A vehicle roof having a fixed roof element having a glass, plastic or sheet metal panel provided with a circumferential molded section which is formed by a section foam molded to an edge or a section injection molded to the edge. A circumferential frame-like connecting plate may be fastened to the glass, plastic or sheet metal panel by means of the molded section and has a circumferential adhesive surface for attaching the fixed roof element to a vehicle body.

A vehicle roof having a fixed roof element having a glass, plastic or sheet metal panel provided with a circumferential molded section which is formed by a section foam molded to an edge or a section injection molded to the edge. A circumferential frame-like connecting plate may be fastened to the glass, plastic or sheet metal panel by means of the molded section and has a circumferential adhesive surface for attaching the fixed roof element to a vehicle body.

A resin roof is provided with a roof main body including an outer layer and an inner layer. The outer layer structures a roof panel of a vehicle. The inner layer is provided in a predetermined region that excludes a peripheral edge portion of the outer layer. A first joining portion is provided at the peripheral edge portion of the outer layer and is joined by a first adhesive to a first joined portion that is provided at a vehicle body side first base member. A second joining portion is provided at the inner layer and is joined by a second adhesive to a second joined portion that is provided at a vehicle body side second base member. One of the first adhesive or the second adhesive is configured with higher adaptability than another of the first adhesive or the second adhesive.

A resin roof is provided with a roof main body including an outer layer and an inner layer. The outer layer structures a roof panel of a vehicle. The inner layer is provided in a predetermined region that excludes a peripheral edge portion of the outer layer. A first joining portion is provided at the peripheral edge portion of the outer layer and is joined by a first adhesive to a first joined portion that is provided at a vehicle body side first base member. A second joining portion is provided at the inner layer and is joined by a second adhesive to a second joined portion that is provided at a vehicle body side second base member. One of the first adhesive or the second adhesive is configured with higher adaptability than another of the first adhesive or the second adhesive.

A roof module for forming a vehicle roof on a motor vehicle, the roof module may have a panel component whose outer surface at least partially forms the roof skin of the vehicle roof, the roof module having at least one environment sensor configured to send and/or receive electromagnetic signals for detecting the vehicle environment. At least one reflector element at which the electromagnetic signals can be reflected is associated with the environment sensor.

A roof module for forming a vehicle roof on a motor vehicle, the roof module may have a panel component whose outer surface at least partially forms the roof skin of the vehicle roof, the roof module having at least one environment sensor configured to send and/or receive electromagnetic signals for detecting the vehicle environment. At least one reflector element at which the electromagnetic signals can be reflected is associated with the environment sensor.

A vehicle is operable in a first mode in which vehicle actions are controlled in response to inputs received by an input device carried by the vehicle from an operator while being boarded on the vehicle and in a second mode in which vehicle actions are controlled in response to inputs received from the operator while the operator is proximate the vehicle, but no longer boarded on the vehicle. The vehicle carries a sensor configured to output a sensed input, as sensed by the sensor, from the operator proximate the vehicle, but not boarded on the vehicle. The sensed input is recognized and associated with a vehicle action and control signals are output to the vehicle based on the sensed input to cause the vehicle to carry out the vehicle action.

The invention relates to a device for illuminating a cab of a utility vehicle, preferably a truck. The device has a roof region (10) and a storage compartment device (12), which is arranged in the roof region (10) and can be closed at least partially by means of a door element (22, 24). The device has an illumination element (38, 40), which is arranged on a roof liner (34) of the roof region (10) such that, by means of the illumination element (38, 40), a cab interior and an interior of the storage compartment device (12) behind the door element (22, 24) can be illuminated when the door element (22, 24) is completely open. The device thus provides function integration since the illumination element (38, 40) is used not only to illuminate the cab interior but also to illuminate the storage compartment device (12) or the luggage rack.

Embodiments of the present disclosure are directed to vehicles and vehicle roof structures for concealing one or more sensors. Vehicle roof structures according to the present disclosure include a roof panel and a window extending at least up to the roof panel. A headliner extends along an interior portion of the roof panel to the window and is at least partially spaced from the roof panel in a direction of an interior of the vehicle to provide a sensor mounting volume therebetween, wherein the window extends along at least a portion of the sensor mounting volume. One or more sensors are positioned behind the window within the sensor mounting volume to provide a signal indicative of a characteristic of an environment of the vehicle detected by the one or more sensors through the window.

Embodiments of the present disclosure are directed to vehicles and vehicle roof structures for concealing one or more sensors. Vehicle roof structures according to the present disclosure include a roof panel and a window extending at least up to the roof panel. A headliner extends along an interior portion of the roof panel to the window and is at least partially spaced from the roof panel in a direction of an interior of the vehicle to provide a sensor mounting volume therebetween, wherein the window extends along at least a portion of the sensor mounting volume. One or more sensors are positioned behind the window within the sensor mounting volume to provide a signal indicative of a characteristic of an environment of the vehicle detected by the one or more sensors through the window.