A illuminated ornament assembly for celebrating festive occasions includes housing that may be displayed for ornamental purposes. A light emitting array is positioned in the housing to emit light outwardly therefrom. The light emitting array emits light in a plurality of pre-determined patterns and colors. A connector is hingedly coupled to the housing. The connector is electrically coupled to the light emitting array and the connector is electrically coupled to a power source.

A method for manufacturing a helmet with hidden light sources includes: fixing a helmet housing with at least one light transmitting portion to a base mold; providing a light source protector and a light source belt, and fixing the light source protector to the light source belt, wherein the light source belt comprises a circuit board and a plurality of light sources mounted on, wherein the light source protector comprises a plurality of accommodating holes corresponding to the light sources one by one, and the light sources each are received in a corresponding accommodating hole and enclosed by the light source protector and the circuit board; aligning the light sources to the light transmitting portion and fixing the light source protector to an inner surface of the helmet housing; and injecting a buffer material into the base mold to form a base.

An LED module of a lighting device includes an optic that includes one or more internal lenses, which are to be rotationally aligned with corresponding LEDs held within the module. In order to correctly rotationally align the LEDs with the lenses, the module includes one or more notches in the end of the module, which line up with and receive corresponding detents formed on the exterior surface of the optic. When the optic is mounted in the module with the detents in the notches, the LEDs line up with the lenses. Additionally, the side surface of the optic includes indicia indicating a characteristic of the optic, e.g., the lens' angles.

A semiconductor lamp (1) has at least one semiconductor light source (8) arranged on a front face (7) of a substrate (6) and a driver circuit (11) for activating the at least one semiconductor light source (8), at least part of the driver circuit (11) being secured on a rear face (10) of the substrate (6), facing away from the at least one semiconductor light source (8). The invention can be used, in particular, for retrofit lamps, in particular incandescent- or halogen retrofit lamps.

A semiconductor lamp (1) has at least one semiconductor light source (8) arranged on a front face (7) of a substrate (6) and a driver circuit (11) for activating the at least one semiconductor light source (8), at least part of the driver circuit (11) being secured on a rear face (10) of the substrate (6), facing away from the at least one semiconductor light source (8). The invention can be used, in particular, for retrofit lamps, in particular incandescent- or halogen retrofit lamps.

A support ring is for mounting of a soft box on a light source. The support ring includes a connector for attachment of the support ring to the light source, and at least one cavity configured to receive support pins of the soft box. The cavity further includes a first and a second support element arranged to counteract a torque from the support pins, when the support pins are in an inserted position in the cavity. At least one entry element on a radial outside of the cavity is arranged to counteract a force required to bend the support pin to an angle where the support pin can be inserted into the cavity.

A support ring is for mounting of a soft box on a light source. The support ring includes a connector for attachment of the support ring to the light source, and at least one cavity configured to receive support pins of the soft box. The cavity further includes a first and a second support element arranged to counteract a torque from the support pins, when the support pins are in an inserted position in the cavity. At least one entry element on a radial outside of the cavity is arranged to counteract a force required to bend the support pin to an angle where the support pin can be inserted into the cavity.

Disclosed is an LED lighting apparatus having a natural convection-type heat dissipation structure. The LED lighting apparatus includes a heat sink coupled to a back surface of a printed circuit board (PCB) to which a plurality of light emitting diode (LED) devices is mounted and, and functioning to absorb heat generated by the LED devices, in which center portions of the heat sink and the PCB are provided with openings serving as a convection hole that induces natural convection such that hot air under the heat sink rises along with rising hot air attributed to heat radiated from an upper surface of the heat sink and surrounding cooler air is supplied to the upper surface the heat sink and to around the LED devices. Due to the convection hole, the LED lighting apparatus provides a heat dissipation effect as high as that of an active cooling system.

Disclosed is an LED lighting apparatus having a natural convection-type heat dissipation structure. The LED lighting apparatus includes a heat sink coupled to a back surface of a printed circuit board (PCB) to which a plurality of light emitting diode (LED) devices is mounted and, and functioning to absorb heat generated by the LED devices, in which center portions of the heat sink and the PCB are provided with openings serving as a convection hole that induces natural convection such that hot air under the heat sink rises along with rising hot air attributed to heat radiated from an upper surface of the heat sink and surrounding cooler air is supplied to the upper surface the heat sink and to around the LED devices. Due to the convection hole, the LED lighting apparatus provides a heat dissipation effect as high as that of an active cooling system.

The present invention relates to a novel touch type electronic candle lamp which comprises a light-transmitting waxen casing and a base embedded in the lower end face of the casing. The casing adheres to the base, a luminous body is installed in the casing, the upper end face of the casing is provided with a touch control piece for touching and switching on or switching off the luminous body; the touch control piece is connected with a touch chip; the base is provided with a battery compartment and a control key; the luminous body is connected with the touch chip, the battery compartment and the control key through a line, and the touch control piece is in a wick shape.