Engineering
The design and engineering of the safety seat involve meticulous planning and specification of the components and their arrangement to ensure a robust, reliable, and functional product. The process includes careful selection of materials and structural elements to meet safety and ergonomic standards. All components are chosen based on strict criteria, ensuring compliance with safety certifications and guidelines relevant to child transportation.
Production Drawing
Production drawings are essential for manufacturing of any product such as chair as they provide precise dimensions, materials, and finishes for each part, ensuring accuracy and consistency. These act as a universal language among designers, engineers, and manufacturers, clearly conveying all necessary information. These drawings include tolerances for quality control and detailed assembly instructions, streamlining the production process and reducing errors. By maintaining uniform standards, production drawings ensure each chair is produced consistently and efficiently, meeting design specifications and quality requirements.
Statistics
Road safety is a critical concern, especially for vulnerable groups like children and two-wheeler riders. The following statistics highlight the alarming risks faced by these groups. Our goal is to raise awareness and promote safer practices to reduce injuries and fatalities. By understanding these numbers, we can work together to implement better safety measures and ensure a secure future for our families. Let’s take a step toward making our roads safer for everyone.
Ideation
Ideation is the process of generating and refining concepts, transforming them into actionable plans for prototyping and eventual production. This stage involves brainstorming, selecting viable ideas, and beginning to develop technical drawings, schematics, and documentation. It also includes creating an Ideation Document and a Manufacturing Plan, outlining design objectives, material selection, and potential production processes. By the end of this phase, a clear foundation is established for prototype development and real-world implementation.
CAD
A CAD (Computer-Aided Design) model is a highly detailed computer representation of a real-world object, created using specialized software. In this case, the model is developed using SolidWorks, a powerful tool widely used in engineering and design industries. CAD models are not just visual representations; they encompass intricate geometric, spatial, and material characteristics, allowing them to accurately simulate the object's physical structure, design, and functionality. These models serve as a blueprint for prototyping, testing, and manufacturing, providing engineers and designers with a precise and scalable way to visualize, analyze, and refine their creations before they are built in the real world.