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 drive mechanism for vehicle movable panels having a first slide mechanism having a rod and a sled with a tilt lever, the rod being coupled with the tilt lever for pivoting the tilt lever in a first state and the rod being decoupled from the tilt lever in a second state such that the tilt lever is movable relative to the rod and relative to the guide rail along the first direction, the sled comprising a holding element. In a first position the holding element is locked to the guide rail such that the sled is latched relative to the guide rail and in a second position the sled is movable relative to the guide rail to transmit a movement of the sled along the first direction to a second slide mechanism and the holding element holds the tilt lever, when the rod is decoupled from the tilt lever.

A non-motorized panoramic sliding hard panel targa roof, desirable for most sport vehicle owners is disclosed. A manually operated, rear sliding 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 sliding 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 non-motorized panoramic sliding hard panel targa roof, desirable for most sport vehicle owners is disclosed. A manually operated, rear sliding 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 sliding 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 vehicle includes an opening/closing device including one of a movable glass panel and a window; a display including a partial region in which a symbol image representing the movable glass panel or the window is displayed and a background region excluding the partial region; an input configured to receive a touch input; and a controller configured to recognize a location of a touch point on the input, recognize a movement time, a movement direction, and a movement distance, recognize the movable glass panel's or the window's closing degree information based on the recognized movement distance and the movement direction, change the display information of a background area on the display based on the recognized movable glass panel or the window closing degree information, and transmit the recognized movable glass panel or the window closing degree information to the opening/closing device; and a driver configured to open or close the opening/closing device based on a control command from the controller.

In various embodiments, a moodroof media application provides media content into a vehicle cabin. In operation, the moodroof media application determines at least one state associated with the vehicle cabin based on sensor data from at least one sensor. The moodroof media application then receives media content associated with the at least one state. The moodroof media application further causes visual content associated with the media content to be displayed on at least one display surface positioned on a ceiling of the vehicle cabin.

In various embodiments, a moodroof media application provides media content into a vehicle cabin. In operation, the moodroof media application determines at least one state associated with the vehicle cabin based on sensor data from at least one sensor. The moodroof media application then receives media content associated with the at least one state. The moodroof media application further causes visual content associated with the media content to be displayed on at least one display surface positioned on a ceiling of the vehicle cabin.

A vehicle roof structure including roof glass that includes an opaque coating section formed so as to shield a structural object disposed at a vehicle lower side from view from the vehicle cabin outer side, a shielding body, and an extension. The shielding body is provided at the vehicle lower side of the roof glass at a coating width direction inner end of the opaque coating section, includes an upper end on a vehicle upper side attached to the roof glass, and shields a location of the structural object facing the opaque coating section. The extension includes an extension direction leading end positioned further inward with respect to the glass surface than the coating width direction inner end, and shields a location of the structural object jutting out further inward with respect to the glass surface than the shielding body.

A vehicle roof structure including roof glass that includes an opaque coating section formed so as to shield a structural object disposed at a vehicle lower side from view from the vehicle cabin outer side, a shielding body, and an extension. The shielding body is provided at the vehicle lower side of the roof glass at a coating width direction inner end of the opaque coating section, includes an upper end on a vehicle upper side attached to the roof glass, and shields a location of the structural object facing the opaque coating section. The extension includes an extension direction leading end positioned further inward with respect to the glass surface than the coating width direction inner end, and shields a location of the structural object jutting out further inward with respect to the glass surface than the shielding body.

A motor drive system configured to detect and prevent undesired movement of an item that is configured to be driven by the motor drive system. The motor drive system having: an electronic control unit operatively coupled to a rotor of the motor drive system, the electronic control unit being configured to detect undesired rotation of a shaft of the rotor, wherein the undesired rotation of the shaft is not caused by a force applied by the rotor; and wherein the electronic control unit of the motor drive system is configured to short windings of the motor drive system after a predetermined amount of undesired rotation of the shaft is detected by the electronic control unit such that further rotation of the rotor is prevented.