A formation method for liquid rubber composite nodes with a tubular flow channel is provided. The formation method includes adding a middle spacer sleeve between an outer sleeve and a mandrel, bonding the middle spacer sleeve and the mandrel together through rubber vulcanization and assembling the integrated middle spacer sleeve and the mandrel into the outer sleeve; installing a tubular flow channel in the mandrel; hollowing the middle spacer sleeve to form a plurality of spaces; after vulcanization, forming a plurality of interdependent liquid cavities by using rubber and the plurality of spaces; and arranging liquid in the plurality of liquid cavities and communicating the plurality of liquid cavities through the tubular flow channel.

A formation method for liquid rubber composite nodes with a tubular flow channel is provided. The formation method includes adding a middle spacer sleeve between an outer sleeve and a mandrel, bonding the middle spacer sleeve and the mandrel together through rubber vulcanization and assembling the integrated middle spacer sleeve and the mandrel into the outer sleeve; installing a tubular flow channel in the mandrel; hollowing the middle spacer sleeve to form a plurality of spaces; after vulcanization, forming a plurality of interdependent liquid cavities by using rubber and the plurality of spaces; and arranging liquid in the plurality of liquid cavities and communicating the plurality of liquid cavities through the tubular flow channel.

A base isolation unit comprises a first connector and a second connector disposed in a direction of base isolation with a predetermined distance therebetween, and a movement regulator provided between the first connector and the second connector and receiving an external force in the direction of base isolation. The movement regulator includes a first casing having one end connected to the first connector, a second casing having one end connected to the second connector, a first damping device accommodated inside the first casing, a second damping device accommodated inside the second casing, a vibration damper provided between the first casing and the second casing, and a coupling member coupling the first damping device and the second damping device together. The first damping device and the second damping device each have a cylinder, a compressible fluid and a piston.

A shock absorber includes a housing and an end wall slidably disposed within the housing. The end wall and the housing cooperate to define at least a portion of a cavity within the housing. The cavity is filled with a fluid, and a piston is slidably disposed within the cavity. Movement of the piston within the cavity compresses the fluid to provide a spring force. The shock absorber further includes a compensator coupled to the end wall. The compensator positions the end wall within the housing to change a volume of the cavity in response to a change in a temperature of a first element of the compensator.

A shock absorber includes a housing and an end wall slidably disposed within the housing. The end wall and the housing cooperate to define at least a portion of a cavity within the housing. The cavity is filled with a fluid, and a piston is slidably disposed within the cavity. Movement of the piston within the cavity compresses the fluid to provide a spring force. The shock absorber further includes a compensator coupled to the end wall. The compensator positions the end wall within the housing to change a volume of the cavity in response to a change in a temperature of a first element of the compensator.

The invention makes available a device for damping the vibrations of a spindle of a machine tool, which spindle rotates about an axis of rotation, which device has a central longitudinal axis that is oriented coaxial to the axis of rotation of the spindle during use, and a housing that is provided for torque-proof coupling to the spindle and delimits a housing space that is configured as a ring space oriented coaxial to the central longitudinal axis and surrounds the central longitudinal axis, a ring-shaped damper mass that is arranged to move in the housing space relative to the central longitudinal axis and oriented coaxial to the central longitudinal axis in the rest state, and includes at least one spring element, by way of which the damper mass is movably held on the housing, with elastic resilience, with reference to the central longitudinal axis of the device, at least in the circumference direction of the damper mass. In that in the case of such a device, according to the invention, a gap is present between a circumference surface of the damper mass and an inner surface of the housing, which gap is filled with a viscous damper fluid, and in that, according to the invention, the clear width of the gap filled with the viscous fluid is adjustable, the damping effect can be adapted to the corresponding requirements in a simple manner.

The invention makes available a device for damping the vibrations of a spindle of a machine tool, which spindle rotates about an axis of rotation, which device has a central longitudinal axis that is oriented coaxial to the axis of rotation of the spindle during use, and a housing that is provided for torque-proof coupling to the spindle and delimits a housing space that is configured as a ring space oriented coaxial to the central longitudinal axis and surrounds the central longitudinal axis, a ring-shaped damper mass that is arranged to move in the housing space relative to the central longitudinal axis and oriented coaxial to the central longitudinal axis in the rest state, and includes at least one spring element, by way of which the damper mass is movably held on the housing, with elastic resilience, with reference to the central longitudinal axis of the device, at least in the circumference direction of the damper mass. In that in the case of such a device, according to the invention, a gap is present between a circumference surface of the damper mass and an inner surface of the housing, which gap is filled with a viscous damper fluid, and in that, according to the invention, the clear width of the gap filled with the viscous fluid is adjustable, the damping effect can be adapted to the corresponding requirements in a simple manner.

A damper includes a pressure tube, a piston assembly, a piston rod, a reserve tube, and a reserve chamber. The damper also includes a base valve assembly having a valve body and a compression disc assembly. The compression disc assembly engages a first end face of the valve body to restrict flow through at least one compression passage. The base valve assembly also includes a rebound disc assembly. The rebound disc assembly engages a second end face of the valve body to restrict flow through at least one rebound passage. The rebound disc assembly includes at least one rebound bending disc that directly engages the second end face to close the at least one rebound passage. The rebound bending disc bends in response to pressure within the at least one rebound passage to permit flow through the at least one rebound passage.

A base isolation unit comprises a first connector and a second connector disposed in a direction of base isolation with a predetermined distance therebetween, and a movement regulator provided between the first connector and the second connector and receiving an external force in the direction of base isolation. The movement regulator includes a first casing having one end connected to the first connector, a second casing having one end connected to the second connector, a first damping device accommodated inside the first casing, a second damping device accommodated inside the second casing, a vibration damper provided between the first casing and the second casing, and a coupling member coupling the first damping device and the second damping device together. The first damping device and the second damping device each have a cylinder, a compressible fluid and a piston.

An active damper is disclosed which includes: an elastic support body; a first wall section provided at the elastic support body and defines a first liquid chamber; a second wall section provided on an opposite side and defines a second liquid chamber; a partition wall section which separates the first liquid chamber from the second liquid chamber; an orifice in the partition wall section for communication between the first and second liquid chambers; and a damping unit to attenuate the vibrations transmitted from a vibrating source to the vibration-receiving part. The damping unit includes: a coil to generate a magnetic field according to a current supplied; magnetic members forming a closed magnetic circuit for the magnetic field; and a magneto-viscoelastic elastomer having a viscoelasticity changes depending on the magnetic field. At least one of the first and second wall sections, and the partition wall section has the damping unit.