▎ 摘　　要

NOVELTY - Separating devices for geological studies, comprises e.g.: using housing with screening properties to eliminate mutual influence of several devices located in close proximity to each other; using the magnetic field and electromagnetic waves in archaeological works; achieving effect by covering the device with a special shielding casing, preferably in the shape of a cuboid, with openings on the side of transmitting and receiving antennas, where the casing is made of a laminated laminate, individual layers are basalt fabric with a weight of 220-250 g/m2, covered on both sides with graphite paint, preferably with graphene with a layer not thinner than 50 mu m, basalt fabric is the load-bearing element of the housing, and polyethylene terephthalate (PET) fabric covered with nickel, copper and nickel layers with a thickness of not greater than 0.1 mm and a resistance of plus minus 0.05 Omega /m2, which is the basic element of a Faraday cage; and soaking these layers together with epoxy resin by vacuum lamination. USE - The method is useful for separating devices for geological studies. ADVANTAGE - None given. DETAILED DESCRIPTION - Separating devices for geological studies, comprises: using housing with screening properties to eliminate the mutual influence of several devices located in close proximity to each other; using the magnetic field and electromagnetic waves in archaeological works; achieving effect by covering the device with a special shielding casing, preferably in the shape of a cuboid, with openings on the side of transmitting and receiving antennas, where the casing is made of a laminated laminate, the individual layers are basalt fabric with a weight of 220-250 g/m2, covered on both sides with graphite paint, preferably with graphene with a layer not thinner than 50 mu m, basalt fabric is the load-bearing element of the housing, and polyethylene terephthalate (PET) fabric covered with nickel, copper and nickel layers with a thickness of not greater than 0.1 mm and a resistance of plus minus 0.05 Omega /m2, which is the basic element of a Faraday cage; soaking these layers together with epoxy resin by vacuum lamination; galvanically connecting the conductive layers of the laminate (housing) to a supporting structure made of a metal that does not have ferromagnetic properties, preferably aluminum; and covering the synergy of two conductive carbon layers with the PET fabric with nickel, copper and nickel shows high efficiency (greater than 78 dB) of electromagnetic wave suppression in the 10 MHz to 2.3 GHz band ( plus minus 3dB).