NEXUS BIOSYSTEMS, INC. Patent applications |
Patent application number | Title | Published |
20120003067 | Automated Storage System for High Density Storage - Within a storage compartment, closely spaced rows of adjacent stacks are supported on a plurality of parallel sliding rails. A pair of coordinated robots is positioned with one robot on one side of the stacks to push the stacks within a selected row toward the other robot. The pushing robot on one side of the row starts off with a starting stack supported in its support arms. The pushing robot pushes the starting stack into one end of the selected row, causing the row to shift toward the waiting receiving robot, which receives the stack at the opposite end of the row from the starting stack. A series of pushes between the two robots moves a stack containing a desired sample into alignment with an access port in the storage compartment. | 01-05-2012 |
20110308335 | Sample Tube with Identification - A sample tube ( | 12-22-2011 |
20110237459 | Multiplexed Assay Using Encoded Solid Support Matrices - In a multiplexed assay, each molecule of a plurality of molecules is attached to a support matrix with a substrate adapted for attachment and/or synthesis of molecules and an integrally-formed memory device with an optically-encoded identifier to uniquely identify the molecule attached to the substrate. The molecules are exposed to one or more processing conditions then placed within the path of an optical detector adapted to read the optically-encoded identifier and measure biochemical processes on each support matrix. The support matrices may be singulated to be read by the optical detector one at a time. | 09-29-2011 |
20110212857 | Multiplexed Assay Using Encoded Solid Support Matrices - In a multiplexed assay, each molecule of a plurality of molecules is attached to a support matrix with a substrate adapted for attachment and/or synthesis of molecules and an integrally-formed memory device with an optically-encoded identifier to uniquely identify the molecule attached to the substrate. The molecules are exposed to one or more processing conditions then placed within the path of an optical detector adapted to read the optically-encoded identifier and measure biochemical processes on each support matrix. The support matrices may besingulated to be read by the optical detector one at a time. | 09-01-2011 |
20110121001 | Storage Unit and Transfer System for Biological Samples - A storage unit for biological samples has a horizontal footprint and multiple storage compartments separated by partitions and enclosed by a frame. The storage compartments have first and second openings and are fitted to the shape of a biopsy cassette or a glass slide and have a retention mechanism preventing the substantially vertical cassettes or slides in the storage compartments from falling out through the first opening and/or the second opening. A transfer system allows at least two storage units or at least one storage unit and one collection unit to be situated one above the other in alignment and displaced in relation to one another. The transfer system has a manipulator by which a biopsy cassette or a glass slide may be pushed from one storage unit to another, or into the collection unit. | 05-26-2011 |
20110089709 | Gripper Apparatus and Method for Containers of Different Sizes - A gripper apparatus for removing and replacing objects such as containers or vials in an array of containers has a gripper head which extends downward from a support arm, a planetary gear assembly mounted in the gripper head including at least three planet gears, and at least one gripping pin extending downward from each planet gear and projecting beyond a lower end of the gripper head. A drive motor drives the planetary gear assembly to rotate the planet gears in opposite directions, moving the pins inward and outward along predetermined paths to grip and carry an object and release the object when in a desired location. | 04-21-2011 |
20100089537 | DEVICE AND METHOD FOR REMOVING A PEELABLE SEAL - A container or array of containers that is are sealed with a peelable seal is transported via a conveyor along a processing path toward a desealing station at which an adhesive surface having a width substantially the same as or greater than the width of the seal is pressed against the upper surface of the peelable seal. A collection rod applies a downward pressure on the adhesive surface, pressing it against the seal and keeping the container or container array in position on the conveyor as the plate moves with the conveyor. As the leading edge of the seal passes the collection rod, the adhesive surface is rolled upward, away from the plane of the seal, pulling up on the leading edge of the seal to separate it from the container or container array while the container or container array is held down by the roller. The removed seal is then discarded. | 04-15-2010 |
20080216955 | DEVICE AND METHOD FOR REMOVING A PEELABLE SEAL - A container or array of containers that is are sealed with a peelable seal is transported via a conveyor along a processing path toward a desealing station at which an adhesive surface having a width substantially the same as or greater than the width of the seal is pressed against the upper surface of the peelable seal. A collection rod applies a downward pressure on the adhesive surface, pressing it against the seal and keeping the container or container array in position on the conveyor as the plate moves with the conveyor. As the leading edge of the seal passes the collection rod, the adhesive surface is rolled upward, away from the plane of the seal, pulling up on the leading edge of the seal to separate it from the container or container array while the container or container array is held down by the roller. The removed seal is then discarded. | 09-11-2008 |