A sunroof device is disclosed. A sunroof device includes a movable panel on a roof of a vehicle; a guide rail including one or more holes; a deflector holder including a first restriction portion, a second restriction portion, and a rotation center, wherein a first tip of the first restriction portion connecting to a first hole of the one or more holes; a second tip of the second restriction portion including a first claw, the first claw connecting to a second hole of the one or more holes; a third tip of the second restriction portion including a second claw, the second claw connecting to a third hole of the one or more holes, the second hole and the third hole including a front portion, a middle portion, and a rear portion, wherein a first width of the middle portion is smaller than a second width of the rear portion; the first width is smaller than a third width of the front portion; and an inner surface between the front portion and the middle portion includes an inclination.

A vehicular sensing system, a vehicle and a method of performing one or both of vehicular mapping and navigating operations using the sensing system. The sensing system is secured to a roof or other suitable location on the vehicle and includes one or more sensors configured to acquire at least one of vehicular mapping and navigational data, a retractable mounting structure to move the sensor or sensors between a deployed and stowed position, and an aerodynamic spoiler, air dam or deflector. The body of the spoiler acts as a housing with a recess formed in its upper surface such that upon placement of the spoiler on the roof, the recess provides a location within the spoiler to permit storage of the mounting structure and sensors when they are in their deployed (non data-acquisition) mode of operation. The size and placement of the mounting structure and sensors is such that they do not detract from the aerodynamic or aesthetic qualities of the spoiler.

An air deflector system for a sunroof of a vehicle including an air deflector with holes along the length of the air deflector and having an input port, an air pump connected to the input port, an airspeed sensor, and an air controller configured to control a speed of the air pump based on the airspeed sensor to enable discharge of an air stream through the holes of the air deflector.

An air deflector system for a sunroof of a vehicle including an air deflector with holes along the length of the air deflector and having an input port, an air pump connected to the input port, an airspeed sensor, and an air controller configured to control a speed of the air pump based on the airspeed sensor to enable discharge of an air stream through the holes of the air deflector.

An open roof construction for a vehicle comprises a movable panel in a fixed roof. A wind deflector assembly comprises a transverse deflector, which extends and retracts, and connects to a deflector arm on each end, the arms of which are pivotally connected to a stationary part. A biasing device engages each of the arms. The panel can push the deflector arms and therewith the deflector against the biasing force towards a retracted position. A valve assembly is pivotally connected to the deflector and comprises a valve body capable of extending above the deflector in an effective position when the deflector is in its extended position to generate turbulences in the air flow above the roof opening under driving conditions of the vehicle. The valve body is capable of being moved to a retracted position at least partly below the deflector when the deflector is moved towards its retracted position.

An open roof construction for a vehicle comprises a movable panel in a fixed roof. A wind deflector assembly comprises a transverse deflector, which extends and retracts, and connects to a deflector arm on each end, the arms of which are pivotally connected to a stationary part. A biasing device engages each of the arms. The panel can push the deflector arms and therewith the deflector against the biasing force towards a retracted position. A valve assembly is pivotally connected to the deflector and comprises a valve body capable of extending above the deflector in an effective position when the deflector is in its extended position to generate turbulences in the air flow above the roof opening under driving conditions of the vehicle. The valve body is capable of being moved to a retracted position at least partly below the deflector when the deflector is moved towards its retracted position.

An assembly includes a housing. The assembly includes a sensor supported by the housing. The assembly includes a shell enclosing the sensor and rotatable relative to the housing in a first direction, the shell defining a window. The assembly includes a deflector extending radially outward from the shell at a leading edge of the window.

A deflection element for a wind deflector of a motor vehicle includes a flexible fabric configured to be transferred by a deployment element of the wind deflector into a raised or spread out use position in relation to a basic position. The deflection element has a fastening device along at least one upper or lower side edge of the fabric for fixing the deployment element on a base element of the wind deflector, or on a motor vehicle chassis. The fastening device has at least one first clamping strip and at least one second clamping strip connected to one another by connecting elements which correspond to one another and penetrate through the fabric to thereby clamp the side edge of the fabric between the first clamping strip and the second clamping strip.

A deflection element for a wind deflector of a motor vehicle includes a flexible fabric configured to be transferred by a deployment element of the wind deflector into a raised or spread out use position in relation to a basic position. The deflection element has a fastening device along at least one upper or lower side edge of the fabric for fixing the deployment element on a base element of the wind deflector, or on a motor vehicle chassis. The fastening device has at least one first clamping strip and at least one second clamping strip connected to one another by connecting elements which correspond to one another and penetrate through the fabric to thereby clamp the side edge of the fabric between the first clamping strip and the second clamping strip.

A motor vehicle is provided in which cold air is prevented from flowing forwards from the rear region to the front seats when travelling with an open top. At least one air outlet opening or air outlet nozzle is formed at a rear end of the center console, through which air outlet opening or air outlet nozzle warm air can flow out upwards and/or forwards between the two backrests of the two front seats. Further air outlet openings are provided in the two opposite B body pillars, through which air outlet openings warm air can flow out forwards in the direction of the backrests of the front seats and/or in the transverse direction of the vehicle into the rear region.