Abstract: A rotary device includes a first rotor, a second rotor, a centrifugal element, and a first rolling member. The first rotor includes an accommodation portion having first and second guide surfaces. The first and second guide surfaces face both sides in a circumferential direction. The first rotor is disposed to be rotatable. The second rotor is disposed to be rotatable with and relative to the first rotor. The centrifugal element is disposed within the accommodation portion. The centrifugal element is disposed to be radially movable by a centrifugal force acting thereon in rotation of the first or second rotor. The centrifugal element rotates about a rotational axis thereof in radial movement thereof. The first rolling member is disposed between the first guide surface and the centrifugal element. The first rolling member rolls on the first guide surface in accordance with rotation of the centrifugal element about the rotational axis thereof.

Abstract: A rubber track, in particular for a road paver or a feeder vehicle, comprising at least one drive wheel and at least one guide wheel, which are placed on a carrier together with wheels arranged in pairs and a rubber track, wherein the wheels have rims, and wherein on a circumferential surface of the rims of the wheels a rubber lining is attached, wherein a guide cam is provided on an inner side of the rubber track, which guide cam is configured to penetrate into an intermediate space between two wheels located next to each other, wherein a contact surface of the wheels facing the guide cam has an insert detachably attached to the rims.

Abstract: A system and method includes deploying first and second articulated arms of a computer-assisted device so that a first attachment point on the first articulated arm and a second attachment point of the second articulated arm are positioned and oriented relative to each other based on a size and a shape of an arm stabilizer; stabilizing and reducing vibration of the first and second articulated arms by attaching the arm stabilizer to the first and second attachment points; after the stabilizing and reducing vibration of the first and second articulated arms, positioning and orienting a tool with the first articulated arm; and after the positioning and orienting of the tool, operating the tool. In some embodiments, the tool is a medical tool. In some embodiments, the system and method further include positioning and orienting a second tool with the second articulated arm and operating the second tool.

Abstract: A generator (100) and/or machine (110) generating mechanical energy and functioning on the principle of exploitation of an energy allowing the existence of centrifugal forces (Fc) on masses (M) being displaced in rotation along an eccentric trajectory (150) within a system (130, 132, 166, 170, 190, 210) driving a progressive or sudden variation of their radius of rotation, principle of a generator of centrifugal forces from an eccentric with variable radius (100).

Abstract: A torque fluctuation inhibiting device includes a mass body, first and second centrifugal elements, and first and second cam mechanisms. The mass body is rotatable with a rotor and is also rotatable relatively to the rotor. Each of the first and second centrifugal elements receives a centrifugal force to be generated by rotation of the rotor and the mass body. When a relative displacement is produced between the rotor and the mass body in a rotational direction, the first cam mechanism converts the centrifugal force that acts on the first centrifugal element into a first circumferential force directed to reduce the relative displacement. When the relative displacement is produced between the rotor and the mass body in the rotational direction, the second cam mechanism converts the centrifugal force that acts on the second centrifugal element into a second circumferential force directed to reduce the relative displacement.

Abstract: A torsional vibration damper includes a rotary member rotated by torque, an inertia body rotated relatively on an outer radial side of the rotary member due to torque pulse, and a rolling member coupled to the rotary member and the inertia body. The rotary member includes support sections that are provided on its outer radial side, and by which the rolling member is restricted in a rotating direction of the rotary member and is engaged movably in a radial direction of the rotary member. The inertia body includes: a pair of mass sections respectively projecting toward both sides in an axial direction; and a pair of raceway surfaces on which the rolling member rolls. A center of curvature of each raceway surface is deviated from a rotational center of the rotary member.

Abstract: A centrifugal pendulum which is mountable rotatably around an axis of rotation, having a pendulum flange, a first pendulum mass and a second pendulum mass, where the first pendulum mass is coupled with the pendulum flange by means of a slotted guide, where the slotted guide is designed to guide the first pendulum mass along a first oscillation path in a first oscillating motion, where the second pendulum mass is coupled with the first pendulum mass by a coupling means where the coupling means is designed to guide the second pendulum mass along a second oscillation path in a second oscillating motion.

Abstract: A centrifugal pendulum device which can be mounted in a rotatable manner about an axis of rotation, having a first pendulum mass unit, a first pendulum flange, and a second pendulum flange which is at least partially spaced apart from the first pendulum flange in an axial direction; the first pendulum mass unit is positioned axially between the first pendulum flange and the second pendulum flange, the first pendulum mass unit being coupled at least to the first and/or second pendulum flange so that it is movable to a limited extent; at least one third pendulum flange and a second pendulum mass unit are provided, the second pendulum mass unit being coupled at least to the third pendulum flange so that it is movable to a limited extent.

Abstract: A mechanism for limiting vibration amplitudes in a pumping system includes a plurality of pendulum absorbers coupled with a carrier and each having a pivoting range. The pendulum absorbers each further include a first and a second contact surface that contacts an outer peripheral surface of the carrier at limit stop positions, and each having a shape that is conforming with a shape of the outer peripheral surface. The pumping system may be used for pumping liquid nitrogen.

Abstract: A dynamic vibration absorbing device includes a guide member having an annular shape. The dynamic vibration absorbing device also includes at least one mass body that rolls along the guide member. In addition, the dynamic vibration absorbing device includes at least one elastic member non-rotatable relatively to the guide member, the at least one elastic member disposed to restrict the at least one mass body from rotating relatively to the guide member.

Abstract: A centrifugal pendulum which is mounted so as to be rotatable about an axis of rotation, having a pendulum body and a pendulum flange. The pendulum body includes a first pendulum body part and at least one second pendulum body part. The pendulum flange includes a first pendulum flange part and at least one second pendulum flange part. The first pendulum flange part is at least partially spaced apart axially from the second pendulum flange part. The pendulum flange is positioned axially between the two pendulum flange parts. The first pendulum body part is coupled with the flange so that it is movable to a limited extent. The second pendulum body part is connected to the first pendulum body part.

Abstract: A centrifugal pendulum which is mounted rotatably around an axis of rotation, having a pendulum flange, a first pendulum mass and a second pendulum mass, wherein the first pendulum mass is spaced apart from the second pendulum mass in the circumferential direction, wherein the pendulum flange includes a first pendulum flange part and a second pendulum flange part, wherein the first pendulum mass is positioned bordering axially on the first pendulum flange part and is coupled with the first pendulum flange part so that it is movable to a limited extent, wherein the second pendulum mass is positioned bordering axially on the second pendulum flange part and is coupled with the second pendulum flange part so that it is movable to a limited extent.

Abstract: A centrifugal pendulum device-for a damper device and/or a torque transfer device has a pendulum mass carrier rotatable around an axis of rotation, on which a plurality of pendulum masses movable relative to the pendulum mass carrier are suspended in the circumferential direction, wherein an individual pendulum mass is suspended by a single guide element on the pendulum mass carrier, and a counter bearing supports this individual pendulum mass individually on the pendulum mass carrier. Another centrifugal pendulum device has a pendulum mass carrier rotatable around an axis of rotation, on which a plurality of pendulum masses movable relative to the pendulum mass carrier are suspended in the circumferential direction, wherein the centrifugal pendulum device is designed in such a way that at least two pendulum masses exhibit different vibration and/or oscillation behavior during operation.

Abstract: A pendulum crankshaft for an internal combustion engine includes a pendulum crankshaft having pendulum crank rolling path inserts that are cast into the component during the casting process. The rolling path inserts are positioned in a mold prior to casting. By including the rolling path inserts in the component during the molding process, the need to press the rolling path insert into the component after the component is cast is thus avoided, thereby eliminating the resulting stresses that would otherwise result. Machining and subsequent heat treatment are unnecessary. The component can be one or both of the crankshaft pendulum and the pendulum carrier. The rolling path may be formed from a metal such as sintered powdered metal. The flowable material may be a metal such as iron. The resulting component is free of stress regions, such as on the carrier strap, that normally result from methods that involve press-fitting the rolling path insert into the component.

Abstract: A torsional vibration reduction device provided inside a torque converter includes rolling elements, a plate, and a cover. The plate includes rolling chambers housing the rolling elements. The cover encloses and shields the rolling elements and the plate from a working fluid surrounding the torsional vibration reduction device inside the torque converter. The cover includes first and second covers that are joined together with the plate held between the first and second covers. The first and second covers contact the plate in an axial direction of the torque converter at locations that are, with respect to an axis of the torque converter, on an inner peripheral side and on an outer peripheral side of the rolling chambers. Surfaces of the first and second covers are joined to the plate at least at part of the locations where the first and second covers contact the plate.

Abstract: An internal combustion engine with a centrifugal pendulum device having a pendulum mass carrier, a moveable coupling element rotatably coupled to the pendulum mass carrier via a first bearing element, the coupling element forming a continuous piece of material, and two pendulum masses spaced away from one another and rotatably coupled to the coupling element via a second bearing element and a third bearing element.

Abstract: The invention relates to a centrifugal force pendulum (100) for suppressing torsional oscillations in a drive train, comprising a first and a second flange (105, 110) that are non-rotatably connected to the drive train and a first and a second pendulum mass (125, 135) that are arranged axially offset between the flanges. The pendulum masses have different suppressing frequencies.

Abstract: A crankshaft assembly for an internal combustion engine can include a crankshaft having a lobe with a pendulum absorber coupled thereto. The pendulum absorber can include a carrier, a pendulum, a pin and a centrifugal switch assembly. The carrier can be coupled to a body of the lobe and can have an opening therein. The pendulum can have an opening therein and the pin can extend through the pendulum opening and the carrier opening to pivotably couple the pendulum to the carrier. The switch assembly can be slidably positioned in a bore of the body and can have a lock member configured to selectively engage the pendulum based on a centrifugal force being below a predetermined threshold to lock movement of the pendulum relative to the carrier.

Abstract: A centrifugal pendulum device having pendulum masses, which are arranged axially on both sides on a pendulum mass carrier which is rotatable about an axis of rotation, the pendulum masses forming a pendulum mass pair, where the pendulum masses are connected to one another, so as to form the pendulum mass pair, by means of at least one fastening element which is movable in a cutout in the pendulum mass carrier, and the pendulum masses are pivotable to a limited extent relative to the pendulum mass carrier along a pendulum raceway, so as to describe an angle of deflection, by means of at least one rolling element which can roll in each case one cutout in the pendulum mass carrier and in the pendulum masses. Here, two circumferentially adjacently arranged pendulum masses are arranged radially one above the other at least in sections.

Abstract: [Problem to be Solved] To provide a balancer that can correct dynamic imbalance in rotatable bodies such as machine tools. The correction for low-speed rotation is possible to the same extent as that for high-speed rotation. [Solution to Problem] The balancer, attachable via its attaching portion to a rotatable body, and rotatable together therewith about its rotation axis, includes: weights of same mass and shape; and a weight holder with storage chambers for housing the weights, respectively, such that the weights can oscillate in arbitrary directions. The weight is shaped similar to and smaller than the chamber. The chamber is a cylindrical space extending alongside its central axis; and has concave curved ends perpendicular to the central axis.

Abstract: A chain or belt drive assembly, including: a first sprocket with: a first plurality of radially outwardly extending protrusions; and at least one opening passing through material forming the sprocket and wholly surrounded by the material forming the first sprocket; and a second sprocket including a second plurality of radially outwardly extending protrusions, The assembly includes a continuous chain or belt engaged with the first and second pluralities of protrusions; and at least one pendulum mass assembly including: a first pendulum mass disposed on a first radial side of the first sprocket; second pendulum mass disposed on a second radial side, opposite the first radial side, of the first sprocket; and at least one connection element fixedly secured to the first and second pendulum masses and passing through the at least one opening. The connection element is displaceable within the at least one opening in radial and circumferential directions.

Abstract: A dynamic damper for attenuating torsional vibration of a rotary member, in which a weighted center of a rolling member is offset from a geometric center to trace an elliptical orbit of a cycloid pendulum. The dynamic damper including, a housing having a rolling surface on its inner surface is formed in a rotary member, and a rolling member held in the housing in a manner to be rolled on the rolling surface by torque pulse exerted on the rotary member. In the dynamic damper, a curvature of the rolling surface is entirely constant, and a radius of the rolling member is smaller than that of the rolling surface. A weighted center of the rolling member is offset from a geometric center thereof. The rolling member is guided by a guiding mechanism to roll on the rolling surface.

Abstract: A crankshaft comprising a cheek, a torsion-absorbing pendulum pivotally coupled to the cheek, and a rotational speed actuated brake to oppose motion of the pendulum relative to the cheek. The brake is configured to provide greater opposition to the motion at lower rotational speeds than at higher rotational speeds.

Abstract: By providing a tube of deformable material which can be located within a hollow cavity of a blade it is possible to provide an element which through friction engagement can absorb vibration energy and therefore damp vibration in a hollow blade. The tube incorporates a number of cuts and/or grooves in an appropriate pattern in order to define a deformation profile once the tube is expanded in location. The tube is secured in position internally upon an expandable element which is typically an inflatable device. Once in position the tube is retained in its expanded deformable profile and the engagement between the tube and the hollow cavity wall surface results in energy absorption through vibration episodes. It is possible to provide a tube formed from a shape memory alloy which will expand in location to engage the hollow cavity wall surfaces for energy absorption during vibration episodes.

Abstract: A damper apparatus for an input shaft of a transmission, may include a flywheel having a reception space in which a inertial body may be provided so as to be rotatable relative to the flywheel, the input shaft extending into the reception space of the flywheel, and an inertial body assembly slidably coupled to the input shaft so as to provide rotational inertial force to the input shaft, the inertial body assembly being disposed in the reception space.

Abstract: A carrier structure for a rotor and a method of preventing the coupling of the vibration modes of a carrier structure of a flying machine with the vibration modes of a rotor are provided. The carrier structure has an airframe and a mounting structure suitable for being engaged with the rotor. A vibration-damper mechanism is fitted to the mounting structure and has a resonator that includes a weight element, a damper, and a first deformable member. The weight element is a flapping weight element and is carried by the mounting structure via the first deformable member. The first deformable member allows the weight element to move with respect to the mounting structure and restrains the mobility of the weight element. The damper is interposed between the weight element and the mounting structure for damping the movement of the weight element.

Abstract: A pendulum absorber assembly for a torque converter including a first spring retainer, a second spring retainer, and a floating flange positioned between the first spring retainer and the second spring retainer. The pendulum absorber assembly also includes a drive plate affixed to the floating flange, a plurality of arcuate springs disposed between the second spring retainer and the drive plate, and a plurality of pendulum weights affixed to the second spring retainer, wherein the pendulum weights are made of tungsten alloy.

Abstract: An apparatus for damping torsional vibration in a shaft, having a plurality of retainer pockets spaced from each other in the direction of the shaft's axis of rotation and connected for contemporaneous rotation with the shaft, and a plurality of disks each disposed within one of the retainer pockets, each retainer pocket having a circular track wall, each disk being free to shift perpendicular to the shaft's axis of rotation to engage and move along the circular track wall in response to the vibration, wherein each circular retainer pocket has a center that is at a predetermined radial offset distance relative to the shaft's axis of rotation and the respective radial offsets are angularly spaced from each other about the shaft's axis of rotation.

Abstract: In a flywheel in which narrow portions to be engaged with a coil spring included in the flywheel are formed of recessed portions made by recessing the surface of a flywheel cover, the portions of a sensor plate welded to the front cover, which confront with the recessed portions are made more fragile than adjacent portions of the sensor plate. With this configuration, when the front cover is deformed, stress applied to welded portions adjacent to the recessed portions can be suppressed since the fragile portions are easily deformed. Accordingly, even if the recessed portions are formed to the surface of a flywheel cover, stress can be prevented from being concentrated on the coupling portions of the flywheel cover and the sensor plate.

Abstract: A manufacturing method that can stabilize an operation torque of a torque limiter device in a manufacturing stage is provided. The method of manufacturing the torque limiter device 1 includes an assembling step S1 of attaching a clutch disk 13 and a damper mechanism 16 to a spline hub 15, and attaching a friction facing 21 to the clutch disk 13; an assembling step S2 of attaching a transmission torque limiting portion 6 to the friction facing 21; and a grinding step S4 of supplying a torque to at least one of the transmission torque limiting portion 6 and the spline hub 15 to rotate them relatively to each other.

Abstract: An ice dispenser has a duct cap and a controller to control movement of the duct cap. The controller includes a guide, a first control surface, and a second control surface. A first frictional force between the guide and the first control surface is greater than a second frictional force between the guide and the second control surface. The first frictional force controls the duct cap to move at a first rate and the second friction force controls the duct cap to move at a second rate faster than the first rate.

Abstract: A refrigerator with an ice dispenser includes a spiral type time delay unit for controlling the opening and closing of an ice duct. A duct cap opens and closes an ice duct formed in the refrigerator. A rotating shaft of the time delay unit is operably connected to the duct cap. Foldaway catching members on a rotating shaft intersect with a threaded cylindrical body. The catching members fold back to allow a quick opening of the ice duct. The catching members then interact with the threaded cylindrical body as the ice duct closes to delay the closing process.

Abstract: A flywheel device for a prime mover, which enables stable transmission of torque from a prime mover to a driven shaft, and can be formed compact in size. A first flywheel is provided on the crankshaft of an internal combustion engine. A second flywheel has a friction surface, and is connected to the input shaft of a transmission via a friction switch for urging the friction surface. A spring mechanism is connected between the two flywheels, for damping torsional vibrations of the crankshaft. The first and second flywheels has a groove that is formed in one of them, and extends circumferentially at a radial location corresponding to the friction surface, a flange that is formed in the other of them, and is fitted in the groove, and a brush bearing provided in the groove for rotatably supporting the flywheels.

Abstract: One embodiment includes an insert including a body portion; a plurality of tabs extending from the body portion, wherein the tabs are tapered; and wherein the insert is constructed and arranged to provide damping.

Abstract: A torsional vibration damper with at least two parts that are rotatable about an axis and can turn relative to each other against the opposition of at least one coil spring. Support shoes are provided between the spring and an outer wall of the damper structure and are arranged to slide along the outer wall with the spring as it undergoes compression and relaxation. The support shoes include roller bodies to reduce sliding friction between the support shoes and the outer wall.

Abstract: A damping device (1), particularly for a dual mass flywheel, comprising a first component (2) and a second component and a friction device (4) arranged therebetween, characterized in that the second component has two distanced surfaces (5,6) and the first component is arranged between the surfaces, also comprising a third component (8) which is also arranged between the surfaces. When the third component and first component move towards each other, they are braced in such a way that surfaces of the first and third component are pressed against surfaces of the second component.

Abstract: A weight 4 which is held by a weight holder 3 in a balancer has a pressing face 4b? which is pressed against a guide face 12a provided along the circumferential direction of rotation of the weight holder 3 by centrifugal force generated by rotation of a rotary body. When the rotary body rotates, the weight 4 which is pressed against the guide face 12a via the pressing face 4b? changes its position relative to the rotary body in the circumferential direction of rotation, whereby the weight 4 is disposed in a position in which it suppresses whirling motion of the rotary body. The guide face 12a and pressing face 4b? are inclined relative to the axial direction of rotation so as to tend to outward side in the diametrical direction of rotation as tending to one side in the axial direction of rotation. The weight 4 is pressed against a receiving portion 7a? by component of the centrifugal force, in which the component acts along the guide face 12a and pressing face 4b?.