An LED projection lamp includes a light-emitting assembly and a main body. The light-emitting assembly at least includes a light source for generating light, and a rotating body disposed on a light path of the light for enabling the light to present a first effect. The main body includes an accommodating cavity for accommodating the light-emitting assembly. The main body includes a lens and a light-transmitting sheet, the lens emits a light having the first effect, and the light-transmitting sheet emits the light. A light-blocking member is disposed on an outer portion of the light-transmitting sheet, a light-transmitting hole is defined on the light-blocking member, and the light-transmitting holes enables the light to present a second effect.

A suction apparatus includes a support portion, a plurality of suction holes formed in the support portion, a suction mechanism configured to perform suction from an outer side of the support portion toward an inner side through the plurality of suction holes, a lighting unit provided on the inner side of the support portion for each region of the support portion, a light transmitting portion configured to transmit light emitted by the lighting unit to the outer side of the support portion, and a control unit configured to control the lighting unit, in which the control unit makes a lighting state of the lighting unit corresponding to a suction region in which suction at the support portion is enabled different from a lighting state of the lighting unit corresponding to a non-suction region in which the suction at the support portion is disabled.

A vehicle lighting device, irradiating an interior space of a vehicle with light, includes a light emitting module configured to irradiate the interior space with light transmitted through an inner layer surrounding the interior space, wherein the light emitting module includes a substrate member formed of a flexible material, a circuit pattern printed on the substrate member and electrically conducted to the outside to receive a control signal and an applied voltage, a circuit element member configured to be coupled and electrically conducted to the circuit pattern to process the control signal and the applied voltage, and a light emitting diode (LED) member coupled to the substrate member and electrically conducted to the circuit pattern and the circuit element member to emit the light according to the control signal and the applied voltage transmitted thereto.

A vehicle lighting device, irradiating an interior space of a vehicle with light, includes a light emitting module configured to irradiate the interior space with light transmitted through an inner layer surrounding the interior space, wherein the light emitting module includes a substrate member formed of a flexible material, a circuit pattern printed on the substrate member and electrically conducted to the outside to receive a control signal and an applied voltage, a circuit element member configured to be coupled and electrically conducted to the circuit pattern to process the control signal and the applied voltage, and a light emitting diode (LED) member coupled to the substrate member and electrically conducted to the circuit pattern and the circuit element member to emit the light according to the control signal and the applied voltage transmitted thereto.

Novel tools and techniques are provided for implementing improved lighting components for a lighting element. A lighting element might include a cover. The cover might include a wall having an outer surface and an inner surface. The cover might further include one or more voids located between the outer surface and the inner surface of the wall. The cover and voids may be formed via one or more three-dimensional (“3D”) printing processes.

A lighting element is disclosed that provides a projection of light forming a substantially uniform bright light on a surface a known distance from the lighting element. The lighting elements includes a dome lens that is removably positioned on a light source, such that the light source is retained at a location within a focal length of a projection lens and at or within a focal length of the dome lens. The dome lens magnifies the light outputted by the light source, such that the projected light is brighter than the light generated by the light source.

A trim for an object and its method of manufacture involve providing a transparent or translucent substrate defining a top surface, applying an opaque layer above the top surface of the substrate, the opaque layer defining one or more apertures through which light can pass, and applying one or more translucent metallic-looking layers above a top surface of the opaque layer. In some implementations, the trim is a selectively illuminable trim whereby a light source is arranged beneath a bottom surface of the substrate, the light source being configured to output light through the substrate, the one or more apertures defined by the opaque layer, and the one or more metallic-looking layers.

A trim for an object and its method of manufacture involve providing a transparent or translucent substrate defining a top surface, applying an opaque layer above the top surface of the substrate, the opaque layer defining one or more apertures through which light can pass, and applying one or more translucent metallic-looking layers above a top surface of the opaque layer. In some implementations, the trim is a selectively illuminable trim whereby a light source is arranged beneath a bottom surface of the substrate, the light source being configured to output light through the substrate, the one or more apertures defined by the opaque layer, and the one or more metallic-looking layers.

A trim for an object and its method of manufacture involve providing a transparent or translucent substrate defining a top surface, applying an opaque layer above the top surface of the substrate, the opaque layer defining one or more apertures through which light can pass, and applying one or more translucent metallic-looking layers above a top surface of the opaque layer. In some implementations, the trim is a selectively illuminable trim whereby a light source is arranged beneath a bottom surface of the substrate, the light source being configured to output light through the substrate, the one or more apertures defined by the opaque layer, and the one or more metallic-looking layers.

A trim for an object and its method of manufacture involve providing a transparent or translucent substrate defining a top surface, applying an opaque layer above the top surface of the substrate, the opaque layer defining one or more apertures through which light can pass, and applying one or more translucent metallic-looking layers above a top surface of the opaque layer. In some implementations, the trim is a selectively illuminable trim whereby a light source is arranged beneath a bottom surface of the substrate, the light source being configured to output light through the substrate, the one or more apertures defined by the opaque layer, and the one or more metallic-looking layers.