The invention discloses an automatic cooking device, comprising a main machine, a pot body, a spatula, a spatula driving apparatus and a blocking frame, wherein: a lower opening of a feed passage of the blocking frame is jointed with a top opening of the pot body; the spatula is configured to swing in a reciprocating manner between a first limit position and a second limit position by means of the drive of the spatula driving apparatus; the main machine comprises a control box and a frame; a pot mouth encircling edge is provided along an edge of the top opening of the pot body; at least one part of the pot mouth encircling edge and a lower rim of the blocking frame form a slidable contact fit; and a protruding blocking part is formed on the pot mouth encircling edge at the periphery of the blocking frame.

The invention discloses an automatic cooking device, comprising a main machine, a pot body, a spatula, a spatula driving apparatus and a blocking frame, wherein: a lower opening of a feed passage of the blocking frame is jointed with a top opening of the pot body; the spatula is configured to swing in a reciprocating manner between a first limit position and a second limit position by means of the drive of the spatula driving apparatus; the main machine comprises a control box and a frame; a pot mouth encircling edge is provided along an edge of the top opening of the pot body; at least one part of the pot mouth encircling edge and a lower rim of the blocking frame form a slidable contact fit; and a protruding blocking part is formed on the pot mouth encircling edge at the periphery of the blocking frame.

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 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.

The invention relates to an electrically operated food processor (1) for preparing a cooked product, which exhibits a basic unit (14), a vessel (2) with an agitator (18) that can be inserted into the basic unit (14), a heating device (9) allocated to the vessel (2), a temperature sensor (5), a transceiver device (12) for communicating with the temperature sensor (5), and an evaluator (13) for evaluating the measurement data received from the temperature sensor (5). In order to provide an electric food processor (1) with an alternative connection between the temperature sensor (5) and evaluator (13), it is proposed that the temperature sensor (5) be a surface acoustic wave sensor (SAW sensor).

The invention relates to an electrically operated food processor (1) for preparing a cooked product, which exhibits a basic unit (14), a vessel (2) with an agitator (18) that can be inserted into the basic unit (14), a heating device (9) allocated to the vessel (2), a temperature sensor (5), a transceiver device (12) for communicating with the temperature sensor (5), and an evaluator (13) for evaluating the measurement data received from the temperature sensor (5). In order to provide an electric food processor (1) with an alternative connection between the temperature sensor (5) and evaluator (13), it is proposed that the temperature sensor (5) be a surface acoustic wave sensor (SAW sensor).

A cooking system, including a product loader for dispensing uncooked food product; a broiler/oven having an inlet end, a cooking chamber, a discharge end, a motorized conveyor system for conveying food through said broiler from said inlet end to said discharge end, and heating elements for heating and cooking food products in said cooking chamber. Disposed proximate the discharge end is a temperature sensor system including temperature sensors for measuring the internal temperature of the cooked food product. Readings from the temperature sensor system are sent to a system controller to evaluate and qualify food product as sufficient or insufficiently cooked. A discharge control system sends disqualified food product to a discard bin and qualified food product to a product holding bin.

A cooking system, including a product loader for dispensing uncooked food product; a broiler/oven having an inlet end, a cooking chamber, a discharge end, a motorized conveyor system for conveying food through said broiler from said inlet end to said discharge end, and heating elements for heating and cooking food products in said cooking chamber. Disposed proximate the discharge end is a temperature sensor system including temperature sensors for measuring the internal temperature of the cooked food product. Readings from the temperature sensor system are sent to a system controller to evaluate and qualify food product as sufficient or insufficiently cooked. A discharge control system sends disqualified food product to a discard bin and qualified food product to a product holding bin.

A cooking device and method heats a removable vessel with heaters of a cooking capsule, which includes a separator wall between the heaters and vessel. The heaters mount to the separator wall. The capsule is fixed in a housing, which also mounts a motor that rotates the vessel. The housing tiltably mounts on a base. Accessories can be fixed to the vessel or a lid secured to the housing, so the accessories can rotate with the vessel or remain stationary with respect to the vessel as it rotates. A locking mechanism that secures the lid to the housing prevents lid detachment when the vessel counter-rotates and an accessory is fixed to the lid. A heat sink wall reflects heat toward the vessel and fins draw heat from the heat sink wall away from the housing and out vent holes. Computer hardware and software control power to the motor and heaters.

In a method for operating a vaporizer of a domestic appliance, the vaporizer is filled at least to a predetermined filling level. The vaporizer can be emptied using an emptying arrangement. A time measurement is started, when a filling level falls below the predetermined filling level. A heating system of the vaporizer is switched on, when the filling level falls below the predetermined filling level. The time measurement is stopped, when the heating system has overheated, and a delivery output is calculated during emptying of the vaporizer, from a duration for emptying that is determined by the time measurement.