An adjusting system is provided for a seat, in particular a motor vehicle seat. A longitudinal axis, in which a person sitting on the seat is facing, is defined for the seat, and a transverse axis running perpendicularly to the longitudinal axis and a height axis running perpendicularly to the transverse axis and the longitudinal axis are also defined. The adjusting system comprises at least one first bearing ring which can be connected to the seat, at least one second bearing ring which can be connected to a seat mounting, and a plurality of adjusting rings which are connected to one another in a sequential manner and which are arranged between the first bearing ring and the second bearing ring. The adjusting rings can be rotated relative to one another in order to pivot the seat selectively about the longitudinal axis, the transverse axis, and the height axis.

An adjusting system is provided for a seat, in particular a motor vehicle seat. A longitudinal axis, in which a person sitting on the seat is facing, is defined for the seat, and a transverse axis running perpendicularly to the longitudinal axis and a height axis running perpendicularly to the transverse axis and the longitudinal axis are also defined. The adjusting system comprises at least one first bearing ring which can be connected to the seat, at least one second bearing ring which can be connected to a seat mounting, and a plurality of adjusting rings which are connected to one another in a sequential manner and which are arranged between the first bearing ring and the second bearing ring. The adjusting rings can be rotated relative to one another in order to pivot the seat selectively about the longitudinal axis, the transverse axis, and the height axis.

A vehicle seat apparatus includes a seat, an actuator, and a controller in which a posture control unit exercises a seat posture control over the actuator based on a lateral acceleration and a steering velocity, to change an orientation of at least a portion of the seat. The posture control unit is configured to activate the seat posture control when a magnitude of the lateral acceleration becomes greater than a first acceleration threshold value, as well as to activate the seat posture control on conditions that the steering velocity has a magnitude greater than a steering velocity threshold value and when the magnitude of the lateral acceleration becomes greater than a second acceleration threshold value of which a magnitude is smaller than the first acceleration threshold value and a direction is laterally opposite to a direction of the steering velocity.

A vehicle seat apparatus includes a seat, an actuator, and a controller in which a posture control unit exercises a seat posture control over the actuator based on a lateral acceleration and a steering velocity, to change an orientation of at least a portion of the seat. The posture control unit is configured to activate the seat posture control when a magnitude of the lateral acceleration becomes greater than a first acceleration threshold value, as well as to activate the seat posture control on conditions that the steering velocity has a magnitude greater than a steering velocity threshold value and when the magnitude of the lateral acceleration becomes greater than a second acceleration threshold value of which a magnitude is smaller than the first acceleration threshold value and a direction is laterally opposite to a direction of the steering velocity.

Various examples for controlling sway of a furniture that is suspended in a vehicle are disclosed herein. In addition to the suspended furniture, the vehicle can include sway control devices operatively connected to the suspended furniture. The sway control devices can be connected to the suspended furniture via sway lines. The sway control devices can be controlled to adjust the rates that the sway lines are let out or retracted. As a result, the vehicle can control how much the suspended furniture sways.

A kinetic seat assembly including a primary seat cushion frame including a rear rod extending between opposite rails, a secondary seat back frame movable relative to the primary seat cushion frame, a pair of clamps provided on the rear rod of the primary seat cushion frame, and a pair of vertical dampers coupled between the secondary seat back frame and the pair of clamps on the primary seat cushion frame, each clamp receiving an end of a corresponding vertical damper. In embodiments, the vertical dampers are arranged in a V-shape such that the vertical dampers are oriented at an angle relative to one another such that a distance between a first end of each vertical damper is greater than a distance between a second end of each vertical damper.

A gyro seat includes: a seat body comprising a seat cushion and a seat back coupled to the seat cushion; and a seat gyroscope mounted to the seat body, the seat gyroscope compensating a movement of the seat body by control of first, second and third axes, where the first axis corresponds to a yaw of the seat body as a z axis of an xyz coordinate system, the second axis corresponds to a pitch of the seat body as an x axis of the xyz coordinate system, and the third axis corresponds to a roll of the seat body as a y axis of the xyz coordinate system.

Systems and methods for actively isolating a payload from a disturbance. In one example, a seat system for a vehicle includes a seat, a support structure that allows the seat to move about an axis of a pivot, a first sensor positioned to detect movement of the vehicle, a second sensor positioned to detect lateral acceleration of the pivot, an actuator configured to move the seat, and a controller configured to receive a first signal from the first sensor and a second signal from the second sensor, generate a command signal based at least on the first and the second signal to instruct the actuator to position the seat at a desired command angle, wherein the controller is configured to correct the command signal for lateral accelerations caused by steering the vehicle, and provide a force command to the actuator to move the seat at the desired command angle.

Systems and methods for actively isolating a payload from a disturbance. In one example, a seat system for a vehicle includes a seat, a support structure that allows the seat to move about an axis of a pivot, a first sensor positioned to detect movement of the vehicle, a second sensor positioned to detect lateral acceleration of the pivot, an actuator configured to move the seat, and a controller configured to receive a first signal from the first sensor and a second signal from the second sensor, generate a command signal based at least on the first and the second signal to instruct the actuator to position the seat at a desired command angle, wherein the controller is configured to correct the command signal for lateral accelerations caused by steering the vehicle, and provide a force command to the actuator to move the seat at the desired command angle.

A kinetic seat assembly including a primary seat cushion frame including a rear rod extending between opposite rails, a secondary seat back frame movable relative to the primary seat cushion frame, a pair of clamps provided on the rear rod of the primary seat cushion frame, and a pair of vertical dampers coupled between the secondary seat back frame and the pair of clamps on the primary seat cushion frame, each clamp receiving an end of a corresponding vertical damper. In embodiments, the vertical dampers are arranged in a V-shape such that the vertical dampers are oriented at an angle relative to one another such that a distance between a first end of each vertical damper is greater than a distance between a second end of each vertical damper.