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T3 series 3D measuring industrial endoscope redefines "seeing" and "measuring accuracy"

 
In the field of industrial testing; Visible” Just the foundation,“ Accurate measurement; That's the core‐ — The subtle cracks in the turbine blades of aircraft engines, corrosion dents in pressure vessels, and wear gaps in precision molds are hidden defects that are difficult to detect by the naked eye. Once they cannot be accurately quantified, they may pose hidden dangers of equipment failure and safety accidents.
As a technology enterprise deeply involved in the field of industrial testing, Zhongke Intelligent T3 series 3D measuring industrial endoscope will; High definition visualization; With“ High precision quantification; Deep integration, enabling industrial inspection to move from; Qualitative observation; Step into“ Quantitative analysis; In the new stage, provide hardcore support for high-end equipment operation and quality control in various industries.
 

3D measurement, precise quantification of every defect

The core advantage of the T3 series lies in its powerful 3D measurement function, which relies on binocular stereo vision technology to achieve; Observation is measurement, measurement is precision; Without the need for additional tools, a comprehensive quantitative analysis of defects can be completed, solving the problem of traditional detection; Estimating based on experience with large errors; The pain points provide reliable data support for equipment maintenance decision-making and lifespan prediction.


 
Stereoscopic vision, accurately capturing three-dimensional information
The T3 series 3D measurement function is based on the principle of binocular stereo vision, with dual cameras integrated at the front end of the probe arranged at a fixed baseline distance to simulate human vision. It synchronously collects two images with parallax, matches the corresponding pixel points of the image through the triangulation algorithm of the image processing unit, calculates the parallax, and combines the optical parameters precisely calibrated by the camera to solve the coordinates of the target point in three-dimensional space, generate high-density point cloud data, and then complete the three-dimensional reconstruction and accurate measurement of defects.


 
For smooth and highly reflective industrial component surfaces, T3 uses multi angle adjustable illumination to stimulate scattering differences in surface microstructures, enhance feature matching textures, and ensure measurement accuracy is not affected.


 
13 modes, covering all scenario requirements
T3 supports 13 measurement modes including length, area, depth, angle, curve, etc. It can flexibly choose the measurement method according to different defect types, accurately quantify every detail, and achieve measurement accuracy of up to; 0.01mm, Error of 5%, meeting the stringent requirements for quantitative evaluation of minor defects in high-end fields such as aerospace and military manufacturing.


 
Assist in device lifecycle management
T3 can generate real-time depth of field views, 3D point cloud maps, cross-sectional views, high-definition images and measurement data during the detection process, synchronize storage and export, and achieve standardized retention of detection data. These data can not only be used for comparative analysis of different cycles of the same equipment, accurately grasp the development trend of defects, establish a component degradation trend model, provide data support for preventive maintenance of equipment, but also serve as an authoritative basis for annual inspection and maintenance acceptance of equipment, achieving traceability of the entire detection process.
 

Industry wide coverage, unlocking new detection methods

With its precise 3D measurement capability and strong scene adaptability, T3 3D measuring industrial endoscope has been widely used in multiple industries and has become a core tool for inspection operations in various fields.
🟠 Aerospace: Penetrating into the combustion chamber, turbine blades, fuel nozzles, and other parts of aircraft engines to detect defects such as cracks, wear, and carbon deposits. Accurately quantifying the size of defects without disassembling the engine, greatly reducing the inspection cycle.


 
🟠 Automobile manufacturing/maintenance: Detect sand holes, cracks, welding defects in engine cylinder blocks, transmissions, turbochargers and other components, accurately measure wear clearances, avoid secondary damage during disassembly, and improve quality inspection and maintenance efficiency.
🟠 Energy and electricity: Check for corrosion, wear, and weld defects in equipment such as gas turbines, wind power gearboxes, nuclear power pipelines, and pressure vessels, and operate stably in harsh environments such as high temperature and high pressure to avoid safety hazards in advance.
🟠 Petrochemical/Special Equipment: Detect pipeline inner wall erosion wear, corrosion thinning, and weld cracks without the need for excavation or cutting of pipelines, quickly locate hidden dangers, reduce maintenance costs, and meet the annual inspection requirements of special equipment.
🟠 Mold and Precision Manufacturing: Detecting burrs, sand inclusions, and wear defects in the cooling water circuit, mold cavity, and other parts of injection and die-casting molds, accurately quantifying defect sizes, ensuring product quality, and reducing batch scrap.

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