An electromagnetic oven includes a bottom case (1), a panel (2) and a thermostat (3). The thermostat (3) includes an inner bracket (31), a top end of the inner bracket (31) is provided with a temperature sensing cover (32) that contacts a cooking pot, and an inner cavity of the inner bracket (31) is provided with a temperature measuring element (33) for measuring a temperature of the temperature sensing cover (32) in a contact or non-contact manner. The thermostat (3) protrudes from a through hole of the panel (2) in a telescopic manner, and the temperature sensing cover (32) of the thermostat (3) contacts the cooking pot. A sealing structure for preventing soup from entering or a drainage structure for guiding the soup out of the bottom case (1) is disposed between the through hole of the panel (2) and the thermostat (3). In the present invention, the through hole is formed at the panel (2), and the telescopic thermostat (3) is disposed in the through hole, so that a close contact between the thermostat (3) and a bottom of the cooking pot may be realized, and an accurate measurement of a temperature of the bottom of the cooking pot by the thermostat (3) is ensured. The sealing structure or the drainage structure at the through hole of the panel prevents the soup on the panel (2) from entering an electrical component in the bottom case (1).

An electromagnetic oven includes a bottom case (1), a panel (2) and a thermostat (3). The thermostat (3) includes an inner bracket (31), a top end of the inner bracket (31) is provided with a temperature sensing cover (32) that contacts a cooking pot, and an inner cavity of the inner bracket (31) is provided with a temperature measuring element (33) for measuring a temperature of the temperature sensing cover (32) in a contact or non-contact manner. The thermostat (3) protrudes from a through hole of the panel (2) in a telescopic manner, and the temperature sensing cover (32) of the thermostat (3) contacts the cooking pot. A sealing structure for preventing soup from entering or a drainage structure for guiding the soup out of the bottom case (1) is disposed between the through hole of the panel (2) and the thermostat (3). In the present invention, the through hole is formed at the panel (2), and the telescopic thermostat (3) is disposed in the through hole, so that a close contact between the thermostat (3) and a bottom of the cooking pot may be realized, and an accurate measurement of a temperature of the bottom of the cooking pot by the thermostat (3) is ensured. The sealing structure or the drainage structure at the through hole of the panel prevents the soup on the panel (2) from entering an electrical component in the bottom case (1).

An oven in which a cooking space in a cooking chamber is dividable into a plurality of individual cooking spaces by a partition member. The oven includes a door assembly including a main door rotatably combined with a main body and provided with a plurality of openings corresponding to the respective plurality of individual cooking spaces and a plurality of individual doors rotatably combined with the main body to open and close the respective plurality of openings. The door assembly may selectively open and close the entirety of the cooking space or the respective plurality of individual cooking spaces, and thus a heat loss or danger of burn generated due to opening and closing the main door when only the individual cooking space is used may be prevented.

The present invention comprises a precision cooking oven that utilizes laser sheets to cook food, thus creating homogeneously heated and uniformly seared food bodies and surfaces. Laser sheets move back and forth evenly injecting heat into items being cooked. All food cold or hot areas can be eliminated since intersecting laser lines can be completely projected on and accommodate an item's exterior surfaces. Items with non-uniform cross-sections and properties can be cooked uniformly by controlling the exact amount of energy projected into differing sections of the food. The oven is also capable of cooking autonomously. Since laser sheets can be precisely controlled, cooking results can be very predictable once the boundary conditions for a thermal analysis are determined. The oven can detect the properties of the items to be cooked and thereafter compute the needed time and power to achieve the desired results stipulated by an oven operator.

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.

A flame simulating assembly including a light source, a screen having a translucent region which subjects light from the light source transmitted therethrough to diffusion and a transparent region, and a flicker element for intermittently reflecting the light from the light source toward the screen, to provide images of flames in a predetermined portion thereof. The screen includes a fringe region positioned between the translucent region and the transparent region. The fringe region includes a number of diffusing areas for diffusing the light from the light source and a number of transparent areas positioned between the diffusing areas, to at least partially provide images of flames in the diffusing areas.

A heat cooking device comprises a casing, a heating chamber, and an exhaust duct having an outlet provided on a rear edge side of an upper surface of the casing such that exhaust air from an inside of the casing is blown out forward. An upper outer wall surface of a rear surface plate of the casing is covered by the exhaust duct to form an exhaust passage between the casing and the exhaust duct. A guidance part is provided inside the exhaust passage, and guides the water infiltrating into the exhaust passage through the outlet of the exhaust duct, downward inside the exhaust passage.

A floating litter collection system for collecting floating debris from the surface of water flowing in a water stream, comprising a wire mesh container having an open front end, a first buoyant device secured to a first side of the container, a second buoyant device secured to the second side of the container, and a pair of mooring lines for anchoring the container to the water banks of the water stream. The system may include a pair of floating booms secured to the mooring lines to direct debris floating on the surface of the water into the container. The system may include a fin attached to the bottom of the container to orient the front end of the container in an upstream direction. The system may include a floating anchor to orient the front end of the container in an upstream direction.

An electric heating apparatus (1) including an electric heater (12) and a flame simulator (2). The apparatus includes an air outlet channel (14) for expelling heated air wherein the cross-sectional area of the air outlet channel (13) increases with increased distance from the heater.

A lining construction (10) for an oven (40), has a top panel (11), a base panel (12), a rear panel (13), a left side panel (14) and a right side panel (15), constructed from a stone material, such as engineered stone. The top panel (11), base panel (12), rear panel (13), left side panel (14) and right side panel (15) are supported on a structural framework (16) to form a lining cassette (20). The lining cassette (20) can then be engaged with and secured in a housing (32) of a range cooker (30), via mounting brackets (21). A single modular construction of lining cassette (20) can be combined with different sizes and configurations of housing (32) to provide an array of range cookers (30) with different configurations and numbers of ovens (40).