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Labmate Manual Video Measuring System are designed to assess size, shape, and tolerance of various components .They feature sub-pixel segmentation technology to enhance image boundary resolution for accurate measurements. Their software features auto tracing-edge functionality for efficient data collection and multi-output reporting. They have stable granite workbench for dependable support during measurement tasks. Our Manual Video Measuring System has range of 2.5D and 3D Manual Video Measuring System.
Frequently Asked Questions
1 What is a Manual video measuring system?
A Manual video measuring system is an apparatus designed to measure the physical dimensions of an object such as shape and size.
2 How does a Manual video measuring system work?
It works by using video camera technology, optics and measurement software for processing.
3 How is Manual video measuring system calibrated?
It is calibrated using known reference standards or calibration blocks.
4 What kind of maintenance does Manual video measuring system require?
Regular maintenance includes cleaning of camera lens, proper calibration and system checks for optimal performance.
5 Can Manual video measuring system measure angles?
It can measure angles in real time by analyzing the visual data.
6 Does lighting affect measurements in Manual video measuring system?
Proper lighting is essential for obtaining clear, accurate images thereby ensuring optimal visibility.
Selection Guide for Manual Video Measuring System
Manual Video Measuring System is a non-contact device using a camera and lens for accurate dimensional inspection in electronics, automotive, medical, and precision engineering industries. When selecting Manual Video Measuring System, customers should choose between 2.5D and 3D types based on the complexity of their application. A 2.5D Manual Video Measuring System measures in X and Y axes with limited Z-axis data, typically through manual focusing, and is suitable for flat or stepped components like PCBs, gaskets, stamped metal parts, or plastic components where height variation is minimal. It is a cost-effective solution for routine dimensional checks. In contrast, a 3D Manual Video Measuring System provides full measurement capability in X, Y, and Z directions, capturing detailed surface profiles and complex geometries. It is best suited for applications involving curved surfaces, multi-angled features, or high-precision components such as molded parts, aerospace elements, micro-devices, and tools requiring full 3D analysis or CAD model comparison. Customers should consider the geometry of the parts, required accuracy, certification standards (such as ISO 10360, CE, or RoHS), and budget to select the most appropriate system for their measurement needs.
Understanding Manual video measuring system: Purpose, Process, and Benefits
Manual video measuring system is a non-contact optical inspection instrument that uses a camera, high-resolution optics, and measurement software to capture and evaluate the dimensions of a part or component. It requires user interaction to position the workpiece and align measurement points, making it more affordable and user-friendly for smaller-scale operations or labs.
Our measuring system is equipped with a variety of features designed to enhance inspection accuracy and user efficiency;
High-Resolution Camera and Optics
Measurement Software Integration
LED Illumination
Manual XY Stage Movement
Zoom Lenses or Fixed Magnification
Manual video measuring system is widely used across industries where precise, non-contact dimensional measurement is essential. In the electronics and semiconductor industry, they help inspect micro-components like circuit boards, solder joints, and connectors for dimensional accuracy. Medical device manufacturers use them to verify intricate parts such as stents, catheters, and surgical tools that require tight tolerances. In aerospace and automotive sectors, Manual video measuring system is employed to measure gears, gaskets, engine components, and fasteners with high precision. Plastic injection molders and tool and die makers use this instrument to inspect molds, dies, and prototype parts for quality assurance. Watchmaking and precision engineering industries rely on them for measuring miniature parts that demand fine detailing. Additionally, academic institutions and R&D labs use our Manual video measuring system for training, experimental research, and prototype development.