3D Model
Precision Machined Crankshaft & Bearing Housing Assembly
mounting housing, modeled in SolidWorks. The design is intended for reciprocating motion or power transmission applications. Key Features: Engineered Shaft: The shaft includes a tapered section for precision
3D Model
Crankshaft
CAD model has been designed with high precision, ensuring durability, balance, and efficient power transmission. Software Used - SolidWorks - Creo Design Features - Optimized geometry for strength and durability
3D Model
Industrial Screw Conveyor Drive Assembly – 3D CAD Design & Rendering
engineering logic behind each component This design highlights my experience in: industrial machinery power transmission systems rotating equipment design sheet metal and weldment structures realistic presentation
Designer
Viral Kumar
CAD and Product Design engineer
Innovative Design • Value Addition • Higher Quality Vision & Mission: "To establish a global “Power Transmission Design Centre” to help our customers to achieve their objectives of innovation, cost reduction
3D Model
Fully functional EV Scooter
include :- - Rated voltage: 60V - Top Speed : 80 km/h - Rated current: 23A - Torque : 26 Nm - Rated power: 2000W - Gradeability : 20 degrees - Wheelbase : 1400mm - Ground Clearance 145 mm - Load Capacity
3D Model
universal-coupling-assembly
Exploded View • Engineering Visualization Software Used: SolidWorks Applications: • Mechanical Power Transmission • Machine Design • CAD Learning & Practice • Engineering Portfolio
Designer
Vernalis Engineering
AutoCAD, LS Dyna & Siemens NX (Unigraphics NX) Designer
challenges in the following industries: Automotive Forging Industrial machinery Home appliances Power transmission Special purpose machinery Industrial automation Wind energy CORE OFFERINGS New Product Development
3D Model
Coupling
manufacturability and ease of assembly, making it suitable for industrial applications such as power transmission, conveyor systems, and pumps. This coupling model is presented with detailed dimensions, an
3D Model
Helical Bevel Gear
component features helical teeth cut at an angle for smooth, quiet operation and efficient power transmission between intersecting shafts. The parametric workflow ensures design consistency, facilitates
3D Model
planetry-gear-assembly
precision-modeled Planetary Gear Assembly (epicyclic gearing) designed for high torque density and compact power transmission. The assembly was developed using SolidWorks and consists of four main functional components: