A vehicle roof having a roof opening system having a cover element which is displaceable between a closed position, in which a roof opening is closed, and an open position, in which the roof opening is open; displacement kinematics for displacing the cover element on either side of a vertical longitudinal center roof plane, each displacement kinematics may have a guide rail, a first kinematic unit guided in the guide rail, and a second kinematic unit guided in the guide rail; and a set of drive cables for the two kinematic units, the first kinematic unit may have a first deploying lever which is adjustable between a raised position and a lowered position, and the second kinematic unit may have a second deploying lever. The first kinematic unit has a securing slide which is guided in the guide rail and secures the first deploying lever in its lowered position.

A vehicle includes a roof panel assembly and a sunroof glass panel. The roof panel assembly defines an opening. The sunroof glass panel has an arm extending from a side thereof. The sunroof glass panel is configured to cover the opening in the roof panel assembly and operable between a closed position, an open position, and a tilted position. The arm extends outwardly past a periphery of the opening in the roof panel assembly. The arm is configured to engage the roof panel assembly to restrict movement of the sunroof glass panel relative to the roof panel assembly.

A non-motorized panoramic retractable hard panel roof, desirable for most sport vehicle owners is disclosed. A manually operated, rear retractable hard panel roof assembly is capable of being manually opened and closed without a need to leave the driver compartment. The present design is a semi-permanent driver compartment enclosure, easy to install and remove by the driver without requiring any outside assistance, and one that can easily be modified from the factory roof panels to the configuration of the present invention, as well as being easily changed back to the original configuration from the factory. Because it is semi-permanent, the roof panel does not need to be removed, thereby alleviating any need to store the panel away from the vehicle. The present retractable assembly can easily be attached to the vehicle without interrupting any of the original functionality of the vehicle, and without the need for any special tools. By relatively simple attachments, the roof panel assembly may be used to attach it to the vehicle without any need to modify the original factory vehicle roof.

A sliding roof system is shown having a pair of guide rails, a slide in each guide rail, the slide being displaceably mounted therein, a functional component which is displaceably received in the guide rail and can be fixed in a raised position by means of a latching hook, the latching hook being shiftable between a release position and a latching position, the latching hook when in the latching position engaging in an opening of the guide rail, and a cover which can be opened from a closed position by displacement of the slide, a retaining lever being provided which can mechanically hold the latching hook in the latching position, wherein the retaining lever is adapted to be pivoted about a pivot pin between the release position and the retaining position.

A structure, for example a vehicle roof, may define an opening receiving one or more removable panels. The removable panels may each include a panel body configured to cover the opening, and a plurality of latches. The latches may each be positioned adjacent a respective edge of the body and configured to translate between different positions. The removable panel may also include an actuator and a plurality of latch links, with each latch link having a first end connected to a corresponding one of the latches, and each latch link having a second end operably linked with the actuator. Rotation of the actuator may drive each of the latches from an open position of the latch to a closed position, while rotation of the actuator in an opposite direction may drive each of the latches from the closed position of the latch to the open position of the latch.

An assembly for a vehicle roof cover, wherein the cover can be moved from a closed position for closing a roof opening into an open position for at least partially releasing the roof opening. The assembly may have: a cover carrier for carrying the cover, a positionally fixed guide rail, and a carriage mounted so as to be displaceable in the guide rail along an opening direction. The cover carrier has a positionally fixed slotted guide to which the carriage may be coupled in the closed position, such that a deployment of the cover along a vertical direction (Z direction) is blocked in the closed position. The cover carrier has a locking apparatus configured so that a movement of the cover carrier along the vertical direction (Z direction) is limited in the closed position.

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 structure, for example a vehicle roof, may define an opening receiving one or more removable panels. The removable panels may each include a panel body configured to cover the opening, and a plurality of latches. The latches may each be positioned adjacent a respective edge of the body and configured to translate between different positions. The removable panel may also include an actuator and a plurality of latch links, with each latch link having a first end connected to a corresponding one of the latches, and each latch link having a second end operably linked with the actuator. Rotation of the actuator may drive each of the latches from an open position of the latch to a closed position, while rotation of the actuator in an opposite direction may drive each of the latches from the closed position of the latch to the open position of the latch.

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.

An assembly for a sunroof can include a rail extending in a length direction of a vehicle, a bracket beneath a sunroof panel, an adapter coupled to the bracket, and a drive mechanism connected to a part of the bracket. Movement of the drive mechanism along the rail moves the bracket between a first position in which the sunroof is closed and a second position in which the sunroof is open. A catch device can slide along the rail relative to the adapter and includes a channel extending through a structure of the catch device to receive the adapter when the bracket is in the first position. When the adapter is in the channel, the structure is configured to engage the adapter to maintain the bracket in the first position and resist deflection of the bracket.