This disclosure relates to equipment utilized to manufacture chemical agents, particularly biopharmaceuticals. In some embodiments, reactor systems comprising a mobile carriage assembly; a disposable reaction container removably attached to the carriage assembly; and, a carriage holder into which the mobile carriage assembly may be removably inserted are provided.

This disclosure relates to equipment utilized to manufacture chemical agents, particularly biopharmaceuticals. In some embodiments, reactor systems comprising a mobile carriage assembly; a disposable reaction container removably attached to the carriage assembly; and, a carriage holder into which the mobile carriage assembly may be removably inserted are provided.

A frozen food appliance and related method of making a frozen food product. A rotational drive assembly configured in an axial alignment using a direct drive to produce rotational movement of a blade element to contact a frozen food precursor in a frozen food container associated with the frozen food appliance where the rotational drive assembly omits rotational speed modifying gears and transmissions positioned between a drive motor and the blade element. In another aspect, a rotational drive assembly may be kept in axial alignment with a frozen food container via a multi portioned container mount having a float connector.

A frozen food appliance and related method of making a frozen food product. A rotational drive assembly configured in an axial alignment using a direct drive to produce rotational movement of a blade element to contact a frozen food precursor in a frozen food container associated with the frozen food appliance where the rotational drive assembly omits rotational speed modifying gears and transmissions positioned between a drive motor and the blade element. In another aspect, a rotational drive assembly may be kept in axial alignment with a frozen food container via a multi portioned container mount having a float connector.

A stand mixer includes a base with a support column, and a bowl lift framework extending outwardly from the support column. The bowl lift framework includes at least two lift arms. The lift arms are pivotable relative to the support column. A head is attached to an upper end of the support column and extends horizontally from the support column above the base. Additionally included is a bowl. The bowl includes a flange around a circumference of the bowl, and the bowl is held between the lift arms of the bowl lift framework.

A stand mixer includes a base with a support column, and a bowl lift framework extending outwardly from the support column. The bowl lift framework includes at least two lift arms. The lift arms are pivotable relative to the support column. A head is attached to an upper end of the support column and extends horizontally from the support column above the base. Additionally included is a bowl. The bowl includes a flange around a circumference of the bowl, and the bowl is held between the lift arms of the bowl lift framework.

A device for preparing frozen food product from a liquid mixture includes: a cup holder for a cup for preparing the frozen food product, a cooling unit for cooling the cavity, a stirring unit for stirring liquid mixture in the cup with a stirring element driven with a motor, a torque sensor for measuring torque applied by the motor, and a control unit configured for: starting an operational phase of the device, monitoring in a first period before a first time the torque of the motor, determining a linear increase of the torque in the first period, monitoring, after the first time, the torque of the motor, and if with respect to the linear increase of the torque in the first period an increase above a threshold occurs in the monitored torque, then initiating an ice cream termination phase, otherwise a sorbet termination phase.

A mixing machine includes a mixing head and at least one connection means for connecting a mixing container to the mixing head for forming a closed mixing container. The mixing head is pivotably mounted with respect to a frame such that the closed mixing container formed from the mixing head and container can be pivoted relative to the frame for performing the mixing process. The mixing head carries at least one rotationally-driven mixing tool. The mixing head comprises a head plate having a connecting flange molded thereon which is configured as an annular disc and comprises a planar contact surface. This contact surface has a radial extension such that mixing containers with different connection diameters on their mixing head connection side can be connected to the mixing head. The at least one connection means is configured for gripping mixing containers which differ in the diameter of their connection sides.

A device is provided for preparing a frozen food product from a liquid mixture wherein the failure to correctly mix the liquid mixture is alleviated. The device includes a cup holder, a cooling unit, and a stirring unit having a stirring element, a motor, and a coupling element configured for releasably coupling the stirring element to the motor. The coupling element includes a fixed part and a translating part, wherein the fixed part includes a proximity sensor arranged to detect the distance of the translating part relative to the fixed part to generate an activation signal when the distance is below a predetermined proximity threshold.

A frozen food appliance and related method of making a frozen food product. A rotational drive assembly configured in an axial alignment using a direct drive to produce rotational movement of a blade element to contact a frozen food precursor in a frozen food container associated with the frozen food appliance where the rotational drive assembly omits rotational speed modifying gears and transmissions positioned between a drive motor and the blade element. In another aspect, a rotational drive assembly may be kept in axial alignment with a frozen food container via a multi portioned container mount having a float connector.