Scanning Probes HEXAGON
Scanning at its best. This is what users can expect with the HEXAGON’s scanning probes
SKU: Touch Scanning Probes
Description
HEXAGONMI offers the following scanning probes:
LSP-S4
In addition to its ability to accept long styli, the LSP-S4 excels with its low trigger forces – ideal for measuring delicate surfaces. Its long travel means that the LSP-S4 is not susceptible to damage caused by collisions.
Probing deflections are measured via high resolution Linear Variable Differential Transducers (LVDT). The LSP-S4 supports all the standard probing modes like Single Point Probing, Self-Centering as well as Continuous High-Speed-Scanning for fast and accurate form and profile measurements.Like all other Leitz probe heads, the LSP-S4 provides simultaneous and unclamped probing in all axes, always orthogonal to the surface. This allows the correct compensation of any styli deflection.
HP-S-X1
The HP-S-X1 scanning probes offer the accuracy characteristics of fixed heads but can also be fitted to HH-A and HH-AS automatic indexable heads being capable to measure both in point to point and in continuous scanning mode.
The HP-S-X1 Scanning Probe represent the next step in the miniaturization of the proven measurement head technology. It allows for flexible and accurate measurements in an extremely broad range of possible applications. All standard measurements such as dynamic single-point inspection, high-speed scanning as well as self-centering measurements for highly accurate form and contour inspection are thus possible.HP-S-X3
Compact, cost-effective but extremely accurate 3D scanning probes which can carry up to 360 mm long probing extensions and styli clusters. Available in both fixed and articulating models.
The HP-S-X3 offers fast single-point probing for all standard measuring tasks as well as High-Speed-Scanning for form and profile inspection and is ideally suited for dimensional control of small to medium high-accuracy prismatic parts and complex geometries.
An automatic tool changing capability allows styli change within a measuring program without the need for probe requalification. Magnetic clamping of styli on the sensor permits fast and reliable changes.
Two models are available:
- HP-S-X3C – Fixed probe for high performance
- HP-S-X3T – Fitted to a HH-A or HH-AS probe head, the probe can be rotated to differnent angles for greater flexibility
HP-S-X5
Available in two versions to accommodate the best styli options for every application, the HP-S-X5 and HP-S-X5 HD sensors are ideally suited to measuring the tight tolerances and complex geometries of mechanical parts.
HP-S-X5 range scanning probes offer true 3D probing, making them ideal for inspecting parts like gears, rotors and blades. On contact with the part, the probe automatically measures normal to the surface. Deflections are measured by high-resolution Linear Variable Differential Transducers (LVDT), allowing accurate compensation of the probe bend whatever length of stylus is used.Both versions feature an anti-collision system to protect the head, while styli can be changed automatically without requalifying the sensor, reducing measurement time for higher productivity. Pneumatic stylus clamping ensures fast and reliable changes, reducing operator workload. The rugged sensor construction also makes them virtually maintenance free for long-term accuracy.The HP-S-X5 HD version offers better part accessibility, improving styli acceptance to lengths of 800 mm and weights of 650 g and enabling customers to apply high-accuracy scanning across a greater range of measurement applications, including the inspection of small workpieces and features deep within parts.
LSP-S2
Probing deflections are measured via high resolution Linear Variable Differential Transducers (LVDT).
The LSP-S2 supports all the standard probing modes like Single Point Probing, Self-Centering as well as Continuous High-Speed-Scanning for fast and accurate form and profile measurements.
Like all other Leitz probe heads, the LSP-S2 provides simultaneous and unclamped probing in all axis, always orthogonal to the surface. This allows the correct compensation of any styli deflection.
