Described are recliner sofa systems for a passenger seat. The passenger seat includes a seat back assembly and a seat base assembly. The seat back assembly includes an upper back support and a lower back support, and the lower back support is movable relative to the upper back support between a stowed position and a deployed position. The seat base assembly includes a support and a seat base, and the seat base is movable relative to the support between a stowed position and a deployed position. The seat base in the deployed position and the lower back support in the deployed position together define a foot cavity configured to receive a foot of a passenger.

A vehicle seat structure including: a seat cushion on which a vehicle occupant sits; a seat back that supports a back portion of the vehicle occupant while sitting on the seat cushion in a seat deployed state, the seat deployed state being a state in which the vehicle occupant is able to sit on the seat cushion; and a seat deploying/retracting mechanism that enables the seat cushion and the seat back to slide in a vehicle up-down direction, and that, in a seat retracted state in which the seat cushion and the seat back are retracted, enables the seat cushion and the seat back to be placed in the vehicle up-down direction such that the seat cushion stands upright, and the seat back is placed at an upper side of the seat cushion.

A modular vehicle seating system includes a vehicle body (70, 72) with vehicle interior connection features (60, 62, 64) and a modular vehicle seating insert. The seating insert comprises a shell structure (10. 10, 10) to be received within the vehicle body. The shell structure has a vehicle body facing surface and a vehicle interior facing surface, wherein the vehicle interior facing surface defines seat module receiving portions (12, 14). Vehicle connection features (80, 82, 84) are operatively provided at a side of the vehicle body facing surface of the shell structure for cooperation with the vehicle interior connection features to fix the shell structure to the vehicle body. Seat module connection features (40) are associated with each of the seat module receiving portions. The system further includes one or more seat module (90), each with a seat base (94) and a seat clamping connector (91, 92, 92).

A bus structure, optionally an electric bus structure for one hundred passengers or more. The bus structure includes: a passenger compartment, a side wall with a vertical post and delimiting the passenger compartment, a horizontal support, a vertical handleor stanchionalong the vertical post and projecting from the horizontal support, a strut projecting from the vertical post to the horizontal support, and a floor structure of reduced thickness. The strut defines a triangle with the wheel housing and the vertical post. The strut is straight or curved.

An electric bus exhibiting a seat arrangement. The electric bus includes a side wall, a wheel with an electric engine disposed in the rim, a seat with a seat base and a leg area. The leg area is below the seat base and vertically level with the wheel. The electric bus also includes an electric energy storing device powering the electric engine of the wheel and arranged transversally between the side wall and the leg area of the seat.

An articulated electric bus includes two units with: a passenger compartment including a main floor forming a low and thin platform with a planar surface extending over the majority of the width of the passenger compartment, a wheel housing adjacent to the planar surface, a longitudinal row of seat places on the wheel housing, and a driving wheel which is housed in the wheel housing under the longitudinal row of seats. The driving wheel defines a rotation axis and includes an electric engine, and a rim with a rim top above the planar surface. The driving wheel is vertically movable with respect to the planar surface, and the wheel housing actually receives a pair or a couple of driving wheels.

A bus occupancy check safety apparatus kit for confirming seats are not occupied includes a seat occupancy cover belt system comprising a rear mount configured to be coupled to a rear of a bus. A belt has a back end coupled to the rear mount and a front end coupled to a male buckle. A front mount is coupled to a front of the bus and to a female buckle that is selectively engageable with the male buckle. The belt is drawn across a plurality of seats within the bus to engage the male buckle with the female buckle. A seat occupancy window indicator comprises a suction cup, a pull nub, and a sign having a lettered side displaying a message.

A motor vehicle multi-function mounting apparatus is disclosed comprising a support pedestal and a two part quick release mounting assembly for selectively attaching one of a selection of differing objects to an upper end of the support pedestal.

An occupant support device (OSD) for a seat, comprises a flexible membrane having a first end and a second end. The flexible membrane is coupleable to a seat proximate the first end and the second end of the flexible membrane. The OSD further comprises at least one stiffening member for stiffening the flexible membrane. The at least one stiffening member is positionable so that the flexible membrane is generally stiffer in a longitudinal direction than in a transverse direction. A seat comprising the OSD, an array of seats comprising the OSD and an aircraft comprising the OSD are also provided.

A system, method and apparatus for a transit seating system including multiple seat frames, each seat frame including, at least one forward support and at least one rearward support. The at least one forward support and the at least one rearward support are capable of being detachably secured to a transit vehicle floor. A seat back height track system is vertically and slideably coupled to the seat frame. A seat back subframe is coupled to the seat back height track system. A seat base frame is coupled to the seat back height track system through a seat hinge. The at least one forward support is capable of overlapping the at least one rearward support when at least two of the seat frames are in a nested or fully compressed or stowed configuration.