A mirror camera system includes a camera fixed to a top of a convertible roof of a vehicle and positioned to capture image data of a scene rear of the vehicle, and a rearview mirror with an integrated display connected to the camera. The mirror camera system is switchable between a camera mode, which shows the image data captured by the camera on the integrated display, and a standard mirror mode, which shows an environment behind the vehicle on a semitransparent reflective surface of the rearview mirror. The rearview mirror includes an electronic control unit that is configured to analyze the image data output from the camera to determine a luminance value of the scene, and further configured to send a signal to switch the mirror camera system from the camera mode to the standard mirror mode when the luminance value of the scene is within a predetermined threshold range.

A sunroof apparatus for an automotive vehicle having a roof is disclosed. The sunroof apparatus includes a movable panel, a pair of guide rails extending along a length direction of the vehicle, a housing mounted to the roof and supporting the movable panel, and tubes. The housing is a split housing structure including a first housing panel and a second housing panel. A first pair of tubes are connected in a slideable manner to the first housing panel and a second pair of tubes are connected in a slideable manner to the second housing panel. The first housing panel and the second housing panel are moved by sliding them along the tubes away from each other to align outer edges of the first housing panel and the second housing panel with respective guide rails.

A retractable cover system includes laterally spaced apart guide rails that define an opening and each provide a track. The system further includes a cover that has multiple slats that are configured to interlock with one another in a deployed configuration. The slats cooperate with the drive assembly and are slidable in the tracks between first and second positions within the opening in response to actuation of the drive assembly. The slats are stacked onto one another in a stowed configuration. The system further includes a follower that supports the slats. The system further includes a spring-biased pulley system that is configured to cooperate with the follower and biases the slats toward the tracks.

A case 31 has a total of first to sixth flat parts 32A to 32F arranged in a circumferential direction of the case 31 and a total of first to sixth arced parts 32a to 32f connecting adjacent flat parts with each other. When viewed in an axial direction of a shaft 44, inner circumferential surfaces CF of the first to sixth arced parts 32a to 32f are each formed in an arced shape having a radius R1 and a center AC of the case 31 as the center. In addition, since the stator 35 is only supported by the inner circumferential surfaces CF (six in total), the press-fit load of the stator 35 with respect to the case 31 can be reduced, and it is possible to increase the assembling accuracy.

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 bearing and drive device for an adjustable cover of a vehicle roof, which may have a guide rail on which the cover is movably mounted by a bearing unit that can be actuated by means of a drive cable, having a cable guide unit that can be coupled to the guide rail at the front or back end thereof, and that has at least one intermediate cable guide for the drive cable anda guide track for the bearing unit.

An opening and closing mechanism includes a connecting member and a sliding member. A movable panel of a sunroof device is fastened to the connecting member which has a plate-type connecting member main body extending in a front-rear direction, and a thickness direction of the connecting member main body coincides with a width direction. The connecting member main body is formed with a through hole which goes through the connecting member main body in the width direction and extends along the specified curve in the front-rear direction. The sliding member has a sliding member main body formed by sheet metal, the sliding member main body includes a pair of vertical walls and a connecting wall which connects upper ends of the vertical walls, and the connecting wall engages with and slides in the through hole so the connecting member inclines in an up-down direction or moves in the front-rear direction.

A roof system comprises a panel movable between closed and open positions. An operating mechanism comprises front and rear devices. A slide moves the panel both in vertical and horizontal directions via the front and rear devices. At least one of the front and rear devices comprises a lever connected to the slide or the stationary rail through a second pivot pin. A first guide cam is at least partly in engagement with either a stationary guide and/or a curve in the slide. The slide includes a first and second slide part are pivotally connected to each other. One of the slide parts, that is pivotally and slidably connected to said lever, includes a cam engaging a guide curve in the stationary guide rail to force said one slide part to pivot with respect to the other slide part during at least a part of the sliding movement of the slide.

A sunroof device includes: a guide rail provided on each edge portion of an opening formed in a roof of a vehicle in a width direction; a sliding member supported on the guide rail so as to be slidable in a longitudinal direction of the vehicle; and a support member provided with a first elastic member and having a front end portion supported on the guide rail so as to be rotatable and slidable in the longitudinal direction of the vehicle, the support member supporting a movable panel that opens and closes the opening, in which the sliding member includes a bottom wall located above the guide rail, a vertical wall provided upright on the bottom wall, and an engaging portion provided on the vertical wall, the support member includes a guide portion engaged with the engaging portion, and the guide portion including first and second guide portions.

A manufacturing method of a sunroof apparatus includes a panel drive unit including a first guide rail arranged at each end portion of a roof opening portion, a panel support member configured to displace a movable panel to open and close the roof opening portion in accordance with a movement of a first moving portion, and a shade unit including a second guide rail arranged inward relative to the first guide rail in the vehicle width direction. The first guide rail and the second guide rail are separately provided. The manufacturing method of the sunroof apparatus includes a first process connecting the movable panel to the panel support member, and a second process connecting the first guide rail and the second guide rail to the movable panel after the first process.