Experiments:

  • Application of Hydraulics
  • Physical principles of hydraulics
  • Hydraulic symbols and standards
  • Types and properties of hydraulic fluids
  • Measurement and calculation the characteristics curve of a hydraulic pump
  • Measurement of thecharacterisrics curve of a pressure releif valve
  • Characteristic curve of a flow control valve
  • Flow control valves, directional control valves non-return valve
  • Measurement of times and pressure during advancing and reacting of a cylinder
  • Calculations of force and speed
  • Basic circuits with single and double acting cylinder
  • Difference between pressure relief valves and pressure regulator
  • Using 4/3 way valves with different mid positions
  • Using the flow control valve in adjusting the speed
  • Design and operation of a different circuit
  • Use of pilot operated non-return valves
  • Pressure sequence control
  • Counter balance circuit for tractive loads
  • Use of Hydraulic Motors
  • Rapid Feed with various directional valves, flow control valves
  • Synchronous control of forward and return strokes
  • Bypass flow control
  • Function and use of a flow dividing valve
  • Synchronous control of two cylinders with flow dividing valve
  • Design and use the rectifier circuit
  • Configuration and description of a sequence control with two cylinders
  • Circuits with hydraulic accumulator

An advanced hydraulic training system refers to a sophisticated and comprehensive device or setup designed to provide in-depth and advanced training in the field of hydraulics. It goes beyond the basics and offers a more comprehensive understanding of hydraulic systems, their components, and advanced applications. Advanced hydraulic training systems are typically utilized in higher education institutions, research facilities, and industrial training programs where a more in-depth understanding of hydraulic systems and advanced applications is required. These systems are beneficial for individuals seeking to expand their knowledge and expertise in hydraulic engineering, automation, control systems, and advanced industrial applications.