Entraîneur hydraulique et pneumatique intégré

Le présent Entraîneur hydraulique et pneumatique intégré allows users to conduct basic experiments in both pneumatic and hydraulic control circuits.

Les Entraîneur hydraulique et pneumatique intégré is a versatile “two-in-one” system, featuring hydraulic training on one side and pneumatic training on the other, each with an independent PLC controller. This Entraîneur hydraulique et pneumatique intégré allows users to conduct basic experiments in both pneumatic and hydraulic control circuits. It also supports advanced training modules, such as electric-pneumatic control, pneumatic-hydraulic control, electric-hydraulic control, and comprehensive pneumatic-electric-hydraulic control. Ideal for skill development in PLC, solenoids, pneumatics, hydraulics, and relays, this Entraîneur hydraulique et pneumatique intégré is an excellent tool for vocational training and education.

  • Composants de qualité industrielle :The trainer uses real hydraulic and pneumatic components, execution modules, relay control units, and PLCs, ensuring practical, industry-relevant training.
  • Modular Design:Hydraulic and pneumatic modules with elastic pins can be easily assembled on the aluminum T-slot training panel, enabling the creation of various circuits.
  • Advanced PLC Integration:Equipped with a Mitsubishi PLC FX1N-20MR, featuring a 12-point signal input and an 8-point signal output, providing robust control capabilities.
  • High-Pressure System:The system supports a rated pressure of up to 6.3Mpa, making it suitable for students, scholars, and professionals in hydraulic engineering to design and experiment with complex hydraulic transmission and programmable control systems.
  • Caractéristiques de sécurité :The trainer includes three-phase power leakage protection and DC power supply with overcurrent protection, ensuring a safe learning environment.

Typical Hydraulic Training Contents

  1. Circuits de contrôle directionnel
  • 1 Sequence Action Circuit
    • 1.1 Reversing Circuit using Manual Directional/Reversing Valve
    • 1.2 Reversing Circuit via Pilot Oriented Pressure Relief/Overflow Valve
  • 2 Sequence Action Circuit
    • 2.1 Sequence Action Circuit with Sequence Valve
    • 2.2 Sequence Action Circuit using Pressure Relay
    • 2.3 Sequence Action Circuit with Limit Switch
    • 2.4 Sequence Action Circuit using Travel/Reversing Valve
  • 3 Lock Circuits
    • 3.1 Lock Circuit using Mid-Position Function Solenoid Reversing Valve
    • 3.2 Lock Circuit with Pilot Check Valve
  1. Circuits de contrôle de la pression
  • 1 Pressure Regulating Circuit
    • 1.1 Single-Stage Pressure Regulating Circuit
    • 1.2 Two-Stage Pressure Regulating Circuit
  • 2 Pressure Reducing Circuit
    • 2.1 Pressure Reducing Circuit using Pressure Reducing Valve
  • 3 Booster Circuit
    • 3.1 Booster Circuit using Booster Cylinder
  • 4 Pressure Relief (Pressure-Venting) Circuit
    • 4.1 Pressure Relief Circuit via Reversing Valve
  1. Circuits de contrôle de la vitesse
  • 1 Throttle Speed Regulating Circuit
    • 1.1 Oil-Inlet Throttle Speed Regulating Circuit
    • 1.2 Oil-Return Throttle Speed Regulating Circuit
    • 1.3 Reversing Speed Regulating Circuit with Gear Pump
    • 1.4 Complex Speed Control Circuit using Joint Gear Pump and Speed Regulating Valve
    • 1.5 Secondary Feed Circuit using Series Speed Regulating Valve
    • 1.6 Secondary Feed Circuit using Parallel Speed Regulating Valve
  • 2 Speed Shift Circuit
    • 2.1 Speed Shift Circuit using Flow Valve
  • 3 Synchronization Circuit
    • 3.1 Synchronization Circuit with Series Hydraulic Cylinders

Typical Pneumatic Training Contents

  1. Circuits de contrôle de la pression
  • 1 Secondary Pressure Control Circuit
  • 2 High and Low Pressure Shift Circuit
  • 3 Overload Protection Circuit
  • 4 Unloading Circuit
  1. Circuits de contrôle directionnel
  • 1 Single-Acting Cylinder Reversing Circuit
  • 2 Double-Acting Cylinder Reversing Circuit
  • 3 Single-Cylinder Reciprocating Control Circuit
  • 4 Single-Cylinder Continuous Reciprocating Control Circuit
  • 5 Sequence Action Circuit for Straight Cylinder and Rotating Cylinder
  • 6 Multi-Cylinder Sequence Action Circuit
  • 7 Double Cylinders Synchronous Action Circuit
  1. Circuits de contrôle de la vitesse
  • 1 Single-Acting Cylinder Speed Regulating Circuit
  • 2 One-Way Speed Regulated Circuit for Double-Acting Cylinder
  • 3 Two-Way Speed Regulated Circuit for Double Pneumatic Acting Cylinder
  • 4 Speed Shift Circuit
  • 5 Buffer Circuit
  1. Other Circuits
  • 1 Relay Circuit
  • 2 Counting Circuit
  • 3 Interlock Circuit
  • 4 Four Cylinders Linkage Circuit
  • 5 Application Circuit of OR-Gate Type Shuttle Valve
  • 6 Application Circuit of Quick Exhaust Valve
  1. Moteur
  • Power: 750W
  • Rated Voltage: 380V
  1. Pompe à palettes variables
  • Maximum Pressure: 7MPa
  • Displacement: 8mL/r
  • Rotational Speed: 1400 r/min
  1. Hydraulic Pump Station
  • Maximum Volume: 90L
  • Noise Level: ≤58dB
  1. Air Compressor
  • Power: 250W
  • Power Supply: 220V
  • Rated Output Pressure: 1MPa
  • Noise Level: ≤58dB
  1. Alimentation électrique
  • AC Supply: Three-Phase Five-Wire, 380V ± 10%, 50Hz
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