SU985264A1 - Deep-well profile gauge - Google Patents

Description

(5A) WELL PROFILEMER

one

BACKGROUND OF THE INVENTION The invention relates to devices for studying the technical condition of wells using methods of caliper and profile measurement.

Borehole profilers are known for measuring and registering radius vectors of well sections along its wellbore 1, 2 and C3.

Known borehole profilers transmit and record all incoming ini ({jurmatio as output values, linearly dependent on the radii of the opening of each of the measuring levers.) To determine the gutter intervals its trunk according to the registered analog curves, equivalent to the radii of the opening of each of the measuring levers, which virtually eliminates the efficiency of issuing the results atov interpretation.

The borehole profiler closest to that proposed by the technical essence and the achieved result contains measuring levers, telemetering system, adders

5 signals of pairs of levers located in one vertical plane, analyzers of extremal values of summed signals and recorders, one of which registers only operational information in the form of two analog curves, and the other - all measurement information. The recorded analog curves correspond to the minimum and maximum diameters of the 5 well-section frames along its wellbore. This allows, without preliminary constructions, to single out the intervals of possible guttering. Further processing of the rest of the injürmaci),

Claims (2)

20 associated with geometrical constructions is performed only against the C 1, designated along the two curves mentioned above. The disadvantages of this profile meter are the ambiguity of determining the groove intervals and the recording of non-informative sections of the wellbore by the recorder of all measurement information. The purpose of the invention is to eliminate the ambiguity of determining the intervals of possible groovy and redundant information recorded by the registrar of all measurement information, in order to achieve the goal of a well; An other profiler containing successively connected measuring levers, a telemeasuring system, signal adders of pairs of levers located in one vertical plane, and recorders, one of which records operational, and the other, all measurement information, is provided with threshold units for the selection of signals corresponding to the minimum and maximum diameters by the storage circuit, accumulator, control circuit, synchronization circuit and recorder input keys of all measurement information, while The synchronization circuit is connected to the telemetering system, and one of the outputs is connected to parallel inputs of threshold selection blocks corresponding to the minimum and maximum diameters, another output of the synchronization circuit is connected to the parallel inputs of the memory circuit, accumulator and control circuit, input keys of the register of all measuring information are connected by their inputs to the inputs of the adders of pairs of levers and the output of the control circuit, and the outputs are connected to the recorder of the entire measuring information and, the output of the threshold signal extraction unit corresponding to the maximum diameter is connected via a memory circuit to one of the operational information recorder inputs, the output of the threshold allocation unit, a signal corresponding to the minimum diameter, is connected via a drive to another operational mode recorder input, and memory and accumulator pod-, are connected to the inputs of the control circuit. In FIG. 1 shows the structural scheme of the proposed profiler; in fig. 2 shows an embodiment of threshold units; in fig. 3 is a bass i mini scheme for a 16-arm profiler version with a time-pulse telemetering system. A well profiler contains measuring levers 1 with radius sensors, the signals at the outputs of which are proportional to the radii of the open. measuring levers, telemetering system 2, adders 3 signals of pairs of levers located in the same vertical plane, threshold devices A and 5, memory circuit 6, drive 7, operational information recorder 8, control circuit 9, input keys 10, recorder 11 of all measurement information and timing circuit 12. The device works as follows. The signals from the sensors of the radii of the measuring levers 1 are fed to the input of the telemetering system 2 "From the last output, signals proportional to the radii of the opening of the measuring levers, in parallel to the adders 3 signals of pairs of levers located in the same vertical plane and the inputs of the keys 10. Signals from the outputs of the adders 3, proportional to the diameters, are fed in parallel to the inputs of the threshold blocks k and 5. The threshold for threshold block 4 is 11 cp (l1, and for threshold block 5 is dHOM 2, where X is the nominal value 41 and A2 are normal tolerances from the nominal value to a greater or lesser side. Values I1 or II2 are chosen depending on the accuracy of diameter measurements, technology and geological drilling conditions. Threshold block A is triggered when signal c one of the outputs of the adders 3 will be greater than or equal to the threshold value B „p„ + x1. The memory circuit 6 stores the signal for the duration of one measurement period. At the same time, the operative information recorder 8 fixes the area of possible groove formation in the form of an analogue curve, which deviates from the line of the nominal diameter of the rights to a conventional unit of scale. At the same time, the control circuit 9 operates, opening the keys 10, and the recorder 1 1 of all measuring information records signals proportional to the radii of the opening of the measuring levers. Thus, the area of possible grooves is recorded under the condition that at least one of the borehole diameters exceeds the value B, p (, + g1 or equal to it. Threshold unit 5 is triggered when the signal from one of the outputs of the adders 3 is equal to the threshold value - a2 or less. Each time threshold unit 5 is triggered, one unit of information is sent to drive 7. At the output of drive 7, a signal appears in the event that all signals from the outputs of adders 3 are equal or less than the threshold value DHOM 2.information captures the narrowing section of the wellbore in the form of an analog curve deviating from the nominal diameter line to the left by a conventional unit of scale. At the same time, control circuit 9 opens the keys 10 and the entire measurement information recorder 11 records signals proportional to the radii of the first levers Thus, to register a wellbore narrowing area, it is necessary that all diameters be equal to or smaller than the DHOM 32 value. Synchronization circuit 12 connected to the synchro output Igna telemetric system 2, the first signal to a first output controls the operation of the threshold device 4, and the signals from the second output at the end of each measurement cycle - working storage circuit 6 accumulator 7 and the control circuit 9. The threshold unit (Fig. 2) for the 16-linker version with the time-pulse telemetering system consists of an eight-input circuit OR 13, a two-input circuit AND 1 and a waiting multivibrator 15, and the threshold block 5 - from the input circuit OR-16 OR NOT circuit 17, two-input circuitry AND 18 and a standby multivibrator 19. Positive field pulses, proportional in diameter to duration, from the outputs of adders 3 are parallelly applied to the eight-input circuits OR 13, and 16, executed on 1LB552 (OR-HE) chips. From the output of OR 13, the pulse-width signals of negative polarity are fed to the first input of the AND I circuit, performed on I / IC (1ЛБ553 (ЧЧ-НЕ)), to the second input of which, waiting for 4, has a waiting multivibrator 15, generating an output pulse N 1 of positive polarity with a duration proportional to the value of D + A1. The pulses at the inputs of the AND circuit arrive synchronously, since they are synchronized with the clock frequency of the telemetering system 2 and the synchronization circuit 12. At the output of the circuit AND 1, pulses appear only if any of the measured diameters of the pr value is greater than or equal to, From the output of the circuit OR 1b, the pulse-width signals of the negative polarity are fed to the circuit NOT 17, outputted to l / t IC 1LB553. the output of which is connected to the second input of the AND 18 circuit, to the first input of which is connected a waiting multivibrator 19, generating an output pulse of negative polarity proportional to the value of Hz 2. At the output of the AND 18 circuit, an impulse appears one of the measured diameters is equal to or less than the Sz. g. Memory diagram 6 (FIG. 3) contains triggers 20 and. 2Gi shaper 22 pulses. The trigger 20 is a J Trigger, the trigger 21 is a D trigger, and the pulse shaper 22 is a waiting multivibrator. All the mentioned elements of the memory circuit 6 are executed on integrated circuits of the series 155. With the arrival of the signal from the output of the threshold circuit And Q, the trigger 20 is triggered. At its output, a high potential appears. If the threshold device k is still triggered during the measurement cycle, the trigger 20 continues to be in a single state. At the beginning of a new measurement cycle, the signal from the output of synchronization circuit 12 triggers 21 into one state and stores it during the entire measurement cycle until the next synchronization pulse arrives. The pulse shaper 22 (standby multivibrator) generates a short pulse that resets the trigger 20 to the zero state. The signal from the output of the trigger 21 is transmitted to the control circuit 9 and to the recorder 8, on which the parts of possible groove formation are recorded. Formula from {5treteni Borehole profiler containing. The following are connected measuring levers, a telemetering system, adders of signals of pairs of levers located in the same vertical plane, and recorders, one of which records operational, and the other, all measurement information that is different in that in order to avoid ambiguity in determining intervals of groovy and redundant information recorded by the register of all measurement information, it is provided with threshold blocks for the selection of signals corresponding to the minimum and maximum maximum diameters, memory circuit, accumulator, control circuit, synchronization circuit and recorder input keys of all measurement information; the input of the synchronization circuit is connected to a telemetering system, and one of the outputs is connected to parallel inputs of threshold selection blocks of signals corresponding to the minimum, and maximum diameters, another output of the timing circuit is connected to; connected in parallel to the inputs of the bauin-inin scheme, accumulator and control circuit, control, recorder input keys, measurement information, their inputs are connected to the inputs of the accumulator pair of levers and the output of the control circuit, and outputs to the recorder of all measurement information, output of the threshold unit of signal fusion, corresponding to the maximum diameter, through the memory circuit is connected to one of the inputs of the operational information recorder, the output of the threshold signal extraction unit corresponding to the minimum meter, through the drive is connected to another input of the recorder of operational information, and the outputs of the memory circuit and the accumulator are connected to the inputs of the control circuit. Sources of information taken into account during the examination 1 "USSR Author's Certificate No. 362098, cl. E 21 B, 1972 / 2. Petsky E.M. Study of the technical state of the wellbore by the method of profilometry, M., VIEMS, 1970. 3 Tereshchenko Yu.P. Improvement of equipment with lever devices for monitoring the technical state of the wellbore. - - Oil business, No. 6, 1976, With 1b k. USSR author's certificate number i 38777, cl. E 21 B 47/08, 1974 (prototype). LO tpuf.i sixteen f "e. / ( 17 6  W Fig.Z