A vehicular outer panel is provided that is capable of displaying an image or a video which is easily viewed even outdoors under direct sunlight for people outside the vehicle. The vehicular outer panel includes: a transparent plate that is attached to a vehicle and constitutes an outer wall of a vehicle body; and a reflective display unit that is provided on an inner surface, in the inside/outside direction of the vehicle, of the transparent plate and is capable of displaying an image or a video for people outside the vehicle.

Problem: To enhance the accuracy of the information collected from around a vehicle by always keeping constant the relative positions of a plurality of sensors provided at different parts of a vehicle body.

Means to Solve the Problem: In a front module panel 11 provided to the front surface of a vehicle body, a panel body 12 is integrally molded by a synthetic resin material, a front grille portion 13 is provided at the center thereof, a front bumper portion 14 is formed below the grille portion, and a translucent cover portion 16 of a head lamp 15 is two-color molded by a transparent resin material at each of both right ends of the panel body 12. A camera is built in each of the head lamps 15, a millimeter wave radar 21 is mounted to an emblem 17, a LIDAR 22 is built in each fog lamp 18, and ultrasonic sensors 23 are disposed near the lower edge of the front bumper portion 14.

A vehicle lamp includes a substrate. A first conductor is positioned on the substrate. A dielectric layer is coupled to the first conductor. A semiconductor layer is configured to emit a first light. A second conductor is coupled to the semiconductor layer. A polymeric layer comprising a photoluminescent element coupled to the second conductor. The photoluminescent element is configured to emit a second light in response to receiving the first light.

The present invention relates to an LED safety sign system, and more particularly, to an LED safety sign system in which a transparent printed circuit board including an LED and a control box mounted with a shock-detecting sensor are connected to each other so that when a shock equal to or greater than a predetermined value is applied to the control box or an automobile accident occurs, the LED of the transparent LED safety sign board automatically emits light to cause a red-edged triangular safety sign body to be lit to display a warning sign, and thus an emergency situation is identified by a driver at a remote distance, thereby preventing additional accident risks.

A vehicle lamp includes a substrate. A first conductor is positioned on the substrate. A dielectric layer is coupled to the first conductor. A semiconductor layer is configured to emit a first light. A second conductor is coupled to the semiconductor layer. A polymeric layer comprising a photoluminescent element coupled to the second conductor. The photoluminescent element is configured to emit a second light in response to receiving the first light.

The information display system includes an antenna, a display unit, a processing unit, and a housing. The antenna receives outside information from an outside of a vehicle. The display unit performs display to the outside of the vehicle. The processing unit is capable of executing outside-targeted display processing by which to cause the display unit to perform display associated with the outside information by controlling the display unit based on the outside information received by the antenna. The housing is installed on the vehicle after having the antenna, the display unit, and the processing unit assembled thereto and thus unitized. As a result, the information display system produces the effect of enabling beneficial information to be provided to the outside of the vehicle.

The invention relates to a dynamic signaling system of the evolution of the braking manoeuvre that has visual proportionality with respect to the loss of speed of the vehicle, with fixed or programmed response sensitivity of the system in each braking manoeuvre, which enables visual proportionality and dynamic unambiguous representation of the variation of speed of the vehicle during braking. It can be applied with advantages to any type of vehicle, with an electric or hybrid combustion engine, with manual or automatic transmission.

The system can be applied to both brake lights and the third brake light (high-mount brake light) indistinctly or jointly, further reinforcing the dynamic effect of attention and the transmission of information.

A plastic glazing (100) of a tailgate of a vehicle is provided, the plastic glazing (100) comprising: a first translucent component (302); a second translucent component (304) molded onto the first translucent component (302), wherein the second translucent component (304) comprises a color, wherein the plastic glazing (100) is of one-piece molded plastic construction, wherein an overlapping portion of the first translucent component (302) and the second translucent component (304) forms a lens of a first molded light assembly.

Systems, devices, and methods for replacing an existing truck cab braking light with an after-market or retrofit universal elongated light emitting diode (LED) light device which can easily replace existing truck cab rear facing brake lights, and do not require different types of light devices for different trucks, and can be rigidly sealed and seated against the rear of the truck cab with additional fasteners. The replacement light system include three sets of printed circuit boards having LEDS (light emitting diodes) that can be independently operated or operated together, in different colors, such as but not limited to red and white color emissions in various operating conditions.

A method and an illumination arrangement for generating image effects in the interior of a motor vehicle or also outside the motor vehicle. To use existing installation space as efficiently as possible, light is radiated, in the form of at least a first optical reference wave field, onto a irradiation surface that is arranged laterally on an optical image storage device. In the optical image storage, which contains a holographic layer or a diffractive optical layer, the optical reference wave field is transformed into at least a first image wave field and is emitted on an emission side, at a first angular offset with respect to the irradiation surface.