A cooking vessel includes a base having a flat bottom and a sidewall connected to and surrounding the base, thereby defining an interior space configured for containing food. The base comprises a layered composite material that includes a first layer of the composite material has a positive Poisson's ratio (PPR) and a second layer of the composite material is disposed in contact with the first layer. The cooking vessel includes a material having a negative Poisson's ratio (NPR).

A cooking food vessel including a metal body, at least one handle, constrained to a portion of the metal body via a metal fastening element, and at least one thermal signalling device, applied on a portion of the handle placed at a respective component having thermal conductivity properties. The thermal signalling device is provided with at least one indicating element operatively connected to a respective actuating element made of a shape-memory alloy. The actuating element is a shape-memory coil spring, indirectly contacting the component having thermal conductivity properties and configured to switch from a first non-operative configuration, wherein is inactive, to a second operative configuration, wherein is stretched when a predefined temperature value is achieved. Between the actuating element and the component having thermal conductivity properties is interposed a metal base for modulation and/or thermal enhancement which transfers heat to such actuating element.

Cooking food vessel including a metal body, a handle, constrained to a portion of the metal body via a metal fixing element, a metal flame guard ring, placed in contact with a metal body portion to provide thermal conduction, and a thermal signalling device including at least one bimetal sheet formed of a first metal material and a second metal material having coefficients of thermal expansion different from each other. The bimetal sheet is placed in contact with components having thermal conductivity properties and is preset for signalling attainment of predefined heating value by progressive mechanical movement related to the cooking vessel becoming hot. The flame guard ring has one or more through holes and the bimetal sheet shaped and dimensioned so at least one indicating portion thereof is at least partially visible through the through holes at a specific temperature value.

A moka pot includes a lower chamber, an upper chamber connected to the lower chamber, the upper chamber having a handle mount, and a handle. The handle has a first end pivotally attached to the handle mount and a second end spaced away from a side of the upper chamber. The handle is pivotable between a first position in which the handle extends along the side of the upper chamber and a second position in which the handle extends away from the upper chamber such that the second end of the handle is spaced further from the side of the upper chamber in the second position than in the first position.

Provided is a cooking vessel (1) including a body (2) equipped with a bottom (3) and a lateral wall (4), a handle (20) mounted to the body (2) by mounting means (6, 22), and a sensor (30) disposed in a receiving housing (11) near the bottom (3) and equipped with at least one electrically insulated conducting element (31, 32), said sensor (30) and said conducting element (31, 32) being mounted to a support (40) which extends from the bottom (3) along the lateral wall (4) and which is mounted to the handle (20). The support (40) includes a retaining part (42) for the sensor and the conducting element and at least one programmed deformation area (50, 55a, 55b) to allow mobility between the retaining part (42) for the sensor and the conducting element and the handle (20) in at least one direction.

Provided is a method of producing a cooking vessel, including the following steps: forming a blank from a sheet of stainless steel; drawing of the blank to form a cap comprising an interior surface and an exterior surface, the interior surface comprising a flat base area surrounded by a side wall; hot stamping of a diffuser base onto the exterior surface of the cap; engraving of a grid pattern over at least one portion of the base area of the interior surface of the cap to form a network of ribs having top surfaces that extend above the valleys and side surfaces that are distinct from the bottom surfaces of the valleys, said side surfaces of the ribs connecting the top surfaces of the ribs to the bottom surfaces of the valleys, the side surfaces of the ribs forming ramps connecting the top surfaces of the ribs to the bottom surfaces of the valley; sanding of at least the engraved base area of the interior surface of the cap, to create roughness; applying a non-stick coating on at least the sanded, engraved base area; and brushing and/or polishing of at least the sanded, engraved and coated base area to reveal the stainless steel on the top surfaces of the ribs.

A hot air fryer includes a main body, a vessel that can be removed from the main body and a basket that can be removed from the vessel. The fryer also includes a manipulating system having a configuration changing system that makes it possible to manipulate the vessel incorporating the basket at the same time, or to manipulate the basket alone, released and removed from the vessel, or to manipulate the vessel alone, released and removed from the basket, so as to allow a first mode of cooking foods in the basket incorporated in the vessel and a second mode of cooking foods directly in the vessel, the basket being extracted from the latter.

A hot air fryer cooking appliance includes a hot air blowing system, a vessel and a basket. The basket includes a manipulating handle having a bracket and the vessel including an upper edge and a receiving area for the handle. The bracket bears against the upper edge and the handle is housed in the receiving area when positioning the basket in the vessel. The basket includes on its outer and inner walls a first and a second assembly part, respectively. These assembly parts cooperate and ensure the lateral guiding of the basket when positioning the basket in the vessel until the handle reaches its position in its receiving area and the basket reaches a centered bearing position in the vessel, allowing the bottom of the basket to be kept away from the bottom of the vessel and to be laterally wedged in the vessel.

A hot air fryer cooking appliance includes a hot air blowing system, a vessel and a basket. The basket includes a manipulating handle having a bracket and the vessel including an upper edge and a receiving area for the handle. The bracket bears against the upper edge and the handle is housed in the receiving area when positioning the basket in the vessel. The basket includes on its outer and inner walls a first and a second assembly part, respectively. These assembly parts cooperate and ensure the lateral guiding of the basket when positioning the basket in the vessel until the handle reaches its position in its receiving area and the basket reaches a centered bearing position in the vessel, allowing the bottom of the basket to be kept away from the bottom of the vessel and to be laterally wedged in the vessel.

A food holding tray and a system for holding prepared food items include a shell that defines at least one food receiving area internal to the shell. A plurality of sensors are arranged about the shell and directed into the food receiving area. A processor is communicatively connected to the plurality of sensors to receive signals from the sensors. The processor calculates holding data from the signals received from the sensors.