DE526556C - Method for determining the course of a salt store by measuring the electrical resistance of the soil between two traveling electrodes of constant distance - Google Patents

Description

Method for determining the course of a salt deposit by measurement the electrical resistance of the soil between two traveling electrodes of constant Distance There are already different procedures for the investigation of the earth layer through electrical resistance measurement of the ground by the probe method known. The invention relates to a method for determining the course of a salt store by measurement the electrical resistance of the soil between two traveling electrodes of constant Distance, and it consists in the fact that, according to the invention, that of a dynamo with a spring drive known design generated variable voltage only when a certain voltage is reached measured value is suddenly fed to the probes and the voltage drop between the traveling electrodes are measured ballistically.

In this way it is possible to determine the course of a salt store quickly and precisely. The current source which is used to supply the traveling electrodes does not need to supply a constant voltage - rather it is sufficient that it gives an estimable voltage without erroneously causing measurement results. To carry out a measurement in the method according to the invention, one only needs to close a switch connected in parallel to the traveling electrodes, read the voltage on a voltmeter in series with the switch and dynamo, then open the switch and read the voltage now displayed by the voltmeter . The voltage drop, combined with the amperage that can be taken from an ammeter, allows the earth resistance between the two walking electrodes and thus the course of the salt store to be determined directly.

You can do this measurement several times by closing the switch several times repeat and from a certain number of measurements the mean of the found Determine resistance values, which makes it easy to get an even more accurate Measurement result received. Furthermore, the method according to the invention also allows use of direct current instead of alternating current, since one has both the opening of the switch as well as the current supply to the electrode for a very short period of time, e.g. B. to about o, r to o, 5 seconds, so that one polarization phenomena on the electrodes.

The drawing shows in Fig. R the method according to the invention in an exemplary embodiment in a schematic representation the to necessary set-up, while Fig. 2 to ¢ Examples of the described-ei way reproduce the obtained measurement images.

In the arrangement according to Fig. X, a dynamo D is connected in series with a ballistic voltmeter V, an ammeter A and a switch I. The dynamo D is equipped with a device which allows the delivery of current only at the moment when the voltage reaches the desired value. This device, known from mine detonators, contains a spring that gives the dynamo armature a rotary motion. This rotary movement can only take place when the spring is fully tensioned, and the current is only sent abruptly into the measuring circuit to be fed when a certain rotational speed is reached. The voltmeter V can have several sensitivities and can be adjusted to the individual sensitivities. The dynamo D can be either an alternating current or a direct current generator.

To carry out the measurement of the electrical resistance of the At the bottom, switch I must switch the dynamo over the measuring devices when it closes A and V are short-circuited for the purpose of checking the initial voltage, must be opened. The traveling electrodes T1 and T2, between which the voltage drop is measured ballistically are through the lines F, which have negligible resistance and are heavily insulated; connected to one or the other side of the switch 1. They consist of mild steel tubes a few centimeters in diameter and point a length sufficient for it to sink deeply into the ground, e.g. B. of several Decimeters, on. The readings on the voltmeter V are through the largest deflection of the pointer -given, the one with the associated moving parts a sufficient Must have inertia in order to permit a comfortable observation of the maximum values.

The readings are taken before and after the current is passed through through the ground. The measurements are taken one after the other at various suitable locations executed, where at. At each measuring point the electrodes always have the same distance from one another to have. The resistances according to the differences in the voltmeter when the and the voltages read with the switch 1 open are calculated as Ordinates and the mean distances: of the traveling electrodes T1 and T2 from one arbitrarily chosen starting point as the abscissa.- One obtains in this way a graph showing the desired information about the course of the subject to be examined Salt storage inside the soil supplies. If you take the measurements after two to each other perpendicular directions, one can get a topographical picture of the hill formations of the salt store.

In Fig. 2 shows the curve R, which in the manner described from measurements in. the rock salt storage of Meienheim has been preserved, exactly the profile of the ridge the rock salt layer. The graph in Fig. 3 comes from measurements made in Near the hole by Heiteren have been carried out, and leaves a clear Recognize the maximum value at point R1 at a short distance from the hole Rock salt content of -f- 198 in, which corresponds to this maximum resistance value. The profile of Fig. Q. is in the layer that Zoo m north of the Hettenschlag borehole is, has been determined and has the highest resistance at point R2, the one Salt content of. Zoo corresponds to m.

Claims (2)

PATENT CLAIMS: i. Procedure for determining the course of a Salt storage by measuring the electrical resistance of the ground between two Traveling electrodes of constant spacing, characterized in that the from a dynamo with spring drive of a known type generated variable voltage Only when a certain measured value is reached is fed to the probes in jerks and the voltage drop between the traveling electrodes is measured ballistically. 2. Device for performing the method according to claim i, characterized by the parallel connection of a switch (I) to the traveling electrodes (Tl, T2).