Company Filing History:
Years Active: 2022
Title: Innovator Spotlight: Maitreyee Mittal and Her Ingenious Collapsible Liquid Reservoir
Introduction: Maitreyee Mittal, an accomplished inventor based in Cary, NC, has made significant contributions to the field of product innovation with her patent for a unique collapsible liquid reservoir. Her inventive spirit not only enhances functionality but also addresses practical needs in various applications.
Latest Patents: Maitreyee’s noteworthy patent, which focuses on a collapsible liquid reservoir, showcases her expertise in design and engineering. The reservoir features a flexible side wall with a lower step, a middle step, and an upper step. Each step includes a riser segment and a tread segment, pivotably connected at an external hinge, allowing for efficient collapsing and expanding. This design enables the steps to create an acute angle of approximately 23° when collapsed and an obtuse angle of around 115° when expanded. The reservoir's shape is inspired by a truncated pyramid with a generally square base and four trapezoidal side panels, delivering both practicality and innovation.
Career Highlights: Maitreyee currently works for Hollister, Incorporated, where she channels her creativity and expertise into developing innovative solutions. With one patent to her name, she is part of a growing community of inventors who are committed to advancing technology and improving user experiences. Her work has positioned her as a notable figure within her industry.
Collaborations: Throughout her career, Maitreyee has collaborated with talented individuals such as Jerome A. Henry and William Kirwan Arnold. These partnerships reflect her ability to work effectively in team environments, driving collective success and innovation.
Conclusion: Maitreyee Mittal exemplifies the spirit of innovation through her impressive patent for a collapsible liquid reservoir. Her contributions at Hollister make her an inspiring figure in the realm of inventors. With a commitment to enhancing product functionality, Maitreyee's work will undoubtedly influence future developments in her field.