Class / Patent application number | Description | Number of patent applications / Date published |
188283000 | Piston having a restrictable opening (e.g., apertured plate) in a fixed volume chamber | 12 |
20090242341 | Fluid pressure shock absorber - An object of the present invention is to improve productivity by making manufacturing of a piston easier. A piston | 10-01-2009 |
20100078276 | Amplitude sensitive damper apparatus - An amplitude sensitive damper apparatus that is provided with an amplitude sensitive valve unit may include a plug coupled to a piston rod to form a spring groove with the piston rod in a predetermined section, a spool member configured and dimensioned to cover the spring groove and slidably coupled to the piston rod to move up and down along the piston rod, wherein the spool member includes a supporting portion that protrudes toward the piston rod from a middle portion of an inner surface of the spool member, upper and lower elastic members that are mounted inside the spring groove to support the supporting portion of the spool member upwards and downwards respectively along the piston rod, and an amplitude sensitive valve that is integrally mounted on an outer surface of the spool member to generate a damping force when the spool member is moving. | 04-01-2010 |
20100187056 | Shock Absorber - A shock absorber for use in lowering heavy structures to the sea floor comprises a cylinder ( | 07-29-2010 |
20100236881 | VARIABLE RESISTANCE STRUT ASSEMBLIES AND ARTICLES CONTAINING THE SAME - Disclosed herein is a strut assembly that comprises a piston that is in slideable communication with a housing. The piston comprises a piston head having a channel in operative communication with a fluid that is disposed in the housing. An elastic member and an active element are disposed in the channel. The active element is in operative communication with the elastic member and is operative to change the shape of the elastic member. | 09-23-2010 |
20100263972 | Vibration damping device, particularly for hydraulic shock absorbers for vehicles - A vibration damping device for hydraulic shock absorbers for vehicles, having two cartridges, each associated with a shock-absorber integrated in a component of a vehicle, and each comprising a tubular body, with a piston that forms two chambers with variable volumes of incompressible fluid, a first compression chamber, and a second extension chamber. Each piston is carried by a stem exiting from an end of the tubular body and associated with part of the shock-absorber. The piston is provided with bleeding orifices for fluid bleeding. Flow control and throttling means for the orifices are provided. | 10-21-2010 |
20100270114 | DAMPING DEVICE WITH MULTISTAGE VARIABLE DAMPING CHARACTERISTICS, PARTICULARLY FOR DAMPING MOVEABLE FURNITURE PARTS - A damping device ( | 10-28-2010 |
20100294604 | Damping mechanism - A damping mechanism ( | 11-25-2010 |
20110024245 | Shock absorber - A shock absorber comprising: a cylinder; a piston partitioning the cylinder into two chambers; a piston rod; a by-pass passage passing through the chambers; and a damping-force adjusting mechanism adjusting a passage area of the by-pass passage, wherein the adjusting mechanism includes: a shutter guide; a shutter movably guided by the shutter guide; and an elastic member elastically retaining the shutter at an initial position, an adjustable passage adjusting the passage area of the by-pass passage as that opening is varied by shift of the shutter is formed, shift of the shutter is not influenced by pressure difference between the chambers, and when the shutter is at the initial position, the adjustable passage is opened with a predetermined degree, and the shutter moves to close the adjustable passage by fluid force that generates by flow of the working fluid of the adjustable passage against elastic force of the elastic member. | 02-03-2011 |
20120031720 | REMOTE ADJUSTABLE SHOCK ABSORBER - A modified mono-tube shock is a lighter shock with less rod pressure, less seal drag, a greater range of valving, and faster heat dissipation. The shock includes an outer body, a shaft piston, a plurality of deflective discs, and a divider piston, wherein the divider piston is installed at a particular location inside the shock to create a gas chamber. | 02-09-2012 |
20120080278 | OIL DAMPER USING A CAM - The present invention relates to an oil damper for preventing a seat and a cover from rapidly rotating. The oil damper includes a shaft unit, a cam, a valve, an elastic member, a housing and a fastening member. The shaft unit has a coupling part which is coupled to the seat and the cover. The cam is rotatably coupled to a rotating shaft of the shaft unit. The valve opens or closes a coupling hole depending on movement of the cam to allow fluid to flow through the coupling hole or prevent the fluid from flowing. The elastic member is provided in the housing and is compressed by the cam. A flow rate control groove is formed in the housing and controls the flow rate of fluid in response to movement of the cam. The fastening member is fitted over the shaft unit and fastened to the housing. | 04-05-2012 |
20120211318 | Real-Time Variable Damping Module Using Magnetic Shape Memory Material - A real-time continuous damping module includes a flow channel that is configured to allow fluid to flow between a first chamber and a second chamber of a cylindrical tubular member when a pressurizing device exerts a pressure on the fluid within the first chamber. A variable damper assembly is configured to control a flow of fluid through the flow channel. The variable damper assembly includes a damper configured to variably obstruct an opening of the flow channel. A magnetic shape memory element is configured to variably control a position of the damper within the opening of the flow channel. The magnetic shape memory element exhibits changes in shape when exposed to a magnetic field. An electromagnetic device regulates the magnetic field for variably controlling the position of the damper within the flow channel by changing the shape of the magnetic shape memory element. | 08-23-2012 |
20140262649 | Hydraulic Dampener Systems - The present disclosure provides hydraulic dampening systems wherein the dampening effect may be controlled by rotating a body of the dampener, after the dampening system has been installed and in use. The system includes a piston including a front disk and back disk, wherein the front disk has a reduced diameter with respect to the back disk. A washer is positioned between the two piston disks, wherein the diameter of the washer is greater than the piston back disk, wherein the washer includes at least two protruding tabs. The washer is frictionally engaged with the body of the dampener. As the body is rotated, the washer is rotated such that the washer tabs engage at least a portion of the piston front disk to rotate the piston along a threaded surface of a shaft of the system. | 09-18-2014 |