Mechanical Automation & Maintenance Engineer
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#Program
About Program
QP Name: Mechanical Automation & Maintenance Engineer
QP Code: CSC/Q
QP Version: 1.0
NSQF Level: 6
Model Curriculum Version: 1.0
A Mechanical Automation & Maintenance Engineer is responsible for designing, implementing, and maintaining automated mechanical systems in manufacturing and industrial environments. This role focuses on automation technologies, predictive maintenance strategies, and process optimization to improve efficiency, reduce downtime, and ensure the smooth operation of mechanical systems. Industries such as automotive, aerospace, heavy machinery, and industrial manufacturing rely on these engineers to maintain high productivity and equipment reliability.
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Module
Module 1
Introduction to the role of an Automotive Manufacturing Data Analyst
Module 2
Mechanical Automation Fundamentals
Module 3
Mechanical Automation System Design & Installation
Module 4
Mechanical Automation Diagnostic Process
Module 5
Troubleshooting Techniques of Mechanical Automation Systems
#Overview
Program Overview
Training Outcomes:
At the end of the program, the learner should have acquired the listed knowledge and skills.
Program Overview
– Understanding of Mechanical Systems: Gain a comprehensive understanding of
mechanical principles, components, and systems commonly used in industrial
automation, including motors, gears, bearings, conveyors, and pneumatic/hydraulic
systems.
– Knowledge of Mechanical & Electrical Automation Technologies: Familiarize with
various automation technologies, such as , Pneumatic,Hydraulics, Programmable
Logic Controllers (PLCs), Human-Machine Interfaces (HMIs), sensors, actuators, and
robotics, including their functions, configurations, and applications.
– Maintenance Procedures: Learn preventive maintenance techniques and procedures to
ensure the reliability, efficiency, and longevity of mechanical equipment, including
lubrication, cleaning, alignment checks, and parts replacement.
– Troubleshooting Skills: Develop proficiency in diagnosing and troubleshooting
mechanical issues, using systematic approaches to identify root causes, analyze
symptoms, and implement corrective actions to minimize downtime.
– Safety Protocols and Regulations: Understand safety regulations, standards, and best
practices related to mechanical maintenance and operation, including lockout/tagout
procedures, personal protective equipment (PPE), and hazard identification.
– Equipment Specific Knowledge: Acquire knowledge of specific mechanical
automation systems and equipment used in the industry, including their operating
principles, control interfaces, and maintenance requirements.
– Technical Drawing Interpretation: Gain proficiency in interpreting technical
drawings, schematics, and blueprints to understand equipment layouts, assembly
instructions, and component specifications.
– Repair and Replacement Techniques: Learn repair and replacement techniques for
mechanical components and systems, including disassembly, repair, reassembly, and
adjustment of parts to restore functionality.ms.
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