Ergonomic Chair
Fadiya Fatima Muhammad

Ergonomic Chair

An innovative chair design inspired by the flexibility of a rattlesnake's tail, addressing specific needs of medical professionals.

Product DesignHealthcareErgonomicsInnovation

Project Overview

Designed for a 46-year-old radiologist who spends long hours examining ultrasound scans. The chair features a unique spine-like structure that provides optimal support and flexibility, allowing for natural movement while maintaining proper posture.

Project Details

Duration
8 months
Role
Product Designer
Tools Used
SolidWorks3D PrintingPrototyping ToolsUser Testing Equipment

Design Process

1

Concept Development

Developed various design concepts based on user feedback.

Concept Development
Concept Development
Concept Development
Concept Development
2

Final Design

Finalized the ergonomic chair design.

Final Design
Final Design
Final Design
Final Design
3

Technical Documentation

Provided technical specifications for the chair.

Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
Technical Documentation
4

Project Gallery

Showcased the ergonomic chair in a gallery format.

Project Gallery
Project Gallery
Project Gallery

Impact & Results

Challenges

  • Creating a mechanism that mimics natural spine movement
  • Ensuring durability while maintaining flexibility
  • Meeting strict medical environment requirements

Solutions

  • Developed a modular spine-like structure
  • Used medical-grade materials
  • Implemented user-adjustable support systems