An indoor-outdoor novelty device which simulates moving open flame from the upper end of a standing torch. The device provides a realistic illusion of a bright flame changing its shape and brightness pseudorandomly thru a unique combination of lighting, motion, and airflow under microcontroller control. The device can be viewed from a vantage point in a 360-degree perimeter around the device without compromise to the effect.

An indoor-outdoor novelty device which simulates moving open flame from the upper end of a standing torch. The device provides a realistic illusion of a bright flame changing its shape and brightness pseudorandomly thru a unique combination of lighting, motion, and airflow under microcontroller control. The device can be viewed from a vantage point in a 360-degree perimeter around the device without compromise to the effect.

A modular system may include a plurality of magnets that may be provided to self-align a casing with an accessory. Self-alignment of the casing and the accessory may provide a secure connection of the casing with the accessory. At least one detent and at least one locking arm may mate and lock the casing against the accessory in a mounted position. The at least one detent and the at least one locking arm may unlock in an insertion position. Self-alignment may occur when a first set of magnets attracts a second set of magnets in which opposite polarities attract and automatically initiate movement of the casing towards the accessory.

A modular system may include a plurality of magnets that may be provided to self-align a casing with an accessory. Self-alignment of the casing and the accessory may provide a secure connection of the casing with the accessory. At least one detent and at least one locking arm may mate and lock the casing against the accessory in a mounted position. The at least one detent and the at least one locking arm may unlock in an insertion position. Self-alignment may occur when a first set of magnets attracts a second set of magnets in which opposite polarities attract and automatically initiate movement of the casing towards the accessory.

The connection device (100) is used for an electrified guide (200) lighting system; the electrified guide (200) is provided with a longitudinal groove (210) and the connection device (100) is adapted to be completely inserted into the electrified guide (200); the connection device (100) comprises at least one mechanical contact device (110, 120) adapted to abut against a bottom surface (212) of said longitudinal groove (210) when the connection device (100) is inserted into the electrified guide (200); the mechanical contact device (110, 120) can be removed or moved so that the connection device (100) can be adapted to electrified guides having longitudinal grooves of different depth; the mechanical contact device (110, 21) is shaped and/or located so that it abuts differently depending on the sense of insertion of the connection device into the electrified guide (10-1, 10-3) so that to avoid insertions in the wrong sense.

The connection device (100) is used for an electrified guide (200) lighting system; the electrified guide (200) is provided with a longitudinal groove (210) and the connection device (100) is adapted to be completely inserted into the electrified guide (200); the connection device (100) comprises at least one mechanical contact device (110, 120) adapted to abut against a bottom surface (212) of said longitudinal groove (210) when the connection device (100) is inserted into the electrified guide (200); the mechanical contact device (110, 120) can be removed or moved so that the connection device (100) can be adapted to electrified guides having longitudinal grooves of different depth; the mechanical contact device (110, 21) is shaped and/or located so that it abuts differently depending on the sense of insertion of the connection device into the electrified guide (10-1, 10-3) so that to avoid insertions in the wrong sense.

The present disclosure provides a candle lamp light source and an electronic candle lamp. The candle lamp light source includes a candle lamp body and a plug-in component; the candle lamp body is connected to the plug-in component, the plug-in component is provided with plug-in pins, and the plug-in pins are configured to be detachably connected to a lamp holder. The electronic candle lamp includes the candle lamp light source and the lamp holder.

The present disclosure provides a candle lamp light source and an electronic candle lamp. The candle lamp light source includes a candle lamp body and a plug-in component; the candle lamp body is connected to the plug-in component, the plug-in component is provided with plug-in pins, and the plug-in pins are configured to be detachably connected to a lamp holder. The electronic candle lamp includes the candle lamp light source and the lamp holder.

A light bulb includes one or more LEDs and a housing containing the one or more LEDs. At least a portion of the housing is at least partially transparent to one or more wavelengths of light emitted by the one or more LEDs. A driver is disposed within the housing and electrically connected to the one or more LEDs for driving the one or more LEDs. A non-metallic base is formed at an end of the housing. A contactless electrical power receiver is disposed within the non-metallic base and electrically connected to the driver. The contactless electrical power receiver is configured to contactlessly receive electrical power from an external power source and provide the received electrical power to the driver. A light bulb socket configured for contactless power transfer to the light bulb is also provided herein.

A light bulb includes one or more LEDs and a housing containing the one or more LEDs. At least a portion of the housing is at least partially transparent to one or more wavelengths of light emitted by the one or more LEDs. A driver is disposed within the housing and electrically connected to the one or more LEDs for driving the one or more LEDs. A non-metallic base is formed at an end of the housing. A contactless electrical power receiver is disposed within the non-metallic base and electrically connected to the driver. The contactless electrical power receiver is configured to contactlessly receive electrical power from an external power source and provide the received electrical power to the driver. A light bulb socket configured for contactless power transfer to the light bulb is also provided herein.