An apparatus, vortex generator assembly and method for automated cell lysis and nucleic acid purification and processing. The vortex generator assembly includes sample holder having a lysis well, at least one wash well, and an elution well. The vortex generator assembly also includes a sample holder cover having a plurality of vibration rods for creating a vortex in the wells of the sample holder. The apparatus includes motor operating a rotating cam to cause the vibration rods to vibrate and create the vortex in a well holding fluid and magnetic beads, wherein the vortexing speed is sufficient to overcome the magnetic attraction between the beads and disperse the beads in solution, to collect nucleic acids such as DNA.

A concrete vibrator includes a frame, a strap coupled to the frame, a main housing supported upon the frame, and an electric motor coupled to the main housing. The concrete vibrator further comprises a flexible shaft having a first end coupled to the motor and an opposite, second end. The concrete vibrator further comprises a vibrator head coupled to the second end of the shaft, the vibrator head configured to receive torque from the motor and the shaft to cause the vibrator head to vibrate. The concrete vibrator is operable in a backpack configuration in which the strap is used to carry the concrete vibrator with the frame in a vertical orientation, and in a briefcase configuration in which the frame is supportable in a horizontal orientation.

A concrete vibrator includes a frame, a strap coupled to the frame, a main housing supported upon the frame, and an electric motor coupled to the main housing. The concrete vibrator further comprises a flexible shaft having a first end coupled to the motor and an opposite, second end. The concrete vibrator further comprises a vibrator head coupled to the second end of the shaft, the vibrator head configured to receive torque from the motor and the shaft to cause the vibrator head to vibrate. The concrete vibrator is operable in a backpack configuration in which the strap is used to carry the concrete vibrator with the frame in a vertical orientation, and in a briefcase configuration in which the frame is supportable in a horizontal orientation.

A system for the treatment of materials, to be selected from between materials in a fluid state (1) and particles suspended in a fluid material (1), comprising at least one upper kinematic pair equipped with two mechanical elements (2a, 2b; 2a, 2c), said kinematic pair being in contact with a material in a fluid state (1) or with particles suspended in a fluid material (1); motor means (5) to generate a pre-set relative velocity (v) between the elements (2a, 2b; 2a, 2c) of said kinematic pair, and tensioning means (8) to subject said kinematic pair to a pre-set pressure (P).

A system for the treatment of materials, to be selected from between materials in a fluid state (1) and particles suspended in a fluid material (1), comprising at least one upper kinematic pair equipped with two mechanical elements (2a, 2b; 2a, 2c), said kinematic pair being in contact with a material in a fluid state (1) or with particles suspended in a fluid material (1); motor means (5) to generate a pre-set relative velocity (v) between the elements (2a, 2b; 2a, 2c) of said kinematic pair, and tensioning means (8) to subject said kinematic pair to a pre-set pressure (P).

A multi-phase cosmetic composition mixing pack for mixing immiscible components of a multi-phase cosmetic composition such that they are temporarily miscible includes a container for holding the multi-phase cosmetic composition that has a first open end and a container central axis, and a mixing element disposed within the container and configured to be actuated for mixing immiscible components of the multi-phase cosmetic composition such that they are temporarily miscible, wherein the mixing element is limited to one or more of substantially rotational movement and lateral movement along the container central axis when actuated.

A French press rod assembly configured to be operably engaged with a French press coffee pot wherein the French press rod assembly provides an element to engage therewith to stabilize the French press rod assembly during removal of the filter screen. The French press rod assembly includes a shaft having a first end and a second end. A handle is secured to the first end of the shaft and a filter screen is removably secured to the second end of the shaft. The shaft has surroundably mounted thereto proximate the second end an engagement member. A flow member is rotatably secured to the shaft wherein the flow member is intermediate the second end of the shaft and the engagement member. In a preferred embodiment of the flow member, the flow member is rotatably mounted to the shaft and includes a plurality of blades.

A French press rod assembly configured to be operably engaged with a French press coffee pot wherein the French press rod assembly provides an element to engage therewith to stabilize the French press rod assembly during removal of the filter screen. The French press rod assembly includes a shaft having a first end and a second end. A handle is secured to the first end of the shaft and a filter screen is removably secured to the second end of the shaft. The shaft has surroundably mounted thereto proximate the second end an engagement member. A flow member is rotatably secured to the shaft wherein the flow member is intermediate the second end of the shaft and the engagement member. In a preferred embodiment of the flow member, the flow member is rotatably mounted to the shaft and includes a plurality of blades.

Provided is a technique capable of improving the stirring force of a plating solution by a paddle. A plating apparatus 1000 includes a paddle 70 disposed between an anode 11 and a substrate Wf. The paddle is configured to reciprocate parallel to the anode in a first direction and a second direction to stir a plating solution Ps. The paddle includes a honeycomb-structure portion 71 provided with a plurality of polygonal through-holes 74. The honeycomb-structure portion has a shape in which a paddle width at a center portion in a third direction which is a direction perpendicular to a reciprocation direction of the paddle is wider than a paddle width at an end portion in the third direction. The honeycomb-structure portion includes a first outer peripheral wall 75 oriented in the first direction. The first outer peripheral wall includes a first center wall 77 disposed at a center portion in the third direction of the first outer peripheral wall, and the first center wall extends in the third direction.

A reactor arrangement for performing, by means of at least one solid reaction member(s), a biological or chemical transformation, or physical or chemical trapping from, or release of agents to, a fluidic media in a continuous process. The arrangement comprises at least one reactor with a cylindrical reaction vessel (11) in which at least one reactor a transformation device (100) has been mounted. The vessel (11) comprises at least one inlet port (30) in the vicinity of its bottom wall (18) and at least one outlet port (40) arranged in the vicinity of its upper end portion. Each inlet port (30) is connected to a fluid supply member (300) configured to be submerged below the fluid surface level in a pool or a pond. The fluid supply member (300) comprises at least one inlet opening (301) configured to continuously supply a fluid from the pool or the pond to the vessel (11). Each outlet port (40) is configured to continuously let out the fluid from the vessel (11) to the pool or the pond via the outlet port (40). Further a method of using the reactor arrangement is provided.