An apparatus configured for attaching to a conventional cooler and mixing the contents therein, the apparatus including a lid assembly integrated with a mixing assembly. The lid assembly includes a lid having both a hole and an opening to allow the addition of contents to the container and a cover that can be positioned over the opening and secured to the lid. The mixing assembly is integrated with the lid assembly through the hole and includes a centering guide positioned at the bottom of the container, a mixing paddle coupled to the top portion of the centering guide, and a handle operatively coupled to the mixing paddle through the hole. After contents are added to the container through the opening, the cover is positioned over the opening and securely coupled to the lid. The handle is operated to cause the mixing paddle to stir the contents of the container.

An apparatus for inserting and removing a mixer rotor pin includes at least one rotor pin with a transverse bore, as well as a rod dimensioned for slidably engaging the transverse bore. The apparatus also includes a mixer rotor pin insertion and removal tool having a tool body. A bottom of the tool has a slot for selectively engaging the aforementioned rod upon insertion of the rod into the transverse bore, and a top of the tool has a non-circular socket for accommodating a driver tool.

An agitator device for mixing materials, including a containment vessel defining an interior volume, a hollow shaft having an upper end, a lower end, and a central bore along its length, the lower end extending downwardly into the interior volume of the containment vessel, the hollow shaft being rotatable with respect to the containment vessel, and a takeout tube having an upper end and a lower end, wherein the takeout tube is disposed within the central bore of the hollow shaft so that the lower end of the takeout tube is in fluid communication with the interior volume of the containment vessel.

A nucleic acid extracting device includes a reagent containing unit, a mixing unit, and a flow channel unit. The reagent containing unit contains a specimen, a magnetic bead, and a reagent for extracting. The mixing unit includes a mixing chamber and a stirring assembly. The mixing chamber includes a chamber portion and a tube portion. The stirring assembly includes a main body and an extension. The main body is provided in the chamber portion. The tube portion connects the chamber portion. And the extension connects the main body and extends into the tube portion. The extension and an inner wall of the tube portion have first and second gaps therebetween respectively along first and second directions of the tube portion. The first gap is less than the second gap. The flow channel unit is connected between the reagent containing unit and the mixing unit.

An isolation device for adipose-derived stromal vascular fraction is provided. More particularly the embodiments relates to novel systems, devices, methods and kits for adipose tissue collection and stromal vascular fractions isolation from collected adipose. The devices and systems are used in the field of healthcare/regenerative medicine.

According to an embodiment of the present invention, a method for controlling a water purifier delays the operating time of an agitator at an early stage of a current refrigerating cycle operation when a supercooled state has occurred in an immediately previous refrigerating cycle operation step.

Methods of production and apparatuses for production for stably producing healthy and functional platelets, and methods for determining operating conditions of an apparatus for producing platelets are provided. The present invention relates to methods of production comprising a step of culturing megakaryocytes in a platelet production medium C, wherein the step of culturing comprises a step of stirring a medium C in containers 1, 4 using stirring mechanisms 2, 5. In one method of production, the step of stirring comprises reciprocating stirring blades 21, 24 in the stirring mechanisms 2, 24 such that any of predetermined turbulent energy, shearing stresses, or Kolmogorov scale is produced, in the medium C. In another method of production, the step of stirring comprises pivoting a stirring blade 51 in the stirring mechanism 5 wherein a plurality of stationary members 53 is placed therearound in a bottom region 4e of the container 4 such that the step of stirring produces turbulence in the medium C. The present invention also relates to apparatuses for production for carrying out the method of production. The present invention also relates to a method for determining operating conditions of an apparatus for producing platelets.

Systems and methods have demonstrated the capability of rapidly cooling the contents of pods containing the ingredients for food and drinks.

A dosing unit, for the controlled delivery of a solid material, including a silo, for containing the material to be delivered, having on the bottom a discharge mouth, said discharge mouth being circular, at least one extraction auger arranged inside said silo and operable in rotation around a vertical axis, at least one scraper member, located inside said silo and associated with said discharge mouth operable in rotation around said vertical axis, first actuation means of the extraction auger and second actuation means of the scraper member, at least one shutter component positioned below the discharge mouth, and moving means operatively connected to the shutter component to move it with respect to the discharge mouth.

A method comprises the steps of receiving a wastewater containing solid particles in suspension, agitating the wastewater for a specified agitation period under specified agitation conditions sufficient to enable auto-flocculation of at least a portion of the solid particles into flocs to provide an agitated wastewater, allowing the agitated wastewater to settle for a specified sedimentation period to allow at least a portion of the flocs to settle, and separating at least a portion of the settled flocs from the agitated wastewater to provide a clarified wastewater effluent.