SU832514A1 - Device for logging magnetic susceptibility - Google Patents

Description

(54) DEVICE FOR WELL-OUT OF MAGNETIC SENSITIVITY 3 of prosperity are low sensitivity of the device, proportional to l || 1p and the large mass of the entire device as a whole. The purpose of the invention is to increase the sense of vitality and reduce the dimensions of the probe. I The goal is achieved by the fact that in a magnetic susceptibility logging tool containing a probe with at least one generating and receiving coil, and a measuring circuit consisting of a generator connected to the generating coil and a series-connected amplifier, phase detector, connected a reference input to the output of the generator, and the recorder, the generator and the receiving coils are installed parallel to each other and perpendicular to the axis of the probe, and the distance between the receiving and generating coils y ovletvor a relation z1g ° -2 1 wherein the distance between the centers of the reels; dpp is the average well diameter. In addition, the generator and receiver coils are installed with possible rotation around the axis of the probe and it is equipped with a rotation motor, on the axis of which the coils are fixed. The generator and receiver coils are made in the form of two pairs of mutually perpendicular coils, the generator coils are connected to the generator outputs with 90 phase shifts, and the receiving coils are connected via amplifiers and phase detectors to the RMS device {. Fig. 1 shows the circuit diagram; Fig. 2 shows the curves of the geometric factor of the probes in the proposed AND known device, the Device (4ig. 1) contains the generator 1, the generator 2 and the receiving coils of the probe 4, the amplifier 5, the signal phase detector 6 and the recorder 7. The generator 1 is connected to the generator coil 2 and phase detector 6, receiver coil 3 is connected to amplifier 5, which is connected to phase detector 6, the output of which is connected to recorder 7. The device works as follows. 4 A low-frequency generator 1, with the encouragement of a generator coil 2, creates a magnetic ole around the space, which induces an emf in the receiving coil 3, 6 In a magnetic medium, the magnitude of the emf in the receiving coil decreases with increasing magnetic susceptibility The device works on the principle of measuring the cranking effect of the medium. The voltage from the receiving coil is amplified by the silicate 5 and after the phase detector 6 enters the recorder 7, as such, the information signal is the measured value of signal increment D at the receiving coil, which can be represented by the following expression where the signal is in a nonmagnetic medium (for example, the EMF of the receiving coil in air); G is the geometric factor (radial characteristic) of the probe; This is the magnetic susceptibility of the medium. The real sensitivity of probe P is related to the magnitude of the signal p by the expression, (- i) Theoretical and experimental studies of the magnitude of the geometric factor G of the ratio Ep, / (the case of probes of known devices (curve 8) and the probe of the proposed device (curve 9) are shown Fig. 2, From these studies, it follows that there are optimal conditions for the ratio p | | (.p lying within 0.8-1.2, the npli of which reaches the highest sensitivity for the probe of the device proposed. Using the invention will allow depth of investigation and a small measurement error when changing the diameter of the test wells to increase sensitivity several times, to significantly reduce dpinu probe, and hence the length and weight of all downhole measuring device under conditions of both homogeneous and heterogeneous environments.

Claims (1)

1. Kudr vtsev Yu.I. Induction 1e methods for measuring the magnetic susceptibility of rocks and ores in natural conditions. L., Nedra, 1978, p. 32-36. 2, Mineral magnetic effect meter RIMV-1. Catalog of geophysical equipment. L., Nedra, 1975. AbO, 70.8b.910 10 kO FIG. 5.0