Pneumatic Circuit for Feeding Action Using a Push Button

 Introduction

In many industrial automation systems, feeding mechanisms are used to move materials or components into a machine. A pneumatic feeding system can be controlled using a push button, which activates a double-acting pneumatic cylinder to push the material forward.

This article explains the working principle, components, circuit design, and simulation using AutoSIM 200 for a pneumatic feeding system controlled by a push button.

Working Principle

• A push button (3/2-way normally open valve) is used to initiate the feeding action.
• When the push button is pressed, compressed air extends the double-acting cylinder, moving the material forward.
• When the button is released, the cylinder automatically retracts, preparing for the next cycle.

Applications

✔ Assembly lines – Feeding components into machines
✔ Conveyors – Pushing materials forward in production lines
✔ Packaging machines – Moving products for sealing or labeling
✔ Pressing machines – Feeding metal sheets for stamping

Components Required

1. Double-Acting Cylinder – Pushes the material forward.
2. 3/2-Way Normally Open Push Button Valve – Activates the feeding action.
3. 5/2-Way Single Solenoid Valve (Spring Return) – Controls cylinder extension and retraction.
4. Air Compressor – Supplies compressed air.
5. Flow Control Valves – Adjusts the speed of cylinder movement.
6. Air Tubing and Fittings – Connects all components.

Pneumatic Circuit Design

Step 1: Understanding the Valve Function

• 3/2-Way Push Button Valve (NO)

  • Default: Air is blocked, cylinder is retracted.
  • Pressed: Air flows to solenoid valve, causing the cylinder to extend.

• 5/2-Way Single Solenoid Valve with Spring Return

  • When energized (receiving air from the push button), it extends the cylinder.
  • When the push button is released, the solenoid deactivates, and the spring return retracts the cylinder.

Step 2: Circuit Operation

1. Press Push Button

   • Air flows to the 5/2-way solenoid valve.
   • The valve shifts, allowing air to enter the cylinder’s extension port.
   • The cylinder extends, pushing the material forward.

2. Release Push Button

   • The solenoid deactivates, and the spring return shifts the valve back.
   • Air exhausts from the extension side, and new air enters the retraction port.
   • The cylinder retracts to its initial position, ready for the next cycle.

Implementation in AutoSIM 200

To simulate this system in AutoSIM 200, follow these steps:

1. Open AutoSIM 200 and create a new project.
2. Add components from the pneumatic library:
   • Double-acting cylinder
   • 3/2-way NO push button valve
   • 5/2-way solenoid valve (spring return)
   • Air supply
3. Connect the components using air tubing.
4. Run the simulation and test the operation:
   • Press the push button → Cylinder extends (feeding action).
   • Release the push button → Cylinder retracts (reset position).

Conclusion

Using a push button to initiate a feeding action with a double-acting cylinder provides a simple and effective automation solution. The spring-return mechanism ensures the system resets automatically, making it ideal for material handling, packaging, and assembly processes.

Click here to watch video https://youtu.be/PiMe5aYDPAM

Series Connection of Pneumatic Limit Switches to Operate a Double-Acting Cylinder

Introduction

Pneumatic limit switches are commonly used in automation systems to control the movement of pneumatic cylinders. By connecting these switches in series, we can create a sequential control system where a double-acting cylinder operates only when all required conditions are met.

This article explains the working principle, components, pneumatic circuit design, and implementation using AutoSIM 200 for a series connection of pneumatic limit switches to operate a double-acting cylinder.

Working Principle

• A double-acting cylinder is used to perform bidirectional movement.
• Two pneumatic limit switches are placed in series to control the extension and retraction of the cylinder.
• The cylinder will extend only when both limit switches are activated.
• If either switch is not activated, the cylinder remains in its current position.

Applications

Sequential control systems – Ensures process safety
Workpiece detection systems – Operates only when conditions are met
Safety interlocks – Prevents unintended cylinder movement
Material handling – Ensures objects are properly positioned before operation

Components Required

1. Double-Acting Pneumatic Cylinder – Moves in both directions.
2. 5/2-Way Double Pilot Valve – Controls airflow for extension and retraction.
3. Two Pneumatic Limit Switches (3/2-Way NC Valves) – Detects position and controls air supply.
4. Air Compressor – Provides compressed air.
5. Flow Control Valves – Adjusts cylinder movement speed.
6. Air Tubing and Fittings – Connects components.

Pneumatic Circuit Design

Step 1: Understanding the Limit Switches

• Pneumatic Limit Switches (3/2-Way Normally Closed Valves)
  • When both switches are activated, air flows to the 5/2-way valve, extending the cylinder.
  • If either switch is deactivated, airflow is blocked, stopping the cylinder.

Step 2: Circuit Operation

1. Both Limit Switches Activated

   • Air flows through both switches to the pilot port A of the 5/2-way valve.
   • The valve shifts, directing air to the cylinder extension port.
   • The cylinder extends.

2. Either Switch Released

   • Air supply to the 5/2-way valve is interrupted.
   • The valve returns to its neutral state, and the cylinder remains in its last position.

3. Retraction of the Cylinder

   • When both switches are released, air flows to pilot port B of the 5/2-way valve, retracting the cylinder.

Implementation in AutoSIM 200

To simulate this system in AutoSIM 200, follow these steps:

1. Open AutoSIM 200 and create a new project.
2. Add components from the pneumatic library:
   • Double-acting cylinder
   • 5/2-way double pilot valve
   • Two 3/2-way NC pneumatic limit switches
   • Air supply
3. Connect the components using air tubing.
4. Run the simulation and test the system:
   • Activate both limit switches → Cylinder extends.
   • Deactivate either switch → Cylinder stops or retracts.

Conclusion

By using pneumatic limit switches in series, we ensure that a double-acting cylinder only operates when all required conditions are met. This method is widely used in safety systems, material handling, and sequential control applications.

Click here to watch  https://youtu.be/6_4mYoA6I3A

Operating a Double-Acting Pneumatic Cylinder with START and STOP Push Buttons (Close Priority)

Operating a Double-Acting Pneumatic Cylinder with START and STOP Push Buttons (Close Priority)

Introduction

A double-acting pneumatic cylinder operates using compressed air for both extension and retraction. In this setup, we use START and STOP push buttons to control the movement of the cylinder, with a close priority system. This means that if both buttons are pressed simultaneously, the STOP button takes precedence, ensuring the cylinder retracts for safety and control.

This article covers the working principle, components, pneumatic circuit design, and AutoSIM 200 simulation of this system.

Working Principle

• START Push Button (NO - Normally Open): Activates the cylinder extension when pressed.
• STOP Push Button (NC - Normally Closed): Deactivates extension and forces retraction when pressed.
• Close Priority Logic: The STOP button overrides the START button, ensuring the cylinder retracts when both buttons are pressed at the same time.

Applications

 Safety-critical automation processes
Emergency stop mechanisms
Industrial assembly and material handling
Pressing and clamping operations

Components Required

1. Double-Acting Cylinder – Performs bidirectional movement.
2. 5/2-Way Double Pilot Valve – Controls air supply for extension and retraction.
3. START Push Button (3/2-Way NO Valve) – Sends air to the extension side.
4. STOP Push Button (3/2-Way NC Valve) – Sends air to the retraction side.
5. Air Compressor – Provides compressed air.
6. Flow Control Valves (Optional) – Controls the speed of movement.
7. Air Tubing and Fittings – Connects the components.

Pneumatic Circuit Design

Step 1: Understanding the Valve Function

• START PB (NO - Normally Open, 3/2-Way Valve)

  • When pressed → Air flows to pilot side A of the 5/2-way valve, extending the cylinder.
  • When released → The cylinder remains extended due to the pilot signal holding the valve in position.

• STOP PB (NC - Normally Closed, 3/2-Way Valve)

  • When pressed → Sends air to pilot side B of the 5/2-way valve, retracting the cylinder.
  • When released → The cylinder remains retracted, overriding the START command.

Step 2: Circuit Working Mechanism

1. Press START Button:

   • The 3/2-way NO valve opens.
   • Air enters the pilot port A of the 5/2-way valve.
   • The cylinder extends.

2. Press STOP Button:

   • The 3/2-way NC valve opens.
   • Air enters the pilot port B of the 5/2-way valve.
   • The cylinder retracts.
   • Since STOP has priority, the cylinder remains retracted even if START is pressed.

Implementation in AutoSIM 200

To simulate this circuit in AutoSIM 200, follow these steps:

1. Open AutoSIM 200 and create a new project.
2. Add components from the pneumatic library:
   • Double-acting cylinder
   • 5/2-way double pilot valve
   • 3/2-way NO valve (START PB)
   • 3/2-way NC valve (STOP PB)
   • Air supply
3. Connect the components using air tubing.
4. Run the simulation and observe the following:
   • Press START PB → Cylinder extends.
   • Press STOP PB → Cylinder retracts.
   • If both buttons are pressed, the STOP PB takes priority.

Conclusion

Using a double-acting pneumatic cylinder with START and STOP push buttons ensures controlled movement, with the STOP button having priority for safety. This setup is commonly used in industrial automation, machine safety systems, and material handling applications.

Click here to watch video https://youtu.be/K8iEcbeOj4Y