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  5. DMT - Model GYROMAT 6000 - Gyroscope ...

DMTModel GYROMAT 6000 -Gyroscope Measuring System

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GYROMAT 6000 – Gyroscope measuring system for high precision in tunnel construction & shipbuilding . DMT`s GYROMAT 6000 is the most accurate precision surveying gyroscope in the world. With an accuracy of 0.8/1000 gon (2 arc-seconds) and a variety of special features, it is the ideal instrument for large-scale tunneling and route surveying projects and other high-precision alignment tasks, such as shipbuilding and other metrology applications.

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Reduce costs by avoiding measurement errors with the world`s only gyroscopic sensor for high-precision orientation and control. Our GYROMAT series gyroscope sensors provide the highest accuracy in high-precision measurements, offering a reliable solution when other measurement methods are no longer effective. This is done quickly, easily, and reliably, even in geographically and topographically challenging terrain and under difficult conditions.

Unrivaled directional accuracy

Our gyroscope fully automatically determines the direction to north or the azimuth with unrivaled accuracy worldwide, ensuring the exact direction of your construction project. Potential error sources in the measurements are compensated for. You avoid subsequent direction corrections and instead reach the end point of your surveying project accurately and reliably.

With wireless remote control and data transfer, our gyroscope sensors provide additional safety. They can also be operated conventionally in manual mode. The challenges of construction and surveying projects in tunnels, shipbuilding, or other projects that require the highest level of directional accuracy are solved quickly and efficiently with the use of our gyroscope sensors. High resolution data allows easy analysis, calculation and evaluation of the data and supports the monitoring of the gyroscopic or geodetic survey.

Advanced capabilities: GYROMAT 6000 introduces new features

A new feature of the GYROMAT 6000 compared to its predecessor, the GYROMAT 5000, is the ability to separate the gyro module from the total station. The two modules can be combined in the field. This new feature is particularly useful for surveying areas that are difficult to access, such as microtunnels. If required, the total station can also be used for conventional surveying without the gyro module, resulting in additional savings.

This ensures that your project is completed on time and within budget. The GYROMAT sensors can be purchased individually from us - or can be chartered with a DMT team of experts as a service for your construction project. If you decide to purchase a GYROMAT, you will also receive two days of free training on the instrument.

  • GYROMAT 6000 - fully automatic precision surveying gyroscope
  • GYROMAT 6000 - Highly accurate determination of the North direction (Azimuth)
  • GYROMAT 6000 - DMT`s latest surveying gyroscope with built-in laser collimation control (LCC)
Introducing GYROMAT 6000: The perfect tool for gyroscopic surveying

Discover our GYROMAT 6000, the most accurate surveying gyroscope in the world. By compensating for potential sources of error like refraction, error propagation or even plumb line errors when determining direction from a shaft, it ensures unparalleled precision. The piezo drive around the horizontal angle with high-resolution angle encoder captures data with exceptional precision. The advanced power concept, with reliable energy buffer and replaceable battery, enhances the speed and safety of the system while making it easier to maintain. The ergonomic housing is perfectly suited for geodetic and other diverse surveys in difficult terrains.

Theodolites and total stations can be customized. This allows universal use in geodesy or industrial surveying. Examples of such applications are underground direction finding, tunnel surveying or metrological applications for north finding.

Presenting the next generation of world-class high-precision gyroscope sensors

The GYROMAT 6000 is the successor to the GYROMAT 5000 and continues its tradition of precision by deliviring measurement results with an accuracy of 0.8/1000th of a gon. This corresponds to an arc deviation of approximately 1.2 cm at a distance of one kilometre. The measurement time for a directional measurement is approximately 6-9 minutes.

Now available: Two versions of GYROMAT 6000

The new and improved GYROMAT 6000 is available in two versions:

  • A fixed total station version with the same high accuracy as its predecessor.
  • As a version with total station detachable from gyro module, making it easier to transport or work in confined spaces such as ship hatches or microtunnels. The total station can also be used for conventional surveying. With an accuracy of 1.5/1000th of a gon, the detachable version falls just slightly below that of the fixed version, yet still outperforms other comparable systems.
  • Reliable north-seeking gyroscope
  • Compensation for error sources and measurement deviations such as refraction, error propagation or plumb line errors when measuring direction from a shaft
  • Application ensures design reliability and cost efficiency
  • 2 versions available with a detachable or fixed total station
  • Built-in laser collimation control (LCC) for alignment of detachable total stations and general stability checks
  • Remote control with PC, tablet, and notebook (wireless and USB)

Additional advantages and unique features:

  • Fully automated measurement sequence
  • Pre-orientation-free measuring method
  • Menu-driven measurement sequence
  • Advanced monitoring functions
  • Gyroscopic measuring unit with reliable intermediate energy storage
  • Certified according to DIN 18723 part 7 (1990)

 

Mining exploration

  • Detailed high resolution seismic exploration of deposit (2D/3D)
  • In-mine exploration

Geothermal & Hydrocarbon

  • Detailed high resolution reservoir exploration (2D/3D)
  • Monitoring of reservoir stimulation (frac monitoring)

Infrastructure & Environmental

  • Near surface structural mapping (reflection & refraction seismic)
  • Seismic tomography measurements
  • MASW appliactions
  • ReMi applications