The present invention discloses a self-heating hot pot with an anti-scald structure and belongs to the technical field of self-heating hot pots. The self-heating hot pot includes an outer housing, an inner container box and a heating bag; a partition plate is arranged inside the inner container box, a bulge is arranged on the top of the inner container box, and the inner container box is placed on a supporting block on the inner wall of the outer housing by the bulge; an anti-scale device including baffles is arranged on a side wall of the outer housing, the two upper and lower baffles form a circle of heat insulation groove on the side wall of the outer housing, a heat expansion assembly is arranged in the heat insulation groove and is connected with an anti-scald plate.

The present invention discloses a self-heating hot pot with an anti-scald structure and belongs to the technical field of self-heating hot pots. The self-heating hot pot includes an outer housing, an inner container box and a heating bag; a partition plate is arranged inside the inner container box, a bulge is arranged on the top of the inner container box, and the inner container box is placed on a supporting block on the inner wall of the outer housing by the bulge; an anti-scale device including baffles is arranged on a side wall of the outer housing, the two upper and lower baffles form a circle of heat insulation groove on the side wall of the outer housing, a heat expansion assembly is arranged in the heat insulation groove and is connected with an anti-scald plate.

The present invention discloses a self-heating hot pot with an anti-scald structure and belongs to the technical field of self-heating hot pots. The self-heating hot pot includes an outer housing, an inner container box and a heating bag; a partition plate is arranged inside the inner container box, a bulge is arranged on the top of the inner container box, and the inner container box is placed on a supporting block on the inner wall of the outer housing by the bulge; an anti-scale device including baffles is arranged on a side wall of the outer housing, the two upper and lower baffles form a circle of heat insulation groove on the side wall of the outer housing, a heat expansion assembly is arranged in the heat insulation groove and is connected with an anti-scald plate.

The present invention discloses a self-heating hot pot with an anti-scald structure and belongs to the technical field of self-heating hot pots. The self-heating hot pot includes an outer housing, an inner container box and a heating bag; a partition plate is arranged inside the inner container box, a bulge is arranged on the top of the inner container box, and the inner container box is placed on a supporting block on the inner wall of the outer housing by the bulge; an anti-scale device including baffles is arranged on a side wall of the outer housing, the two upper and lower baffles form a circle of heat insulation groove on the side wall of the outer housing, a heat expansion assembly is arranged in the heat insulation groove and is connected with an anti-scald plate.

An oven having water injection system comprising an oven including a compartment enclosed on all sides, a water injector, and a first water valve coupled to the water injector, wherein the water valve includes proportional control.

An oven having water injection system comprising an oven including a compartment enclosed on all sides, a water injector, and a first water valve coupled to the water injector, wherein the water valve includes proportional control.

A water receiving member is reduced in size and is therefore made difficult to visually recognize. A cooking device (1) includes a main body (11), a front door (12), and a waste receiving member (41). The front door (12) has a water droplet restraining part (33) provided on a lower portion of an inner surface of the front door (12) which inner surface faces the heating room (13). While the front door (12) is closed, the water droplet restraining part (33) protrudes diagonally downwardly or horizontally from the inner surface of the front door (12) toward a rear side of the main body (11).

A water receiving member is reduced in size and is therefore made difficult to visually recognize. A cooking device (1) includes a main body (11), a front door (12), and a waste receiving member (41). The front door (12) has a water droplet restraining part (33) provided on a lower portion of an inner surface of the front door (12) which inner surface faces the heating room (13). While the front door (12) is closed, the water droplet restraining part (33) protrudes diagonally downwardly or horizontally from the inner surface of the front door (12) toward a rear side of the main body (11).

A water receiving member is reduced in size and is therefore made difficult to visually recognize. A cooking device (1) includes a main body (11), a front door (12), and a waste receiving member (41). The front door (12) has a water droplet restraining part (33) provided on a lower portion of an inner surface of the front door (12) which inner surface faces the heating room (13). While the front door (12) is closed, the water droplet restraining part (33) protrudes diagonally downwardly or horizontally from the inner surface of the front door (12) toward a rear side of the main body (11).

A pyrolytic oven comprises a housing and a muffle delimiting a cooking chamber inside the housing. A lighting module serves to illuminate the cooking chamber, wherein the lighting module has a cooling structure with an arrangement of cooling extensions formed in particular as pins or ribs, which project into a gap between housing and muffle and have a convection effect in a cooking mode of the oven. A fan device of the oven is configured and controlled to generate an air flow encountering the cooling structure in the gap in a pyrolytic mode of the oven. The cooling structure of the lighting module further has a wall formation, which in pyrolytic mode generates a wind shadow relative to the air flow for a number of cooling extensions of the cooling structure arranged distributed in a transverse plane to the flow direction of the air flow.