A door hinge apparatus of a vehicle may include a main bracket provided on one side of a vehicle body corresponding to an end portion of a door of the vehicle and having slide slots formed on upper and lower plates, respectively, a slide hinge bracket engaged to the slide slots to be slidable along the slide slots of the main bracket by a link mechanism, and a door hinge bracket Provided on the end portion of the door and pivotally connected to an external end portion of the slide hinge bracket through a hinge shaft.

A vehicle opening and closing body control device includes a full close control unit configured to cause first and second opening and closing bodies that are provided at an opening portion of a vehicle and execute opening and closing operations in opposite directions to execute the closing operations to a fully closed position. The full close control unit is configured to cause the second opening and closing body to execute the closing operation at an operation speed slower than that of the first opening and closing body.

A vehicular slide door apparatus includes a guide rail forming a sliding path. A cutout portion in a side wall portion of the sliding path forms an insertion opening for a guide roller. The apparatus includes a fixing portion at a first end portion in the cutout portion, a positioning portion at a second end portion in the cutout portion, a closing member that includes a fixed end fixed to the fixing portion and a free end positioned by the positioning portion and that closes the insertion opening, and a fulcrum forming portion forming a rotation fulcrum for the closing member. The fulcrum forming portion generates biasing force of displacing the free end outward. The free end is positioned in contact against the positioning portion located on an outer side of the sliding path. Thereby, the free end and the side wall portion form a continuous sliding contact surface.

A delivery vehicle has separate compartments with a common sidewall. Doors that are interchangeable between the compartments close the compartments. A latching assembly between the doors and sidewall limits movement of the sidewall when only one of the doors is closed. The compartments are combined into a single compartment by moving the sidewall when the doors are open. A hinge assembly connects the doors. A contact and wiper assembly between the doors carries power and commands for the hinge assembly.

A shelf or tray for a vehicle which may be an interior trim component of the vehicle is disclosed. The tray includes a wall element and a holding element. The wall element includes a first section and a second section. The first section is at least partially mounted in a first guide device of the holding element. The first section can be latched in a defined manner within the guide device by means of at least one latching element and, by a movement of the first section and/or the second section, thus ensuring a defined opening or closing of the shelf or tray due to the latching of the latching element.

A vehicle includes a first pillar and a second pillar spaced from the first pillar along a vehicle-longitudinal axis. A rotational actuator is disposed at the first pillar. The rotational actuator is fixed relative to the first pillar. A cable is engaged with the rotational actuator and is elongated along the vehicle-longitudinal axis to the second pillar. The cable is moveable to a deployed position by the rotational actuator and is under tension in the deployed position.

A collapsible door frame with an extendable upper and lower fabric cover replaces a factory door for a Jeep or other sport utility vehicle, providing the vehicle for operation with an open door frame with the application of the collapsible door frame and extension of an upper clear and lower fabric covering from a cross-frame member, the upper and lower covering attaching to the collapsible door frame to provide protection from adverse weather conditions.

A mobile delivery apparatus is provided. Another aspect provides a software program used with a mobile delivery apparatus. Still another aspect includes a mobile delivery system utilizing a smart carousel dispenser. An aspect of the mobile delivery apparatus includes a delivery vehicle having a motor operable to drive terrestrial wheels of the delivery vehicle, a cargo box section, a carousel positioned in the cargo box section, and a plurality of storage bins positioned on the carousel. A further aspect includes at least one scanner positioned adjacent a first access door and configured to scan the bins and the parcels held in the bins as the carousel rotates. Yet another aspect employs a controller to rotate the carousel and selectively align one or more of the storage bins with a second access door.

A vehicle includes a frame, and at least one front and rear wheel. The total number of front and rear wheels is at least three. The vehicle includes a mechanism for driving at least one of the front and rear wheels, a seat for a driver, and at least one fall prevention element to prevent, in a closed position of the fall prevention element, a driver from falling off the seat. In an open position of the fall prevention element, a driver can freely take a seat from the outer side of the vehicle via the space which, in the closed position, is occupied by the fall prevention element, or can step out of the vehicle; the fall prevention element slides between the open and closed positions.

An operation input device includes a resistance element to generate a capacitance between an operating medium and the resistance element in response to an approach of the operating medium to the resistance element, and a power source to supply electric charge to one end and the other end of the resistance element. A first electric unit measures a first electric charge transfer amount supplied to the one end of the resistance element in response to generation of the capacitance. A second unit measures a second electric charge transfer amount supplied to the other end of the resistance element in response to generation of the capacitance. A controller is connected to the first and second units, and detects a position of the operating medium in a direction perpendicular to a surface of the resistance element based on a sum of the first and second electric charge transfer amounts.