one end being attached to the mass member and the other end being attached to the vibrating member. A rubber bushing having an inner and an outer tube member positioned spaced apart from one another in a diametrical direction and linked in the diametrical direction by a rubber elastic body. One of the inner shaft member and the outer tube member of the rubber bushing is fastened to the plate spring while the other is fastened to the mass member or the vibration damping apparatus, whereby the moment is exerted in the torsional direction of the rubber bushing during displacement of the mass member by vibration to be damped. | 08-21-2008 |
20080237949 | Vibration damping device - A vibration damping device having a mass member elastically supported via a spring member on a vibrating member to be damped thereby constituting a secondary vibration system for the vibrating member. The spring member comprises a plurality of rubber elastic bodies being positioned in a parallel arrangement along a vibration input direction, and the mass member is elastically supported at multiple spring support points formed by the plurality of rubber elastic bodies such that a center of gravity of the mass member is positioned between the multiple spring support points and away from a combined elastic center axis of multiple spring support points so as to establish multiple natural frequencies in the vibration input direction, and such that the multiple natural frequencies are tuned to multiple vibration frequencies to be damped in the vibrating member. | 10-02-2008 |
20090008201 | Vibration damping device and manufacturing method thereof - A vibration damping device including a hollow housing having a fastening frame and a housing main body attached to the fastening frame for providing the hollow housing enclosing a mass member. With the housing main body inserted between top and base plate portions through an opening in the fastening frame, an urging force of a first spring projection is directed against the housing main body from one of the top base plate portions towards the other thereby holding the housing main body pressed against the other of the top and base plate portions, while an urging force of a second spring projection is directed against the housing main body towards the opening side from a back plate portion causing the housing main body to become engaged by a catch projection, for attaching the housing main body to the fastening frame and preventing it from slipping out through the opening of the fastening frame. | 01-08-2009 |
20090102105 | Fluid filled vibration damping device and electric actuator for use in the same - A fluid filled vibration damping device including: a fluid passage interconnecting a pressure receiving chamber partially defined by a rubber elastic body connecting a first and second mounting members, and an equilibrium chamber partially defined by a flexible film; a movable valve body provided for switching the fluid passage between a communicating state and a blocked state through reciprocating operation; an electric motor employed for actuating the movable valve body; an actuating force converter mechanism provided on an actuating force transmission path from the electric motor to the movable valve body. A rotational actuating force of the electric motor is transmitted as reciprocating actuating force to the movable valve body by the actuating force converter mechanism. | 04-23-2009 |
20090184447 | FLUID-FILLED TYPE VIBRATION DAMPING DEVICE - A Fluid-filled type vibration damping device, which is configured to be free from the necessity of supplying a continuous application of electricity to a coil so as to maintain a movable valve body in either an opened state or a closed state, is provided. The device includes a cam mechanism, which transmits a rotational drive force of a motor to the movable valve body in the form of a reciprocating drive force. In the device, a first rotation angle switch is connected to a first control switch in series relative to a motor coil, and a second rotation angle switch is connected to a second control switch in parallel relative to the first switch. The first rotation angle switch is turned on in a state of a first angular range θ | 07-23-2009 |
20100301530 | Fluid-filled type active vibration damping device and manufacturing method thereof - A fluid-filled type active vibration damping device including a vibration damping device main unit, an oscillation member, and an actuator. The actuator is constituted by an electromagnetic actuator having a stator that includes a coil fixed to a second mounting member while having a movable member linearly displaceable relative to the stator when the coil is energized. A shaft member is provided for connecting the movable member and the oscillation member with each other. A connecting portion is provided for attaching the shaft member to the movable member while permitting the shaft member to tilt as well as to undergo displacement in an axis-perpendicular direction with respect to the movable member. A displacement preventing portion is provided for fastening the movable member and the shaft member to each other by preventing tilt as well as displacement in the axis-perpendicular direction due to the connecting portion. | 12-02-2010 |
20110042872 | FLUID-FILLED VIBRATION DAMPING DEVICE AND CONTROL METHOD OF THE DEVICE USED AS ENGINE MOUNT - A fluid-filled vibration damping device wherein a partition member is formed by fitting an inner orifice member inside an outer orifice member with the members relatively displaceable. An orifice-defining window is provided on either one of an inside peripheral face of the outer orifice member and an outside peripheral face of the inner orifice member. An orifice passage is defined utilizing a zone being produced through partial covering of the orifice-defining window by the other of the outer orifice member and the inner orifice member. The covered zone of the orifice-defining window changes through relative displacement of the inner orifice member and the outer orifice member, so that a passage length along the orifice passage changes in association with change of the covered zone of the orifice-defining window. | 02-24-2011 |
20110042873 | FLUID-FILLED TYPE VIBRATION DAMPING DEVICE - A fluid-filled type vibration damping device having a first and a second fluid chamber respectively filled with non-compressible fluid and which experience relative pressure fluctuations during vibration input, and provided with an orifice passage through which the first fluid chamber and the second fluid chamber communicate with one another, while being capable of exhibiting better dependability and durability in terms of effective vibration damping action of several types of vibration with different frequencies. In the device, tuning frequency of the orifice passage is varied by varying a passage length of the orifice passage | 02-24-2011 |
20110057367 | ACTIVE VIBRATION DAMPER AND METHOD OF MANUFACTURING ACTIVE VIBRATION DAMPER - An active vibration damper including: an inner shaft member provided to a movable member; an outer tube member provided to a stator; a pair of leaf springs elastically connecting axially both sides of the inner shaft member and the outer tube member so as to make a linear actuator operatable by itself; an elastic connecting rubber connecting the inner shaft member and the outer tube member; a mass body holding portion provided to the inner shaft member for holding an additional mass body that is disposed further outwardly than the elastic connecting rubber; and a housing having a structure dividable in an axial direction in which respective openings are secured to each other with an annular seal being interposed therebetween at an outer peripheral side of the elastic connecting rubber. | 03-10-2011 |