A method and apparatus for a suspension comprising a spring having a threaded member at a first end for providing axial movement to the spring as the spring is rotated and the threaded member moves relative to a second component. In one embodiment, the system includes a damper for metering fluid through a piston and a rotatable spring member coaxially disposed around the damper and rotatable relative to the damper.

A tool for bridging an outer dynamic seal in a shock absorber to enable fluid leakage to be more readily determined. The tool having an insertion portion including one or more bridging channels, and a body portion that is thicker than the insertion portion. The insertion portion being installable within an annulus of a shock absorber to bridge a first shock absorber seal so as to place a portion of the annulus in fluid communication with an exterior of the hydraulic device via the one or more bridging channels.

A gas strut includes a housing, a piston assembly, a dye, and a dye containment seal. The housing includes an inner surface defining a chamber extending along a centerline. The chamber includes a working portion and a dye storage portion disposed axially adjacent to the working portion. The piston assembly is constructed and arranged to reciprocate within the working portion, and the dye is located in the dye storage portion. The dye containment seal is disposed in the dye storage portion, and is constructed and arranged to transfigure from a normal state to a dye release state thereby releasing the dye upon the piston assembly.

Methods and apparatus of a system for vehicles comprising a vehicle suspension, a sensor operable to measure an operational characteristic of the vehicle suspension, and a processor in communication with the sensor that is operable to suggest an operational setting of the vehicle suspension in response to an input from the sensor corresponding to the operational characteristic. A method for adjusting a suspension of a vehicle may comprise receiving suspension data with a processor, calculating a suspension setting suggestion with the processor, communicating the suspension setting suggestion to a user interface device, and adjusting the suspension based on the suspension setting suggestion.

System and methods for servicing and monitoring shock struts are provided. A shock strut servicing assistance system may comprise: a controller in electronic communication with a display; and a tangible, non-transitory memory configured to communicate with the controller, the tangible, non-transitory memory having instructions stored thereon that, in response to execution by the controller, cause the controller to perform operations comprising: calculating, by the controller, a dead volume of a shock strut and determining, by the controller, a first decision, the first decision being whether or not the dead volume of the shock strut is negative. A shock strut servicing assistance system may be for servicing a shock strut having a negative dead volume.

An industrial gas spring with a hydraulic accumulator includes a piston rod of the received in a hydraulic chamber connected to a gas over hydraulic fluid accumulator chamber in which a compressed gas determines the force required to yieldably move the piston rod from its extended position to its retracted position. On a return stroke of the piston rod as it approaches its fully extended position, a hydraulic damper chamber in the hydraulic cylinder may reduce the velocity of the returning piston rod. The damper chamber may return a hydraulic fluid through an orifice to the hydraulic cylinder chamber. The orifice may provide a varying restriction to vary and control the velocity or rate at which the piston rod returns to its fully extended position.

A motion state display device includes a cable that is paid out in response to movement of a user, a reel on which the cable is wound, a rotary encoder to detect a rotation state of the reel, a magneto-rheological fluid brake to apply a braking force to the reel, a controller configured or programmed to control the braking force according to a stroke amount of the cable calculated based on an output value of the rotary encoder, to change a load for the movement, and a display to display an actual measured waveform of a speed at which the cable is paid out.

Methods and apparatus of a system for vehicles comprising a vehicle suspension, a sensor operable to measure an operational characteristic of the vehicle suspension, and a processor in communication with the sensor that is operable to suggest an operational setting of the vehicle suspension in response to an input from the sensor corresponding to the operational characteristic. A method for adjusting a suspension of a vehicle may comprise receiving suspension data with a processor, calculating a suspension setting suggestion with the processor, communicating the suspension setting suggestion to a user interface device, and adjusting the suspension based on the suspension setting suggestion.

In one aspect, a system for monitoring the operational status of passive lift supports includes an actuatable component configured to be moved across a range of movement between a first position and a second position, and an actuator coupled to the component and being configured to actuate the component across the range of movement. The system also includes a passive lift support coupled to the component and being configured to provide a supplemental actuation force as the actuator is being used to actuate the component across the range of movement. In addition, the system includes a computing system configured to monitor a load-related parameter indicative of a load being carried by the actuator. The computing system is further configured to determine an operational status of the passive lift support based at least in part on the monitored load-related parameter.

System and methods for servicing and monitoring shock struts are provided. A shock strut servicing assistance system may comprise: a controller in electronic communication with a display; and a tangible, non-transitory memory configured to communicate with the controller, the tangible, non-transitory memory having instructions stored thereon that, in response to execution by the controller, cause the controller to perform operations comprising: calculating, by the controller, a dead volume of the shock strut; and determining, by the controller, if a dead volume of the shock strut is negative or not. The operations may further comprise receiving, by the controller, a temperature of a gas and at least one shock strut design parameter, wherein the calculating is performed using the temperature of the gas and the at least one shock strut design parameter.