A vehicle roof having a cover which is movably mounted on the vehicle roof by a bearing mechanism and is adjustable between a closed and a ventilation position in which at least the rear cover edge is raised, the cover being adjustable by the bearing mechanism in such a way that, in the closed position of the cover, the rear cover edge assumes a defined vertical position relative to a roof area portion which adjoins the roof opening or the cover in the region of the rear cover edge, wherein, according to the invention, the cover in its closed position rests on at least one supporting element which is held fixedly on the roof side in a position central with respect to the roof opening and below the rear cover edge and which supporting element holds the cover in its defined vertical position relative to the roof area portion.

A sliding roof system for a motor vehicle comprises a front lifting mechanism and a rear lifting mechanism which are assigned to a front and a rear edge respectively of a cover of the sliding roof system, as well as a connecting element which is arranged between the front and the rear lifting mechanisms. The rear lifting mechanism includes a lifting carriage with at least one lifting slotted guide, a lifting lever which is pivotably attached with one end to a fixed bearing and the other end of which has a guide element for the cover, and a translating lever which is pivotably connected to the lifting lever between its ends, wherein the translating lever is coupled to the lifting carriage by means of two sliders.

Sunroof drive apparatus and related sunroof assemblies for use with vehicles are disclosed. A disclosed assembly includes a sunroof panel, a rail, a guide block attached to part of the rail, a bracket beneath the sunroof panel, a link in the rail removably connected to the guide block, and a drive shoe in the rail slidably coupled to the link. The drive shoe includes first and second slots to receive respective first and second pins of the link. The link can rotate about a rotation axis from a first orientation in which the link is inseparable from the guide block to a target orientation in which the link is separable from the guide block. When the first pin enters a locking area at an end of the first slot, the drive shoe imparts one or more loads on the first pin that urge the link into the target orientation.

A panel for use in an open roof construction for a vehicle comprises a substantially rectangular panel main body made of transparent material, and at least one elongated reinforcing bracket positioned at least partly in the vicinity of an edge of said panel main body and firmly connected thereto. The panel bracket is made of a material which is thinner than that of the material of the panel main body and includes a structure to fix the reinforcing bracket to an operating mechanism configured to support the panel and control movements thereof. The edge of the panel main body comprises at least an inward recess and the reinforcing bracket comprises at least an upward step into the recess. The upward step extends along at least a portion of the recess and is dimensioned to accommodate a part of the operating mechanism under it.

An open roof construction for use in a vehicle includes, at least one movable element, movable along a stationary guide extending underneath opposite lateral edges of a roof opening. A drive motor drives the movable element, where a drive cable at least partly guided in the stationary guide connects between the drive motor and the movable element. The drive cable is guided in a channel in the stationary guide. The drive cable includes, connected at one end, a drive cable plate. The cable plate connects with the movable element, the cable plate being slidably engaged with at least one wall of the stationary guide, wherein the cable plate further includes at least one separate slide shoe slidably engaging the at least one wall of the stationary guide. The slide shoe is capable of biasing the drive cable plate with respect to the at least one wall of the stationary guide.

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 vehicle includes a roof opening, a front window that is located forward from the roof opening, and a rear window that is located rearward from the roof opening. The vehicle also includes a first panel and a second panel. The first panel and the second panel obstruct the roof opening in a closed position and are movable to an open position in which the first panel is positioned adjacent to an exterior surface of the front window and the second panel is positioned adjacent to an exterior surface of the rear window.

A wind deflector assembly includes a flexible wind deflecting material attached by a lower connecting part to a stationary part and by an upper connecting part to an upper elongate member to keep the flexible wind deflecting material taut in at least an effective position. The flexible wind deflecting material comprises a frontal part extending substantially along the front of a roof opening and further a lateral part extending from the frontal part to an end part of the flexible wind deflecting material near a hinge member. The flexible wind deflecting material comprises a first area having a first weaving density and at least a second area having a second weaving density. The second area is shaped as a strip and extends at least partly in the frontal part and in the lateral part and is bound by flexible wind deflecting material having a different weaving density.

An open roof construction for a vehicle comprises a panel for a roof opening and a wind deflector assembly positioned at the front edge of the roof opening. The wind deflector assembly is provided with a substantially rigid upper frame member extending at least along the front edge. A flexible member connects with an upper edge to said upper frame member and with a lower edge to a stationary part. The upper frame member is movable by an operating mechanism between a lower, inactive position and at least two upper, active positions. Tensioning members keep the flexible member taut over in all active positions, and is provided with a substantially rigid, elongate lower frame member at its lower edge. The lower frame member connects to the stationary part through the tensioning members having a maximum tension force which is substantially lower than a maximum operating force of the operating mechanism.

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.