Guralp Systems CMG-6T User Manual

Operator's Guide

performance of the instrument. There is also no need to mix

concrete or to wait for it to set.

5. Alternatively, if time allows and granite is not available, prepare

a concrete mix with sand and fine grit, and pour it into the hole.

Agitate (“puddle”) it whilst still liquid, to allow it to flow out
and form a level surface, then leave to set. Follow on from step

7.

Puddled concrete produces a fine-textured, level floor for
situating the seismometer. However, once set hard, the concrete

does not have the best possible coupling to the subsoil or
bedrock, which has some leeway to shift or settle beneath it.

6. Alternatively, for the most rapid installation, place loose soil

over the bottom of the pit, and compact it with a flat stone.
Place the seismometer on top of this stone. This method

emulates that in step 3, but can be performed on-site with no
additional equipment.

7. Set up the instrument as described in Section 2.7, page 12 (steps

4 to 9).

8. The instrument must now be shielded from air currents and

temperature fluctuations. This is best done by covering it with

a thermal shield.

An open-sided box of 5 cm expanded polystyrene slabs is
recommended. If using a seismic plinth on sand (from steps 3–4

or 5), ensure that the box is firmly placed in the sand, without
touching the plinth at any point. In other installations, tape the

box down to the surface to exclude draughts.

9. Alternatively, if a box is not available, cover the instrument with

fine sand up to the top.

The sand insulates the instrument and protects it from thermal

fluctuations, as well as minimizing unwanted vibration.

10.Ensure that the sensor cable is loose and that it exits the

seismometer enclosure at the base of the instrument. This will

prevent vibrations from being inadvertently transmitted along
the cable.

11.Cover the pit with a wooden lid, and back-fill with fresh turf.

July 2011

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