It is equipped with a 24MP line scan camera and a high-power linear LED light bar, which can realize full-range high-definition imaging of ultra-large size shaft parts. Cooperating with the semi-automatic electric drive platform, it can automatically complete the circumferential and axial scanning of the shaft parts without manual adjustment. The measurement accuracy of ±2μm meets the quality inspection requirements of heavy-duty shaft components, and the maximum detectable shaft parts have a diameter of 800mm and a length of 6000mm. The supporting heavy-duty version of the detection software supports geometric tolerance analysis of ultra-large size shaft parts, and can automatically generate full-size detection reports. The equipment adopts a heavy-duty steel body with good stability and load-bearing capacity, with a maximum load of 500kg, suitable for the detection of large shaft parts.
The overall size of the machine is 7500mm×1200mm×1800mm, with a net weight of 2800kg. The body is welded with Q235 heavy-duty steel structure and treated with anti-rust paint. It is equipped with a 24MP line scan industrial camera with a scanning resolution of 8192×1024, and the total power of the linear LED light bar is 500W, with graded adjustable brightness. The measurement range covers a diameter of 50-800mm and a length of 100-6000mm, supporting the detection of 15 geometric tolerance parameters such as roundness, cylindricity, axial runout, radial runout, and stepped shaft size. The power supply mode is 380V AC 50Hz, supporting Ethernet data transmission and local storage, and is equipped with emergency stop and safety protection devices, meeting industrial safety standards.
It is mainly used for laboratory full inspection and after-sales detection of heavy-duty shaft components such as wind power equipment main shafts, mining engineering machinery main shafts, ship drive shafts, and large machine tool main shafts. It is suitable for scenarios such as heavy machinery manufacturing factories, wind power equipment industrial parks, and ship repair yards. It can replace traditional laser measuring instruments and manual line drawing measurement methods, realizing higher-precision and higher-efficiency detection work.
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