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[Intelligent Manufacturing Technology] 5.Precision Measurement Technology
#ICT# #IOT#

Lesson Code: TCEN2025H009

Clicks:
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Academic Hours
5.80hours
Publish Date
Jul 2025

Lecturer

1. Lecturers WU YonghuiGuangxi Technological College of Machinery and Electricity

2. Lecturers YE ChengbaoGuangxi Technological College of Machinery and Electricity

3. Lecturers ZHANG LiliGuangxi Technological College of Machinery and Electricity

4. Lecturers QIN ZuheGuangxi Technological College of Machinery and Electricity

5. Lecturers MO ChengjieGuangxi Technological College of Machinery and Electricity

6. Lecturers LU XiaoGuangxi Technological College of Machinery and Electricity

General Introduction
This course is designed to develop trainees’ practical abilities in the application of coordinate measuring machines (CMM).
The course focuses on fundamental operations of CMMs as well as measurement and evaluation methods for typical components and geometric features.

This Course is for
# Helping trainees understand the basic knowledge, structural characteristics, and applications of CMMs.
# Enabling trainees to acquire general operation and safety procedures of CMMs, and to apply them in performing standard part inspections.
# Teaching trainees to master the basic functions of the PC-DIMIS measurement software, including data processing and programming techniques; enabling them to carry out both manual and automatic programming, independently complete inspection tasks, and analyze and interpret measurement results.
# Guiding trainees to develop appropriate and effective measurement plans based on engineering requirements, and to become competent in the inspection of general mechanical products.

Learning Materials

1. Corresponding PPT
2. Online Course Video
3. Simulation Question Banks

Recognized By

Benefits of Learning

# Being able to complete the installation, debugging, and signal configuration of robotic systems and follow industrial robot safety operation standards.
# Being able to perform routine maintenance on industrial robot arms and control cabinets in accordance with maintenance manuals.
# Capable of setting basic parameters, performing teach programming, and operating industrial robot systems.
# Capable of identifying common faults in industrial robots and resolving them according to maintenance manuals.
# Being able to carry out data backup and restoration for industrial robot systems.
# Capable of using robotic simulation software to construct robot workstations and perform programming and debugging tasks.

Courses Videos
Course Introduction_1.mp4play1.1 The Emergence and Measurement Principles of Coordinate Measurement Technology_1.mp4play1.2 Structure, Classification, and Development Trends of Coordinate Measuring Machines_1.mp4play2.1 The Operation Specifications and Measurement Process of Coordinate Measuring Machines_1.mp4play2.2 Configuration and Calibration of Probes_1.mp4play3.1 Inspection Analysis and Preparation of Machining Demo Parts_1.mp4play3.2 3-2-1 Method for Establishing Coordinate System_1.mp4play3.3 Manual Measurement of Typical Features on a Machining Demo Part_1.mp4play3.4 Evaluation Methods for Typical Tolerance Items_1.mp4play4.1 Inspection Analysis and Preparation of Injection Molding DEMO Part_1.mp4play4.2 Coordinate System Establishment of Injection Molding DEMO Parts_1.mp4play4.3 Manual Measurement of Typical Features in Injection Molding DEMO Parts_1.mp4play4.4 Common Evaluation of Typical Geometrical and Positional Tolerances-.mp4play4.5 Filling in Evaluation Report Templates—Application of the FORM Window_1.mp4play5.1 Vertical Plate Inspection Analysis and Preparation_1.mp4play5.2 Establishing Rough Coordinate System Using the 3-2-1 Method for Vertical Plate Parts_1.mp4play5.3 Adding Moving Points and the Plane-Plane-Plane Method for Precision Coordinate System Establishment_1.mp4play5.4 Automatic Measurement of Typical Features_1.mp4play5.5 Feature Construction and Evaluation_1.mp4play5.6 Tolerance Item Evaluation for Plate Parts_1.mp4play5.7 Measurement and Evaluation of Symmetry-Related Features_1.mp4play6.1 Inspection Analysis of Rotors and Calibration of Star Probes-.mp4play6.2 Establishment of Single-Axis Coordinate System-.mp4play6.3 Automatic Measurement of Rotor Features Based on Star Probes-.mp4play6.4 Measurement and Evaluation of Items such as Concentricity and Parallelism for Rotors-.mp4play6.5 Establishing Coordinate System Using the Iterative Method-.mp4play7.1 Engine Block Inspection Analysis and Preparation_1.mp4play7.2 Establishing the Coordinate System for Workpieces with One Surface and Two Pins-.mp4play7.3 Safety Space Addition Tips_1.mp4play7.4 Tips for Adding Array Features_1.mp4play7.5 Automated Measurement Plane Command Based on TTP Strategy_1.mp4play7.7 Engine Cylinder Block Dimensional Evaluation_1.mp4play

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