Disclosed embodiments include automotive vehicles with dual-guide-rail sliding door and dual-guide-rail sliding door systems for automotive vehicles. An illustrative automotive vehicle includes a body of the vehicle; a sliding door movably connected to the body of the vehicle; a front rail connected to a body of the vehicle; a rear rail connected to a body of the vehicle behind rearward of the front rail; a door rail connected to the sliding door; a front arm assembly connected to the sliding door and movably connected to the front rail; and a rear arm assembly movably connected to the rear rail and movably connected to the door rail. The sliding door is movably connected to the body of the vehicle, and a lateral distance travelled by the sliding door along the body of the vehicle from an open position to a closed position is greater than a length of the rear rail.

An X-type guide bar structure includes a lower rail mounted in a longitudinal direction at a lower side of a vehicle body, a lower slider rollably connected to the lower rail, a guide rail mounted on a door in the longitudinal direction of the vehicle body, first and second guide sliders movably connected to the guide rail, and first and second guide bars having guide paths in the longitudinal direction, wherein the first guide bar is rotatably connected to the lower slider and the second guide slider, the second guide bar is rotatably connected to the lower rail and the first guide slider, the first and second guide bars overlap in an X shape so that the guide paths face each other, and a guide pin is inserted into a central portion of the X shape.

An overtravel hinge for a sliding door of a vehicle. The overtravel hinge expands from a collapsed condition, to a partially deployed condition, and to a fully deployed condition. The hinge includes a four bar linkage utilizing an arm to control movement of the overtravel hinge between the collapsed condition and the fully deployed condition. The overtravel hinge, in one embodiment, is used to modify or retrofit a known original equipment manufacturer vehicle.

A structure for preventing opposite sliding doors from swaying is provided. The structure includes a lower rail mounted in a longitudinal direction at a lower side of a vehicle body, a lower rail roller unit rollably connected to the lower rail, a lower rail swing arm rotatably connected to the lower rail roller unit and a door, a guide roller unit fixedly connected to the lower rail, the guide roller unit including a guide roller rotatably connected to the lower rail, and a guide stopper fixedly connected to the door. The guide stopper includes a guide route formed inside the guide stopper and configured to serve as a rolling movement route for the guide roller, an exit/entrance portion formed at a first end of the guide route, and a stop portion formed at a second end of the guide route.

A structure for preventing opposite sliding doors from swaying is provided. The structure includes a lower rail mounted in a longitudinal direction at a lower side of a vehicle body, a lower rail roller unit rollably connected to the lower rail, a lower rail swing arm rotatably connected to the lower rail roller unit and a door, a guide roller unit fixedly connected to the lower rail, the guide roller unit including a guide roller rotatably connected to the lower rail, and a guide stopper fixedly connected to the door. The guide stopper includes a guide route formed inside the guide stopper and configured to serve as a rolling movement route for the guide roller, an exit/entrance portion formed at a first end of the guide route, and a stop portion formed at a second end of the guide route.

A roof system for a vehicle having a roof opening in a roof part thereof, comprises a closure which is movable by an operating mechanism including at least a guide rail extending in a longitudinal direction of the roof system. A slide which is slidable in the guide rail cooperates at least with a closure support. The slide comprises a body and at least two curves provided in the body and each cooperating with at least a cam. The cams are provided on at least the closure support and the curves have such extent that they cross each other between their ends. The curves are arranged in substantially parallel walls of the body of the slide that face away from each other.

A roof system for a vehicle having a roof opening in a roof part thereof, comprises a closure which is movable by an operating mechanism including at least a guide rail extending in a longitudinal direction of the roof system. A slide which is slidable in the guide rail cooperates at least with a closure support. The slide comprises a body and at least two curves provided in the body and each cooperating with at least a cam. The cams are provided on at least the closure support and the curves have such extent that they cross each other between their ends. The curves are arranged in substantially parallel walls of the body of the slide that face away from each other.

A dual lower rail structure for opposite sliding doors is provided. The dual lower rail structure includes a first lower rail mounted in a longitudinal direction at a lower side of a vehicle body, a second lower rail mounted in a longitudinal direction on a vehicle body at one side of the first lower rail, a first lower rail roller unit rollably connected to the first lower rail, a second lower rail roller unit having one end rollably connected to the second lower rail, and the other end connected to a sliding door, and a lower rail swing arm rotatably connected to the first lower rail roller unit and the sliding door.

A dual lower rail structure for opposite sliding doors is provided. The dual lower rail structure includes a first lower rail mounted in a longitudinal direction at a lower side of a vehicle body, a second lower rail mounted in a longitudinal direction on a vehicle body at one side of the first lower rail, a first lower rail roller unit rollably connected to the first lower rail, a second lower rail roller unit having one end rollably connected to the second lower rail, and the other end connected to a sliding door, and a lower rail swing arm rotatably connected to the first lower rail roller unit and the sliding door.

A sliding door mechanism includes a track that is fixed in position relative to a door opening, a post fixed in position relative to the track, and a member that is moveable longitudinally with respect to the track, the member being configured to be guided by the track. The mechanism further includes an arm mounted to the member, the arm rotatable about a vertical axis and configured to be pivotably attached to the sliding door. The arm defines a slot that is configured to receive the post as the door is moved from an open position toward a closed position such that the post urges the arm to rotate relative to the carriage such that the arm transmits a force to the door to urge the door to move laterally into the door opening.