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Hydraulic & Pneumatic Power System

Hydraulic & Pneumatic Power System
Hotel IBIS Jogja, Yogyakarta | 5-7 maret 2012  | 08.00 – 16.00 WIB | Rp.7.000.000/orang


Description

Sistem otomasi dunia industri berkembang pesat seiring semakin tingginya teknologi yang digunakan. Begitu pula dengan perangkat elektro pneumatic dan hydraulic yang lazim digunakan dunia industri dan manufaktur. Melalui pelatihan ini para peserta diharapkan dapat meningkatkan pengetahuan dan wawasan mengenai nama, fungsi, simbol, cara kerja dan kemampuan masing-masing komponen pneumatik / hidrolik serta memahami dasar sistem penggerak mula, diagram kerja serta diagram langkah, sistem penjepit; jembatan bagi, pengontrol buka/tutup, dan aplikasi sensor. praktek instalasi-kerja hidrolik, mengenai; selang waktu kerja pada 2 silinder, gerak bolak balik silinder, gerak silinder berbeban, dan konveyor pemindah.

Objective

Setelah mengikuti pelatihan ini, peserta dapat:

  1. Memberikan pengertian dasar tentang mekanika fluida yang berkaitan dengan sistem hidrolik dan pneumatik.
  2. Memberikan pengetahuan tentang penerapan sistem hidrolik dan pneumatik di industri.
  3. Memberikan pengetahuan tentang dasar-dasar perancangan sistem hidrolik dan pneumatik.
  4. Memberikan pengetahuan tentang pengoperasian dan pemeliharaan sistem hidrolik dan pneumatik.

Outline

  • Introduction to Fluid Power
    • What is Fluid Power
    • Advantages of Fluid Power
    • Applications of Fluid Power
    • Components of Fluid Power Systems
  • Power Transmitting Fluids
    • Fluids: Oil and Air
    • Pressure, Head, and Force
    • The Perfect Gas Law
    • The Continuity Equation
    • Bernoulli’s Equation
    • Pascal’s Law and Application
    • Bulk Modulus
    • Pressure Losses in Valve and Fitting
    • Flow and Pressure Measurement
    • Energy, Power, and Flow Rates
  • Basic Fluid Power System
    • The Basic Pneumatic System
    • The Basic Hydraulic System
    • Air Compressors
    • Hydraulic Pump
    • Pump Performance
    • Pump Selection
    • Pressure Intensifiers
    • Motors and Actuators
    • Hydraulic Motor Performance
    • Low-Speed, High-Torque Motors
  • The Distribution System
    • Steel Pipes, Steel Tubing and Plastic Tubing
    • Flexible Hoses
    • Quick Disconnect Coupling
    • Metric Steel Tubing
  • Control Components and Simple Circuit
    • Directional Control Valve
    • Pressure and Flow Control Valve
    • Servo Valve
    • Hydraulic Fuses
    • Pressure and Temperature Switches
    • Shock Absorbers
  • Hydraulic Circuit
    • Control of a Single and Double-Acting Hydraulic Cylinder
    • Regenerative Circuit
    • Pump-Unloading Circuit
    • Double-Pump Hydraulic System
    • Pressure Intensifier Circuit
    • Counterbalance Valve Application
    • Hydraulic Cylinder Sequencing Circuit
    • Automatic Cylinder Reciprocating System
    • Locked Cylinder Using Pilot Check Valves
    • Cylinder Synchronizing Circuit
    • Metering in and Metering out Fail-Safe Circuits
    • Speed Control of Hydraulic Motor
    • Hydraulic Motor Breaking System
    • Accumulators and Accumulator Circuit
  • Pneumatic Circuit
    • Fluid Conditioners
    • Air Service Unit
    • Air Pressure Losses in pipes
    • Control with Orifice
    • Air Control Valve
    • Pneumatic Actuators
    • Basic Pneumatic Circuit
    • Circuit Design with Intuitive and Cascade Method
    • Accumulator System Analysis
    • Pneumatic Circuit Analysis
  • Electrical Controls for Fluid Power Circuit
    • Electrical Components
    • Control of a Cylinder Using a Single Limit Switch
    • Dual Cylinder Sequence Circuits
    • Electrical Control of Regenerative Circuit
    • Counting, Timing, and Reciprocation of Hydraulic Cylinder
    • Programmable Logic Controllers (PLC)
  • Fluid Power Maintenance and Safety
    • Sealing Devices
    • The Reservoir System
    • Filters and Strainers
    • Filtration and Contamination Assessment
    • Beta Ratio of Filters
    • Temperature Control
    • Troubleshooting Fluid Power Circuit
    • Safety Considerations



Participant

Pelatihan ini sangat sesuai bagi para Foreman, Technical Assistance, Mechanics, dan operator/ tenaga lapangan lain yang menangani hydraulic power system.


Instructor

Ir Rini Dharmastiti, MSc, Phd

Menyelesaikan program magister di Leed University United Kingdom, aktif sebagai instruktur dan konsultan terkait bidang mechanical, staff pengajar fakultas teknik mesin UGM.


Time & Venue

  • Tanggal   : 5-7 maret 2012
  • Pukul       : 08.00 – 16.00 WIB
  • Tempat    : Hotel IBIS Jogja



Course Fee

  • Rp. 7.000.000 per peserta (Non Residensial) minimal pendaftaran untuk 3 peserta.
  • Rp. 6.500.000 per peserta ( Non Residensial) Pendaftaran dalam bentuk group (5 peserta dan atau lebih



Facilities

  • ·Module / Handout
  • ·Flashdisk softcopy Materi
  • Sertifikat
  • Bag or bagpackers
  • Training Kit
  • 2xCoffe Break & 1 Lunch
  • Souvenir
  • Airport pickup service
  • Training room full AC and Multimedia

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