A vehicle may include a frame structure, a body mounted to the frame structure, and a door structure defining a first side segment defining a portion of a first side of the vehicle, a second side segment defining a portion of a second side of the vehicle opposite the first side, and a roof segment extending from the first side segment to the second side segment and defining a portion of a top of the vehicle. The vehicle may also include a door mechanism coupled to the door structure and configured to move the door structure between a closed position and an open position, relative to the body.

The present application prevents an engaging pin or a catcher pin from damaging an upper surface of a side sill or a lower surface of a side door when the door is closed, and reduces a height of the side sill over which an occupant steps when getting into a vehicle. A vehicle side structure includes an engaging portion that is at least partially provided between a lower part of a side door and a side sill and provides engagement between the lower part and the side sill. The engaging portion includes an engaging pin provided to protrude from an upper surface of the side sill, and a catcher pin that is provided in the lower part of the side door, receives the engaging pin brought into a space above the lower part of the side door, and engages a tip of the engaging pin.

A vehicle door structure that can displace inward a region directly above a lower end of a door built-in center pillar while preventing displacement of a door lower surface to absorb lateral collision energy immediately after lateral collision is provided. In the vehicle door structure including a door built-in center pillar extending from an upper end to a lower end at a front end in a rear door of a biparting door system, a reinforcement is provided on a door lower surface below the door built-in center pillar, a part of the lower end of the door built-in center pillar is mounted to the reinforcement, and a low rigidity portion having lower rigidity than an upper part the door built-in center pillar is provided directly above the lower end of the door built-in center pillar.

A latch member for full opening includes a latch member for full opening that operates a latch claw into an engagement position or a non-engagement position with a striker. The latch member for full opening is configured of a first member on a sliding door side of a turning shaft, and is configured of a second member operated by the first member on a vehicle body side of the turning shaft.

An assembly for a vehicle includes a first door and a second door movable from an open position to a closed position. The assembly includes a first anchor supported by the first pillar movable along an axis to an engaged position. The assembly includes a first rod supported by the first door movable along an axis to an engaged position. The assembly includes a second rod supported by the second door movable along the axis to an engaged position. The first anchor is lockingly engaged with the first rod when first anchor is in the engaged position. The first rod is lockingly engaged with the second rod when the first rod is in the engaged position and the first anchor is in the engaged position.

An embodiment vehicle door opening/closing system includes an inner panel defining a door open portion of a vehicle, the inner panel including an installation groove having a protruding or recessed shape, a driving device disposed in the installation groove of the inner panel, and a link mechanism installed on a chassis through a rotating shaft, a first end of the link mechanism being connected to the driving device such that power is transferred thereto, and a second end of the link mechanism being connected to a door such that, during driving of the driving device, the link mechanism rotates with reference to the rotating shaft to open/close the door.

An assembly for a vehicle includes a first door and a second door moveable from an open position to a closed position. The assembly includes a first locking member supported by the first door moveable along a first axis to a raised position and to a lowered position. The assembly includes a second locking member supported by the second door movable along a second axis transverse to the first axis. The first locking member is lockingly engaged with the second locking member when the second locking member is in the extended position and the first locking member is in one of the lowered position or the raised position. The first locking member is disengaged with the second locking member when the second locking member is in the retracted position and the first locking member is in the other of the lowered position or the raised position.

An automotive vehicle is provided having a body with an opening without a pillar. First and second doors cover the opening, and a translatable hinge, such as a gooseneck hinge, connects the first door to the vehicle. The hinge is adapted for moving the first door away from the second door, and then allowing the first door to pivot to an open position about a single pivot axis. A striker is adapted for allowing a latch for latching the first door to move along the striker in a latched condition during translation of the hinge, and may include an elongated, angled striker bar for permitting the first door to move both along and outboard of the vehicle body during the opening sequence.

A boarding and alighting step-mounted vehicle includes an entrance provided in a vehicle side portion, a sliding door having two door portions for opening and closing the getting-on/off port by sliding in directions opposite to each other in the vehicle front-rear direction, and a step body having a step body for allowing an occupant to step when getting on and off the vehicle. The step is switchable between the use state and the closed state by rotating the vehicle lower portion on the entrance side as a pivot axis. In the use state of the step, the step body is in a posture deployed outward of the vehicle. In the closed state of the step, the step body is closed on the vehicle side and is in a posture facing the sliding door.

A side body vehicle structure is disclosed that has a pair of left and right side sills and opposite swing type side doors. The side sills may have an upper flange portion facing the rear door in the vehicle width direction which functions as a rear door facing part, and the upper flange portion of a more forward part of the vehicle than the rear door facing part may function as a front door facing part. The rear door facing part may be formed in a shape having a length in the vehicle vertical direction longer than a length in a vehicle vertical direction of the front door facing part. In a vertical cross section along the vehicle width direction, a gusset member may form a closed cross section with the side sill inner member, and an upper end thereof may be joined to the rear door facing part.