Design For Manufacturing & Engineering- portfolio
Turn Your Concept into a Manufacturing-Ready Reality
Ergonomic Multi-Functional High Chair Design
A comprehensive product development project featuring an ergonomic, multi-functional high chair optimized for high-volume manufacturing. This design utilizes advanced Design for Manufacturing (DFM) principles to balance complex structural aesthetics with production efficiency. The project showcases high-fidelity SolidWorks modeling, integrated mechanical adjustment systems, and a modular framework designed for streamlined assembly and long-term durability.
Automated Retail Dispensing System (Candy Rack)
A modular, gravity-fed retail display and dispensing system designed for high-visibility product placement and ease of restocking. This project features a precision-engineered structural frame with integrated dispensing bins and a specialized mechanical tilt-and-slide mechanism for individual container access. Developed in SolidWorks, the design focuses on space-saving efficiency, durable component nesting, and high-volume manufacturing feasibility.
Advanced Structural Housing & Enclosure Optimization
A high-level mechanical engineering project involving the design, structural modification, and implementation of complex housings for commercial fitness equipment. This project showcases expert-level optimization of the device’s structural housing, featuring custom internal ribbing for maximum rigidity and precision-engineered mounting interfaces. Utilizing advanced SolidWorks modeling, the design integrates ergonomic aesthetics with industrial-grade durability, ensuring a seamless fit-and-finish for multi-component assemblies in high-use environments.
Mechanical Side-Loading Snowboard Carrier
A precision-engineered automotive transport system designed for the ergonomic loading and secure transit of snowboards and winter sports equipment. This project features a specialized slide-and-tilt mechanism that brings the carrier down to the vehicle’s side, eliminating the need to reach over the roof in icy conditions. Developed in SolidWorks, the design integrates gas-strut assistance, heavy-duty clamping interfaces, and a modular frame optimized for high-load stability and aerodynamic efficiency.
Designs
Automated Catwalk System- A precision-engineered pipe handling solution designed for the oil and gas industry to automate the transfer of drill pipe and casing to the rig floor. This system utilizes a skate mechanism to safely and efficiently push tubulars into position for connection, significantly reducing manual handling risks. The design features a modular, heavy-duty structural framework and advanced synchronization for seamless integration with drilling operations.
Underground Mining Operator Cabin Design-
A specialized ergonomic enclosure designed for high-risk underground mining environments. This project features a robust structural design engineered for maximum operator safety and visibility. Developed with precision in SolidWorks, the cabin incorporates durable materials and compact footprints essential for subterranean operations.
Pipe Spinner for Drilling Rig Operations- (concept development)
A high-performance pipe spinner concept designed for automated drilling rig operations. This mechanical system is engineered to securely hold and rotate heavy-duty drill pipe using a precision-synchronized rotating head and high-torque clamping dies. The design focuses on increasing safety and efficiency during pipe connection by providing reliable, hands-free rotation in demanding industrial environments.