An interlock mechanism prevents erroneous operation of a vehicle rear seat. The vehicle seat has a seat back rotatably coupled to a seat cushion. The interlock mechanism includes a handle pivot link, a latch pivot link, and an interlock bracket rotatably coupled to a pivot pin. When the seat back is in an upright position, the interlock bracket releasably couples the handle pivot link to the latch pivot link such that rotation of the handle pivot link rotates the latch pivot link causing the cushion latches to be released. When the seat back is folded towards the seat cushion, the interlock bracket is moved to an interlock position decoupling the handle pivot link and the latch pivot link such that rotating the handle pivot link does not rotate the latch pivot link and does not release the cushion latches.

An occupant support includes a vehicle seat mounted to a foundation frame for sliding the vehicle seat longitudinally in a vehicle. The vehicle seat is movable from a slid-back configuration to a forward-seating configuration and may be changed from a horizontal-use configuration to a tilted configuration for easy entry into or exit from a rear row of the vehicle. The vehicle seat may be locked in the tilted configuration.

A side facing seat includes a seat back element and a moveable seat base element disposed below the seat back element. The moveable seat base element is moveable at least between a stored position and a seating position. Movement of the moveable seat base element is controlled by an activation element that is configured to engage with a locking mechanism such that the locking mechanism is able to lock the moveable seat base element in the stored position or the seating position.

A transportation system is disclosed. The transportation system includes a vehicle, a plurality of seating assemblies positioned within a passenger compartment of the vehicle and defining an arrangement, a plurality of actuators that effect movement of various components of the plurality of seating assemblies, a plurality of sensors, and a controller. Specific examples of pre-set or pre-programmed arrangements are disclosed, as well as the ability to customize the arrangement. Additionally, exemplary methods are disclosed that illustrate transitions between a variety of the pre-set or pre-programmed arrangements.

A transportation system is disclosed. The transportation system includes a vehicle, a plurality of seating assemblies positioned within a passenger compartment of the vehicle and defining an arrangement, a plurality of actuators that effect movement of various components of the plurality of seating assemblies, a plurality of sensors, and a controller. Specific examples of pre-set or pre-programmed arrangements are disclosed, as well as the ability to customize the arrangement. Additionally, exemplary methods are disclosed that illustrate transitions between a variety of the pre-set or pre-programmed arrangements.

A hinge arrangement may be used for a vehicle seat bottom to facilitate pivoting of the seat bottom to open a storage area below the seat bottom. The hinge arrangement may include at least one hinge having two plates connected by a pivot pin and a support structure separate from the at least one hinge. The support structure may be positioned adjacent to the at least one hinge to stop the hinge pin or pins from being ejected in the presence of an impact force.

A seat assembly includes a mounting plate and a base frame rotatable mounted on the mounting plate by a swivel mechanism for swiveling the seat assembly between forward-facing and rearward-facing configurations. A seat portion is operably coupled to the base frame and includes a front edge. The seat portion can be pivoted between use and upright non-use positions. The seat assembly includes a first rotational footprint when the seat portion is in the use position and a second rotational footprint that is less than the first rotational footprint when the seat portion is in the upright non-use position. The second rotational footprint is intended to accommodate swiveling of the seat assembly between the forward-facing and rearward-facing configurations within a vehicle interior.

A transportation system is disclosed. The transportation system includes a vehicle, a plurality of seating assemblies positioned within a passenger compartment of the vehicle and defining an arrangement, a plurality of actuators that effect movement of various components of the plurality of seating assemblies, a plurality of sensors, and a controller. Specific examples of pre-set or pre-programmed arrangements are disclosed, as well as the ability to customize the arrangement. Additionally, exemplary methods are disclosed that illustrate transitions between a variety of the pre-set or pre-programmed arrangements.

A side facing seat includes a seat back element and a moveable seat base element disposed below the seat back element. The moveable seat base element is moveable at least between a stored position and a seating position. Movement of the moveable seat base element is controlled by an activation element that is configured to engage with a locking mechanism such that the locking mechanism is able to lock the moveable seat base element in the stored position or the seating position.

A motorized standup utility vehicle having a golf bag mounting system to mount a golf bag. The golf bag mounting system enables the golf bag to swivel in multiple positions (left, right, center) and rotate and tilt between a range of 90 degrees (vertical) to 30 degrees (horizontal) positions. The golf bag mounting system comprises an upper bag support assembly, a lower bag support assembly, a swivel mounting plate, a cradle bracket, a bushing plate and a cylindrical tube which are all connected by connecting bolts. Further bungee cords are used to secure a golf bag to the golf bag mounting system.