Company Filing History:
Years Active: 1994-1996
Title: Innovations by Taiwo T Osinaiya
Introduction
Taiwo T Osinaiya is a notable inventor based in Stone Mountain, GA (US). He has made significant contributions to the field of fluid dispensing technology, holding a total of 4 patents. His work primarily focuses on the development of apparatuses that enhance the efficiency and effectiveness of dispensing heated fluid materials.
Latest Patents
One of his latest patents is an apparatus for dispensing heated fluid materials. This invention features an electromagnetic dispenser designed for dispensing viscous heated fluids, such as hot melt adhesives. The design includes a fixed pole extending from a fluid chamber, with a coil positioned around a portion of the fixed pole. This configuration isolates the coil from the fluid flow path of the adhesive, ensuring that the coil is insulated from the heat conducted by the adhesive. Additionally, a heat sink is incorporated to dissipate heat effectively. A plunger is mounted within the fluid chamber, allowing for reciprocal movement to open and close the dispensing orifice in response to the electromagnetic field generated by the coil. This innovative design allows for servicing the coil assembly without disconnecting the dispenser body from the heated fluid source.
Career Highlights
Taiwo T Osinaiya is currently employed at Nordson Corporation, where he continues to develop cutting-edge technologies in fluid dispensing. His expertise and innovative mindset have positioned him as a valuable asset to the company.
Collaborations
Some of his notable coworkers include Timothy M Hubbard and John T Walsh, who contribute to the collaborative environment that fosters innovation at Nordson Corporation.
Conclusion
Taiwo T Osinaiya's contributions to the field of fluid dispensing technology exemplify his commitment to innovation and excellence. His patents reflect a deep understanding of the challenges in dispensing heated materials and provide effective solutions that enhance operational efficiency.