| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 188316000 | Fluid through or around piston within chamber | 24 |
| 20080289921 | Shock absorber for switching-device operating device - A shock absorber includes a casing that is filled-in with a working fluid, a cylinder body that is housed in the casing and that forms chambers inside and outside the cylinder body, a sliding shaft that passes through the cylinder body and forms a flow path between the sliding shaft and the cylinder body and engages a movable contact, and a piston that is fixed to the sliding shaft and that is housed inside the cylinder body. An outer diameter of the piston is larger than a diameter of the sliding shaft. The piston can be slid in an inner peripheral surface of the cylinder body while ensuring waterproofing and causes the working fluid to move inside and outside the cylinder body and receives, due to a flow resistance at the time of the working fluid passing through the flow path, a braking force. | 11-27-2008 |
| 20100025173 | DAMPING DEVICE WITH ADJUSTABLE VARIABLE DAMPING CHARACTERISTICS, IN PARTICULAR FOR THE DAMPING OF MOVABLE FURTNITURE PARTS - Damping device ( | 02-04-2010 |
| 20110155524 | DEVICE FOR COMPENSATING FOR THE VOLUME OF THE BODY OF A HYDRAULIC SUSPENSION SHOCK-ABSORBING DEVICE - A compensation device for a shock absorber comprising a hydraulic volume formed by two chambers separated by a removable wall of a piston and including at least one cartridge defining a shock-absorber body and a rod attached to the mobile wall of the piston. The hydraulic shock absorber includes an outer tube defining a cartridge in which said shock body is provided. The inner wall of the outer tube being capable of sliding against the outer wall of the shock absorber body so as to compensate, at the hydraulic chamber in which the piston rod is inserted, for the volume of the portion of the piston rod inserted into the hydraulic chamber upon a compression phase. | 06-30-2011 |
| 20110233015 | PROGRESSIVE DAMPING DEVICE FOR FURNITURE - A progressive damping device for furniture is designed to prevent impacts between the mobile parts of furniture provided with self-closing systems, and provides progressive closure according to the speed and energy acquired in the closure. The damping device generally includes a cylinder in which a dynamic fluid circulates, and in the interior of which there is displaced a piston which has a rod provided with an elastoplastic valve, which delimits respective compression and expansion chambers. | 09-29-2011 |
| 20150041267 | CONTROL ASSEMBLY FOR A BICYCLE SHOCK ABSORBER - A control assembly for controlling a component, such as a bicycle shock absorber including a first actuator carried by the shock absorber. The first actuator has a fulcrum body supported in the shock absorber and a control arm displacing the fulcrum body. The first actuator pivots on the fulcrum body to operatively control a first characteristic of the shock absorber. | 02-12-2015 |
| 20150041268 | AIRCRAFT SHOCK STRUT AND REBOUND DAMPING RING - A shock strut for an aircraft landing gear is disclosed. The shock strut may include a piston with a piston inner surface and a piston outer surface. A telescoping component may be coaxially aligned and slidably engagable with the piston. At least one of the piston and the telescoping component may be a titanium material. A groove defined by an upper lip and a lower lip may be coupled to at least one of the piston or the telescoping component. A piston ring may be in direct contact with the titanium material. The piston ring may be non-metallic and provide sliding engagement with the titanium material to seal a radial space between the piston and the telescoping component. The piston ring may be at least partially held within the groove, and the groove may limit axial movement of the piston ring. | 02-12-2015 |
| 20150136550 | HYDRAULIC ENERGY CONVERSION DEVICE - A hydraulic energy conversion device includes a main body being an annular member having a central hole, an output shaft mounted in the central hole of the main body with a centerline extended perpendicular to the central hole; a fixing plate located at an end of the main body and provided with a plurality of passage holes; an outer cover located at another end of the main body opposite to the fixing plate and having a central opening for the output shaft to outwardly extended through the outer cover; and a plurality of vanes circumferentially spaced on the output shaft to locate in a space defined between the main body, the fixing plate and the outer cover. The hydraulic energy conversion device is mounted in a hydraulic shock absorber to convert hydraulic energy into mechanical energy and output the same without hindering the hydraulic shock absorber from normal operation. | 05-21-2015 |
| 20160046349 | HYDRAULIC SHOCK ABSORBER AND METHOD FOR INJECTING OPERATING LIQUID INTO HYDRAULIC SHOCK ABSORBER - A hydraulic shock absorber includes a cylinder connected to a wheel side, a liquid chamber formed in the cylinder and filled with an operating liquid, an annular rod guide fixed to the cylinder and closing a vehicle body side of the liquid chamber, a piston rod connected to the vehicle body side, penetrating a shaft core part of the rod guide, and going into/out of the cylinder, a piston held by the piston rod and dividing the liquid chamber into an extension-side chamber and a compression-side chamber, and an annular bush fitted in an inner periphery of the rod guide and pivotally supporting the piston rod, movably in an axial direction, in which the piston rod includes a columnar sliding shaft portion in sliding contact with the bush and a first injection portion for injecting the operating liquid provided on a side opposite to the piston of the sliding shaft portion and outside a range of a damper stroke. | 02-18-2016 |
| 20160076618 | Improvements in Damper Assemblies - A damper assembly is provided with a cylinder ( | 03-17-2016 |
| 20160129746 | Arrangement for a Vibration Damper of a Vehicle - A vibration damper for a vehicle is provided. The vibration damper includes at least one damping cylinder made from a fiber composite material; a guiding element for guiding a piston rod of a piston movably arranged in the damping cylinder. The guiding element is located in a guiding end region at one end of the damping cylinder. A fastening element for use in attaching the at least one damping cylinder to a vehicle is located at a fastening end of the cylinder. At least one of the two end regions of the damping cylinder is conical or wedge-shaped and its element has a corresponding external form that is conical or wedge-shaped. A conical or wedge-shaped clamping sleeve located around the conical or wedge-shaped end regions of the damping cylinder. | 05-12-2016 |
| 188317000 | Via fixed or variable orifice in piston | 14 |
| 20080223672 | Vehicle damper of variable damping force - A damper of variable damping force adapted to be built into a vehicular suspension is disclosed. The damper has frictional force generating means for applying a frictional force to a rod. The frictional force generating means is disposed at one end of a cylinder and positioned externally of the latter. | 09-18-2008 |
| 20080230336 | Method for Arranging a Separating Piston in a Cavity and a Device with Such a Separation Piston - A steering damper system and method of regulating the fluid pressure of such a system are provided. The system can comprise a piston rod, a cylinder, a passage, and a damper portion. The damper portion can comprise a damper cavity, an outer piston, an inner piston, and a biasing component. The damper cavity can be in fluid communication with the passage. The outer piston can be slidably disposed in the damper cavity and define a chamber and a duct that is in fluid communication with the chamber and the passage. The inner piston can be slidably disposed in the chamber of the outer piston. The biasing component can exert an axial biasing force against the inner piston for regulating the pressure of fluid disposed in the system passes intermediate the passage, the damper cavity, and the chamber of the outer piston. | 09-25-2008 |
| 20100155186 | Regulated Dashpot With Shock-Absorption Force Controls - A regulable dashpot with shock-absorption force controls, especially intended for motor vehicles, with at least one flow-regulating system including one or more shock-absorption components for the compression phase and/or for the decompression phase. The object is to allow the dashpot to shift continuously between the hard and soft phases, whereby the valve-adjustment intervals can be varied at intervals that are not unnecessarily short or even unattainable. At least one valve assembly is accordingly supplied with variable flow impedance by regulating valve. | 06-24-2010 |
| 20130206524 | DAMPER - A damper for damping a movement along a middle-longitudinal-axis, in particular for damping a seat in a vehicle, includes an outer housing extending along the middle-longitudinal-axis, a guiding and sealing unit closing a first housing end, a piston rod sealed by the guiding and sealing unit guided, an inner housing, which surrounds a working chamber, a damping fluid, a second housing end opposite the first housing end and a piston guided in the inner housing along the middle-longitudinal-axis and secured to the piston rod. The piston divides the working chamber into a first part-working chamber and a second part-working chamber. The piston includes at least one throughflow channel for connecting the chambers, an equalizing chamber arranged between the inner housing and the outer housing and a throttling channel integrated into the guiding and sealing unit. The throttling channel has a cross-sectional area comprising a length and an internal width. | 08-15-2013 |
| 20140231201 | SHOCK ABSORBER - A shock absorber has an inclined surface that is inclined to a moving direction of the free piston in at least one of a free piston contact surface of a free piston with which an elastic body is in contact and a housing contact surface of a housing with which the elastic body is in contact. A shortest distance between the free piston contact surface and the housing contact surface is changed by movement of the free piston. | 08-21-2014 |
| 20140238798 | FLUID-FILLED, FREQUENCY-DEPENDENT DAMPER - A fluid-filled, frequency-dependent damper includes a cylinder connected to a cylinder attachment portion; a piston connected to a piston attachment portion, the piston being displaceable in the cylinder; first and second main chambers; and a throttling member for allowing and influencing a fluid flow between the first and second main chambers within the damper when the cylinder attachment portion and the piston attachment portion move relative to each other. | 08-28-2014 |
| 20150014107 | Damper Assemblies - A damper assembly comprises a piston and cylinder type damper with a piston ( | 01-15-2015 |
| 188318000 | And passage venting fluid external to chamber | 2 |
| 20090014266 | Adjustable fluid friction valve - The present invention is an adjustable fluid friction valve. It is comprised of a left cap, a casing, a right cap, a fluid reservoir, a rotated-member, a stem, and an adjustment grip. The adjustment grip is turned by the user's hand and connects to and turns the central stem that connects to and turns the rotated-member. The rotated-member communicates fluid flow to different cross-sections of an annular passage that is disposed in the left cap where it is used for variable flow restriction. It is a groove having a varying cross-sectional area along its length with a smaller beginning terminal and a larger concluding terminal. The smaller beginning terminal is blind and the larger concluding terminal communicates with the mid passage of the left cap. The mid passage communicates with the fluid reservoir. The annular passage receives fluid flow from the rotated-member at a cross-section of its length. A smaller cross-section is accompanied by a longer length. Both these conditions increase fluid friction in the valve and have a restricting effect on its fluid flow. A restricted fluid flow increases the force required to push fluid through the valve and any connected external hydraulic circuit, thereby increasing the dampening effect inside the circuit. A grip stopping means is easily added to the grip to stop its rotation in incremental steps. | 01-15-2009 |
| 20110048879 | Leak-Proof Damper Having Self-Diagnostic Feature - A leak-proof damper with a self-diagnostic feature. An auxiliary oil reservoir body is disposed externally with respect to the damper cylinder and generally adjacent the rod seal, wherein the auxiliary oil reservoir body is concealed by an end cap. The maximum volume of oil retainable by the auxiliary oil reservoir body is predetermined to coincide with a volume of oil which may be lost from the interior of the damper cylinder and yet the damper will still function properly. The auxiliary oil reservoir body may be a seal body having an internal cavity providing an oil retention volume or an absorbent body having an absorbency capacity that provides an oil retention volume. | 03-03-2011 |
| 188319100 | Having an orifice adjustment for both jounce or bound (compression) and rebound | 2 |
| 20090283373 | DAMPER - A damper includes a cylinder tube having a first end connected to one portion of a member of an object for damping, and a fixing rod guide arranged to close a second end of the cylinder tube; a movable rod guide fitted on the first end of the cylinder tube; a main piston rod extending from the piston side, the piston fitted in the cylinder tube and passing through the fixing rod guide; a sub-piston rod extending on the piston side and passing through the movable rod guide; and a spring normally biasing the movable rod guide toward the piston. A damping force generation oil passage is arranged to connect first and second oil chambers in a cylinder tube defined by the piston. The number of parts of a through-rod type damper is reduced to simplify a construction thereof and to make the damper compact. | 11-19-2009 |
| 20100018818 | SHOCK ABSORBER WITH HYDRAULIC FLOW DUCTS - The present invention provides a method and apparatus for a multilayer optical articles. A method comprises forming a first multilayer article with a first substrate, first adherent, and second substrate using a first holder and a second holder. The method further comprises forming a second multilayer article with the first multilayer article, a second adherent, and a third substrate using the first holder and second holder to grasp the second multilayer article. After removal of the first and second holders, the first and second adherent maintains the second multilayer article in a posture at which the second multilayer article was held by the first and second holders, wherein the first and second adherent comprise a photopolymer such that the article is capable of storing data in a reflective holographic data storage system. | 01-28-2010 |
| 188319200 | Orifice size varied using a hand or hand tool | 3 |
| 20100163357 | SUSPENSION SYSTEMS - A shock absorber assembly comprises a piston and cylinder arrangement, a damping-fluid chamber and a damping valve arrangement which is located in the damping fluid chamber and serves to divide the chamber into sub-chambers. The assembly is such that in use the valve arrangement regulates the flow of fluid between the sub-chambers. | 07-01-2010 |
| 20100187059 | LINEAR IMPELLED MODULE DAMPER - A linear impelled module damper includes a hollow cylinder having an inner body, an outer body, and a channel between the inner and outer body. The hollow cylinder has a sealed first end and a sealed second end. A piston movable within the hollow cylinder divides the hollow cylinder into a compression chamber and a rebound chamber. The channel communicates with the rebound chamber through at least one hole in the rebound chamber. A compression extension cylinder is rigidly fixed to the hollow cylinder approximate to the sealed second end on one end, and having a compression mount attached to the other end. The compression extension cylinder including an air valve being adapted to allow a piston rod to move in and out of the compression extension cylinder. The piston rod including a rebound mount on one end and extending into the compression extension cylinder on the other. | 07-29-2010 |
| 20110259687 | Method and Apparatus for Improved Vibration Isolation - A tunable vibration isolator having a housing, fluid chamber, and at least one tuning passage. A piston assembly is resiliently disposed within the housing. A vibration isolation fluid is allowed to flow from the fluid chambers through the tuning passage. A metering valve is actuated up and down in order to change the effective diameter of the tuning passage, resulting in a change to the isolation frequency. | 10-27-2011 |
