An open roof construction for a vehicle having a roof opening in a roof part, comprising a panel, and a first device for moving the rear side of the panel towards a raised position relative to the closed position and above an adjoining roof part. The control slide and the lifting member are guided by a guide rail having grooves and extending in longitudinal direction alongside the opening and below the adjoining roof part. A support lever cooperates with the control slide and supports the panel in positions in which it is above the adjoining roof part. The support lever is guided in the guide rail and is adapted to also pass through the passage opening. The support lever takes over support of the panel from an intermediate guide connection of the lifting lever and the intermediate guide connection is then disengaged from the guide curve in the control slide.

A drive system including a guide rail arrangement fixed to a roof module, a drive slide, a front-side lifting arrangement, a rear-side extension mechanism, and a profiled support part. The lifting arrangement and the extension mechanism interact with the profiled support part such that the profiled support part is guided in a force-controlled manner between a closed, ventilating and open positions of the roof part. The coupling device end region remote from the extension mechanism has a coupling slide which is guided in the guide rail arrangement and which comprises a blocking element that can be moved in the vertical direction. A stationary latch recess is provided in the guide rail arrangement, and the drive slide has a receiving area. Depending on the position of the drive slide, the blocking element is moved into the latch recess or into the receiving area in a force-controlled manner by mechanical control contours.

A roof system comprises a stationary part configured to be attached to a fixed roof and includes guide rails on opposite sides of a roof opening. The guide rails slidably support an operating mechanism for a panel and include guide grooves bordered by guide flanges. The operating mechanism includes a driving slide for a panel front support, and a panel rear support. The rear support is connected to a panel bracket guide of a panel bracket extending alongside a corresponding edge of the panel. The panel bracket guide slidably engages the rear support so as to enable the panel to slide with respect to the rear support when the front support is driven by the driving slide. The front support engages a guide rail groove of an upright flange of each guide rail while the panel bracket guide extends mainly on the other, inner side of said upright flange.

A silenced guide rail includes a guide rail body, a guide block, and a slideway. The guide rail body includes a beam piece, and the beam piece includes an abutting end. The guide block is connected to one end of the guide rail body, and the guide block includes a docking strip. The docking strip includes a corresponding abutting end corresponding to the abutting end. The abutting end includes a short side and a bevel. A shape of the corresponding abutting end corresponds to a shape formed by the short side and the bevel. The slideway is formed on the beam piece and the docking strip. Therefore, the present disclosure reduces an abnormal noise generated when a guide post passes through a connection between the guide rail body and the guide block, and an effect of eliminating all or most of the abnormal noise may be achieved.

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 sunroof device includes a rear link that slides along a longitudinal direction of a guide rail in conjunction with a slide member and moves up and down a rear end side of a movable panel by tilting in conjunction with the sliding of the slide member. Further, the rear link is provided with an engaging protrusion protruding in a width direction of the guide rail, and the guide rail is provided with a link engaging portion that regulates, by arranging the engaging protrusion inside, tilting of the rear link in a rising direction. The link engaging portion includes an upwardly opened cutout portion provided in the guide rail, and a metallic engaging bracket having an upper wall portion covering a topside of the cutout portion by being fixed to the guide rail. The engaging protrusion includes a metallic shaft body, and a resin layer covering the shaft body.

A roof system includes a closure panel that opens a roof opening in which it is positioned partially above a portion of a roof. An operating mechanism includes a front device having a lever for moving the front edge of the panel in a vertical direction. The lever is pivotally connected to a driving slide that has a cam partly in engagement with a stationary guide curve and is in engagement with the panel through a pin-curve assembly. A curve of the pin-curve assembly has a guiding curve extending allowing a corresponding pin to slide along it to move the front of the panel at least in vertical direction when the lever is driven by the driving slide. A locking curve extends mainly vertically when a pin is positioned in the locking curve in order to allow the driving slide to slide the panel in longitudinal direction.

To provide a sunroof device with a simple structure, in which an elastic member can be disposed in a predetermined position accurately and with excellent workability, a sunroof device includes a plate-shaped panel stay having a cam groove on a first side surface and a slider provided with a cam follower pin engaging with the cam groove to cause the movable roof panel to tilt. The slider includes a slider main body having a pin support wall that supports the cam follower pin in a cantilever manner and a contact member mounted to the slider main body so as to slidably contact a second side surface of the panel stay. The contact member includes an extension part opposing a bottom surface of the panel stay, and an elastic member that elastically supports the panel stay when the movable roof panel undergoes opening and closing motion is provided on the extension part.

An assembly for moving a vehicle roof cover may have a mechanical component coupled to the cover; a carriage guided in a guide rail; and a deployment element which is extended in an elongate manner along a longitudinal axis. The mechanical component may be coupled to the deployment element at a first end of said deployment element, to transmit a movement of the carriage along a longitudinal direction in sections to the mechanical component. A locking pin may be arranged at a second end of the deployment element; the locking pin can be rotated about the longitudinal axis of the deployment element, movable between a first state and a second state, wherein the deployment element is locked in the first state preventing movement along the longitudinal direction relative to the carriage, and is locked in the second state preventing movement along the longitudinal direction relative to the guide rail.

In a guide assembly for an open-roof system of a vehicle, a closure member selectively covers or at least partly uncovers an opening in a vehicle roof. The assembly comprises a guide extending in a longitudinal direction of the vehicle; a mounting element for mounting the closure member; a first support mechanism operatively coupled to the mounting element, the first support mechanism slidably supporting the mounting element in the guide; and a second support mechanism coupled to the guide and comprising a support element slidably supporting the mounting element, the second support mechanism being configured for moving the mounting element to a tilted position, a tilt direction being substantially perpendicular to the longitudinal direction. The assembly is provided with a release mechanism for releasing the mounting element from at least one of the first support mechanism and the second support mechanism and for remounting the mounting element.