Description
Pneumatic Training System
Features
- Improvement on trainees’ familiarization of the principles and applications of various air pressure components.
- Demonstration of air-pressure loop design.
- Training of PLC programming, including architecture, instructions and ladder diagram.
Learning Topic
- Understanding the principles and applications of various air pressure components
- Advanced air-pressure loop design
- Training of PLC programming, including architecture, instructions and ladder diagram
It is designed to be flexible to satisfy individual’s needs. A complete workbench mainly consists of 3 parts
- Electro-Modules Frame
- Working Board (double Side)
- Working Table (Single or Double Side)
The combinations of the workbench can be modified based on different lab requirement
A complete workbench allows customers to carry out all listed pneumatic experiments.
Pneumatic components are powered by Air Supply Unit and operated on Working Board area through connected Air Hose (UP-801)
The electrical components mounted on Electro-Modules. Frame are linked to the pneumatic system through Connecting Lead (UE-501) and powered by Air Supply Unit
End user are also welcome to adopt Programmable Logic Controller (PLC) for implementation
List of Experiments
Basic Pneumatic Components
- Single-Acting Air Cylinder
- Double-Acting Air Cylinder
- OR Valve
- Flow Control Valve
- Quick-Exhaust Valve
- AND Valve
- Directional Control Valves
- Sequence Valve
- Time-Delay Valve
Basic Pneumatic Control Circuits
- Two-Hand Safety Circuit
- Single-Acting Air Cylinder Remote Control
- Double-Acting Air Cylinder Remote Control
- Air Cylinder Manual Control Advance and Pressure Control Reverse
- Air Cylinder Manual Control Advance and Delayed Reverse
- Air Cylinder Two-Hand Control Advance and Automatic Reverse
- Air Cylinder Slow Advance and Rapid Reverse
- One-Cycle Reciprocation of Double-Acting Air Cylinder
- Emergency Stop Circuit
- Interlocking Start Switch Circuit
- Two Air Cylinders used in Parts Bending Process
- Sequence Control of Two Air Cylinders
- Air Cylinder used in Machining Process
- Three Air Cylinders used in Material Loading and Drilling
- Sequence Control of Three Air Cylinders
Electro-Pneumatic Sequence Control Circuits
- One-Cycle Cylinder Reciprocation using a Pushbutton and Single-Solenoid Valve
- One-Cycle Cylinder Reciprocation using Pushbuttons and Single-Solenoid Valve
- One-Cycle Cylinder Reciprocation using Limit Switch and Single-Solenoid Valve
- Continuous Cylinder Reciprocation using Limit Switches and Single-Solenoid Valve
- One-Cycle Cylinder Reciprocation using Timer and Single-Solenoid Valve
- Continuous Cylinder Reciprocation using Timer and Single-Solenoid Valve
- Cylinder Advance/Reverse Control using a Pushbutton and Single-Solenoid Valve
- One-Cycle Cylinder Reciprocation using Pushbuttons and Double-Solenoid Valve
- One-Cycle Cylinder Reciprocation using Limit Switch and Double-Solenoid Valve
- Continuous Cylinder Reciprocation using Limit Switches and Double-Solenoid Valve
- One-Cycle Cylinder Reciprocation using Timer and Double-Solenoid Valve
- One-Cycle Cylinder Reciprocation using Timer, Limit Switch and Double-Solenoid Valve
- Continuous Cylinder Reciprocation using Timer, Limit Switches and Double-Solenoid Valve
- Cylinder Advance/Reverse Control using a Pushbutton and Double-Solenoid Valve
- Two-Cylinder Sequencing (A+B+B-A-) using Single-Solenoid Valves
- Two-Cylinder Sequencing (A+A-B+B-) using Single-Solenoid Valves
- Two-Cylinder Sequencing (A+A-B+B-) using Double-Solenoid Valves
- Two-Cylinder Sequencing (A+B+/Timing/A-B-) using Single-Solenoid Valves
- Two-Cylinder Sequencing (A+B+/Timing/A-B-) using Double-Solenoid Valves
- Three-Cylinder Sequencing (A+B+C+C-B-A-) using Single-Solenoid Valves
- Three-Cylinder Sequencing (A+A-B+C+B-C-) using Single-Solenoid Valves
- Pressure Switch Uses