The efficiency of a device for cooling or heating objects on a belt that moves through a path of a helix, in which gaseous cooling or heating medium is circulated within the device, is improved by positioning fans that circulate the cooling or heating medium so that the fans are distanced from the top of the helix.

Disclosed are a circuit board assembly and a rice cooker, where the circuit board assembly includes: a housing, including a circuit board bracket and a fireproof cover fixing and covering the circuit board bracket, where the fireproof cover and the circuit board bracket are enclosed to define a fireproof cavity; and a circuit board, mounted on the circuit board bracket and accommodated in the fireproof cavity. The present disclosure provides a fireproof cover made of a fireproof material on the circuit board. The fireproof cover and the circuit board bracket may be fixed and covered to define a fireproof cavity, and the circuit board may be accommodated in the fireproof cavity. In this way, the circuit board may be isolated from the outside, to prevent the fire from spreading when the circuit board catches fire, to ensure the safety of users' lives and property.

A cooking assembly can include a cooking vessel, a mixer, and a motor. The cooking vessel can include a bottom contact portion including a first bore therethrough, a heating portion spaced above the bottom contact portion and including a second bore therethrough, and a sidewall connected to the heating portion and together with the heating portion configured to retain food in the cooking vessel. The mixer can be located within the cooking vessel, where the mixer configured to rotate relative to the heating portion. The motor can be connected to the mixer via the first bore and the second bore to drive the mixer to rotate.

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 electric cooking pot has a main body, a pot body, two electric heating elements and two knobs. The pot body is mounted on a top of the main body. Two cooking recesses are formed on the pot body. The two electric heating elements with different heating powers are attached to the two cooking recesses respectively. One of the heating elements is strip-shaped and substantially forms a quadrilateral to avoid underheat near edges of the corresponding cooking recess. The knobs protrude from the main body. The two heating elements are respectively controlled by the two knobs. The two cooking recesses and a center of the knobs are arranged along a straight line for ease of use. A length of a contour of the main body reduces gradually from bottom to top of the main body. Therefore, users can enjoy two freshly prepared dishes at same time.

A food heating apparatus includes a main tank, a water exhaust tank, reserve tanks, communication chambers, heat insulating partition walls, a water exhaust tank and pressure exhaust pipes. The main tank stores water exceeding 100° C. The reserve tanks communicate with the main tank and imparts hydraulic head pressure to the water in the main tank. The communication chambers are respectively between the main tank and the reserve tank and have top plates higher than a top plate of the main tank. The heat insulating partition walls separate the main tank and each reserve tank and protrude into the front communication chamber. The water exhaust tank higher than the communication chambers has an upper surface higher than water surfaces of the reserve tanks. The pressure exhaust pipes have inlet openings in the top plates of the communication chambers and outlet openings within the water exhaust tank higher than the water surfaces.

A control system is described for synchronizing food processing steps performed by a multi-function cooking apparatus with food processing steps performed by one or more remote kitchen appliances, includes a recipe program interface for accessing a recipe program on a data storage device wherein the recipe program is configured to be executed by the cooking apparatus and has internal instructions configured to control functions of the cooking apparatus for performing food processing steps thereon, and has at least one external instruction for a remote food processing step performed by a particular remote kitchen appliance.

A pot cover and a cookware are disclosed. The pot cover may include: a cover body (100); a handle (200) arranged on the cover body (100), where the handle (200) may include: a connecting part (210) configured to connect the cover body (100); and a holding part (220) configured to facilitate holding, where an end of the holding part (220) is provided with a groove (300) for insertion. The cookware may include: a pot body; and the pot cover, where the groove (300) can insert at any position of an opening edge of the pot body.

In one aspect, a spiral cooking device includes a first cooking zone with air configured to move horizontally therethrough in a first direction, a second cooking zone with air configured to move horizontally therethrough in a second direction different than the first direction, and a spiral conveyor belt at least partially positioned in the first and second cooking zones and configured to transport food product thereon through the first and second cooking zones. In one aspect, a spiral cooking device includes a spiral conveyor belt providing a central opening inside the belt and a conveyor belt drive member positioned externally of the central opening. In one aspect, a conveyor belt cleaning device is provided. In one aspect, a cooking device includes a frame including a plurality of coupled pipes for providing structural support to the device and at least one of the pipes is configured to have liquid pass therethrough.

A method of using a storage and cooking device having multiple thermal containers includes disposing a first food item in a first thermal container, a second food item in a second thermal container, and a third food item in a third thermal container. A volume of fluid is cooled and circulated through at least a portion of the device such that thermal energy from at least one of the first, second, or third food item is transferred to the cooled fluid. The device is transitioned from a first operating mode to a second operating mode in response to a criterion being satisfied. When in the second configuration, the volume of fluid is heated and circulated through at least a portion of the device such that thermal energy is transferred from the volume of fluid to at least one of the first, second, or third food item.