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.

A faux fireplace having a controller generating an imitation log crackling sound synchronized to an ember flicker of a faux log. The faux fireplace includes a video display displaying a video flame having releasing embers based on a video loop stored as a video file in memory. The controller generates the imitation log crackling sound for the displayed releasing embers as well. The type of crackling sounds and the volume of the crackling sound are different for each of tile faux logs to create an authentic visual and audio experience. The ember flickers are generated by lighting associated with each of the faux logs.

An oven appliance may include a cabinet, a plurality of chamber walls, a top heating element, and a cooking plate. The plurality of chamber walls may be mounted within the cabinet and define a cooking chamber. The plurality of chamber walls may include a back wall, a top wall, a first side wall, a second side wall, and a bottom wall. The top heating element may be mounted within the cabinet to heat the cooking chamber. The top heating element may define a horizontal heating profile within the cooking chamber. The cooking plate may be disposed within the cooking chamber below the top heating element. The cooking plate may define a cooking surface having a horizontal cooking profile. The horizontal cooking profile may be matched to the horizontal heating profile.

A space oven operates in microgravity environments by forcing convection towards the center through a unique heating element and airflow design. The space oven includes a tubular chamber, a heating rack, a heating system, a cooling system, a hatch, a user interface, a microcontroller, an enclosure, at least one first vent, at least one second vent and at least one temperature sensor. The tubular chamber is the cooking area. The heating rack holds consumables in place. The heating system heats up consumables. The cooling system prevents any overheating. The hatch closes off and allows access to the inside of the tubular chamber. The user interface allows a user to input commands. The microcontroller manages the electronic components. The enclosure protects the tubular chamber. The at least one first vent and the at least one second vent reduce pressure buildup. The at least one temperature sensor monitors the internal temperature.

An intelligent electric fireplace includes a housing, a simulated charcoal and a first light-emitting device. The first light-emitting device is configured to emit light toward the simulated charcoal to form a burning effect of the simulated charcoal. An ultraviolet germicidal lamp is turned on/off according to an air quality condition fed back by an air quality sensing module to reduce a waste caused by the ultraviolet germicidal lamp that is still used when the air quality condition meets the standard. It is more energy-saving and environmentally friendly, and it is more intelligent.

The artificial fireplace includes an enclosure delimited by a lower wall, an upper wall and a peripheral wall. The peripheral wall includes an opening, a bed of fake embers being disposed inside the enclosure on a base defined by the lower wall. The enclosure is also provided with a projector for an image, in particular animated flames, towards a display screen disposed in the enclosure in a line of sight extending through the opening. The display screen is defined by a transparent glass plate extending between the bed of fake embers and the projector, while forming, in relation to the incident ray emanating from the projector, an angle ranging between 50° and 56°. The projector is defined for broadcasting images, in particular animated flames, through a linear polarized light. The invention also relates to a fireplace unit or stove comprising an artificial fireplace.

A simulated electronic fireplace that is configured to be mounted in a wall wherein the present invention provides a graphical image of a fire and is further configured to produce and distribute heat. The present invention includes a housing having a display monitor on the front thereof. The display monitor is operably coupled to a controller wherein the controller is communicably coupled to a mobile computing device having a software application for operation of the simulated electronic fireplace installed thereon. The present invention includes facilitation through the software application an ability to select a desired image to be displayed on the display monitor and further provide monitoring of a data input stream. Data parameters of the data input stream are monitored for changes. Upon detecting a change in a data parameter the graphical image of the fire is temporarily altered and then returned to its original state.

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.

A faux fireplace having a controller generating an imitation log crackling sound synchronized to an ember flicker of a faux log. The faux fireplace includes a video display displaying a video flame having releasing embers based on a video loop stored as a video file in memory. The controller generates the imitation log crackling sound for the displayed releasing embers as well. The type of crackling sounds and the volume of the crackling sound are different for each of the faux logs to create an authentic visual and audio experience. The ember flickers are generated by lighting associated with each of the faux logs.