A gas-saturated liquid generator having a vessel of the generator, a hollow bell in its upside down position located with a tube for gas supply, and a mixer situated in the area for saturated liquid covered by the bell is disclosed. The entire bell is submerged below the surface of the saturated liquid. On a shaft projecting from a driving equipment, the mixer provided with a foaming spring is situated. The mixer provided with a magnetic carrier seated rotatably on the protrusion formed by a bulge in the bottom part of the generator vessel may be used. The preferred bell forms are dome-shaped, cylindrical or conical.

A mixing chamber includes a container for receiving a first and a second component; an obstacle structure, which is designed such that, under the effect of a centrifugal force or magnetic force acting on the mixing chamber, it moves through the first and second components in the container and mixes them with each other; and a connection piece, which is connected at one end to the container and at the other end to the obstacle structure.

A mixing apparatus for mixing substances includes a single-use apparatus and a reusable apparatus. The single-use apparatus includes a flexible mixing tank configured to receive the at least two substances to be mixed, is plastic, and has a rotor arranged in the mixing tank. The rotor includes an impeller configured to mix the at least two substances, the impeller being magnetically contactlessly drivable and free of coils and permanent magnets. The reusable apparatus includes a support tank configured to receive the mixing tank and a stator configured to magnetically contactlessly drive the rotor about an axis of rotation in an operating state. The stator includes at least one permanent magnet configured to generate a permanent magnet flux and at least one winding configured to generate an electromagnetic flux, the permanent magnet flux and the electromagnetic flux together being capable of driving the rotor.

The present invention relates to methods and devices for mixing the contents of a mixing container, the device including a container defining a container cavity, the container including a bottom wall supporting a hollow shaft, the shaft supporting an impeller thereon such that the impeller is free to rotate about the shaft, the impeller including a central passageway therethrough for receiving the shaft, the container further including an elongate evacuation tube having a first end positioned within the passageway of the shaft and an opposed second end extending to a port of the container.

The present invention relates to a magnetic mixer to which a disposable resin liquid pouch is applied instead of a metal tank, for accommodating and mixing liquids therein, to minimize cross-contamination of liquids to be mixed due to an unwashed residue, increase a magnetic coupling force between rotors for driving an impeller inside the liquid pouch and an impeller outside the liquid pouch by a magnetic coupling method, and prevent separation of the impeller in liquids to be mixed, and a magnetic mixing system.

A magnetically-coupled liquid mixer has axial and radial directions, and comprises: a drive mount to be secured to a wall of a mixing tank and having a stationary closed-end cylindrical casing arranged in the axial direction and configured for protruding into the tank, a tank-external drive rotor having a rotatable first magnet array and configured to be inserted in the cylindrical casing, and an impeller configured for being rotatably-mounted on the cylindrical casing and having a plurality of radially extending blades and a second magnet array. The first and second magnet arrays in an assembled state of the mixer are configured for enabling rotary torque to be transferred from the drive rotor to the impeller by magnetic coupling between the first and second magnet arrays. An upper portion of at least one blade is curved/angled in an intended direction of rotation to help move liquid axially downwards during impeller rotation.

A portable preparation assembly to prepare liquid cosmetic/cleanser products in a personalised way has a container which is configured to contain a solvent liquid and includes a base wall, a lateral wall and an upper opening opposite to the base wall; a housing seat configured to house a solid cosmetic/cleanser and arranged at least partially inside the container; and a stirring device which is configured to stir the solvent liquid in the container so as to determine at least partial dissolution of the solid cosmetic/cleanser in the solvent liquid and mix the dissolved solid cosmetic/cleanser with the solvent liquid to obtain the liquid cosmetic/cleanser product.

Magnetic-based actuation mechanisms for and methods of actuating magnetically responsive microposts in a reaction (or assay) chamber is disclosed. Namely, a microfluidics system is provided that includes a microfluidics device (or cartridge) that includes the reaction (or assay) chamber in which a field of surface-attached magnetically responsive microposts is installed. The presently disclosed magnetic-based actuation mechanisms are provided in close proximity to the magnetically responsive microposts wherein the magnetic-based actuation mechanisms are used for actuating the magnetically responsive microposts. Namely, the magnetic-based actuation mechanisms generate an actuation force that is used to compel at least some of the magnetically responsive microposts to exhibit motion. Additionally, methods of using the presently disclosed magnetic-based actuation mechanisms for actuating the magnetically responsive microposts are provided.

A method for preparing a foamed sclerosant composition. One method includes introducing a liquid sclerosant composition into a foaming space of an interior of a container, the foaming space containing a mixing component having a magnetic part. Rotation of the mixing component is achieved by generating for a first holding time a rotating magnetic field at a first speed and after the first holding time generating for a second holding time the rotating magnetic field at a second speed greater than the first speed.