A powdery-material feeding device is configured to feed a powdery material to a compression-molding machine configured to obtain a molded product by filling a die bore with the powdery material and to compress the powdery material with punches. The powdery-material feeding device includes a detector configured to detect a biologically-originated foreign matter mixedly contained in the powdery material to be fed to the compression-molding machine, and a controller configured to control to remove the powdery material mixedly containing the biologically-originated foreign matter detected by the detector to avoid feeding of the powdery material mixedly containing the biologically-originated foreign matter to the compression-molding machine, or to control to stop the feeding of the powdery material to the compression-molding machine.

An analyte identifying and sorting apparatus for sorting a target analyte based on an identification result of analytes dispersed in a liquid. The apparatus includes an identification unit including an analyte storage section configured to store analytes dispersed in a liquid, a pressure control section configured to feed the liquid to a flow path provided to extend downward from the analyte storage section, a light irradiation section configured to irradiate light to the analytes, an optical information measurement section measuring optical information of the analytes, and a determination section determining whether the analyte is a target analyte or a non-target analyte based on the optical information. Also included is a sorting unit that includes a sorting nozzle connected to the identification unit and sorts a sorted solution containing the target analyte to the vessel, an effluent collection section having a suction nozzle to suck and collect an effluent involving an effluent discharged from a tip of the sorting nozzle, and a collection vessel configured to collect the sorted solution containing the target analyte. A moving unit moves the sorting nozzle and/or the collection vessel, a control unit moves the sorting nozzle and/or the collection vessel based on the optical information, and a stirring unit including a stirring member in an inner space of the analyte storage section.

The invention relates to a process of manufacturing a dental milling block with a homogeneous color and/or translucency gradient. This process comprises the steps of providing a mold with a cavity having a z-direction and an x/y-direction, filling the cavity partially with a first powder up to a height H1, the first powder having a volume VP1 with a top and bottom surface, introducing a second powder on top of the first powder up to a height H2, the second powder having a volume VP2 with a top and bottom surface and, the top surface of the first powder being in contact with the bottom surface of the second powder and forming an intermediate region, providing a mixer unit with at least one rotatable mixing element, introducing the rotating mixing element in z-direction into the intermediate region, mixing the powder located in the intermediate region by rotating the mixing element, removing the rotating mixing element from the powder, compacting the powder, optionally applying heat to the compacted powder, the first powder differing from the second powder by its physical properties and/or chemical composition and/or color. The invention also relates to a process of producing a dental restoration using dental milling block obtainable according to this process.

A viscous fluid reaction apparatus is described. The viscous fluid reaction apparatus comprises a glass reaction vessel. The viscous fluid reaction apparatus further comprises a gas-tight inlet assembly and a gas-tight stirrer assembly. The gas-tight stirrer assembly comprises a stirrer opening adapter, a stirrer coupling comprising a stirrer shaft seal connected to the stirrer opening adapter, a stirrer shaft comprising one or more stirrer blades located at a blade end of the stirrer shaft, and a motor coupling connected to the stirrer shaft. The viscous fluid reaction apparatus further comprises a motor connected to the motor coupling. The stirrer shaft passes through the stirrer coupling and the stirrer opening adapter such that the stirrer blade(s) are disposed in the glass reaction vessel at a blade height and the stirrer shaft is configured to rotate without compromising a gas-tight seal formed by the stirrer shaft seal.

A slurry mixer for a battery electrode capable of maximally simplifying a configuration of a high-speed stirring body to minimize a rotational load, such that a stirring time of the slurry may be greatly reduced and productivity may be increased, preventing a powdery material from being accumulated on an upper side face and an upper surface of a low-speed stirring body, preventing a deterioration in a performance, failure and a reduction in a life span of a high-speed stirring shaft and bearing, and uniformly stirring mixed materials located at inner corners and a bottom of a container, thereby further increasing stirring efficiency.

The invention relates to a stirring member (9) for using in a system for preparing a food product, the product being prepared by the stirring member (9) moving inside a container (8), the stirring member (9) being configured in such a way that it can adopt different configurations depending on its direction of rotation inside the container (8). Preferably, the stirring member (9) can adopt a spoon configuration or a whisk configuration. The invention further relates to a method for using such a stirring member (9) in a system for preparing a food product, the method varying the direction of rotation of the stirring member (9) so that it adopts a different configuration depending on the type of product prepared in the container (8).

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.

Disclosed is a rotating propeller (1), comprising a rotating shaft (2), a hub (3), and a plurality of blades (4). The rotating shaft (2) is connected to the hub (3). The plurality of the blades (4) are circumferentially and uniformly arranged by taking the axis line (201) of the rotating shaft (2) as a center. All of the blades (4) are rotatably connected to the hub (3) and can rotate along axes of rotary shafts (401) corresponding to the blades (4). All of the axes of the rotary shafts (401) do not pass through the axis line (201) of the rotating shaft (2).

A novel device for frothing milk is disclosed. The frothing device preferably includes a rotatable impeller and a screen disposed about the bottom of the impeller downstream of milk being pushed by the impeller. The frothing device may further include a pitcher and a base upon which the pitcher sits wherein the base includes a heater. The pitcher includes a magnetic drive capable of turning the impeller at very high speeds. The impeller is positioned off-center within the pitcher that preferably includes a tapered interior. The structure of the device and programs that adjust the speed of rotation of the impeller permit the user to create bubbles and further break the bubbles down into a silky smooth microfoam without the conventional use of a steam wand or other such device and without the skills of a professional barista.

The present disclosure relates to paint mixing devices, and more specifically to a paint mixing device comprising a shaft portion and a clamp portion. The clamp portion of the disclosed mixing devices is capable of receiving a disposable paint stirrer. The shaft of the disclosed devices is sized to be received by commercially available power drills and electric screwdrivers. The disclosed device advantageously facilitate the mixing of paint by a disposable paint stirrer at revolutions per minute not achievable by hand-mixing.