Disclosed herein is an oven able to reduce the temperature of an upper portion of the front glass through a door duct having an improved flow path structure for some of the air sucked into the inside of the door to reach to the upper portion of the front glass. An oven includes a main body; a cooking room provided inside the main body with an open front; a door, wherein the door includes a front glass installed on a front side; a rear glass installed on a rear side; at least one middle glass arranged between the front glass and the rear glass; a door handle coupled to an upper portion of the front glass; support frames arranged on both sides of the door to fix the front glass, the rear glass, and the middle glass; and a door duct coupled to an upper portion of the support.

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.

An interlock switch structure and a microwave oven are disclosed. The interlock switch structure includes a substrate, a sliding latch, a tactile disk member, a door hook, a first elastic member, and multiple micro-switches. The substrate is provided with a chute structure, the sliding latch slidably matches with a chute of the chute structure, the sliding latch is provided with a sliding surface to match with the door hook. The tactile disk member is pivotally communicated with the substrate, the micro-switch is located on a periphery of the tactile disk member, and contact points of the micro-switches are toward the tactile disk member. The tactile disk member is provided with a seesaw to match with the door hook; a circumferential surface of the tactile disk member is provided with a rotating surface to match with the sliding latch.

An oven appliance includes a cabinet defining a cooking chamber to receive items to be cooked. The oven appliance includes a door that rotates between an open and closed position. A braided gasket is interposed between the door and the perimeter of the outer walls of the cooking chamber when the door is in the closed position. The braided gasket is attached to the perimeter by one or more gasket clips. The gasket clips have a head, a body positioned perpendicular to the head, and a leg extending from the end of the body and overlapping at least a portion of the body, at least a portion of the leg extending parallel to the body. A tail extends from an end of the head, at least a portion of the tail extending parallel to the body.

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.

A cooking appliance with a self-cleaning function includes: a cooking chamber partially formed by an inner enclosure; a cleaning device for cleaning the cooking chamber, the cleaning device including a delivery device and a distribution device; a closure element for closing and clearing an access opening of the cooking chamber; and at least one cooking chamber seal disposed in a cooking chamber groove of the cooking appliance such that the at least one cooking chamber seal faces the closure element, the cooking chamber groove being formed by the inner enclosure and/or by a front housing wall of the cooking appliance. The cooking chamber seal, at least in some sections, has at least one slot extending along a principal direction of extent thereof, the at least one slot being open inwardly in a mounting direction and/or outwardly in a direction opposite the mounting direction.

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.

The disclosure relates to a cooking appliance capable of reducing noise generated when a door is closed using a buffer member that is easily fixed to a hinge unit. The cooking appliance includes a main body, a cooking chamber provided to have a front surface opened inside the main body, a door to open and close the cooking chamber, a hinge unit coupled to the main body to rotatably support the door, and a buffer member fixed to the door to buffer an impact generated when the door is closed by contacting the hinge unit when the door is closed.

An oven includes an oven body, a heating element, a frame, and an oven door. The oven body has an inner space inside and includes a front plate, wherein the front plate has an entrance that communicates with the inner space. The heating element is adapted to heat the inner space. The frame is engaged with the oven body and has an abutted portion. The oven door is pivotally connected to the oven body and is located at the entrance. The oven door can pivot to a closed position to close the entrance and can pivot downward to an open position from the closed position to open the entrance. When the oven door is located at the open position, the second surface abuts against the abutted portion of the frame, thereby forming a platform outside the entrance for placing objects.

A domestic oven (1) comprising a heatable oven cavity (2) having a frontal opening (3), and a door (4) for closing said frontal opening (3), wherein the door (4) comprises a first door wing (5) and a second door wing (6), wherein each door wing (5, 6) comprises a first vertical edge (7, 8) that is mounted pivotally about a vertical axis (a, a) respectively on one of the opposite sides (9, 10) of said frontal opening (3) to a structure (11) of the domestic oven (1) for a movement between a closed position (c) and an open position (b) of the door (4), wherein in said closed position (c) of the door (4) the door wings (5, 6) form a vertical gap (12) between adjacent second vertical edges (13, 14) of either door wing (5, 6).