Patents by Inventor Ulysses Gilchrist
Ulysses Gilchrist has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Publication number: 20190241375Abstract: An automated biological or chemical sample processing system includes a dock frame and at least one dock frame module. The dock frame includes at least one docking interface that operably couples and interfaces the dock frame with laboratory equipment. The dock frame defines a spine structure of the system alongside which a variable number of laboratory equipment are arrayed. The dock frame extends longitudinally and has a variable elongated configuration and longitudinal length. The at least one dock frame module includes the docking interface, where each module is interchangeable with another module, and has control features with a predetermined relationship to a reference datum of the dock frame module and with a reference datum of the dock frame so that the at least one dock frame module is interchangeably coupled in linear configuration with at least the other dock frame module to select the variable elongated configuration and longitudinal length.Type: ApplicationFiled: February 1, 2019Publication date: August 8, 2019Inventors: Louis GUARRACINA, Ulysses GILCHRIST
-
Publication number: 20190242916Abstract: An auto-navigating robotic processing vehicle including a carriage having a frame, an autonomous drive section configured to traverse the carriage effecting vehicle travel on a facility floor, and having an autonomous navigation section to effect autonomous navigation vehicle travel, a processing section with different processing modules connected to and carried by the frame, each of the different processing modules having a different predetermined laboratory processing function with a different predetermined function characteristic corresponding to the processing module and being automatically selectable to effect a preprocess or preprocess condition of laboratory samples and/or sample holders with respect to a process at a processing station, and a controller automatically selects at least one processing module and the corresponding predetermined function of the selected processing module effecting automatically the preprocess or preprocess condition based on an identification of a travel location for the vType: ApplicationFiled: February 1, 2019Publication date: August 8, 2019Inventors: Louis GUARRACINA, Ulysses GILCHRIST
-
Patent number: 10325795Abstract: A substrate processing apparatus including a frame, a first SCARA arm connected to the frame, including an end effector, configured to extend and retract along a first radial axis; a second SCARA arm connected to the frame, including an end effector, configured to extend and retract along a second radial axis, the SCARA arms having a common shoulder axis of rotation; and a drive section coupled to the SCARA arms is configured to independently extend each SCARA arm along a respective radial axis and rotate each SCARA arm about the common shoulder axis of rotation where the first radial axis is angled relative to the second radial axis and the end effector of a respective arm is aligned with a respective radial axis, wherein each end effector is configured to hold at least one substrate and the end effectors are located on a common transfer plane.Type: GrantFiled: December 20, 2017Date of Patent: June 18, 2019Assignee: Brooks Automation, Inc.Inventors: Robert T. Caveney, Jayaraman Krishnasamy, Ulysses Gilchrist, Mitchell Drew, Jairo T. Moura
-
Publication number: 20190172746Abstract: A substrate transport apparatus including a frame, an upper arm rotatably mounted to the frame about a shoulder axis, a forearm rotatably mounted to the upper arm about an elbow axis where the forearm includes stacked forearm sections dependent from the upper arm through a common joint, and independent stacked end effectors rotatably mounted to the forearm, the forearm being common to the independent stacked end effectors, wherein at least one end effector is mounted to the stacked forearm sections at a wrist axis, where the forearm is configured such that spacing between the independent stacked end effectors mounted to the stacked forearm sections is decoupled from a height build up between end effectors accommodating pass through instrumentation.Type: ApplicationFiled: February 11, 2019Publication date: June 6, 2019Inventors: Robert T. CAVENEY, Ulysses GILCHRIST
-
Publication number: 20190160690Abstract: A substrate transport apparatus for transporting substrates, the substrate transport apparatus including a frame, at least one transfer arm connected to the frame, at least one end effector mounted to the at least one transfer arm and at least one substrate support pad disposed on the at least one end effector, the at least one substrate support pad has a configuration that effects increased friction force, resulting from an increased friction coefficient, in at least one predetermined direction.Type: ApplicationFiled: November 27, 2018Publication date: May 30, 2019Inventors: Ulysses GILCHRIST, Jairo Terra MOURA
-
Publication number: 20190096726Abstract: A substrate transport apparatus having a drive section and a scara arm operably connected to the drive section to move the scara arm. The scara arm has an upper arm and at least one forearm. The forearm is movably mounted to the upper arm and capable of holding a substrate thereon. The upper arm is substantially rigid and is adjustable for changing a predetermined dimension of the upper arm.Type: ApplicationFiled: November 27, 2018Publication date: March 28, 2019Inventors: Antonio F. Pietrantonio, Anthony Chesna, Hakan Elmali, Ulysses Gilchrist
-
Patent number: 10204817Abstract: A substrate transport apparatus including a frame, an upper arm rotatably mounted to the frame about a shoulder axis, a forearm rotatably mounted to the upper arm about an elbow axis where the forearm includes stacked forearm sections dependent from the upper arm through a common joint, and independent stacked end effectors rotatably mounted to the forearm, the forearm being common to the independent stacked end effectors, wherein at least one end effector is mounted to the stacked forearm sections at a wrist axis, where the forearm is configured such that spacing between the independent stacked end effectors mounted to the stacked forearm sections is decoupled from a height build up between end effectors accommodating pass through instrumentation.Type: GrantFiled: September 12, 2017Date of Patent: February 12, 2019Assignee: Brooks Automation, Inc.Inventors: Robert T. Caveney, Ulysses Gilchrist
-
Publication number: 20180370024Abstract: A substrate transport apparatus having a frame, a drive section and an articulated arm. The drive section has at least one motor module that is selectable for placement in the drive section from a number of different interchangeable motor modules. Each having a different predetermined characteristic. The articulated arm has articulated joints. The arm is connected to the drive section for articulation. The arm has a selectable configuration selectable from a number of different arm configurations each having a predetermined configuration characteristic. The selection of the arm configuration is effected by selection of the at least one motor module for placement in the drive section.Type: ApplicationFiled: September 4, 2018Publication date: December 27, 2018Inventors: Ulysses Gilchrist, Christopher Hofmeister
-
Patent number: 10137576Abstract: A substrate transport apparatus for transporting substrates, the substrate transport apparatus including a frame, at least one transfer arm connected to the frame, at least one end effector mounted to the at least one transfer arm and at least one substrate support pad disposed on the at least one end effector, the at least one substrate support pad has a configuration that effects increased friction force, resulting from an increased friction coefficient, in at least one predetermined direction.Type: GrantFiled: December 17, 2012Date of Patent: November 27, 2018Assignee: Brooks Automation, Inc.Inventors: Ulysses Gilchrist, Jairo Terra Moura
-
Patent number: 10141214Abstract: A substrate transport apparatus having a drive section and a scara arm operably connected to the drive section to move the scara arm. The scara arm has an upper arm and at least one forearm. The forearm is movably mounted to the upper arm and capable of holding a substrate thereon. The upper arm is substantially rigid and is adjustable for changing a predetermined dimension of the upper arm.Type: GrantFiled: September 29, 2015Date of Patent: November 27, 2018Assignee: Brooks Automation, Inc.Inventors: Antonio F. Pietrantonio, Anthony Chesna, Hakan Elmali, Ulysses Gilchrist
-
Patent number: 10134621Abstract: A transfer apparatus including a frame, multiple arms connected to the frame, each arm having an end effector and an independent drive axis for extension and retraction of the respective arm with respect to other ones of the multiple arms, a linear rail defining a degree of freedom for the independent drive axis for extension and retraction of at least one arm, and a common drive axis shared by each arm and configured to pivot the multiple arms about a common pivot axis, wherein at least one of the multiple arms having another drive axis defining an independent degree of freedom with respect to other ones of the multiple arms.Type: GrantFiled: December 12, 2014Date of Patent: November 20, 2018Assignee: Brooks Automation, Inc.Inventors: Robert T. Caveney, Ulysses Gilchrist, Alexander Krupyshev
-
Publication number: 20180280967Abstract: An auto-pipetting apparatus includes a dispensing head with at least one pipetting tip mandrel having an elongated stud body with an insertion end. The at least one pipetting tip mandrel mates with a pipetting tip. A first adjustable seal, disposed on the elongated stud body, and a second adjustable seal, disposed on the elongated stud body, seal the pipetting tip mated to the at least one pipetting tip mandrel. The first adjustable seal defines a snub surface. The snub surface effects a substantially continuous circumferential contact seal with radially impinging contact between the pipetting tip and the at least one pipetting tip mandrel. The second adjustable seal is adjustable between a disengaged position and an engaged position and effects a releasable grip and another substantially continuous circumferential contact seal between the pipetting tip and the at least one pipetting tip mandrel around the pipetting tip.Type: ApplicationFiled: January 30, 2018Publication date: October 4, 2018Inventors: Ulysses GILCHRIST, Robert CONNORS
-
Patent number: 10065307Abstract: A substrate transport apparatus having a frame, a drive section and an articulated arm. The drive section has at least one motor module that is selectable for placement in the drive section from a number of different interchangeable motor modules. Each having a different predetermined characteristic. The articulated arm has articulated joints. The arm is connected to the drive section for articulation. The arm has a selectable configuration selectable from a number of different arm configurations each having a predetermined configuration characteristic. The selection of the arm configuration is effected by selection of the at least one motor module for placement in the drive section.Type: GrantFiled: November 4, 2013Date of Patent: September 4, 2018Assignee: Brooks Automation Inc.Inventors: Ulysses Gilchrist, Christopher Hofmeister
-
Publication number: 20180233986Abstract: A transport apparatus including a housing, a drive mounted to the housing, and at least one transport arm connected to the drive where the drive includes at least one rotor having at least one salient pole of magnetic permeable material and disposed in an isolated environment, at least one stator having at least one salient pole with corresponding coil units and disposed outside the isolated environment, where the at least one salient pole of the at least one stator and the at least one salient pole of the rotor form a closed magnetic flux circuit between the at least one rotor and the at least one stator, and at least one seal configured to isolate the isolated environment where the at least one seal is integral to the at least one stator.Type: ApplicationFiled: April 13, 2018Publication date: August 16, 2018Inventors: Jairo T. MOURA, Ulysses GILCHRIST, Robert T. CAVENEY
-
Publication number: 20180138066Abstract: A substrate processing apparatus including a frame, a first SCARA arm connected to the frame, including an end effector, configured to extend and retract along a first radial axis; a second SCARA arm connected to the frame, including an end effector, configured to extend and retract along a second radial axis, the SCARA arms having a common shoulder axis of rotation; and a drive section coupled to the SCARA arms is configured to independently extend each SCARA arm along a respective radial axis and rotate each SCARA arm about the common shoulder axis of rotation where the first radial axis is angled relative to the second radial axis and the end effector of a respective arm is aligned with a respective radial axis, wherein each end effector is configured to hold at least one substrate and the end effectors are located on a common transfer plane.Type: ApplicationFiled: December 20, 2017Publication date: May 17, 2018Inventors: Robert T. CAVENEY, Jayaraman KRISHNASAMY, Ulysses GILCHRIST, Mitchell DREW, Jairo T. MOURA
-
Patent number: 9948155Abstract: A transport apparatus including a housing, a drive mounted to the housing, and at least one transport arm connected to the drive where the drive includes at least one rotor having at least one salient pole of magnetic permeable material and disposed in an isolated environment, at least one stator having at least one salient pole with corresponding coil units and disposed outside the isolated environment, where the at least one salient pole of the at least one stator and the at least one salient pole of the rotor form a closed magnetic flux circuit between the at least one rotor and the at least one stator, and at least one seal configured to isolate the isolated environment where the at least one seal is integral to the at least one stator.Type: GrantFiled: November 13, 2014Date of Patent: April 17, 2018Assignee: Brooks Automation, Inc.Inventors: Jairo T. Moura, Ulysses Gilchrist, Robert T. Caveney
-
Publication number: 20180056528Abstract: A robotic transport system including a drive section connected to a frame, an articulated arm operably coupled to the drive section providing the articulated arm with arm motion in at least one axis of motion moving at least a portion of the articulated arm in a collaborative space, corresponding to the frame, from a first location to another different location in the collaborative space, the articulated arm having an end effector with a workpiece grip having workpiece engagement members engaging and holding a workpiece during workpiece transport, by the arm motion in the at least one axis of motion, wherein at least one of the workpiece engagement members is frangible compliant, having a frangible compliant coupling between a distal portion of the at least one of the workpiece engagement members and a base portion of the end effector from which the at least one of the workpiece engagement members depends.Type: ApplicationFiled: August 29, 2017Publication date: March 1, 2018Inventors: Nigel COCHRAN, Ulysses GILCHRIST, Blaine STEVENSON, Paul HARPER
-
Patent number: 9881825Abstract: A substrate transport apparatus is provided. The apparatus has a casing and a door. The casing is adapted to form a controlled environment therein. The casing has supports therein for holding at least one substrate in the casing. The casing defines a substrate transfer opening through which a substrate transport system accesses the substrate in the casing. The door is connected to the casing for closing the substrate transfer opening in the casing. The casing has structure forming a fast swap element allowing replacement of the substrate from the apparatus with another substrate without retraction of the substrate transport system and independent of substrate loading in the casing.Type: GrantFiled: November 14, 2014Date of Patent: January 30, 2018Assignee: Brooks Automation, Inc.Inventors: Ulysses Gilchrist, Michael L. Bufano, William Fosnight, Christopher Hofmeister, Gerarld M. Friedman
-
Publication number: 20180005866Abstract: A substrate transport apparatus including a frame, an upper arm rotatably mounted to the frame about a shoulder axis, a forearm rotatably mounted to the upper arm about an elbow axis where the forearm includes stacked forearm sections dependent from the upper arm through a common joint, and independent stacked end effectors rotatably mounted to the forearm, the forearm being common to the independent stacked end effectors, wherein at least end effector is mounted to the stacked forearm sections at a wrist axis, where the forearm is configured such that spacing between the independent stacked end effectors mounted to the stacked forearm sections is decoupled from a height build up between end effectors accommodating pass through instrumentation.Type: ApplicationFiled: September 12, 2017Publication date: January 4, 2018Inventors: Robert T. CAVENEY, Ulysses GILCHRIST
-
Patent number: 9852935Abstract: A substrate processing apparatus including a frame, a first SCARA arm connected to the frame, including an end effector, configured to extend and retract along a first radial axis; a second SCARA arm connected to the frame, including an end effector, configured to extend and retract along a second radial axis, the SCARA arms having a common shoulder axis of rotation; and a drive section coupled to the SCARA arms is configured to independently extend each SCARA arm along a respective radial axis and rotate each SCARA arm about the common shoulder axis of rotation where the first radial axis is angled relative to the second radial axis and the end effector of a respective arm is aligned with a respective radial axis, wherein each end effector is configured to hold at least one substrate and the end effectors are located on a common transfer plane.Type: GrantFiled: January 5, 2016Date of Patent: December 26, 2017Assignee: Brooks Automation, Inc.Inventors: Robert T. Caveney, Jayaraman Krishnasamy, Ulysses Gilchrist, Mitchell Drew, Jairo T. Moura