Sujal N Bhalakia

Title: Sujal N Bhalakia: Innovator in Optical Technology

Introduction

Sujal N Bhalakia is a notable inventor based in Brooklyn Park, MN, who has made significant contributions to the field of optical technology. With a total of three patents to his name, Bhalakia has demonstrated a commitment to advancing optical elements that enhance visual experiences.

Latest Patents

Bhalakia's latest patents include innovative designs for multi-focal optical elements. His multi-focal lens features both a power portion and a functional portion, where the power portion provides the majority of the optical power and magnification characteristics. This lens design includes a front side with both a main focal surface and a secondary focal surface that is discontinuous relative to the main focal surface. Additionally, the functional portion has a rear side shaped like the front side of the power portion, which is affixed to the power portion's front side. Another significant patent involves a method for producing optical elements, which includes a thermoplastic power portion. This method consists of laminating a first thermoplastic sheet to one side of a functional film, laminating a second thermoplastic sheet to the opposite side, and affixing one of the sheets to the power portion while leaving the other open to the atmosphere.

Career Highlights

Bhalakia is currently employed at Vision-Ease Lens, Inc., where he continues to innovate and develop new optical technologies. His work has positioned him as a key player in the optical industry, contributing to advancements that benefit both consumers and professionals alike.

Collaborations

Bhalakia collaborates with Thomas J Moravec, leveraging their combined expertise to push the boundaries of optical technology.

Conclusion

Sujal N Bhalakia's contributions to optical technology through his patents and work at Vision-Ease Lens, Inc. highlight his role as an influential inventor in the field. His innovative designs and methods are paving the way for future advancements in optical elements.