SU107873A1 - The way of carrying out shooting in the well - Google Patents

Description

The known methods of shooting with the determination of the true depth of descent of the shooting apparatus on rappers have the following disadvantages; when working on an artificial radioactive reper, it is necessary to additionally lower the shooting apparatus for setting the reference frame; account or accidental interruption in the work, gross errors may be made in determining the true depth of the descent of the arrows of Yush, his apparatus.

In the described method, these drawbacks are eliminated due to the fact that magnetic reperts are created in the perforation intervals in the form of one or several sections of casing with different magnitudes or magnetization signs, and for carrying out the hand-over works, a electromagnetic winding projectile and a perforator equipped a magnetic field sensor for measuring the longitudinal or transverse component of the magnetic field inside the casing.

In a cased well, radioactive tiling is performed using the device shown in FIG. one.

The device is characterized in that the magnetizing coil 7 is switched on in the filament circuit of the wellbore lamps, and the key 3 in the power supply circuit 2 interlocked with a button on the control panel.

In case of radioactive carrotting of the productive part of the borehole, simultaneously with the marking of depth marks on the diagram, the polarity of the supply current changes automatically for a short time, and the direction of the current in the winding of the magnetizing coil 1 changes in a certain direction of the casing.

When the well is pierced through, the perforation intervals are set according to the diagram of radioactive carding, taking into account the elevations to which the well sections correspond to the sections of the column with the opposite direction of magnetization.

Lumbago is produced from the bottom of the perforator equipped with a magnetic probe. Up to the depth of the magnetic frame, the descent is made by a depth counter, whereby the moment of the perforator's combination with the magnetic frame is recorded according to the magnetic probe, and from the magnetic mark to the perforation interval by measuring the cable or by the meter} depth.

FIG. Figure 2 shows a block diagram of a pointing device with a magnetic probe.

Depending on the polarity of the power source 4, a polarized relay, 5 can turn on the power supply current through normally closed contacts to the measuring circuit, the system and y nz amplifier 6, power generator 7 and sensor 8, or through normally open contacts to the igniter of the perforator 9 The magnetic field inside the casing, acting on the sensor, causes a change in the amplitude of the alternating voltage at the input of the amplifier, the output of which through the cable and filters 10 and // is connected to the pointing device and registering the device 12.

The readings of instrument 12 make it possible to shift the magnitude of the interfacial field at the place where the sensor is located, and on this basis to determine the combination of the sensor with the magnetic repo m.

Before m with t and 3 about b J3 e te n and

Claims (2)

1. A method of carrying out shooting-over operations in a well with the choice of perforation intervals according to a diagram of radioactive carding and using artificial repertoires, about the same HU- and so that, in order to increase the exactness of the production of these works, magnetic perforations are created in the perforation intervals benchmarks in the form of one or several sections of pipes with different values of the sign of the unit of the lambda. 2. A method for conducting hand-held operations according to claim 1, characterized in that a radioactive mapping projectile with an electromagnetic winding 1 perforator, equipped with a magnetic field sensor, is used to measure the longitudinal or transverse component of the magnetic field inside the casing. / / / / / / / /