Notsi, Ltd., Bulgaria, 9027 Varna, Troleyna 12 street
Ph.: 00359 899 822010; Fax: 00359 52 507227
Web:
www.deltapulse.eu
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Mole LRL 3000D operating manual
2
Mole LRL 3000D works in accordance with the
Molecular-frequency
discrimination
principle. What’s typical for this device is that an unexperienced
operator can scan from 40 to 50 decares in 20-30 minutes. If the product detects
metal, it will be localized accurately. This depends on the depth of the buried
object and the period of stay underground. Mole LRL 3000D saves a lot of costs
and walking and if it does not detect anything, then, there is no metal in the
scope of the product. If the device detects a signal line, it has to be checked,
registered and specified. It is almost impossible for an experienced operator to
miss a real object in favourable weather conditions. Mole LRL 3000D also
detects signals from objects dug out long ago. Metal ions which have remained
in the soil after the metal has been removed are unmistakably detected after
many years. For this purpose, we offer an eliminator that unloads the ionic field
formed around the object during its stay underground. If the object has been
taken out by using the eliminator, the search line disappears; but if the object is
still there, the signal moves to its exact location. It is desirable when the location
of the object is found, to check it with a powerful metal detector of the pulse-
induction type, transmitter-receiver.
Since the locator covers large depths, this
device will help you determine the depth, size and composition of materials.
By using
LRL 3000D,
a good operator can find frequency oscillations of various
metals at 5000 meters distance and at 60 meters depth. The registration of the
object depends on the quantity of metal, soil dryness and mineral content, period
of stay underground, weather conditions, and operator’s experience.
LRL 3000D
can detect ore veins and lost treasures. It detects buried raw materials, explores
gold nugget areas, etc. Metals can be registered under water and through water.
When the two probes are stuck in the ground at a distance of 60 to 90 cm, they
