A system for attaching a blender container to a blade assembly, which comprises a first mechanism to secure a blender container to a blade assembly. Some embodiments of the system include a second latch mechanism to lock the blender container to the blade assembly while the container and blade assembly are mounted to a base for operation of the blender.

A portable and rechargeable blender is disclosed. Exemplary implementations may include a base assembly, a container assembly, and control circuitry. The base assembly may include a rechargeable battery configured to power an electrical motor such that, during blending by the blender, no power is supplied to the electrical motor from an external power source.

Proposed is a blender, in which a blender body operates when closure of the container lid on a container body is detected. In the blender, when the closure of the container lid is detected, power is transmitted from a first inductive coil of the blender body to a second inductive coil of the container body. A transmission module of the container body transmits a signal to a receiving module of the blender body by suing the power transmitted to the second inductive coil. When the signal is received by the receiving module, the blender body detects the closure of the container lid and is operated.

The present invention related to a cooking device having a cooking glass bowl, wherein the cooking glass bowl has a large weight to improve the safety of the cooling device during operation of the cooling device equipped with a high-speed motor. The cooking device having the cooking glass bowl according to the present invention, comprises: a glass bowl portion (100) including a cooking glass bowl (110) having a handle base (111) extending from and integrally formed with an outer side surface of one side thereof, a bowl base (120) including a heater (170) and fastened to an outer circumferential surface of a lower end of the cooking glass bowl (110), and handle portions (400, 500) fastened and fixed at opposite ends of the handle base by being brought into close contact with each other so as to cover the handle base (111) of the cooking glass bowl (110) while maintaining a tight contact state in a direction perpendicular to the outer circumferential surface of the cooking glass bowl (110); and a body portion (200) which generates a driving force in an internal space formed inside thereof and supplies a power to the heater (170) or a generator (260) by voltage conversion.

A blender for processing comestible matter includes a base with a motor, a blade assembly, and a container. The blender further comprises a first safety mechanism and a second safety mechanism. The first safety mechanism functions to ensure that the container is securely attached to the blade assembly before the blade assembly can be mounted to the base. The second safety mechanism functions to ensure the motor in the base can only be powered on when the container and the blade assembly are securely mounted to the base. The blender is operable by affixing the container to the blade assembly, and then the assembly to the base, such that both safety mechanisms are released to permit the motor to be activated.

A system for attaching a blender container to a blade assembly, which comprises a first mechanism to secure a blender container to a blade assembly. Some embodiments of the system include a second latch mechanism to lock the blender container to the blade assembly while the container and blade assembly are mounted to a base for operation of the blender.

A portable and rechargeable blender is disclosed. Exemplary implementations may include a base assembly, a container assembly, and control circuitry. The base assembly may include a rechargeable battery configured to power an electrical motor such that, during blending by the blender, no power is supplied to the electrical motor from an external power source.

The present disclosure provides a food processor including an electronic scale (2) and a machine (1) placed on the electronic scale (2). The electronic scale (2) includes an electronic scale printed circuit board (3), an insulating plate (4), a sensor fixing plate (5), four weight sensors (6) fixed on the sensor fixing plate (5), and a sensor fixing base (7) configured to be placed on a working platform surface for the food processor. A ground wire (8) is connected to the sensor fixing plate (5) to ground outer shells of the four weight sensors (6) simultaneously, so that interference introduced from the machine (1) or from outside is filtered out through the ground wire (8) when the electronic scale (2) is in operation.

A mounting device (1) for receiving at least one preparation vessel (2) for food with a heating device having at least one receiving portion (4) for the preparation vessel (2) and at least three contact sockets (5a, 5b, 5c, 5d, 5e) for at least partially receiving corresponding contact pins (6a, 6b, 6c) on the preparation vessel (2). A mounting device (1) for receiving at least one preparation vessel (2) for food with a heating device, in which the user safety is improved, is realized in that at least one first of the contact sockets (5c) including at least one signaling means (8), that the signaling means (8) generates at least one insertion signal when one of the contact pins (6b) is inserted at least partially into the first contact socket (5c), that when the insertion signal is present, at least one other of the contact sockets (5a, 5b, 5d, 5e) can be supplied with a working voltage, and that without the insertion signal being present, none of the contact sockets (5a, 5b, 5c, 5d, 5e) can be supplied with a working voltage.

A portable and rechargeable blender is disclosed. Exemplary implementations may include a base assembly, a container assembly, and control circuitry. The base assembly may include a rechargeable battery configured to power an electrical motor such that, during blending by the blender, no power is supplied to the electrical motor from an external power source.