Pressure Sensor Problem in Electro Pneumatic System

In this video, I tackle an exciting automation challenge involving a stamping machine powered by a double-acting cylinder. This system is designed to press down the die onto a fixture when two push buttons are pressed simultaneously, ensuring operator safety. But here’s the twist! The return stroke of the cylinder is automatically triggered by a pressure switch detecting 0.6 MPa and a 5-second time delay, ensuring safe and efficient operation. What’s inside this video? ✅ A step-by-step explanation of the control task and how to translate it into an electro-pneumatic circuit. ✅ A complete hand-drawn solution to show you how the circuit is logically structured. ✅ A FluidSIM simulation that demonstrates the circuit’s dynamic operation in action. ✅ Insights on using pressure switches and time delay relays in electro-pneumatic systems to achieve safe and automated stamping. This video is perfect for: 🔧 Engineering students eager to learn about pressure-based control in automation systems. 🔧 Technicians and engineers designing safety-compliant industrial machinery. 🔧 Anyone curious about combining pressure sensing, time delay, and manual inputs in a practical electro-pneumatic circuit. 💡 Don’t miss this deep dive into smart automation with pressure sensors and time delay logic! 👉 Like, comment, and subscribe for more videos on electro-pneumatic systems, automation solutions, and FluidSIM simulations!