Description
Hydraulic Training System
Features
- Improvement on trainees’ familiarization of the principles and applications of various oil pressure components
- Demonstration of oil-pressure loop design
- Training of PLC programming, including architecture, instructions and ladder diagram
Hydraulic Workbench It is designed to be flexible to satisfy individual’s needs. A complete workbench mainly consists of 3 parts
- Electro-Modules Frame
- Working Board (Single or 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 hydraulic experiments
Hydraulic components are powered by Hydraulic Power Unit and operated on Working Board area through connected Hose Set (UH-814/5)
The electrical components mounted on Electro-Modules Frame are linked to the hydraulic system through Connecting Lead (UE-501) and powered by Hydraulic Power Unit
End user are also welcome to adopt Programmable Logic Controller (PLC) for implementation
List of Experiments
Basic Hydraulic Components
- Hydraulic Pump
- Pressure Relief Valve
- Pressure Reducing Valve
- Pressure Losses from Hoses
- Flow Control Valve
- Line Check Valve
- Pilot-Operated Check Valve
- Directional Control Valves
- Single-Acting Hydraulic Cylinder
- Double-Acting Hydraulic Cylinder
- Hydraulic Motor
Basic Hydraulic Control Circuits
- Pressure Regulating Circuit
- Safety Circuit
- Dual Pressure Regulating Circuit
- Sequence Control Circuit (1)
- Sequence Control Circuit (2)
- Pressure Counterbalancing Circuit
- Pressure Reducing Circuit
- Meter-In Flow Control Circuit
- Meter-Out Flow Control Circuit
- Bleed-Off Control Circuit
- Pressure Keeping Circuit
- Differential Circuit
- Synchronizing Circuit
- Accumulator Control Circuit
- Hydraulic Motor Control Circuit
Basic Electro-Hydraulic Control Circuits
- Series Circuit
- Parallel Circuit
- Remote Control Circuit
- Sequence Control Circuit (1)
- Sequence Control Circuit (2)
- Cushion Control Circuit
- Pressure Reducing Control Circuit
- Meter-In Flow Control Circuit
- Meter-Out Flow Control Circuit
- Bleed-Off Control Circuit
- Two-Speed Control Circuit
- Differential Control Circuit
- Synchronous Control Circuit
- Pressure Keeping Control Circuit
- Accumulator Control Circuit
- Hydraulic Motor Control Circuit
- Pressure Switch Control Circuit
Electro-Hydraulic Sequence Control Circuits
- One-Cycle Cylinder Reciprocation using 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
- 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 Limit Switch and Double-Solenoid Valve
- One-Cycle Cylinder Reciprocation using Timer Limit Switches and Double-Solenoid Valve
- Continuous Cylinder Reciprocation using Timer Limit Switches and Double-Solenoid Valve
- Two-Cylinder Sequencing (A+B+B-A-) using Single-Solenoid Valves
- Two-Cylinder Sequencing (A+/ B+/A- / B-) using Single-Solenoid Valves
- Two-Cylinder Sequencing (A+B+/Timing/A-B-) using Single-Solenoid Valves
- Two-Cylinder Sequencing (A+B+A-B-) using Double-Solenoid Valves
- Two-Cylinder Sequencing (A+B+/ A-/B- ) using Double-Solenoid Valves
- Two-Cylinder Sequencing (A+B+/Timing/A-B-) using Double-Solenoid Valves