ELINAUT

E L I N A U T

Address
Vennala puthiya Road Thykauv jun, opp. Clearway Appt, Arakkakadavu, Kakkanad, Kerala 682028
Email
mail@elinaut.com
Contact
+91 9567863498

Select Curriculum:

Introduction to Lift Technology - 1-month 3 Month 6 month

Target Audience

Intermediate learners or those who completed the 3-month course.

Objective

Master advanced lift technologies, including smart lifts, IoT integration, and compliance with global standards.

What You'll Learn

480 hours of comprehensive training

20 hours per week

Hands-on practical experience

Industry-relevant curriculum

Expert instructors

Week 1-6: Advanced Lift Control Systems

Advanced Lift Controllers and PLCs (18 hours)
- Programming PLCs for lift control (e.g., Siemens, Allen-Bradley).
- Advanced control algorithms for smooth operation.
Smart Lift Technologies (12 hours)
- Introduction to IoT and cloud-based lift monitoring.
- Destination dispatch systems and energy-efficient controls.
Lab: Programming a PLC-based lift control system with IoT integration (20 hours).
Safety and Redundancy (10 hours)
- Designing fail-safe systems and redundant controls.
- Compliance with advanced safety standards (e.g., EN 81-50).

Week 7-12: Advanced Mechanical Systems and Modernization

Advanced Lift Mechanics (15 hours)
- Machine-room-less (MRL) lifts and gearless traction systems.
- Modern escalator designs and energy efficiency.
Lift Modernization (15 hours)
- Retrofitting old lift systems with modern technology.
- Upgrading control systems and safety features.
Lab: Simulating modernization of a lift system (20 hours).
Energy Efficiency in Lifts (10 hours)
- Regenerative drives and energy-saving technologies.
- Integration with renewable energy sources.

Week 13-18: IoT and Building Integration

IoT in Lift Systems (15 hours)
- Real-time monitoring and predictive maintenance using IoT.
- Cloud-based diagnostics and remote access.
Integration with Building Systems (12 hours)
- Interfacing lifts with BMS and fire alarm systems.
- Smart building integration for optimized performance.
Lab: Implementing an IoT-enabled lift monitoring system (23 hours).

Week 19-24: Advanced Projects and Industry Applications

Advanced Lift System Design (15 hours)
- Designing lifts for high-rise buildings and specialized applications.
- Compliance with international standards (e.g., ASME A17.1, ISO 8100).
Project Management and Safety (10 hours)
- Lifecycle management, budgeting, and risk assessment.
- Safety audits and regulatory compliance.
Lab: Designing and simulating a high-rise lift system (25 hours).
Capstone Project: End-to-end smart lift system with IoT and BMS integration (20 hours).
Industry Case Studies and Certification Prep (10 hours)
- Analysis of real-world lift projects (e.g., skyscraper elevators, hospital lifts).
- Preparation for certifications (e.g., QEI, NAEC CET).

Prerequisites

Basic electrical or mechanical knowledge for the 1-month course; completion of prior modules or equivalent for 3-month and 6-month courses.

Tools & Software

Multimeters

PLC programming software (e.g.

TIA Portal)

lift simulation software

IoT platforms (e.g.

AWS IoT).

Delivery Mode

Combination of lectures, hands-on labs, and project work.

Assessment

Weekly quizzes, lab assignments, and capstone projects.

Certification

Certificate of completion for each module; preparation for industry-recognized certifications (e.g., Qualified Elevator Inspector, NAEC certifications) in the 6-month course.

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Duration 480 hours
Weekly 20 hours
Level All Levels

Available Curricula

Introduction to Lift Technology - 1-month

Duration: 1-month

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3 Month

Duration: 3-month

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6 month

Duration: 6-month

Selected

Course Highlights

Expert instructors with industry experience
Hands-on projects and real-world applications
Flexible learning schedule
Placement assistance

Diploma in Lift Technology

Category