The Te Series incorporates a slip-ring type strain torque converter in the drive shaft, and displays and outputs the torque value after it has been amplified by the dynamic strain amplifier inside the control box.
In principle, styli are the co-ordinate measuring machine’s (CMM’s) “tools”, providing the same relationship that turning tools have with lathes, and milling and boring tools have with milling machines. When measuring with a touch-trigger probe, the machine uses the stylus to take the data points on the surface of the workpiece. Each touch generates a point that is defined using co-ordinate values in X, Y and Z. Feature, size, form and position can then be computed from these points.
In principle, styli are the co-ordinate measuring machine’s (CMM’s) “tools”, providing the same relationship that turning tools have with lathes, and milling and boring tools have with milling machines. When measuring with a touch-trigger probe, the machine uses the stylus to take the data points on the surface of the workpiece. Each touch generates a point that is defined using co-ordinate values in X, Y and Z. Feature, size, form and position can then be computed from these points.
In principle, styli are the co-ordinate measuring machine’s (CMM’s) “tools”, providing the same relationship that turning tools have with lathes, and milling and boring tools have with milling machines. When measuring with a touch-trigger probe, the machine uses the stylus to take the data points on the surface of the workpiece. Each touch generates a point that is defined using co-ordinate values in X, Y and Z. Feature, size, form and position can then be computed from these points.
In principle, styli are the co-ordinate measuring machine’s (CMM’s) “tools”, providing the same relationship that turning tools have with lathes, and milling and boring tools have with milling machines. When measuring with a touch-trigger probe, the machine uses the stylus to take the data points on the surface of the workpiece. Each touch generates a point that is defined using co-ordinate values in X, Y and Z. Feature, size, form and position can then be computed from these points.
In principle, styli are the co-ordinate measuring machine’s (CMM’s) “tools”, providing the same relationship that turning tools have with lathes, and milling and boring tools have with milling machines. When measuring with a touch-trigger probe, the machine uses the stylus to take the data points on the surface of the workpiece. Each touch generates a point that is defined using co-ordinate values in X, Y and Z. Feature, size, form and position can then be computed from these points.
In principle, styli are the co-ordinate measuring machine’s (CMM’s) “tools”, providing the same relationship that turning tools have with lathes, and milling and boring tools have with milling machines. When measuring with a touch-trigger probe, the machine uses the stylus to take the data points on the surface of the workpiece. Each touch generates a point that is defined using co-ordinate values in X, Y and Z. Feature, size, form and position can then be computed from these points.
The BLh-R Series is a remote-controlled type agitator that allows control from an external source.
In principle, styli are the co-ordinate measuring machine’s (CMM’s) “tools”, providing the same relationship that turning tools have with lathes, and milling and boring tools have with milling machines. When measuring with a touch-trigger probe, the machine uses the stylus to take the data points on the surface of the workpiece. Each touch generates a point that is defined using co-ordinate values in X, Y and Z. Feature, size, form and position can then be computed from these points.
Compact module changing touch-trigger probe, which allows the use of a range of stylus configurations and extensions to access features on complex parts TP20 with MCR20 and PI 200-3 The TP20 is a compact 5-way, or 6-way, kinematic touch-trigger probe system. The two-piece design, comprising probe body and detachable stylus module(s), connected using a highly repeatable magnetic kinematic coupling.
Compact module changing touch-trigger probe, which allows the use of a range of stylus configurations and extensions to access features on complex parts TP20 with MCR20 and PI 200-3 The TP20 is a compact 5-way, or 6-way, kinematic touch-trigger probe system. The two-piece design, comprising probe body and detachable stylus module(s), connected using a highly repeatable magnetic kinematic coupling.
Compact module changing touch-trigger probe, which allows the use of a range of stylus configurations and extensions to access features on complex parts TP20 with MCR20 and PI 200-3 The TP20 is a compact 5-way, or 6-way, kinematic touch-trigger probe system. The two-piece design, comprising probe body and detachable stylus module(s), connected using a highly repeatable magnetic kinematic coupling.
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