The disclosed systems and methods relate to electric lighting systems and charging and connection mechanisms thereof. In one example, an electric lighting system comprises a charger configured for electrical communication with a power source. The electric lighting system further comprises an electric light source removably couplable to, and configured for electrical communication with, the charger, the electric light source comprising a lighting element. The electric lighting system further comprises a light source holder removably couplable to the electric light source, wherein, when the electric light source is removably coupled to the light source holder, the electric light source and the light source holder share a central axis.

A flame simulation method including: identifying, by a computing device, a maximum brightness level value and a primary event generation level; setting, in response to determining that a first event occurred based on the primary event generation level, a secondary event generation level; adjusting the secondary event generation level towards a baseline secondary event generation level; adjusting a current brightness value of a lighting element of a flame simulation apparatus towards the maximum brightness level value; setting, in response to determining that a second event occurred based on the secondary event generation level, the current brightness level value of the lighting element to a value less than the maximum brightness level; and controlling, by the computing device, a brightness level of the lighting element to correspond to the current brightness level value of the lighting element.

A flame lamp made of filament lamps, comprises a fixing device, a controller and one or a plurality of LED filament lamps, wherein the LED filament lamps are fixedly installed on the fixing device and electrically connected with the controller, and the controller is used for controlling the light emitting frequency and pulse brightness of the LED filament lamps. Each LED filament lamp comprises at least two light source arrays from top to bottom, wherein the light emitting frequencies and/or the pulse brightnesses of at least two light source arrays are different. Each LED filament lamp is vertically arranged, and the upper end and the lower end of each LED filament lamp are fixedly connected with the fixing device. Various specific assembly methods are provided. The present invention innovatively makes a flame lamp of filament lamps and uses one or a combination of a plurality of filaments to achieve the luminous effect of a flame through different assembly structures and flashing methods, which can effectively simplify the production process, reduce production cost and provide a good visual effect.

A multifunctional lamp includes a lighting device and a sterilization device. The lighting device includes a base, a lighting member configured to emit flame-like light; and a light-transmitting suspending chamber defined with a mounting opening. The lighting member is mounted into the light-transmitting suspending chamber through the mounting opening. The light-transmitting suspending chamber is arranged at one side of the base with the base sealing the mounting opening and the sterilization device is arranged at the other side of the base. When the multifunctional lamp is put into liquid, the light-transmitting suspending chamber is capable of floating on the liquid and the sterilization device is capable of being deep into the liquid to sterilize the liquid.

The present invention relates to a method for displaying an artificial fire pattern in an artificial fireplace. The method comprises the steps of:—providing a first video, which is based on a recorded video of an actual fire pattern of a fire on a physical fireplace element in an actual fireplace,—arranging an artificial fireplace element in an interior of the artificial fireplace, wherein the shape of the artificial fireplace element substantially corresponds to the shape of the physical fireplace element in the actual fireplace,—displaying a first video, in order to create the artificial fire pattern, wherein the first video is, seen along a line of sight, aligned with the artificial fireplace element, such that the artificial fire pattern substantially resembles to the actual fire pattern.

A faux fireplace having a video faux flame with a selectively controllable speed. A video file stored in memory includes a video loop of the faux flame, wherein a user can selectively control a playback speed of the video loop. This allows a user to control a presentation of the flame, and a flicker rate of the flame to establish an ambiance. A remote control, such as a smart mobile device running an app, can be used to establish the speed of the of the video faux flame and other parameters.

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 lamp has a single, flat, and rigid PCB disposed within a light-scattering cylindrical enclosure. A white set of LEDs is mounted on the faces of the PCB and arranged in a plurality of white rows. A colored set of LEDs is mounted on the two faces and arranged in a plurality of colored rows, the white rows interleaved with the colored rows. A battery rechargeable by solar cell powers the LEDs. Electronic circuitry selectively controls the white LEDs and colored LEDs, the circuitry configured to perform an off mode (white set and colored set are off), an illumination mode (white set is powered on continuously and the colored set is off), and a flame mode (colored LEDs of the colored set are powered on selectively to simulate a flame).

An electronic scented candle is described that includes a movable flame-shaped component, a shell including an installation chamber, a fragrance container that is removably positioned inside the installation chamber and a scent chamber. An electric fan is positioned within the shell to drive the air into the scent chamber and a scent outlet coupled to the scent chamber to allow the fragrance material to leave the scent chamber and to reach an external environment of the electronic scented candle. The electronic candle also includes a receptacle for connecting a power cord on a bottom surface of the electronic candle. The bottom surface includes a plurality of protruding stands that provide a space to allow the power cord to be connected to the receptacle and be routed below the bottom surface.