A reversible seat assembly for use in an automotive vehicle has an inboard seat riser, an outboard seat riser, a seat cushion, a seat back, a plurality of inboard reversing links, a plurality of outboard reversing links, a plurality of inboard strikers coupled to the inboard seat riser and a plurality of outboard strikers coupled to the outboard seat riser. The seat cushion is coupled to the inboard and outboard seat risers, and extends between a front end and a rear end. The seat back comprises an inboard latch bracket and an outboard latch bracket. The plurality of inboard reversing links extend between an upper end pivotally coupled to the inboard latch bracket and a lower end pivotally coupled to the inboard seat riser, and the plurality of outboard reversing links extend between an upper end pivotally coupled to the outboard latch bracket and a lower end pivotally coupled to the outboard seat riser. When the seat back is adjacent the rear end of the seat cushion, the inboard latch bracket engages the plurality of inboard strikers and the outboard latch bracket engages the plurality of outboard strikers.

An improved armrest is provided for a reversible seat that is movable between a forward-facing position and a rearward-facing position. The armrest is rotatably mounted to the seat assembly so as to be rotatable downwardly to a fully deployed position or upwardly to a neutral, stowed position. The armrest may project forwardly in a first deployed position or rearwardly in a second deployed position depending upon whether the seat is in the forward-facing or rearward-facing positions. The seat is reversible from the forward-facing position to the rearward-facing position, or vice versa, wherein the armrest automatically returns to the neutral, stowed position as the seat is moved between these positions.

An aircraft passenger seat including decoupled seat back and seat bottom elements configured to be selectively positioned with respect to spaced seat elements to allow the seat to be used for seating or storage as desired. The passenger seat is convertible by repositioning the seat back and seat bottom elements to provide conventional forward-facing seating, face-to-face seating with a longitudinally aligned and adjacent seat, or seat storage as desired. The seat back and seat bottom elements track along a track assembly affixed along facing inboard sides of fixed seat elements such as arm rest assemblies.

A reversible seat for an automotive vehicle having a head restraint which rotates between a forward-facing position and a rearward-facing position as the seat is moved between the forward-facing position and the rearward-facing position. The head restraint folds towards the seat back as the reversible seat passes through the peak of its locus to increase clearance with a headliner of the automotive vehicle. The head restraint returns to an upright rotated position as the seat reaches the opposing position.

A deployable driver station including a seat utilizing both a front-facing driver seat bottom and a coupled rear-facing passenger seat bottom. In a driver configuration, the driver seat bottom is used in a conventional manner, being disposed behind the steering wheel or other steering control and the interior panel, while the passenger seat bottom is disposed more centrally within the passenger compartment. In a passenger configuration, the passenger seat bottom is used like the adjacent rear-facing passenger seat bottom(s), when used, while the driver seat bottom is disposed under the interior panel such that it does not take up space in the passenger compartment. Likewise, the steering wheel or other steering control is disposed under the interior panel. A common two-sided pivoting seat back is alternately used for the driver seat or the passenger seat by pivoting to an appropriate angle for the configuration.

There is provided a vehicle seat, including: a first support configuration section that includes a first cover; a second support configuration section that is disposed adjacent to the first support configuration section, and that includes a second cover; a double hinge that couples the first support configuration section and the second support configuration section together; an intermediate shutter that is disposed along a space between the first cover and the second cover; a first shutter that blocks a gap formed between the first cover and the intermediate shutter accompanying relative displacement between the first support configuration section and the second support configuration section; and a second shutter that blocks a gap formed between the second cover and the intermediate shutter accompanying relative displacement between the first support configuration section and the second support configuration section.

A reversible seat for a vehicle includes a seat structure, a support, and a pivot. The support has a slot formed therein, and the slot has an arcuate shape over a portion of the slot. The pivot is connected to the seat structure and engaged with the slot. The seat structure is configured to move from a first orientation to a second orientation by moving the pivot from a first end of the slot towards a second end of the slot and rotating the seat structure about a pivot axis of the pivot. The seat structure is also configured to move from the second orientation to the first orientation by moving the pivot from the second end of the slot towards the first end of the slot and rotating the seat structure about the pivot axis of the pivot.

A seating system comprises a plurality of seating assemblies having first and second-row seating assemblies. Each seating assembly includes a cradle pivotally coupled to a seat base and to a seatback. The seat base is movable between first and second positions. The seating assembly includes a base having first and second supports and a swivel plate assembly including first and second frames. The first frame is coupled to the cradle, and the second frame is coupled to the base. The swivel plate assembly includes first and second swivel plates, the first swivel plate coupled to the first frame and the second swivel plate coupled to the second frame. The first swivel plate is configured to allow the cradle to rotate between first and second positions relative to the base. The seating system includes a track assembly. The first and second supports of the base are slidably coupled to the track assembly.

A deployable driver station including a seat utilizing both a front-facing driver seat bottom and a coupled rear-facing passenger seat bottom. In a driver configuration, the driver seat bottom is used in a conventional manner, being disposed behind the steering wheel or other steering control and the interior panel, while the passenger seat bottom is disposed more centrally within the passenger compartment. In a passenger configuration, the passenger seat bottom is used like the adjacent rear-facing passenger seat bottom(s), when used, while the driver seat bottom is disposed under the interior panel such that it does not take up space in the passenger compartment. Likewise, the steering wheel or other steering control is disposed under the interior panel. A common two-sided pivoting seat back is alternately used for the driver seat or the passenger seat by pivoting to an appropriate angle for the configuration.

A seat has a seat surface element and a first backrest element. The first backrest element can be pivoted from a use position into a stowed position under the seat surface element. The first backrest element can be pivoted under the seat surface element in a guided or optionally in a forcibly guided manner.