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PS-1000 Pneumatic Training System

1. Improvement on trainees’ familiarization of  the principles and applications of various air pressure components.

2. Demonstration of air-pressure loop design.

3. Training of PLC programming, including architecture, instructions and ladder diagram.

Category: Automatic Control Equipment

Tags: PS-1000 Pneumatic Training System, PS1000, PS 1000, KandH Indonesia, Automatic Control Equipment

It is well known that “Factory Automation” is an indispensable measure to reduce labor cost, improve production efficiency and achieve higher product quality. It is widely adopted by electronic, semiconductor, LCD and mechanical factories. In factory automation, “air pressuring” plays a very essential and critical role.

 

The “PS-1000” is launched to offer enriched knowledge from basic air pressure components, advanced air-pressure loop design to PLC-based electrical control system. The trainee can prepare themselves to be a high-level automation engineer with the help of the “PS-1000” trainer system.

PART I : Basic Pneumatic Components

  1. Single-Acting Air Cylinder

  2. Double-Acting Air Cylinder

  3. OR Valve

  4. Flow Control Valve

  5. Quick-Exhaust Valve

  6. AND Valve 

  7. Directional Control Valves

  8. Sequence Valve

  9. Time-Delay Valve


PART II : Basic Pneumatic Control Circuits

  1. Two-Hand Safety Circuit

  2. Single-Acting Air Cylinder Remote Control

  3. Double-Acting Air Cylinder Remote Control

  4. Air Cylinder Manual Control Advance and Pressure Control Reverse

  5. Air Cylinder Manual Control Advance and Delayed Reverse

  6. Air Cylinder Two-Hand Control Advance and Automatic Reverse

  7. Air Cylinder Slow Advance and Rapid Reverse

  8. One-Cycle Reciprocation of Double-Acting Air Cylinder

  9. Emergency Stop Circuit

10. Interlocking Start Switch Circuit

11. Two Air Cylinders used in Parts Bending Process

12. Sequence Control of Two Air Cylinders

13. Air Cylinder used in Machining Process

14. Three Air Cylinders used in Material Loading and Drilling

15. Sequence Control of Three Air Cylinders


PART III : Electro-Pneumatic Sequence Control Circuits

  1. One-Cycle Cylinder Reciprocation using a Pushbutton and Single-Solenoid Valve

  2. One-Cycle Cylinder Reciprocation using Pushbuttons and Single-Solenoid Valve

  3. One-Cycle Cylinder Reciprocation using Limit Switch and Single-Solenoid Valve

  4. Continuous Cylinder Reciprocation using Limit Switches and Single-Solenoid Valve

  5. One-Cycle Cylinder Reciprocation using Timer and Single-Solenoid Valve

  6. Continuous Cylinder Reciprocation using Timer and Single-Solenoid Valve

  7. Cylinder Advance/Reverse Control using a Pushbutton and Single-Solenoid Valve

  8. One-Cycle Cylinder Reciprocation using Pushbuttons and Double-Solenoid Valve

  9. One-Cycle Cylinder Reciprocation using Limit Switch and Double-Solenoid Valve

10. Continuous Cylinder Reciprocation using Limit Switches and Double-Solenoid Valve

11. One-Cycle Cylinder Reciprocation using Timer and Double-Solenoid Valve

12. One-Cycle Cylinder Reciprocation using Timer, Limit Switch and Double-Solenoid Valve

13. Continuous Cylinder Reciprocation using Timer, Limit Switches and Double-Solenoid Valve

14. Cylinder Advance/Reverse Control using a Pushbutton and Double-Solenoid Valve

15. Two-Cylinder Sequencing (A+B+B-A-) using Single-Solenoid Valves 

16. Two-Cylinder Sequencing (A+A-B+B-) using Single-Solenoid Valves

17. Two-Cylinder Sequencing (A+A-B+B-) using Double-Solenoid Valves

18. Two-Cylinder Sequencing (A+B+/Timing/A-B-) using Single-Solenoid Valves

19. Two-Cylinder Sequencing (A+B+/Timing/A-B-) using Double-Solenoid Valves

20. Three-Cylinder Sequencing (A+B+C+C-B-A-) using Single-Solenoid Valves

21. Three-Cylinder Sequencing (A+A-B+C+B-C-) using Single-Solenoid Valves

22. Pressure Switch Uses

KEEP IN TOUCH

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