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 electric stove comprising a first body made of thermally conductive material and defining a hermetically sealed first chamber; a second body made of thermally conductive material and defining a hermetically sealed second chamber, inside which is contained the first body to make, between the first and the second body, at least one interspace containing at least one working fluid to be heated; a heating device/element/component/unit or the like (or heater), arranged dipped in the working fluid and electrically operable to heat the latter.

An electric fireplace (10) includes a fireplace housing (12) and an electrical insert (40). The fireplace housing (12) includes a base panel (30) having a base opening (230A), a back panel (32), and at least one side panel (34). The electrical insert (40) is sized and shaped to fit and be supported and retained within the base opening (230A). Additionally, the electrical insert (40) can include a heater (26), and a controller (28) including a processor that is configured to control operation of the electric fireplace (10). Further, each of the base panel (30), the back panel (32) and the at least one side panel (34) can be manufactured and installed independently of one another. The fireplace housing (12) can further include a front frame (236) that is manufactured and installed independently of each of the base panel (30), the back panel (32) and the at least one side panel (34). Still further, at least one of the back panel (32) and the at least one side panel (34) can be foldable.

A combined furniture and heating device having a concealable electric fireplace insert installed within a fireplace compartment of a furniture apparatus is provided. The electric fireplace insert has a front surface from which simulated flames are viewable when an opening of the fireplace compartment is uncovered so that the furniture apparatus is configured in its open configuration. The furniture apparatus includes a concealing panel removably installable over the opening configure the device in a concealed configuration so that the electric fireplace insert and its simulated flames viewable at its front surface are at least partially concealed. Power to a heating apparatus of the electric fireplace insert is turned on and off by a disabling device as the concealing panel is alternated between the open and concealed configurations. The disabling device can include a switch or a thermistor.

Apparatuses, systems, methods, and computer program products for an electric fireplace are described. An apparatus may include an electronic display configured to display one or more flame visualizations. An apparatus may include a heat source coupled to the electronic display and configured to heat a surrounding environment. An apparatus may include a cooling source coupled to the electronic display and configured to cool the surrounding environment, the electronic display, the heat source, and the cooling source sharing a single power source.

A cooking appliance is provided that includes a cooktop and a double oven. A first oven may be a standard radiant or convection oven. A second oven comprises a combined toaster-oven and air fryer. The combined toaster-oven and air fryer can include a heat source that is the same as or different from the heat source of the first oven. The heat source of the second oven can include a plurality of graphite bake heating elements and a plurality of graphite broil elements. The second oven includes a fan disposed configured to provide targeted air flow directly onto a food load that is placed inside said second oven.

A flame simulating assembly is provided with a reflected flickering light that includes only one light source. Light from the light source passes through a rotating flicker element onto one or more reflectors, or mirrors, that reflect light up onto a simulated fuel bed and the some of the light is reflected off of the flicker elements towards a flame screen to create a simulated flame. The dipping flicker elements creates a fluttering light effect due to the flicker elements “intermittently dipping” into the light path. This fluctuating light is reflected onto the logs and ember bed in front and creates a dancing effect, which simulates glowing embers.

An oven appliance is provided. In one aspect, the oven appliance includes a cabinet with a cooking chamber for receipt of food for cooking. The oven appliance further includes multiple fans disposed within a fan enclosure defined by a cover. A divider is positioned between the fans to separate the fan enclosure into a top region and a bottom region. A shroud defines a fan opening in which one of the fans is positioned and separates the top region into a suction region and an exhaust region. The fans generate an airflow pattern within the cooking chamber based on a selected convection cooking mode.

An oven appliance is provided. In one aspect, the oven appliance includes a cabinet with a cooking chamber for receipt of food for cooking. The oven appliance further includes multiple fans disposed within a fan enclosure defined by a cover. A divider is positioned between the fans to separate the fan enclosure into a top region and a bottom region. A shroud defines a fan opening in which one of the fans is positioned and separates the top region into a suction region and an exhaust region. The fans generate an airflow pattern within the cooking chamber based on a selected convection cooking mode.

A method for operating a cooking system includes receiving information from a powered cooking accessory positioned within an interior cavity of an oven. The powered cooking accessory includes a body receivable within an interior of the oven, a first electronic device coupled with the body, and a device coupling extending from the body. The method further includes determining at least one characteristic of the powered cooking accessory and providing electrical power to the electronic device by an electrical coupling between the device coupling and a connection port within the interior cavity of the oven at a predetermined output level based on the at least one characteristic thereof.