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 variable temperature blender is disclosed for the cooking and preparation of heated sauces, jams, soups, purees, alternative milks, smoothies and more. A variable temperature blender has a lid assembly, a vessel assembly, and a base assembly. The vessel assembly has a blending vessel and a collar attached to a bottom portion of the blending vessel. The base assembly have a user interface, a motor, and a controller. A heating element positioned within the collar of the vessel assembly received an electronic signal from the controller via an electrical interface connecting the base assembly with the vessel assembly. The electronic signal activates or deactivates the heating element based on an operational mode of the variable temperature blender to heat a food item contained within the blending vessel.

A variable temperature blender is disclosed for the cooking and preparation of heated sauces, jams, soups, purees, alternative milks, smoothies and more. A variable temperature blender has a lid assembly, a vessel assembly, and a base assembly. The vessel assembly has a blending vessel and a collar attached to a bottom portion of the blending vessel. The base assembly have a user interface, a motor, and a controller. A heating element positioned within the collar of the vessel assembly received an electronic signal from the controller via an electrical interface connecting the base assembly with the vessel assembly. The electronic signal activates or deactivates the heating element based on an operational mode of the variable temperature blender to heat a food item contained within the blending vessel.

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 foreign substance trap device according to an embodiment of the present disclosure includes: a first member in which at least one fluid intake hole is formed; a second member in which at least a portion of an exhaust channel, through which gas in liquid flowing inside through the fluid intake hole is discharged, is formed; and a movable member movably disposed between the first member and the second member and closing the exhaust channel by being moved by liquid in fluid flowing inside through the fluid intake hole.

A blender is provided that uses a latch handle to lock the blade base onto the jar member without the use of threads. When the latch is locked onto the jar member, the latch itself is engaged to a tab member protruding from the jar member in order to prevent the latch from opening on accident.

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.

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 which includes a main engine, a stirring cup, and a cup cover assembly. A main control board is defined in the main engine and the stirring cup is mounted on the main engine. The cup cover assembly covers the stirring cup and the bottom of the stirring cup defines a heating device which electrically is connected to the main control board. The cup cover assembly includes an upper cover and an inner surface of the upper cover defines an anti-overflow detecting element, and the anti-overflow detecting element electrically is connected to the main control board. When a part of foam contacts the anti-overflow detecting element, the main control board controls the heating device to stop heating and no foam is generated, therefore preventing the foam liquid from overflowing the stirring cup.