SU152441A1 - - Google Patents

Description

In the study of wells microprobes have become widespread. However, the constructions of microprobes used at present do not allow to obtain allotment quantitative data on the porosity of the exposed rocks due to the presence of a mudcake on the borehole walls. A flow meter is used to determine the thickness of the rocks.

Crustrometers are known, consisting of a knife that swings on a rocker arm positioned in a bashmak, a spring pressed against a borehole wall, and a resistance sensor located in a chamber filled with oil.

The proposed device combines the functions of the flowmeter and microprobe.

This device differs from the known ones in that the electrodes of the micro probes are placed on the butt end of the knife, which makes it possible to increase the accuracy of measurements by micro probes while simultaneously measuring the thickness of the clay crust and the resistance of the rocks. In addition, in the device, the evoked potentials probe (VP) and the electrode are placed on a rubber baseboard plate, which reduces the effect of concentration evoked potentials when measuring VP, and also eliminates the effect of drilling mud when conducting single-electrode logging.

The drawing shows the device, the overall appearance.

The bashmak / microprobe electrode blade 2, in the casing of which the feed and receiving electrodes are pressed, is mounted on a flexible steel spring 3. The electrode blade is fixed at one end

№ 152441

rocker arm 4, the other end of which is attached to a rheostat (not shown), which is a gauge for the thickness of the mudcake. The rheostat is placed in a sealed chamber having a pressure compensator 5.

In the second spring 6, a bagmak 7 is placed with three microprobe electrodes used for current logging and for monitoring measurements with a microprobe meter. On the third shoe (not shown) a probe of called non-potentials is placed. Such a placement allows one to exclude the effect of the EP caused by the concentration properties of the drilling fluid and to record the evoked potentials resulting from the physicochemical processes occurring in the rocks.

The bashmaks of the device, under the pressure of the elastic forces of the steel springs and the resistant prulgin 8, tightly press against the borehole wall. The electrode knife under the action of a circular spring (not shown), placed in a sealed chamber, cuts through a mudcake and the electrode part touches directly the rocks. Since the other end of the rocker arm is connected to the rheostat slider, the vertical displacements of the electrode knife are a function of the thickness of the mudcake. Measured by potential and gradient probes, the apparent electrical resistivity is free from interference caused by mudcake.

With the help of a switching device, an EAP probe mounted on the second spring measures the evoked potentials. Current logging is carried out both with one of the electrodes fixed on the second base and with one of the electrodes of the electrode knife.

Subject invention

Claims (2)

1. A complex instrument korkomer-microprobe with a knife, pumped on a rocker arm placed in the tank, a spring pressed against the borehole wall, and a resistance sensor in a sealed chamber filled with oil, characterized in that, in order to improve the measurement accuracy by micro probes while measuring the thickness of the mudcake and the resistance of rocks, in it the electrodes of the microprobes are placed on the end of the knife. 2. The device according to claim 1, characterized in that, in order to reduce the effect of concentration induced notsiali when measuring them, as well as to eliminate the effect of drilling fluid in a single-electrode logging, the probe of the evoked potentials and electrode are placed on a rubber board of a gun.