A method for manufacturing a bowl and a glass bowl are disclosed. A high borosilicate glass bowl is manufactured with high borosilicate glass, which has characteristics of high hardness, high light transmittance, high chemical stability, cold and hot shock resistance, and the like. A radian of a bottom is measured by a laser scanner, so that an accurate molding die can be manufactured by a numerical control machine tool. A solid rubber compound is mixed by a mixing mill, and then a vulcanizing agent and a silica gel masterbatch are added to obtain a silicone rubber raw material. The silicone rubber raw material is taken out according to a preset weight, then put together with the high borosilicate glass bowl into a molding vulcanizer. Vulcanization compression molding is performed to obtain a high borosilicate glass bowl with an anti-slip silica gel bottom.

A countertop appliance comprises interchangeable containers including a first container and a second container each having a base. The first container includes a first magnet coupled to the base of the first container at a first distance and the second container includes a second magnet coupled to the base of the second container at a second distance. A housing includes a motor and an attachment portion. The interchangeable containers are selectively and operably coupled to the attachment portion of the housing. An analog magnetic sensor is disposed proximate the attachment portion of the housing. The analog magnetic sensor is configured to detect the first magnet at the first distance and the second magnet at the second distance. A controller communicatively coupled with the analog magnetic sensor is configured to identify one of the interchangeable containers based on the detected distance of one of the first magnet and the second magnet.

A lid (116) for a food processor, the food processor including a hollow body (102) providing an interior chamber (103) to receive product and within which the product is processed, the body (102) having a sidewall (112) with a rim portion (108) surrounding a body top opening (114), the rim portion (108) having a lip (109), the body (102) further including a spout (110) protruding from the side wall (112) adjacent the rim portion (108) and having a spout side opening (117), the lid (116) including: a main part (118) to cooperate with the lip (109) to close the body top opening (114); a top skirt (120) to extend into the interior (103) of the body (102) and sealingly interface with an inner surface of the sidewall (112) and the rim portion (108); and a cover (200) moveably attached to the main part (118) and to cooperate with the spout (110) to close the spout side opening (117); and the cover (200) having a side skirt to extend into the spout (110) and sealingly interface with an inner (240) and outer (241) surface of the spout side opening (117).

A blender system is provided that includes a first jar, and second jar, and a blender base. The blender system is operable in a first mode wherein the first jar is coupled to the blender base and the objects within the first jar are blended or processed. The blender system is also operable in a second mode wherein the first jar and the second jar are coupled to the blender base. In this configuration, the objects to be processed are contained within the second jar. Advantageously, in the second mode, the first jar acts as a sound shield by which the sound generated by the blending process is dampened, resulting in a quieter experience for the user.

The present invention relates to a micro puree machine that includes a blade assembly, a lid assembly, and a clip mechanism. The blade assembly has a central support hub, a blade, and an undercut. The lid assembly is configured to cooperate with a bowl assembly and includes a lid and a clip mechanism. The clip mechanism is movable between a first position and a second position and cooperates with the undercut at times the clip mechanism is the in the first position. The blade assembly is retained in the lid assembly at times the clip mechanism is in or near the first position, and the blade assembly is disengaged from the undercut and removable from the lid assembly at times the clip mechanism is in or near the second position.

An attachment for use with a food processing system is provided. The attachment includes a container body having a sidewall, a first end configured to be mounted to a food processing base, and a second end remote from the first end. The first end being open and the second end being partially closed. The attachment further includes a first agitating member including one or more blades. The first agitating member is receivable at the first end. The attachment also includes a second agitating member receivable at the second end including a fluid agitator. The fluid agitator is configured to direct a fluid to one or more regions of the container body.

A container comprises a body and a base. The body includes an open end and a closed end. The closed end is attached to the base. The closed end may be welded to the base. Cross-sectional perimeters of the body decreases from the closed end to the open end.

The mixing or dispersing device and assembly equipped with such a device are proposed for optimizing the processing of mixed or dispersed substances, in particular tablets and/or capsules for medicinal drugs. The mixing or dispersing device includes in a mixing chamber, a motor-driven rotor having at least one cutting projection that has at least one cutting edge. A flow-disturbing element is further provided on an inner circumferential wall of the mixing chamber that surrounds the axis of rotation. Furthermore, a deflection surface is provided between the inner circumferential wall and a bottom of the mixing chamber. The at least one flow-disturbing element is spaced from the bottom of the mixing chamber, from the at least one cutting projection and from the circular path on which the at least one cutting projection is movable about the axis of rotation.

A food processor, in particular a mixing device, comprising a housing for accommodating a receptacle and a cover that closes the receptacle, and a locking mechanism for interlocking the receptacle with the cover; the locking mechanism includes a locking element, especially a locking roller, which can be moved relative to the receptacle and/or the cover from an unlocking position into a locking position and vice versa. In order to further develop food processors of the type, the locking element, apart from or in addition to interlocking the receptacle with the cover, is designed to have a subsidiary effect on the receptacle and/or the cover or to subsidiarily interact with the receptacle and/or the cover.

Proposed is a grain dispenser including: a storage unit including a plurality of storage hoppers in which different kinds of grain, respectively, are stored; a stirring and washing container accommodating the kinds of grain to be dispensed from the storage unit; a water supply unit supplying water to the stirring and washing container; a water draining unit draining the water from the stirring and washing container; a container actuator rotating the stirring and washing container in different directions in order to stir and wash the kinds of grain accommodated; and a controller controlling the storage unit, controlling the container actuator, determining an amount of water for meal cooking and a macerating time, controlling the water supply unit, counting an elapsed time in a state where as much water as the amount of water for meal cooking is supplied, and providing alerting information when the multigrain mixture is completely macerated.