SU593171A1 - Self-contained well device for logging in process of drilling - Google Patents

Description

(54) AUTONOMOUS BOTTOM WELLING INSTRUMENT IN DRILLING PROCESS

Probes with a measuring circuit device, which leads to a distortion of the measurement results. In addition, for transistor modulators it is very important to maintain the stability of the control voltage, which is difficult under well conditions. Modulators on reed switches are deprived of these drawbacks; however, the presence of a phase shift between the reference and output voltages, as well as the recurrence of reed switches, leads to unstable operation of an autonomous instrument in the PS recording mode.

The purpose of the present invention is to improve the measurement accuracy.

The purpose of the invention is achieved by the fact that in the proposed autonomous device, the measuring transducer contains a hook and a waiting multivibrator with bridge time master circuits, the input of which through the pulse shaper is connected to the reference voltage generator and the output to the control winding of the magnetic contacts of the reed switch.

FIG. 1 shows the structural scheme of the proposed autonomous device; pas figs. 2 shows the stress diagram in the measuring circuit of the device when using a modulator on reed switches.

The contiguous electrodes 1, 2 of the probe installation are connected via a reed switch 3 to a compensation measuring circuit 4. The control winding 5 of the reed switch is connected through a waiting multivibrator 6 to a pulse shaper 7. In FIG. 1 also shows a reference voltage generator 8 and a recorder 9.

FIG. 2 a and b the following notation is accepted: UK - compensating voltage; Un3M is the measured voltage on the modulator output; Us is the total voltage of a null organ output; ./o is the voltage at the output of the null organ.

As can be seen from the voltage plot shown (Fig. 2), due to the phase shift of the measured voltage relative to the reference, as well as the bounce of the reed switches, the pulse generated on the crest of the reference voltage wave and the pulses in the output circuit of the modulator coincide. , which leads to a false positive of the null organ before the onset of compensation.

To eliminate this phenomenon, a waiting multivibrator with a trigger from the pulse shaper was introduced into the measuring transducer, the output of which is connected to the control winding of the reed switches.

The reference sinusoidal voltage generator is connected with the compensation-measuring circuit 4 and the pulse shaper 7. The shaper 7 on the crest of the reference voltage wave forms short right-angle pulses (Fig. 2), which are fed to the input of the waiting multivibrator 6. The waiting multivibrator 6 feeds the control 5 modulator on reed switches. At the same time, the reed switch 3 with the frequency of the reference voltage commutes the measuring electrodes with the compensation measuring circuit 4. Here, the measured voltage is compensated by the reference one, and the measurement results are fed to the recorder 9. With this design of the circuit, the response of the reed switch is generated thus, it is possible to separate in time these pulses and pulses in the output circuit of the modulator arising from the bounce of reed switches (Fig. 2 b). This eliminates the possibility of a false null-organ triggering and ensures stable operation of the circuit.

The stability of the duration of the pulses of the waiting multivibrator under conditions of elevated temperature of the squall is provided by the time of the master circuits, and the required pulse duration by selecting the appropriate parameters of these circuits.

Claims (2)

1. USSR Author's Certificate No. 215158, cl. E21B 47/00, 1967. 2. USSR author's certificate N ° 449332, cl. G 01V 3/18, 1970.