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Surveying Reflector Prism
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Survey Mini Prism
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360 Degree Prism
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Total Station Prism
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Prism Pole Bipod
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Carbon Fibre Telescopic Pole
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Telescopic Levelling Staff
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Tribrach Adaptor
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Instrument Tripods
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Total Station Batteries
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Total Station Battery Charger
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Total Station Cable
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Total Station Accessories
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Surveying Instrument
GMP111 Survey Mini Prism
Prism Constant | +17.5mm | Centering Accuracy | 2.0mm |
---|---|---|---|
Range | 2000m (IR) | Poles | 4 Sections |
Holder | Red Polymer | Brand | Original Leica |
Condition | New | Color | Red |
Material | Aluminium Alloy | Catagory | Total Station Accessories |
High Light | GMP111 Survey Mini Prism,17.5mm Survey Mini Prism,17.5mm prism reflector in total station |
Leica GMP111 Mini Survey Prism Set (+17.5mm) With Holder and Aluminum Poles
Model: GMP111-17.5
Package Includes:
• Prism (+17.5mm constant)
• 4x Poles (screw-on aluminium, permitting five prism heights - 10, 40, 70, 100 & 130cm)
• 1x Spike
Specifications and Features:
Prism Constant: +17.5mm
Centering Accuracy: 2.0mm
Range: 2000m (IR)
Conveniently storable in the instrument container, the GMP111-17.5 offers high positional accuracy due to its small size.
The GMP111 has a built-in levelling bubble and is supplied with an attachable spike (1/4" thread). With this arrangement a point can be measured with very high precision.
This mini prism set includes 4 screw-on aluminum rods with 1/4" threads permitting five different prism heights, up to 50". Holder and housing are made of red polymer, fiber-reinforced.
Optical Survey Prism Applications
Surveying reflector prisms are used by surveyors and engineers to measure the change in position of a target that is assumed to be moving. Survey prisms are used for a wide range of monitoring applications including:
- Rail Monitoring
- Settlement Monitoring
- Displacement Monitoring
- Deformation Monitoring
- Convergence Monitoring
Prism Range
Surveying Prisms, also known as retro-reflectors, redirect a measuring beam back to the EDM (Electronic Distance Measurement) for processing distance. There are two main factors for good range measurement: prism diameter and beam deviation. If the beam deviation is not accurate then the returned beam will miss the EDM completely. This occurs mainly near the maximum range of the EDM.
Prism Holder Accuracy
Prism accuracy is determined by the physical location of the prism in its canister and then to the prism holder.
Package: