An electromagnetic wave shielding film having a wireless energy conversion function is disclosed, which is attached to an exterior surface of the door of a microwave oven and used to absorb electromagnetic waves released by the microwave oven during operation. The electromagnetic wave shielding film comprises: a substrate carrier; a first substrate layer, provided on one side of the substrate carrier, where a wireless energy conversion unit is provided in the first substrate layer and is used to receive the electromagnetic waves and covert the electromagnetic waves to DC electrical energy; and an optically variable assembly, provided on the other side of the substrate carrier, where the optically variable assembly comprises an electrochromic layer and an electrode layer; the electrode layer is used to receive the DC electrical energy from the wireless energy conversion unit and drive the electrochromic layer to change its light transmission property.

A cooking appliance according to a concept of the disclosure includes: a cooking room; and a door configured to open or close the cooking room, wherein the door includes: a door body forming an accommodating space in which a printed circuit board is accommodated; a front panel positioned in front of the door body to cover the accommodating space; and a panel bracket fixed to the front panel and configured to detachably couple the front panel with the door body, and the accommodating space is exposed to an outside of the cooking appliance upon separating of the front panel from the door body.

A heating cooking apparatus includes a heating cooking chamber, a pull-out portion (2), and a placement member (30). The pull-out portion (2) is configured to be pulled out from the heating cooking chamber in a first direction (D1). The placement member (30) is placed on the pull-out portion (2). The placement member (30) includes a placement portion (31) and a pair of protrusion portions (32). An object is placed on the placement portion (31). The pair of protrusion portions (32) protrude from the placement portion (31) in a second direction (D2). The pull-out portion (2) includes a base portion (23) and a pair of side wall portions (50). The placement member (30) is placed on the base portion (23). The pair of side wall portions (50) extend in the first direction (D1), stand upright from the base portion (23), and face each other in the second direction (D2). The pair of side wall portions (50) respectively include a pair of concave portions (54) recessed in a third direction (D3). The pair of protrusion portions (32) are respectively disposed in the pair of concave portions (54).

A heating cooking apparatus includes a heating cooking chamber (100A) and a first air sending unit (14). The heating cooking chamber (100A) includes an accommodation space (120) that accommodates an object to be heated, and a first space (130) that communicates with the accommodation space (120). The first air sending unit (14) includes a first partitioning member (14B) positioned between the first space (130) and a first air sending chamber (14A), a first suction hole portion (14D) disposed in the first partitioning member (14B) and configured to suction air inside the heating cooking chamber (100A), and a first blow-out hole portion (14C) disposed in the first partitioning member (14B) and configured to blow air into the heating cooking chamber (100A). The accommodation space (120) is a space that can accommodate the object to be heated and has a predetermined capacity. The first space (130) indicates a space into which the object to be heated is prohibited from entering.

A heating cooking apparatus (100) includes a housing (1), a lid portion (21), a moving member (25), at least two connecting members (60), and a pivoting mechanism (30). The housing (1) includes an opening and a first face disposed on an outer periphery of the opening. The lid portion (21) includes a second face (21B) facing the first face, and a fixing member (26) fixed to the second face (2B). The moving member (25) moves along a first direction (D1) with respect to the housing (1). At least two connecting members (60) connect the housing (1) and the lid portion (21) when the lid portion (21) is placed at a position where the lid portion (21) covers the opening. The pivoting mechanism (30) couples the fixing member (26) of the lid portion (21) and the moving member (25) such that the lid portion (21) pivots about a rotation axis extending along a second direction intersecting with the first direction (D1).

A door assembly (6) for selectively providing access to, or closing, an oven cavity (5) of an oven appliance, the door assembly comprising: an outer pane element (9) comprising an at least partially transparent region; an inner pane element (10) spaced apart from the outer pane element comprising an at least partially transparent region; optionally one or more center pane elements (11, 12) located between the outer pane element and the inner pane element and comprising an at least partially transparent region; and a camera assembly (7) comprising an optical sensor (38) for obtaining image data from within the oven cavity; characterized in that the door assembly (6) further comprises: an aperture (25) which is provided in one of the pane elements (9, 10, 11, 12) and which accommodates the camera assembly (7).

The present disclosure relates to a cooking appliance disposed above a household appliance to simultaneously perform a hood function and an oven function. The cooking appliance includes a housing, a base plate configured to be coupled to the housing, a cooking chamber disposed inside the housing, a door coupled to the housing to open and close the cooking chamber, and a deflector spaced apart from a lower end of the door and coupled to a front edge of the base plate to cover the lower end of the door from hot air generated and transferred from a household appliance installed below the base plate.

A heating cooking apparatus (1) includes a heating cooking chamber (10), a housing (14), an opening/closing portion (30a), and a microwave supply unit (23). The opening/closing portion (30a) includes a flowing portion (31), a cam (32), a drive unit (33), a lid portion (34), and a biasing portion (35). The flowing portion (31) includes an opening (310B) that faces a through hole (10A1). The flowing portion (31) forms, between the flowing portion and the wall portion (10A), an inner space (IR) through which air flows. The cam (32) fits into the opening (310B). The drive unit (33) rotates the cam (32). The lid portion (34) opens or closes the through hole (10A1) in response to the rotation of the cam (32). The biasing portion (35) biases the lid portion (34) in a direction away from the through hole (10A1). The cam (32) presses the lid portion (34) against biasing force of the biasing portion (35) to cause the lid portion (34) to close the through hole (10A1).

A heating cooking apparatus (100) includes a heating cooking chamber (100A), a microwave supply unit (15), and a pull-out body (2). The microwave supply unit (15) includes a microwave generation unit (151) configured to generate microwaves, a radiation port (15C) for radiating the microwaves into the heating cooking chamber (100A), and a waveguide (152) positioned below the heating cooking chamber (100A) and configured to guide the microwaves from the microwave generation unit (151) to the radiation port (15C). The pull-out body (2) includes a pull-out main body on which the object (H) to be heated is placed, and a support member (25) positioned below the heating cooking chamber (100A) and configured to support the pull-out main body. The support member (25) extends in a first direction (D1). The support member (25) and the waveguide (152) are positioned at different positions in a second direction (D2) intersecting the first direction (D1) and a vertical direction.

A push button assembly for a cooking appliance may include a button, a button base coupled to the button defining an interior, and a button support coupled to the button and disposed within the interior. The button support may include a boss defining a channel. A support pin may be rotatably coupled with the button support. A pin may be coupled with the button base and slidably received within the channel. The push button assembly may further include a lever having a first end and second end. The lever may define an aperture configured to receive the pin.