Introduction: The laser tracking measurement system can track the movement of a certain target. This tracked target is called the target mirror, which is a very important part of the system and is equivalent to the probe of a traditional coordinate measuring machine. When working, when the target mirror is in contact with the measured element, the system will measure the three-dimensional coordinates of its center point, and obtain the three-dimensional space position and posture information of the measured element through the relationship between the measured element and the center point coordinates of the target mirror. GT1 laser tracker system consists of four parts: PC, control host, tracking station, and target mirror. The tracking station can detect the movement direction and size of the target mirror in space and send this information to the control host. Under the control of the control host, the tracking station responds so that the laser beam is always incident along the center of the target mirror. In this way, no matter where the target mirror goes, the system can track it. The horizontal and vertical angle measurement and distance measurement are combined to form a spherical coordinate measurement system. The 3D coordinates of the target mirror are uniquely determined, that is, the measurement point information of spatial geometric elements is acquired through the target mirror, and through advanced Three-dimensional data processing software and three-dimensional measurement software complete the analysis and calculation of the dimensions of spatial geometric elements, dimensional tolerances and geometric tolerances, and spatial curved surfaces and curves. With the continuous development of the laser tracking system, its measurement range and application fields have also developed rapidly, gradually extending to most of the space point coordinate measurement field, and can measure hidden features, curved surfaces and other complex features. Laser trackers are widely used in various precision measurement fields, such as the measurement of aircraft parts and assembly accuracy in the aerospace field; the measurement of machine tool flatness, straightness, cylindricity, etc. in the machine tool industry; in automobile manufacturing Online measurement of new models; accurate calibration of the position of the moving robot in high-end manufacturing. In addition, the application of laser trackers has also expanded to shipbuilding, rail transit, nuclear power and other fields. Technical Parameters: Product model: GT1 Product Name: Laser Tracker Maximum measuring distance: 80m Horizontal direction: ±360° Vertical direction: +45°~-45° Interference ranging accuracy: 0.5μm/m Absolute ranging accuracy: 10μm (full range) Uncertainty of coordinate measurement: 15μm+6μm/m
Introduction: The laser tracking measurement system can track the movement of a certain target. This tracked target is called the target mirror, which is a very important part of the system and is equivalent to the probe of a traditional coordinate measuring machine. When working, when the target mirror is in contact with the measured element, the system will measure the three-dimensional coordinates of its center point, and obtain the three-dimensional space position and posture information of the measured element through the relationship between the measured element and the center point coordinates of the target mirror. GT1 laser tracker system consists of four parts: PC, control host, tracking station, and target mirror. The tracking station can detect the movement direction and size of the target mirror in space and send this information to the control host. Under the control of the control host, the tracking station responds so that the laser beam is always incident along the center of the target mirror. In this way, no matter where the target mirror goes, the system can track it. The horizontal and vertical angle measurement and distance measurement are combined to form a spherical coordinate measurement system. The 3D coordinates of the target mirror are uniquely determined, that is, the measurement point information of spatial geometric elements is acquired through the target mirror, and through advanced Three-dimensional data processing software and three-dimensional measurement software complete the analysis and calculation of the dimensions of spatial geometric elements, dimensional tolerances and geometric tolerances, and spatial curved surfaces and curves. With the continuous development of the laser tracking system, its measurement range and application fields have also developed rapidly, gradually extending to most of the space point coordinate measurement field, and can measure hidden features, curved surfaces and other complex features. Laser trackers are widely used in various precision measurement fields, such as the measurement of aircraft parts and assembly accuracy in the aerospace field; the measurement of machine tool flatness, straightness, cylindricity, etc. in the machine tool industry; in automobile manufacturing Online measurement of new models; accurate calibration of the position of the moving robot in high-end manufacturing. In addition, the application of laser trackers has also expanded to shipbuilding, rail transit, nuclear power and other fields.