Patents by Inventor Daniel Amos

Daniel Amos 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: 20250250719
    Abstract: Systems for producing M yarns, wherein M?1, include N extruders, M spin stations, and a processor, wherein N>1. Each extruder includes a thermoplastic polymer having a color, hue, and/or dyability characteristic, which are different from each other. Each spin station produces one yarn comprising at least one bundle of filaments. Each spin station comprises at least one spinneret through which filaments are spun from at least two molten thermoplastic polymer streams received by the respective spin station and N spin pumps upstream of the spinneret for the respective spin station. Each spin pump is paired with one of the N extruders. The processor is in electrical communication with the N*M spin pumps and is configured to adjust the volumetric flow rate of the polymers pumped from each spin pump to achieve a ratio of the polymers to be included in each M yarn.
    Type: Application
    Filed: April 22, 2025
    Publication date: August 7, 2025
    Inventors: Anthony Cascio, James Mason, Daniel Amos, Lucinda Jones
  • Patent number: 12291799
    Abstract: Systems for producing M yarns, wherein M?1, include N extruders, M spin stations, and a processor, wherein N>1. Each extruder includes a thermoplastic polymer having a color, hue, and/or dyability characteristic, which are different from each other. Each spin station produces one yarn comprising at least one bundle of filaments. Each spin station comprises at least one spinneret through which filaments are spun from at least two molten thermoplastic polymer streams received by the respective spin station and N spin pumps upstream of the spinneret for the respective spin station. Each spin pump is paired with one of the N extruders. The processor is in electrical communication with the N*M spin pumps and is configured to adjust the volumetric flow rate of the polymers pumped from each spin pump to achieve a ratio of the polymers to be included in each M yarn.
    Type: Grant
    Filed: June 16, 2021
    Date of Patent: May 6, 2025
    Assignee: Aladdin Manufacturing Corporation
    Inventors: Anthony Cascio, James Mason, Daniel Amos, Lucinda Jones
  • Publication number: 20250051975
    Abstract: Systems for producing M bundles of filaments, wherein M>1, include N extruders. M spin stations, and a processor, wherein N>1. Each extruder includes a polymer having a color, hue, luster, and/or dyability characteristic, which are different from each other. Each spin station produces N bundles of filaments that form a yarn. Each spin station comprises N spinnerets through which filaments are spun from molten polymers streams received by the respective spin station and N? spin pumps upstream of the N spinnerets for the respective spin station. Each spin pump is paired with one of the Nextruders. The processor is in electrical communication with the N*M spin pumps and is configured to adjust the volumetric flow rate of the polymers pumped from each spin pump to achieve a ratio of the polymers to be included in the yarn from each spin station.
    Type: Application
    Filed: December 2, 2022
    Publication date: February 13, 2025
    Inventors: Anthony CASCIO, James MASON, Daniel AMOS, Lucinda JONES, Margaret Archelle BAILEY, Michael Christopher GALLMAN, Jeffrey Frank MERRICK, Garnett Anson WATKINS, JR.
  • Publication number: 20250051968
    Abstract: Systems for producing M yarns, wherein M?1, include N extruders, M spin stations, and a processor, wherein N>1. Each extruder includes a polymer having a color, hue, luster, and/or dyeability characteristic, which are different from each other. Each spin station produces one yarn comprising at least one bundle of filaments. Each spin station comprises at least one spinneret through which filaments are spun from at least two molten polymer streams received by the respective spin station and N spin pumps upstream of the spinneret for the respective spin station. Each spin pump is paired with one of the N extruders. The processor is in electrical communication with the N*M spin pumps and is configured to adjust the volumetric flow rate of the polymers pumped from each spin pump to achieve a ratio of the polymers to be included in each M yarn.
    Type: Application
    Filed: December 2, 2022
    Publication date: February 13, 2025
    Inventors: Anthony CASCIO, James MASON, Daniel AMOS, Lucinda JONES, Margaret Archelle BAILEY, Michael Christopher GALLMAN, Jeffrey Frank MERRICK, Garnett Anson WATKINS
  • Publication number: 20240384445
    Abstract: Systems for producing M bundles of filaments, wherein M?1, include N extruders, M spin stations, and a processor, wherein N>1. Each extruder includes a thermoplastic polymer having a color, hue, and/or dyability characteristic, which are different from each other. Each spin station produces N bundles of filaments that form a yarn. Each spin station comprises N spinnerets through which filaments are spun from molten polymers streams received by the respective spin station and N spin pumps upstream of the N spinnerets for the respective spin station. Each spin pump is paired with one of the N extruders. The processor is in electrical communication with the N*M spin pumps and is configured to adjust the volumetric flow rate of the polymers pumped from each spin pump to achieve a ratio of the polymers to be included in the yarn from each spin station.
    Type: Application
    Filed: July 26, 2024
    Publication date: November 21, 2024
    Inventors: Anthony Cascio, James Mason, Daniel Amos, Lucinda Jones
  • Patent number: 12071713
    Abstract: Systems for producing M bundles of filaments, wherein M?1, include N extruders, M spin stations, and a processor, wherein N>1. Each extruder includes a thermoplastic polymer having a color, hue, and/or dyability characteristic, which are different from each other. Each spin station produces N bundles of filaments that form a yarn. Each spin station comprises N spinnerets through which filaments are spun from molten polymers streams received by the respective spin station and N spin pumps upstream of the N spinnerets for the respective spin station. Each spin pump is paired with one of the N extruders. The processor is in electrical communication with the N*M spin pumps and is configured to adjust the volumetric flow rate of the polymers pumped from each spin pump to achieve a ratio of the polymers to be included in the yarn from each spin station.
    Type: Grant
    Filed: June 16, 2021
    Date of Patent: August 27, 2024
    Assignee: Aladdin Manufacturing Corporation
    Inventors: Anthony Cascio, James Mason, Daniel Amos, Lucinda Jones
  • Publication number: 20210388540
    Abstract: Systems for producing M bundles of filaments, wherein M?1, include N extruders, M spin stations, and a processor, wherein N>1. Each extruder includes a thermoplastic polymer having a color, hue, and/or dyability characteristic, which are different from each other. Each spin station produces N bundles of filaments that form a yarn. Each spin station comprises N spinnerets through which filaments are spun from molten polymers streams received by the respective spin station and N spin pumps upstream of the N spinnerets for the respective spin station. Each spin pump is paired with one of the N extruders. The processor is in electrical communication with the N*M spin pumps and is configured to adjust the volumetric flow rate of the polymers pumped from each spin pump to achieve a ratio of the polymers to be included in the yarn from each spin station.
    Type: Application
    Filed: June 16, 2021
    Publication date: December 16, 2021
    Inventors: Anthony Cascio, James Mason, Daniel Amos, Lucinda Jones
  • Publication number: 20210388531
    Abstract: Systems for producing M yarns, wherein M?1, include N extruders, M spin stations, and a processor, wherein N>1. Each extruder includes a thermoplastic polymer having a color, hue, and/or dyability characteristic, which are different from each other. Each spin station produces one yarn comprising at least one bundle of filaments. Each spin station comprises at least one spinneret through which filaments are spun from at least two molten thermoplastic polymer streams received by the respective spin station and N spin pumps upstream of the spinneret for the respective spin station. Each spin pump is paired with one of the N extruders. The processor is in electrical communication with the N*M spin pumps and is configured to adjust the volumetric flow rate of the polymers pumped from each spin pump to achieve a ratio of the polymers to be included in each M yarn.
    Type: Application
    Filed: June 16, 2021
    Publication date: December 16, 2021
    Inventors: Anthony Cascio, James Mason, Daniel Amos, Lucinda Jones