An embodiment of the present disclosure provides an oven including a body, a door, a drawer and a stopper. The body is formed with a baking chamber and a receiving chamber, and the stopper is located at an end of the drawer away from the receiving chamber when the drawer moves into the receiving chamber and the door closes the baking chamber. The stopper is located at least partially between the door and the drawer.

A gas oven with stations under parallel or synchronous control includes a plurality of temperature sensors, a controller and a plurality of processing stations. An air intake device includes a throttle valve, a gas transmission pipeline and a main gas valve. The throttle valve includes a combined gas control unit and a gas valve controller. The air intake device further includes an external gas supply source, and the gas supply source is connected to the gas transmission pipeline and a bakeware. The main gas valve and the throttle valve are separately arranged on the main gas transmission pipeline. The plurality of processing stations are provided with a plurality of gas sub-transmission pipelines and throttle valve gas main transmission pipelines, respectively. The gas oven further includes a communication module connected to a remote control to control the oven by way of a remote terminal or a mobile phone app.

The present invention relates to a domestic appliance, particularly a cooking oven, comprising a chassis and a door hinged to the chassis at a rotating axis of the door, wherein the door comprises at least one door panel, at least one door frame attached at an inner side of the door panel, at least one electric or electronic unit attached inside or at the door, at least one electrically conducting cable for interconnecting the electric or electronic unit to a control unit arranged at or in the chassis of the domestic appliance, at least one cable channel attached or attachable to the door frame for guiding a first section of the cable, and at least one cable tube arranged within the region of a rotating axis of the door for guiding a second section of the cable from the door frame to the chassis, wherein the cable tube comprises a main section, and a first end section for connecting the cable tube to the hinge-sided end of the door and a second end section for connecting the cable tube to the chassis, wherein the main section is connecting the first end section the second end section, and wherein at least one of the first end section and/or the second end section configured to be freely pivotable relative to a rotational axis (y) running essentially in parallel to the main section.

A cooking appliance includes a cooking cavity, a first heating element disposed adjacent a top of the cooking cavity, a second heating element disposed adjacent a bottom of the cooking cavity, first temperature sensor disposed adjacent the top of the cooking cavity, a second temperature sensor disposed adjacent the bottom of the cooking cavity, a blower arranged to agitate air within the cooking cavity, a cookware device removably disposed atop and in thermal contact with the second heating element and the second temperature sensor, and a controller adapted to manually receiving cooking parameters from a user and sensed temperature information from the first and second temperature sensors and to independently and selectively control the heating elements and the blower according thereto.

A gas oven with stations under parallel or synchronous control includes a plurality of temperature sensors, a controller and a plurality of processing stations. An air intake device includes a throttle valve, a gas transmission pipeline and a main gas valve. The throttle valve includes a combined gas control unit and a gas valve controller. The air intake device further includes an external gas supply source, and the gas supply source is connected to the gas transmission pipeline and a bakeware. The main gas valve and the throttle valve are separately arranged on the main gas transmission pipeline. The plurality of processing stations are provided with a plurality of gas sub-transmission pipelines and throttle valve gas main transmission pipelines, respectively. The gas oven further includes a communication module connected to a remote control to control the oven by way of a remote terminal or a mobile phone app.

A domestic appliance has a width in a horizontal direction and a height in a vertical direction. The appliance includes a main housing; and a first door attached to the main housing. The first door has a rear portion, the rear portion being positionally fixed in the horizontal direction relative to the housing, a door retainer attachable to the rear portion such that the door retainer is locatable at a plurality of different positions relative to the rear portion, and a door skin, the door skin being removably attached to the door retainer.

A cooking device includes a frame forming a cooking chamber; a door opening and closing the cooking chamber; a burner cover disposed in the cooking chamber; and a burner located in the burner cover, the burner generating a flame, wherein the burner cover is provided with a first hole providing a path through which air flows, and the frame is provided with a second hole communicating with the first hole, the second hole providing a path through which the air flows.

A cooking system is provided. In one embodiment, the cooking system includes a housing having a first internal heating compartment having a first opening, and a second internal heating compartment having a second opening. A first heating element is configured to heat the first internal heating compartment, and a second heating element is configured to heat the second internal heating compartment. The system further includes a door assembly having a first door configured to cover the first opening, a second door configured to cover the second opening, a first frame member, and a second frame member. The second door is pivotally arranged relative to the first door and is configured to selectively allow access to the second internal heating compartment while the first door covers the first opening, and the second door selectively locks to the first frame member and the second frame member.

A two-step door opening mechanism for an oven is provided. The mechanism includes first and second buttons, arranged side-by-side on a front panel of the oven, the oven defining an oven cavity openable and closable by an oven door, the first and second buttons being separately actuatable one after the other for providing two distinct actions to be performed to open the oven door. The first button, once actuated, is operable to unlock the second button, and the second button, once actuated, is operable to open the door when the second button is unlocked.

An oven appliance defines a vertical direction, a lateral direction and a transverse direction. The vertical, lateral and transverse directions are mutually perpendicular. The oven appliance includes a cabinet extending between a first side portion and a second side portion along the lateral direction. The cabinet also extends between a top portion and a bottom portion along the vertical direction. The cabinet defines an upper cooking chamber positioned adjacent the top portion of the cabinet and a lower cooking chamber positioned adjacent the lower portion of the cabinet. The oven appliance also includes a first heating element in direct thermal communication with the upper cooking chamber and a second heating element in direct thermal communication with the lower cooking chamber.