Patent application number | Description | Published |
20140293735 | SAMPLE-TUBE CASSETTE AND MOUNTING PLATE FOR USE WITH HOMOGENIZING DEVICE - A mounting apparatus for holding tubes of samples for processing by a homogenizer. The mounting apparatus includes a processing plate and at least one cassette, with the plate for mounting to the homogenizer, the cassette for mounting to the plate, and the tube for holding by the cassette. In some embodiments, the cassette includes one or more tube-retention assemblies for removably securing the tube against axial, lateral, and/or rotational movement, for example, using centrifugal forces of the homogenizer for retention assistance. In some embodiments, the cassette is removably mounted to the plate, for example, using centrifugal forces of the homogenizer for retention assistance. And in some embodiments, the tube can be replaced in the cassette with the cassette mounted to the plate adjacent an access opening through which the tube can pass, while centrifugal forces assist in retaining the tubes in the cassette during operation of the homogenizer. | 10-02-2014 |
20150224459 | HOMOGENIZATION TUBES WITH FLOW DISRUPTERS FOR BEADLESS INTERRUPTED FLOW - A flow disrupter in a tube chamber of a tube assembly for homogenizing sample materials includes a flow-disrupting body that extends generally transversely into the tube chamber and divides the tube chamber into two sub-chambers. The flow-disrupting body includes at least one narrowed flow passageway through which the sample flows back and forth in both axially reciprocating directions as the tube assembly is vigorously shaken at high speeds faster and more reliably than what can be accomplished by hand shaking. And the flow-disrupting body includes at least two flow-interrupting surfaces facing generally in opposite axial directions and against which the sample impacts in each respective axially reciprocating direction as the tube assembly is vigorously shaken. In this way, the vigorous high-speed shaking of the tube assembly including the flow disrupter results in significant particle-size reduction of the sample by mechanical shear, fluid shear, cavitation, and/or pressure differentials. | 08-13-2015 |
20160107158 | SAMPLE-TUBE HOLDER FOR EASY TUBE INSERTION AND REMOVAL - A tube holder for mounting a sample-tube assembly to a homogenizing device includes at least one clamp, at least one retainer, and a mount. The mount couples the tube holder to the homogenizing device. Each clamp defines a tube channel and a transverse ledge surface, with the tube channel having a lateral opening through which a tube of the tube assembly can be easily inserted and removed for example with one hand. And each retainer defines a retaining surface that extends over the respective tube channel and opposes the respective ledge surface to cooperatively form a receptacle that receives/retains a cap of the tube assembly against axial tube motion during homogenization. In some embodiments, multiple retaining surfaces are included for retaining different types of tube assemblies, multiple clamps and retainers are included for holding multiple tube assemblies simultaneously, and/or ejection mechanisms are included for ease of ejecting the tube assemblies. | 04-21-2016 |
20160121278 | Reciprocating tube-shaking mechanisms for processing a material - Agitation mechanisms for homogenization devices for processing sample materials in tubes that are secured by tube holders to the agitation mechanisms. Each agitation mechanism includes a first rotary member having a first fixed rotational axis, a second rotary member having a second fixed rotational axis, and a connecting member that extends between them, is rotationally mounted to them at third and fourth non-fixed rotational axes, and to which the tube holder is mounted, with the first and third rotational axes defining a first offset, and with the second and fourth rotational axes defining a second offset. When the first rotary member is driven through rotation, the sample in the tube in the tube holder on the connecting member is driven through a nonlinearly reciprocating motion profile to produce a grinding shear action to better homogenize the samples. Other disclosed embodiments produce linearly reciprocating motion profiles. | 05-05-2016 |