LHP 105 Automechanics

Car Engine 3d Design

The LHP-105 Automechanics Laboratory is an advanced educational facility dedicated to providing in-depth training in Automotive Engines and Sub-systems. Combining theoretical instruction with practical, hands-on experience, the lab ensures that students gain a comprehensive understanding of key automotive technologies and real-world applications.

Equipped with cutting-edge simulators, trainers, and interactive software, the LHP-105 lab offers a robust learning environment. Students engage with authentic simulations that mirror actual conditions, supported by detailed technical manuals and thorough theoretical resources. The structured software modules facilitate step-by-step learning, encompassing clear objectives, practical examples, and rigorous assessments.

With specialized modules covering a wide range of automotive systems—from fuel injection and emission control to hybrid systems and safety features—the LHP-105 lab prepares students for diverse career opportunities in the automotive industry. This facility is an essential resource for developing the expertise needed to excel in this vital field.

Welcome to the LHP-105 Automechanics Laboratory, your comprehensive destination for mastering Automotive Engines and Automotive Sub-systems. Our lab offers an extensive range of theoretical and practical training designed to prepare students for the dynamic field of automotive technology.

The LHP-105 lab is equipped with state-of-the-art simulators, trainers, and equipment as described further. Our program introduces various systems and components found in modern vehicles, providing a complete understanding of:

  • Automotive Sub-systems: Learn about the different sub-systems within a car, their components, and how they interconnect.
  • System Functions and Operations: Gain insights into the operation, signals, diagnosis, and repair methods for various automotive systems.
  • Hands-on Safe Activities: Engage in practical exercises using real-world equipment and scenarios.

To enhance learning, our laboratory includes interactive software compatible with PC workstations. The software is organized into subjects that align with our simulations and experimental exercises, providing:

  • Clear Learning Objectives: Each exercise includes specific aims and knowledge goals.
  • Theoretical Background and Practical Examples: Detailed lessons paired with hands-on applications.
  • Student Assessments: Tests, questions, and fault testing to ensure comprehensive understanding.

The software guides students through each exercise step-by-step, ensuring a thorough grasp of both theoretical and practical aspects. Additionally, technical manuals support all systems, providing essential resources for theory and exercises.

Our lab offers a range of specialized modules, including:

  • HCM14: Laboratory Fault & Diagnostics Trainer
  • HCM14 E: Petrol Engine – Operating Motor (Test Motor)
  • PT-AM31: Fuel Injection System
  • PT-AM06: Emission Control System
  • PT-AM32: Injection Control System
  • PTS-3574: Car Air Conditioning & Climate Control Simulator
  • PT-AMH1: Hybrid Automotive Systems
  • PTS-3577: Suspension Simulator
  • PTS-3578: Safety Systems Simulator
  • PTS-3579: Transmission Simulator
  • PT-2A: Electronic Multipoint Petrol Injection
  • PT-915: Injection Unit Demonstrator
  • PT-30: Chassis with Front Wheel Drive Transversally Mounted Petrol Engine

Sectioned Automechanical Models

Our lab also features a variety of sectioned automechanical models, including:

  • PT-001: Steering and Suspension Model
  • PT-101: Diesel Engine Model
  • PT-111: Petrol Engine Model
  • PT-151: Automatic Gearbox – Crank Operated
  • PT-157: Hydraulic Control Clutch Section
  • PT-157-1: Hydraulic Control Clutch Cross Section
  • PT-172: Rack Power Steering Section Model
  • PT-214: Catalytic Silencer with Lambda Probe
  • PT-242: Air Compressor Cut Model
  • PT-1031: Single Body Carburetor
  • PT-1033: Vertical Twin Carburetor
  • PT-1034: Vacuum Carburetor
  • PT-1065: Air Conditioning Cut Model

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