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 light emitting filament device comprising a carrier extending in a longitudinal direction and having a first main surface, a second main surface opposite to the first main surface, and two side surfaces interconnecting the two main surfaces. Optoelectronic components are disposed on the first main surface of the carrier. A first converter layer is arranged on the first main surface of the carrier and covers the optoelectronic components. A second converter layer is arranged on the second main surface of the carrier. The carrier is designed at at least one location along the longitudinal direction such that at least one of the two side surfaces includes an angle with the first main surface of greater than 90°. The carrier is trapezoidal in cross-section at the at least one location.

A light emitting filament device comprising a carrier extending in a longitudinal direction and having a first main surface, a second main surface opposite to the first main surface, and two side surfaces interconnecting the two main surfaces. Optoelectronic components are disposed on the first main surface of the carrier. A first converter layer is arranged on the first main surface of the carrier and covers the optoelectronic components. A second converter layer is arranged on the second main surface of the carrier. The carrier is designed at at least one location along the longitudinal direction such that at least one of the two side surfaces includes an angle with the first main surface of greater than 90°. The carrier is trapezoidal in cross-section at the at least one location.

Retroreflective sheeting having a structured layer of cube corner elements and an at least one optically variable mark therein, and methods of making same.

Retroreflective sheeting having a structured layer of cube corner elements and an at least one optically variable mark therein, and methods of making same.

A light emitting filament device comprising a carrier extending in a longitudinal direction and having a first main surface, a second main surface opposite to the first main surface, and two side surfaces interconnecting the two main surfaces. Optoelectronic components are disposed on the first main surface of the carrier. A first converter layer is arranged on the first main surface of the carrier and covers the optoelectronic components. A second converter layer is arranged on the second main surface of the carrier. The carrier is designed at at least one location along the longitudinal direction such that at least one of the two side surfaces includes an angle with the first main surface of greater than 90°. The carrier is trapezoidal in cross-section at the at least one location.

A light emitting filament device comprising a carrier extending in a longitudinal direction and having a first main surface, a second main surface opposite to the first main surface, and two side surfaces interconnecting the two main surfaces. Optoelectronic components are disposed on the first main surface of the carrier. A first converter layer is arranged on the first main surface of the carrier and covers the optoelectronic components. A second converter layer is arranged on the second main surface of the carrier. The carrier is designed at at least one location along the longitudinal direction such that at least one of the two side surfaces includes an angle with the first main surface of greater than 90°. The carrier is trapezoidal in cross-section at the at least one location.

An integrated lamp-and-camera module (1) includes: a pair of license plate lamps (10R, 10L) that are disposed in a left-right direction of a license plate (LP) of a vehicle (VE), and apply light to the license plate (LP); a first camera (20) and a second camera (30) that are disposed between the pair of license plate lamps (10R, 10L) to capture an image of a rear side of the vehicle (VE); and a housing (70) to which the respective license plate lamps (10R, 10L), the first rear view camera (20), and the second camera (30) are attached. The housing (70) is attached to a vehicle body.

An integrated lamp-and-camera module (1) includes: a pair of license plate lamps (10R, 10L) that are disposed in a left-right direction of a license plate (LP) of a vehicle (VE), and apply light to the license plate (LP); a first camera (20) and a second camera (30) that are disposed between the pair of license plate lamps (10R, 10L) to capture an image of a rear side of the vehicle (VE); and a housing (70) to which the respective license plate lamps (10R, 10L), the first rear view camera (20), and the second camera (30) are attached. The housing (70) is attached to a vehicle body.

A structure for fixing a light guiding member includes a light guiding member that guides light emitted from a light source to a prescribed position, a holder that holds the light guiding member, and a fixed member fixed to the light guiding member. The holder includes an insertion hole through which the light guiding member is inserted. The light guiding 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 fixed member is fixed to a portion of the shaft portion that projects from the insertion hole and larger in outer geometry than the insertion hole.