A gasket is for attachment to a mounting base comprising either an oven door or an oven-door strike surface for abutting a closed oven door. The mounting base has mounting receptacles to secure the gasket, which has a tubular gasket body with a gasket core and a jacket disposed radially outwardly from and surrounding the gasket core, which surrounds a body interior. A frame within the body interior extends along the body interior and defines a shape alignable with a mounting configuration. The frame is elongated movable within the body interior to allow limited movement of the gasket body with respect to the shape by allowing movement of the frame within the body interior. Spring clips extend radially outwardly from the gasket body and are located and configured to engage the mounting receptacles to secure the gasket to the mounting base.

A vacuum insulated structure includes a trim breaker having a wrapper channel and a liner channel that extend perimetrically about the trim breaker. An inner liner is attached to the trim breaker at the liner channel. An outer wrapper is attached to the trim breaker at the wrapper channel. A metallic plate is disposed within the trim breaker and extends from a first area proximate the liner channel to a second area proximate the wrapper channel. The metallic plate defines an internal barrier to gas permeation through the trim breaker.

A gasket may include a tubular section which has a protection layer and a mesh layer. The protection layer may form a first tube, and the mesh layer may form a second tube, which may be enclosed in the first tube. The mesh layer may be formed by a metal wire in a spiral fashion extending along an axial direction of the second tube. The mesh layer may provide an elastic support to the protection layer when the protection layer tube is pressed by an external force.

An oven includes a main body having a cooking room, a door disposed in the main body to open or close the cooking room, a door having a window to view the inside of the cooking room, a light emitting member disposed in the door, and a guide member to guide light of the light emitting member toward the cooking room.

A deflecting element is arranged in an oven door and aligned adjacent the ventilation openings to inhibit accidental spills through the openings from fouling interior door components. The deflecting element can have a plurality of tiered blades with associated respective channels for guiding and accumulating spills. One or several of the blades can have an angled deflector portion for guiding overflow liquid to a subjacent blade, away from interior glass panels. When the oven door is rotated into an upright position, closed position, liquid accumulated in the respective channels is conducted to the lateral edges of the door, where it can be guided via ducts out the base of the door or otherwise collected in removable reservoirs.

A door damper (100) is made preferably of heat-resistant plastic material and comprises a damper element (150) as well as a pestle (110) that is securely guided in the housing (120) of the door damper. As an integrated structure, it can be mounted at any suitable location at a household appliance (160) that is cool and the pestle (110) can directly contact the front door (220, 300). Beneficially, it comprises an orifice (140) at the housing (120) to fix it at a sidewall of a household appliance (161) or at the front door (220, 300). Beneficially, the door damper also comprises a switch (145) that allows switching a door alarm, a light or influencing cooking functions.

A cooking appliance includes a packing member disposed between a case and a door and a fixing member which fixes the packing member to any one of the case and the door. The packing member and the fixing member are coupled in the form in which both sides in a front-rear direction of the fixing member inserted into the packing member are surrounded by the packing member.

A door for sealing a cooking chamber of a cooking appliance includes a rear wall and a condensate collection device for collecting a condensate draining from a rear side of the rear wall. The condensate collection device includes a collection and guide rail to collect condensate draining from the rear side and to divert the condensate in the direction of a collection container of the condensate collection device.

A door assembly for a cooking appliance includes an inner door assembly disposed adjacent a cooking cavity of the cooking appliance when the door assembly is in a closed position. An outer door assembly is coupled with the inner door assembly. The outer door assembly includes a panel. A skin bonds with the panel via an insulation arrangement disposed between the panel and the skin. The insulation arrangement includes a first adhesive that adheres the skin with a first surface of the insulation arrangement and a second adhesive that adheres the panel with a second surface of the insulation arrangement. A bonding feature extends from the skin to the panel to permanently bond the skin with the panel.

Disclosed is a hot air cooking appliance comprising a base seat provided with a receiving chamber, the base seat is provided with a heating device and an air supply device capable of supplying and circulating hot air in the receiving chamber, the hot air cooking appliance is provided with an air exhaust port disposed distally from the air supply device, and during the process of cooking by the hot air cooking appliance, the water vapor generated in the receiving chamber is discharged into the atmosphere through the air exhaust port. The hot air cooking appliance of the present application is structurally simple and capable of reducing heat loss, noise, oily fume emissions, and indoor air pollution, as well as ensuring adequate amount of water vapor is generated to accomplish cooking.