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The video titled "U Shaped Roller Conveyor System Subassembly Motion Study in Solidworks || Subassembly || Series 3" from the Solidworks Fun channel is a video teaching the design and simulation of the motion of a U Shaped Roller Conveyor System using the SolidWorks program.
This video is part 3 (Series-3) of a teaching series that focuses on building subassemblies and simulating the operation of complex systems:
Summary of the main content of the video (Series-3)
This video focuses on arranging parts and subassemblies in a U-shape and setting up the entire system to work together:
1. Subassembly & Layout Creation and Layout
Importing Subassemblies: The instructor imports subassemblies (such as the Direct Drive Roller Assembly or the 90° Curved Roller Assembly from a previous Series) into the main Assembly. [00:20]
U-Shaped Layout: Use the Mate command to arrange these subassemblies into a U-shape or angled conveyor path to cover the work area. [01:00]
Construction of Support Structures: Legs or other supporting structures may be constructed to support the entire conveyor system. [02:45]
2. Drive Connectivity Configuration
Connection between Subassemblies: Since it is a connected system, the instructor must define the relationship ( Mate ) or may use Gear Mate/Belt Mate [04:00] To ensure that the rotation of the rollers in one subassembly will cause the rollers in the next subassembly to rotate correctly.
3. Setting up Motion Study for the complete system (System Motion Study)
Set Main Motor: Set the motor to a single main drive unit. [06:30]
Workpiece flow simulation: Define the contact between the workpiece (box) and all the rollers in the system [07:00]
Calculation and Display: Press Calculate to simulate the movement of boxes flowing through a U-shaped conveyor belt, where the boxes smoothly change direction as they pass through 90-degree arcs. [07:50]
This video demonstrates the design of a complex conveyor system using the principles of Modular Design and focuses on the use of Motion Study to prove the concept of the entire system working.
1. SolidWorks Motion Study: Simulation of a U-Shaped Roller Conveyor System Focus on more complex structural shapes and use of Motion Study to simulate the operation of the complete system.
2. SolidWorks Assembly: Modular Conveyor System Design and Subassembly Connections Emphasis on design principles using subassembly and drivetrain connection techniques.
3. SolidWorks Tutorial: How to Make a Box Flow Through a 90 Degree Arc on a Conveyor Belt Realistically (Series 3) The main challenge in the simulation is to make the object (box) change its direction of movement smoothly on the curve of the conveyor belt.
Software/Program SolidWorks, SolidWorks tutorials, CAD programs, simulation SolidWorks, SolidWorks Tutorial, CAD, Simulation
System/structure Conveyor belt, conveyor roller, Conveyor System, U-shaped conveyor system, 90 degree structure Roller Conveyor, U Shaped Conveyor, Modular Design, Subassembly
Features/Functions Motion Study, Motion Simulation, Assembly, Contact, Gear Mate, Power Transmission Motion Study, Dynamics, Contact Simulation, Advanced Mate, Kinematics
Design techniques System design, multi-assembly, motion analysis, mechanical design System Design, Modular Assembly, Motion Analysis, Machine Design
General search terms SolidWorks Assembly, teaching how to make conveyor belts, factory systems, and complex mechanism design Factory System, Complex Mechanism, Conveyor Animation
