Automated pipetting system
First Claim
1. An automated pipetting system for performing programmed pipetting procedures on an array of fluid containing test tubes, vials, or wells, comprising:
- a rigid overhead frame defining a horizontal X-Y pipetting area, which is supported and spaced vertically above a horizontal table for holding test tube arrays;
a pair of X-axis guide shafts fixedly mounted and spaced apart in parallel on two opposite sides of the frame;
a pair of X-axis helical screw shafts rotatably mounted in the frame, each disposed adjacent and parallel to a respective one of said X-axis guide shafts, and X-axis drive means for driving said screw shafts synchronously in rotation;
a subframe having roller sections extending at opposite ends thereof rolling on the X-axis guide shafts, said roller sections each having a support wall provided with a helix engagement portion engaging said X-axis helical screw shafts for moving said subframe in the X-axis directions in response to rotation thereof;
a pair of Y-axis guide shafts supported on the subframe spaced apart parallel to each other;
a Y-axis helical screw shaft rotatably mounted in the subframe between and parallel to the two Y-axis guide shafts, and Y-axis means for driving said screw shaft in rotation;
a carriage having a pair of roller sections rolling on the Y-axis guide shafts, and a support wall provided with a helix engagement portion engaging said Y-axis helical screw shaft for moving said carriage in the Y-axis directions in response to rotation thereof; and
at least one row of probes mounted on said carriage for movement in the Z-axis directions, and Z-axis drive means for independently driving respective ones of said probes in the Z-axis directions relative to the test tube array on said table wherein said X, Y and Z axes respectively define mutually perpendicular planes.
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Accused Products
Abstract
An automated pipetting system for performing programmed pipetting procedures on an array of fluid containing test tubes, vials or wells. The system includes a frame which is placed above a horizontal table which holds the array. The frame is equipped with a pair of X-axis guide shafts and a pair of X-axis helical screw shafts. A subframe which is mounted on the X-axis guide shafts is equipped with a pair of Y-axis guide shafts and a Y-axis helical screw shaft. A carriage is mounted on the Y-axis guide shafts and at least one row of probes is mounted on the carriage. A Z-axis drive independently drives the probes in a Z-axis direction relative to the array.
229 Citations
8 Claims
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1. An automated pipetting system for performing programmed pipetting procedures on an array of fluid containing test tubes, vials, or wells, comprising:
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a rigid overhead frame defining a horizontal X-Y pipetting area, which is supported and spaced vertically above a horizontal table for holding test tube arrays; a pair of X-axis guide shafts fixedly mounted and spaced apart in parallel on two opposite sides of the frame; a pair of X-axis helical screw shafts rotatably mounted in the frame, each disposed adjacent and parallel to a respective one of said X-axis guide shafts, and X-axis drive means for driving said screw shafts synchronously in rotation; a subframe having roller sections extending at opposite ends thereof rolling on the X-axis guide shafts, said roller sections each having a support wall provided with a helix engagement portion engaging said X-axis helical screw shafts for moving said subframe in the X-axis directions in response to rotation thereof; a pair of Y-axis guide shafts supported on the subframe spaced apart parallel to each other; a Y-axis helical screw shaft rotatably mounted in the subframe between and parallel to the two Y-axis guide shafts, and Y-axis means for driving said screw shaft in rotation; a carriage having a pair of roller sections rolling on the Y-axis guide shafts, and a support wall provided with a helix engagement portion engaging said Y-axis helical screw shaft for moving said carriage in the Y-axis directions in response to rotation thereof; and at least one row of probes mounted on said carriage for movement in the Z-axis directions, and Z-axis drive means for independently driving respective ones of said probes in the Z-axis directions relative to the test tube array on said table wherein said X, Y and Z axes respectively define mutually perpendicular planes. - View Dependent Claims (2)
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3. An automated pipetting system for performing programmed pipetting procedures on an array of fluid containing test tubes, vials, or wells, comprising:
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a rigid overhead frame defining a horizontal X-Y pipetting area, which is supported and spaced vertically above a horizontal table for holding the test tube arrays; a pair of X-axis guide shafts fixedly mounted and spaced apart in parallel on two opposite sides of the frame; a subframe having roller sections at opposite ends thereof rolling on the X-axis guide shafts. X-axis moving means connected to for moving the subframe in the X-axis directions on the X-axis guide shafts of the frame; a pair of Y-axis guide shaft supported on the subframe spaced apart parallel to each other; a carriage having a pair of roller sections rolling on the Y-axis guide shafts; Y-axis moving means connected to for moving the carriage in the Y-axis directions on the Y-axis guide shafts of the subframe; and at least one row of probes mounted on said carriage for movement in the Z-axis directions, and Z-axis drive means for independently driving respective ones of said probes in the Z-axis directions relative to the test tube array on said table; wherein said Z-axis drive means include linear racks mounted to the upper ends of the probes, and separate drive units for driving the linear racks of the respective probes which drive units are stacked vertically one above another on each side of the at least one row of probes and said drive units are parallel with the linear racks, each drive unit having an output shaft of a given length provided with a pinion gear its end extending from the drive unit to the row position of and engaged with a linerar rack for a respective one of the probes wherein said X, Y AND Z axes respectively define mutually perpendicular planes. - View Dependent Claims (4, 5, 6, 7, 8)
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Specification