A water shut-off structure includes a member and a holder that holds the member. The holder includes an insertion hole through which the member is inserted. The member includes a flange larger in outer geometry than the insertion hole and a shaft portion connected to the flange and inserted through the insertion hole. The holder includes a flange receiving portion that receives the flange. The flange receiving portion includes an annular rib in a shape surrounding the entire circumference of the insertion hole and projecting toward the flange.

A lens includes an incident surface through which outgoing light enters the lens, the incident surface being formed at a portion opposed to a light source, and an emission surface through which incident light incident on the incident surface exits from the lens. The incident surface refracts outgoing light in a direction away from an optical axis of outgoing light, along a direction orthogonal to the optical axis. The emission surface refracts incident light in a direction away from a centerline of incident light, along a direction orthogonal to the centerline.

A lens includes an incident surface through which outgoing light enters the lens, the incident surface being formed at a portion opposed to a light source, and an emission surface through which incident light incident on the incident surface exits from the lens. The incident surface refracts outgoing light in a direction away from an optical axis of outgoing light, along a direction orthogonal to the optical axis. The emission surface refracts incident light in a direction away from a centerline of incident light, along a direction orthogonal to the centerline.

A method for manufacturing an automotive ornament is provided, and the method includes following steps. A light-transmitting element is provided. At least one opening running through at least part of the light-transmitting element is formed. A sputtering layer is formed by a sputtering process using a sputtering device, where the sputtering layer is located in the at least one opening to form an ornament unit.

A method for manufacturing an automotive ornament is provided, and the method includes following steps. A light-transmitting element is provided. At least one opening running through at least part of the light-transmitting element is formed. A sputtering layer is formed by a sputtering process using a sputtering device, where the sputtering layer is located in the at least one opening to form an ornament unit.

Described herein includes embodiments of an illuminating emblem device that is configured to be coupled to a vehicle and/or device. Some implementations of the illuminating emblem device include a light assembly that is configured to provide a uniform (or substantially uniform) distribution of light along a front housing part or front panel of the illuminating emblem. For example, in some implementations, the illuminating emblem device can include a light diffusing filler that diffuses light emitted from the light assembly to assist with uniformly distributing light emitted through the front housing part. Various other embodiments of the illuminating emblem device and associated methods of manufacturing are described.

Described herein includes embodiments of an illuminating emblem device that is configured to be coupled to a vehicle and/or device. Some implementations of the illuminating emblem device include a light assembly that is configured to provide a uniform (or substantially uniform) distribution of light along a front housing part or front panel of the illuminating emblem. For example, in some implementations, the illuminating emblem device can include a light diffusing filler that diffuses light emitted from the light assembly to assist with uniformly distributing light emitted through the front housing part. Various other embodiments of the illuminating emblem device and associated methods of manufacturing are described.

A digital license plate supporting both access and analysis of vehicle relevant information is disclosed. The digital license plate includes sensors that provide status data to a processor in the digital license plate. A power path control module can initiate power state changes and adjust power depending on system state as determined by at least one the multiple sensors. In some embodiments a temperature control module is connected to a temperature sensor and configured to modify heat relevant display parameters as critical temperatures are approached.

A digital license plate supporting both access and analysis of vehicle relevant information is disclosed. The digital license plate includes sensors that provide status data to a processor in the digital license plate. A power path control module can initiate power state changes and adjust power depending on system state as determined by at least one the multiple sensors. In some embodiments a temperature control module is connected to a temperature sensor and configured to modify heat relevant display parameters as critical temperatures are approached.

A marker system for a vehicle comprises a marker structure bearing an augmented reality (AR) code visible on a surface thereof, and an illumination source configured and positioned to provide sufficient contrast between the AR code and adjacent portion of the marker structure at the surface to enable a camera aimed at the surface to detect the AR for recognition thereof. Related systems and methods are also disclosed.