A low profile armrest articulation mechanism for a passenger seat is disclosed. The passenger seat has a seatback reclinable from an upright configuration to a berthed or horizontal configuration (e.g., parallel to the seatpan). The mechanism includes moving stops connecting the armrests on either side to the seatback and linkages connecting the moving stops to the seat frame. As the seatback reclines, the moving stops maintain the armrests at an optimally ergonomic angle (e.g., substantially parallel to the seatpan) for as long as possible. When the seatback reaches the fully reclined or berthed configuration, the armrests may be pivoted upward into a berthed orientation flush with the seatback, adding bed space to the berthed configuration.

A refuse truck includes a chassis, a body, a lift assembly coupled to the chassis and/or the body, a cab coupled to the chassis and positioned in front of the body, and a control system. The cab includes an armrest comprising controls pivotable between an active position and an inactive position and an armrest position sensor configured to determine a position of the armrest between the active position and the inactive position. The control system configured to control a user interface to provide an indication of a current position of the lift assembly. The control system further configured to determine a position of the armrest, and selectively activate a pendent control on an exterior of the body.

A medical chair with height adjustable armrest comprises a lifting mechanism, a base coupled to a bottom side of the lifting mechanism, a sitting part coupled to an upper side of the lifting mechanism, and a backrest part coupled rotatably to the upper side of the lifting mechanism. An armrest comprises an armrest stop with the armrest rotatably coupled to the backrest part adjustable to an upper position and a bottom position, where, in the bottom position, the armrest stop bears on the first stop coupled to the backrest part, and in the upper position, the armrest stop does not bear on the first stop. A latch system movably attached to the backrest part comprises a latch with back surface and a second stop where the latch system is adjustable into a first position of the latch mechanism and into a second position of the latch system where in the first position of the latch system, the latch is located between the first stop and the armrest stop and in the second position of the latch system, the latch is not located between the first stop and the armrest stop, and where an upper position of the armrest is a position where the armrest stop bears on the second stop or any other position where the armrest is higher than in case when the armrest stop bears on the second stop.

The disclosure relates to a seat for a vehicle. The seat may have a seat structure having at least a backrest frame part adjustable between an initial position and at least an inclined position. The seat may also have a seat adjusting device having at least a number of linear actuators. Further, the disclosure relates to a seat mounting structure having such a seat.

A seat for a vehicle includes a seat back and a seat bottom extending from the seat back along a seat-bottom axis. A track is fixed relative to the seat bottom and is elongated along the seat-bottom axis. A slider is slidably engaged with the track along the seat-bottom axis. A link is pivotally engaged with the slider. An armrest is pivotally engaged with the link. A pyrotechnic actuator connected to the slider. In the event of a sensed vehicle impact, the pyrotechnic actuator pulls the slider to move the armrest to a raised position.

A seat for a vehicle includes a seat back and a seat bottom extending from the seat back along a seat-bottom axis. A track is fixed relative to the seat bottom and is elongated along the seat-bottom axis. A slider is slidably engaged with the track along the seat-bottom axis. A link is pivotally engaged with the slider. An armrest is pivotally engaged with the link. A pyrotechnic actuator connected to the slider. In the event of a sensed vehicle impact, the pyrotechnic actuator pulls the slider to move the armrest to a raised position.

A seat includes a seatback and an armrest supported by the seatback. The armrest is rotatable relative to the seatback to a deployed position. A swing bar is supported by the armrest and is rotatable relative to the armrest to a downward position. The swing bar in the downward position is elongated downwardly from the armrest. A drive belt is indexed with the armrest and the swing bar to rotate the swing bar to the downward position when the armrests rotates to the deployed position.

An armrest according to the technology described herein includes a bracket, an armrest body, a device connecting port, an armrest-side connector, and a cable. The bracket is fixed to a seat frame. The armrest body is attached to the bracket to be rotatable. The device connecting port is exposed through an outer surface of the armrest body. The armrest-side connector is fixed to the seat frame at a position different from the bracket. The cable includes an end connected to the device connecting port and an end connected to an armrest-side connector. The armrest body includes a cable retaining portion through which the cable is passed and in which the cable is retained. Any one of the bracket and the armrest body includes a hole (an elongated hole) that allows movement of the cable along with rotation of the armrest body.

An armrest release mechanism includes a pivot bush. A release bracket is fixed to the pivot bush. An armrest pivot is supported on the pivot bush for relative rotational movement. A release board is also supported on the pivot bush for relative rotational movement. The release board is movable between a locked position and an unlocked position. An armrest lock is attached to the release bracket for relative movement. The armrest lock is also attached to the release board. When the release board is in the locked position the armrest lock is engaged with the armrest pivot to prevent movement of the armrest pivot relative to the pivot bush. When the release board is in the unlocked position the armrest lock is not engaged with the armrest pivot.

A work machine may include a steering system, a user interface, a detection device, and a control device. The user interface may generate an input signal corresponding to operator input. The detection device may generate a detection signal corresponding to a presence of an operator relative to the user interface. The control device may determine that the operator is unavailable based on the detection signal and the input signal, and enable a lockout mode based on determining that the operator is unavailable. The control device may determine, while the lockout mode is enabled, a readiness indicator. The readiness indicator may confirm a readiness of the operator based on determining that the detection signal satisfies a readiness criterion. The control device may disable the lockout mode based on determining that the readiness criterion is satisfied.