Интегрированный гидравлический и пневматический тренажер

Это Интегрированный гидравлический и пневматический тренажер allows users to conduct basic experiments in both pneumatic and hydraulic control circuits.

Сайт Интегрированный гидравлический и пневматический тренажер 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 Интегрированный гидравлический и пневматический тренажер 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 Интегрированный гидравлический и пневматический тренажер is an excellent tool for vocational training and education.

  • Компоненты промышленного класса: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.
  • Особенности безопасности: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. Схемы направленного управления
  • 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. Схемы управления давлением
  • 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. Схемы управления скоростью
  • 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. Схемы управления давлением
  • 1 Secondary Pressure Control Circuit
  • 2 High and Low Pressure Shift Circuit
  • 3 Overload Protection Circuit
  • 4 Unloading Circuit
  1. Схемы направленного управления
  • 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. Схемы управления скоростью
  • 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. Другие схемы
  • 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. Двигатель
  • Power: 750W
  • Rated Voltage: 380V
  1. Шиберный насос
  • 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. Источник питания
  • AC Supply: Three-Phase Five-Wire, 380V ± 10%, 50Hz
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