Company Filing History:
Years Active: 2001-2002
Title: The Innovations of Robert Kellogg
Introduction
Robert Kellogg is an accomplished inventor based in Sandpoint, ID (US). He has made significant contributions to the field of weaving technology, holding a total of 4 patents. His innovative designs have improved the functionality and efficiency of weaving devices.
Latest Patents
Kellogg's latest patents include the "Frame modules for improved weaving device" and the "Quick release coupling/pulley assembly for improved weaving device." The first patent describes a weaving device frame that mounts a plurality of eyelets. A frame module, which is releasably borne by the weaving device frame, is readily detachable and controls the movement of the respective eyelets. This frame module forms a readily removable component of the weaving device. The second patent outlines a weaving device that includes a frame, an eyelet, and a module that is releasably borne by the frame to selectively transmit a motive force to the eyelet. The coupling in this design includes first and second members that are releasably coupled together in force-receiving relation and relative to the module. This innovative coupling transmits motive force from the module to the eyelet, allowing for selective movement of the eyelet relative to the frame and facilitating the removal and replacement of the module.
Career Highlights
Throughout his career, Kellogg has worked with notable companies such as Wis Seaming Equipment, Inc. and Wis Seaming. His experience in these organizations has contributed to his expertise in weaving technology and innovation.
Collaborations
Kellogg has collaborated with several professionals in his field, including Chester F. Kutzleb and Anders Bostrom. These collaborations have likely enriched his work and led to further advancements in weaving technology.
Conclusion
Robert Kellogg's contributions to the field of weaving technology through his patents and collaborations highlight his innovative spirit and dedication to improving industry standards. His work continues to influence the development of more efficient weaving devices.