Disclosed is a load carrier foot for supporting a load bar on a vehicle. The load carrier foot comprises a supporting member mountable to the load bar, a coupling member for coupling the load carrier foot to the vehicle and a tightening mechanism for tightening the coupling member. The tightening mechanism force transmittingly the couples the coupling member with the supporting member by a force distribution member. The force distribution member is configured to transfer a received input force on at least two force application sections while being translatory movably held with respect to each force application section.

According to this invention, there is provided a cargo storage system for use with a vehicle having a load carrying bed, above the load carrying bed, and a movable including: (a) a grooved bedliner, (b) a cargo tray having opposite lateral sides and opposite longitudinal sides, including a pair of wheels at the forward end and a pair of rollers at the rearward end, the wheels seated in the grooves, rollers riding atop the grooves and support the tray for movement relative to the bedliner and outward extension onto the tail gate, and (c) a tether limiting outward and retraction movement of the tray relative to the bed.

An obstacle avoidance system for a camera arm configured to observe traffic to the rear of a vehicle, the vehicle having bodywork, includes: the camera arm having a camera; and a guide configured so as to extend from a lateral surface of the bodywork of the vehicle to a roof surface of the bodywork of the vehicle. The camera arm is arranged on the guide so as to be slidable along the guide back and forth between a position of rest on the roof surface and a working position on the lateral surface.

A vehicle includes a cabin. A track assembly is mounted within the cabin. A carriage assembly is received by the track assembly. The carriage assembly includes a housing, a cam structure that is rotatable relative to the housing, a brush that is coupled to the housing and actuatable by the cam structure, and rollers that are coupled to the cam structure.

A system for holding a personal object for a motor vehicle is described. The system includes a segmented surface having a plurality of adjacent surface elements. The system also includes a plurality of actuators, each actuator associated with a surface element and configured to extend and/or retract the associated surface element. The system also includes a sensor system configured to detect circumstances affecting the holding of the personal object by the segmented surface. The system also includes a controller operably coupled to the actuators and the sensor system, the controller configured to selectively control the actuators to extend and/or retract associated surface elements based on the detected circumstances so as to form a holding area appropriate for holding the personal object.

A storage compartment of a vehicle including a passenger compartment and a passenger compartment door controlling access to the passenger compartment. The storage compartment includes a base and a side wall surrounding a storage volume. The storage compartment is located forward of a footwell of the passenger compartment, the storage compartment is further positioned so that an opening to the storage volume is accessible from a lateral side of the vehicle.

A window shade having a magnetic attachment point for mounting on a window and a shade portion with a magnetic element, the shade portion being detachably engageable with the magnetic attachment point via the magnetic element. Methods of installing and using the window shade are disclosed.

A mounting arrangement includes a first bracket, a second bracket including a slot, and a series of washers, with two resilient washers. First and second bolts extend through the first bracket, a first and second of the washers, the slot of the second bracket, a third and fourth of the washers, the resilient washers, and a fifth and sixth of the washers. The second bracket frictionally engages the first and second washers, and frictionally engages the third and fourth washers. The resilient washers are each located between the respective first, second, third and fourth washers, and the fifth and sixth washers. The bolts are engaged by nuts compressing the first and second resilient washers with a compressive force between the washers, supporting the first bracket and the second bracket relative to each other and permitting the first bracket and the second bracket to slide relative to each other.

A vehicular camera module includes a camera having a CMOS image sensor and a lens. The image sensor is disposed at a first printed circuit board, and circuitry of a second printed circuit board is in board-to-board electrical connection with circuitry of the first printed circuit board. Board-to-board electrical connection between the first and second printed circuit boards is via a multi-wire ribbon connection. A housing houses the first and second printed circuit boards. The housing is configured for mounting at a vehicle and, with the vehicular camera module mounted at the vehicle, the camera has a field of view external of the vehicle. With the vehicular camera module mounted at the vehicle and responsive at least in part to processing by an image processor of image data captured by the image sensor, an object in the field of view of the camera is detected.

A vehicle for carrying a camera crane has wheels or treads on a chassis. A battery pack assembly on the chassis, includes an AC to DC converter and plurality of batteries wired to a battery charger within a housing. The batteries collectively may have an output voltage of 30 to 36 VDC when fully charged. At least one input connector on the housing is wired to the AC to DC converter for charging the batteries. The battery pack assembly replaces and is used instead of a camera-equipment-generator.