MECHANICAL DESIGN & ENGINEERING

Next Level Robotics provides high-precision mechanical design solutions tailored for complex industrial applications. From conceptual modeling to detailed engineering.

Mechanical Design Service

Next Level Robotics, with its specialized design team, understands customer requirements in detail and applies mathematics, materials, and engineering sciences to provide optimized solutions with alternative concepts. In this context, conceptual design, detailed mechanical design, analysis, and production support are handled as a complete process at a single address. All stages of the project, from conceptual design to the preparation of technical drawings, are reported according to customer requests.

Concept Design Service

The conceptual model, or concept design, defines the initial architecture of a product or system. It shapes project details, estimates costs, and plays a critical role in overall project feasibility and budgeting.

Detailed Design Service

Once design requirements are set, detailed design is completed to meet advanced production standards, ensuring seamless communication. This approach delivers globally successful products and systems.

MECHANICAL DESIGN PROCESS

1. Concept & Feasibility Analysis

Comprehensive feasibility analyses

– Assess the technical and economic viability of a project.

– Develop alternative design concepts for efficiency and cost-effectiveness.

– Define material selection, structural integrity, and performance expectations.

2. 3D Modeling & Detailed Engineering

Utilizing CAD (Computer-Aided Design) software

– Parametric 3D models for precise visualization and modification.

– Detailed technical drawings and assembly blueprints for manufacturing.

– Complex surface and solid modeling for custom components and enclosures.

3. Simulation & Analysis

Mechanical integrity and reliability

– Finite Element Analysis (FEA): Evaluating stress, strain, and deformation under real-world conditions.

– Dynamic & Kinematic Analysis: Optimizing motion paths, load distribution, and wear characteristics.

– Thermal & Vibration Testing: Predicting heat dissipation and operational stability in mechanical systems.

4. Manufacturing Optimization

Materials and production methods selection

– Lightweight, high-strength materials for efficiency and durability.

– Design for Manufacturability (DFM) and Assembly (DFA) principles to reduce production costs.

– Compatibility with CNC machining, additive manufacturing, and sheet metal fabrication.