A mounting package includes a sunroof assembly, a roof crossbeam, and a hanger hanging the roof crossbeam underneath the sunroof assembly. The sunroof assembly includes a guiderail. The hanger includes a lower hook hooked with the roof crossbeam, and an upper hook hooked with the guiderail. The hanger is configured to flexibly accommodate multidirectional movement of the roof crossbeam relative to the guiderail. The multidirectional movement includes lifting movement of the roof crossbeam relative to the guiderail.

A mounting package includes a sunroof assembly, a roof crossbeam, and a hanger hanging the roof crossbeam underneath the sunroof assembly. The sunroof assembly includes a guiderail. The hanger includes a lower hook hooked with the roof crossbeam, and an upper hook hooked with the guiderail. The hanger is configured to flexibly accommodate multidirectional movement of the roof crossbeam relative to the guiderail. The multidirectional movement includes lifting movement of the roof crossbeam relative to the guiderail.

A support mechanism for an open-roof assembly, comprising a moveable panel, comprises at least one of a front flexible portion and a rear flexible portion. A guide assembly of the open-roof assembly comprises an elongated guide rail extending in a longitudinal direction, a front mechanism slideably arranged in the guide rail and a rear mechanism arranged in the guide rail. The front mechanism and the rear mechanism are provided with means for providing a relatively high mechanism stiffness, while the at least one of the front and rear flexible portions is provided with a relatively low bending stiffness in the width direction and with a relatively low rotational stiffness in respective main directions such that orientation deviations between the panel support assembly and the guide assembly result in larger rotational deformation in the at least one of the respective flexible portions than in the respective mechanisms.

In a sunroof device, each support member and each driving shoe include a pressing portion and an elastic body, respectively, that, when the driving shoe moves from a first position toward a second position, come close to each other and, when the driving shoe is positioned between the second position and a third position, come into contact with each other. When the driving shoe is positioned between the second position and the third position, the pressing portion presses the elastic body in a direction perpendicular to a width direction. A length in the width direction of the elastic body is longer than the pressing portion.

A lifting guide mechanism for a sunroof device that can be reduced in weight, thickness, and cost is provided. A second rear guide pin (27) is provided behind and above a first rear guide pin (26) which can be received in a guide groove (34). A first upper wall (32) is formed with a rear opening part (36) to allow the first rear guide pin (26) to get in and out of the guide groove (34). A first rear lifting guide member (39) is provided on the first upper wall (32) so as to project upward at rear of the rear opening part (36) to guide the second rear guide pin (27) when a movement of a movable panel (11) is switched between sliding and tilting. This eliminates the need for a member for guiding the first rear guide pin (26) in the guide groove (34), and thus, the panel guide rail (14) may have a single-level structure.

A lifting guide mechanism for a sunroof device that can be reduced in weight, thickness, and cost is provided. A second rear guide pin (27) is provided behind and above a first rear guide pin (26) which can be received in a guide groove (34). A first upper wall (32) is formed with a rear opening part (36) to allow the first rear guide pin (26) to get in and out of the guide groove (34). A first rear lifting guide member (39) is provided on the first upper wall (32) so as to project upward at rear of the rear opening part (36) to guide the second rear guide pin (27) when a movement of a movable panel (11) is switched between sliding and tilting. This eliminates the need for a member for guiding the first rear guide pin (26) in the guide groove (34), and thus, the panel guide rail (14) may have a single-level structure.

An extra part draw-in mechanism includes a central axis having a winding face for the flat cable on its outer circumferential face, a rotary body arranged around the central axis and rotatably supported with the central axis at a center of the rotary body, an urging member that urges the rotary body in a winding direction of the flat cable, and a slit that is formed in the central axis and has an opening in the winding face of the central axis to accept and hold the flat cable. The opening of the slit in the winding face of the central axis is curved along a winding direction.

Drive link apparatus for use with vehicle sunroofs are disclosed herein. An example assembly for a vehicle sunroof includes a drive shoe. The drive shoe is movable along a rail and includes a ramp portion positioned thereon. The assembly also includes a drive link that is rotatably coupled to the drive shoe and supports a panel. The drive link includes a guide portion that is positioned thereon and configured to slidably engage the ramp portion to prevent the drive link from rotating during a sunroof operation. The guide portion includes an extension that is positioned thereon and interposed between the drive shoe and a guide block. The extension is configured to slidably engage the drive shoe, the ramp portion, or the guide block to prevent the drive link from twisting during the sunroof operation.

Drive link apparatus for use with vehicle sunroofs are disclosed herein. An example assembly for a vehicle sunroof includes a drive shoe. The drive shoe is movable along a rail and includes a ramp portion positioned thereon. The assembly also includes a drive link that is rotatably coupled to the drive shoe and supports a panel. The drive link includes a guide portion that is positioned thereon and configured to slidably engage the ramp portion to prevent the drive link from rotating during a sunroof operation. The guide portion includes an extension that is positioned thereon and interposed between the drive shoe and a guide block. The extension is configured to slidably engage the drive shoe, the ramp portion, or the guide block to prevent the drive link from twisting during the sunroof operation.

Drive link apparatus for use with vehicle sunroofs are disclosed herein. An example assembly for a vehicle sunroof includes a drive shoe. The drive shoe is movable along a rail and includes a ramp portion positioned thereon. The assembly also includes a drive link that is rotatably coupled to the drive shoe and supports a panel. The drive link includes a guide portion that is positioned thereon and configured to slidably engage the ramp portion to prevent the drive link from rotating during a sunroof operation. The guide portion includes an extension that is positioned thereon and interposed between the drive shoe and a guide block. The extension is configured to slidably engage the drive shoe, the ramp, portion, or the guide block to prevent the drive link from twisting during the sunroof operation.