Patents by Inventor Todd Nelson
Todd Nelson 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: 20240122441Abstract: A vessel rinsing apparatus including a mounting base, a fluid discharge member including a plurality of nozzles, a valve member operably coupled to the fluid discharge member and configured to control water flow through the nozzles, and an escutcheon supported by the mounting base.Type: ApplicationFiled: October 25, 2023Publication date: April 18, 2024Inventors: Mark Cipriani, Todd Huffington, Alfred Nelson, Michael Veros, Kyle Davidson, Kurt Thomas, Jeffrey Moore
-
Publication number: 20240052700Abstract: Example motor assemblies for architectural coverings are described herein. An example motor assembly includes a motor, a first switch to trigger the motor to retract an architectural covering, a second switch to trigger the motor to extend the architectural covering, and an actuator positioned to activate the first switch when the actuator is rotated in a first direction and to activate the second switch when the actuator is rotated in a second direction. Also described herein are example lever actuators for motor assemblies of architectural coverings. An example lever actuator detaches from the motor assembly to prevent excess force on the motor assembly that could otherwise detrimentally affect the motor assembly.Type: ApplicationFiled: October 25, 2023Publication date: February 15, 2024Applicant: Hunter Douglas, Inc.Inventors: James M. Anthony, Kevin M. Dann, Daniel A. Huber, Paul Brayford, Douglas J. Lorenz, James Kolozs, Ronald Holt, Todd Nelson, Shelby Jared Yenzer, Charles Cooper, Peter Zagone, Stephen T. Wisecup, Jan Prugner, Robert Witt, Jorg Schierz
-
Patent number: 11834903Abstract: Example motor assemblies for architectural coverings are described herein. An example motor assembly includes a motor, a first switch to trigger the motor to retract an architectural covering, a second switch to trigger the motor to extend the architectural covering, and an actuator positioned to activate the first switch when the actuator is rotated in a first direction and to activate the second switch when the actuator is rotated in a second direction. Also described herein are example lever actuators for motor assemblies of architectural coverings. An example lever actuator detaches from the motor assembly to prevent excess force on the motor assembly that could otherwise detrimentally affect the motor assembly.Type: GrantFiled: November 30, 2020Date of Patent: December 5, 2023Assignee: Hunter Douglas Inc.Inventors: James M. Anthony, Kevin M. Dann, Daniel A. Huber, Paul Brayford, Douglas J. Lorenz, James Kolozs, Ronald Holt, Todd Nelson, Shelby Jared Yenzer, Charles Cooper, Peter Zagone, Stephen T. Wisecup, Jan Prügner, Robert Witt, Jörg Schierz
-
Publication number: 20230257363Abstract: The disclosed subject matter provides certain polymorphic forms of Compound (I) as well as pharmaceutical compositions comprising Compound (I) or such polymorphic forms, and methods of using or making such compounds and pharmaceutical compositions. It has now been discovered that Compound (I) can exist in multiple crystalline forms (polymorphs). One particular crystalline form, Form II, has been found to be more thermodynamically stable and, thus, likely more suitable for bulk preparation and handling than other polymorphic forms. Efficient and economic methods have been developed to prepare Compound (I) and Form II in high purity on a large scale. In animal studies, Form II has demonstrated safety and efficacy in treating depressive disorders and, when micronized, improved absorption compared to non-micronized Form II.Type: ApplicationFiled: September 23, 2022Publication date: August 17, 2023Inventors: Reza Mazhari, Djelila Mezaache, Blake M Paterson, James Vornov, Rachel M. Garner, Todd Nelson
-
Publication number: 20230018256Abstract: Example motor assemblies for architectural coverings are described herein. An example architectural covering assembly includes an architectural covering movable between an upper limit position, a lower limit position, and a transition limit position between the upper limit position and the lower limit position. The example architectural covering assembly also includes a motor, a consumer touchpoint, and an architectural covering controller. In response to detecting a first gesture at the consumer touchpoint, the architectural covering controller is to activate the motor to move the architectural covering to the transition limit position and stop, and in response to detecting a second gesture at the consumer touchpoint, different from the first gesture, the architectural covering controller is to activate the motor to move the architectural covering through the transition limit position and to the upper limit position or the lower limit position.Type: ApplicationFiled: September 28, 2022Publication date: January 19, 2023Inventors: James M. Anthony, Kevin M. Dann, Daniel A. Huber, Paul A. Brayford, Douglas J. Lorenz, James Kolozs, Ronald Holt, Todd Nelson, Shelby Jared Yenzer, Charles Culver Gidden Cooper, Peter Zagone, Stephen T. Wisecup, Jan Pruegner, Robert Witt, Joerg Schierz
-
Patent number: 11486198Abstract: Example motor assemblies for architectural coverings are described herein. An example architectural covering assembly includes an architectural covering movable between an upper limit position, a lower limit position, and a transition limit position between the upper limit position and the lower limit position. The example architectural covering assembly also includes a motor, a consumer touchpoint, and an architectural covering controller. In response to detecting a first gesture at the consumer touchpoint, the architectural covering controller is to activate the motor to move the architectural covering to the transition limit position and stop, and in response to detecting a second gesture at the consumer touchpoint, different from the first gesture, the architectural covering controller is to activate the motor to move the architectural covering through the transition limit position and to the upper limit position or the lower limit position.Type: GrantFiled: April 15, 2020Date of Patent: November 1, 2022Assignee: Hunter Douglas Inc.Inventors: James M. Anthony, Kevin M. Dann, Daniel A. Huber, Paul A. Brayford, Douglas J. Lorenz, James Kolozs, Ronald Holt, Todd Nelson, Shelby Jared Yenzer, Charles Culver Gidden Cooper, Peter Zagone, Stephen T. Wisecup, Jan Pruegner, Robert Witt, Joerg Schierz
-
Patent number: 11479542Abstract: The disclosed subject matter provides certain polymorphic forms of Compound (I) as well as pharmaceutical compositions comprising Compound (I) or such polymorphic forms, and methods of using or making such compounds and pharmaceutical compositions. It has now been discovered that Compound (I) can exist in multiple crystalline forms (polymorphs). One particular crystalline form, Form II, has been found to be more thermodynamically stable and, thus, likely more suitable for bulk preparation and handling than other polymorphic forms. Efficient and economic methods have been developed to prepare Compound (I) and Form II in high purity on a large scale. In animal studies, Form II has demonstrated safety and efficacy in treating depressive disorders and, when micronized, improved absorption compared to non-micronized Form II.Type: GrantFiled: May 27, 2020Date of Patent: October 25, 2022Assignees: CERECOR, INC., MERCK SHARP & DOHME CORP.Inventors: Reza Mazhari, Djelila Mezaache, Blake M. Paterson, James Vornov, Rachel M. Garner, Todd Nelson
-
Publication number: 20220203004Abstract: Dialysis systems and methods are described which can include a number of features. The dialysis systems described can be to provide dialysis therapy to a patient in the comfort of their own home. The dialysis system can be configured to prepare purified water from a tap water source in real-time that is used for creating a dialysate solution. The dialysis systems described also include features that make it easy for a patient to self-administer therapy.Type: ApplicationFiled: April 30, 2020Publication date: June 30, 2022Applicant: OUTSET MEDICAL, INC.Inventors: Dean HU, Justin Thomas PUZIN, Steven Owen MILLER, Tyler John MILLER, Logan RIVAS, Michael KIM, Michael Edward HOGARD, Jeffrey ETTER, Todd NELSON, James TUMBER, Stephanie KLUNK, Paul BRAYFORD, Cole NAYMARK
-
Patent number: 11363802Abstract: A nest box or birdhouse wherein a removable roof panel provides easy physical access to a nest cavity and also secures an interchangeable entrance panel in multiple positions—for both active-breeding-season use and off-season storage. All vertical enclosure components can remain in place during activity monitoring, avoiding harm to eggs or hatchlings when the nest box is opened. In the off-season-storage configuration, the enclosed nest cavity is eliminated to prevent infestation. The nest box utilizes a hollow roof-locking pin for increased ventilation. Furthermore, an adjustable-height mounting mechanism helps prevent predator attacks and allows the nest box to be accessed at safe heights during physical monitoring and maintenance.Type: GrantFiled: November 5, 2020Date of Patent: June 21, 2022Inventor: Jeffrey Todd Nelson
-
Patent number: 11072976Abstract: Example methods and apparatus can be used to reduce noise in motor assemblies, such as those used in architectural coverings. An example apparatus includes a first driver configured to be coupled to and rotated by an output shaft of a motor, a second driver, and a plurality of vibration-absorbers disposed between the first driver and the second driver. The second driver is configured to be coupled to a rotating member to transfer rotational motion from the first driver to the rotating member via the vibration-absorbers.Type: GrantFiled: February 5, 2018Date of Patent: July 27, 2021Assignee: Hunter Douglas, Inc.Inventors: James M. Anthony, Daniel M. Fogarty, Paul A. Brayford, Robert Fisher, II, Daniel A. Huber, Jan Pruegner, Clark Brace, Kevin Dann, Max Oelschlager, Todd Nelson, Nickolas C. Buccola, Jr., Michael Goldberg
-
Publication number: 20210198941Abstract: Example methods and apparatus can be used to reduce noise in motor assemblies, such as those used in architectural coverings. An example apparatus includes a first driver configured to be coupled to and rotated by an output shaft of a motor, a second driver, and a plurality of vibration-absorbers disposed between the first driver and the second driver. The second driver is configured to be coupled to a rotating member to transfer rotational motion from the first driver to the rotating member via the vibration-absorbers.Type: ApplicationFiled: March 15, 2021Publication date: July 1, 2021Inventors: James M. Anthony, Daniel M. Fogarty, Paul A. Brayford, Robert Fisher, Daniel A. Huber, Jan Pruegner, Clark Brace, Kevin Dann, Max Oelschlager, Todd Nelson, Nickolas C. Buccola, Michael Goldberg
-
Publication number: 20210148167Abstract: Example motor assemblies for architectural coverings are described herein. An example motor assembly includes a motor, a first switch to trigger the motor to retract an architectural covering, a second switch to trigger the motor to extend the architectural covering, and an actuator positioned to activate the first switch when the actuator is rotated in a first direction and to activate the second switch when the actuator is rotated in a second direction. Also described herein are example lever actuators for motor assemblies of architectural coverings. An example lever actuator detaches from the motor assembly to prevent excess force on the motor assembly that could otherwise detrimentally affect the motor assembly.Type: ApplicationFiled: November 30, 2020Publication date: May 20, 2021Inventors: James M. Anthony, Kevin M. Dann, Daniel A. Huber, Paul Brayford, Douglas J. Lorenz, James Kolozs, Ronald Holt, Todd Nelson, Shelby Jared Yenzer, Charles Cooper, Peter Zagone, Stephen T. Wisecup, Jan Pruegner, Robert Witt, Joerg Schierz
-
Publication number: 20210107892Abstract: The disclosed subject matter provides certain polymorphic forms of Compound (I) as well as pharmaceutical compositions comprising Compound (I) or such polymorphic forms, and methods of using or making such compounds and pharmaceutical compositions. It has now been discovered that Compound (I) can exist in multiple crystalline forms (polymorphs). One particular crystalline form, Form II, has been found to be more thermodynamically stable and, thus, likely more suitable for bulk preparation and handling than other polymorphic forms. Efficient and economic methods have been developed to prepare Compound (I) and Form II in high purity on a large scale. In animal studies, Form II has demonstrated safety and efficacy in treating depressive disorders and, when micronized, improved absorption compared to non-micronized Form II.Type: ApplicationFiled: May 27, 2020Publication date: April 15, 2021Inventors: Reza Mazhari, Ojelila Mezaache, Blake M. Paterson, James Vornov, Rachel M. Garner, Todd Nelson
-
Patent number: 10851587Abstract: Example motor assemblies for architectural coverings are described herein. An example motor assembly includes a motor, a first switch to trigger the motor to retract an architectural covering, a second switch to trigger the motor to extend the architectural covering, and an actuator positioned to activate the first switch when the actuator is rotated in a first direction and to activate the second switch when the actuator is rotated in a second direction. Also described herein are example lever actuators for motor assemblies of architectural coverings. An example lever actuator detaches from the motor assembly to prevent excess force on the motor assembly that could otherwise detrimentally affect the motor assembly.Type: GrantFiled: October 18, 2017Date of Patent: December 1, 2020Assignee: Hunter Douglas Inc.Inventors: James M. Anthony, Charles Culver Gidden Cooper, Peter Zagone, Stephen T. Wisecup, Jan Pruegner, Robert Witt, Joerg Schierz, Kevin M. Dann, Daniel A. Huber, Paul A. Brayford, Douglas J. Lorenz, James Kolozs, Ronald Holt, Todd Nelson, Shelby Jared Yenzer
-
Publication number: 20200332595Abstract: Example motor assemblies for architectural coverings are described herein. An example architectural covering assembly includes an architectural covering movable between an upper limit position, a lower limit position, and a transition limit position between the upper limit position and the lower limit position. The example architectural covering assembly also includes a motor, a consumer touchpoint, and an architectural covering controller. In response to detecting a first gesture at the consumer touchpoint, the architectural covering controller is to activate the motor to move the architectural covering to the transition limit position and stop, and in response to detecting a second gesture at the consumer touchpoint, different from the first gesture, the architectural covering controller is to activate the motor to move the architectural covering through the transition limit position and to the upper limit position or the lower limit position.Type: ApplicationFiled: April 15, 2020Publication date: October 22, 2020Inventors: James M. Anthony, Kevin M. Dann, Daniel A. Huber, Paul A. Brayford, Douglas J. Lorenz, James Kolozs, Ronald Holt, Todd Nelson, Shelby Jared Yenzer, Charles Culver Gidden Cooper, Peter Zagone, Stephen T. Wisecup, Jan Pruegner, Robert Witt, Joerg Schierz
-
Patent number: 10710976Abstract: The disclosed subject matter provides certain polymorphic forms of Compound (I) as well as pharmaceutical compositions comprising Compound (I) or such polymorphic forms, and methods of using or making such compounds and pharmaceutical compositions. It has now been discovered that Compound (I) can exist in multiple crystalline forms (polymorphs). One particular crystalline form, Form II, has been found to be more thermodynamically stable and, thus, likely more suitable for bulk preparation and handling than other polymorphic forms. Efficient and economic methods have been developed to prepare Compound (I) and Form II in high purity on a large scale. In animal studies, Form II has demonstrated safety and efficacy in treating depressive disorders and, when micronized, improved absorption compared to non-micronized Form II.Type: GrantFiled: February 11, 2019Date of Patent: July 14, 2020Assignees: Cerecor Inc., Merck Sharp & Dohme Corp.Inventors: Reza Mazhari, Djelila Mezaache, Blake M. Paterson, James Vornov, Rachel M. Garner, Todd Nelson
-
Patent number: 10368057Abstract: This disclosure describes techniques for synchronizing independent data streams. In some instances, a computing device couples to multiple independent sensors, such as cameras, and applies accurate timestamp information to the individual frames of sensor data from the independent sensors. After aligning these data streams by applying these accurate timestamps, the computing device may, in some instances, encode and transmit these timestamped data streams to one or more entities for further processing. In one example, a first camera (e.g., a depth camera configured to generate a depth map) may capture images of an environment, as may a second camera (e.g., an Red-Green-Blue (RGB) camera configured to generate color images). The resulting images may be temporally aligned with one another via the timestamping, and the resulting aligned images from both the depth sensor and the RGB camera may be used to create a three-dimensional (3D) model of the environment.Type: GrantFiled: September 28, 2016Date of Patent: July 30, 2019Assignee: Amazon Technologies, Inc.Inventors: Sajesh Kumar Saran, Brad Nathaniel Arnold, Jack G Song, Tyler Ogren Vrooman, Wei Chen, Todd Nelson Schoepflin
-
Patent number: 10332089Abstract: Frames of sensor data may be obtained from many sensors arranged throughout a facility. These frames may be time synchronized to support further processing. For example, frames containing image data obtained at about the same time from many cameras within the facility may be used to create an aggregate or “stitched” view of the facility at that time. The synchronization may involve storing the frames from several sensors in buffers. A time window may be specified and used in conjunction with timestamps of the frames to select a set of sensor data from the buffers that are deemed to be synchronized data. The synchronized data may then be used for further processing.Type: GrantFiled: March 31, 2015Date of Patent: June 25, 2019Assignee: AMAZON TECHNOLOGIES, INC.Inventors: Yasser Baseer Asmi, Frank Florian Liberato, Jr., Daniel Bibireata, Bradley David Volen, Prafulla Jinendra Masalkar, Todd Nelson Schoepflin
-
Publication number: 20190177299Abstract: The disclosed subject matter provides certain polymorphic forms of Compound (I) as well as pharmaceutical compositions comprising Compound (I) or such polymorphic forms, and methods of using or making such compounds and pharmaceutical compositions. It has now been discovered that Compound (I) can exist in multiple crystalline forms (polymorphs). One particular crystalline form, Form II, has been found to be more thermodynamically stable and, thus, likely more suitable for bulk preparation and handling than other polymorphic forms. Efficient and economic methods have been developed to prepare Compound (I) and Form II in high purity on a large scale. In animal studies, Form II has demonstrated safety and efficacy in treating depressive disorders and, when micronized, improved absorption compared to non-micronized Form II.Type: ApplicationFiled: February 11, 2019Publication date: June 13, 2019Inventors: Reza Mazhari, Djelila Mezaache, Blake M. Paterson, James Vornov, Rachel M. Garner, Todd Nelson
-
Patent number: 10227804Abstract: According to an aspect, a device may include a deployable rolling joint having a first deployable joint member, a second deployable joint member, and a plurality of flexures coupled to the first deployable joint member and the second deployable joint member. The deployable rolling joint may move from an undeployed state to a deployed state in which the first deployable joint member forms a convex surface portion and the second deployable joint member forms a convex surface portion. When the deployable rolling joint is in the deployed state, the convex surface portion of the first deployable joint member may roll with respect the convex surface portion of the second deployable joint member, and the plurality of flexures may hold the first deployable joint member and the second deployable joint member together as the first deployable joint member and the second deployable joint member roll across each other.Type: GrantFiled: December 15, 2015Date of Patent: March 12, 2019Assignee: Brigham Young UniversityInventors: Larry L. Howell, Todd Nelson