SU672334A1 - Independent instrument for research in wells - Google Patents

Description

(54) AUTONOMOUS WELL RESEARCH DEVICE

The invention relates to the field of field geophysics, and more specifically to instruments for measuring hydrodynamic parameters in the process of testing wells with reservoir testers.

A stand-alone well testing device 1 is known, by means of which digital geophysical parameters are measured and recorded on a magnetic carrier during field geophysical surveys.

In these devices, the determination of the current time during processing is done by counting time stamps or the number of measurements made in the well.

With distortions and partial loss of information, accurate time determination becomes impossible, which leads to significant errors in the calculation of parameters.

Also known as a prototype is an autonomous device for researching wells 2, which contains a set of measuring sensors, each of which is connected to a generator that generates pulses with a varying follow-up period. The output of each generator is connected via a summation circuit connected with a software device to the input of a period adder, which forms using a software device, a memory register and

switch bit digital code for writing to magnetic tape.

Due to the effect of high temperatures, vibrations and shocks in the well, due to the presence of defects on the magnetic tape, as well as

due to the distortion of information as a result of its transmission via the teletype communication channel, there is a loss of information in certain areas.

The calculation of time in the processing of computer information is based on the number of measurements made in the well. With the loss of an unspecified number of measurements, accurate determination of the current time becomes impossible. This leads to a significant reduction in the accuracy of information processing, since the determined parameters are functions of time.

The purpose of the invention is to increase the accuracy of information processing and reduce the processing time.

The goal is achieved by the fact that a standalone device containing a set of measuring sensors connected via a summation circuit controlled by a software device with a pulse counter that forms a digital code for recording on a magnetic tape using a software device, a shift register and a bit switch , entered the time counter, the inputs of which are connected to the software device, and the outputs - with the shift register.

The drawing shows a functional diagram of the device.

The autonomous complex well testing device includes measurement sensors 1-4, summation circuit 5, software device 6, pulse counter 7, circuit OR 8, time counter 9, shift register 10, switch 11 bits, magnetic recorder 12.

The outputs of the sensors 1-4 are connected to the summation circuit 5, controlled by the software device 6, the output of which is connected to the input of the counter 7 pulses of the measuring sensors. On its other inputs from the software device 6, the signals for setting the pool and the resolution are received. The outputs of the pulse counter 7 are connected to the first inputs of the OR circuits, the second inputs of which are connected to the corresponding outputs of the time counter 9, the summing and setting inputs of which are connected to a software device. The outputs of the circuits OR 8 are connected to the inputs of the shift register 10. In addition, to its inputs come from the software device the code transfer and code shift signals.

The outputs of the shift register are connected to the inputs of the switch 11 bits, also associated with the software device 6.

The device works as follows

Signals whose frequencies are determined by the values of the measured parameters are alternately transmitted from sensors 1-4 through summation circuit 5, controlled by software device 6, to the input of pulse counter 7. A digital code is formed in the counter, which is transferred to the shift register 10 using a software device, which, together with software 6 and switch 11, ensures the generation of a serial digital code for recording on a magnetic tape in the recorder 12. On time counter 9 from software 6 after At the end of each sensor polling cycle, a pulse is given that determines its state. Not before the start of the new cycle, the time code is transferred from the time counter 9 to the shift register and the bits of the sequential digital time code are formed by the programmer and switch to record it. Recording on a magnetic tape is made in the recorder 12 using a two-channel magnetic head.

The use of a time counter in the instrument ensures high accuracy of parameter measurements in the presence of distortions and partial loss of information.

The registration in the well of the current time makes it easy to eliminate the corrupted information during processing and to reduce the processing time.

There is no need to enter the machine and process the entire well testing process, since the parameters are counted in its individual sections, and the rest of the information is processed to determine the temporal characteristics of the test.

Claims (2)

1. For the number 2194766/25, cl. E 21 B 47/00, 1975, according to which the decision to issue an author's certificate was made. 2. USSR author's certificate number 441544, cl. G 01 V 11/00, 1974. four -WITH C2 K1 Jz and