Industry Application
The visualization of power can meet the requirements of multi-dimensional presentation of substation operation and maintenance scenarios, real-time monitoring of substation operation status, interconnection of operation, maintenance equipment, control system and information system. Strengthen the full state perception and control of substation equipment, enhance the safety production guarantee, and improve management level of operation inspection.
With reference to BIM from construction industry, it has become a general trend for the power industry to transition from digital engineering to engineering digitization. The 3D digital construction of substations realizes intelligent management and control of digital operation and maintenance, realizes interactive web 3D scenes, responds to interactive events in time, presents 3D data maps of all power grid points, builds a new mode of "unmanned monitoring", improves equipment monitoring level. The operation and maintenance level and the degree of production informatization solve the problems of low quality of power grid operation and improve efficiency.
The design, construction, operation and maintenance phases of the power system all need accurate3D data as the data basis for digital applications. The 3D model can intuitively and vividly express the 3D locations and internal structure of the facilities & equipment in the station, which helps the staff to carry out daily maintenance, make efficient use of resources, extend the service life of equipment, help ensure the smooth operation of the substation, and build a safe power grid protection, ensure safety.
The 3D laser scanning technology can scan the whole substation in all directions under the premise of non-contact, and obtain massive color point cloud data, including the internal and external structures and multi-dimensional information of high-precision models such as equipment, platform foundation and buildings. It can be restored with 1:1 high accuracy, and subtle point changes can be seen through data comparison. The detection process is fast and convenient, which greatly improves work efficiency, ensures the safety of field operations, and also enhances the accuracy of data. This method solves the problem that traditional way cannot be archived..
EasyScan series new generation lightweight terrestrial 3D laser scanner T10 or handheld 3D SLAM M10 can meet the 3D modeling needs of substations. Non contact laser scanning technology is used for measurement, which can be deployed at multiple stations to cover the whole substation, scan the internal equipment and external structure of the substation, and obtain massive point cloud data, Professional measurement accuracy can quickly obtain data in field measurement and establish a 3D visual model, build a digital management and control form of holographic multi-dimensional perception and remote intelligent inspection for substations, and ensure the safe operation of large power grids.
Key product capabilities:
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To ensure operation safety and improve work efficiency: | The 3D scanner adopts a non-contact measurement method, which avoids the danger of traditional manual way and the impact of human factors on the measurement results, and makes the data results more objective and authentic. At the same time, effectively improve the safety of operators. |
| Large scale scanning and rapid acquisition of surface information: | It only takes a few minutes for a 3D laser scanner to collect data in one station, and it can obtain visible object information within 305° ×360° , and also synchronously collect wire information over tens of meters above the station. | |
| Synchronous collection of point cloud and image: | The 3D scanner has a built-in camera, which can synchronously collect images in the survey area, providing reliable field information for staff. | |
| High precision of 3D data: | High accuracy, not only can measure the coordinate of cables and conductors be quickly in field, but also the cable tightness or inequality can be quickly analyzed through later modeling. |
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