Loading, shifting, and staging objects in automated or semi-automated fashion including systems, methods, and apparatuses for the same. The embodiments hereof enable automated and/or semi-automated loading, shifting, organizing, staging, and accessing of objects in different environments, e.g., those associated with a logistics network operation. For example, one such environment is a vehicle. In one aspect, a loading mechanism is used to load objects into a storage space of the vehicle. In another aspect, a shifting mechanism is used to shift objects in a storage space of the vehicle. In another aspect, a door assembly allows for automated opening and closing of a door into a storage space of a vehicle. In addition, methods of manufacturing and using the same are provided.

A shock-absorbing braking device (10) for sliding doors (88) or for wardrobe panels is combined with a carriage (12) provided with rollers (14) sliding in an extruded profile (16), with a bottom base provided with a longitudinally extending slot (18) from which a pin or bolt (20) protrudes suitable to connect said carriage (12) to the sliding door or panel (88). The device comprises a containment shell (24), formed of opposite and complementary elements (28), in which at least one helical spring (26) and a shock-absorbing piston (30) acting in conjunction with a shaped cam (56) are placed, provided with an appendage forming a traction hook (62) suitable to abut with an activator (78) extending in said extruded profile (16). The shaped cam (56) is provided on opposite sides with a pin (64), destined to slide along a mixtilinear cavity (66, 66′) extending longitudinally along the inner face of each of the elements (28) forming the containment shell (24).

A lifter plate assembly for a window of a motor vehicle has a plastic main body. The main body includes a pair of rail guide hooks formed therein. The rail guide hooks are laterally spaced from one another and configured for sliding receipt of window regulator rails therein. A window clamp plate formed of the main body plastic extends in spaced relation from the main body to provide a receptacle configured for receipt of an edge of the window. A fastener assembly includes an elongate threaded member and a nut. The elongate threaded member extends through an opening in the main body and through an opening in the window clamp plate. At least one of the elongate threaded member and the nut is rotatable relative to the other to draw the window clamp plate and the main body toward one another to clamp against the edge of the window.

A vehicle door opening and closing apparatus includes a vehicle door, a rail mounted on a vehicle body having a door aperture, a roller unit mounted on the vehicle door and configured to move along the rail and to allow the vehicle door to open and close in a sliding mode and in a swing mode, a sliding guide extending from a rear edge of the door aperture and extending straightly in a longitudinal direction of the vehicle body, a swing guide bent from the sliding guide toward an interior of the vehicle body, a center roller unit mounted on the vehicle door and guided along the sliding guide and the swing guide, and a variable stopper mechanism covering an exterior-side opening of the swing guide in the sliding mode and uncovering the exterior-side opening of the swing guide in the swing mode.

A vehicle roof has a roof opening system comprising a lid element displaceable between a closed and open position displacement kinematics for displacing the lid, each of the displacement kinematics comprising a guide rail, a first and second kinematic unit guided in a guide rail, and a set of drive cables for the kinematic units, the second kinematic unit comprising a tilting lever, to which a gliding element is pivotably connected on which a guide track of a lid carrier of the lid element is guided when the lid element is displaced. The first kinematic unit is driven via a first drive cable by a first drive motor and the second kinematic unit has a control rod which is hinged to the tilting lever and to a drive slide which is driven via a second drive cable by a second drive motor.

A protection device for a window opening of a motor vehicle, with a window pane shiftable between a closed position closing the window opening and an open position opening the window opening, at least one shading structure shiftable between a window shading position and a window unblocking position, and a cable drive system for driven shifting of the window pane and/or of the shading structure and having a drive and a cable strand movable by the drive. A mechanical coupling arrangement which, depending on the position of the window pane, the shading structure and movement of the cable strand, is transferable between a first coupling state, in which the shading structure is coupled to the cable strand for the driven shifting and the window pane is decoupled therefrom, and a second coupling state, in which the shading structure is decoupled from the cable strand and the window pane is coupled to the cable strand for the driven shifting.

A carriage (10) provided with one or more pairs of wheels (14) for moving sliding door (42) is arranged in a sliding seat (44) of an extruded profile (28), made of aluminium or other suitable material and fixed to a wall (48) or ceiling (54). The extruded profile in which the carriage (10) is arranged comprises opposite side walls (30, 32), oriented orthogonally with respect to the upper base (34) and with respect to the lower base (36) of said profile; on said lower base a central slot (38) extending longitudinally is made for the passage of a stem (40) projecting downwards in the direction of the door (42) to which it is connected. The carriage (10) comprises a support body (12) made of plastic, metal or other suitable material, constituting the load-bearing frame of said carriage to which the pairs of wheels (14) are connected, with rivets (16); each of the wheels is paired with an elastic element (20) placed in a recess (24) made along the opposite sides of the support body (12).

Disclosed herein is a sealing assembly for moving a slidable panel for engagement with and disengagement from sealing means, the sealing assembly comprising a linkage assembly which connects a handle and at least one roller assembly having roller wheels, the sealing assembly being configured to be adjustable, by manipulation of the handle, such that the at least one roller assembly and the slidable panel supported thereby are movable between a first position where the slidable panel is in contact with sealing means thereby providing weatherproofing and a second position where the slidable panel is free of the sealing means and the panel is able to move freely relative to an outer frame, and wherein the linkage assembly is configured to as to provide a variable force through the handle when the at least one roller assembly and supported panel is moved between the first and second positions.

A window regulator assembly for an adjustable windowpane of a motor vehicle has a driver with two driver limbs which are connected via a connecting limb and between which a receiving gap for the windowpane is formed. A first driver limb is being configured for guiding the driver along an adjusting path. It being possible for the second driver limb to be moved elastically with respect to the first driver limb, and the second driver limb has a latching element which protrudes into the receiving gap, engages into a pane-side latching opening during insertion of the windowpane into the receiving gap of the driver, and can be moved out of the pane-side latching opening for dismantling of the windowpane. The driver has a locking element for limiting a pivoting path of the second driver limb during its movement with respect to the first driver limb.

The aim of the invention is to achieve a door closer arrangement (1) where the force needed for opening the door (2) is not so substantial. The invention comprises a door closer (6), a slide rail (7), and an arm (8) that connects the door closer with the slide rail. The arrangement comprises also a second rail (9), which is arranged to form a slide slope for the door closer (6) and the auxiliary spring arrangement.