The present invention relates to a system for the production of thermal insulating, architectural and structural foam materials cast in molded volumes configured for a subsequent milling process, wherein molded foam volumes are cut into dimensional products or product components.

A module includes a housing, a sealing feature, a locking feature, and an agitator. The housing has an opening separating inner and outer surfaces and a boss that extends through the housing such that part of the outer surface forms an inner bore of the boss having a terminus pointing toward the opening. The agitator has a base, a shaft, and a mixing element coupled to the base such that the base, in cooperation with the sealing feature, circumferentially seals the opening of the housing to form a cavity defined by the inner surface. The shaft passes through the inner bore. The locking feature when engaged permits independent or simultaneous translational and rotational movement of the shaft while an area between the terminus of the boss and the shaft remains mechanically sealed during the movement against liquid or powder encroachment into a clean area of the inner bore.

Provided is an ultra-dispersion mixer, for stirring a mixed material for producing a high-quality slurry for an electrode of a secondary battery within a short time by disposing a low-speed blade and a high-speed blade for stirring a mixed material in a chamber so as to easily and effectively disperse elements of the slurry of a secondary battery, supplied to a mixer during a procedure of preparing the slurry of a secondary battery produced by performing mixing procedures multiple times, and disposing blade parts having a plurality of stirring characteristics so as to realize various stirring characteristics in the mixed material on the high-speed blade to increase the dispersion of the mixed material while the mixed material circulates in a high-shear disperser of the chamber and to simultaneously increase the temperature of a supplied solution at the beginning of stirring of the mixed material in the chamber.

The present invention refers to a filtering device for filtering a fluid containing dissolved solutions and optionally colloidal substances, including solvents and solutes, comprising a first filter unit (12) serving to remove substances in a first filtering step by way of a membrane filtration, said removed substances having a molecular weight above a defined limit value, a second filter unit (19), disposed downstream of the first filter unit (12), for the treatment of the permeate of the first filter unit (12), wherein the second filter unit (19) comprises a filter bed comprising at least one filter material of the group comprising graphene, modified graphene, graphite, activated carbon and a zeolite compound, and a third filter unit (20), disposed downstream of the second filter unit (19), for the treatment of the permeate of the second filter unit (19), wherein the third filter unit (20) comprises a porous membrane, through which the liquid to be filtered flows in a cross-flow. The present invention provides a device with the possibility of filtration with high working pressure, avoiding possible clogging inside the adsorbing material and easy regeneration and reactivation of the adsorbing material.

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 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.

Shown and described is a device (100) for dosing and/or preparing a mixture of substances, in particular a medium or a buffer, the device (100) comprising: at least one first container (102), which is designed to receive at least one solid component, at least one first dosing device (104) for dosing the at least one solid component, the first dosing device (104) being connected to or can be connected to the first container (102), at least one fluid connection (110, 110′) to connect to at least one second container (103, 103′), which is designed to receive at least one fluid, and/or a fluid line for supplying a fluid, and at least one second dosing device (108, 108′) for dosing the at least one fluid, the second dosing device (108, 108′) being connected or connectable to the second container (103, 103′) or to the fluid line, respectively. the fluid line, wherein the at least one second container (103, 103′) and/or the at least one second dosing device (108, 108′) are replaceable and are developed as disposable articles, and/or wherein the at least one first container (102) and/or the at least one first dosing device (104) are replaceable and are developed as disposable articles.

A mini mixer system includes a mixer, for executing a continuous mixing operation for an extended period of time, the mixing operation includes a mixing production process with corrosiveness, high viscosity and high mixing risks. The mixer includes a motor, a coupling and torsion meter, a reduction gear, a plurality of couplings, a frame group, a gear box group, at least one mixing element, a mixing can and a lifting mechanism group. The motor, the coupling and torsion meter and the reduction gear are connected to one another by the couplings. The reduction gear is connected to the gear box group by the coupling. The motor, the reduction gear, the gear box group and the lifting mechanism group are all fixed on the frame group. The mixer is assembled in a gear mechanism of the gear box group. The mixing can is disposed on the lifting mechanism group.

A makeup fluid management and supply device and method are provided. The method includes the steps of: receiving a cosmetic style template sent from a user device; selecting a makeup bottle by the control module in accordance with a makeup application step of the cosmetic style template and moving the makeup bottle to a using position by the driving module; reading a label information of the makeup bottle; sending the label information to the management unit so as to perform a validation procedure on the makeup bottle; rotating, in response to a positive validation result, the makeup bottle by the driving module so as to perform a makeup fluid mixing procedure on the makeup bottle; and driving, by the driving module, the makeup bottle to move in a first direction until the makeup bottle is squeezed so as to obtain a makeup fluid of the makeup bottle.